Your Convenience! Visit our web site Contents

Size: px

Start display at page:

Download "Your Convenience! Visit our web site Contents"

Warren Briggs
5 years ago
Views:

@ Your Convenience! Visit our web site www.siiic.

also in Chinese (August 007)... MEMORY ICs... 9 SENSORS... 07 MINI ANALOG ICs.

3 @ Your Convenience! Visit our web site Contents Product information/data sheet Technical support Contact All pages are available also in Chinese (August 007)... MEMORY ICs... 9 SENSORS MINI ANALOG ICs... REALTIME CLOCK ICs... 0 PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC... 0 DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS... CMOS IC PACKAGES... 7

4 Contents Power Supply IC Lineup Detectors Product Lineup 0 SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR S000 series SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR S0xxC series SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR S0 series WITH DELAY CIRCUIT (INTERNAL DELAY TIME SETTING) SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR S09xxC series 7 WITH DELAY CIRCUIT (EXTERNAL DELAY TIME SETTING) Regulators Product Lineup 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR S/ series 9 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR ST series 0 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION, WLP PACKAGE AND LOW DROPOUT CMOS VOLTAGE REGULATOR SL9 series 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR S/ series 0mA OUTPUT CURRENT SUPER LOW CURRENT CONSUMPTION, HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR S7 series 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND SMALL PACKAGE CMOS VOLTAGE REGULATOR S series 0mA OUTPUT CURRENT, 0V INPUT VOLTAGE HIGH RIPPLE REJECTION LOW DROPOUT LOW INPUT AND OUTPUT CAPACITANCE CMOS VOLTAGE REGULATOR S00 series 0mA OUTPUT CURRENT, 0V INPUT VOLTAGE HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR SL90 series 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR S series 7 0mA OUTPUT CURRENT SUPER LOW CURRENT CONSUMPTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR S0 series 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT MIDDLE OUTPUT CURRENT CMOS VOLTAGE REGULATOR S series 9 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT MIDDLE OUTPUT CURRENT CMOS VOLTAGE REGULATOR S series 0 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT MIDDLE OUTPUT CURRENT CMOS VOLTAGE REGULATOR S series 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT HIGH OUTPUT CURRENT CMOS VOLTAGE REGULATOR S70 series HIGH OPERATING VOLTAGE CMOS VOLTAGE REGULATOR SC series SUPERSMALL PACKAGE VOLTAGE REGULATOR S7 series EXTERNAL TRANSISTOR TYPE VOLTAGE REGULATOR S series 7 LOW DROPOUT VOLTAGE REGULATOR S series LOW DROPOUT CMOS VOLTAGE REGULATOR S series 9 HIGH RIPPLE REJECTION LOW DROPOUT CMOS VOLTAGE REGULATOR WITH RESET FUNCTION S70 series 0 SUPERSMALL PACKAGE CIRCUIT HIGH RIPPLE REJECTION LOW DROPOUT CMOS VOLTAGE REGULATOR S7 series

5 Contents SUPERSMALL PACKAGE CIRCUIT HIGH RIPPLE REJECTION LOW CURRENT CONSUMPTION LOW DROPOUT CMOS VOLTAGE REGULATOR S7 series Switching Regulators (DCDC Converters) Product Lineup STEPUP, SUPERSMALL PACKAGE, 00kHz, PWM CONTROL OR PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER S//7/ series STEPUP, BUILTIN FET PWM CONTROL, PWM/PFM SWITCHABLE SWITCHING REGULATOR S/ series STEPUP, BUILTIN/EXTERNAL FET PFM CONTROL SWITCHING REGULATOR/SWITCHING REGULATOR CONTROLLER S/ series STEPUP,.MHz HIGHFREQUENCY, PWM CONTROL SWITCHING REGULATOR CONTROLLER S7/ series STEPUP,.MHz HIGHFREQUENCY, PWM CONTROL SWITCHING REGULATOR CONTROLLER S series STEPUP, 00kHz, PWM CONTROL OR PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER S0/ series STEPUP, FOR LCD BIAS SUPPLY, CHANNEL SWITCHING REGULATOR S series 7 STEPUP, FOR LCD BIAS SUPPLY, CHANNEL SWITCHING REGULATOR S0/ series STEPDOWN, BUILTIN FET, SYNCHRONOUS RECTIFICATION,.MHz PWM CONTROL SWITCHING REGULATORS S0/ series 9 STEPDOWN, PWM CONTROL, PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER S0/ series 0 STEPDOWN, 00kHz, PWM CONTROL, PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER S0/ series STEPDOWN, SYNCHRONOUS PWM CONTROL SWITCHING REGULATOR CONTROLLER S series STEPUP OR DOWN, SINGLECOIL, PWM CONTROL SWITCHING REGULATOR CONTROLLER S0 Charge Pumps Product Lineup CHANNEL WHITE LED DRIVER IC (CHARGE PUMP IC WITH BUILTIN CONSTANT CURRENT CIRCUIT) S series STEPUP CHARGE PUMP DCDC CONVERTER S series 7 SUPERLOW VOLTAGE OPERATION CHARGE PUMP IC FOR STEPUP DCDC CONVERTER STARTUP SZ series Product Lineup 9 HIGH WITHSTANDVOLTAGE VOLTAGE REGULATOR WITH RESET FUNCTION S7x series 70 BATTERY BACKUP SWITCHING IC SA series 7 BATTERY BACKUP SWITCHING IC S series 7 BATTERY BACKUP SWITCHING IC SA series 7 Lithiumion Rechargeable Battery Protection ICs Product Lineup 7 BATTERY PROTECTION IC FOR CELL PACK SC/D series 7 BATTERY PROTECTION IC FOR CELL PACK S series 79 BATTERY PROTECTION IC FOR CELL PACK S series BATTERY PROTECTION IC FOR SERIALCELL PACK SB series CONTENTS Detectors Regulators PROGRAMMABLE REALTIME MINI ANALOG ICs SENSORS MEMORY ICs PORT CONTROLLERS, CLOCK ICs Operational Amplifier, Temperature Sensor, E PROM Lithiumion Charge Pumps Switching Regulators MINI LOGIC Comparator Temperature Switch Rechargeable Battery Protection ICs (DCDC Converters) DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES

6 Contents BATTERY PROTECTION IC FOR SERIALCELL PACK S series BATTERY PROTECTION IC FOR SERIALCELL PACK SA/B/C series BATTERY PROTECTION IC FOR SERIAL OR SERIAL CELL PACK SA/B series 90 BATTERY PROTECTION IC FOR SERIAL OR SERIAL CELL PACK SA/B series 9 BATTERY PROTECTION IC FOR SERIAL OR SERIAL CELL PACK S series 9 BATTERY PROTECTION IC FOR TO SERIAL CELL PACK (SECONDARY PROTECTION) SA/B series 9 BATTERY PROTECTION IC FOR TO SERIAL CELL PACK (SECONDARY PROTECTION) S series 9 MEMORY ICs 9 Memory IC Lineup 9 E PROM HIGHLY RELIABLE SII E PROMS FOR AUTOMOTIVE COMPONENTS, SELECTED BY THE DEMANDING AUTOMOTIVE COMPONENT MARKET 97 HIGHRELIABILITY, SCS0A/0A/0A/0A/A/A SUPERSMALL PACKAGE WIRE SERIAL E PROM SCxxC series 9 HIGHRELIABILITY, SUPERSMALL PACKAGE WIRE SERIAL E PROM S9CB/B/B/7A/B 00 HIGHRELIABILITY, WIRE SERIAL E PROM FOR AUTOMOTIVE COMPONENTS WITH C OPERATION GUARANTEED S9AA/A/A/A 0 LOW VOLTAGE OPERATION, SUPERSMALL PACKAGE WIRE SERIAL E PROM SC0BP/0BP 0 LOW VOLTAGE OPERATION, SUPERSMALL PACKAGE WIRE SERIAL E PROM S9LA/A/A/7A 0 FOR DIMM SERIAL PRESENCE DETECT WIRE SERIAL E PROM SC0A 0 HIGHRELIABILITY, SPIBUS SERIAL E PROM SC00A 0 OTHER E PROM 0 SENSORS 07 Sensor Lineup 07 Product Lineup 07 Temperature sensor TEMPERATURE SENSOR IC (SENSITIVITY.0mV/ C) SA/A series 0 TEMPERATURE SENSOR IC (SENSITIVITY.0mV/ C) SA/A series 09 TEMPERATURE SENSOR IC (SENSITIVITY.mV/ C) S0C/0C series 0 TEMPERATURE SENSOR IC (SENSITIVITY.77mV/ C) SLM0A series Temperature switch TEMPERATURE SWITCH IC S0B series TEMPERATURE SWITCH IC S series TEMPERATURE SWITCH IC S0A series

7 Contents MINI ANALOG ICs Mini Analog Lineup Operational Amplifi ers Product Lineup Comparators Product Lineup Operational amplifier 0.μA RAILTORAIL CMOS OPERATIONAL AMPLIFIER Circuit S90A/9A CMOS OPERATIONAL AMPLIFIER Circuit S90A/90A 7 CONTENTS Detectors Comparator 0.7μA RAILTORAIL CMOS COMPARATOR Circuit S90A/9A CMOS COMPARATOR Circuit S90A/90A 9 REALTIME CLOCK ICs 0 RealTime Clock Lineup 0 Product Lineup 0 SII CRYSTAL OSCILLATORS (.7kHz) REALTIME CLOCK S90A/90A REALTIME CLOCK (khz CONTINUOUS OUTPUT) S9A/9A REALTIME CLOCK S99A0/99A0/99A0 REALTIME CLOCK (WITH SWITCH INPUT DETECTION FUNCTION) S790A series PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC 0 Programmable Port Controller Lineup 0 Product Lineup 0 Mini Logic Lineup 0 Product Lineup 0 Programmable Port Controller PROGRAMMABLE PORT CONTROLLER (PORT EXPANDER WITH BUILTIN E PROM CIRCUIT) S770C PROGRAMMABLE PORT CONTROLLER (PORT EXPANDER WITH BUILTIN E PROM CIRCUIT) S770A Mini Logic MINI LOGIC SERIES S7V/7L series DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS DESIGNATED CLIENT PRODUCTS PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES 7 PACKAGE LIST 7 PACKAGE DIMENSIONAL DRAWING AND RECOMMENDED LAND PATTERN For thermal head drivers and paging decoders, see our Web site at SIIIC.COM. For LCD drivers, contact our sales offi ce. Regulators PROGRAMMABLE REALTIME MINI ANALOG ICs SENSORS MEMORY ICs PORT CONTROLLERS, CLOCK ICs Operational Amplifier, Temperature Sensor, E PROM Lithiumion Charge Pumps Switching Regulators MINI LOGIC Comparator Temperature Switch Rechargeable Battery Protection ICs (DCDC Converters) DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES 7

8 Power Supply IC Lineup Package Detectors 0nA Super low current consumption S000 series SOT9 SNTA SCAB SOT TO9 Page Builtin delay circuit Internal delay time setting External delay time setting S0xxC series S0 series S09xxC series 7 Regulators (Positive Output ) Output current up to 7mA Linear regulators Output current up to 0mA LDO regulators Output current up to 00mA LDO regulators Output current up to 0mA LDO regulators Output current up to 00mA LDO regulators Output current up to 00mA LDO regulators Output current up to A Linear regulators Composite ICs 70dB High ripple rejection SNTA (H) (Supersmall) available With ON/OFF function SNTA (Supersmall) available Without ON/OFF function 0dB Super high ripple rejection Equivalent to TK WLP package (supersmall) 70dB High ripple rejection 9μA Superlow current consumption SNTA and SCAB packages 0V input voltage, low current consumption 0V input voltage, Equivalent to LP90 70dB High ripple rejection Low I/O voltage differential Superlow 70dB High ripple current consumption rejection Tantalum capacitors Ceramic capacitors 0V input voltage 70dB High ripple rejection Low I/O voltage differential External transistor Output current up to 0mA Short circuit protection Output current up to 00mA detector voltage regulator 0dB Super high ripple rejection regulators ( circuits) regulators ( circuits) Low current consumption NEW SC series S7 series S/ series ST series SL9 series S/ series S7 series S series S00 series SL90 series S series S0 series S series S series S series S70 series S series S series S series S70 series S7 series S7 series SOT SOT9 SNTA SCAB SOT SOT9 SOT SNTA SNTA(H) * pin HSON(A) SNTA TO9 WLPB Page NEW : New product *. S series only CMOS IC 00700

9 Switching Regulators (DCDC Converters) Stepup Stepdown Stepup & stepdown Charge Pumps Stepup channel white LED driver Stepup Setup DCDC converter startup IC (SuperLow voltage operation) detector voltage regulator (highwithstanding voltage) Battery backup Lithiumion Rechargeable Battery Protection ICs Cell Cell Cell Builtin transistor External transistor Builtin transistor External transistor External transistor Small PFM control PWM control, PWM/PFM switchover PFM control PWM control, PWM/PFM switchover PWM control For LCD Small Small Small External capacitance not required Supersmall, High frequency (00kHz) High frequency (00kHz) High frequency (.MHz) channel channels Synchronous PWM control Small, High frequency (.MHz) PWM control, Small PWM/PFM switchover High frequency (00kHz) Synchronous PWM control Battery voltage monitor External capacitance not required Cell Battery voltage monitor /Cell switching Secondary protection External capacitance not required NEW S series S/ series S series S//7/ series S0/ series S7/ series S series S0/ series S series S0/ series S0/ series S0/ series S series S0 NEW : New product NEW NEW S series S series SZ series S7x series SA series S series SA series : New product SC/D series S series S series S series SB series SA series SA/B/C series SA series SB series SB series S series S series SA/B series SOT SOT9 SOT pin SNB(B) SNTA pin MSOP pin TSSOP SOT SOT9 Package SOTW pin SOP (JEDEC) SOT SOT SNTA pin SNB(B) SNTA pin MSOP pin TSSOP pin SOP pin TSSOP pin TSSOP pin SSOP pin SON(A) pin TSSOP pin TSSOP Page pin SON(B) Page 7 pin SON(B) Page Page CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

10 Detectors Product Lineup We SII offer highprecision voltage detectors which are developed based on CMOS technology. The detection voltage is fi xed internally with an accuracy of ±% to ±.0%. Two output forms Nch opendrain output and CMOS (pushpull) output are selectable. Detection Description Product name Accuracy Operating voltage Current consumption (typ.) Output type Packages voltage SCAB 0nA Superlow current 0nA Nch opendrain / S000 series. to.v ±.0% 0.9 to.v SOT consumption (VDD=detection voltage.v) CMOS (pushpull) output SNTA 0. to.0v.μa SNTA (detection voltage.v typ. (detection voltage.v typ. or SCAB or less models) less, VDD=.V) Nch opendrain / Standard S0xxC series 0. to.0v ±.0% SOT 0.9 to 0V 0.μA CMOS (pushpull) output SOT9 (detection voltage.v typ. (detection voltage.v typ. or TO9 or more models) more, VDD=.V) Builtin delay circuit Nch opendrain / SNTA (internal delay time S0 series. to.0v ±.0% 0.9 to 0V.μA (VDD=.V) CMOS (pushpull) output SOT setting).μa (detection voltage.v Builtin delay circuit SNTA typ. or more, VDD=.V) Nch opendrain / (external delay time S09xxC series. to.0v ±.0% 0.7 to 0V SCAB.0μA (detection voltage.v CMOS (pushpull) output setting) SOT typ. or less, VDD=.0V) 0 CMOS IC 00700

11 SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR Detectors S000 series The S000 series is a highprecision voltage detector developed using CMOS process. The detection voltage is fi xed internally with an accuracy of ±.0%. It operates with low current consumption of 0nA typ. Two output forms, Nch opendrain and CMOS output, are available. CMOS voltage detector, S000 series is the most suitable for the portable equipment with super low current consumption, high precision and corresponding to the small package. PIN CONFIGURATIONS SNTA SOT Detection voltage.v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% OUT NC VDD OUT VDD NC NC SELECTION GUIDE SCAB OUT VDD NC Opendrain (Nch opendrain) [active low] SCAB (000/reel) SOT (000/reel) SNTA (000/reel) S000NNTG S000NNTG S000N7NTG S000NNTG S000N9NTG S000N0NTG S000NNTG S000NNTG S000NNTG S000NNTG S000NNTG S000NNTG S000N7NTG S000NNTG S000N9NTG S000N0NTG S000NNTG S000NNTG S000NNTG S000NNTG S000NNTG S000NNTG S000N7NTG S000NNTG S000N9NTG S000N0NTG S000NNTG S000NNTG S000NNTG S000NNTG S000NNTG S000NNTG S000NMTG S000NMTG S000N7MTG S000NMTG S000N9MTG S000N0MTG S000NMTG S000NMTG S000NMTG S000NMTG S000NMTG S000NMTG S000N7MTG S000NMTG S000N9MTG S000N0MTG S000NMTG S000NMTG S000NMTG S000NMTG S000NMTG S000NMTG S000N7MTG S000NMTG S000N9MTG S000N0MTG S000NMTG S000NMTG S000NMTG S000NMTG S000NMTG S000NMTG S000NITG S000NITG S000N7ITG S000NITG S000N9ITG S000N0ITG S000NITG S000NITG S000NITG S000NITG S000NITG S000NITG S000N7ITG S000NITG S000N9ITG S000N0ITG S000NITG S000NITG S000NITG S000NITG S000NITG S000NITG S000N7ITG S000NITG S000N9ITG S000N0ITG S000NITG S000NITG S000NITG S000NITG S000NITG S000NITG low current consumption: 0nA (0.μA) typ. (VDD=detection voltage.v) Detection voltage accuracy: ±.0% Operating voltage range: 0.9 to.v Hysteresis: % typ. Detection voltage:. to.v (0.V steps) Output type: Active low Opendrain (Nch opendrain) output Active low Pushpull (CMOS output) APPLICATIONS Monitor for power supply of microcomputers and reset for CPUs. Monitor for power supply of portable equipment such as cellular phones, digital still cameras and PDAs. Monitor for constant voltage power supply of cameras, video equipment and communication devices. SCAB (000/reel) S000CNTG S000CNTG S000C7NTG S000CNTG S000C9NTG S000C0NTG S000CNTG S000CNTG S000CNTG S000CNTG S000CNTG S000CNTG S000C7NTG S000CNTG S000C9NTG S000C0NTG S000CNTG S000CNTG S000CNTG S000CNTG S000CNTG S000CNTG S000C7NTG S000CNTG S000C9NTG S000C0NTG S000CNTG S000CNTG S000CNTG S000CNTG S000CNTG S000CNTG Pushpull (CMOS output) [active low] SOT SNTA (000/reel) (000/reel) S000CMTG S000CITG S000CMTG S000CITG S000C7MTG S000C7ITG S000CMTG S000CITG S000C9MTG S000C9ITG S000C0MTG S000C0ITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000C7MTG S000C7ITG S000CMTG S000CITG S000C9MTG S000C9ITG S000C0MTG S000C0ITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000C7MTG S000C7ITG S000CMTG S000CITG S000C9MTG S000C9ITG S000C0MTG S000C0ITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG S000CMTG S000CITG CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC 00700

12 SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR The S0xxC series is a family of highprecision voltage detectors, developed using CMOS technology. The detection voltage is fi xed and its accuracy is ±.0%. Five package types are available for various uses. Opendrain (Nch opendrain) output and Pushpull (CMOS output) are available. PIN CONFIGURATIONS SCAB OUT VDD NC TO9 Mark side OUT VDD SOT9 SOT OUT VDD OUT VDD NC NC Detectors Superlow current consumption:.μa typ. (Product with detection voltage.v typ. or less, VDD=.V) 0.μA typ. (Product with detection voltage.v typ. or more, VDD=.V) Detection voltage accuracy: ±.0% Operating voltage range: 0. to.0v (Product with detection voltage.v typ. or less) 0.9 to 0.0V (Product with detection voltage.v typ. or more) Hysteresis: % typ. Detection voltage: 0. to.0v (0.V steps) Output type: Active low Opendrain (Nch opendrain) output Active low Pushpull (CMOS output) APPLICATIONS S0xxC series Battery checker Power failure detector Monitor for power supply of portable equipment such as pagers, pocket calculators, electronic organizers, remote controllers Monitor for constant voltage power supply of cameras, video equipment, communication devices Monitor for power supply of microcomputers and reset for CPUs SNTA Bottom view OUT NC VDD CMOS IC 00700

13 Detectors SELECTION GUIDE () Opendrain (Nch opendrain) output Opendrain (Nch opendrain) [active low] Detection voltage Hysteresis width SCAB SOT9 SOT (typ.) TO9 * (000/reel) (000/reel) (000/reel) 0.V ±.0% 0.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V typ..v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ± 0.0V.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% 0.0V 0.0V 0.0V 0.0V 0.07V 0.0V 0.09V 0.07V 0.00V 0.0V 0.090V 0.09V 0.00V 0.0V 0.0V 0.V 0.0V. ± 0.V * 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.70V 0.7V 0.0V 0.V 0.90V 0.9V 0.00V 0.0V 0.0V 0.V 0.0V 0.V 0.0V 0.0V max. 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.70V 0.7V 0.0V 0.V 0.90V 0.9V 0.00V S00CNNBB9MTG S009CNNBB9NTG S00CNNBB9OTG S0CNNBB9PTG S0CNNBB9QTG S0CNNBB9RTG S0CNNBB9STG S0CNNBBATG S0CNNBBBTG S07CNNBBCTG S0CNNBBDTG S09CNNBBETG S00CNNBBFTG S0CNNBBGTG S0CNNBBHTG S0CNNBBITG S0CNNBBJTG S0CNNBBKTG S0CNNBBLTG S07CNNBBMTG S0CNNBBNTG S09CNNBBOTG S00CNNBBPTG S0CNNBBQTG S0CNNBBRTG S0CNNBBSTG S0CNNBBTTG S0CNNBBUTG S0CNNBBVTG S07CNNBBWTG S0CNNBBXTG S09CNNBBYTG S00CNNBBZTG S0CNNBBTG S0CNNBBTG S0CNNBBTG S0CNNBBTG S0CNNBBTG S0CNNBB7TG S07CNNBBTG S0CNNBB9TG S09CNNBB9ATG S00CNNBB9BTG S0CNNBB9CTG S0CNNBB9DTG S0CNNBB9ETG S0CNNBB9FTG S0CNNBB9GTG S0CNNBB9HTG S07CNNBB9ITG S0CNNBB9JTG S09CNNBB9KTG S00CNNBB9LTG S0CNYXG S0CNYXG S07CNYXG S0CNYXG S09CNYXG S00CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0KNYXG S0CNYXG S0CNYXG S07CNYXG S0CNYXG S09CNYXG S00CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S07CNYXG S0CNYXG S09CNYXG S00CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0KNYXG S07CNYXG S0CNYXG S09CNYXG S00CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S0CNYXG S07CNYXG S0CNYXG S09CNYXG S00CNYXG S0CNUABATG S0CNUABBTG S07CNUABCTG S0CNUABDTG S09CNUABETG S00CNUABFTG S0CNUABGTG S0CNUABHTG S0CNUABITG S0CNUABJTG S0KNUADBTG S0CNUABKTG S0CNUABLTG S07CNUABMTG S0CNUABNTG S09CNUABOTG S00CNUABPTG S0CNUABQTG S0CNUABRTG S0CNUABSTG S0CNUABTTG S0CNUABUTG S0CNUABVTG S07CNUABWTG S0CNUABXTG S09CNUABYTG S00CNUABZTG S0CNUABTG S0CNUABTG S0CNUABTG S0CNUABTG S0CNUABTG S0CNUAB7TG S0KNUADCTG S07CNUABTG S0CNUAB9TG S09CNUAB9ATG S00CNUAB9BTG S0CNUAB9CTG S0CNUAB9DTG S0CNUAB9ETG S0CNUAB9FTG S0CNUAB9GTG S0CNUAB9HTG S07CNUAB9ITG S0CNUAB9JTG S09CNUAB9KTG S00CNUAB9LTG S0CNMCBATG S0CNMCBBTG S07CNMCBCTG S0CNMCBDTG S09CNMCBETG S00CNMCBFTG S0CNMCBGTG S0CNMCBHTG S0CNMCBITG S0CNMCBJTG S0CNMCBKTG S0CNMCBLTG S07CNMCBMTG S0CNMCBNTG S09CNMCBOTG S00CNMCBPTG S0CNMCBQTG S0CNMCBRTG S0CNMCBSTG S0CNMCBTTG S0CNMCBUTG S0CNMCBVTG S07CNMCBWTG S0CNMCBXTG S09CNMCBYTG S00CNMCBZTG S0CNMCBTG S0CNMCBTG S0CNMCBTG S0CNMCBTG S0CNMCBTG S0CNMCB7TG S07CNMCBTG S0CNMCB9TG S09CNMCB9ATG S00CNMCB9BTG S0CNMCB9CTG S0CNMCB9DTG S0CNMCB9ETG S0CNMCB9FTG S0CNMCB9GTG S0CNMCB9HTG S07CNMCB9ITG S0CNMCB9JTG S09CNMCB9KTG S00CNMCB9LTG *. X is as follows depending on the packing form in TO9. B: Bulk, T: Tape and reel (000/reel), Z: Tape and ammo (00/reel) *. Describes the release voltage. SNTA (000/reel) S00CNPFB9MTFG S009CNPFB9NTFG S00CNPFB9OTFG S0CNPFB9PTFG S0CNPFB9QTFG S0CNPFB9RTFG S0CNPFB9STFG S0CNPFBATFG S0CNPFBBTFG S07CNPFBCTFG S0CNPFBDTFG S09CNPFBETFG S00CNPFBFTFG S0CNPFBGTFG S0CNPFBHTFG S0CNPFBITFG S0CNPFBJTFG S0CNPFBKTFG S0CNPFBLTFG S07CNPFBMTFG S0CNPFBNTFG S09CNPFBOTFG S00CNPFBPTFG S0CNPFBQTFG S0CNPFBRTFG S0CNPFBSTFG S0CNPFBTTFG S0CNPFBUTFG S0CNPFBVTFG S07CNPFBWTFG S0CNPFBXTFG S09CNPFBYTFG S00CNPFBZTFG S0CNPFBTFG S0CNPFBTFG S0CNPFBTFG S0CNPFBTFG S0CNPFBTFG S0CNPFB7TFG S07CNPFBTFG S0CNPFB9TFG S09CNPFB9ATFG S00CNPFB9BTFG S0CNPFB9CTFG S0CNPFB9DTFG S0CNPFB9ETFG S0CNPFB9FTFG S0CNPFB9GTFG S0CNPFB9HTFG S07CNPFB9ITFG S0CNPFB9JTFG S09CNPFB9KTFG S00CNPFB9LTFG Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

14 Detectors SELECTION GUIDE () Pushpull (CMOS output) Detection voltage 0.V ±.0% 0.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V typ..v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% Hysteresis width (typ.) 0.0V 0.0V 0.0V 0.0V 0.07V 0.0V 0.09V 0.07V 0.00V 0.0V 0.090V 0.09V 0.00V 0.0V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.70V 0.7V 0.0V 0.V 0.90V 0.9V 0.00V 0.0V 0.0V 0.V 0.0V.70V max. * 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.70V 0.7V 0.0V 0.V 0.90V 0.9V 0.00V SCAB (000/reel) S00CLNBB7MTG S009CLNBB7NTG S00CLNBB7OTG S0CLNBB7PTG S0CLNBB7QTG S0CLNBB7RTG S0CLNBB7STG S0CLNBBATG S0CLNBBBTG S07CLNBBCTG S0CLNBBDTG S09CLNBBETG S00CLNBBFTG S0CLNBBGTG S0CLNBBHTG S0CLNBBITG S0CLNBBJTG S0CLNBBKTG S0CLNBBLTG S07CLNBBMTG S0CLNBBNTG S09CLNBBOTG S00CLNBBPTG S0CLNBBQTG S0CLNBBRTG S0CLNBBSTG S0CLNBBTTG S0CLNBBUTG S0CLNBBVTG S07CLNBBWTG S0CLNBBXTG S09CLNBBYTG S00CLNBBZTG S0CLNBBTG S0CLNBBTG S0CLNBBTG S0CLNBBTG S0CLNBBTG S0CLNBB7TG S07CLNBBTG S0CLNBB9TG S09CLNBB7ATG S00CLNBB7BTG S0CLNBB7CTG S0CLNBB7DTG S0CLNBB7ETG S0CLNBB7FTG S0CLNBB7GTG S0CLNBB7HTG S07CLNBB7ITG S0CLNBB7JTG S09CLNBB7KTG S00CLNBB7LTG TO9 * S0CLYXG S0CLYXG S07CLYXG S0CLYXG S09CLYXG S00CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S07CLYXG S0CLYXG S09CLYXG S00CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S07CLYXG S0CLYXG S09CLYXG S00CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S0KLYXG S0CLYXG S0CLYXG S07CLYXG S0CLYXG S09CLYXG S00CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S0CLYXG S07CLYXG S0CLYXG S09CLYXG S00CLYXG *. X is as follows depending on the packing form in TO9. B: Bulk, T: Tape and reel (000/reel), Z: Tape and ammo (00/reel) *. Describes the release voltage. Pushpull (CMOS output) [active low] SOT9 SOT (000/reel) (000/reel) S0CLUABATG S0CLMCBATG S0CLUABBTG S0CLMCBBTG S07CLUABCTG S07CLMCBCTG S0CLUABDTG S0CLMCBDTG S09CLUABETG S09CLMCBETG S00CLUABFTG S00CLMCBFTG S0CLUABGTG S0CLMCBGTG S0CLUABHTG S0CLMCBHTG S0CLUABITG S0CLMCBITG S0CLUABJTG S0CLMCBJTG S0CLUABKTG S0CLMCBKTG S0CLUABLTG S0CLMCBLTG S07CLUABMTG S07CLMCBMTG S0CLUABNTG S0CLMCBNTG S09CLUABOTG S09CLMCBOTG S00CLUABPTG S00CLMCBPTG S0CLUABQTG S0CLMCBQTG S0CLUABRTG S0CLMCBRTG S0CLUABSTG S0CLMCBSTG S0CLUABTTG S0CLMCBTTG S0CLUABUTG S0CLMCBUTG S0CLUABVTG S0CLMCBVTG S07CLUABWTG S07CLMCBWTG S0CLUABXTG S0CLMCBXTG S09CLUABYTG S09CLMCBYTG S00CLUABZTG S00CLMCBZTG S0CLUABTG S0CLMCBTG S0CLUABTG S0CLMCBTG S0CLUABTG S0CLMCBTG S0CLUABTG S0CLMCBTG S0KLUADATG S0CLUABTG S0CLMCBTG S0CLUAB7TG S0CLMCB7TG S07CLUABTG S07CLMCBTG S0CLUAB9TG S0CLMCB9TG S09CLUAB7ATG S09CLMCB7ATG S00CLUAB7BTG S00CLMCB7BTG S0CLUAB7CTG S0CLMCB7CTG S0CLUAB7DTG S0CLMCB7DTG S0CLUAB7ETG S0CLMCB7ETG S0CLUAB7FTG S0CLMCB7FTG S0CLUAB7GTG S0CLMCB7GTG S0CLUAB7HTG S0CLMCB7HTG S07CLUAB7ITG S07CLMCB7ITG S0CLUAB7JTG S0CLMCB7JTG S09CLUAB7KTG S09CLMCB7KTG S00CLUAB7LTG S00CLMCB7LTG SNTA (000/reel) S00CLPFB7MTFG S009CLPFB7NTFG S00CLPFB7OTFG S0CLPFB7PTFG S0CLPFB7QTFG S0CLPFB7RTFG S0CLPFB7STFG S0CLPFBATFG S0CLPFBBTFG S07CLPFBCTFG S0CLPFBDTFG S09CLPFBETFG S00CLPFBFTFG S0CLPFBGTFG S0CLPFBHTFG S0CLPFBITFG S0CLPFBJTFG S0CLPFBKTFG S0CLPFBLTFG S07CLPFBMTFG S0CLPFBNTFG S09CLPFBOTFG S00CLPFBPTFG S0CLPFBQTFG S0CLPFBRTFG S0CLPFBSTFG S0CLPFBTTFG S0CLPFBUTFG S0CLPFBVTFG S07CLPFBWTFG S0CLPFBXTFG S09CLPFBYTFG S00CLPFBZTFG S0CLPFBTFG S0CLPFBTFG S0CLPFBTFG S0CLPFBTFG S0CLPFBTFG S0CLPFB7TFG S07CLPFBTFG S0CLPFB9TFG S09CLPFB7ATFG S00CLPFB7BTFG S0CLPFB7CTFG S0CLPFB7DTFG S0CLPFB7ETFG S0CLPFB7FTFG S0CLPFB7GTFG S0CLPFB7HTFG S07CLPFB7ITFG S0CLPFB7JTFG S09CLPFB7KTFG S00CLPFB7LTFG CMOS IC 00700

15 SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR WITH DELAY CIRCUIT (INTERNAL DELAY TIME SETTING) Detectors S0 series The S0 series is a highprecision voltage detector with a fi xed delay time generator, developed using CMOS technology. The detection voltage is fi xed internally with a precision of ±.0%. An integrated oscillator and counter timer make it possible to delay the release signal without using external components. One of three delay times can be selected. Opendrain (Nch opendrain) output and Pushpull (CMOS output) are available. PIN CONFIGURATIONS Detection voltage.v ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0% SOT DS NC OUT VDD Delay time (typ.) 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms CMOS IC SELECTION GUIDE () SOT SNTA Opendrain (Nch opendrain) [active low] S0ANMCJCHTG S0BNMCJGHTG S0CNMCJKHTG S0ANMCJCITG S0BNMCJGITG S0CNMCJKITG S0ANMCJCJTG S0BNMCJGJTG S0CNMCJKJTG S0ANMCJCKTG S0BNMCJGKTG S0CNMCJKKTG S0ANMCJCLTG S0BNMCJGLTG S0CNMCJKLTG S07ANMCJCMTG S07BNMCJGMTG S07CNMCJKMTG S0ANMCJCNTG S0BNMCJGNTG S0CNMCJKNTG S09ANMCJCOTG S09BNMCJGOTG S09CNMCJKOTG S00ANMCJCPTG S00BNMCJGPTG S00CNMCJKPTG S0ANMCJCQTG S0BNMCJGQTG S0CNMCJKQTG S0ANMCJCRTG S0BNMCJGRTG S0CNMCJKRTG S0ANMCJCSTG S0BNMCJGSTG S0CNMCJKSTG S0ANMCJCTTG S0BNMCJGTTG S0CNMCJKTTG S0ANMCJCUTG S0BNMCJGUTG S0CNMCJKUTG S0ANMCJCVTG S0BNMCJGVTG S0CNMCJKVTG S07ANMCJCWTG S07BNMCJGWTG S07CNMCJKWTG S0ANMCJCXTG S0BNMCJGXTG S0CNMCJKXTG S09ANMCJCYTG S09BNMCJGYTG S09CNMCJKYTG S00ANMCJCZTG S00BNMCJGZTG S00CNMCJKZTG S0ANMCJCTG S0BNMCJGTG S0CNMCJKTG DS VDD OUT Pushpull (CMOS output) [active low] S0ALMCJAHTG S0BLMCJEHTG S0CLMCJIHTG S0ALMCJAITG S0BLMCJEITG S0CLMCJIITG S0ALMCJAJTG S0BLMCJEJTG S0CLMCJIJTG S0ALMCJAKTG S0BLMCJEKTG S0CLMCJIKTG S0ALMCJALTG S0BLMCJELTG S0CLMCJILTG S07ALMCJAMTG S07BLMCJEMTG S07CLMCJIMTG S0ALMCJANTG S0BLMCJENTG S0CLMCJINTG S09ALMCJAOTG S09BLMCJEOTG S09CLMCJIOTG S00ALMCJAPTG S00BLMCJEPTG S00CLMCJIPTG S0ALMCJAQTG S0BLMCJEQTG S0CLMCJIQTG S0ALMCJARTG S0BLMCJERTG S0CLMCJIRTG S0ALMCJASTG S0BLMCJESTG S0CLMCJISTG S0ALMCJATTG S0BLMCJETTG S0CLMCJITTG S0ALMCJAUTG S0BLMCJEUTG S0CLMCJIUTG S0ALMCJAVTG S0BLMCJEVTG S0CLMCJIVTG S07ALMCJAWTG S07BLMCJEWTG S07CLMCJIWTG S0ALMCJAXTG S0BLMCJEXTG S0CLMCJIXTG S09ALMCJAYTG S09BLMCJEYTG S09CLMCJIYTG S00ALMCJAZTG S00BLMCJEZTG S00CLMCJIZTG S0ALMCJATG S0BLMCJETG S0CLMCJITG Superlow current consumption:.μa typ. (VDD=.V) Detection voltage accuracy: ±.0% Hysteresis: 0mV typ. Three delay times: 0ms typ. (A series) 00ms typ. (B series) 00ms typ. (C series) Delay time ON/OFF switch available (DS pin). Operating voltage range: 0.9 to 0.0V Detection voltage:. to.0v (0.V steps) Output type: Active low Opendrain (Nch opendrain) output Active low Pushpull (CMOS output) Monitor for power supply of portable equipment such as notebook PCs, digital still cameras, PDAs, and cellular phones Monitor for constant voltage power supply of cameras, video equipment and communication devices Monitor for power supply of microcomputers and reset for CPUs Detection voltage.v ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% APPLICATIONS Delay time (typ.) 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms Opendrain (Nch opendrain) [active low] S0ANMCJCTG S0BNMCJGTG S0CNMCJKTG S0ANMCJCTG S0BNMCJGTG S0CNMCJKTG S0ANMCJCTG S0BNMCJGTG S0CNMCJKTG S0ANMCJCTG S0BNMCJGTG S0CNMCJKTG S0ANMCJC7TG S0BNMCJG7TG S0CNMCJK7TG S07ANMCJCTG S07BNMCJGTG S07CNMCJKTG S0ANMCJC9TG S0BNMCJG9TG S0CNMCJK9TG S09ANMCJDATG S09BNMCJHATG S09CNMCJLATG S00ANMCJDBTG S00BNMCJHBTG S00CNMCJLBTG S0ANMCJDCTG S0BNMCJHCTG S0CNMCJLCTG S0ANMCJDDTG S0BNMCJHDTG S0CNMCJLDTG S0ANMCJDETG S0BNMCJHETG S0CNMCJLETG S0ANMCJDFTG S0BNMCJHFTG S0CNMCJLFTG S0ANMCJDGTG S0BNMCJHGTG S0CNMCJLGTG S0ANMCJDHTG S0BNMCJHHTG S0CNMCJLHTG S07ANMCJDITG S07BNMCJHITG S07CNMCJLITG S0ANMCJDJTG S0BNMCJHJTG S0CNMCJLJTG S09ANMCJDKTG S09BNMCJHKTG S09CNMCJLKTG S00ANMCJDLTG S00BNMCJHLTG S00CNMCJLLTG (000/reel) Pushpull (CMOS output) [active low] S0ALMCJATG S0BLMCJETG S0CLMCJITG S0ALMCJATG S0BLMCJETG S0CLMCJITG S0ALMCJATG S0BLMCJETG S0CLMCJITG S0ALMCJATG S0BLMCJETG S0CLMCJITG S0ALMCJA7TG S0BLMCJE7TG S0CLMCJI7TG S07ALMCJATG S07BLMCJETG S07CLMCJITG S0ALMCJA9TG S0BLMCJE9TG S0CLMCJI9TG S09ALMCJBATG S09BLMCJFATG S09CLMCJJATG S00ALMCJBBTG S00BLMCJFBTG S00CLMCJJBTG S0ALMCJBCTG S0BLMCJFCTG S0CLMCJJCTG S0ALMCJBDTG S0BLMCJFDTG S0CLMCJJDTG S0ALMCJBETG S0BLMCJFETG S0CLMCJJETG S0ALMCJBFTG S0BLMCJFFTG S0CLMCJJFTG S0ALMCJBGTG S0BLMCJFGTG S0CLMCJJGTG S0ALMCJBHTG S0BLMCJFHTG S0CLMCJJHTG S07ALMCJBITG S07BLMCJFITG S07CLMCJJITG S0ALMCJBJTG S0BLMCJFJTG S0CLMCJJJTG S09ALMCJBKTG S09BLMCJFKTG S09CLMCJJKTG S00ALMCJBLTG S00BLMCJFLTG S00CLMCJJLTG CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES

16 Detectors SELECTION GUIDE () SNTA (000/reel) Detection voltage.v ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0% Delay time (typ.) 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms Opendrain (Nch opendrain) [active low] S0ANPFJCHTFG S0BNPFJGHTFG S0CNPFJKHTFG S0ANPFJCITFG S0BNPFJGITFG S0CNPFJKITFG S0ANPFJCJTFG S0BNPFJGJTFG S0CNPFJKJTFG S0ANPFJCKTFG S0BNPFJGKTFG S0CNPFJKKTFG S0ANPFJCLTFG S0BNPFJGLTFG S0CNPFJKLTFG S07ANPFJCMTFG S07BNPFJGMTFG S07CNPFJKMTFG S0ANPFJCNTFG S0BNPFJGNTFG S0CNPFJKNTFG S09ANPFJCOTFG S09BNPFJGOTFG S09CNPFJKOTFG S00ANPFJCPTFG S00BNPFJGPTFG S00CNPFJKPTFG S0ANPFJCQTFG S0BNPFJGQTFG S0CNPFJKQTFG S0ANPFJCRTFG S0BNPFJGRTFG S0CNPFJKRTFG S0ANPFJCSTFG S0BNPFJGSTFG S0CNPFJKSTFG S0ANPFJCTTFG S0BNPFJGTTFG S0CNPFJKTTFG S0ANPFJCUTFG S0BNPFJGUTFG S0CNPFJKUTFG S0ANPFJCVTFG S0BNPFJGVTFG S0CNPFJKVTFG S07ANPFJCWTFG S07BNPFJGWTFG S07CNPFJKWTFG S0ANPFJCXTFG S0BNPFJGXTFG S0CNPFJKXTFG S09ANPFJCYTFG S09BNPFJGYTFG S09CNPFJKYTFG S00ANPFJCZTFG S00BNPFJGZTFG S00CNPFJKZTFG S0ANPFJCTFG S0BNPFJGTFG S0CNPFJKTFG Pushpull (CMOS output) [active low] S0ALPFJAHTFG S0BLPFJEHTFG S0CLPFJIHTFG S0ALPFJAITFG S0BLPFJEITFG S0CLPFJIITFG S0ALPFJAJTFG S0BLPFJEJTFG S0CLPFJIJTFG S0ALPFJAKTFG S0BLPFJEKTFG S0CLPFJIKTFG S0ALPFJALTFG S0BLPFJELTFG S0CLPFJILTFG S07ALPFJAMTFG S07BLPFJEMTFG S07CLPFJIMTFG S0ALPFJANTFG S0BLPFJENTFG S0CLPFJINTFG S09ALPFJAOTFG S09BLPFJEOTFG S09CLPFJIOTFG S00ALPFJAPTFG S00BLPFJEPTFG S00CLPFJIPTFG S0ALPFJAQTFG S0BLPFJEQTFG S0CLPFJIQTFG S0ALPFJARTFG S0BLPFJERTFG S0CLPFJIRTFG S0ALPFJASTFG S0BLPFJESTFG S0CLPFJISTFG S0ALPFJATTFG S0BLPFJETTFG S0CLPFJITTFG S0ALPFJAUTFG S0BLPFJEUTFG S0CLPFJIUTFG S0ALPFJAVTFG S0BLPFJEVTFG S0CLPFJIVTFG S07ALPFJAWTFG S07BLPFJEWTFG S07CLPFJIWTFG S0ALPFJAXTFG S0BLPFJEXTFG S0CLPFJIXTFG S09ALPFJAYTFG S09BLPFJEYTFG S09CLPFJIYTFG S00ALPFJAZTFG S00BLPFJEZTFG S00CLPFJIZTFG S0ALPFJATFG S0BLPFJETFG S0CLPFJITFG Detection voltage.v ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% Delay time (typ.) 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms 0ms 00ms 00ms Opendrain (Nch opendrain) [active low] S0ANPFJCTFG S0BNPFJGTFG S0CNPFJKTFG S0ANPFJCTFG S0BNPFJGTFG S0CNPFJKTFG S0ANPFJCTFG S0BNPFJGTFG S0CNPFJKTFG S0ANPFJCTFG S0BNPFJGTFG S0CNPFJKTFG S0ANPFJC7TFG S0BNPFJG7TFG S0CNPFJK7TFG S07ANPFJCTFG S07BNPFJGTFG S07CNPFJKTFG S0ANPFJC9TFG S0BNPFJG9TFG S0CNPFJK9TFG S09ANPFJDATFG S09BNPFJHATFG S09CNPFJLATFG S00ANPFJDBTFG S00BNPFJHBTFG S00CNPFJLBTFG S0ANPFJDCTFG S0BNPFJHCTFG S0CNPFJLCTFG S0ANPFJDDTFG S0BNPFJHDTFG S0CNPFJLDTFG S0ANPFJDETFG S0BNPFJHETFG S0CNPFJLETFG S0ANPFJDFTFG S0BNPFJHFTFG S0CNPFJLFTFG S0ANPFJDGTFG S0BNPFJHGTFG S0CNPFJLGTFG S0ANPFJDHTFG S0BNPFJHHTFG S0CNPFJLHTFG S07ANPFJDITFG S07BNPFJHITFG S07CNPFJLITFG S0ANPFJDJTFG S0BNPFJHJTFG S0CNPFJLJTFG S09ANPFJDKTFG S09BNPFJHKTFG S09CNPFJLKTFG S00ANPFJDLTFG S00BNPFJHLTFG S00CNPFJLLTFG Pushpull (CMOS output) [active low] S0ALPFJATFG S0BLPFJETFG S0CLPFJITFG S0ALPFJATFG S0BLPFJETFG S0CLPFJITFG S0ALPFJATFG S0BLPFJETFG S0CLPFJITFG S0ALPFJATFG S0BLPFJETFG S0CLPFJITFG S0ALPFJA7TFG S0BLPFJE7TFG S0CLPFJI7TFG S07ALPFJATFG S07BLPFJETFG S07CLPFJITFG S0ALPFJA9TFG S0BLPFJE9TFG S0CLPFJI9TFG S09ALPFJBATFG S09BLPFJFATFG S09CLPFJJATFG S00ALPFJBBTFG S00BLPFJFBTFG S00CLPFJJBTFG S0ALPFJBCTFG S0BLPFJFCTFG S0CLPFJJCTFG S0ALPFJBDTFG S0BLPFJFDTFG S0CLPFJJDTFG S0ALPFJBETFG S0BLPFJFETFG S0CLPFJJETFG S0ALPFJBFTFG S0BLPFJFFTFG S0CLPFJJFTFG S0ALPFJBGTFG S0BLPFJFGTFG S0CLPFJJGTFG S0ALPFJBHTFG S0BLPFJFHTFG S0CLPFJJHTFG S07ALPFJBITFG S07BLPFJFITFG S07CLPFJJITFG S0ALPFJBJTFG S0BLPFJFJTFG S0CLPFJJJTFG S09ALPFJBKTFG S09BLPFJFKTFG S09CLPFJJKTFG S00ALPFJBLTFG S00BLPFJFLTFG S00CLPFJJLTFG CMOS IC 00700

17 SUPERSMALL PACKAGE HIGHPRECISION VOLTAGE DETECTOR WITH DELAY CIRCUIT (EXTERNAL DELAY TIME SETTING) Detectors S09xxC series The S09xxC series is a family of highprecision voltage detectors, developed using CMOS technology. The detection voltage is fi xed and its accuracy is ±.0%. The release signal can be delayed by an external capacitor. Opendrain (Nch opendrain) output and Pushpull (CMOS output) are available. PIN CONFIGURATIONS SNTA Detection voltage OUT CD VDD.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% Hysteresis width (typ.) 0.0V 0.070V 0.07V 0.00V 0.0V 0.090V 0.09V 0.00V 0.0V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.70V 0.7V 0.0V 0.V 0.90V 0.9V 0.00V 0.0V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.0V 0.V 0.70V 0.7V 0.0V 0.V 0.90V 0.9V 0.00V SCAB VDD CD OUT SELECTION GUIDE SCAB (000/reel) S09CNNBGHTG S09CNNBGJTG S09CNNBGKTG S09CNNBGLTG S097CNNBGMTG S09CNNBGNTG S099CNNBGPTG S090CNNBGQTG S09CNNBGRTG S09CNNBGSTG S09CNNBGTTG S09CNNBGUTG S09CNNBGVTG S09CNNBGWTG S097CNNBGXTG S09CNNBGYTG S099CNNBGZTG S090CNNBG0TG S09CNNBGTG S09CNNBGTG S09CNNBGTG S09CNNBGTG S09CNNBGTG S09CNNBGTG S097CNNBG7TG S09CNNBGTG S099CNNBG9TG S090CNNBG9ATG S09CNNBG9BTG S09CNNBG9CTG S09CNNBG9DTG S09CNNBG9ETG S09CNNBG9FTG S09CNNBG9GTG S097CNNBG9HTG S09CNNBG9JTG S099CNNBG9KTG S090CNNBG9LTG S09CNNBG9MTG S09CNNBG9NTG S09CNNBG9PTG S09CNNBG9QTG S09CNNBG9RTG S09CNNBG9STG S097CNNBG9TTG S09CNNBG9UTG S099CNNBG9VTG S090CNNBG9WTG SOT OUT VDD NC CD Opendrain (Nch opendrain) [active low] SOT (000/reel) S09CNMCGHTG S09CNMCGJTG S09CNMCGKTG S09CNMCGLTG S097CNMCGMTG S09CNMCGNTG S099CNMCGPTG S090CNMCGQTG S09CNMCGRTG S09CNMCGSTG S09CNMCGTTG S09CNMCGUTG S09CNMCGVTG S09CNMCGWTG S097CNMCGXTG S09CNMCGYTG S099CNMCGZTG S090CNMCG0TG S09CNMCGTG S09CNMCGTG S09CNMCGTG S09CNMCGTG S09CNMCGTG S09CNMCGTG S097CNMCG7TG S09CNMCGTG S099CNMCG9TG S090CNMCG9ATG S09CNMCG9BTG S09CNMCG9CTG S09CNMCG9DTG S09CNMCG9ETG S09CNMCG9FTG S09CNMCG9GTG S097CNMCG9HTG S09CNMCG9JTG S099CNMCG9KTG S090CNMCG9LTG S09CNMCG9MTG S09CNMCG9NTG S09CNMCG9PTG S09CNMCG9QTG S09CNMCG9RTG S09CNMCG9STG S097CNMCG9TTG S09CNMCG9UTG S099CNMCG9VTG S090CNMCG9WTG Superlow current consumption:.0μa typ. (Product with detection voltage.v typ. or less, VDD=.0V).μA typ. (Product with detection voltage.v typ. or more, VDD=.V) Detection voltage accuracy: ±.0% Operating voltage range: 0.7 to 0.0V Hysteresis: % typ. SNTA (000/reel) S09CNPFGHTFG S09CNPFGJTFG S09CNPFGKTFG S09CNPFGLTFG S097CNPFGMTFG S09CNPFGNTFG S099CNPFGPTFG S090CNPFGQTFG S09CNPFGRTFG S09CNPFGSTFG S09CNPFGTTFG S09CNPFGUTFG S09CNPFGVTFG S09CNPFGWTFG S097CNPFGXTFG S09CNPFGYTFG S099CNPFGZTFG S090CNPFG0TFG S09CNPFGTFG S09CNPFGTFG S09CNPFGTFG S09CNPFGTFG S09CNPFGTFG S09CNPFGTFG S097CNPFG7TFG S09CNPFGTFG S099CNPFG9TFG S090CNPFG9ATFG S09CNPFG9BTFG S09CNPFG9CTFG S09CNPFG9DTFG S09CNPFG9ETFG S09CNPFG9FTFG S09CNPFG9GTFG S097CNPFG9HTFG S09CNPFG9JTFG S099CNPFG9KTFG S090CNPFG9LTFG S09CNPFG9MTFG S09CNPFG9NTFG S09CNPFG9PTFG S09CNPFG9QTFG S09CNPFG9RTFG S09CNPFG9STFG S097CNPFG9TTFG S09CNPFG9UTFG S099CNPFG9VTFG Detection voltage: Output type:. to.0v (0.V steps) Active low Opendrain (Nch opendrain) output Active low Pushpull (CMOS output) APPLICATIONS Monitor for power supply of portable applications such as notebook PCs, digital still cameras, PDAs, and cellular phones Monitor for constant voltage power supply of cameras, video equipment, communication devices Monitor for power supply of microcomputers and reset for CPUs SCAB (000/reel) S09CLNBGHTG S09CLNBGJTG S09CLNBGKTG S09CLNBGLTG S097CLNBGMTG S09CLNBGNTG S099CLNBGPTG S090CLNBGQTG S09CLNBGRTG S09CLNBGSTG S09CLNBGTTG S09CLNBGUTG S09CLNBGVTG S09CLNBGWTG S097CLNBGXTG S09CLNBGYTG S099CLNBGZTG S090CLNBG0TG S09CLNBGTG S09CLNBGTG S09CLNBGTG S09CLNBGTG S09CLNBGTG S09CLNBGTG S097CLNBG7TG S09CLNBGTG S099CLNBG9TG S090CLNBG7ATG S09CLNBG7BTG S09CLNBG7CTG S09CLNBG7DTG S09CLNBG7ETG S09CLNBG7FTG S09CLNBG7GTG S097CLNBG7HTG S09CLNBG7JTG S099CLNBG7KTG S090CLNBG7LTG S09CLNBG7MTG S09CLNBG7NTG S09CLNBG7PTG S09CLNBG7QTG S09CLNBG7RTG S09CLNBG7STG S097CLNBG7TTG S09CLNBG7UTG S099CLNBG7VTG S090CNPFG9WTFG S090CLNBG7WTG Pushpull (CMOS output) [active low] SOT (000/reel) S09CLMCGHTG S09CLMCGJTG S09CLMCGKTG S09CLMCGLTG S097CLMCGMTG S09CLMCGNTG S099CLMCGPTG S090CLMCGQTG S09CLMCGRTG S09CLMCGSTG S09CLMCGTTG S09CLMCGUTG S09CLMCGVTG S09CLMCGWTG S097CLMCGXTG S09CLMCGYTG S099CLMCGZTG S090CLMCG0TG S09CLMCGTG S09CLMCGTG S09CLMCGTG S09CLMCGTG S09CLMCGTG S09CLMCGTG S097CLMCG7TG S09CLMCGTG S099CLMCG9TG S090CLMCG7ATG S09CLMCG7BTG S09CLMCG7CTG S09CLMCG7DTG S09CLMCG7ETG S09CLMCG7FTG S09CLMCG7GTG S097CLMCG7HTG S09CLMCG7JTG S099CLMCG7KTG S090CLMCG7LTG S09CLMCG7MTG S09CLMCG7NTG S09CLMCG7PTG S09CLMCG7QTG S09CLMCG7RTG S09CLMCG7STG S097CLMCG7TTG S09CLMCG7UTG S099CLMCG7VTG S090CLMCG7WTG SNTA (000/reel) S09CLPFGHTFG S09CLPFGJTFG S09CLPFGKTFG S09CLPFGLTFG S097CLPFGMTFG S09CLPFGNTFG S099CLPFGPTFG S090CLPFGQTFG S09CLPFGRTFG S09CLPFGSTFG S09CLPFGTTFG S09CLPFGUTFG S09CLPFGVTFG S09CLPFGWTFG S097CLPFGXTFG S09CLPFGYTFG S099CLPFGZTFG S090CLPFG0TFG S09CLPFGTFG S09CLPFGTFG S09CLPFGTFG S09CLPFGTFG S09CLPFGTFG S09CLPFGTFG S097CLPFG7TFG S09CLPFGTFG S099CLPFG9TFG S090CLPFG7ATFG S09CLPFG7BTFG S09CLPFG7CTFG S09CLPFG7DTFG S09CLPFG7ETFG S09CLPFG7FTFG S09CLPFG7GTFG S097CLPFG7HTFG S09CLPFG7JTFG S099CLPFG7KTFG S090CLPFG7LTFG S09CLPFG7MTFG S09CLPFG7NTFG S09CLPFG7PTFG S09CLPFG7QTFG S09CLPFG7RTFG S09CLPFG7STFG S097CLPFG7TTFG S09CLPFG7UTFG S099CLPFG7VTFG S090CLPFG7WTFG CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

18 Regulators Product Lineup We SII offer positive voltage regulators which are developed based on CMOS technology with low dropout voltage, high output voltage accuracy, and low current consumption. Various capacitors such as small ceramic capacitors are available for external output. Description Product name Features Input voltage Output voltage Accuracy Standby Current current consumption consumption (typ.) (typ.) Highwithstand SC series voltage Linear V max..0 to.0v ±.0%.0μA 0.μA regulator, output current up to 7 ma S7 series Supersmall 0V max.. to.0v ±.0%.μA S/ Ripple rejection.0 to.v series rate: 0dB. to.v ±.0% 0μA 0.μA ST series Ripple rejection.0 to.v rate: 0dB. to.v ±.0% 0μA 0.μA SL9 series Ripple rejection.0 to.v rate: 0dB. to.v ±.0% 0μA 0.μA S/ Ripple rejection.0 to.v series rate: 70dB. to.v ±.0% μa 0.μA LDO regulator, Ripple rejection output current S7 series.0 to.v rate: 70dB up to 0 ma. to.v ±.0% 9μA 0.μA S series Ripple rejection.0 to.v rate: 70dB. to.v ±.0% 70μA 0.μA Dropout voltage (typ.) 0.V (VOUT=.0V, IOUT=0mA) 0.V (VOUT=.0V,I OUT=0mA) 0.9V (VOUT=.0V, IOUT=00mA) 0.9V (VOUT=.0V, IOUT=00mA) 0.9V (VOUT=.0V, IOUT=00mA) 0.0V (VOUT=.0V, IOUT=00mA) 0.V (VOUT=.0V, IOUT=00mA) 0.0V (VOUT=.0V, IOUT=0mA) Input Output capacitor capacitor Ceramic Ceramic Ceramic.0μF Ceramic 0.μF Ceramic.0μF Tantalum.0μF Ceramic.0μF Packages SNTA (H) SOT Ceramic SOT9 SOT9 TO9 SNTA SOT Ceramic SOT9 0.μF TO9 SCAB Ceramic SNTA(H) 0.7μF SOT Ceramic SOT 0.μF Ceramic 0.7μF WLPB Tantalum SOT.μF SOT Ceramic.0μF SNTA(H) Ceramic Ceramic SCAB.0μF.0μF SNTA S00 series Ripple rejection rate: 70dB.0 to 0V. to.v ±.0% μa 0.0μA 0.V (VOUT=.0V, IOUT=00mA) Ceramic 0.μF Ceramic 0.μF SNTA(H) SOT SL90 series LDO regulator, output current S series up to 00mA LDO regulator, output current S0 series up to 0mA S series Ripple rejection.0 to 0V. to.0v ±.0% 90μA 0.μA rate: 70dB Ripple rejection.0 to.v. to.v ±.0% μa 0.μA rate: 70dB Superlow current.7 to.v consumption. to.v ±.0%.0μA Ripple rejection.0 to.v rate: 70dB. to.v ±.0% μa 0.μA LDO regulator, Ripple rejection S series.0 to.v output current rate: 70dB up to 00mA. to.v. to.v ±.0% 0μA 0.0μA S series Ripple rejection (for externally set type).0 to 0V rate: 70dB. to.0v ±.0% 0μA 0.μA (for fi xed output type) LDO regulator, Ripple rejection output current S70 series.0 to.v rate: 70dB up to 00mA. to.v ±.0% 0μA 0.μA Linear regulator, S series output current External transistor. to V. to.0v ±.0% 0μA μa up to A Output current S series up to 0mA 0V max..0 to.0v ±.0% 0μA 0.μA Output current S series up to 00mA 0V max..0 to.0v ±.0% 0μA 0.μA.0 to.v. to.0v VDVR, Composite (VR) (VR) S70 series Ripple rejection (Up to 00mA) 0. to.v. to.v rate: 70dB (VD) (VD) ±.0% μa VR, Ripple 70μA S7 series rejection rate:.0 to.v. to.v ±.0% (VR) Composite 70dB 0.μA (Up to 0mA) VR, Ripple S7 series μa rejection rate:.7 to.v. to.0v ±.0% (VR) 0dB 0.μA NEW NEW : New product 0.V (VOUT=.0V, IOUT=0mA) 0.V (VOUT=.0V, IOUT=00mA) 0.V (VOUT=.0V, IOUT=00mA) 0.V (VOUT=.0V,IOUT=00mA) 0.V (VOUT=.0V,IOUT=00mA) 0.V (VOUT=.0V, IOUT=00mA) 0.V (VOUT=.0V, IOUT=00mA) 0.0V (VOUT=.0V, IOUT=00mA) 0.7V (VOUT=.0V, IOUT=0mA) 0.7V (VOUT=.0V, IOUT=0mA) 0.V (VOUT=.0V, IOUT=00mA) 0.0V (VOUT=.0V, IOUT=0mA) 0.V (VOUT=.0V, IOUT=00mA) Ceramic Ceramic SOT 0.7μF.0μF Tantalum Tantalum SOT.0μF.μF SOT9 Ceramic Ceramic SNTA(H) 0.μF 0.μF SOT SOT9 Tantalum Tantalum SOT9.0μF.μF Pin HSON(A) SOT Ceramic Ceramic SOT9 0.μF 0.μF SNTA(H) SOT9 Ceramic.0μF Ceramic.0μF SNTA Ceramic Ceramic SOT9.7μF.7μF Pin HSON(A) Tantalum Tantalum SOT.7μF.7μF Ceramic Ceramic SOT 0.7μF SOT9 Ceramic Ceramic SOT 0.7μF.0μF SOT9 SOT Ceramic Ceramic.0μF.0μF SOT9 Ceramic Ceramic SNTA.0μF.0μF SOT Ceramic Ceramic SNTA.0μF.0μF SOT CMOS IC 00700

19 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators S/ series The S/ series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Moreover, the battery life can be extended by using the poweroff circuit. A greater variety of capacitors can be used with this series compared with existing voltage regulators developed using CMOS technology, including a small ceramic capacitor. Small SOT and SNTA(H) packages realize highdensity mounting. PIN CONFIGURATIONS SNTA(H) S NC ON/OFF VIN VOUT SELECTION GUIDE SOT S VIN ON/OFF NC VOUT S VOUT VIN ON/OFF NC Low current consumption 0μA typ., 90μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 90mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 0dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Output capacitor: Use of a ceramic capacitor of 0.7μF or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Power supply for cellular phones S series S series Dropout voltage Output current Current consumption Output voltage.v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% SOT (000/reel) SBMCLATFG SBMCLBTFG SB7MCLCTFG SBMCLDTFG SB9MCLETFG SB0MCLFTFG SBMCLGTFG SBMCLHTFG SBMCLITFG SBMCLJTFG SBMCLKTFG SBMCLLTFG SB7MCLMTFG SBMCLNTFG SBJMCL7PTFG SB9MCLOTFG SB0MCLPTFG SBMCLQTFG SBMCLRTFG SBMCLSTFG SBMCLTTFG SBMCLUTFG SBMCLVTFG SB7MCLWTFG SBMCLXTFG SB9MCLYTFG SB0MCLZTFG SBMCL7ATFG SBMCL7BTFG SBMCL7CTFG SBMCL7DTFG SBMCL7ETFG SBMCL7FTFG SB7MCL7GTFG SBMCL7HTFG SB9MCL7ITFG SB0MCL7JTFG SBMCL7KTFG SBMCL7LTFG SBMCL7MTFG SBMCL7NTFG SBMCL7OTFG SNTA(H) (000/reel) SBPILATFG SBPILBTFG SB7PILCTFG SBPILDTFG SB9PILETFG SB0PILFTFG SBPILGTFG SBPILHTFG SBPILITFG SBPILJTFG SBPILKTFG SBPILLTFG SB7PILMTFG SBPILNTFG SBJPIL7PTFG SB9PILOTFG SB0PILPTFG SBPILQTFG SBPILRTFG SBPILSTFG SBPILTTFG SBPILUTFG SBPILVTFG SB7PILWTFG SBPILXTFG SB9PILYTFG SB0PILZTFG SBPIL7ATFG SBPIL7BTFG SBPIL7CTFG SBPIL7DTFG SBPIL7ETFG SBPIL7FTFG SB7PIL7GTFG SBPIL7HTFG SB9PIL7ITFG SB0PIL7JTFG SBPIL7KTFG SBPIL7LTFG SBPIL7MTFG SBPIL7NTFG SBPIL7OTFG SOT (000/reel) SBMCLATFG SBMCLBTFG SB7MCLCTFG SBMCLDTFG SB9MCLETFG SB0MCLFTFG SBMCLGTFG SBMCLHTFG SBMCLITFG SBMCLJTFG SBMCLKTFG SBMCLLTFG SB7MCLMTFG SBMCLNTFG SB9MCLOTFG SB0MCLPTFG SBMCLQTFG SBMCLRTFG SBMCLSTFG SBMCLTTFG SBMCLUTFG SBMCLVTFG SB7MCLWTFG SBMCLXTFG SB9MCLYTFG SB0MCLZTFG SBMCL9ATFG SBMCL9BTFG SBMCL9CTFG SBMCL9DTFG SBMCL9ETFG SBMCL9FTFG SB7MCL9GTFG SBMCL9HTFG SB9MCL9ITFG SB0MCL9JTFG SBMCL9KTFG SBMCL9LTFG SBMCL9MTFG SBMCL9NTFG SBMCL9OTFG (typ.) (IOUT=00mA) 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V (min.) (VIN VOUT(S).0V) 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA during operation (typ.) (VIN=VOUT(S).0V, no load) 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

20 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators ST series The ST series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Moreover, the battery life can be extended by using the poweroff circuit. A greater variety of capacitors can be used with this series compared with existing voltage regulators developed using CMOS technology, including a small ceramic capacitor. The small SOT package realizes highdensity mounting. PIN CONFIGURATION SOT ON/OFF NC VOUT VIN Low current consumption 0μA typ., 90μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 90mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 0dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of 0.μF or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Power supply for cellular phones SELECTION GUIDE Output voltage SOT Dropout voltage (typ.) Output current (min.) Current consumption during operation (typ.) (000/reel) (IOUT=0mA) (IOUT=00mA) (VIN VOUT(S).0V) (VIN=VOUT(S).0V, no load).v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% STBMCOGATFG STBMCOGBTFG STB7MCOGCTFG STBMCOGDTFG STB9MCOGETFG STB0MCOGFTFG STBMCOGGTFG STBMCOGHTFG STBMCOGITFG STBMCOGJTFG STBMCOGKTFG STBMCOGLTFG STB7MCOGMTFG STBMCOGNTFG STB9MCOGOTFG STB0MCOGPTFG STBMCOGQTFG STBMCOGRTFG STBMCOGSTFG STBMCOGTTFG STBMCOGUTFG STBMCOGVTFG STB7MCOGWTFG STBMCOGXTFG STB9MCOGYTFG STB0MCOGZTFG STBMCOHATFG STBMCOHBTFG STBMCOHCTFG STBMCOHDTFG STBMCOHETFG STBMCOHFTFG STB7MCOHGTFG STBMCOHHTFG STB9MCOHITFG STB0MCOHJTFG STBMCOHKTFG STBMCOHLTFG STBMCOHMTFG STBMCOHNTFG STBMCOHOTFG Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed Not prescribed 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. 0 CMOS IC 00700

21 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION, WLP PACKAGE AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators SL9 series The SL9 series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Moreover, the battery life can be extended by using the poweroff circuit. A greater variety of capacitors can be used with this series compared with existing voltage regulators developed using CMOS technology, including a small ceramic capacitor. The supersmall WLPB package realizes highdensity mounting. PIN CONFIGURATION WLPB SELECTION GUIDE VOUT VIN ON/OFF ( max.) (Unit : mm) Low current consumption 0μA typ., 90μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 90mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 0dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Output capacitor: Use of a ceramic capacitor of 0.7μF or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Power supply for cellular phones Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs Output voltage WLPB Dropout voltage (typ.) Output current (min.) Current consumption during operation (typ.) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V) (VIN=VOUT(S).0V, no load).v ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.0V ±.0% SL9BHT SL9BHT SL9BHT SL9BHT SL9B7HT SL9BHT SL9B9HT SL9B0HT SL9BHT SL9BHT SL9BHT SL9BHT SL9BHT SL9B0HT 0.V 0.V 0.0V 0.0V 0.0V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0.9V 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

22 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators S/ series The S/ series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Moreover, the battery life can be extended by using the poweroff circuit. Small SOT package realizes highdensity mounting. The lineup includes the S and S series, which differ in pin confi guration. PIN CONFIGURATION SOT S VIN ON/OFF NC VOUT S VOUT VIN ON/OFF NC Low current consumption μa typ., μa max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 00mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Power supply for cellular phones SELECTION GUIDE S series Output voltage SOT (000/reel).V ±.0% SBMCNYATFG.V ±.0% SBMCNYBTFG.7V ±.0% SB7MCNYCTFG.V ±.0% SBMCNYDTFG.9V ±.0% SB9MCNYETFG.0V ±.0% SB0MCNYFTFG.V ±.0% SBMCNYGTFG.V ±.0% SBMCNYHTFG.V ±.0% SBMCNYITFG.V ±.0% SBMCNYJTFG.V ±.0% SBMCNYKTFG.V ±.0% SBMCNYLTFG.7V ±.0% SB7MCNYMTFG.V ±.0% SBMCNYNTFG.9V ±.0% SB9MCNYOTFG.0V ±.0% SB0MCNYPTFG.V ±.0% SBMCNYQTFG.V ±.0% SBMCNYRTFG.V ±.0% SBMCNYSTFG.V ±.0% SBMCNYTTFG.V ±.0% SBMCNYUTFG.V ±.0% SBMCNYVTFG.7V ±.0% SB7MCNYWTFG.V ±.0% SBMCNYXTFG.9V ±.0% SB9MCNYYTFG.0V ±.0% SB0MCNYZTFG.V ±.0% SBMCNZATFG.V ±.0% SBMCNZBTFG.V ±.0% SBMCNZCTFG.V ±.0% SBMCNZDTFG.V ±.0% SBMCNZETFG.V ±.0% SBMCNZFTFG.7V ±.0% SB7MCNZGTFG.7V ±.0%.V ±.0% SBMCNZHTFG.9V ±.0% SB9MCNZITFG.0V ±.0% SB0MCNZJTFG.V ±.0% SBMCNZKTFG.V ±.0% SBMCNZLTFG.V ±.0% SBMCNZMTFG.V ±.0% SBMCNZNTFG.V ±.0% SBMCNZOTFG S series SOT (000/reel) SBMCNATFG SBMCNBTFG SB7MCNCTFG SBMCNDTFG SB9MCNETFG SB0MCNFTFG SBMCNGTFG SBMCNHTFG SBMCNITFG SBMCNJTFG SBMCNKTFG SBMCNLTFG SB7MCNMTFG SBMCNNTFG SB9MCNOTFG SB0MCNPTFG SBMCNQTFG SBMCNRTFG SBMCNSTFG SBMCNTTFG SBMCNUTFG SBMCNVTFG SB7MCNWTFG SBMCNXTFG SB9MCNYTFG SB0MCNZTFG SBMCNATFG SBMCNBTFG SBMCNCTFG SBMCNDTFG SBMCNETFG SBMCNFTFG SB7MCNGTFG SBHMCNPTFG SBMCNHTFG SB9MCNITFG SB0MCNJTFG SBMCNKTFG SBMCNLTFG SBMCNMTFG SBMCNNTFG SBMCNOTFG Dropout voltage (typ.) (IOUT=00mA) 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V Output current (min.) (VIN VOUT(S).0V) 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. CMOS IC 00700

23 0mA OUTPUT CURRENT SUPER LOW CURRENT CONSUMPTION, HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators S7 series The S7 series is a positive voltage regulator with super low current consumption, high ripple rejection, low dropout voltage and high output voltage accuracy developed based on CMOS technology. Although current consumption is as very small as 9μA typ., S7 series realized the 70dB of high ripple rejection rate. Besides a.0μf ceramic capacitor is available as an inputandoutput capacitor. Moreover, dropout voltage is also small since output voltage accuracy realizes high accuracy of ±.0%, and the lowonresistance transistor is builtin. A builtin output current protector prevents the load current from exceeding the current capacitance of the output transistor. A poweroff circuit ensures long battery life. Two packages, SNTA(H) and SOT, are available. Compared with the voltage regulators using the conventional CMOS process, S7 series is the most suitable for the portable equipment due to the super low current consumption and corresponding to small packages. SNTA(H) PIN CONFIGURATIONS VOUT NC ON/OFF VIN SELECTION GUIDE SOT VIN ON/OFF NC VOUT Low current consumption 9μA typ., μa max. (during operation) 0.μA typ., 0.9μA max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of.0μf or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for cellular phones Power supply for portable equipment CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs Output voltage SOT SNTA(H) Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V). V ±.0%. V ±.0%.7 V ±.0%. V ±.0%.9 V ±.0%.0 V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%.7 V ±.0%. V ±.0%.9 V ±.0%.0 V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%.7 V ±.0%. V ±.0%.9 V ±.0%.0 V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%.7 V ±.0%. V ±.0%.9 V ±.0%.0 V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0%. V ±.0% S7BMTG S7BMTG S7B7MTG S7BMTG S7B9MTG S7B0MTG S7BMTG S7BMTG S7BMTG S7BMTG S7BMTG S7BMTG S7B7MTG S7BMTG S7B9MTG S7B0MTG S7BMTG S7BMTG S7BMTG S7BMTG S7BMTG S7BMTG S7B7MTG S7BMTG S7B9MTG S7B0MTG S7BMTG S7BMTG S7BMTG S7BMTG S7BMTG S7BMTG S7B7MTG S7BMTG S7B9MTG S7B0MTG S7BMTG S7BMTG S7BMTG S7BMTG S7BMTG S7BITG S7BITG S7B7ITG S7BITG S7B9ITG S7B0ITG S7BITG S7BITG S7BITG S7BITG S7BITG S7BITG S7B7ITG S7BITG S7B9ITG S7B0ITG S7BITG S7BITG S7BITG S7BITG S7BITG S7BITG S7B7ITG S7BITG S7B9ITG S7B0ITG S7BITG S7BITG S7BITG S7BITG S7BITG S7BITG S7B7ITG S7BITG S7B9ITG S7B0ITG S7BITG S7BITG S7BITG S7BITG S7BITG 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA 9μA REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC 00700

24 0mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND SMALL PACKAGE CMOS VOLTAGE REGULATOR Regulators S series The S series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Moreover, the battery life can be extended by using the poweroff circuit. A small SNTA and SCAB package realizes highdensity mounting. PIN CONFIGURATIONS SNTA VOUT VIN ON/OFF SCAB VOUT ON/OFF VIN Low current consumption 70μA typ., 90μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 00mV typ. (product with.0v output, when IOUT=0mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of.0μf or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Power supply for cellular phones SELECTION GUIDE Output voltage SNTA SCAB Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (IOUT=0mA) (VIN VOUT(S).0V).V ±.0%.V ±.0%.7V ±.0%.V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% SBPFNATFG SBPFNBTFG SB7PFNCTFG SBPFNDTFG SBJPFN9PTFG SB9PFNETFG SB0PFNFTFG SBPFNGTFG SBPFNHTFG SBPFNITFG SBPFNJTFG SBPFNKTFG SBPFNLTFG SB7PFNMTFG SBPFNNTFG SBJPFN9QTFG SB9PFNOTFG SB0PFNPTFG SBPFNQTFG SBPFNRTFG SBPFNSTFG SBPFNTTFG SBPFNUTFG SBPFNVTFG SB7PFNWTFG SBPFNXTFG SB9PFNYTFG SB0PFNZTFG SBPFN9ATFG SBPFN9BTFG SBPFN9CTFG SBPFN9DTFG SBPFN9ETFG SBPFN9FTFG SB7PFN9GTFG SBPFN9HTFG SB9PFN9ITFG SB0PFN9JTFG SBPFN9KTFG SBPFN9LTFG SBPFN9MTFG SBPFN9NTFG SBPFN9OTFG SBNBNATFG SBNBNBTFG SB7NBNCTFG SBNBNDTFG SB9NBNETFG SB0NBNFTFG SBNBNGTFG SBNBNHTFG SBNBNITFG SBNBNJTFG SBNBNKTFG SBNBNLTFG SB7NBNMTFG SBNBNNTFG SB9NBNOTFG SB0NBNPTFG SBNBNQTFG SBNBNRTFG SBNBNSTFG SBNBNTTFG SBNBNUTFG SBNBNVTFG SB7NBNWTFG SBNBNXTFG SB9NBNYTFG SB0NBNZTFG SBNBN9ATFG SBNBN9BTFG SBNBN9CTFG SBNBN9DTFG SBNBN9ETFG SBNBN9FTFG SB7NBN9GTFG SBNBN9HTFG SB9NBN9ITFG SB0NBN9JTFG SBNBN9KTFG SBNBN9LTFG SBNBN9MTFG SBNBN9NTFG SBNBN9OTFG 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA 70μA CMOS IC 00700

25 0mA OUTPUT CURRENT, 0V INPUT VOLTAGE HIGH RIPPLE REJECTION LOW DROPOUT LOW INPUT AND OUTPUT CAPACITANCE CMOS VOLTAGE REGULATOR Regulators S00 series The S00 series is a positive voltage regulator with a low dropout voltage, high output voltage accuracy developed based on CMOS technology. A 0.μF small ceramic capacitor can be used. It operates with low current consumption of μa typ. A builtin output current protector prevents the load current from exceeding the current capacitance of the output transistor. Compared with the voltage regulators using the conventional CMOS process, small ceramic capacitors are also available. Furthermore a small SNTA(H) and SOT packages realize highdensity mounting. SNTA(H) PIN CONFIGURATIONS VOUT NC ON/OFF VIN SELECTION GUIDE SOT VIN ON/OFF NC VOUT Input voltage: to 0V Low current consumption μa typ., 0μA max. (during operation) 0.0μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN= V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of 0.μF or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for home electric/electronic appliances Power supply for cellular phones Output voltage SNTA(H) SOT Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V).V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% S00BITG S00BITG S00B7ITG S00BITG S00B9ITG S00B0ITG S00BITG S00BITG S00BITG S00BITG S00BITG S00BITG S00B7ITG S00BITG S00B9ITG S00B0ITG S00BITG S00BITG S00BITG S00BITG S00BITG S00BITG S00B7ITG S00BITG S00B9ITG S00B0ITG S00BITG S00BITG S00BITG S00BITG S00BITG S00BITG S00B7ITG S00BITG S00B9ITG S00B0ITG S00BITG S00BITG S00BITG S00BITG S00BITG S00BMTG S00BMTG S00B7MTG S00BMTG S00B9MTG S00B0MTG S00BMTG S00BMTG S00BMTG S00BMTG S00BMTG S00BMTG S00B7MTG S00BMTG S00B9MTG S00B0MTG S00BMTG S00BMTG S00BMTG S00BMTG S00BMTG S00BMTG S00B7MTG S00BMTG S00B9MTG S00B0MTG S00BMTG S00BMTG S00BMTG S00BMTG S00BMTG S00BMTG S00B7MTG S00BMTG S00B9MTG S00B0MTG S00BMTG S00BMTG S00BMTG S00BMTG S00BMTG 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC 00700

26 0mA OUTPUT CURRENT, 0V INPUT VOLTAGE HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators SL90 series The SL90 series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. Moreover, the battery life can be extended by using the poweroff circuit. A greater variety of capacitors can be used with this series compared with existing voltage regulators developed using CMOS technology, including a small ceramic capacitor. PIN CONFIGURATION SOT VIN ON/OFF NC VOUT SELECTION GUIDE Input voltage: to 0V Low current consumption 90μA typ., 0μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.0v (selectable in 0.V steps) Output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=0mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin shortcircuit protection circuit Use of a low ESR capacitor is possible. Output capacitor: Use of a ceramic capacitor of.0μf or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Power supply for cellular phones Output voltage SOT Dropout voltage (typ.) Output current (min.) Current consumption during operation (typ.) (000/reel) (IOUT=0mA) (VIN VOUT(S).0V) (VIN=VOUT(S).0V, no load).v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% SL90AMCTFG SL90AMCTFG SL90A7MCTFG SL90AMCTFG SL90A9MCTFG SL90A0MCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90A7MCTFG SL90AMCTFG SL90A9MCTFG SL90A0MCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90A7MCTFG SL90AMCTFG SL90A9MCTFG SL90A0MCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90A7MCTFG SL90AMCTFG SL90A9MCTFG SL90A0MCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90AMCTFG SL90A7MCTFG SL90AMCTFG SL90A9MCTFG SL90A0MCTFG 0.7V 0.7V 0.7V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA 90μA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. CMOS IC 00700

27 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators S series The S series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Moreover, the battery life can be extended by using the poweroff circuit. A small SOT package realizes highdensity mounting. PIN CONFIGURATION SOT VIN ON/OFF NC VOUT Low current consumption μa typ., μa max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 00mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Power supply for cellular phones CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) SELECTION GUIDE Output voltage SOT Dropout voltage (typ.) Output current (min.) Current consumption during operation (typ.) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V) (VIN=VOUT(S).0V, no load).v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% SBMCNATFG SBMCNBTFG SB7MCNCTFG SBMCNDTFG SB9MCNETFG SB0MCNFTFG SBMCNGTFG SBMCNHTFG SBMCNITFG SBMCNJTFG SBMCNKTFG SBMCNLTFG SB7MCNMTFG SBMCNNTFG SB9MCNOTFG SB0MCNPTFG SBMCNQTFG SBMCNRTFG SBMCNSTFG SBMCNTTFG SBMCNUTFG SBMCNVTFG SB7MCNWTFG SBMCNXTFG SB9MCNYTFG SB0MCNZTFG SBMCN7ATFG SBMCN7BTFG SBMCN7CTFG SBMCN7DTFG SBMCN7ETFG SBMCN7FTFG SB7MCN7GTFG SBMCN7HTFG SB9MCN7ITFG SB0MCN7JTFG SBMCN7KTFG SBMCN7LTFG SBMCN7MTFG SBMCN7NTFG SBMCN7OTFG 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

28 0mA OUTPUT CURRENT SUPER LOW CURRENT CONSUMPTION AND LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators S0 series The S0 series is a positive voltage regulator with output current of 0mA, super low current consumption, high output voltage accuracy, and low dropout voltage developed based on CMOS technology. The S0 series contains I/O capacitors with a low capacitance of 0.μF which allow the S0 series to operate with super low current consumption,.0μa (typ.). The builtin lowonresistance transistor realizes low dropout voltage and high output current. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Three packages, SOT, SOT9, and SNTA(H), are available. Compared with the voltage regulators using the conventional CMOS process, more types of capacitors, including small ceramic capacitors, can be used with the S0 series. The S0 series is the most suitable for the portable equipment due to the super low current consumption and corresponding to small packages. PIN CONFIGURATIONS Super low current consumption.0μa typ.,.μa max. (during operation) Output voltage:. to.v (selectable in 0.0V steps) High output voltage accuracy: ±.0% (product with. to.v output: ±mv) Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV (product with.0v output, when IOUT=00mA) Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of 0.μF or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for cellular phones Power supply for portable equipment SOT VIN VOUT SOT9 VIN VOUT SNTA(H) VOUT VIN NC VIN NC SELECTION GUIDE Output voltage SOT SOT9 SNTA(H) Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V).V ± mv.v ± mv.v ± mv.v ±.0%.V ±.0%.7V ±.0%.V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0% S0BMTG S0BMTG S0BMTG S0BMTG S0BMTG S0B7MTG S0BMTG S0BJMTG S0B9MTG S0B0MTG S0BMTG S0BMTG S0BMTG S0BMTG S0BMTG S0BMTG S0B7MTG S0BMTG S0BJMTG S0B9MTG S0B0MTG S0BMTG S0BMTG S0BMTG S0BMTG S0BMTG S0BMTG S0B7MTG S0BMTG S0B9MTG S0B0MTG S0BMTG S0BMTG S0BMTG S0BMTG S0BMTG S0BMTG S0B7MTG S0BMTG S0B9MTG S0B0MTG S0BMTG S0BMTG S0BUTG S0BUTG S0BUTG S0BUTG S0BUTG S0B7UTG S0BUTG S0BJUTG S0B9UTG S0B0UTG S0BUTG S0BUTG S0BUTG S0BUTG S0BUTG S0BUTG S0B7UTG S0BUTG S0BJUTG S0B9UTG S0B0UTG S0BUTG S0BUTG S0BUTG S0BUTG S0BUTG S0BUTG S0B7UTG S0BUTG S0B9UTG S0B0UTG S0BUTG S0BUTG S0BUTG S0BUTG S0BUTG S0BUTG S0B7UTG S0BUTG S0B9UTG S0B0UTG S0BUTG S0BUTG S0BITG S0BITG S0BITG S0BITG S0BITG S0B7ITG S0BITG S0BJITG S0B9ITG S0B0ITG S0BITG S0BITG S0BITG S0BITG S0BITG S0BITG S0B7ITG S0BITG S0BJITG S0B9ITG S0B0ITG S0BITG S0BITG S0BITG S0BITG S0BITG S0BITG S0B7ITG S0BITG S0B9ITG S0B0ITG S0BITG S0BITG S0BITG S0BITG S0BITG S0BITG S0B7ITG S0BITG S0B9ITG S0B0ITG S0BITG S0BITG 0.V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA Remark Please contact our sales offi ce if you want a product with an output voltage other than above. Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load).0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa.0μa CMOS IC 00700

29 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT MIDDLE OUTPUT CURRENT CMOS VOLTAGE REGULATOR Regulators S series The S series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor. Small SOT9, SOT9, and pin HSON(A) packages realize highdensity mounting. PIN CONFIGURATIONS SOT9 VOUT VIN SOT9 SELECTION GUIDE VOUT NC ON/OFF VIN pin HSON(A) VOUT NC NC ON/OFF VIN Low current consumption μa typ., μa max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 00mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for DVD, CDROM drivers Power supply for batterypowered devices Power supply for communication devices Power supply for notebook PCs Output voltage SOT9 SOT9 pin HSON(A) Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V).V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% SBUANATFG SBUANBTFG SB7UANCTFG SBUANDTFG SB9UANETFG SB0UANFTFG SBUANGTFG SBUANHTFG SBUANITFG SBUANJTFG SBUANKTFG SBUANLTFG SB7UANMTFG SBUANNTFG SB9UANOTFG SB0UANPTFG SBUANQTFG SBUANRTFG SBUANSTFG SBUANTTFG SBUANUTFG SBUANVTFG SB7UANWTFG SBUANXTFG SB9UANYTFG SB0UANZTFG SBUANATFG SBUANBTFG SBUANCTFG SBUANDTFG SBUANETFG SBUANFTFG SB7UANGTFG SBUANHTFG SB9UANITFG SB0UANJTFG SBUANKTFG SBUANLTFG SBUANMTFG SBUANNTFG SBUANOTFG SBUCNATFG SBUCNBTFG SB7UCNCTFG SBUCNDTFG SB9UCNETFG SB0UCNFTFG SBUCNGTFG SBUCNHTFG SBUCNITFG SBUCNJTFG SBUCNKTFG SBUCNLTFG SB7UCNMTFG SBUCNNTFG SB9UCNOTFG SB0UCNPTFG SBUCNQTFG SBUCNRTFG SBUCNSTFG SBUCNTTFG SBUCNUTFG SBUCNVTFG SB7UCNWTFG SBUCNXTFG SB9UCNYTFG SB0UCNZTFG SBUCNATFG SBUCNBTFG SBUCNCTFG SBUCNDTFG SBUCNETFG SBUCNFTFG SB7UCNGTFG SBUCNHTFG SB9UCNITFG SB0UCNJTFG SBUCNKTFG SBUCNLTFG SBUCNMTFG SBUCNNTFG SBUCNOTFG SBPDNATFG SBPDNBTFG SB7PDNCTFG SBPDNDTFG SB9PDNETFG SB0PDNFTFG SBPDNGTFG SBPDNHTFG SBPDNITFG SBPDNJTFG SBPDNKTFG SBPDNLTFG SB7PDNMTFG SBPDNNTFG SB9PDNOTFG SB0PDNPTFG SBPDNQTFG SBPDNRTFG SBPDNSTFG SBPDNTTFG SBPDNUTFG SBPDNVTFG SB7PDNWTFG SBPDNXTFG SB9PDNYTFG SB0PDNZTFG SBPDNATFG SBPDNBTFG SBPDNCTFG SBPDNDTFG SBPDNETFG SBPDNFTFG SB7PDNGTFG SBPDNHTFG SB9PDNITFG SB0PDNJTFG SBPDNKTFG SBPDNLTFG SBPDNMTFG SBPDNNTFG SBPDNOTFG.00V 0.90V 0.0V 0.70V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa μa CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

30 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT MIDDLE OUTPUT CURRENT CMOS VOLTAGE REGULATOR Regulators S series The S series is a positive voltage regulator with a low dropout voltage, high output voltage accuracy, low current consumption, and 00mA output current developed based on CMOS technology. A 0.μF small ceramic capacitor can be used. It operates with low current consumption of 0μA typ. A builtin output current protector prevents the output current from exceeding the current capacitance of the output transistor. Compared with the conventional 00mA output current CMOS voltage regulators, highdensity mounting is realized by using the supersmall SNTA(H) package and a 0.μF small ceramic capacitor. Also, the low current consumption makes the S series ideal for mobile devices. PIN CONFIGURATIONS SNTA(H) SOT9 VOUT NC ON/OFF VIN SOT VIN ON/OFF NC VOUT Low current consumption 0μA typ., 0μA max. (during operation) 0.0μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 00mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of 0.μF or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for home electric/electronic appliances Power supply for cellular phones VOUT NC ON/OFF VIN SELECTION GUIDE Output voltage SOT SOT9 SNTA(H) Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V).V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% SBMTG SBMTG SB7MTG SBMTG SB9MTG SB0MTG SBMTG SBMTG SBMTG SBMTG SBMTG SBMTG SB7MTG SBMTG SB9MTG SB0MTG SBMTG SBMTG SBMTG SBMTG SBMTG SBMTG SB7MTG SBMTG SB9MTG SB0MTG SBMTG SBMTG SBMTG SBMTG SBMTG SBMTG SB7MTG SBMTG SB9MTG SB0MTG SBMTG SBMTG SBMTG SBMTG SBMTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0 CMOS IC 00700

31 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT MIDDLE OUTPUT CURRENT CMOS VOLTAGE REGULATOR Regulators S series The S series is a positive voltage regulator with a low dropout voltage, high output voltage accuracy, low current consumption, and 00mA output current developed based on CMOS technology. A μf small ceramic capacitor can be used *. It operates with low current consumption of 0μA typ. The S series includes an overcurrent protection circuit that prevents the output current from exceeding the current capacitance of the output transistor and a thermal shutdown circuit that prevents damage due to overheating. In addition to the types in which output voltage is set inside the IC, a type for which output voltage can be set via an external resistor is added to a lineup (Sx00 series). SOT9 and supersmall SNT A packages realize highdensity mounting. This, in addition to low current consumption, makes the S series ideal for mobile devices. PIN CONFIGURATIONS SOT9 Sx to Sx0 NC ON/OFF VIN VOUT Output voltage SOT9 SNTA Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V) Externally set.v ± mv.v ± mv.v ± mv.v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% SB00UTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SBUTG SBUTG SBUTG SBUTG SBUTG SBUTG SB7UTG SBUTG SB9UTG SB0UTG SB00ITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG SBITG SBITG SBITG SBITG SBITG SBITG SB7ITG SBITG SB9ITG SB0ITG 0.V 0.V 0.7V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. CMOS IC SB00 SA00 VADJ ON/OFF VIN VOUT SNTA Sx to Sx0 VOUT * VOUT * NC NC ON/OFF 7 VIN * VIN * 7 SB00 SA00 VOUT * VOUT * VADJ NC ON/OFF 7 VIN * VIN * *. Although pins of number and are connected internally, be sure to shortcircuit them nearest in use. *. Although pins of number 7 and are connected internally, be sure to shortcircuit them nearest in use. SELECTION GUIDE Low current consumption 0μA typ., 90μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.0v (selectable in 0.V steps) Confi gurable external output voltage. to.v (selectable arbitrarily) (SB00/SA00) High output voltage accuracy: ±.0% (product with. to.v output: ±mv) Output current 00mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=.V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Builtin thermal shutdown circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of.0μf or more is possible. * *. A ceramic capacitor of.μf or more can be used for products with an output voltage of.7v or lower. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for home electric/electronic appliances Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES

32 00mA OUTPUT CURRENT HIGH RIPPLE REJECTION AND LOW DROPOUT HIGH OUTPUT CURRENT CMOS VOLTAGE REGULATOR Regulators S70 series The S70 series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. Since a low onresistance transistor is incorporated, the dropout voltage is small, and a large output current can be obtained. A builtin overcurrent protection circuit prevents the load current from exceeding the current capacitance of the output transistor, and a builtin thermal shutdown circuit prevents damage due to heat generation. Small SOT9 and pin HSON(A) packages realize highdensity mounting. PIN CONFIGURATIONS SOT9 ON/OFF NC VIN VOUT pin HSON(A) VOUT VOUT ON/OFF VIN VIN Low current consumption 0μA typ., 0μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 00mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Builtin thermal shutdown circuit Input/output capacitor: Use of a ceramic capacitor of.7μf or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for DVD, CDROM drivers Power supply for batterypowered devices Power supply for communication devices Power supply for notebook PCs SELECTION GUIDE Output voltage SOT9 pin HSON(A) Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (IOUT=00mA) (VIN VOUT(S).0V).V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0% S70BUCOTATFG S70BUCOTBTFG S70B7UCOTCTFG S70BUCOTDTFG S70B9UCOTETFG S70B0UCOTFTFG S70BUCOTGTFG S70BUCOTHTFG S70BUCOTITFG S70BUCOTJTFG S70BUCOTKTFG S70BUCOTLTFG S70B7UCOTMTFG S70BUCOTNTFG S70B9UCOTOTFG S70B0UCOTPTFG S70BUCOTQTFG S70BUCOTRTFG S70BUCOTSTFG S70BUCOTTTFG S70BUCOTUTFG S70BUCOTVTFG S70B7UCOTWTFG S70BUCOTXTFG S70B9UCOTYTFG S70B0UCOTZTFG S70BUCOUATFG S70BUCOUBTFG S70BUCOUCTFG S70BUCOUDTFG S70BUCOUETFG S70BUCOUFTFG S70B7UCOUGTFG S70BUCOUHTFG S70B9UCOUITFG S70B0UCOUJTFG S70BUCOUKTFG S70BUCOULTFG S70BUCOUMTFG S70BUCOUNTFG S70BUCOUOTFG S70BPDOTATFG S70BPDOTBTFG S70B7PDOTCTFG S70BPDOTDTFG S70B9PDOTETFG S70B0PDOTFTFG S70BPDOTGTFG S70BPDOTHTFG S70BPDOTITFG S70BPDOTJTFG S70BPDOTKTFG S70BPDOTLTFG S70B7PDOTMTFG S70BPDOTNTFG S70B9PDOTOTFG S70B0PDOTPTFG S70BPDOTQTFG S70BPDOTRTFG S70BPDOTSTFG S70BPDOTTTFG S70BPDOTUTFG S70BPDOTVTFG S70B7PDOTWTFG S70BPDOTXTFG S70B9PDOTYTFG S70B0PDOTZTFG S70BPDOUATFG S70BPDOUBTFG S70BPDOUCTFG S70BPDOUDTFG S70BPDOUETFG S70BPDOUFTFG S70B7PDOUGTFG S70BPDOUHTFG S70B9PDOUITFG S70B0PDOUJTFG S70BPDOUKTFG S70BPDOULTFG S70BPDOUMTFG S70BPDOUNTFG S70BPDOUOTFG mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S).0V, no load) 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA CMOS IC 00700

33 HIGH OPERATING VOLTAGE CMOS VOLTAGE REGULATOR Regulators SC series SNTA(H) The SC series is a high operating voltage LDO voltage regulator developed using CMOS technology. The maximum operating voltage of the SC series is V, making it ideal for high voltage applications. The low current consumption and poweroff circuit of the SC series also make it suitable for portable devices that require low current consumption. The SC series can be used with ceramic capacitors. PIN CONFIGURATIONS SOT VIN VOUT NC ON/OFF(NC * ) TO9 Marked side NC VIN VOUT VIN ON/OFF VIN VOUT Bottom view SOT9 SOT9 VOUT VIN ON/OFF(NC * ) NC VIN VOUT *. Without poweroff function products. Low current consumption:.0μa typ.,.μa max. (Product with.0v output, during operation) Output voltage range:.0 to.0v (Selectable in 0.V steps) Output voltage accuracy: ±.0% Input voltage: V max. Output current 0mA capable (Product with.0v output, when VIN=V) * 7mA capable (Product with.0v output, when VIN=7V) * Dropout voltage: 0mV typ. (Product with.0v output, when IOUT=0mA) Output capacitor: A ceramic capacitor can be used. Builtin poweroff circuit: Selectable if shutdown function is available or not. Active high or low in the regurator is selectable. Shortcircuit protection: Function selectable Shortcircuit current: 0mA typ. (With protection function) *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

34 Regulators SELECTION GUIDE Output voltage.0v ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% SNTA(H) (000/reel) SC0BPICATFG SCBPICBTFG SCBPICCTFG SCBPICDTFG SCBPICETFG SCBPICFTFG SCBPICGTFG SC7BPICHTFG SCBPICITFG SC9BPICJTFG SC0BPICKTFG SCBPICLTFG SCBPICMTFG SCBPICNTFG SCBPICOTFG SCBPICPTFG SCBPICQTFG SC7BPICRTFG SCBPICSTFG SC9BPICTTFG SC0BPICUTFG SCBPICVTFG SCBPICWTFG SCBPICXTFG SCBPICYTFG SCBPICZTFG SCBPICATFG SC7BPICBTFG SCBPICCTFG SC9BPICDTFG SC0BPICETFG SCBPICFTFG SCBPICGTFG SCBPICHTFG SCBPICITFG SCBPICJTFG SCBPICKTFG SC7BPICLTFG SCBPICMTFG SC9BPICNTFG SC0BPICOTFG With shortcircuit protection and poweroff functions Without shortcircuit protection and poweroff functions Dropout voltage Output current Current consumption SOT (000/reel) SC0BMCCATG SCBMCCBTG SCBMCCCTG SCBMCCDTG SCBMCCETG SCBMCCFTG SCBMCCGTG SC7BMCCHTG SCBMCCITG SC9BMCCJTG SC0BMCCKTG SCBMCCLTG SCBMCCMTG SCBMCCNTG SCBMCCOTG SCBMCCPTG SCBMCCQTG SC7BMCCRTG SCBMCCSTG SC9BMCCTTG SC0BMCCUTG SCBMCCVTG SCBMCCWTG SCBMCCXTG SCBMCCYTG SCBMCCZTG SCBMCCATG SC7BMCCBTG SCBMCCCTG SC9BMCCDTG SC0BMCCETG SCBMCCFTG SCBMCCGTG SCBMCCHTG SCBMCCITG SCBMCCJTG SCBMCCKTG SC7BMCCLTG SCBMCCMTG SC9BMCCNTG SC0BMCCOTG SOT9 (000/reel) SCBUCCNTG SC0BUCCETG TO9 * SC0AYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SC7AYXG SCAYXG SC9AYXG SC0AYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SC7AYXG SCAYXG SC9AYXG SC0AYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SC7AYXG SCAYXG SC9AYXG SC0AYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SCAYXG SC7AYXG SCAYXG SC9AYXG SC0AYXG SOT (000/reel) SC0AMCCATG SCAMCCBTG SCAMCCCTG SCAMCCDTG SCAMCCETG SCAMCCFTG SCAMCCGTG SC7AMCCHTG SCAMCCITG SC9AMCCJTG SC0AMCCKTG SCAMCCLTG SCAMCCMTG SCAMCCNTG SCAMCCOTG SCAMCCPTG SCAMCCQTG SC7AMCCRTG SCAMCCSTG SC9AMCCTTG SC0AMCCUTG SCAMCCVTG SCAMCCWTG SCAMCCXTG SCAMCCYTG SCAMCCZTG SCAMCCATG SC7AMCCBTG SCAMCCCTG SC9AMCCDTG SC0AMCCETG SCAMCCFTG SCAMCCGTG SCAMCCHTG SCAMCCITG SCAMCCJTG SCAMCCKTG SC7AMCCLTG SCAMCCMTG SC9AMCCNTG SC0AMCCOTG SOT9 (000/reel) SC0AUACATG SCAUACBTG SCAUACCTG SCAUACDTG SCAUACETG SCAUACFTG SCAUACGTG SC7AUACHTG SCAUACITG SC9AUACJTG SC0AUACKTG SCAUACLTG SCAUACMTG SCAUACNTG SCAUACOTG SCAUACPTG SCAUACQTG SC7AUACRTG SCAUACSTG SC9AUACTTG SC0AUACUTG SCAUACVTG SCAUACWTG SCAUACXTG SCAUACYTG SCAUACZTG SCAUACATG SC7AUACBTG SCAUACCTG SC9AUACDTG SC0AUACETG SCAUACFTG SCAUACGTG SCAUACHTG SCAUACITG SCAUACJTG SCAUACKTG SC7AUACLTG SCAUACMTG SC9AUACNTG SC0AUACOTG (typ.) (IOUT=0mA) 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.9V 0.9V 0.9V 0.9V 0.9V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V (min.) (VOUT(S)V VIN V) 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA ma ma ma ma ma ma ma ma ma ma 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA during operation (typ.) (VIN=VOUT(S)V, no load) 0.9μA 0.9μA 0.9μA 0.9μA 0.9μA 0.9μA 0.9μA 0.9μA.0μA.0μA.0μA.0μA.0μA.0μA.0μA.0μA.0μA.0μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA.μA *. X is as follows depending on the packing form in TO9. B: Bulk, T: Tape and reel (000/reel), Z: Tape and ammo (00/reel) CMOS IC 00700

35 SUPERSMALL PACKAGE VOLTAGE REGULATOR Regulators S7 series The S7 series is a terminal positive voltage regulator, developed using CMOS technology. The small SNTA package (.x.mm) and SCAB package (.0x.mm) of the S7A series is ideal for designing small portable devices. Small ceramic capacitors can be used as the output capacitor, and the S7 series provides stable operation with low loads down to μa. The S7B series does not include a shortcircuit protection circuit. The S7B series is available in fi ve packages: SNTA, SCAB, SOT, TO9 and SOT9. PIN CONFIGURATIONS SNTA SOT TO9 Marked side VOUT VIN NC VIN VOUT NC NC VIN VOUT Bottom view SCAB SOT9 VIN VOUT NC VIN VOUT Low current consumption:.μa typ.,.μa max. (during operation) Output voltage:. to.0v (selectable in 0.V steps) Output voltage accuracy: ±.0% Input voltage: 0V max. Output current: 0mA capable (.0V output product, when VIN=V) * 7mA capable (.0V output product, when VIN=7V) * Dropout voltage: 0mV typ. (.0V output product, IOUT=0mA) Low ESR capacitor: A ceramic capacitor of 0.μF or higher. Shortcircuit protection: Only for A series Excellent line regulation: Stable even with low load (μa) Package: SNTA (A series) SCAB (A series) SOT (B series) TO9 (B series) SOT9 (B series) *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

36 Regulators SELECTION GUIDE Output voltage.v ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% SNTA (000/reel) S7AAPFCUATFG S7AAPFCUBTFG S7AAPFCUCTFG S7AAPFCUDTFG S7AAPFCUETFG S7AAPFCUFTFG S7A7APFCUGTFG S7AAPFCUHTFG S7A9APFCUITFG S7A0APFCUJTFG S7AAPFCUKTFG S7AAPFCULTFG S7AAPFCUMTFG S7AAPFCUNTFG S7AAPFCUOTFG S7AAPFCUPTFG S7A7APFCUQTFG S7AAPFCURTFG S7A9APFCUSTFG S7A0APFCUTTFG S7AAPFCUUTFG S7AAPFCUVTFG S7AAPFCUWTFG S7AAPFCUXTFG S7AAPFCUYTFG S7AAPFCUZTFG S7A7APFCVATFG S7AAPFCVBTFG S7A9APFCVCTFG S7A0APFCVDTFG S7AAPFCVETFG S7AAPFCVFTFG S7AAPFCVGTFG S7AAPFCVHTFG S7AAPFCVITFG S7AAPFCVJTFG S7A7APFCVKTFG S7AAPFCVLTFG S7A9APFCVMTFG S7A0APFCVNTFG S7AAPFCVOTFG S7AAPFCVPTFG S7AAPFCVQTFG S7AAPFCVRTFG S7AAPFCVSTFG S7AAPFCVTTFG S7A7APFCVUTFG S7AAPFCVVTFG S7A9APFCVWTFG S7A0APFCVXTFG With shortcircuit protection SCAB (000/reel) S7AANBCUATG S7AANBCUBTG S7AANBCUCTG S7AANBCUDTG S7AANBCUETG S7AANBCUFTG S7A7ANBCUGTG S7AANBCUHTG S7A9ANBCUITG S7A0ANBCUJTG S7AANBCUKTG S7AANBCULTG S7AANBCUMTG S7AANBCUNTG S7AANBCUOTG S7AANBCUPTG S7A7ANBCUQTG S7AANBCURTG S7A9ANBCUSTG S7A0ANBCUTTG S7AANBCUUTG S7AANBCUVTG S7AANBCUWTG S7AANBCUXTG S7AANBCUYTG S7AANBCUZTG S7A7ANBCVATG S7AANBCVBTG S7A9ANBCVCTG S7A0ANBCVDTG S7AANBCVETG S7AANBCVFTG S7AANBCVGTG S7AANBCVHTG S7AANBCVITG S7AANBCVJTG S7A7ANBCVKTG S7AANBCVLTG S7A9ANBCVMTG S7A0ANBCVNTG S7AANBCVOTG S7AANBCVPTG S7AANBCVQTG S7AANBCVRTG S7AANBCVSTG S7AANBCVTTG S7A7ANBCVUTG S7AANBCVVTG S7A9ANBCVWTG S7A0ANBCVXTG *. X is as follows depending on the packing form in TO9. B: Bulk, T: Tape and reel (000/reel), Z: Tape and ammo (00/reel) SOT (000/reel) S7AAMCCUDTG S7AAMCCUFTG SOT (000/reel) S7BAMCCWATG S7BAMCCWBTG S7BAMCCWCTG S7BAMCCWDTG S7BAMCCWETG S7BAMCCWFTG S7B7AMCCWGTG S7BAMCCWHTG S7B9AMCCWITG S7B0AMCCWJTG S7BAMCCWKTG S7BAMCCWLTG S7BAMCCWMTG S7BAMCCWNTG S7BAMCCWOTG S7BAMCCWPTG S7B7AMCCWQTG S7BAMCCWRTG S7B9AMCCWSTG S7B0AMCCWTTG S7BAMCCWUTG S7BAMCCWVTG S7BAMCCWWTG S7BAMCCWXTG S7BAMCCWYTG S7BAMCCWZTG S7B7AMCCXATG S7BAMCCXBTG S7B9AMCCXCTG S7B0AMCCXDTG S7BAMCCXETG S7BAMCCXFTG S7BAMCCXGTG S7BAMCCXHTG S7BAMCCXITG S7BAMCCXJTG S7B7AMCCXKTG S7BAMCCXLTG S7B9AMCCXMTG S7B0AMCCXNTG S7BAMCCXOTG S7BAMCCXPTG S7BAMCCXQTG S7BAMCCXRTG S7BAMCCXSTG S7BAMCCXTTG S7B7AMCCXUTG S7BAMCCXVTG S7B9AMCCXWTG S7B0AMCCXXTG Without shortcircuit protection SOT9 (000/reel) S7BAUACWATG S7BAUACWBTG S7BAUACWCTG S7BAUACWDTG S7BAUACWETG S7BAUACWFTG S7B7AUACWGTG S7BAUACWHTG S7B9AUACWITG S7B0AUACWJTG S7BAUACWKTG S7BAUACWLTG S7BAUACWMTG S7BAUACWNTG S7BAUACWOTG S7BAUACWPTG S7B7AUACWQTG S7BAUACWRTG S7B9AUACWSTG S7B0AUACWTTG S7BAUACWUTG S7BAUACWVTG S7BAUACWWTG S7BAUACWXTG S7BAUACWYTG S7BAUACWZTG S7B7AUACXATG S7BAUACXBTG S7B9AUACXCTG S7B0AUACXDTG S7BAUACXETG S7BAUACXFTG S7BAUACXGTG S7BAUACXHTG S7BAUACXITG S7BAUACXJTG S7B7AUACXKTG S7BAUACXLTG S7B9AUACXMTG S7B0AUACXNTG S7BAUACXOTG S7BAUACXPTG S7BAUACXQTG S7BAUACXRTG S7BAUACXSTG S7BAUACXTTG S7B7AUACXUTG S7BAUACXVTG S7B9AUACXWTG S7B0AUACXXTG TO9 * S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7B7AYXG S7BAYXG S7B9AYXG S7B0AYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7B7AYXG S7BAYXG S7B9AYXG S7B0AYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7B7AYXG S7BAYXG S7B9AYXG S7B0AYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7B7AYXG S7BAYXG S7B9AYXG S7B0AYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7BAYXG S7B7AYXG S7BAYXG S7B9AYXG S7B0AYXG Dropout voltage (typ.) (IOUT=0mA) 0.9V 0.9V 0.9V 0.9V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.9V 0.9V 0.9V 0.9V 0.9V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V Output Current (min.) (VOUT(S)V VIN 0V) 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA ma ma ma ma ma ma ma ma ma ma 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA ma ma ma ma ma ma ma ma ma ma 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA 7mA Current consumption during operation (typ.) (VIN=VOUT(S)V, no load).μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa.μa CMOS IC 00700

37 EXTERNAL TRANSISTOR TYPE VOLTAGE REGULATOR Regulators S series The S series is a positive voltage regulator which can be connected to a transistor externally, with overcurrent protection and poweroff circuit, and has been developed using CMOS technology. Using an external PNP transistor, the S series can confi gure a low dropout regulator with an output current in the range of several hundred ma to A. An improved phase compensation circuit enables an excellent transient response with low current consumption, making the S suitable for circuits with large input and/or load variations. The SOT small package combined with the low current consumption make the S series ideal for batterypowered portable equipment. An input voltage of up to V also enables direct input from an AC adapter. PIN CONFIGURATION Pin No. Output voltage.v ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% Symbol EXT ON/OFF VIN VOUT SELECTION GUIDE SOT SOT (000/reel) SAAMCBAATG SAAMCBABTG SA7AMCBACTG SAAMCBADTG SA9AMCBAETG SA0AMCBAFTG SAAMCBAGTG SAAMCBAHTG SAAMCBAITG SAAMCBAJTG SAAMCBAKTG SAAMCBALTG SA7AMCBAMTG SAAMCBANTG SA9AMCBAOTG SA0AMCBAPTG SAAMCBAQTG SAAMCBARTG SAAMCBASTG SAAMCBATTG SAAMCBAUTG SAAMCBAVTG SA7AMCBAWTG SAAMCBAXTG SA9AMCBAYTG SA0AMCBAZTG SAAMCBBATG SAAMCBBBTG SAAMCBBCTG SAAMCBBDTG SAAMCBBETG SAAMCBBFTG SA7AMCBBGTG SAAMCBBHTG SA9AMCBBITG SA0AMCBBJTG Description Output pin for basecurrent control GND pin Poweroff pin IC power supply pin Output voltage monitoring pin Dropout voltage (typ.) (IOUT=00mA) 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV 00mV Output current (min.) (VOUT(S)V VIN 0V) A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A Low current consumption 0μA typ., 0μA max. (during operation) μa max. (during poweroff) Input voltage: V max. Output voltage accuracy: ±.0% Output voltage range:. to.0v (Selectable in 0.V steps) Builtin poweroff circuit Builtin current source (0μA): no need a resistor between the baseemitters. Overcurrent (base current) protection APPLICATIONS Onboard power supply of battery devices for cellular phones, electronic organizers, and PDAs Constant voltage power supply for portable communication equipment, cameras, and video equipment Power supply for CPUs Postregulators for switching regulators Main regulator for multi power supply system Current consumption during operation (typ.) (VIN=VOUT(S)V, no load) 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

38 LOW DROPOUT VOLTAGE REGULATOR The S series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy and low current consumption, and has been developed using CMOS technology. A builtin low onresistance transistor enables a low dropout voltage and large output current, and the poweroff circuit enables to extend battery life. A greater variety of output capacitors can be used in the S series compared with existing CMOS voltage regulators, including a small ceramic capacitor. The small SOT package is recommended for confi g uring portable devices and the SOT9 for large output current applications. PIN CONFIGURATIONS SOT VIN ON/OFF NC VOUT SOT9 VOUT NC ON/OFF VIN Regulators S series Low current consumption 0μA typ., 0μA max. (During operation) 00nA typ., 00nA max. (During poweroff) Output voltage:.0 to.0v (Selectable in 0.V steps) Output voltage accuracy: ±.0% Input voltage: 0V max. Output current: 0mA capable (product with.0v output, when VIN=V) * 0mA capable (product with.0v output, when VIN=V) * Low dropout voltage: 70mV typ. (product with.0v output, when IOUT=0mA) Builtin poweroff circuit Builtin shortcircuit protection circuit Low ESR capacitor: A ceramic capacitor of 0.7μF or more can be used as the output capacitor Small package: SOT, SOT9 *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances SELECTION GUIDE Output voltage SOT SOT9 Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (IOUT=0mA) (VOUT(S)V VIN 0V).0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% SA0AMCBCKTG SAAMCBCLTG SAAMCBCMTG SAAMCBCNTG SAAMCBCOTG SAAMCBCPTG SAAMCBCQTG SA7AMCBCRTG SAAMCBCSTG SA9AMCBCTTG SA0AMCBCUTG SAAMCBCVTG SAAMCBCWTG SAAMCBCXTG SAAMCBCYTG SAAMCBCZTG SAAMCBDATG SA7AMCBDBTG SAAMCBDCTG SA9AMCBDDTG SA0AMCBDETG SAAMCBDFTG SAAMCBDGTG SAAMCBDHTG SAAMCBDITG SAAMCBDJTG SAAMCBDKTG SA7AMCBDLTG SAAMCBDMTG SA9AMCBDNTG SA0AMCBDOTG SAAMCBDPTG SAAMCBDQTG SAAMCBDRTG SAAMCBDSTG SAAMCBDTTG SAAMCBDUTG SA7AMCBDVTG SAAMCBDWTG SA9AMCBDXTG SA0AMCBDYTG SA0AUCBCKTG SAAUCBCLTG SAAUCBCMTG SAAUCBCNTG SAAUCBCOTG SAAUCBCPTG SAAUCBCQTG SA7AUCBCRTG SAAUCBCSTG SA9AUCBCTTG SA0AUCBCUTG SAAUCBCVTG SAAUCBCWTG SAAUCBCXTG SAAUCBCYTG SAAUCBCZTG SAAUCBDATG SA7AUCBDBTG SAAUCBDCTG SA9AUCBDDTG SA0AUCBDETG SAAUCBDFTG SAAUCBDGTG SAAUCBDHTG SAAUCBDITG SAAUCBDJTG SAAUCBDKTG SA7AUCBDLTG SAAUCBDMTG SA9AUCBDNTG SA0AUCBDOTG SAAUCBDPTG SAAUCBDQTG SAAUCBDRTG SAAUCBDSTG SAAUCBDTTG SAAUCBDUTG SA7AUCBDVTG SAAUCBDWTG SA9AUCBDXTG SA0AUCBDYTG 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA ma ma ma ma ma ma ma ma ma ma 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S)V, no load) 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA CMOS IC 00700

39 LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators S series The S series is a positive voltage regulator that features low dropout voltage, high output voltage accuracy, and low current consumption, and has been developed using CMOS technology. A builtin low onresistance transistor enables a low dropout voltage and large output current, and the poweroff circuit enables to extend battery life. A greater variety of output capacitors can be used in the S series compared with existing CMOS voltage regulators, including a small ceramic capacitor. The small SOT package is recommended for confi g uring portable devices and the SOT9 for large output current applications. PIN CONFIGURATIONS SOT VIN ON/OFF NC VOUT SELECTION GUIDE SOT9 VOUT NC ON/OFF VIN Low current consumption 0μA typ., 0μA max. (during operation) 00nA typ., 00nA max. (during poweroff) Output voltage:.0 to.0v (selectable in 0.V steps) Output voltage accuracy: ±.0% Input voltage: 0V max. Output current 00mA capable (product with.0v output, when VIN=V) * 00mA capable (product with.0v output, when VIN=V) * Low dropout voltage 70mV typ. (product with.0v output, when IOUT=0mA) Builtin poweroff circuit Low ESR capacitor: A ceramic capacitor of μf or more can be used as the output capacitor Small package: SOT, SOT9 *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for household electrical appliances Output voltage SOT SOT9 Dropout voltage (typ.) Output current (min.) (000/reel) (000/reel) (IOUT=0mA) (VOUT(S)V VIN 0V).0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.V ±.0%.7V ±.0%.V ±.0%.9V ±.0%.0V ±.0% SA0AMCBGATG SAAMCBGBTG SAAMCBGCTG SAAMCBGDTG SAAMCBGETG SAAMCBGFTG SAAMCBGGTG SA7AMCBGHTG SAAMCBGITG SA9AMCBGJTG SA0AMCBGKTG SAAMCBGLTG SAAMCBGMTG SAAMCBGNTG SAAMCBGOTG SAAMCBGPTG SAAMCBGQTG SA7AMCBGRTG SAAMCBGSTG SA9AMCBGTTG SA0AMCBGUTG SAAMCBGVTG SAAMCBGWTG SAAMCBGXTG SAAMCBGYTG SAAMCBGZTG SAAMCBHATG SA7AMCBHBTG SAAMCBHCTG SA9AMCBHDTG SA0AMCBHETG SAAMCBHFTG SAAMCBHGTG SAAMCBHHTG SAAMCBHITG SAAMCBHJTG SAAMCBHKTG SA7AMCBHLTG SAAMCBHMTG SA9AMCBHNTG SA0AMCBHOTG SA0AUCBGATG SAAUCBGBTG SAAUCBGCTG SAAUCBGDTG SAAUCBGETG SAAUCBGFTG SAAUCBGGTG SA7AUCBGHTG SAAUCBGITG SA9AUCBGJTG SA0AUCBGKTG SAAUCBGLTG SAAUCBGMTG SAAUCBGNTG SAAUCBGOTG SAAUCBGPTG SAAUCBGQTG SA7AUCBGRTG SAAUCBGSTG SA9AUCBGTTG SA0AUCBGUTG SAAUCBGVTG SAAUCBGWTG SAAUCBGXTG SAAUCBGYTG SAAUCBGZTG SAAUCBHATG SA7AUCBHBTG SAAUCBHCTG SA9AUCBHDTG SA0AUCBHETG SAAUCBHFTG SAAUCBHGTG SAAUCBHHTG SAAUCBHITG SAAUCBHJTG SAAUCBHKTG SA7AUCBHLTG SAAUCBHMTG SA9AUCBHNTG SA0AUCBHOTG 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 0.7V 00mA 00mA 00mA 00mA 00mA 0mA 0mA 0mA 0mA 0mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 0mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA 00mA Remark Please contact our sales offi ce if you want a product with an inverted ON/OFF pin logic. Current consumption during operation (typ.) (VIN=VOUT(S)V, no load) 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA 0μA CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

40 HIGH RIPPLE REJECTION LOW DROPOUT CMOS VOLTAGE REGULATOR WITH RESET FUNCTION Regulators S70 series The S70 series, developed based on CMOS technology, is a voltage regulator with a reset function and integrates a highaccuracy voltage detector with onchip delay circuit and a positive voltage regulator with a low dropout voltage and high output voltage on one chip. The S70 series is available in many types according to the selection of the voltage detector block of the voltage detector, including a SENSE pin input product. A builtin low onresistance transistor provides a low dropout voltage and large output current. Small ceramic capacitors are available and an external capacitor for delay is needless. Small SOT and SOT9 packages realize highdensity mounting. Pin No. PIN CONFIGURATIONS Symbol VIN ON/OFF SENSE NC * VDOUT VOUT SOT Description Input voltage pin GND pin Poweroff pin (A, B, C, D, E, F, G, H, J, K, L, M types) Detector SENSE pin (N, P, Q, R, S, T types) No connection (U, V, W, X, Y, Z types) Detector output voltage pin Regulator output voltage pin *. The NC pin is electrically open. The NC pin can be connected to VIN and. Whole regulator Low current consumption μa typ., 0μA max. (during operation) Regulator block Output voltage:. to.0v (selectable in 0.V steps) High output voltage accuracy: ±.0% Operating voltage range:.0 to.v Output current 00mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=00mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of.0μf or more is possible. Detector block Detection voltage:. to.v (selectable in 0.V steps) Detection voltage accuracy: ±.0% Operating voltage range: 0. to.v Output mode: Nch opendrain active low output No need of an external capacitor for delay Three delay time settings: No delay (0μs), 0ms, 00ms *. Attention should be paid to the power dissipation of the package when the load large. APPLICATIONS Power supply and reset circuit for batterypowered devices Power supply for communication devices Power supply for home appliances SOT9 Pin No. Symbol VIN VOUT VDOUT ON/OFF SENSE NC * Description Input voltage pin GND pin Regulator output voltage pin Detector output voltage pin Poweroff pin (A, B, C, D, E, F, G, H, J, K, L, M types) Detector SENSE pin (N, P, Q, R, S, T types) No connection (U, V, W, X, Y, Z types) *. The NC pin is electrically open. The NC pin can be connected to VIN and 0 CMOS IC 00700

41 Regulators FUNCTION LIST Product Type ON/OFF Pin S70 series A Type S70 series B Type S70 series C Type S70 series D Type S70 series E Type S70 series F Type S70 series G Type S70 series H Type S70 series J Type S70 series K Type S70 series L Type S70 series M Type S70 series N Type VIN connection (No pin) S70 series P Type VIN connection (No pin) S70 series Q Type VIN connection (No pin) S70 series R Type VDOUT connection (No pin) S70 series S Type VDOUT connection (No pin) S70 series T Type VDOUT connection (No pin) S70 series U Type VIN connection (No pin) S70 series V Type VIN connection (No pin) S70 series W Type VIN connection (No pin) S70 series X Type VIN connection (No pin) S70 series Y Type VIN connection (No pin) S70 series Z Type VIN connection (No pin) Remark Refer to data sheet for details. Regulator Block ON/OFF Logic Active high Active high Active high Active high Active high Active high Active low Active low Active low Active low Active low Active low No No No No No No No No No No No No SENSE Pin VIN connection (No pin) VIN connection (No pin) VIN connection (No pin) VOUT connection (No pin) VOUT connection (No pin) VOUT connection (No pin) VIN connection (No pin) VIN connection (No pin) VIN connection (No pin) VOUT connection (No pin) VOUT connection (No pin) VOUT connection (No pin) VOUT connection (No pin) VOUT connection (No pin) VOUT connection (No pin) VIN connection (No pin) VIN connection (No pin) VIN connection (No pin) Detector Block Release Delay No delay (0μs) 0ms 00ms No delay (0μs) 0ms 00ms No delay (0μs) 0ms 00ms No delay (0μs) 0ms 00ms No delay (0μs) 0ms 00ms No delay (0μs) 0ms 00ms No delay (0μs) 0ms 00ms No delay (0μs) 0ms 00ms Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator Temperature Sensor, Temperature Switch Lithiumion Rechargeable Battery Protection ICs CMOS IC 00700

42 SUPERSMALL PACKAGE CIRCUIT HIGH RIPPLE REJECTION LOW DROPOUT CMOS VOLTAGE REGULATOR Regulators S7 series The S7 series is a channel positive voltage regulator with a low dropout voltage, high output voltage accuracy, and low current consumption (0mA output current) developed based on CMOS technology. A.0μF small ceramic capacitor can be used, and a circuit voltage regulator with ±.0% highaccuracy output voltage is incorporated in an SOT or supersmall SNT A package. A builtin output current protector prevents the output current from exceeding the current capacitance of the output transistor. Compared with the conventional 0mA output current channel CMOS voltage regulators, highdensity mounting is realized by using the supersmall SNTA package and a small ceramic capacitor. Also, the low current consumption makes the S7 series ideal for mobile devices. Low current consumption (Per circuit) 70μA typ., 90μA max. (during operation) 0.μA typ., μa max. (during poweroff) Output voltage:. to.v (selectable in 0.V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 00mV typ. (product with.0v output, when IOUT=0mA) Ripple rejection rate: 70dB typ. (f=khz, VOUT=V) Builtin poweroff circuit: Active high or low in the regulator is selectable. Discharge shunt circuit can be selected. Builtin overcurrent protection circuit Use of a low ESR capacitor is possible. Input/output capacitor: Use of a ceramic capacitor of.0μf or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. PIN CONFIGURATIONS SNTA VOUT VIN VOUT ON/OFF ON/OFF SOT VOUT VIN VOUT ON/OFF ON/OFF APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for home electric/electronic appliances Power supply for cellular phones FUNCTION LIST Product Type ON/OFF Logic S7 series A Type Active high S7 series B Type Active high S7 series C Type Active high S7 series D Type Active high S7 series E Type Active low S7 series F Type Active low S7 series G Type Active low S7 series H Type Active low Remark Refer to data sheet for detail. Discharge Shunt Function None None None None Pullup/pulldown Resistance Builtin pulldown resistor None Builtin pulldown resistor None Builtin pullup resistor None Builtin pullup resistor None CMOS IC 00700

43 SUPERSMALL PACKAGE CIRCUIT HIGH RIPPLE REJECTION LOW CURRENT CONSUMPTION LOW DROPOUT CMOS VOLTAGE REGULATOR NEW Regulators S7 series The S7 series is a channel positive voltage regulator with a low dropout voltage, high output voltage accuracy, and low current consumption (0mA output current) developed based on CMOS technology. A.0μF small ceramic capacitor can be used, and a circuit voltage regulator with ±.0% highaccuracy output voltage is incorporated in the package SOT or supersmall SNTA. A builtin output current protector prevents the output current from exceeding the current capacitance of the output transistor. Compared with the S7 series, S7 series has the lower current consumption, therefore this IC is ideal for mobile devices. PIN CONFIGURATIONS SNTA ON/OFF VIN ON/OFF VOUT VOUT FUNCTION LIST SOT ON/OFF VIN ON/OFF VOUT VOUT Low current consumption (Per circuit) μa typ., μa max. (during operation,.0v output) 0.μA typ., μa max. (during poweroff) Output voltage:. to.0v (selectable in 0.0V steps) High output voltage accuracy: ±.0% Output current 0mA capable (product with.0v output, when VIN=V) * Dropout voltage 0mV typ. (product with.0v output, when IOUT=0mA) Ripple rejection rate: 0dB typ. (f=khz, VOUT=less than.v output) Builtin poweroff circuit: Active high or low in the regulator is selectable. Builtin overcurrent protection circuit Input/output capacitor: Use of a ceramic capacitor of.0μf or more is possible. *. Attention should be paid to the power dissipation of the package when the load is large. APPLICATIONS Power supply for batterypowered devices Power supply for communication devices Power supply for home electric/electronic appliances Power supply for cellular phones Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs Product Type ON/OFF Logic Pullup/pulldown Resistance S7 series A Type ch Active high Builtin pulldown resistance ch Active high Builtin pulldown resistance S7 series B Type ch Active high Builtin pulldown resistance ch Active low Builtin pullup resistance S7 series C Type ch Active low Builtin pullup resistance ch Active high Builtin pulldown resistance S7 series D Type ch Active low Builtin pullup resistance ch Active low Builtin pullup resistance S7 series E Type ch Active high None ch Active high None S7 series F Type ch Active high None ch Active low None S7 series G Type ch Active low None ch Active high None S7 series H Type ch Active low None ch Active low None Remark Refer to data sheet for detail. REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

44 Switching Regulators (DCDC Converters) Product Lineup SII s Switching Regulator Controllers with the high effi ciency, convert the input voltage to the output voltage that you want to fi x. We offer three types of switching regulator controllers: stepup (boost), stepdown (buck), and stepup/down (boost/ buck) switching regulator controllers. PWM types are highly effi cient to output low ripple and low noise. PFM types feature high effi ciency even during light loads. PWM/PFM switchable types use PFM for light loads, and automatically switch to PWM control for heavy loads. Type FET Product name Control method Operation start voltage Output voltage Output accuracy Switching frequency IC's current consumption (operating) IC's current consumption (poweroff) Packages S series PFM 0.9V.0 to.v (A,B,C). to.v(d) ±.% 00kHz.μA (.V) 0.μA max. SOT SOT SOT9. to.v Builtin S/ series PWM, PWM/PFM switchover 0.9V (VDD/VOUT separate type).0 to.v (other than ±.% 0, 0, 0kHz.7μA (.V, 0kHz) 0.μA max. SOT SOT SOT9 VDD/VOUT separate type) S series PFM 0.9V.0 to.v (A,B,C). to.v(d) ±.% 00kHz.μA (.V) 0.μA max. SOT SOT SOT9. to.v Stepup Stepdown Stepup/ down External PWM, S//7/ series PWM/PFM switchover S0/ series S7/ series PWM, PWM/PFM switchover PWM S series channel for LCD S0/ series channel for LCD S series channel for LCD S0/ series Builtin NEW S0/ series External S0/ series S series External S0 series PWM PWM, PWM/PFM switchover PWM, PWM/PFM switchover PWM synchronous rectifi cation PWM (VDD/VOUT 0.9V Pin SNB(B) separate type) 00, 0,.9μA SOT.0 to.v ±.% 0.μA max. 00, 00kHz (.V, 00kHz) SOT (other than SOT9 VDD/VOUT separate type) 0.9V. to.0v ±.0% 00, 00kHz 0μA (.V, 00kHz).0μA max. Pin TSSOP Input (. to.0v) Input (. to.0v) Input ( to 9V) Input (. to V) Input (.0 to.v) Input (. to 0/V) Input (. to 0V) Input (.7 to V) Input (. to V) khz to Desired output 00μA. MHz Pin TSSOP voltage via external (700kHz, μa max. via external Pin SON(A) resistor VFB=0.9V) resistor khz to Desired output 0μA. MHz SNTA voltage via external (700kHz, via external Pin TSSOP resistor VFB=0.9V) resistor Maximum output voltage: 00μA ±.% 0, 0kHz μa max. Pin SSOP 0 to 0V (VIN=V, 0kHz) 00 μa μa Maximum output voltage: 00kHz (Mode, (Mode, Pin TSSOP. to.9v VBAT=V) VBAT=V). to.0v.mhz 00μA μa max. SOT. to.0v ±.% 0μA (0kHz) 0, 0, μa (0kHz) 00kHz 00μA (00kHz) 0.μA max. SOT. to.0v ±.0% 00, 00kHz 0μA (00kHz) 0μA (00kHz) μa max. Pin MSOP.,. to.0v ±.0% 00kHz 0μA μa max. Pin TSSOP 7μA. to.0v 00kHz (Stepdown) 900μA μa max. Pin TSSOP (Stepup) NEW : New product CMOS IC 00700

45 Switching Regulators (DCDC Converters) STEPUP, SUPERSMALL PACKAGE, 00kHz, PWM CONTROL OR PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER S//7/ series The S//7/ series is a CMOS stepup switching regulators which consist of a reference voltage source, an oscillation circuit, an error amplifi er, a phase compensation circuit, a PWM controller (S/7) and a PWM/PFM switching controller (S/). A bipolar (NPN) transistor or an enhancement (Nch) MOS FET transistor can be used as external transistor. The S/7 series realize low ripple, high efficiency, and excellent transient characteristics due to its PWM controller, which can vary the duty ratio linearly from 0 to % (from 0 to 7% for 0kHz, 00kHz, and 00kHz models), optimallydesigned error amplifier, and phase compensation circuits. The S/ series feature a PWM/PFM switching controller that can switch the operation to a PFM controller with a duty ratio is % under light load to prevent a decline in the effi ciency due to the IC operating current. SOT PIN CONFIGURATIONS pin SNB(B) S7/ B, F, H, N ON/OFF VOUT NC EXT S/ K, L, M, Q ON/OFF VOUT VDD EXT NC S7/ E, G, J, P VOUT VDD NC EXT S7/ E, G, J, P NC VOUT VDD EXT NC FUNCTION LIST S/ K, L, M, Q VOUT VDD ON/OFF EXT S7/ B, H, F, N NC ON/OFF VOUT EXT NC SOT SOT9 VOUT EXT VOUT EXT Low voltage operation: Startup is guaranteed from 0.9V (IOUT=mA) Low current consumption:.9μa typ. (00kHz product,.v, during operation) 0.μA max. (during poweroff) Duty ratio: Builtin PWM/PFM switching control circuit (S/) to % (00kHz models), to 7% (0kHz, 00kHz, and 00kHz models) External parts: Coil, diode, capacitor, and transistor Output voltage:. to.v (for VDD/VOUT separate types) or.0 to.v (for other than VDD/VOUT separate types) (Selectable in 0.V steps). Output voltage accuracy: ±.% Oscillation frequency: 00, 0, 00, 00kHz Softstart function: ms typ. (00kHz models) Shutdown function Package: pin SNB(B), SOT, SOT, and SOT9 APPLICATIONS Power supplies for portable devices, such as digital cameras, electronic organizers, and PDAs Power supplies for audio equipment, such as portable CD/MD players Constant voltage power supply of cameras, video equipment, and communication devices Power supply for microcomputers Product name Control system Switching frequency Poweroff VDD/VOUT separation Package Applications for (khz) function type SKxxMC PWM 00 SOT a variable output voltage and a shutdown function SLxxMC/BD PWM 0 SOT/pin SNB(B) a variable output voltage, a shutdown function and a thin coil SMxxMC/BD PWM 00 SOT/pin SNB(B) a variable output voltage, a shutdown function and a thin coil SQxxMC/BD PWM 00 SOT/pin SNB(B) a variable output voltage, a shutdown function and a thin coil S7BxxMC PWM 00 SOT a shutdown function S7BxxMA PWM 00 SOT no shutdown function S7BxxUA PWM 00 SOT9 no shutdown function S7ExxMC PWM 00 SOT an adjustable output voltage by external resistor S7FxxMC/BD PWM 00 SOT/pin SNB(B) a shutdown function and a thin coil S7GxxMC/BD PWM 00 SOT/pin SNB(B) a variable output voltage and a thin coil S7HxxMC/BD PWM 0 SOT/pin SNB(B) a shutdown function and a thin coil S7JxxMC/BD PWM 0 SOT/pin SNB(B) an adjustable output voltage by external resistor and a thin coil S7NxxMC/BD PWM 00 SOT/pin SNB(B) a shutdown function and a thin coil S7PxxMC/BD PWM 00 SOT/pin SNB(B) an adjustable output voltage by external resistor and a thin coil SKxxMC PWM/PFM switch 00 SOT a variable output voltage and a shutdown function SLxxMC/BD PWM/PFM switch 0 SOT/pin SNB(B) a variable output voltage, a shutdown function and a thin coil SMxxMC/BD PWM/PFM switch 00 SOT/pin SNB(B) a variable output voltage, a shutdown function and a thin coil SQxxMC/BD PWM/PFM switch 00 SOT/pin SNB(B) a variable output voltage, a shutdown function and a thin coil SBxxMC PWM/PFM switch 00 SOT a shutdown function SBxxMA PWM/PFM switch 00 SOT no shutdown function SBxxUA PWM/PFM switch 00 SOT9 no shutdown function SExxMC PWM/PFM switch 00 SOT an adjustable output voltage by external resistor SFxxMC/BD PWM/PFM switch 00 SOT/pin SNB(B) a shutdown function and a thin coil SGxxMC/BD PWM/PFM switch 00 SOT/pin SNB(B) a variable output voltage and a thin coil SHxxMC/BD PWM/PFM switch 0 SOT/pin SNB(B) a shutdown function and a thin coil SJxxMC/BD PWM/PFM switch 0 SOT/pin SNB(B) an adjustable output voltage by external resistor and a thin coil SNxxMC/BD PWM/PFM switch 00 SOT/pin SNB(B) a shutdown function and a thin coil SPxxMC/BD PWM/PFM switch 00 SOT/pin SNB(B) an adjustable output voltage by external resistor and a thin coil CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC 00700

46 Switching Regulators (DCDC Converters) SELECTION GUIDE S series Item Output voltage.v.v.0v.v.v.0v.v.v.v.v.0v.v SKxxMC series SKMCNADTG SK0MCNAFTG SKMCNAJTG SK0MCNAPTG SKMCNAQTG SKMCNASTG SK0MCNBJTG SLxxMC series SLMCNCATG SL0MCNCFTG SMxxMC series SMMCMCDTG SM0MCMCFTG SM0MCMCPTG SMMCMCQTG SMMCMCRTG SMMCMCTTG SM0MCMDJTG SMMCMDOTG SMxxBD series SMBDMCDTF SMBDMCTTF SQxxBD series SQBDOWATF SQBDOWNTF SQBDOWQTF SQBDOWTTF SQ0BDOXJTF SQxxMC series SQMCOWATG SQMCOWJTG SQMCOWNTG SQ0MCOWPTG SQMCOWQTG SQMCOWSTG SQMCOWTTG SQ0MCOXJTG S series Item Output voltage.v.v.0v.v.v.v.v.7v.0v.0v.v SKxxMC series SKMCNEDTG SK0MCNEPTG SKMCNESTG SKMCNEVTG SK0MCNFJTG SLxxMC series SL0MCNGPTG SMxxMC series SMMCMEATG SMMCMEDTG SM0MCMEPTG SMMCMEQTG SMMCMESTG SMMCMEUTG SMMCMEVTG SM0MCMFJTG SMxxBD series SMBDMEDTF SM0BDMFJTF SQxxMC series SQMCOYDTG SQ0MCOYPTG SQMCOYQTG SQMCOYSTG SQMCOYUTG SQ0MCOYZTG SQ0MCOVJTG SQMCOVMTG SQxxBD series SQBDOYDTF SQBDOYSTF SQ7BDOYWTF SQ0BDOVJTF S7 series (/) Item Output voltage.v.0v.v.v.7v.v.0v.v.v.v.v.v.v.v.0v.v.v.0v.v S7BxxMC series S7BMCNIKTG S7BMCNILTG S7B7MCNIMTG S7BMCNINTG S7B0MCNIPTG S7BMCNISTG S7BMCNIVTG S7BMCNJHTG S7B0MCNJJTG S7BMCNJLTG S7BMCNJNTG S7B0MCNJTTG S7BxxMA series S7B0MANIPTG S7BMANISTG S7B0MANJJTG S7BxxUA series S7BUANISTG S7BUANIXTG S7BUANJHTG S7B0UANJJTG S7ExxMC series S7EMCNKATG S7E0MCNKFTG S7E0MCNKPTG S7E0MCNLJTG S7FxxMC series S7F0MCMGPTG S7FMCMGRTG S7FMCMGSTG S7FMCMGVTG S7F0MCMHJTG S7FMCMHLTG S7FMCMHYTG S7GxxMC series S7GMCMIRTG S7GMCMISTG S7G0MCMJJTG S7 series (/) Item Output voltage S7HxxMC series S7JxxMC series S7JxxBD series S7NxxMC series.v.0v S7J0MCNOFTG.V S7JMCNOKTG.V.7V.V.0V S7H0MCNMPTG S7N0MCOPTG.V S7HMCNMQTG.V.V S7NMCOSTG.V S7HMCNMUTG.V S7HMCNMVTG.V.0V S7H0MCNNJTG S7J0MCNPJTG S7J0BDNPJTF S7N0MCOJTG.V S7HMCNNLTG.V S7NMCOMTG.V.0V Remark Please contact our sales offi ce if you want a product with an output voltage other than those shown above. CMOS IC 00700

47 Switching Regulators (DCDC Converters) SELECTION GUIDE S series (/) Item SBxxMC series Output voltage.0v.v SBMCNQITG.V SBMCNQKTG.V SBMCNQLTG.7V SB7MCNQMTG.V SBMCNQNTG.0V SB0MCNQPTG.V SBMCNQQTG.V SBMCNQRTG.V SBMCNQSTG.V SBMCNQUTG.V SBMCNQVTG.V SBMCNQXTG.0V SB0MCNQZTG.0V SB0MCNRJTG.V SBMCNRMTG.7V.0V SB0MCNRTTG SBxxMA series SB0MANQPTG SB0MANRJTG SBxxUA series SBUANQSTG SB0UANRJTG SB0UANRTTG SExxMC series SE0MCNSFTG SE0MCNTJTG SFxxMC series SFMCMKLTG SF7MCMKMTG SF0MCMKPTG SFMCMKSTG SF0MCMLJTG SFMCMLMTG SF7MCMLQTG SF0MCMLTTG S series (/) Item Output voltage.0v.v.v.v.7v.0v.v.v.v.v.v.v.0v.0v.v.7v.0v SHxxMC series SHMCNUITG SH0MCNUPTG SHMCNURTG SHMCNUSTG SH0MCNUZTG SH0MCNVJTG SJxxMC series SJMCNWSTG SJ0MCNXJTG SNxxMC series SN0MCOPTG SNMCOSTG SN0MCO7JTG SNMCO7MTG SPxxMC series SP0MCOFTG Remark Please contact our sales offi ce if you want a product with an output voltage other than those shown above. BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE. Without poweroff function. With poweroff function S7BxxMA, S7BxxUA SBxxMA, SBxxUA VIN CIN L 00 pf kω EXT VOUT Oscillation circuit IC internal power supply PWM or PWM/PFM switching control circuit Softstart builtin reference power supply Remark The pin for IC s positive power supply to the circuit is VOUT. SD Phase compensation circuit CL SGxxMC series SG0MCMNJTG S7BxxMC, S7FxxMC/BD, S7HxxMC/BD, S7NxxMC/BD SBxxMC, SFxxMC/BD, SHxxMC/BD, SNxxMC/BD Remark The pin for IC s positive power supply to the circuit is VOUT.. VDD separate type (variable output voltage type). VDD/VOUT separate type (with poweroff function) S7ExxMC, S7GxxMC/BD, S7JxxMC/BD, S7PxxMC/BD SExxMC, SGxxMC/BD, SJxxMC/BD, SPxxMC/BD VIN CIN L 00 pf kω EXT ON/OFF SD VOUT Oscillation circuit IC internal power supply PWM or PWM/PFM switching control circuit Softstart builtin reference power supply Phase compensation circuit SKxxMC/BD, SLxxMC/BD, SMxxMC/BD, SQxxMC/BD SKxxMC/BD, SLxxMC/BD, SMxxMC/BD, SQxxMC/BD CL CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC L VIN CIN 00 pf kω EXT SD Oscillation circuit PWM or PWM/PFM switching control circuit Softstart builtin reference power supply VDD IC internal power supply Phase compensation circuit VOUT CC RA RB CL L VIN CIN 00 pf kω EXT SD Oscillation circuit PWM or PWM/PFM switching control circuit Softstart builtin reference power supply VDD IC internal power supply Phase compensation circuit VOUT CC RA RB CL DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES Remark The pin for IC s positive power supply to the circuit is VOUT. ON/OFF Remark The pin for IC s positive power supply to the circuit is VOUT. CMOS IC

48 Switching Regulators (DCDC Converters) STEPUP, BUILTIN FET PWM CONTROL, PWM/PFM SWITCHABLE SWITCHING REGULATOR S/ series The S/ series is a CMOS stepup switching regulators which consist of a reference voltage source, an oscillation circuit, a power MOS FET, an error amplifi er, a phase compensation circuit, a PWM controller (S series) and a PWM/PFM switching controller (S series). The stepup switching regulator can be confi gured simply by attaching a coil, capacitor, and diode externally. In addition to the above features, the small package and low power consumption of this series make it ideal for portable device applications requiring high efficiency. The S series realizes low ripple, high efficiency, and excellent transient characteristics due to its PWM controller, which can vary the duty ratio linearly from 0 to % (from 0 to 7% for 0kHz models), optimallydesigned error amplifi er, and phase compensation circuits. The S series features a PWM/PFM switching controller that can switch the operation to a PFM controller under a light load to prevent a decrease in effi ciency. Low voltage operation: Startup is guaranteed from 0.9V (IOUT=mA) Low current consumption:.7μa typ. (0kHz product,.v, during operation) 0.μA max. (during poweroff) Duty ratio: Builtin PWM/PFM switching control circuit (S series) to % (0kHz and 0kHz models), to 7% (0kHz models) External parts: Coil, capacitor, and diode Output voltage:. to.v (for VDD/VOUT separate types) or.0 to.v (for other than VDD/VOUT separate types) (Selectable in 0.V steps) Output voltage accuracy: ±.% Oscillation frequency: 0, 0, and 0kHz Softstart function: ms typ. (0kHz models) Package: SOT, SOT, and SOT9 PIN CONFIGURATIONS SxD SxJ VOUT VDD NC CONT SOT SxA SxH ON/OFF VOUT NC CONT SOT VOUT CONT APPLICATIONS Power supplies for portable equipment such as digital cameras, electronic organizers, and PDAs Power supplies for audio equipment such as portable CD/MD players Constant voltage power supplies for cameras, video equipment, and communication equipment Power supplies for microcomputers SOT9 VOUT CONT FUNCTION LIST Product name Control system Switching Poweroff VDD/VOUT frequency (khz) function separation type Package Applications for SAxxMC PWM 0 SOT a shutdown function SAxxMA/UA PWM 0 SOT/SOT9 no shutdown function SCxxMA/UA PWM 0 SOT/SOT9 pagers SDxxMC PWM 0 SOT an adjustable output voltage by external resistor SHxxMC PWM 0 SOT a shutdown function and a thin coil SHxxMA/UA PWM 0 SOT/SOT9 no shutdown function but requiring a thin coil. SJxxMC PWM 0 SOT an adjustable output voltage by external resistor and a thin coil SAxxMC PWM/PFM switch 0 SOT a shutdown function SAxxMA/UA PWM/PFM switch 0 SOT/SOT9 no shutdown function SCxxMA PWM/PFM switch 0 SOT pagers SDxxMC PWM/PFM switch 0 SOT an adjustable output voltage by external resistor SHxxMC PWM/PFM switch 0 SOT a shutdown function and a thin coil SHxxMA/UA PWM/PFM switch 0 SOT/SOT9 no shutdown function but requiring a thin coil. SJxxMC PWM/PFM switch 0 SOT an adjustable output voltage by external resistor and a thin coil CMOS IC 00700

49 Switching Regulators (DCDC Converters) SELECTION GUIDE S series (/) Item Output voltage.0v.v.v.7v.v.0v.v.v.v.v.v.7v.v.0v.v.v.0v.v.0v.v SAxxMC series SA0MCIQFTG SAMCIQKTG SA7MCIQMTG SAMCIQNTG SA0MCIQPTG SAMCIQSTG SAMCIQUTG SAMCIQXTG SAMCIRETG SA0MCIRJTG SAMCIROTG SAxxMA series SA0MAIQPTG SAMAIQSTG SA0MAIRJTG SAxxUA series SA0UAIQPTG SAUAIQSTG SAUAIQVTG SAUAIQXTG SA0UAIQZTG SA0UAIRJTG SAUAIROTG S series (/) Item Output voltage.0v.v.7v.v.0v.v.v SHxxMA series SH0MAIWPTG SHxxUA series SJxxMC series SJ0MCIYFTG SJMCIYKTG SJ0MCIYPTG.V SHMAIWSTG SHUAIWSTG SJMCIYSTG.V.V.7V.V.0V.V.0V.V.0V.V SH0UAIXJTG SJ0MCIZJTG S series SCxxMA series SC0MAISPTG SCMAITFTG SCxxUA series SC0UAISPTG SDxxMC series SD0MCIUFTG SD0MCIUPTG SD0MCIVJTG Item Output voltage.v.0v.v SAxxMC series SAxxMA series SAxxUA series SDxxMC series SD0MCJUFTG SHxxMC series SHMCJWKTG SJxxMC series SJMCJYATG SJ0MCJYFTG.7V SA7MCJQMTG SA7MAJQMTG.0V SA0MCJQPTG SA0MAJQPTG SA0UAJQPTG SD0MCJUPTG SH0MCJWPTG SJ0MCJYPTG.V SHMCJWQTG.V SAMCJQSTG SAMAJQSTG SAUAJQSTG SHMCJWSTG SJMCJYSTG.V.V.0V.V.7V.0V SAMCJQXTG SA0MCJQZTG SA0MCJRJTG SA0MAJRJTG SAUAJQUTG SA0UAJQZTG SA0UAJRJTG SHMCJWUTG SH0MCJWZTG SHMCJXETG SH7MCJXGTG SH0MCJXJTG SJ0MCJZJTG Remark Please contact our sales offi ce if you want a product with an output voltage other than those shown above. SHxxMC series SH0MCIWFTG SHMCIWLTG SH0MCIWPTG SHMCIWQTG SHMCIWRTG SHMCIWSTG SHMCIWUTG SH7MCIWWTG SHMCIWXTG SH0MCIWZTG SHMCIXETG SH0MCIXJTG SH0MCIXTTG SHMCIXYTG Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

50 Switching Regulators (DCDC Converters) BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE. Without poweroff function. With poweroff function SAxxMA/UA, SCxxMA/UA, SHxxMA/UA SAxxMA/UA, SCxxMA, SHxxMA/UA SAxxMC, SHxxMC SAxxMC, SHxxMC VIN CIN SD L CONT VOUT Oscillation circuit PWM or PWM/PFM switching control circuit Softstart builtin reference power supply IC internal power supply Phase compensation circuit CL VIN CIN SD L CONT VOUT Oscillation circuit PWM or PWM/PFM switching control circuit Softstart builtin reference power supply IC internal power supply Phase compensation circuit CL ON/OFF Remark The pin for IC s positive power supply to the circuit is VOUT. Remark The pin for IC s positive power supply to the circuit is VOUT.. VDD/VOUT separate type (variable output voltage type) SDxxMC, SJxxMC SDxxMC, SJxxMC VIN CIN L CONT SD Oscillation circuit VDD PWM or PWM/PFM switching control circuit IC internal power supply CC VOUT RA CL Softstart builtin reference power supply Phase compensation circuit RB Remark The pin for IC s positive power supply to the circuit is VOUT. 0 CMOS IC 00700

51 Switching Regulators (DCDC Converters) STEPUP, BUILTIN/EXTERNAL FET PFM CONTROL SWITCHING REGULATOR/SWITCHING REGULATOR CONTROLLER S/ series The S/ series is a CMOS PFMcontrol stepup switching regulators that consist of a reference voltage source, an oscillator, and a comparator. The PFM controller allows the duty ratio to be automatically switched according to the load (light load: 0%, high output current: 7%), enabling products with a low ripple over a wide range, high efficiency, and high output current (product types A, B, and D). Products with a fi xed duty ratio of 7% are also available (product type C). With the S series, a stepup switching regulator can be configured by using an external coil, capacitor, and diode. The builtin MOS FET is turned off by a protection circuit when the voltage at the CONT pin exceeds the limit to prevent it from being damaged. This feature, along with the mini package and low current consumption, makes the S series ideal for portable equipment. The S series, which features an external transistor, is suitable for applications requiring high output current. PIN CONFIGURATIONS SxA (x=, ) ON/OFF VOUT NC CONT/EXT SOT SxD (x=, ) VOUT VDD NC CONT (EXT * ) SOT VOUT CONT (EXT * ) Low voltage operation: Startup at 0.9V min. (IOUT=mA) guaranteed Low current consumption:.μa typ. (VOUT=.V, during maximum operation) 0.μA max. (during poweroff) Duty ratio: 0/7%, builtin autoswitchingtype PFM controller (product types A, B, D) 7%, builtin fixedtype PFM controller (product type C) External parts: Coil, capacitor, diode Output voltage:.0 to.v (product types A, B, C) or. to.v (product type D) (selectable in 0.V steps) Output voltage accuracy: ±.% Poweroff function (product type A) VDD/VOUT separate type (product type D) External transistor type available (S series) Package: SOT, SOT, and SOT9 APPLICATIONS Power supply for portable equipment such as digital cameras, electronic organizers, and PDAs Power supply for audio equipment such as portable CD/MD players Constant voltage power supply for cameras, video equipment, and communication equipment Power supply for microcomputers Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs SOT9 FUNCTION LIST VOUT CONT (EXT * ) *. For S series. Product name Control system Switching Poweroff VDD/VOUT Power (Duty ratio (%)) frequency (khz) function separation type transistor Package Applications for SAxxMC PFM(0/7) 00 Builtin SOT a shutdown function SBxxMA PFM(0/7) 00 Builtin SOT no shutdown function SCxxMA/UA PFM(7) 00 Builtin SOT/SOT9 no shutdown function SDxxMC PFM(0/7) 00 Builtin SOT an adjustable output voltage by external resistor SAxxMC PFM(0/7) 00 External SOT a shutdown function SBxxMA PFM(0/7) 00 External SOT no shutdown function SCxxMA/UA PFM(7) 00 External SOT/SOT9 no shutdown function SDxxMC PFM(0/7) 00 External SOT an adjustable output voltage by external resistor REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

52 Switching Regulators (DCDC Converters) SELECTION GUIDE S series Item Output voltage.v.0v.v.v.7v.0v.v.v.v.0v.v.v.7v.0v.v.0v SAxxMC series SA0MCJFTG SAMCJHTG SAMCJKTG SA7MCJMTG SA0MCJPTG SAMCJSTG SAMCJUTG SA0MCJZTG SAMCJETG SA7MCJGTG SA0MCJJTG SAMCJOTG SA0MCJTTG SBxxMA series SB0MAJFTG SBMAJKTG SB7MAJMTG SB0MAJPTG SBMAJSTG SBMAJETG SBMAJFTG SB0MAJJTG SBMAJOTG SCxxUA series SC0UAJPTG SCUAJRTG SCUAJSTG SCUAJUTG SC0UAJ7JTG SDxxMC series SDMCJATG SD0MCJFTG SD0MCJPTG SD0MCJZTG SD0MCJ9JTG S series Item SAxxMC SBxxMA SCxxUA SDxxMC Output voltage series series series series.0v SD0MCKFTG.V SAMCKKTG.0V SA0MCKPTG SB0MAKPTG SC0UAKPTG SD0MCKPTG.V SCUAKQTG.V SAMCKRTG SCUAKRTG.V SAMCKSTG SCUAKSTG SDMCKSTG.V SAMCKUTG.7V SA7MCKWTG.0V SA0MCKZTG.V SAMCKFTG.7V SA7MCKGTG.0V SA0MCKJTG SB0MAKJTG SC0UAK7JTG.V SAMCKNTG Remark Please contact our sales offi ce if you want a product with an output voltage other than those shown above. CMOS IC 00700

53 Switching Regulators (DCDC Converters) BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE. S series (normal type). S series (variable output voltage type) VIN CIN L SD CONT VOUT Protection circuit PFM control circuit VREF CL VIN CIN L SD CONT VDD IC internal power supply Protection circuit PFM control circuit VREF VOUT CC Ra Rb CL CONTENTS Detectors (ON/OFF) Regulators. S series (normal type). S series (variable output voltage type) VIN CIN 00 pf kω EXT SD PFM control circuit VREF VOUT CL VIN CIN 00 pf kω EXT SD IC internal power supply PFM control circuit VDD VREF CC Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS Ra Rb CL (ON/OFF) Lithiumion Rechargeable Battery Protection ICs PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator Temperature Sensor, Temperature Switch CMOS IC 00700

54 STEPUP,.MHz HIGHFREQUENCY, PWM CONTROL SWITCHING REGULATOR CONTROLLER Switching Regulators (DCDC Converters) S7/ series The S7/ series is a family of CMOS stepup switching regulators that include a reference voltage source, an oscillator, an error amplifi er, a PWM controller, an under voltage lockout circuit (UVLO), and a timerlatchtype shortcircuit protection circuit. The minimum operating voltage is as low as.v, making this series ideal for LCD power supplies and mobile devices that operate on a low voltage. The resistor connected to the ROSC pin allows an internal oscillation frequency up to.mhz to set. In the S7, the resistor connected to the RDuty pin allows the PWM maximum duty to be controlled. In the S, the maximum duty is fi xed to %. Changing the values of the resistor and capacitor connected to the CC pin allows control of the phase compensation and gain value and enables the operating stability and transient response to be set appropriately for each application. The reference voltage has the highaccuracy.0v ±.%, enabling the desired output voltage to be obtained via an external output voltage setting resistor. The capacitor connected to the CSP pin can be used to set the shortcircuit protection delay time. If the status of the maximum duty continues due to shortcircuiting, the capacitor is charged and the operation is stopped after a specifi ed time. This status is cancelled when power is turned on again or the controller enters the power off status (S). Either a ceramic or tantalum capacitor can be used as the output capacitor. The S7/ series is very userfriendly controller ICs due to the variety of possible settings and selections and the small package. Low voltage operation:. to.0v Oscillation frequency: Settable in range of khz to. MHz via external resistor Maximum duty: Settable in range of 7 to.% via external resistor (S7 series) Fixed to % typ. (S series) Reference voltage:.0v ±.% U.V.L.O. function: Detection voltage selectable from. to.v in 0.V steps Hysteresis width selectable from 0. to 0.V in 0.V steps Timerlatchtype shortcircuit protection circuit: Delay time settable via external capacitor Softstart function: Softstart time adjustable in three steps: 0ms, ms, and 0ms Phase compensation external setting: Adjustable by connecting resistor and capacitor to GND in series Poweroff function: Current consumption during poweroff.0μa max. (S series) Small package: pin SON(A), pin TSSOP APPLICATIONS Power supply for LCD bias Power supply for portable devices PIN CONFIGURATIONS pin SON(A) 7 pin TSSOP 7 Pin No. 7 Symbol CC FB CSP VIN EXT ROSC RDuty ON/OFF Description Error amplifi er output phase compensation pin Output voltage return pin Shortcircuit protection delay time setting pin Power supply input pin External transistor connector pin GND pin Oscillation frequency setting resistor connection pin Maximum duty setting resistor connection pin (S7) Poweroff pin (S) BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE SD VOUT L RDuty (S7) or ON/OFF (S) ROSC VIN UVLO CIN M EXT PWM comparator Timerlatchtype shortcircuit protection circuit Oscillator maximum duty circuit Error amplifier Reference voltage (.0V) softstart circuit CFB RFB CL FB RFB CSP CC RZ CZ CMOS IC 00700

55 STEPUP,.MHz HIGHFREQUENCY, PWM CONTROL SWITCHING REGULATOR CONTROLLER Switching Regulators (DCDC Converters) S series The S series is a CMOS stepup switching regulator that includes a reference voltage source, an oscillator, an error amplifier, a PWM controller, an under voltage lockout circuit (UVLO), and a timerlatchtype shortcircuit protection circuit. The minimum operating voltage is as low as.v, making this series ideal for LCD power supplies and mobile devices that operate on a low voltage. The resistor connected to the ROSC pin allows an internal oscillation frequency of up to.mhz to be set. The resistor connected to the RDuty pin allows the PWM maximum duty to be controlled. The softstart function at poweron is accomplished by combining the reference voltage control and maximum duty control methods. Even if the voltage of the FB pin is retained lower than the reference voltage due to factor outside of the IC, the output voltage is raised by controlling the maximum duty. Changing the values of the resistor and capacitor connected to the CC pin allows control of the phase compensation and gain value and enables the operating stability and transient response to be set appropriately for each application. The reference voltage has the highaccuracy.0v ±.%, enabling the desired output voltage to be obtained via an external output voltage setting resistor. The capacitor connected to the CSP pin can be used to set the shortcircuit protection delay time. If the status of the maximum duty continues due to shortcircuiting, the capacitor is charged and the operation is stopped after a specified time. The shortcircuit protection function is cancelled when the power supply is raised to the UVLO release voltage after it has been lowered to the UVLO detection voltage. Either a ceramic or tantalum capacitor can be used as the output capacitor. The S series is very userfriendly controller IC due to the variety of possible settings and selections and the small package. PIN CONFIGURATIONS SNTA 7 L pin TSSOP 7 SD RDuty Low voltage operation:. to.0v Oscillation frequency: Settable in range of khz to. MHz via external resistor Maximum duty: Settable in range of 7 to.% via external resistor Reference voltage:.0v ±.% U.V.L.O. function: Detection voltage selectable from. to.v in 0.V steps Hysteresis width selectable from 0. to 0.V in 0.V steps Timerlatchtype shortcircuit protection circuit: Delay time settable via external capacitor Softstart function: Softstart time adjustable in three steps: 0ms, ms, and 0ms : Both reference voltage control and maximum duty control methods are applied. Phase compensation external setting: Adjustable by connecting resistor and capacitor to GND in series Small package: SNTA, pin TSSOP APPLICATIONS Power supply for LCD bias Power supply for portable devices Pin No. 7 BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE ROSC Symbol CC FB CSP VIN EXT ROSC RDuty Description Error amplifi er output phase compensation pin Output voltage return pin Shortcircuit protection delay time setting pin Power supply input pin External transistor connector pin GND pin Oscillation frequency setting resistor connection pin Maximum duty setting resistor connection pin VOUT CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator CIN M VIN EXT UVLO PWM comparator Timerlatchtype shortcircuit protection circuit CSP CC Oscillator maximum duty circuit Error amplifier Reference voltage (.0V) softstart circuit CFB RFB CL FB RFB PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES RZ CZ CMOS IC 00700

56 STEPUP, 00kHz, PWM CONTROL OR PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER Switching Regulators (DCDC Converters) S0/ series The S0/ series is a family of PWM control (S0) and PWM/PFM switchover control (S) CMOS stepup switching regulator controllers that consist of a reference voltage source, an oscillator, an error amplifier, a phase compensation circuit, a PWM controller, etc. A high oscillation frequency of 00kHz or 00kHz enables the realization of a high efficiency switching regulator capable of driving large output current using small external components. In addition, the output stage can be speed up due to the high speed switching of the low onresistance Nch power MOS. The S0 provides high efficiency, excellent transient characteristics and low ripple output from an optimally designed error amplifier, phase compensation circuit and PWM controller that varies the duty ratio linearly from 0 to %. The S achieves high efficiency in the entire load range due to the PWM/PFM switchover circuit, which enters PWM mode when the duty ratio is higher than 7% and PFM mode when lower. The small pin TSSOP package and high oscillation frequency make this series suitable for use as a power supply for portable devices. PIN CONFIGURATION Oscillation frequency: 00kHz (A, B type), 00kHz (C, D type) Output voltage range:. to.0v (selectable in 0.V steps, output voltage fi xed type) Output voltage accuracy: ±.0% An output voltage external setting (FB) type is also available. (VFB=.0V) External components: Transistor, coil, diode, three capacitors, and resistor only Duty ratio: 0% to % PWM control (S0 series) 7% to % PWM/PFM switchover control (S series A/B type) % to % PWM/PFM switchover control (S series C/D type) Oscillation is guaranteed at a low 0.9V operation Current limit circuit: Set by an external resistor RSENSE Softstart function: Set by an external capacitor CSS Poweroff function Package: pin TSSOP APPLICATIONS Power supply for portable devices such as PDAs, electronic organizers and mobile phones Power supply for audio devices such as portable CD players and headphone stereos Main and sub power supply for notebook computers and peripheral equipment Constant voltage power supply for cameras, video equipment and communication devices pin TSSOP 7 Pin No. 7 Symbol CVREF CSS ON/OFF VDD VOUT (FB) EXT SENSE Description GND pin Bypass capacitor connection pin for reference voltage source Soft start capacitor connection pin Power off pin "H": Normal operation (stepup operations) "L": Stepup stopped (all circuits stopped) IC power supply pin Output voltage pin (FB for externally set types) External transistor connector pin Current limiting detection pin SELECTION GUIDE <Product with fixed output voltage> Output voltage (V) S0 series A type fosc = 00 khz, PWM control S0AAFTTG S0A0AFTTG S0AAFTTG S0AAFTTG S0AAFTTG S0A0AFTTG S0AAFTTG S0AAFTTG S0A0AFTTG fosc = 00 khz, PWM/PFM switchover control SAAFTTG SA0AFTTG SAAFTTG SA0AFTTG <Product with externally set output voltage> <Product with fixed internal output voltage> (000/real) S series A type S0 series C type S series C type fosc = 00 khz, PWM control S0CAFTTG S0C0AFTTG S0CAFTTG S0C0AFTTG S0C0AFTTG fosc = 00 khz, PWM/PFM switchover control SCAFTTG SC0AFTTG SCAFTTG SC0AFTTG SCAFTTG (000/real) Output voltage S series B type S0 series B type S0 series D type S series D type fosc = 00 khz, (V) fosc = 00 khz, PWM control PWM/PFM switchover control fosc = 00 khz, PWM control fosc = 00 khz, PWM/PFM switchover control Variable S0B00AFTTG SB00AFTTG S0D00AFTTG SD00AFTTG Remark Please contact our sales office if you want a product with an output voltage other than those shown above. BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE <Product with externally set output voltage> L SD VDD VOUT VDD VOUT VIN CIN EXT Nch Power MOS FET RSENSE SENSE RS CS 0mV Power off circuit Triangularwave oscillator PWM comparator PWM or PWM/PFM switchover controller Soft start circuit Phase compensating circuit IC internal power source CC R Error amplifier R VREF=.0V /current reference VOUT CL IC internal power source Error amplifier VREF=.0V /Current reference FB CFB RFB CL RFB ON/OFF CSS CVREF CVREF CMOS IC 00700

57 STEPUP, FOR LCD BIAS SUPPLY, CHANNEL SWITCHING REGULATOR Switching Regulators (DCDC Converters) S series The S series is an IC for the bias power supply of a Multi Line Addressing (MLA) drive LCD with a twoline simultaneous selection system. It can be used for a mediumsized LCD panel. The positive and negative power supplies required for the LCD common driver of MLA drive systems and each segment driver is supplied by two stepup types and one inversion type PFM control CMOS switching regulators. Since the current consumption is very small due to the CMOS structure, this series is ideal for the LCD power supply of portable devices requiring low power consumption. Moreover, it is possible to form a very low power consumption LCD module using an LCD common driver (HDR * : product of Hitachi, Ltd.), a segment driver (HD * : product of Hitachi, Ltd.), and the S series. *. These drivers can support /0 and /00 duty. APPLICATION Power supply of mediumsized LCD panel PIN CONFIGURATIONS Product name Bias ratio Common driver positive power supply VRH output voltage range [V] VBAT CVBAT CVBAT MC CMC MC CMC L D A 7 VBAT VBAT MC Common driver negative power supply VRL output voltage range [V] VRH_min VRH_max VRL_min VRL_max SA0FTTBG SA00FTTBG SA0FTTBG SA0FTTBG CONT MC VREGSF VREGSO VREGTF VREGTO CL MC RA CRS VICON RS RS L RA E CL7 RT VOUT CSS RT VDIN VCLK S CRT Remark : Small current, : Large current Can be used in four kinds of LCD panels. /0 duty, /00 duty, /0 duty, /0 duty Input voltage range:. to.0v (driving directly with one lithium battery is possible) Output voltage range Common driver positive power supply (VRH) output voltage range (typ. value).9 to.9v (SA0FTTBG). to.0v (SA00FTTBG) 7. to.9v (SA0FTTBG). to.v (SA0FTTBG) (Variable using a builtin bit electronic volume, includes the builtin power MOS FET) Common driver negative power supply (VRL) output voltage range (typ. value).7 to.0v (SA0FTTBG). to.9v (SA00FTTBG). to 0.V (SA0FTTBG). to.9v (SA0FTTBG) Segment driver positive power supply output voltage range.0 to.v Segment driver middle output voltage range.0 to.9v Positive power supply (VICON) output voltage range for icons.0 to.v (a voltage can be set by external resistor) Low current consumption: 00μA typ. (Mode, VBAT=V) 0μA typ. (Mode, VBAT=V) μa max. (Mode, VBAT=V) Triple operation mode function: Mode : Normal operation Mode : Icon mode Mode : Standby mode Poweroff function: Stepping up operation is stopped, and the VRH and VRL pins are shorted to using an onchip or external Nch transistor. Softstart function: Can be set by external capacitor (CSS). Oscillation frequency: 00 ± 0kHz, duty=0% Package: pin TSSOP VSTR_B EXT F BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE CONT D VOUT 9 L CL VDDX VQERR CR VREFU D VXO CL 0 VYO CL CR CREFU CL CL G RA R R VBAT C D VCH Segment driver VM VCL VM VRL VRH Common driver MC CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

58 STEPUP, FOR LCD BIAS SUPPLY, CHANNEL SWITCHING REGULATOR The S0/ series is a CMOS PWMcontrol stepup switching regulators that consist of a reference voltage source, an oscillation circuit, a power MOS FET (for the S0 series), and an error amplifi er. The output voltage can be adjusted by electronic volume. A poweroff function is also available. The S0 series features low current consumption due to the CMOS structure, and a stepup switching regulator can be constructed simply by externally connecting a coil, capacitors and a diode. The compact pin SSOP package and few external components make the S0 series ideal for LCD bias generators in portable equipment. For applications requiring a high output current, the external transistor controller type S series is also available. Switching Regulators (DCDC Converters) S0/ series Maximum output voltage: 0 to 0V (V steps) V range can be adjusted by electronic volume Output current: ma (VIN=V, VOUT=0V) Low current consumption: 00μA typ. (0kHz product, VIN=V, during operation) μa max. (during poweroff) Poweroff function: Stepping up operation is stopped, and VOUT pin is shorted to at shutdown. Input voltage range:.0 to 9.0V Softstart function Builtin CR oscillation circuit: 0kHz typ. (A series) 0kHz typ. (B series) Package: pin SSOP Builtin bit electronic volume External transistor type is available (S series) PIN CONFIGURATION pin SSOP 7 APPLICATIONS Power supply for mediumsized or largesized LCD panels Power supply for portable equipment such as pagers, pocket calculators, electronic organizers, and remote controllers Constant voltage power supply for cameras, video equipment, and communication equipment Pin No. 7 Symbol VDIN VCLK VSTRB VOUT VIN CONT EXT ON / OFF Description Electric volume data input pin Electric volume clock input pin Electric volume strobe signal input pin Output voltage monitor pin Power supply pin External inductor connection pin (S0 series: Open drain output) External transistor connection pin (S series: Pushpull (CMOS output)) Shutdown pin H : Normal operation (stepping up operation) L : Stepping up stopped GND pin SELECTION GUIDE Output voltage S0AxxFS range (V) series to 0V S0A0FSTG 0 to V S0AFSTG to V S0AFSTG to V S0AFSTG to V S0AFSTG to 0V S0A0FSTG S0BxxFS series S0B0FSTG S0BFSTG S0BFSTG S0BFSTG S0BFSTG S0B0FSTG (000/reel) SAxxFS series SA0FSTG SAFSTG SAFSTG SAFSTG SAFSTG SA0FSTG BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE S0 series S series L CONT SD L VOUT VIN PWM controller VDIN VCLK VSTRB CL VIN CIN CR oscillation circuit VREF RESET CIN External Tr Rb Cb EXT ON/OFF CMOS IC 00700

59 Switching Regulators (DCDC Converters) STEPDOWN, BUILTIN FET, SYNCHRONOUS RECTIFICATION,.MHz PWM CONTROL SWITCHING REGULATORS NEW S0/ series The S0/ series is a CMOS synchronous rectifi cation stepdown switching regulators which mainly consist of a reference voltage circuit, an oscillator, an error amplifi er, a phase compensation circuit, a PWM controller, an under voltage lockout circuit (UVLO), a current limit circuit, and a power MOS FET. The oscillation frequency is high at. MHz, so a high effi ciency, large output current, stepdown switching regulator can be achieved by using small external parts. The builtin synchronous rectifi cation circuit makes achieving high effi ciency easier compared with conventional stepdown switching regulators. A ceramic capacitor can be used as an output capacitor. Highdensity mounting is supported by adopting a small SOT package. The S0 and S series are available according to different pin confi guration. PIN CONFIGURATION S0 series VIN CIN SOT Pin No. Symbol Description VIN IC power supply pin GND pin ON/OFF Shutdown pin H : Power on (normal operation) L : Power off (standby) FB Output voltage feedback pin CONT External inductor connection pin S series Pin No. Symbol Description ON/OFF Shutdown pin H : Power on (normal operation) L : Power off (standby) GND pin CONT External inductor connection pin VIN IC power supply pin FB Output voltage feedback pin BLOCK DIAGRAM FB Error amplifier Reference voltage ON/OFF circuit Current limit circuit PWM comparator Mobile devices, such as mobile phones, Bluetooth devices, wireless devices, digital audio players, digital still cameras, portable DVD players, and portable CD players IC internal power supply PWM circuit Triangular wave generation circuit UVLO circuit Oscillation frequency:.mhz Input voltage range:.0 to.v Output voltage range: Arbitrarily settable by external output voltage setting resistor Output current: 00mA Reference voltage: 0.V ±.0% Effi ciency: 9% Softstart function: ms typ. Poweroff function: Shutdown current consumption:.0μa max. Builtin current limit circuit Pch power MOS FET onresistance: 0.Ω typ. Nch power MOS FET onresistance: 0.Ω typ. Constant continuous mode operation (no light load mode) Small package: SOT APPLICATION SELECTION GUIDE Output voltage (V) S0 series S series External setting S0AAMTG SAAMTG Remark Please contact our sales office if you want a product with an output voltage other than those shown above. VIN * * CONT L CFB RFB RFB VOUT COUT CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS ON/OFF CMOS IC PACKAGES *. Parasitic diode CMOS IC

60 STEPDOWN, PWM CONTROL, PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER Switching Regulators (DCDC Converters) S0/ series The S0/ series is a family of CMOS stepdown switching regulator controllers with PWMcontrol (S0) and PWM/PFM switchover control (S). The S0 series provides lowripple output, higheffi ciency, and excellent transient characteristics due to a PWM controller capable of varying the duty ratio linearly from 0% up to 00%. The series also contains a softstart circuit that prevents overshoot at startup. The S series works with either PWM control or PFM control, and can switch from one to the other. It normally operates using PWM control with a duty ratio of to 00%, and under a light load, it automatically switches to PFM control with a duty ratio of %. This series ensures high effi ciency over a wide range of conditions, from standby mode to full operation. The combination of the SOT small package and the low current consumption make the S0/ series an ideal power supply IC for portable devices. Low current consumption: 0μA max. (A, B series, during operation) μa max. (C, D series, during operation) 00μA max. (E, F series, during operation) 0.μA max. (during poweroff) Input voltage:. to V (B, D, F series). to 0V (A, C, E series) Output voltage:. to.0v (selectable in 0.V steps) Duty ratio: 0 to 00% PWM control (S0) to 00% PWM/PFM switchover control (S) External components: Pch power MOS FET or PNP transistor, coil, diode and capacitors. (If a PNP transistor is used, a base resistor and a capacitor are required.) Oscillation frequency: 0kHz typ. (A, B series), 0kHz typ. (C, D series), or 00kHz typ. (E, F series) Softstart function: ms typ. (A, B series), ms typ. (C, D series), or.ms typ. (E, F series) Poweroff function Overload protection circuit: Overload detection time ms typ. (A series), ms typ. (C series),.ms typ. (E series) Package: SOT PIN CONFIGURATION SOT APPLICATIONS Onboard power supply of battery devices for portable telephones, electronic organizers, PDAs Power supply for audio devices such as portable CD players and headphone stereos Constant voltage power supply for cameras, video equipment and communications equipment Power supply for microcomputers conversion from NiH or NiCd, or Lithium ion batteries to.v/v conversion from AC adapter to V/V Pin No. Symbol ON/OFF VOUT EXT VIN Description Poweroff pin H : Normal operation (stepdown operation) L : Stepdown operation stopped (All circuits deactivated) GND pin Output voltage monitoring pin Connection pin for external transistor IC power supply pin BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE Tr L VIN Oscillation circuit Reference voltage source with softstart VOUT VIN CIN SD EXT PWM or PWM/PFM switchover controller COUT ON/OFF ON/OFF Remark The diodes inside the IC are parasitic diodes. 0 CMOS IC 00700

61 Switching Regulators (DCDC Converters) SELECTION GUIDE A, B series (Oscillation frequency: 0kHz) C series (Oscillation frequency: 0kHz) (000/reel) Output (V) S0AxxMC series S0A0MCAVFTG. S0AMCAVGTG... S0AMCAVKTG. S0AMCAVLTG.7 S0A7MCAVMTG. S0AMCAVNTG.9 S0A9MCAVOTG.0 S0A0MCAVPTG. S0AMCAVQTG. S0AMCAVRTG. S0AMCAVSTG. S0AMCAVTTG. S0AMCAVUTG. S0AMCAVVTG S0A0MCAWJTG...0 SAxxMC series SAMCAXKTG SA7MCAXMTG SAMCAXNTG SA9MCAXOTG SA0MCAXPTG SAMCAXQTG SAMCAXRTG SAMCAXSTG SAMCAXTTG SAMCAXUTG SAMCAXVTG SA0MCAYJTG S0BxxMC series S0BMCARATG S0BMCARDTG S0BMCARJTG S0BMCARKTG S0B7MCARMTG S0BMCARNTG S0B9MCAROTG S0B0MCARPTG S0BMCARQTG S0BMCARRTG S0BMCARSTG S0BMCARTTG S0BMCARUTG S0BMCARVTG S0B0MCARZTG S0BMCASCTG S0B0MCASJTG S0BMCASMTG SBxxMC series SBMCATATG SBMCATDTG SB9MCATETG SB0MCATFTG SBMCATGTG SBMCATITG SBMCATKTG SBMCATLTG SB7MCATMTG SBMCATNTG SB9MCATOTG SB0MCATPTG SBMCATQTG SBMCATRTG SBMCATSTG SBMCATTTG SBMCATUTG SBMCATVTG SB0MCATZTG SBMCAUDTG SB0MCAUJTG SBMCAUKTG SB0MCAUTTG S0CxxMC series S0CMCBRKTG S0C7MCBRMTG S0CMCBRNTG S0C9MCBROTG S0C0MCBRPTG S0CMCBRQTG S0CMCBRRTG S0CMCBRSTG S0CMCBRTTG S0CMCBRUTG S0CMCBRVTG S0C0MCBSJTG SCxxMC series SCMCBTBTG SCMCBTKTG SC7MCBTMTG SCMCBTNTG SC9MCBTOTG SC0MCBTPTG SCMCBTQTG SCMCBTRTG SCMCBTSTG SCMCBTTTG SCMCBTUTG SCMCBTVTG SC0MCBUJTG Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators D series (Oscillation frequency: 0kHz) E, F series (Oscillation frequency: 00kHz) Output (V) S0DxxMC series SDxxMC series S0ExxMC series SExxMC series S0FxxMC series SFxxMC series. S0EMCBJATG SEMCBLATG S0FMCBNATG SFMCBPATG. SDMCBXBTG S0EMCBJBTG SEMCBLBTG.7 SE7MCBLCTG. SDMCBXDTG S0EMCBJDTG SEMCBLDTG S0FMCBNDTG SFMCBPDTG.9 SE9MCBLETG SF9MCBPETG.0 SD0MCBXFTG SE0MCBLFTG S0F0MCBNFTG. SEMCBLHTG. S0DMCBVKTG SDMCBXKTG S0EMCBJKTG SEMCBLKTG S0FMCBNKTG SFMCBPKTG. S0FMCBNLTG.7 S0D7MCBVMTG SD7MCBXMTG S0F7MCBNMTG. S0DMCBVNTG SDMCBXNTG S0FMCBNNTG.9 S0D9MCBVOTG SD9MCBXOTG.0 S0D0MCBVPTG SD0MCBXPTG S0E0MCBJPTG SE0MCBLPTG S0F0MCBNPTG SF0MCBPPTG. S0DMCBVQTG SDMCBXQTG S0FMCBNQTG. S0DMCBVRTG SDMCBXRTG SFMCBPRTG. S0DMCBVSTG SDMCBXSTG S0EMCBJSTG SEMCBLSTG S0FMCBNSTG SFMCBPSTG. S0DMCBVTTG SDMCBXTTG S0FMCBNTTG SFMCBPTTG. S0DMCBVUTG SDMCBXUTG SEMCBLUTG. S0DMCBVVTG SDMCBXVTG S0FMCBNVTG SFMCBPVTG.0 SD0MCBXZTG S0F0MCBUZTG SF0MCBPZTG.0 S0D0MCBWJTG SD0MCBYJTG S0E0MCBKJTG SE0MCBMJTG S0F0MCBOJTG SF0MCBQJTG. SDMCBYLTG S0EMCBKLTG. S0FMCBOOTG SFMCBQOTG.0 S0F0MCBOTTG Remark Please contact our sales offi ce if you want a product with an output voltage other than those shown above. Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

62 STEPDOWN, 00kHz, PWM CONTROL, PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER Switching Regulators (DCDC Converters) S0/ series The S0/ series is PWM control (S0) and PWM/PFM switchover control (S) CMOS stepdown switching regulator controllers that include a reference voltage source, an oscillation circuit, an error amplifi er, a phase compensation circuit, a PWM controller, and a current limiter. Since the oscillation frequency is high (00kHz and 00kHz), a stepdown switching regulator with an effi cient and large output current can be constructed using small external parts. The S0 realizes low ripple and high effi ciency due to a PWM controller that can change the duty ratio linearly from 0% to 00%, and an optimized error amplifi er and phase compensation circuit. The S operates in the PWM mode when the duty ratio is 9% or higher, and in the PFM mode when it is 9% or less to realize high efficiency in the total load range. The combination of an pin MSOP package and a highoscillation frequency make the S0/ series controllers ideal for the main power supply IC of portable devices. PIN CONFIGURATION Oscillation frequency: 00kHz (A, B type) 00kHz (C, D type) Output voltage:. to.0v (Selectable in 0.V steps) Output voltage accuracy: ±.0% An output voltage external setting (FB) type is also provided: VFB=.0V Duty ratio: 0 to 00% PWM control (S0) 9 to 00% PWM/PFM switchover control (S) External components: Transister, coil, diode, capacitors. Builtin current limiter can be set by external resistor RSENSE. Softstart function can be set by external resistor RSS and external capacitor CSS. Poweroff function Small package: pin MSOP APPLICATIONS Power supplies for portable devices such as PDAs, electronic organizers, and cellular phones Power supplies for audio equipment such as portable CD players and headphone stereos Main or sub power supplies for notebook computers and peripheral equipment pin MSOP 7 Pin No. Symbol Description GND pin EXT External transistor connection pin VIN IC power supply pin CVREF Bypass capacitor connection pin for reference voltage source ON/OFF Shutdown connection pin, soft start capacitor connection pin Normal operation (stepdown operation) All circuits stopped (stepdown operation stopped) NC Output voltage fi xed output type is NC. (FB) (Output voltage external setting type is FB) 7 VOUT Output voltage pin SENSE Current limiting detection pin <Product with fixed output voltage> Output voltage (V) S0 series A type fosc = 00 khz, PWM control S0AFNIAATG S0AFNIADTG S0AFNIAKTG S0AFNIASTG S0A0FNIBBTG <Prod uct with exter nally set output voltage> Output voltage (V) Variable SELECTION GUIDE (000/reel) S series A type S0 series C type S series C type fosc = 00 khz, PWM/PFM switchover control fosc = 00 khz, PWM control fosc = 00 khz, PWM/PFM switchover control SAFNIGBTG SAFNIGDTG SAFNIGKTG SAFNIGSTG S0CFNICDTG S0CFNICKTG S0CFNICSTG SCFNIIDTG SCFNIIKTG SCFNIIRTG SCFNIISTG S series B type S0 series B type S0 series D type S series D type fosc = 00 khz, fosc = 00 khz, PWM control PWM/PFM switchover control fosc = 00 khz, PWM control fosc = 00 khz, PWM/PFM switchover control S0B00FNIMATG SB00FNIMDTG S0D00FNIMBTG SD00FNIMETG Remark Please contact our sales office if a product with an output voltage other than the above is required. BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE (000/reel) Pch Power MOS FET RSENSE RSENSE L SENSE SENSE VOUT VIN SD CIN VIN EXT IC internal power supply Triangularwave oscillator circuit PWM comparator Shutdown Softstart circuit PWM or PWM/PFM switchover controller Phase compensation circuit Error amplifier VREF=.0V Local power supply reference voltage source mv VOUT COUT mv VOUT CFB FB RA RB COUT ON/OFF CSS RSS VON/OFF CVREF CVL <VOUT internal setting type> < FB type > CMOS IC 00700

63 STEPDOWN, SYNCHRONOUS PWM CONTROL SWITCHING REGULATOR CONTROLLER Switching Regulators (DCDC Converters) S series The S series is a synchronous PWM control CMOS stepdown switching regulator controller that includes a reference voltage source, a synchronous rectifi cation circuit, an oscillation circuit, an error amplifi er, a phase compensation circuit, and a PWM controller. An effi cient stepdown switching regulator can be realized simply by adding external Pch and Nch power MOS FETs, one coil, and three capacitors. Since the oscillation frequency is as high as 00kHz, the S can be used to confi gure a high effi ciency stepdown switching regulator capable of driving high output current using small external components. Because of the synchronous rectifi cation operation of the S series, to 0% increase in effi ciency is obtained compared to conventional stepdown switching regulators. The pin TSSOP and high oscillation frequency make the S ideal as the main power supply for portable devices. PIN CONFIGURATION pin TSSOP Pin No. Symbol Description NC No connection VOUT Output voltage pin ON/OFF Shutdown pin H : Usual operation (stepdown operation) L : Stepdown stopped (all circuits stopped) CSS Softstart capacitor connection pin GND pin NDRV External Nch connection pin 7 PDRV External Pch connection pin VIN IC power supply pin Tr 7 BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE Synchronous rectifi cation system realizing high effi ciency (typ. 9%) External components: Use at maximum duty=00% and use of a battery up to maximum life is possible by using Pch and Nch MOS transistors on the MOS. Oscillation frequency: 00kHz Input voltage:.7 to.0v Output voltage:.,. to.0v (Selectable in 0.V steps) Output voltage accuracy: ±.0% Softstart function: Can be set by external capacitor CSS. Poweroff function Small package: pin TSSOP APPLICATIONS Constant voltage power supply for hard disk and DVD drivers Power supply for portable devices, such as digital cameras, PDAs, electronic organizers, and cellular phones Main or sub power supply of notebook computers and peripheral equipment Constant voltage power supply of cameras, video equipment, and communications devices SELECTION GUIDE Output voltage pin TSSOP (000/reel).V SAFTTBG.V SAAFTTBG.V SAAFTTBG.V SAAFTTBG.V SAAFTTBG.V SAAFTTBG.7V SA7AFTTBG.V SAAFTTBG.0V SA0AFTTBG.V SAAFTTBG.9V SA9AFTTBG.V SAAFTTBG.V SAAFTTBG.V SAAFTTBG.9V SA9AFTTBG.0V SA0AFTTBG.V SAAFTTBG.0V SA0AFTTBG Remark Please contact our sales offi ce if a product with an output voltage other than the above is required. L CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator VIN CIN CSS Tr VIN PDRV NDRV CSS Oscillation circuit Remark The diodes in the IC are parasitic diodes. PWM controller P.N. throughcurrent protection circuit Reference voltage source with softstart function ON/OFF VOUT COUT PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC 00700

64 STEPUP OR DOWN, SINGLECOIL, PWM CONTROL SWITCHING REGULATOR CONTROLLER Switching Regulators (DCDC Converters) S0 The S0 is a PWM control CMOS stepdown switching regulator controller that includes a PWM stepup/down automatic switching circuit, a reference voltage circuit, an oscillation circuit, an error amplifier, a phase compensation circuit, and a PWM controller. The PWM stepup/down automatic switching control circuit realizes a highly effi cient stepup/down switching regulator using one coil. Furthermore, effi cient and large output current is enabled by externally attaching an N channel power MOS FET. Moreover, the PWM controller, which can vary the duty ratio linearly from 0%, and the optimally designed error amplifi cation circuit and phase compensation circuit realize low ripple and good transient response characteristics. PIN CONFIGURATION 7 pin TSSOP Pin No. Symbol Description VIN IC power supply pin VL Boost power supply pin ON/OFF Poweroff pin H : Usual operation (stepup/down). L : All circuits stopped (stepup/stepdown stopped) GND pin CSS Softstart capacity connection pin CPRO Protection time setting capacity connection pin 7 T Test pin, usually connected to GND NC Non connection 9 FB FB pin 0 NC Non connection EXT External transistor drive pin D Digital GND pin EXT External transistor drive pin LX Coil connection pin EXT External transistor drive pin BST Boost capacitor pin for SW drive 0 9 Singlecoil stepup/down automatic switchover method realizing high effi ciency High effi ciency is realized by using only Nch power MOS for external power MOS Automatic recoverable overload protection circuit builtin FB pin voltage: VFB=.0V FB pin voltage accuracy: ±.0% Oscillation frequency: 00kHz Package: pin TSSOP Output voltage:. to.0v Input voltage:. to.0v, input from dry cells and one lithium cell to an AC adapter supported. Softstart function: Can be set by external capacitor CSS. Poweroff function APPLICATIONS Power supply for portable devices, such as PDAs, electronic organizers, and cellular phones Main or the sub power supply of notebook computers and peripheral equipment Constant voltage power supply of cameras, video equipment, and communications. from dry battery cells and lithium cell to AC adapter SELECTION GUIDE Output voltage (V) External setting (000/reel) S0 fosc=00khz PWM control S0B00AFTTBG BLOCK DIAGRAM AND CIRCUIT CONNECTION EXAMPLE SW L SD CBST BST EXT LX VIN S0 Oscillation circuit PWM stepup/ down automatic switching controller FB RFB RFB Cfzfb VIN CIN SW SD EXT VL Internal power supply EXT SW COUT ON/OFF Over load protector Reference voltage source with soft start CVL T D CPRO CSS CPRO CSS Remark Diodes in the internal IC are parasitic diodes. CMOS IC 00700

65 Charge Pumps Product Lineup SII s charge pump ICs utilize multiple external capacitors to provide various power supplies, including those for constant current, and stepup or stepdown voltage. Compared to DC/DC converters that use choke coils, smaller board can be used for these ICs. Small ceramic capacitors can be used for the external capacitors. The S series features channel constant current output for white LEDs. The S series features stepup output. Type Product name Effi ciency Operating voltage Output Output accuracy Switching frequency Package channel white LED driver S series %.7 to.v.0 to ma ±% 00kHz 0Pin SON(B) (VIOUT,, V, VIN=V) regulation stepup S series 90%. to.0v. to.v, in 0. V steps ±% max..0mhz SOTW Superlow voltage operation for stepup DCDC converter startup SZ series 0. to.0v. to. V, in 0. V steps (Discharge start voltage) ±0.V (Discharge start voltage accuracy) 0kHz SOT CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS Charge Pumps Switching Regulators (DCDC Converters) CONTENTS Detectors Regulators PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator Temperature Sensor, Temperature Switch Lithiumion Rechargeable Battery Protection ICs CMOS IC 00700

66 CHANNEL WHITE LED DRIVER IC (CHARGE PUMP IC WITH BUILTIN CONSTANT CURRENT CIRCUIT) Charge Pumps S series The S series is a CMOS charge pump DCDC converter with a builtin constant current circuit. The constant current output feature is ideal for the power supply of LEDs. There are three output channels so three LEDs can be driven. Variable voltage and variable current setting resistor types are available. Since small ceramic capacitors can be used for the external capacitors such as the pump capacitor, input capacitor, and output capacitor, the mounting area can be minimized. PIN CONFIGURATION IOUT 0pin SON(B) ON / OFF PFM control CMOS charge pump Builtin constant current circuit Power supply voltage:.7 to.v Output current value: The two types, a variable voltage type and a current setting variable resistor type, are available between.0ma and.0ma (When VIOUT,,.0V, VIN=.0V) Output current dispersion among pins: ±% max. Builtin softstart circuit:.ms typ. Constant current output pin: ch ±% accuracy Oscillation frequency: 00kHz typ. ON/OFF function available (during standby: μa max.) Light control function: Variable via external resistor (S00CPE) Variable via external input voltage (S00BPE) Variable via PWM signal (S00CPE) Small package: 0pin SON(B) IOUT IOUT C C RISET/VISET CPOUT VIN GND APPLICATIONS Power supply for white LED display backlight Constant current circuit Cellular phone and PDA with cell lithium battery Power supply for fl at panel display SELECTION GUIDE Product name S00CPEIPATFG S00BPEIOQTFG Type Current setting variable resistor type Variable voltage type BLOCK DIAGRAM S00CPE S00BPE VIN CIN =.7 μf SW CPOUT VIN CIN =.7 μf SW CPOUT C CPUMP = 0. μf C SW SW SW Switch Controller Softstart circuit PFM control oscillation circuit (00 khz) ON/OFF circuit Reference voltage Rs Rf IOUT IOUT IOUT RISET COUT = 0 μf R * C CPUMP = 0. μf C SW SW SW Switch controller Softstart circuit PFM control oscillation circuit (00 khz) ON/OFF circuit Reference voltage Rs Rf R * IOUT IOUT IOUT VISET COUT = 0 μf ON/OFF GND ON/OFF GND *. R: Current setting resistor *. R: Internal resistor APPLICATION CIRCUIT EXAMPLE (Current setting variable resistor type: S00CPEIPATFG) IOUT IOUT ON / OFF RlSET Control signal White LED 0. μf IOUT C C CPOUT VIN GND.7 μf 0 μf R *. to 0 k *. Current setting resistor CMOS IC 00700

67 STEPUP CHARGE PUMP DCDC CONVERTER Charge Pumps S series The S series is a CMOS stepup charge pump DC DC converter with a voltage regulation function. The S series consists of an oscillation circuit, a controller, a reference voltage circuit, an error amplifi er circuit, and an output switching transistor, and can regulate the output voltage by PFM control. Since small ceramic capacitors can be used for the pump capacitor, input capacitor, and output capacitor, the mounting area can be minimized. Stepup CMOS charge pump Power supply voltage:. to.0v Output voltage:. to.v (selectable in 0.V steps) Output voltage accuracy: ±% Output current: ma (VIN= (VOUT (S) 0.)V) Oscillation frequency:.0mhz ON/OFF function Small package: SOTW CONTENTS Detectors Pin No PIN CONFIGURATION Symbol VIN C C ON/OFF Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES GND VOUT BLOCK DIAGRAM.7 F 0.0 F VIN C C SOTW Description input pin Chargepump pump capacitor connection pin (positive pin ) Chargepump pump capacitor connection pin (negative pin) Poweroff pin High level ( H ): normal operation (stepup) Low level ( L ): stepup halt (all circuits halt) GND pin output pin SW SW SW SW Switch controller Softstart circuit ON/OFF PFM control oscillation circuit (.0 MHz) ON/OFF circuit APPLICATIONS Lithium ion battery driven applications Local power supply Power supply for white LED display backlights SELECTION GUIDE SOTW Output voltage (000/reel).V SAMHMATFG.0V S0AMHMFTFG.V SAMHMITFG.V SAMHMKTFG.V SAMHMLTFG.0V S0AMHMPTFG.V SAMHMUTFG.0V S0AMHMZTFG.V SAMHMBTFG.V SAMHMETFG Remark Please contact our sales offi ce if a product with an output voltage other than the above is required. Reference voltage Rs Rf GND VOUT 0 F Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC

68 SUPERLOW VOLTAGE OPERATION CHARGE PUMP IC FOR STEPUP DCDC CONVERTER STARTUP Charge Pumps SZ series The SZ series is a charge pump IC for activating a stepup DCDC converter using full depleted SOI (Silicon on Insulator) technology. The SZ series operates with low voltage and differs from the conventional charge pump ICs. Since SZ series steps very low voltage of 0. to 0.V up, the small energy can effi ciently be used. The increased voltages are stored into the external capacitor for activation, and are discharged as the activation power supply for the stepup DCDC converter after reaching the discharge start voltage that is previously set. PIN CONFIGURATION SOT Operating input voltage: 0. to.0v Current consumption: During operation : 0.mA max. (VIN=0.V) During shutdown : 0.μA max. (VIN=0.V) Discharge start voltage:. to.v (selectable in 0.V steps) Poweroff voltage: Discharge start voltage 0.V (fi xed) Oscillation frequency: 0kHz typ. (VIN=0.V) Small package: SOT External component: Startup capacitor (CCPOUT), unit APPLICATIONS Stepping up from lowvoltage power supply such as solar cell and fuel cell Stepping up internal power supply voltage of RF tag Intermittent power supply to intermittently operating system SELECTION GUIDE Pin No. Symbol OUT VM VIN CPOUT Description Output pin (stepup DCDC converter connection pin) GND pin Stepup DCDC converter output voltage monitor pin Power supply input pin Startup capacitor connection pin Discharge start voltage.v ± 0.V.0V ± 0.V.V ± 0.V.V ± 0.V Poweroff voltage.9v ± 0.V.V ± 0.V.V ± 0.V.V ± 0.V SOT SZMTG SZ0MTG SZMTG SZMTG Remark Contact the our sales offi ce for products with discharge start voltage other than those specifi ed above. PIN CONFIGURATIONS Step : Step : Step : Step : Step : Boost input voltage and charge the external capacitance. The charge voltage reaches a specific value. Discharging is started and power is supplied to the stepup DCDC converter. The stepup DCDC converter is started and voltage is output. The voltage output is detected and the SZ stops. SZ series SZ series SZ series SZ series SZ series VDET 0.V or more Power supply source Stepup DCDC converter Load 0.V or more 0.V or more 0.V or more 0.V or more Power supply source Stepup DCDC converter Load Power supply source Stepup DCDC converter Load Power supply source Stepup DCDC converter Load Power supply source Stepup DCDC converter Load BLOCK DIAGRAM Charging CPOUT CCPOUT Discharging VIN Charge pump circuit M COMP CLK signal Detection Oscillation circuit VREF OUT VM EN COMP CMOS IC 00700

69 Product Lineup We SII offer composite ICs with low current consumption in which highaccuracy voltage detector and voltage regulator are combined into a single chip. Description Product name Composition Output voltage Detection voltage Accuracy Current consumption Package µa max. High withstandvoltage regulator. to.v. to.v (Operating) voltage regulator with S7x series detector ±.% SOT9 (0.V steps) (0.V steps).µa max. reset function (DelayPowerOff) (Poweroff). to.v (CS), µa max. voltage regulators. to.v.7 to.v (Operating) Pin TSSOP SA series voltage detectors ±% (0.V steps) (PREEND, RESET).µA max. Pin SON(B) switch (0.V steps) (Back up) µa max. voltage regulators. to.v (CS), Battery backup. to.v (Operating) Pin TSSOP S series voltage detectors.7 to.v (RESET) ±% switching IC (0.V steps).µa max. Pin SON(B) switch (0.V steps) (Back up). to.v (CS), µa max. SA series voltage regulators. to.v.7 to.v (Operating) Pin TSSOP voltage detectors ±% (0.V steps) (PREEND, RESET).µA max. Pin SOP switch (0.V steps) (Back up) NEW : New product NEW Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator Temperature Sensor, Temperature Switch Lithiumion Rechargeable Battery Protection ICs CMOS IC

70 HIGH WITHSTANDVOLTAGE VOLTAGE REGULATOR WITH RESET FUNCTION S7x series The S7x series is a lowcurrentconsuming, highoperationvoltage regulator with a reset function that integrates a highly precise voltage detection circuit and a voltage regulator on a single chip. The output voltage and detection voltage are fixed internally and have a ±.% accuracy. The S7x series basically consists of a voltage detector, a voltage regulator, and a shortcircuit protection circuit with selection of a delay circuit or a shutdown function also possible. The package is the SOT9. PIN CONFIGURATION SOT9 : VOUT : : CD(VPF, SENSE) : VOR : VIN Output voltage range:. to.v (0.V steps) Output voltage accuracy: ±.% Detection voltage range:. to.v (0.V steps) Detection voltage accuracy: ±.% (for S7xxxxF series, release voltage ±.%) Low I/O voltage difference: 0.V typ. (IOUT=0mA, VOUT=.0V) 0.V typ. (IOUT=0mA, VOUT=.0V) Low current consumption: μa max. (during operation).μa max. (during poweroff) (Only for S7xxxxC/E/G series) Wide operating voltage range: V max. Wide operating temperature range: 0 C to C Builtin delay circuit or shutdown circuit: Delay time: 7ms typ. (S7xxxxA/B/F series, CD=.7nF) Small package: SOT9 Builtin shortcircuit protection APPLICATIONS Constant voltage power supply or reset circuit of batterypowered equipment VTRs, cameras, communication equipment Lithiumion rechargeable battery packs BLOCK DIAGRAM ) Builtin delay circuit, VIN detection (S7xxxxA/F series) Shortcircuit protection ) Builtin delay circuit, VOUT detection (S7xxxxB series) Shortcircuit protection ) Builtin power on/off (regulator only) VIN detection (S7xxxxC series) Shortcircuit protection VIN regulator VOUT VIN regulator VOUT VIN regulator VOUT detection VOR detection VOR detection VOR Delay circuit Delay circuit Power on/off circuit CD CD VPF ) Builtin power on/off (regulator only) VSENSE detection (S7xxxxE series) ) Builtin power on/off (regulator only) VOUT detection (S7xxxxG series) Shortcircuit protection Shortcircuit protection VIN regulator Power on/off VOUT VIN regulator VOUT SENSE detection VOR detection VOR Power on/off circuit VPF FUNCTION LIST Series name detector (VD) Detection voltage accuracy Release voltage accuracy Builtin delay circuit Poweroff function for regulator S7xxxxA VIN detection ±.% No S7xxxxB VOUT detection ±.% No S7xxxxC VIN detection ±.% No S7xxxxE VSENSE detection ±.% No S7xxxxF VIN detection ±.% No S7xxxxG VOUT detection ±.% No 70 CMOS IC 00700

71 SELECTION GUIDE (000/reel) VR output voltage.v.v.v.v.0v.0v.0v.0v.0v.0v.0v.0v.0v.0v.0v.0v.v.v.v.v.v.0v.0v.0v.0v.0v.0v.0v.v VD detection voltage.v 9.V 7.V.V.0V 7.7V.V.V.V.V.V.9V.7V.V.9V.V 7.7V.V.V.V.V.9V.9V.V.V.V.V.V.V S7xxxxA series S7077AUPAAFTG S70AUPAAATG S70AUPAABTG S70AUPAACTG S709AUPAADTG S707AUPAAETG S777AUPOAATG S7AUPOABTG S70AUPADATG S70AUPADBTG S70AUPADCTG S70AUPADDTG S70AUPADETG S7xxxxB series S7BUPAGATG S70BUPABATG S70BUPABBTG S70BUPABCTG S709BUPABDTG S707BUPABETG S70BUPABFTG S709BUPABHTG S70BUPABGTG S7BUPALATG S70BUPAEATG S70BUPAEBTG S70BUPAECTG S70BUPAEDTG S70BUPAEETG S7BUPOLATG S7xxxxC series S79CUPAHCTG S77CUPAHATG S7CUPAHBTG S70B0CUPACGTG S7077CUPACFTG S70CUPACHTG S70CUPACATG S70CUPACBTG S70CUPACCTG S709CUPACDTG S707CUPACETG S7CUPAOHTG S7CUPAOCTG S709CUPAFFTG S709CUPAFGTG S70CUPAFATG S70CUPAFBTG S70CUPAFCTG S70CUPAFDTG S70CUPAFETG S7xxxxG series S70GUPANCTG S707GUPANETG VR output voltage.0v.0v.0v.0v.0v.0v.v.v.v.v.v.v.v.0v.0v.0v.0v.0v.v.v.v VD detection voltage.0v.7v 7.7V.V.V.0V.0V 0.0V.V 7.V.V.V.0V.V.V.V.0V.V.V.0V.V S7xxxxE series S70B0EUPAJITG S707EUPAJGTG S7077EUPAJFTG S70EUPAJHTG S70EUPAJATG S700EUPAJBTG S7B0EUPAPCTG S7A0EUPAPFTG S7EUPAPHTG S77EUPAPETG S7EUPAPGTG S7EUPAPDTG S70EUPAPBTG S70BEUPAMFTG S70EUPAMCTG S70EUPAMBTG S700EUPAMETG S70EUPAMDTG S7EUPAZBTG S70EUPAZCTG S7EUPAZATG VR output voltage.0v VD release voltage.7v S7xxxxF series S707FUPAKATG Remark Please contact our sales offi ce if you desire a product with a voltage other than those shown above. Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

72 BATTERY BACKUP SWITCHING IC SA series The SA series is a CMOS IC consists of the circuit for switching the primary and back up power supply on a single chip. The SA series includes two voltage regulators, three voltage detectors, a power supply switch and its controller. In addition to the function for switching the main and backup batteries, SA series provides two types of voltage detection output signal that matches to the power supply to the microcomputer. Adopting a special sequence for switch control enables to use the backup power supply effi ciently, thus this IC is ideal for structuring backup system. PIN CONFIGURATIONS pin TSSOP 7.. PREEND. VBAT. CS. RESET. VOUT 7. VIN. VRO pin SON(B).. PREEND. VBAT 7. CS. RESET. VOUT 7. VIN. VRO Low current consumption μa max. (VIN=V, during normal operation).μa max. (during backup) regulator Output voltage accuracy: ±% Output voltage:. to.v (selectable in 0.V steps independently) Three builtin voltage detectors (CS, PREEND, RESET) Detection voltage accuracy: ±% Detection voltage:. to.v (selectable in 0.V steps) (CS voltage detector).7 to.v (selectable in 0.V steps) (PREEND, RESET voltage detector) Switching circuit for primary power supply and backup power supply confi gurable on one chip Effi cient use of backup power supply Special sequence Backup voltage is not output when the primary power supply voltage does not reach the initial voltage at which the switch unit operates. Package: pin TSSOP, pin SON(B) APPLICATIONS Camcorders Digital cameras Memory cards Other SRAM backup equipment SELECTION GUIDE Item Product name SAAAFTTBG SAAAPATFG SAABFTTBG SAACFTTBG SAADFTTBG SAAEFTTBG SAAFFTTBG SAAGFTTBG SAAHFTTBG SAAJFTTBG SAAKFTTBG Package pin TSSOP pin SON(B) pin TSSOP pin TSSOP pin TSSOP pin TSSOP pin TSSOP pin TSSOP pin TSSOP pin TSSOP pin TSSOP Output voltage (V) VRO VOUT CS voltage (V) VDET VDET RESET voltage (V) PREEND voltage (V) VDET VDET VDET VDET Switch voltage (V) VSW VDET 0. VDET 0.77 VDET 0. VDET 0.77 VDET 0.77 VDET 0.77 VDET 0.77 VDET 0.77 VDET 0.77 VDET 0.77 BLOCK DIAGRAM VOUT VIN REG M VBAT PREEND VSW Detector PREEND detector CS CS detector Switch controller VSW Detector RESET detector RESET REG VRO 7 CMOS IC 00700

73 BATTERY BACKUP SWITCHING IC S series The S series is a CMOS IC consists of the circuit for switching the primary and back up power supply on a single chip. The S series includes three voltage regulators, two voltage detectors, a power supply switch and its controller. In addition to the function for switching the main and backup batteries, S series provides two types of voltage detection output signal that matches to the power supply to the microcomputer. Adopting a special sequence for switch control enables to use the backup power supply effi ciently, thus this IC is ideal for structuring backup system. PIN CONFIGURATIONS pin TSSOP 7.. VCH. VBAT. CS. RESET. VOUT 7. VIN. VRO pin SON(B).. VCH. VBAT 7. CS. RESET. VOUT 7. VIN. VRO Low current consumption μa max. (VIN=V, during normal operation).μa max. (during backup) regulator Output voltage accuracy: ±% Output voltage:. to.v (selectable in 0.V steps independently) Two builtin voltage detectors (CS, RESET) Detection voltage accuracy: ±% Detection voltage: Selectable in 0.V steps in the range of. to.v (CS voltage detector) Selectable in 0.V steps in the range of.7 to.v (RESET voltage detector) RESET release delay: 00μs min. Switching circuit for primary power supply and backup power supply confi gurable on one chip Effi cient use of backup power supply Special sequence Backup voltage is not output when the primary power supply voltage does not reach the initial voltage at which the switch unit operates. Package: pin TSSOP, pin SON(B) APPLICATIONS Camcorders Digital cameras Memory cards Other SRAM backup equipment CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) SELECTION GUIDE Item Product name SAAAFTTBG SAAAPATFG Package pin TSSOP pin SON(B) BLOCK DIAGRAM VIN Output voltage (V) VRO VOUT VCH VSW Detector CS voltage (V) VDET VDET REG RESET voltage (V) VDET VDET VOUT M Switch voltage (V) VSW VDET 0. VDET 0. RESET detector VBAT RESET Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator CS CS detector Switch controller VSW Detector Delay circuit REG VRO PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS REG VCH CMOS IC PACKAGES CMOS IC

74 BATTERY BACKUP SWITCHING IC NEW SA series The SA series is a CMOS IC consists of the circuit for switching the primary and back up power supply on a single chip. The SA series includes two voltage regulators, three voltage detectors, a power supply switch and its controller. In addition to the function for switching the main and backup batteries, SA series provides three types of voltage detection output signal that matches to the power supply to the microcomputer. Adopting a special sequence for switch control enables to use the backup power supply effi ciently, thus this IC is ideal for structuring backup system. PIN CONFIGURATIONS pin TSSOP 7.. PREEND. VBAT. CS. RESET. VOUT 7. VIN. VRO pin SOP 7.. PREEND. VBAT. CS. RESET. VOUT 7. VIN. VRO Low current consumption μa max. (VIN=V, during normal operation).μa max. (during backup) regulator Output voltage accuracy: ±% Output voltage:. to.v (selectable in 0.V steps independently) Three builtin voltage detectors (CS, PREEND, RESET) Detection voltage accuracy: ±% Detection voltage: Selectable in 0.V steps in the range of. to.v (CS voltage detector) Selectable in 0.V steps in the range of.7 to.v (PREEND, RESET voltage detector) Switching circuit for primary power supply and backup power supply confi gurable on one chip Effi cient use of backup power supply Special sequence Backup voltage is not output when the primary power supply voltage does not reach the initial voltage at which the switch unit operates. Package: pin TSSOP, pin SOP (JEDEC) APPLICATIONS Camcorders Digital cameras Memory cards Other SRAM backup equipment SELECTION GUIDE Item Output voltage (V) CS voltage (V) RESET voltage (V) PREEND voltage (V) Switch voltage (V) Product name VRO VOUT VDET VDET VDET VDET VDET VDET VSW SAAAJTG VOUT VDET 0.77 BLOCK DIAGRAM VOUT VIN REG M VBAT PR EEND VSW Detector PREEND Detector CS CS Detector Switch controller V SW Detector RESET Detector RESET REG VRO 7 CMOS IC 00700

75 Lithiumion Rechargeable Battery Protection ICs Product Lineup SII s lithiumion rechargeable battery protection ICs protect the lithiumion battery packs from overcharge, overdischarge and overcurrent. Highaccuracy voltage detectors and delay circuits are included. Description Product name Overcharge Detection (Accuracy) SC/D series.9 to.v (±mv) For cell S series.9 to.v (±mv) S series.9 to.v (±mv) For cell SB series.9 to.v (±mv) S series.9 to.v (±mv) SA series. to.v (±0mV) For cell SB series. to.v (±mv) SC series. to.v (±0mV) For cell or cell SA/B series.9 to.v (±mv) For cell or cell SA/B series.9 to.v (±mv) S series.9 to.v (±mv) For to cells. to.v SA/B series (Secondary protection) (±mv) For to cells.7 to.v S series (Secondary protection) (±mv) Overdischarge Detection (Accuracy) Overcurrent Detection (Accuracy).0 to.0v 0.0 to 0.V (±0mV) (±mv).0 to.0v 0.0 to 0.V (±0mV) (±mv).0 to.0v 0.0 to 0.V (±0mV) (±0mV).0 to.0v 0.0, 0.0 to 0.V (±0mV) (±mv).7 to.v 0.07 to 0.V (±0mV) (±0mV).0 to.7v 0. to 0.V (±0mV) (±0%).0 to.v 0. to 0.V (±0mV) (±0%).0 to.v 0. to 0.V (±0mV) (±0%).0 to.0v 0.0 to 0.V (±0mV) (±mv).0 to.0v 0.0V to 0.V (±0mV) (±mv).0 to.0v 0.0V to 0.V (±0mV) (±mv) Overcharge Detection Delay Builtin delay timer Builtin delay timer Builtin delay timer Builtin delay timer External delay capacitor External delay capacitor External delay capacitor External delay capacitor Builtin delay timer External delay capacitor External delay capacitor Builtin delay timer External delay capacitor Package SOT SNTA SOT Pin SNB(B) SOT SNTA SNTA Pin TSSOP Pin TSSOP Pin SOP Pin TSSOP Pin TSSOP Pin TSSOP Pin TSSOP Pin TSSOP Pin TSSOP SNTA Pin TSSOP SNTA Pin MSOP Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator Temperature Sensor, Temperature Switch CMOS IC

76 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR CELL PACK SC/D series The SC/D series is protection IC for singlecell lithiumion/lithium polymer rechargeable battery and include highaccuracy voltage detectors and delay circuits. This IC is suitable for protecting singlecell rechargeable lithiumion/lithium polymer battery packs from overcharge, overdischarge and overcurrent. PIN CONFIGURATIONS Pin No. Symbol VM VDD DO CO SOT Description detection between VM pin and pin (Overcurrent/charger detection pin) Connection for positive power supply input Connection for negative power supply input Connection of discharge control FET gate (CMOS output) Connection of charge control FET gate (CMOS output) SNTA Highaccuracy voltage detection circuit Overcharge detection voltage.9 to.v (mv steps) Accuracy ±mv ( C) Accuracy ±0mV ( to C) Overcharge release voltage. to.v * Accuracy ±0mV Overdischarge detection voltage.0 to.0v (0mV steps) Accuracy ±0mV Overdischarge release voltage.0 to.v * Accuracy ±00mV Discharge overcurrent detection voltage 0.0 to 0.0V (0mV steps) Accuracy ±mv Load shortcircuiting detection voltage 0.V (fi xed) Accuracy ±00mV Charge overcurrent detection voltage 0.V (fi xed) Accuracy ±0mV (C series) Detection delay times are generated by an internal circuit (external capacitors are unnecessary). Accuracy ±0% Highwithstand voltage device is used for charger connection pins (VM pin and CO pin : Absolute maximum rating=v) 0V battery charge function / is selectable. Powerdown function / No is selectable (D series). Wide operating temperature range 0 to C Low current consumption Operation mode.0μa typ.,.μa max. ( C) Powerdown mode 0.μA max. ( C) Small package: SOT, SNTA Pin No. Symbol NC CO DO VDD VM Description No connection Connection of charge control FET gate (CMOS output) Connection of discharge control FET gate (CMOS output) Connection for negative power supply input Connection for positive power supply input detection between VM pin and pin (Overcurrent/charger detection pin) *. Overcharge release voltage= Overcharge detection voltage Overcharge hysteresis voltage (Overcharge hysteresis voltage can be selected as 0V or from a range of 0. to 0.V in 0mV steps.) *. Overdischarge release voltage= Overdischarge detection voltage Overdischarge hysteresis voltage (Overdischarge hysteresis voltage can be selected as 0V or from a range of 0. to 0.7V in 00mV steps.) APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs 7 CMOS IC 00700

77 Lithiumion Rechargeable Battery Protection ICs SELECTION GUIDE SC series () SOT Product name SCAAMTG SCABMTG SCADMTG SCAEMTG SCAFMTG SCAHMTG SCAIMTG SCAJMTG SCAKMTG SCALMTG SCAMMTG SCANMTG SCAOMTG SCAPMTG SCAQMTG SCARMTG SCASMTG SCATMTG SCAUMTG SCAVMTG SCAYMTG SCAZMTG Item Overcharge detection voltage VCU.7V.V.0V.0V.7V.0V.0V.0V.0V.0V.0V.00V.7V.7V.7V.7V.0V.7V.0V.V.0V.0V Overcharge release voltage VCL.7V.07V.0V.0V.7V.00V.00V.00V.00V.0V.0V.00V.07V.07V.07V.07V.0V.07V.0V.07V.0V.0V Overdischarge detection voltage VDL.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.00V Overdischarge release voltage VDU.0V.90V.00V.0V.0V.0V.0V.0V.0V.0V.0V.90V.0V.0V.0V.0V.0V.0V.0V.90V.0V.00V Discharge overcurrent detection voltage VDIOV 0.0V 0.V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.V 0.0V 0.07V 0 V battery charge function *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. () SNTA Product name SCAAITG SCABITG SCADITG SCAEITG SCAFITG SCAHITG SCAIITG SCAJITG SCAKITG SCALITG SCAMITG SCANITG SCAOITG SCAPITG SCAQITG SCARITG SCASITG SCATITG SCAUITG SCAVITG SCAWITG SCAXITG SCAYITG SCBAITG SCBBITG SCBDITG Item Overcharge detection voltage VCU.7V.V.0V.0V.7V.0V.0V.0V.0V.0V.0V.00V.7V.7V.7V.7V.0V.7V.0V.V.0V.7V.0V.7V.00V.7V Overcharge release voltage VCL.7V.07V.0V.0V.7V.00V.00V.00V.00V.0V.0V.00V.07V.07V.07V.07V.0V.07V.0V.07V.00V.7V.0V.7V.00V.7V Overdischarge detection voltage VDL.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V Overdischarge release voltage VDU.0V.90V.00V.0V.0V.0V.0V.0V.0V.0V.0V.90V.0V.0V.0V.0V.0V.0V.0V.90V.0V.0V.0V.0V.0V.0V Discharge overcurrent detection voltage VDIOV 0.0V 0.V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.0V 0.V 0.0V 0.V 0.0V 0.0V 0.V 0.0V 0 V battery charge function *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. Delay time combination Delay time combination * () () () () () () () () () () () () () () () () () () () () () () Delay time combination * Delay time combination () () () () () () Overcharge detection delay time tcu.s.s ms.s.s.s Overdischarge detection delay time tdl 0ms 0ms ms 0ms ms 0ms Discharge overcurrent detection delay time tdiov 9ms 9ms ms ms 9ms.ms Load shortcircuiting detection delay time tshort 00µs 0µs 00µs 00µs 00µs 00µs Charge overcurrent detection delay time tciov 9ms 9ms 9ms 9ms 9ms 9ms Remark The delay times can be changed within the range listed in the following table. For details, please contact our sales offi ce. Delay time Symbol Selection range Overcharge detection delay time tcu ms 7ms.s Overdischarge detection delay time tdl ms 0ms 00ms Discharge overcurrent detection delay time tdiov.ms 9ms ms Load shortcircuiting detection delay time tshort 00µs 0µs Charge overcurrent detection delay time tciov.ms 9ms ms Remark The value surrounded by bold lines is the delay time of the standard products. () () () () () () () () () () () () () () () () () () () () () () () () () () Remark Select a value from the left. Select a value from the left. Select a value from the left. Select a value from the left. Select a value from the left. (000/reel) Power down function (000/reel) Power down function CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

78 Lithiumion Rechargeable Battery Protection ICs SD series () SOT Product name Item Overcharge detection voltage VCU Overcharge release voltage VCL Overdischarge detection voltage VDL Overdischarge release voltage VDU Discharge overcurrent 0 V battery charge detection voltage function VDIOV Delay time combination * Power down SDABMTG.0V.00V.0V.90V 0.V () No SDAEMTG.0V.0V.0V.70V 0.9V () SDAHMTG.7V.7V.0V.0V 0.0V () SDAIMTG.V.07V.0V.90V 0.V () SDAJMTG.0V.00V.00V.00V 0.0V () SDAKMTG.0V.00V.0V.0V 0.V () SDALMTG.0V.00V.0V.0V 0.0V () SDAMMTG.7V.07V.0V.90V 0.V () *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. function () SNTA Product name Item Overcharge detection voltage VCU Overcharge release voltage VCL Overdischarge detection voltage VDL Overdischarge release voltage VDU Discharge overcurrent 0 V battery charge detection voltage function VDIOV Delay time combination * Power down function SDABITG.0V.00V.0V.90V 0.V () No SDAEITG.0V.0V.0V.70V 0.9V () SDAFITG.0V.00V.0V.90V 0.0V () No SDAGITG.0V.00V.0V.0V 0.0V () No *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. Delay time combination Delay time combination Overcharge detection delay time tcu Overdischarge detection delay time tdl Discharge overcurrent detection delay time tdiov Load shortcircuiting detection delay time tshort ().s 0ms 9ms 00µs ().s 7ms 9ms 00µs Remark The delay times can be changed within the range listed in the following table. For details, please contact our sales offi ce. Delay time Symbol Selection range Remark Overcharge detection delay time tcu ms 7ms.s Select a value from the left. Overdischarge detection delay time tdl ms 0ms 00ms Select a value from the left. Discharge overcurrent detection delay time tdiov.ms 9ms ms Select a value from the left. Load shortcircuiting detection delay time tshort 00µs 0µs Select a value from the left. Remark The value surrounded by bold lines is the delay time of the standard products. 7 CMOS IC 00700

79 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR CELL PACK S series The S series is lithiumion/lithium polymer rechargeable battery protection IC incorporating highaccuracy voltage detection circuit and delay circuit. The S series is suitable for protection of singlecell lithiumion/lithium polymer battery packs from overcharge, overdischarge and overcurrent. PIN CONFIGURATIONS Pin No. Pin No. Symbol DO VM CO DP VDD pin SNB(B) Symbol CO VM DO DP VDD SOT Description FET gate connection pin for discharge control (Pushpull (CMOS output)) Detection pin of voltage between VM and (Overcurrent detection pin) FET gate connection pin for charge control (Pushpull (CMOS output)) Test pin for delay time measurement Positive power supply input pin Negative power supply input pin Bottom view Description FET gate connection pin for charge control (Pushpull (CMOS output)) Detection pin of voltage between VM and (Overcurrent detection pin) FET gate connection pin for discharge control (Pushpull (CMOS output)) Negative power supply input pin Test pin for delay time measurement Positive power supply input pin * *. Connect the heatsink of back side at shadowed area to the board, and set electric potential open or VDD. However, do not use it as the function of electrode. Internal high accuracy voltage detection circuit Overcharge detection voltage.9 to.v (applicable in mv steps) Accuracy: ±mv ( C) ±0mV ( to C) Overcharge hysteresis voltage 0. to 0.V * Accuracy: ±mv The overcharge hysteresis voltage can be selected in the range of 0. to 0.V in 0mV steps. Overdischarge detection voltage.0 to.0v (applicable in 0mV steps) Accuracy: ±0mV Overdischarge hysteresis voltage 0.0V to 0.7V * Accuracy: ±0mV The overdischarge hysteresis voltage can be selected in the range of 0.0 to 0.7V in 00mV steps. Overcurrent detection voltage 0.0 to 0.V (applicable in 0mV steps) Accuracy: ±mv Overcurrent detection voltage 0.V (fi xed) Accuracy: ±00mV Highwithstand voltage device is used for charger connection pins (VM and CO pins: absolute maximum rating=v). Delay times (overcharge: tcu, overdischarge: tdl, overcurrent : tlov, overcurrent : tlov) are generated by an internal circuit. No external capacitor is necessary. Accuracy: ±0% Threestep overcurrent detection circuit is included (overcurrent, overcurrent and load shortcircuiting). 0V battery charge function / is selectable. Powerdown function / No is selectable. Charger detection function and abnormal charge current detection function The overdischarge hysteresis is released by detecting negative voltage at the VM pin ( 0.7V typ.) (Charger detection function). When the output voltage of the DO pin is high and the voltage at the VM pin is equal to or lower than the charger detection voltage ( 0.7 V typ.), the output voltage of the CO pin goes low (Abnormal charge current detection function). Low current consumption Operation mode.μa typ., 7.0μA max. Powerdown mode 0.μA max. Wide operating temperature range 0 to C Small package SOT, pin SNB(B) *. Overcharge release voltage= Overcharge detection voltage Overcharge hysteresis voltage (Overcharge release voltage <.V is unavailable.) *. Overdischarge release voltage = Overdischarge detection voltage Overdischarge hysteresis voltage (Overdischarge release voltage >.V is unavailable.) APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

80 Lithiumion Rechargeable Battery Protection ICs SELECTION GUIDE () SOT Product name SAAGMDGGTG SAAHMDGHTG SAAJMDGJTG SAALMDGLTG SAAMMDGMTG SAANMDGNTG SAAOMDGOTG SAAPMDGPTG SAARMDGRTG SAASMDGSTG SAATMDGTTG SAAUMDGUTG SAAXMDGXTG SAAZMDGZTG SABAMDGATG SABBMDGBTG SABCMDGCTG SABIMDGITG SABJMDGJTG SABKMDGKTG SABLMDGLTG SABMMDGMTG SABNMDGNTG SABPMDGPTG SABRMDGRTG SABSMDGSTG SABTMDGTTG SABYMDGYTG SABZMDGZTG SACAMDGATG SACBMDGBTG SACDMDGDTG SACEMDGETG SACFMDGFTG SACHMDGHTG SACIMDGITG SACMMDGMTG Item Overcharge detection voltage VCU.0V.0V.V.00V.00V.7V.0V.V.0V.0V.00V.7V.0V.0V.0V.7V.00V.7V.0V.00V.7V.0V.00V.00V.7V.0V.0V.7V.V.0V.0V.0V.900V.0V.V.0V.V Overcharge hysteresis voltage VHC 0.0V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.0V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V Overdischarge detection voltage VDL.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.00V.0V.0V.0V.0V.0V.0V.0V.00V.0V.0V.0V.0V.0V.00V.0V.0V.0V.00V Overdischarge hysteresis voltage VHD 0V 0V 0.V 0V 0V 0.V 0V 0.V 0V 0V 0V 0.V 0.V 0.V 0V 0V 0V 0V 0V 0.V 0V 0V 0V 0.V 0.V 0.V 0.V 0.V 0.V 0V 0.V 0.7V 0.V 0V 0V 0.V 0.V Overcurrent detection voltage VIOV 0.V 0.0V 0.V 0.0V 0.0V 0.0V 0.V 0.0V 0.0V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.V 0.V 0.0V 0.0V 0.V 0.0V 0.0V 0.0V 0.V 0.V 0.V 0.0V 0.0V 0.V 0.V 0.V 0.V 0.0V 0.0V 0.V 0.0V 0.0V 0 V battery charge function *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. Delay time combination * () () () () () () () () () () () () () () () () () (7) () () (7) () () () () () (7) () () () () (9) () (0) () () () (000/reel) Power down function No No () pin SNB(B) Item Product name SAAGBDGGTF SAAHBDGHTF SAAJBDGJTF SAARBDGRTF SAASBDGSTF SAAVBDGVTF SAAYBDGYTF SABCBDGCTF SABDBDGDTF SABEBDGETF SABGBDGGTF SABIBDGITF SABJBDGJTF SABLBDGLTF SABOBDGOTF SACCBDGCTF Overcharge detection voltage VCU.0V.0V.V.0V.0V.00V.0V.00V.0V.7V.7V.7V.0V.7V.0V.0V Overcharge Overdischarge hysteresis voltage detection voltage VHC VDL 0.0V.0V 0.0V.0V 0.V.0V 0.0V.0V 0.0V.0V 0.0V.0V 0.0V.0V 0.0V.0V 0.0V.0V 0.0V.0V 0.0V.0V 0.0V.0V 0.0V.00V 0.0V.0V 0.0V.0V 0.0V.0V Overdischarge Overcurrent 0 V battery charge hysteresis voltage detection voltage function VHD 0V 0V 0.V 0V 0V 0V 0.V 0V 0V 0V 0V 0V 0V 0V 0V 0V VIOV 0.V 0.0V 0.V 0.0V 0.V 0.V 0.0V 0.V 0.V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V 0.0V *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. Delay time combination * () () () () () () () () () () (7) (7) () (7) () () (000/reel) Power down function 0 CMOS IC 00700

81 Lithiumion Rechargeable Battery Protection ICs Delay time combination Delay time Overcharge detection delay time Overdischarge detection delay time Overcurrent detection delay time Overcurrent detection delay time Load shortcircuiting detection delay time combination () () () () () () (7) () (9) (0) () tcu.s.s.s.s.s.s.s.s.s.s.s tdl ms ms ms ms ms ms ms ms 90ms ms ms tiov 9ms.ms ms 9ms 9ms 7.ms 9ms 9ms ms ms 9ms tiov.ms.ms 9ms.ms.ms.ms.ms.ms.ms.ms.ms tshort 0µs 0µs 0µs 0µs 00µs µs 0µs 0µs 0µs 0µs 0µs Remark The delay times can be changed within the range listed in the following table. For details, please contact our sales offi ce. CONTENTS Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS Detectors Delay time Symbol Selection range Overcharge detection delay time tcu 0.s.s.s Overdischarge detection delay time tdl ms ms 90ms Overcurrent detection delay time tiov.ms 9ms ms Overcurrent detection delay time tiov.ms.ms Load shortcircuiting detection delay time tshort 0µs 00µs Remark The value surrounded by bold lines is the delay time of the standard products. Remark Select a value from the left. Select a value from the left. Select a value from the left. Select a value from the left. Select a value from the left. Regulators Lithiumion Rechargeable Battery Protection ICs PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator Temperature Sensor, Temperature Switch CMOS IC 00700

82 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR CELL PACK S series The S series is a series of lithiumion/lithium polymer rechargeable battery protection IC incorporating highaccuracy voltage detection circuits and delay circuits. This IC is suitable for protection of singlecell lithium ion/ lithium polymer battery packs from overcharge, overdischarge and overcurrent. PIN CONFIGURATIONS SOT Pin No. Symbol Description VM VDD DO CO detection pin between VM and (Overcurrent detection pin) Positive power input pin Negative power input pin FET gate connection pin for discharge control (CMOS output) FET gate connection pin for charge control (CMOS output) SNTA Pin No. Symbol Description NC CO DO VDD VM No connection FET gate connection pin for charge control (CMOS output) FET gate connection pin for discharge control (CMOS output) Negative power input pin Positive power input pin detection pin between VM and (Overcurrent detection pin) Internal highaccuracy voltage detection circuit Overcharge detection voltage:.9 to.v (mv steps) Accuracy: ±mv ( C) ±0mV ( to C) Overcharge release voltage:. to.v * Accuracy: ±0mV Overdischarge detection voltage:.0 to.0v (00mV steps) Accuracy: ±0mV Overdischarge release voltage:.0 to.v * Accuracy: ±00mV Overcurrent detection voltage: 0.0 to 0.V (mv steps) Accuracy: ±0mV Overcurrent detection voltage: 0.V (fi xed) Accuracy: ±00mV A highwithstand voltage device is used for charger connection pins (VM and CO pins: Absolute maximum rating=v) Delay times (overcharge: tcu; overdischarge: tdl; overcurrent : tlov; overcurrent : tlov) are generated by an internal circuit. (External capacitors are unnecessary.) Accuracy: ±0% Internal threestep overcurrent detection circuit (overcurrent, overcurrent, and load shortcircuiting) Either 0V battery charging function or 0V battery charge inhibiting function can be selected. Powerdown function / No is selectable. Charger detection function and abnormal charge current detection function The overdischarge hysteresis is released by detecting a negative VM pin voltage (typ..v) (Charger detection function). If the output voltage at DO pin is high and the VM pin voltage becomes equal to or lower than the charger detection voltage (typ..v), the output voltage at CO pin goes low (Abnormal charge current detection function). Low current consumption Operation:.0μA typ..0μa max. Powerdown mode: 0.μA max. Wide operating temperature range: 0 to C Small package: SOT, SNTA *. Overcharge release voltage= Overcharge detection voltage Overcharge hysteresis. The overcharge hysteresis can be selected in the range 0.0, or 0. to 0.V in 0mV steps. (However, selection Overcharge release voltage <.V is unavailable.) *. Overdischarge release voltage= Overdischarge detection voltage Overdischarge hysteresis. The overdischarge hysteresis can be selected in the range 0.0 to 0.7V in 00mV steps. (However, selection Overdischarge release voltage >.V is unavailable.) APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs CMOS IC 00700

83 Lithiumion Rechargeable Battery Protection ICs SELECTION GUIDE () SOT (000/reel) Product name Item SABAMCGBATG SABBMCGBBTG SABCMCGBCTG SABDMCGBDTG SABEMCGBETG SABFMCGBFTG SABGMCGBGTG SABHMCGBHTG SABIMCGBITG SABKMCGBKTG SABLMCGBLTG SABOMCGBOTG SABPMCGBPTG SABQMCGBQTG SABRMCGBRTG SABTMCGBTTG SABUMCGBUTG SABVMCGBVTG SABWMCGBWTG SABXMCGBXTG SABYMCGBYTG SACAMCGCATG SACBMCGCBTG SACDMCGCDTG SACEMCGCETG SACFMCGCFTG SACGMCGCGTG SACHMCGCHTG SACIMCGCITG SACKMCGCKTG SACLMCGCLTG SACNMCGCNTG SACOMCGCOTG SACPMCGCPTG SACQMCGCQTG SACRMCGCRTG SACSMCGCSTG SACTMCGCTTG SACUMCGCUTG SACXMCGCXTG SACYMCGCYTG SADAMCGDATG SADDMCGDDTG SADEMCGDETG SADFMCGDFTG SADGMCGDGTG SADLMCGDLTG SADMMCGDMTG SADNMCGDNTG SADOMCGDOTG SADQMCGDQTG SADTMCGDTTG Overcharge detection voltage VCU.7V.0V.0V.7V.9V.V.00V.V.0V.V.0V.0V.0V.0V.V.00V.00V.9V.0V.0V.0V.0V.00V.7V.9V.9V.9V.0V.0V.0V.00V.0V.00V.V.7V.0V.0V.00V.0V.7V.7V.0V.V.0V.0V.7V.0V.0V.0V.7V.0V.0V Overcharge release voltage VCL.07V.90V.00V.7V.09V.07V.00V.V.00V.07V.070V.0V.0V.00V.07V.00V.00V.09V.00V.000V.0V.00V.00V.07V.09V.09V.09V.00V.0V.0V.00V.0V.0V.07V.7V.0V.90V.000V.00V.07V.07V.0V.0V.0V.0V.07V.070V.00V.00V.7V.00V.0V Overdischarge detection voltage VDL.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.00V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.70V.70V.70V.0V.00V.0V Overdischarge release voltage VDU.90V.0V.0V.0V.00V.90V.00V.0V.0V.90V.90V.00V.00V.0V.90V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.0V.7V.00V.00V.0V.90V.90V.0V.00V.90V.90V.90V.90V.90V.00V.90V.0V.0V.0V.00V.00V.00V.0V.70V.00V Overcurrent detection voltage VIOV 0.00V 0.V 0.07V 0.00V 0.00V 0.00V 0.00V 0.00V 0.0V 0.0V 0.00V 0.0V 0.00V 0.0V 0.00V 0.00V 0.0V 0.0V 0.0V 0.00V 0.00V 0.00V 0.0V 0.00V 0.00V 0.090V 0.00V 0.00V 0.00V 0.00V 0.00V 0.00V 0.0V 0.0V 0.00V 0.00V 0.0V 0.0V 0.0V 0.0V 0.00V 0.00V 0.0V 0.0V 0.0V 0.0V 0.00V 0.00V 0.00V 0.00V 0.0V 0.00V 0 V battery charge function *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. () SNTA Product name SABDPGKBDTFG SABSPGKBSTFG SABZPGKBZTFG SACZPGKCZTFG SADFPGKDFTFG SADHPGKDHTFG Item Overcharge detection voltage VCU.7V.0V.7V.0V.0V.0V Overcharge release voltage VCL.7V.0V.07V.0V.0V.00V Overdischarge detection voltage VDL.0V.V.0V.70V.0V.0V Overdischarge release voltage VDU.0V.V.0V.70V.0V.90V Overcurrent detection voltage VIOV 0.00V 0.00V 0.0V 0.00V 0.0V 0.00V 0 V battery charge function *. Refer to the delay time combination Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. Delay time combination * () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () () Delay time combination * () () () () () () Power down function No No No No No No No No No No (000/reel) Power down function No Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC 00700

84 Lithiumion Rechargeable Battery Protection ICs Delay time combination Delay time combination () () () () () Overcharge detection delay time Overdischarge detection delay time Overcurrent detection delay time tcu.0s 0.s 0.s.0s 0.s tdl ms ms ms ms ms tiov ms ms ms ms ms Remark The delay times can be changed within the range listed in the following table. For details, please contact our sales offi ce. Delay time Overcharge detection delay time Overdischarge detection delay time Overcurrent detection delay time Symbol tcu tdl tiov Selection range 0.s 0.s.0s.0s ms.ms ms ms ms ms Remark Select a value from the left. Select a value from the left. Select a value from the left. Remark The value surrounded by bold lines is the delay time of the standard products. CMOS IC 00700

85 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR SERIALCELL PACK SB series The SB series is a protection IC for serialcell lithiumion/lithium polymer rechargeable battery and includes highaccuracy voltage detectors and delay circuits. This IC is suitable for protecting cell rechargeable lithiumion/lithium polymer battery packs from overcharge, overdischarge and overcurrent. PIN CONFIGURATIONS Pin No. 7 Symbol CO DO NC VC VDD NC VM SNTA 7 Description Connection of charge control FET gate (CMOS output) Connection of discharge control FET gate (CMOS output) No connection Connection for negative power supply input and negative voltage of battery Connection for negative voltage of battery and positive voltage of battery Connection for positive power supply input and positive voltage of battery No connection detection between VM and (overcurrent/charger detection pin) Highaccuracy voltage detection for each cell Overcharge detection voltage n (n=, ).9 to.v (0mV steps) Accuracy: ±mv Overcharge release voltage n (n=, ). to.v * Accuracy: ±0mV Overdischarge detection voltage n (n=, ).0 to.0v (00mV steps) Accuracy: ±0mV Overdischarge release voltage n (n=, ).0 to.v * Accuracy: ±00mV Twolevel overcurrent detection (overcurrent, overcurrent ) Overcurrent detection voltage 0.0V, 0.0 to 0.0V (0mV steps) Accuracy: ±mv Overcurrent detection voltage.v (fi xed) Accuracy: ±00mV Delay times (overcharge, overdischarge, overcurrent) are generated by an internal circuit (external capacitors are unnecessary). 0V battery charge function available/unavailable are selectable. Charger detection function The overdischarge hysteresis is released by detecting negative voltage at the VM pin ( 0.7V typ.) (Charger detection function). Highwithstand voltage devices Absolute maximum rating: V Wide operating temperature range 0 to C Low current consumption Operation mode 0μA max. ( C) Powerdown mode 0.μA max. ( C) Small package SNTA, pin TSSOP CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Pin No. 7 Product name SBABITG SBADITG SBAEITG SBAHITG SBAMITG SBANITG SBAOITG Remark Symbol CO DO NC VC VDD NC VM Item Overcharge detection Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above CMOS IC voltage VCU.V.0V.0V.00V.00V.0V.0V pin TSSOP SELECTION GUIDE () SNTA () pin TSSOP Description Connection of charge control FET gate (CMOS output) Connection of discharge control FET gate (CMOS output) No connection Connection for negative power supply input and negative voltage of battery Connection for negative voltage of battery and positive voltage of battery Connection for positive power supply input and positive voltage of battery No connection detection between VM and (overcurrent/charger detection pin) 7 Overcharge release voltage VCL.07V.0V.00V.00V.00V.0V.0V Overdischarge detection voltage VDL.V.V.V.V.V.V.V Overdischarge release voltage VDU.9V.9V.9V.0V.0V.9V.9V *. Overcharge release voltage= Overcharge detection voltage Overcharge hysteresis voltage (Overcharge hysteresis voltage n (n=, ) can be selected as 0V or in the range of 0. to 0.V in 0mV steps.) *. Overdischarge release voltage= Overdischarge detection voltage Overdischarge hysteresis voltage (Overdischarge hysteresis voltage n (n=, ) can be selected as 0V or in the range of 0. to 0.7V in 00mV steps.) APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs Overcurrent detection voltage VIOV 0.V 0.0V 0.0V 0.0V 0.V 0.V 0.0V (000/reel) 0 V battery charge (000/reel) Item Overcharge detection voltage Overcharge release voltage Overdischarge detection voltage Overdischarge release voltage Overcurrent detection voltage 0 V battery charge Product name SBACTTG SBAHTTG SBAITTG VCU.0V.00V.0V VCL.0V.00V.00V VDL.V.V.V VDU.0V.0V.0V VIOV 0.0V 0.0V 0.V Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES

86 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR SERIALCELL PACK S series The S series is a lithiumion/lithiumpolymer rechargeable battery protection IC incorporating highaccuracy voltage detection circuits and delay circuits. The S series is suitable for cell serial lithiumion /lithiumpolymer battery packs. PIN CONFIGURATION Pin No. 7 Symbol SENS DO CO VM ICT VC VCC pin TSSOP 7 Description Detection pin for voltage between SENS and VC (Detection for overcharge and overdischarge) FET gate connection pin for discharge control (CMOS output) FET gate connection pin for charge control (CMOS output) Detection pin for voltage between VM and (Overcurrent detection pin) Negative power input pin Capacitor connection pin for detection delay Middle voltage input pin Positive power input pin Internal highaccuracy voltage detection circuit Overcharge detection voltage.90v ± mv to.0v ± mv Applicable in mv steps Overcharge release voltage.0v ± 0mV to.0v ± 0mV Applicable in mv steps (The overcharge release voltage can be selected within the range where a difference from overcharge detection voltage is 0 to 0.V.) Overdischarge detection voltage.70v ± 0mV to.0v ± 0mV Applicable in 0mV steps Overdischarge release voltage.70v ± 00mV to.0v ± 00mV Applicable in 0mV steps (The overdischarge release voltage can be selected within the range where a difference from overdischarge detection voltage is 0 to.v.) Overcurrent detection voltage 0.07V ± 0mV to 0.0V ± 0mV Applicable in mv steps Highwithstand voltage device : Absolute maximum ratings V Wide operating voltage range : to V The delay time for every detection can be set by an external capacitor. (Proportion of delay time for Overcharge detection, Overdischarge detection, Overcurrent detection is 00:0:, respectively.) Two overcurrent detection levels (Protection for load shortcircuiting) Internal auxiliary circuit for overcharge detection voltage (Failsafe for overcharge detection voltage) 0V battery charge function available/unavailable are selectable. Low current consumption Operation mode 7.μA typ..μa max. ( 0 to C) Powerdown mode 0.nA typ. 0.μA max. ( 0 to C) APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs CMOS IC 00700

87 Lithiumion Rechargeable Battery Protection ICs SELECTION GUIDE (000/reel) Product name SAAFTTG SABFTTG SACFTTG SAEFTTG SAFFTTG SAGFTTG SAHFTTG SAIFTTG SAJFTTG SAKFTTG SALFTTG SAMFTTG SANFTTG SAOFTTG SAPFTTG SARFTTG SASFTTG * SATFTTG SAUFTTG SAVFTTG SAWFTTG SAXFTTG SAYFTTG SAZFTTG SNAFTTG SNBFTTG SNCFTTG SNDFTTG SNEFTTG SNFFTTG SNGFTTG SNHFTTG SNIFTTG SNJFTTG SNKFTTG SNLFTTG SNMFTTG SNNFTTG SNOFTTG SNPFTTG SNQFTTG SNRFTTG SNSFTTG Item Overcharge detection voltage VCU.V ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.0v ± mv.0v ± mv.9v ± mv.v ± mv.0v ± mv.v ± mv.v ± mv.9v ± mv.v ± mv.0v ± mv.0v ± mv.v ± mv.v ± mv.0v ± mv.0v ± mv.v ± mv.v ± mv.7v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.v ± mv.0v ± mv.v ± mv.v ± mv.9v ± mv.v ± mv.v ± mv.v ± mv.v ± mv Overcharge release voltage VCD.0V ± 0mV.V ± 0mV.V ± 0mV.V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.V ± mv *,*.0V ± 0mV.00V ± 0mV.0V ± 0mV.9V ± mv *.V ± mv *,*.0V ± 0mV.0V ± 0mV.V ± mv *,*.0V ± 0mV *.V ± mv *.V ± 0mV.0V ± 0mV.V ± 0mV.00V ± 0mV.0V ± 0mV.0V ± 0mV.V ± mv *,*.V ± 0mV.0V ± 0mV.V ± 0mV.V ± 0mV.V ± 0mV *.V ± 0mV.0V ± 0mV.0V ± 0mV *.0V ± 0mV.V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV *.0V ± 0mV *.0V ± 0mV.0V ± 0mV.9V ± 0mV.9V ± 0mV Overdischarge detection voltage VDD.0V ± 0mV.0V ± 0mV.0V ± 0mV.V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.00V ± 0mV.00V ± 0mV.0V ± 0mV.00V ± 0mV.0V ± 0mV.00V ± 0mV.0V ± 0mV.00V ± 0mV.0V ± 0mV.00V ± 0mV.0V ± 0mV.0V ± 0mV.00V ± 0mV.0V ± 0mV.0V ± 0mV.00V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV.0V ± 0mV Overdischarge release voltage VDU.00V ± 00mV.00V ± 00mV.00V ± 00mV.0V ± 00mV.70V ± 00mV.0V ± 00mV.0V ± 00mV.00V ± 00mV.00V ± 00mV.90V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV.90V ± 00mV.0V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 0mV.0V ± 0mV.00V ± 00mV.70V ± 00mV.00V ± 00mV.0V ± 0mV.00V ± 00mV.90V ± 00mV.00V ± 00mV.90V ± 00mV.00V ± 00mV.90V ± 00mV.0V ± 0mV.00V ± 00mV.90V ± 00mV.0V ± 00mV.0V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV.00V ± 00mV Overcurrent detection voltage VIOV 0.0V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.0V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.90V ± 0mV 0.00V ± 0mV 0.0V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.90V ± 0mV 0.00V ± 0mV 0.00V ± 0mV 0.0V ± 0mV 0.0V ± 0mV 0.0V ± 0mV 0.0V ± 0mV 0.V ± 0mV 0.0V ± 0mV 0.0V ± 0mV 0.V ± 0mV 0.V ± 0mV 0.V ± 0mV 0.0V ± 0mV 0.V ± 0mV 0.V ± 0mV 0.V ± 0mV 0.V ± 0mV 0.V ± 0mV 0.0V ± 0mV 0.V ± 0mV 0.V ± 0mV 0.0V ± 0mV 0.0V ± 0mV 0.0V ± 0mV 0.0V ± 0mV Overcharge detection delay time tcu (C = 0. μf).0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s.0s *. No overcharge detection/release hysteresis. *. The magnifi cation of fi nal overcharge is.; the others are.. *. No fi nal overcharging function. *. Please refer to * in Operation in the data sheet. This product has: overcharge detection/release hysteresis and 0V battery charge function prohibition but no fi nal overcharge function. 0 V battery charging function Remark. Please contact our sales offi ce for products with detection voltage values other than those specifi ed above.. Overdischarge detection voltage is settable in.7 to.0v. However, an overdischarge detection voltage of.v or more makes restrictions on the overcharge detection voltage and overcharge release voltage as shown in the table below. Overdischarge Overcharge Difference between overcharge detection detection voltage detection voltage voltage and overcharge release voltage VDD.70 to.0v.70 to.0v.70 to.00v VCU.90 to.0v.90 to.0v.90 to.0v VCUVCD 0 to 0.0V 0 to 0.0V 0 to 0.0V Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

88 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR SERIALCELL PACK SA/B/C series The A/B/C series is a lithiumion rechargeable battery protection IC incorporating a high accuracy voltage detection circuit and a delay circuit. C series has the function for checking the status of battery pack. This is an ideal IC for cell serial lithiumion battery packs. DOP COP VMP COVT CDT CCT PIN CONFIGURATIONS pin SOP VCC CD VC CD 0 VC 9 CD 7 CTL pin SOP is available only for SA series DOP NC COP VMP COVT CDT CCT pin TSSOP VCC NC CD (CSO) VC CD (ISO) VC CD (DSO) CTL ( ) means the pin name of the SC series. The followings are common to the three series unless specifi ed otherwise. Builtin highaccuracy voltage detection circuit Overcharge detection voltage:.0 ± 0.0V to. ± 0.0V, 0mV steps (A series).0 ± 0.0V to.0 ± 0.0V, mv steps (B series).0 ± 0.0V to.0 ± 0.0V, mv steps (C series) Accuracy of overcharge detection voltage: ± 0mV (A/C series), ± mv (B series) Overcharge release voltage:. ± 0.0V to. ± 0.0V, 0mV steps (A series) (The overcharge release voltage is selectable in the range of 0 to 0.V which is the difference with the overcharge detection voltage). ± 0.0V to.0 ± 0.0V, mv steps (B/C series) (The overcharge release voltage is selectable in the range of 0 to 0.V which is the difference with the overcharge detection voltage in 0mV steps.) Overdischarge detection voltage:.00 ± 0.0V to.70 ± 0.0V, 00mV steps (A series).00 ± 0.0V to.0 ± 0.0V, 0mV steps (B/C series) Overdischarge release voltage:.00 ± 0.0V to.70 ± 0.0V, 00mV steps (A series) (The overdischarge release voltage is selectable in the range 0 to.0v which is the difference with the overdischarge detection voltage).00 ± 0.0V to.00 ± 0.0V, 0mV steps (B/C series) (The overdischarge release voltage is selectable in the range of 0 to.v which is the difference with the overdischarge detection voltage in 0mV steps.) Overcurrent detection voltage : 0.V ± 0% to 0.0V ± 0% (0mV steps) Function for checking batterypack status (C series) Highwithstand voltage device: Absolute maximum rating V Wide operating voltage range: to V The delay time for each type of detection can be set via an external capacitor. Three overcurrent detection levels (protection for shortcircuiting) Internal charge/discharge prohibition circuit via the control pin 0V battery charge function available/unavailable are selectable Low current consumption 0μA max. ( C, during operation) 0.μA max. ( C, during powerdown) Package: pin SOP (A series), pin TSSOP APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs CMOS IC 00700

89 Lithiumion Rechargeable Battery Protection ICs SELECTION GUIDE SA series () pin SOP (000/reel) Product name SACFETBG SADFETBG SAEFETBG SAFFETBG SAGFETBG SAIFETBG SAJFETBG SAKFETBG SALFETBG SAMFETBG SANFETBG SAOFETBG SAPFETBG SAQFETBG *. Without overcharge detection hysteresis. Remark Please contact our sales offi ce for the products with the detection voltage value other than those specifi ed above. () pin TSSOP Product name SACFTTBG SADFTTBG SAEFTTBG SAFFTTBG SAGFTTBG SAIFTTBG SAJFTTBG SAKFTTBG SALFTTBG SAMFTTBG SANFTTBG SAOFTTBG SAPFTTBG SARFTTBG SASFTTBG *. Without overcharge detection hysteresis. Remark Please contact our sales offi ce for the products with the detection voltage value other than those specifi ed above. SB series Product name SBAFTTBG SBBFTTBG SBCFTTBG SBDFTTBG SBEFTTBG Item Overcharge detection voltage VCU. ± 0.0V.0 ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V Item Item Overcharge detection voltage VCU. ± 0.0V.0 ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V Overcharge detection voltage VCU. ± 0.0V. ± 0.0V.00 ± 0.0V. ± 0.0V.00 ± 0.0V *. The input voltage of CTL which sets the normal condition is changed by the CTL logic. For details, please refer to Operation in the data sheet. *. Without overcharge detection/release hysteresis. Overcharge release voltage VCD.0 ± 0.0V.0V *.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.V * Overcharge release voltage VCD.0 ± 0.0V.0V *.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V Overcharge release voltage VCD.V *. ± 0.0V.V. ± 0.0V.90 ± 0.0V Overdischarge detection voltage VDD.00 ± 0.0V.00 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.70 ± 0.0V.70 ± 0.0V Overdischarge detection voltage VDD.00 ± 0.0V.00 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.70 ± 0.0V.00 ± 0.0V.0 ± 0.0V Overdischarge detection voltage VDD.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.00 ± 0.0V.0 ± 0.0V Overdischarge release voltage VDU.0 ± 0.0V.0 ± 0.0V.70 ± 0.0V.70 ± 0.0V.70 ± 0.0V.00 ± 0.0V.70 ± 0.0V.70 ± 0.0V.70 ± 0.0V.70 ± 0.0V.0 ± 0.0V.70 ± 0.0V.00 ± 0.0V.00 ± 0.0V Overdischarge release voltage VDU.0 ± 0.0V.0 ± 0.0V.70 ± 0.0V.70 ± 0.0V.70 ± 0.0V.00 ± 0.0V.70 ± 0.0V.70 ± 0.0V.70 ± 0.0V.70 ± 0.0V.0 ± 0.0V.70 ± 0.0V.00 ± 0.0V.70 ± 0.0V.70 ± 0.0V Overdischarge release voltage VDU.70 ± 0.0V.70 ± 0.0V.0 ± 0.0V.70 ± 0.0V.7 ± 0.0V Overcurrent detection voltage VIOV 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V Remark Please contact our sales offi ce for the products with the detection voltage value other than those specifi ed above. Overcurrent detection voltage VIOV 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V Overcurrent detection voltage VIOV 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V 0 V battery charging function (000/reel) 0 V battery charging function 0 V battery charging function Conditioning function (000/reel) CTL logic * Positive Negative Positive Negative Positive CONTENTS Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES Detectors Regulators Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator SC series (000/reel) Item Overcharge Overcharge Overdischarge Overdischarge Overcurrent (000/reel) 0 V battery detection voltage release voltage detection voltage release voltage detection voltage charging function Product name VCU VCD VDD VDU VIOV SCAFTTBG. ± 0.0V.0 ± 0.0V.00 ± 0.0V.0 ± 0.0V 0. ± 0.0V PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC Remark Please contact our sales offi ce if a product with a detection voltage other than the above is required.. DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC

90 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR SERIAL OR SERIAL CELL PACK SA/B series The SA/B series is a protection IC for serial or serial cell lithiumion rechargeable battery and includes highaccuracy voltage detectors and delay circuits. The SA/B series is suitable for protecting lithiumion battery packs from overcharge, overdischarge and overcurrent. Pin No. PIN CONFIGURATION Symbol DOP COP VMP CTL VC pin TSSOP Description Connection for discharge control FET gate (CMOS output) Connection for charge control FET gate (Nch opendrain output) detection between VDD and VMP (overcurrent detection pin) Input of charge/discharge control signal, pin for shortening test time (L: Normal operation, H: Charge/discharge inhibited, M (VDD /): Test time reduced) SA series Negative power supply input pin and negative voltage connection pin for battery SB series Negative power supply input pin and negative voltage connection pin for battery SA series No connection * SB series Connection for negative voltage of battery and positive voltage of battery 7 VC VDD Connection for negative voltage of battery and positive voltage of battery Connection for positive power supply input and positive voltage of battery *. In the case of the SA. No connection means electrically open. In this case, this pin can be connected to VDD or. 7 Highaccuracy voltage detection for each cell Overcharge detection voltage n (n= to ).9 to.v (0mV steps) Accuracy: ±mv Overcharge release voltage n (n= to ). to.v * Accuracy: ±0mV Overdischarge detection voltage n (n= to ).0 to.0v (00mV steps) Accuracy: ±0mV Overdischarge release voltage n (n= to ).0 to.v * Accuracy: ±00mV Threelevel overcurrent detection (Including load short circuiting detection) Overcurrent detection voltage 0.0 to 0.0V (0mV steps) Accuracy: ±mv Overcurrent detection voltage 0.V (Fixed) Overcurrent detection voltage.v (Fixed) Delay times (Overcharge, Overdischarge, Overcurrent) are generated by an internal circuit. (External capacitors are unnecessary). Charge/discharge operation can be inhibited via the control pin. 0V battery charge function available/unavailable are selectable. Highwithstand voltage devices: Absolute maximum rating V Wide operating voltage range: to V Wide operating temperature range: 0 to C Low current consumption Operation mode: μa max. ( C) Powerdown mode: 0.μA max. ( C) *. Overcharge release voltage= Overcharge detection voltage Overcharge hysteresis voltage (Overcharge hysteresis voltage n (n= to ) can be selected in 0V or in the range of 0. to 0.V in 0mV steps.) *. Overdischarge release voltage= Overdischarge detection voltage Overdischarge hysteresis voltage (Overdischarge hysteresis voltage n (n= to ) can be selected in 0V or in the range of 0. to 0.7V in 00mV steps.) APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs 90 CMOS IC 00700

91 Lithiumion Rechargeable Battery Protection ICs SELECTION GUIDE SA series (for serial cell battery) (000/reel) Item Overcharge Overcharge Overdischarge Overdischarge Overcurrent 0 V battery detection voltage release voltage detection voltage release voltage detection voltage charge function Product name VCU VCL VDL VDU VIOV SAAATTGZ SAABTTGZ SAACTTGZ SAADTTGZ SAAETTGZ SAAFTTGZ SAAGTTGZ.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.00 ± 0.00V.00 ± 0.00V.00 ± 0.00V.00 ± 0.00V.00 ± 0.00V.00 ± 0.00V.00 ± 0.00V.0 ± 0.00V.70 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.70 ± 0.00V.70 ± 0.00V.70 ± 0.00V.70 ± 0.00V.00 ± 0.00V.0 ± 0.00V.70 ± 0.00V 0.00 ± 0.0V 0.00 ± 0.0V 0.00 ± 0.0V 0.0 ± 0.0V 0.00 ± 0.0V 0.00 ± 0.0V 0.0 ± 0.0V Remark Please contact our sales offi ce for the products with the detection voltage value other than those specified above. Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES CONTENTS DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS Detectors SB series (for serial cell battery) Item Overcharge Overcharge Overdischarge Overdischarge Overcurrent 0 V battery detection voltage release voltage detection voltage release voltage detection voltage charge function Product name VCU VCL VDL VDU VIOV SBAATTGZ SBABTTGZ SBACTTGZ SBADTTGZ SBAETTGZ SBAFTTGZ SBAGTTGZ SBAHTTGZ SBAITTGZ.0 ± 0.0V. ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.00 ± 0.00V.07 ± 0.00V.00 ± 0.00V.00 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.70 ± 0.00V.90 ± 0.00V.70 ± 0.00V.70 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V.0 ± 0.00V 0.00 ± 0.0V 0.00 ± 0.0V 0.00 ± 0.0V 0.0 ± 0.0V 0.00 ± 0.0V 0.90 ± 0.0V 0. ± 0.0V 0.0 ± 0.0V 0.0 ± 0.0V Remark Please contact our sales offi ce for the products with the detection voltage value other than those specifi ed above. BLOCK DIAGRAM SA series SB series (000/reel) Regulators DOP Oscillator, counter, controller VDD DOP Oscillator, counter, controller VDD Lithiumion Rechargeable Battery Protection ICs COP VMP CTL 9 kω 900 kω 00 na CTLH CTLM VC VC COP VMP CTL 9 kω 900 kω 00 na CTLH CTLM VC VC REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

92 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR SERIAL OR SERIAL CELL PACK SA/B series The SA/B series is a lithium ion rechargeable battery protection IC incorporating highaccuracy battery protection circuits, a battery monitor amp and a voltage regulator. The A series and B series protect cell and cell serial lithiumion battery packs, respectively, from overcharge, overdischarge and overcurrent. Combining this series with a microcomputer or gas gauge IC makes it possible to indicate the remaining battery. VDD DOP COP VMP VC VC VC BLOCK DIAGRAM SB series 0 k 0 k 0 k Battery protection DOP, COP RVCM, RVSM control Delay Delay Delay Delay Battery selection regulator 00 na. M. M. M. M. M. M Battery monitor amp M M M VREG VREG VREG M VREG CTL CTL CTL CTL VBAT OUT CCT CDT Highaccuracy voltage detection for each cell Overcharge detection voltage n (n= to ).9 to.v (0mV steps), accuracy ±mv Hysteresis voltage n (n= to ) of overcharge detection 0.0 to 0.0V or 0V (0mV steps), accuracy ±0mV (Overcharge release voltage n (=Overcharge detection voltage n Hysteresis voltage n) can be selected in the range of. to.v.) Overdischarge detection voltage n (n= to ).0 to.0v (00mV steps), accuracy ±0mV Hysteresis voltage n (n= to ) of overdischarge detection 0.0 to 0.70V or 0V (00mV steps), accuracy ±00mV (Overdischarge release voltage n (=Overdischarge detection voltage n Hysteresis voltage n) can be selected in the range of.0 to.v.) Threelevel overcurrent protection including protection for shortcircuiting Overcurrent detection voltage 0.0 to 0.V (0mV steps), accuracy ±mv Overcurrent detection voltage 0.V, accuracy ±00mV Overcurrent detection voltage VDD/, accuracy ±% Delay times for overcharge detection, overdischarge detection and overcurrent detection can be set by an external capacitor. (Delay times for overcurrent detection and are fixed internally.) Charge/discharge operation can be controlled by the control pins. Highaccuracy battery monitor amp GAMP=VBATTERY 0. ±.0% regulator VOUT=.V ±.% (ma max.) Highwithstand voltage device: Absolute maximum rating V Wide operating voltage range: to V Wide operating temperature range: 0 C to C Low current consumption Operation mode 0μA max. Powerdown mode 0.μA max. Small package: pin TSSOP APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs PIN CONFIGURATION VDD DOP COP VMP VC VC VC pin TSSOP VREG CTL CTL CTL CTL VBATOUT CCT CDT SELECTION GUIDE SA series (serial cell battery) Item Overcharge Overcharge Overcharge Overcharge Overcurrent 0 V battery detection voltage hysteresis voltage detection voltage hysteresis voltage detection voltage charging function Product name VCU VHC VDL VHD VIOV SAACFTTBG SAADFTTBG. ± 0.0V. ± 0.0V 0. ± 0.0V 0. ± 0.0V.0 ± 0.0V.0 ± 0.0V 0.0 ± 0.0V 0V 0.0V ± 0.0V 0.0V ± 0.0V Remark Please contact our sales offi ce for the products with the detection voltage value other than those specifi ed above. SB series (serial cell battery) (000/reel) (000/reel) Item Overcharge Overcharge Overcharge Overcharge Overcurrent 0 V battery detection voltage hysteresis voltage detection voltage hysteresis voltage detection voltage charging function Product name VCU VHC VDL VHD VIOV SBADFTTBG SBAEFTTBG SBAFFTTBG. ± 0.0V. ± 0.0V. ± 0.0V 0. ± 0.0V 0. ± 0.0V 0. ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V 0V 0.0 ± 0.0V 0V 0.V ± 0.0V 0.0V ± 0.0V 0.0V ± 0.0V Remark Please contact our sales offi ce for the products with the detection voltage value other than those specifi ed above. 9 CMOS IC 00700

93 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR SERIAL OR SERIAL CELL PACK S series The S series is a protection IC for serial or serial cell lithiumion/lithium polymer rechargeable battery and includes a highaccuracy voltage detector and delay circuit. The S series protects either serial or serial cells using the SEL pin for switching. PIN CONFIGURATION COP VMP DOP VINI CDT CCT NC pin TSSOP VDD VC VC VC VC CTL SEL NC Pin No Symbol COP VMP DOP VINI CDT CCT NC * NC * SEL CTL VC VC VC VC VDD Description Connection for charge control FET gate (Nch opendrain output) detection between VC and VMP (Overcurrent detection pin) Connection for discharge control FET gate (CMOS output) detection between and VINI (Overcurrent, detection pin) Capacitor connection for overdischarge detection, Overcurrent detection delay Capacitor connection for overcharge detection delay Negative power supply input, Negative voltage connection for battery No connection No connection Pin for switching serial cell / serial cell level : serial cell, VDD level : serial Control of charge FET and discharge FET Connection for negative voltage of battery, Positive voltage of battery Connection for negative voltage of battery, Positive voltage of battery Connection for negative voltage of battery, Positive voltage of battery Connection for positive voltage of battery Connection for positive power supply input, Positive voltage of battery *. The NC pin is electrically open. The NC pin can be connected to VDD or. SELECTION GUIDE Highaccuracy voltage detection for each cell Overcharge detection voltage n (n= to ).9 to.v (0mV steps) Accuracy ±mv Overcharge release voltage n (n= to ). to.v * Accuracy ±0mV Overdischarge detection voltage n (n= to ).0 to.0v (00mV steps) Accuracy ±0mV Overdischarge release voltage n (n= to ).0 to.v * Accuracy ±00mV Threelevel overcurrent protection Overcurrent detection voltage 0.0 to 0.0V (0mV steps) Accuracy ±mv Overcurrent detection voltage 0.V Accuracy ±00mV Overcurrent detection voltage VC.V Accuracy ± 00mV Delay times for overcharge detection, overdischarge detection and overcurrent detection can be set by external capacitors (delay times for overcurrent detection and are fi xed internally). Switchable between a serial cell and serial cell using the SEL pin Charge/discharge operation can be controlled by the control pins. Highwithstand voltage device: Absolute maximum rating V Wide operating voltage range to V Wide operating temperature range 0 to C Low current consumption Operation mode 0μA max. ( C) Powerdown mode 0.μA max. ( C) *. Overcharge hysteresis voltage n (n= to ) can be selected in 0V or in the range of 0. to 0.V in 0mV steps. (Overcharge hysteresis voltage= Overcharge detection voltage Overcharge release voltage) *. Overdischarge hysteresis voltage n (n= to ) can be selected in 0 V or in the range of 0. to 0.7V in 00mV steps. (Overdischarge hysteresis voltage= Overdischarge release voltage Overdischarge detection voltage) APPLICATIONS Lithium ion rechargeable battery packs Lithium polymer rechargeable battery packs (000/reel) Item Overcharge Overcharge Overdischarge Overdischarge Overcurrent 0 V battery detection voltage release voltage detection voltage release voltage detection voltage charging function Product name VCU VCL VDL VDU VIOV SAAAFTTBG.0 ± 0.0V.0 ± 0.00V.00 ± 0.00V.70 ± 0.00V 0.0 ± 0.0V SAABFTTBG.0 ± 0.0V.0 ± 0.0V.00 ± 0.00V.70 ± 0.00V 0.0 ± 0.0V SAAEFTTBG.0 ± 0.0V.0 ± 0.00V.00 ± 0.00V.70 ± 0.00V 0.0 ± 0.0V SAAFFTTBG.0 ± 0.0V.0 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAAGFTTBG.7 ± 0.0V.07 ± 0.00V.0 ± 0.00V.70 ± 0.00V 0. ± 0.0V SAAHFTTBG.0 ± 0.0V.0 ± 0.00V.0 ± 0.00V.70 ± 0.00V 0.0 ± 0.0V SAAIFTTBG.0 ± 0.0V.0 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAAJFTTBG.0 ± 0.0V.0 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0. ± 0.0V SAAKFTTBG.0 ± 0.0V.0 ± 0.00V.70 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAALFTTBG.00 ± 0.0V.0 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAAMFTTBG.00 ± 0.0V.00 ± 0.00V.0 ± 0.00V.70 ± 0.00V 0.0 ± 0.0V SAANFTTBG.0 ± 0.0V.0 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAAOFTTBG.00 ± 0.0V.00 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAAPFTTBG.0 ± 0.0V.0 ± 0.00V.00 ± 0.00V.00 ± 0.00V 0. ± 0.0V SAAQFTTBG.900 ± 0.0V.00 ± 0.00V.0 ± 0.00V.70 ± 0.00V 0.0 ± 0.0V SAARFTTBG.0 ± 0.0V.0 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAASFTTBG.90 ± 0.0V.090 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.07 ± 0.0V SAATFTTBG.00 ± 0.0V.00 ± 0.0V.00 ± 0.00V.70 ± 0.00V 0.0 ± 0.0V SAAUFTTBG.0 ± 0.0V.0 ± 0.00V.0 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAAVFTTBG.0 ± 0.0V.0 ± 0.00V.70 ± 0.00V.00 ± 0.00V 0.0 ± 0.0V SAAWFTTBG.0 ± 0.0V.00 ± 0.00V.00 ± 0.00V.0 ± 0.00V 0.0 ± 0.0V Remark Please contact our sales offi ce for the products with the detection voltage value other than those specifi ed above. CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

94 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR TO SERIAL CELL PACK (SECONDARY PROTECTION) SA/B series The SA/B series is for secondary protection of lithiumion rechargeable batteries, and incorporates a highaccuracy voltage detection circuit and a delay circuit. S series accommodates the to cellseries connection by shortcircuiting between each cell. PIN CONFIGURATIONS SNTA 7 Highaccuracy voltage detection circuit for each cell Overcharge detection voltage n (n= to ).0 to.0v (in 0mV steps) Accuracy : ±mv ( C), Accuracy : ±0mV ( to C) Overcharge hysteresis voltage n (n= to ) 0. ±0.V, 0.9 ±0.V, 0. ±0.V, 0. ±0.0V, None Delay times for overcharge detection can be set by an internal circuit only (external capacitors are unnecessary) Output control function via CTL pin (SA series) Output latch function after overcharge detection (SB series) Output form and logic CMOS output active high Highwithstand voltage devices Absolute maximum rating V Wide operating voltage range:. to V Wide operating temperature range: 0 to C Low current consumption At.V for each cell.0μa max. ( C) At.V for each cell.0μa max. ( C) Pin No. 7 Symbol VDD SENSE VC VC VC CTL CO Description Positive power input pin Positive voltage connection pin for battery Negative voltage connection pin for battery Positive voltage connection pin for battery Negative voltage connection pin for battery Positive voltage connection pin for battery Negative voltage connection pin for battery Positive voltage connection pin for battery Negative power input pin, Negative voltage connection pin for battery CO output control pin (SA series) Overcharge detection latch reset pin (SB series) FET gate connection pin for charge APPLICATION Lithium ion rechargeable battery packs (for secondary protection) pin TSSOP 7 Pin No. 7 Symbol VDD SENSE VC VC VC CTL CO Description Positive power input pin Positive voltage connection pin for battery Negative voltage connection pin for battery Positive voltage connection pin for battery Negative voltage connection pin for battery Positive voltage connection pin for battery Negative voltage connection pin for battery Positive voltage connection pin for battery Negative power input pin, Negative voltage connection pin for battery CO output control pin (SA series) Overcharge detection latch reset pin (SB series) FET gate connection pin for charge SELECTION GUIDE SA series (000/reel) Item Overcharge Detection Overcharge Hysteresis Overcharge Detection Delay Time Output Form Product Name SAAAITG SAABITG SAACITG VCU. ± 0.0V. ± 0.0V.0 ± 0.0V VHC 0.9 ± 0.V 0.9 ± 0.V 0.9 ± 0.V tcu.0 ± 0.s.0 ± 0.s.0 ± 0.s CMOS output active high CMOS output active high CMOS output active high Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. SB series (000/reel) Item Overcharge Detection Overcharge Hysteresis Overcharge Detection Delay Time Output Form Product Name SBAAITG SBABITG VCU. ± 0.0V. ± 0.0V VHC 0.9 ± 0.V 0.9 ± 0.V tcu.0 ± 0.s.0 ± 0.s CMOS output active high CMOS output active high Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. 9 CMOS IC 00700

95 Lithiumion Rechargeable Battery Protection ICs BATTERY PROTECTION IC FOR TO SERIAL CELL PACK (SECONDARY PROTECTION) S series The S series is for secondary protection of lithiumion to cell batteries, and incorporates a highprecision voltage detector circuit and a delay circuit. S series accommodates the to cellseries connection by shortcircuiting between each cell. PIN CONFIGURATIONS Pin No. 7 Symbol CO ICT VC VC VC SENSE VCC SNTA pin MSOP Description FET gate connection pin for charge control Capacitor connection pin for overcharge detection delay Negative power input pin, Negative voltage connection pin for Battery Negative voltage connection pin for Battery Positive voltage connection pin for Battery Negative voltage connection pin for Battery Positive voltage connection pin for Battery Negative voltage connection pin for Battery Positive voltage connection pin for Battery Positive voltage connection pin for Battery Positive power input pin 7 7 Internal highprecision voltage detector circuit Overcharge detection voltage range :.70 to.0v : Accuracy of ± mv (at C) (in mv/step) Accuracy of ± 0mV (at 0 to C) Hysteresis : optional models available and selectable: 0.±0.V, 0.±0.07V, 0.±0.0V, 0.0±0.0V, None Highwithstand voltage device : Absolute maximum rating : V Wide operating voltage range :. to V (the range in which the delay circuit can operate normally after overvoltage is detected) Delay time during detection : Can be set by an external capacitor. Low current consumption : At.V for each cell :.0μA max. ( C) At.V for each cell :.μa max. ( C) Output logic and form : types CMOS output active high CMOS output active low Pch open drain output active low Nch open drain output active high (only CMOS output for 0.0V hysteresis models) APPLICATION Lithium ion rechargeable battery packs (for secondary protection) CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Pin No. 7 Symbol VCC SENSE VC VC VC ICT CO Description Positive power input pin Positive voltage connection pin for Battery Negative voltage connection pin for Battery Positive voltage connection pin for Battery Negative voltage connection pin for Battery Positive voltage connection pin for Battery Negative voltage connection pin for Battery Positive voltage connection pin for Battery Negative power input pin, Negative voltage connection pin for Battery Capacitor connection pin for overcharge detection delay FET gate connection pin for charge control SELECTION GUIDE () SNTA Item Overcharge detection voltage Overcharge hysteresis voltage Output form Product Name VCU VCD SAAAPHCEATFG. ± 0.0V 0. ± 0.V CMOS output active high SAABPHCEBTFG.0 ± 0.0V 0V Nch open drain active high SAAFPHCEFTFG. ± 0.0V 0.0 ± 0.0V CMOS output active high SAAGPHCEGTFG. ± 0.0V 0.0 ± 0.0V CMOS output active high Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. () pin MSOP Item Overcharge detection voltage Overcharge hysteresis voltage Output form Product Name SAAAFNCEATG SAABFNCEBTG SAACFNCECTG SAADFNCEDTG SAAEFNCEETG SAAFFNCEFTG SAAGFNCEGTG SAAHFNCEHTG SAAIFNCEITG SAAJFNCEJTG SAAKFNCEKTG SAALFNCELTG SAAMFNCEMTG SAANFNCENTG SAAOFNCEOTG SAAPFNCEPTG SAAQFNCEQTG SAARFNCERTG VCU. ± 0.0V.0 ± 0.0V. ± 0.0V.0 ± 0.0V. ± 0.0V. ± 0.0V. ± 0.0V.0 ± 0.0V.0 ± 0.0V.0 ± 0.0V.7 ± 0.0V. ± 0.0V.0 ± 0.0V. ± 0.0V. ± 0.0V.0 ± 0.0V. ± 0.0V.0 ± 0.0V VCD 0. ± 0.V 0V 0. ± 0.0V 0V 0V 0.0 ± 0.0V 0.0 ± 0.0V 0. ± 0.07V 0.0 ± 0.0V 0. ± 0.V 0. ± 0.V 0. ± 0.07V 0. ± 0.07V 0. ± 0.07V 0. ± 0.07V 0. ± 0.07V 0V 0. ± 0.07V CMOS output active high Nch open drain active high CMOS output active high Pch open drain active low Nch open drain active high CMOS output active high CMOS output active high CMOS output active high CMOS output active high CMOS output active high CMOS output active high CMOS output active high CMOS output active low CMOS output active high CMOS output active high CMOS output active high Nch open drain active high Nch open drain active high Remark Please contact our sales offi ce for the products with detection voltage value other than those specifi ed above. (000/reel) (000/reel) Lithiumion Rechargeable Battery Protection ICs REALTIME MINI ANALOG ICs SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

96 MEMORY ICs Memory IC Lineup E PROM E PROM wire serial High reliability General use S9CB S9CB Memory size Kbit Kbit pin DIP pin SOP pin TSSOP SNTA pin SSOP Package WLP(0.mm max.) PLPC * WLP(0.9mm max.) (MLP Compatible) 0 C pin SOP For automotive components For automotive components For automotive components C pin SOP 0 C pin TSSOP Page S9CB Kbit 00 S9C7A Kbit 00 For automotive Components High reliability C operation guaranteed S9CB S9AA S9AA Kbit Kbit Kbit S9AA Kbit 0 High reliability Low voltage operation S9AA S9LA S9LA S9LA Kbit Kbit Kbit Kbit Low voltage operation 0.9V read,.v write S9L7A S9U0A S9U0A Kbit Kbit Kbit Low voltage operation 0.9V read, 0.9V write S9U0A S9Z0A S9Z0A Kbit Kbit Kbit wire serial High reliability General use SCS0A SCS0A Kbit Kbit 9 9 SCS0A Kbit 9 SCS0A Kbit 9 SCSA Kbit 9 High reliability Low voltage operation Supersmall package SCSA SCxxC series SC0BPPHL SC0BPHAL Kbit K to Kbit Kbit Kbit DEV For DIMM SPD SC0A Kbit NEW 0 SPIBUS For automotive Components C operation guaranteed High reliability General use SA series SC00A SC series (K to Kbit) (Kbit) (K to Kbit) DEV NEW DEV 97 0 DEV NEW : Under development *: Under development : New product 9 CMOS IC 00700

97 MEMORY ICs E PROM HIGHLY RELIABLE SII E PROMS FOR AUTOMOTIVE COMPONENTS, SELECTED BY THE DEMANDING AUTOMOTIVE COMPONENT MARKET General E PROMs are such that their rewrite life is degraded at high temperature. SII E PROMs, however, are highly reliable E PROMs that guarantee one million rewrites at up to C, after which data can be retained for over ten years. Since such high reliability is acknowledged, in the automotive component market which has the strict quality standards due to the severe environments, SII E PROMs have been supported by many customers. SII E PROMs, which achieved high reliability, high performance, and high quality, are offered various lineup of products that can be used for automotive component appliances, meet customers requirements. CONTENTS Detectors Regulators TYPICAL APPLICATIONS (FOR AUTOMOTIVE COMPONENT APPLICATIONS) Engine ECUs Transmission ECUs Electric power steering ABS Air bags Power windows Body ECUs Keyless entry systems etc. PRODUCTS FOR AUTOMOTIVE COMPONENT APPLICATIONS Highly reliable wire C operation guaranteed Product name Item S9AA S9AA S9AA S9AA Capacity Kbit Kbit Kbit Kbit Operating temperature range 0 to C Data retention period years * *. Cycles/word: Number of rewrites per one word (word: bits) *. After 0 thousand rewrites (at C) Please contact our sales offi ce if a year or longer data retention period is required. Product name Item S9CB S9CB S9CB S9C7A S9CB Capacity Kbit Kbit Kbit Kbit Kbit Operating temperature range 0 to 0 C Number of rewrites * million guaranteed ( C) 00 thousand guaranteed (0 C) Data retention period 0 years * (after million rewrites) *. Cycles/word: Number of rewrites per one word (word: bits) *. Please contact our sales offi ce if a 0year or longer data retention period is required. Product name Item SCS0A SCS0A SCS0A SCS0A Kbit Kbit Kbit Kbit Capacity Operating temperature range 0 to 0 C Number of rewrites * million guaranteed ( C) 0 thousand guaranteed ( C) Highly reliable wire 0 C operation guaranteed Highly reliable wire 0 C operation guaranteed Number of rewrites * million guaranteed ( C) 00 thousand guaranteed (0 C) Data retention period 0 years * (after million rewrites) *. Cycles/word: Number of rewrites per one word (word: bits) *. Please contact our sales offi ce if a 0year or longer data retention period is required. Highly reliable SPI bus C operation guaranteed Current consumption Reading Standby 0.mA (.7V).0mA (.V) Current consumption Reading Standby 0.mA (.V) 0.mA (.V).0μA.μA Current consumption Reading Standby 0.mA (.7V) 0.mA (.V).0μA Package pin SOP Package pin SOP pin TSSOP Package pin SOP pin TSSOP Reference page 0 Reference page 00 Reference page 9 Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs MEMORY ICs E PROM SENSORS MINI ANALOG ICs Temperature Sensor, Temperature Switch Operational Amplifier, Comparator REALTIME CLOCK ICs PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS Product name Operating Capacity Number of rewrites Item temperature range SA series Up to Kbit 0 to C Remark Under development. Please contact our sales offi ce for details. Current consumption Data retention period Reading Standby Under development Package Reference page CMOS IC PACKAGES CMOS IC

98 MEMORY ICs HIGHRELIABILITY, SUPERSMALL PACKAGE WIRE SERIAL E PROM The SCS0A/0A/0A/0A/A/A are wire, lowpowerconsumption serial E PROMs with a wide operating voltage range. Depending on the product, the memory size is Kbit, Kbit, Kbit, Kbit, Kbit or Kbit. An endurance of million cycles (00,000 in some products) over a wide temperature range ( 0 to C) is guaranteed and data can be retained for even after million rewrites (00,000 rewrites for some models), making these highly reliable memories. These products feature a function to prohibit writing during lowvoltage supply and enable page write and sequential read. The use of a supersmall SNT * package and WLP * means that these memory ICs are ideal for small and thin applications such as mobile devices. *. Smalloutline Nonleaded Thin package *. Wafer Level chip size Package E PROM SCS0A/0A/0A/0A/A/A SCxxC series Low current consumption:.0μa (SCS0A/0A/0A/0A) (VCC=.V, during standby).0μa (SCSA/A) (VCC=.V, during standby) 0.mA max. (VCC=.V, during reading) Operating voltage range:. to.v (during reading).7 to.v (during writing) Page write: bytes/page (SCS0A/0A) bytes/page (SCS0A/0A/A) bytes/page (SCSA) Sequential read Operating frequency: 00kHz (VCC=. to.v) Endurance SCS0A/0A/0A/0A: Up to 0 million cycles ( C) million cycles guaranteed ( C) SCSA/A: Up to million cycles ( C) 00,000 cycles guaranteed ( C) Data retention: 0 years (after million rewrites or 00,000 rewrites) Write protection: 00% Write protection under low power supply voltage Package: SNTA pin DIP pin SOP pin TSSOP WLPA WLPE WLPC Hightemperature operation: 0 C max. supports Models for automotive components at 0 C max. PIN CONFIGURATIONS (/) SNTA 7 ( max.) SCS0APHTFG SCS0APHTFG SCS0APHTFG SCSA0IITG Product SCS0A name SCS0A SCSA Pin No. SCS0A 7 A0 A A GND SDA SCL WP VCC NC A A GND SDA SCL WP VCC A * GND SDA SCL WP VCC NC NC *. A is a TEST pin in the SCSA. (Unit : mm) pin DIP 7 SCS0ADPG SCS0ADPG SCS0ADPG SCS0ADPG SCSA0IDSG Product SCS0A SCS0A name SCS0A Pin No. SCS0A SCSA A0 NC NC A A NC A A A * GND GND GND SDA SDA SDA SCL SCL SCL 7 WP WP WP VCC VCC VCC *. A is a TEST pin in the SCSA. pin SOP 7 SCS0AFJTBG SCS0AFJTBG SCS0AFJTBG SCS0AFJTBG SCSA0IJTG SCSA0IJTG Product SCS0A name SCS0A SCS0A SCS0A SCSA Pin No. SCSA 7 A0 A A GND SDA SCL WP VCC NC A A GND SDA SCL WP VCC NC NC A * GND SDA SCL WP VCC *. A is a TEST pin in the SCSA. <Models for automotive components at 0 C max.> SCS0AFJTBHG SCS0AFJTBHG SCS0AFJTBHG SCS0AFJTBHG pin TSSOP 7 SCS0AFTTBG SCS0AFTTBG SCS0AFTTBG SCS0AFTTBG SCSA0ITTG SCSA0ITTG Product SCS0A name SCS0A SCS0A SCS0A SCSA Pin No. SCSA A0 NC NC A A NC A A A * GND GND GND SDA SDA SDA SCL SCL SCL 7 WP WP WP VCC VCC VCC *. A is a TEST pin in the SCSA. <Models for automotive components at 0 C max.> SCS0AFTTBHG SCS0AFTTBHG SCS0AFTTBHG SCS0AFTTBHG 9 CMOS IC 00700

99 MEMORY ICs E PROM PIN CONFIGURATIONS (/) WLPA Bottom view A GND VCC WP SDA SCL (.. 0. max.) SCSA0IHT Product name SCSA Pin No. A * VCC WP SCL SDA GND *. TEST pin. WLPE (Low profile 0.9mm max.) Bottom view A VCC GND SDA WP SCL ( max.) SCSA0IHT Product name SCSA Pin No. A * VCC WP SCL SDA GND *. TEST pin. CONTENTS Detectors WLPC Bottom view A0 VCC WP A SCL 7 A GND SDA ( max.) SCSA0IHT Product name SCSA Pin No. A0 VCC WP SCL SDA GND 7 A A (Unit : mm) Regulators Charge Pumps Switching Regulators (DCDC Converters) Product Item SCS0A SCS0A SCS0A SCS0A SCSA SCSA SPECIFICATIONS SCS0A/0A/0A/0A/A/A Memory size Kbit Kbit Kbit Kbit Kbit Kbit Organization bits bits bits 0 bits 0 bits MEMORY ICs E PROM CMOS IC PACKAGES 9 bits *. Cycles/word (Word: bits) Page write size bytes bytes bytes bytes bytes bytes Operating voltage range Read Write. to.v. to.v. to.v. to.v. to.v. to.v SCxxC series (Under development).7 to.v.7 to.v.7 to.v.7 to.v.7 to.v.7 to.v Current consumption Read Standby 0.mA (.7V) 0.mA (.V) 0.mA (.7V) 0.mA (.V) 0.mA (.7V) 0.mA (.V) 0.mA (.7V) 0.mA (.V).0μA.0μA.0μA.0μA 0.mA (.7V).0μA (. to.v) 0.mA (.V).0μA (. to.v) 0.mA (.7V).0μA (. to.v) 0.mA (.V).0μA (. to.v) Clock frequency (max.) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) 00kHz (. to.v) Endurance * Data retention Up to 0 million cycles 0years ( C) (After million cycles) million cycles ( C) Up to 0 million cycles 0years ( C) (After million cycles) million cycles ( C) Up to 0 million cycles 0years ( C) (After million cycles) million cycles ( C) Up to 0 million cycles 0years ( C) (After million cycles) million cycles ( C) Up to million cycles 0years ( C) (After 00,000 cycles) 00,000 cycles ( C) Up to million cycles 0years ( C) (After 00,000 cycles) 00,000 cycles ( C) Slave address No Protect area 00% 00% 00% 00% 00% 00% Package SNTA pin DIP pin SOP pin TSSOP SNTA pin DIP pin SOP pin TSSOP SNTA pin DIP pin SOP pin TSSOP pin DIP pin SOP pin TSSOP SNTA WLPA pin DIP pin SOP pin TSSOP WLPC pin SOP pin TSSOP SENSORS MINI ANALOG ICs Lithiumion Rechargeable Battery Protection ICs Temperature Sensor, Temperature Switch Operational Amplifier, Comparator REALTIME CLOCK ICs Product name DEV SC0C/SC0C/SC0C/ SC0C/SCC/SCC/ SCC/SCC/SCC Item Memory size K to K bit Memory size lineup K/K/K/K/K/K/K/K/K bit PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC

100 MEMORY ICs HIGHRELIABILITY, SUPERSMALL PACKAGE WIRE SERIAL E PROM The S9CB/B/B/7A/B are highspeed, lowcurrentconsumption wire E PROMs with a wide operating voltage range. Depending on the product, the memory size is Kbit, Kbit, Kbit, Kbit, or Kbit. It is organized as word bit, word bit, word bit, word bit, and 0 words bits respectively. Each is capable of sequential read, at which time addresses are automatically incremented in bit blocks. The instruction code is compatible with the NM9CSxx. These highly reliable E PROM memories feature a guaranteed endurance of million cycles over a wide operating temperature range ( 0 to C), data retention of 0 years after million rewrites, and a maximum operating temperature of 0 C. Builtin data protection functions such as prohibiting write operations during lowvoltage supply and protecting against write due to erroneous instruction recognition make these products ideal for storing important data. The availability of a supersmall SNT * package makes these memories ideal for small and thin applications such as mobile devices. E PROM S9CB/B/B/7A/B Low current consumption:.μa max. (VCC=.V, during standby) 0.mA max. (VCC=.V, during reading) 0.mA max. (VCC=.V, during reading) Wide operating voltage range:. to.v (during reading).7 to.v (during writing) Sequential read Write protection under low power supply voltage Protect function against write due to erroneous instruction recognition (S9CB/B/B/B) Endurance: Up to 0 million cycles ( C) million cycles guaranteed ( C) Data retention: 0 years (after million rewrites) High temperature operation: Supports 0 C max Models for automotive components at 0 C max. *. Smalloutline Nonleaded Thin package PIN CONFIGURATIONS SNTA CS SK DI DO 7 VCC NC TEST GND ( max.) S9CBD0IITG S9CBD0IITG S9CBD0IITG (Unit : mm) pin DIP CS VCC SK 7 NC DI TEST DO GND S9CBD0IDSG S9CBD0IDSG S9CBD0IDSG S9C7ADPG pin SOP CS VCC SK 7 NC DI TEST DO GND S9CBD0IJTG S9CBD0IJTG S9CBD0IJTG S9C7ADFJTBG S9CBDIJTG <Models for automotive components at 0 C max.> S9CBD0HJTG S9CBD0HJTG S9CBD0HJTG S9C7ADFJTBHG S9CBDHJTG pin SOP (rotated) NC TEST VCC 7 GND CS DO SK DI S9CBR0IJTG S9CBR0IJTG S9CBR0IJTG pin TSSOP CS VCC SK 7 NC DI TEST DO GND S9CBD0ITTG S9CBD0ITTG S9CBD0ITTG S9C7AFTTBG S9CBDITTG <Models for automotive components at 0 C max.> S9CBD0HTTG S9CBD0HTTG S9CBD0HTTG S9C7AFTTBHG S9CBDHTTG SPECIFICATIONS Item Product S9CB S9CB S9CB S9C7A S9CB Memory size Kbit Kbit Kbit Kbit Kbit Organization bits bits bits bits 0 bits Instruction code NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible Operating voltage range Read Write. to.v.7 to.v. to.v.7 to.v. to.v.7 to.v. to.v.7 to.v. to.v.7 to.v Current consumption Read Standby 0.mA (.V) 0.mA (.V).μA 0.mA (.V) 0.mA (.V).μA 0.mA (.V) 0.mA (.V).μA 0.mA (.V) 0.mA (.V).μA 0.mA (.V) 0.mA (.V).μA Clock frequency (max.) 0.MHz (.V) to.0mhz (.V) 0.MHz (.V) to.0mhz (.V) 0.MHz (.V) to.0mhz (.V) 0.MHz (.V) to.0mhz (.V) 0.MHz (.V) to.0mhz (.V) Endurance * Data retention Package SNTA Up to 0 million cycles 0 years pin DIP ( C) (After million pin SOP million cycles ( C) cycles) pin TSSOP SNTA Up to 0 million cycles 0 years pin DIP ( C) (After million pin SOP million cycles ( C) cycles) pin TSSOP SNTA Up to 0 million cycles 0 years pin DIP ( C) (After million pin SOP million cycles ( C) cycles) pin TSSOP Up to 0 million cycles ( C) million cycles ( C) 0 years (After million cycles) pin DIP pin SOP pin TSSOP Up to 0 million cycles 0 years pin SOP ( C) (After million cycles) pin TSSOP million cycles ( C) *. Cycles/word (Word: bits) 00 CMOS IC 00700

101 MEMORY ICs HIGHRELIABILITY, WIRE SERIAL E PROM FOR AUTOMOTIVE COMPONENTS WITH C OPERATION GUARANTEED E PROM S9AA/A/A/A The S9AA/A/A/A are hightemperature operation wire E PROMs for automotive components. Depending on the product, the memory size is Kbit, Kbit, Kbit, or Kbit. The products are organized as words bits, words bits, words bits, and 0 words bits, respectively. Each is capable of sequential read, at which time addresses are automatically incremented in bit blocks. The instruction code is compatible with the NM9CSxx. An endurance of million cycles ( C) is guaranteed and data can be retained for years after 0,000 rewrites (at C), making these highly reliable memories. A high tolerance under severe usage conditions also makes operation at high temperatures possible (operating temperature range: 0 to C). These products feature a function to prohibit writing during lowvoltage supply and to protect against writing due to erroneous instruction recognition, making them ideal for storing important data. PIN CONFIGURATION CS SK DI DO pin SOP 7 VCC NC TEST GND S9AAD0AJTGB (Dynamic burnin) S9AAD0AJTGB (Dynamic burnin) S9AAD0AJTGB (Dynamic burnin) S9AAD0AJTGB (Dynamic burnin) S9AAD0AJTGD (Wafer burnin) S9AAD0AJTGD (Wafer burnin) S9AAD0AJTGD (Wafer burnin) S9AAD0AJTGD (Wafer burnin) Low current consumption:.0μa max. (VCC=.V, during standby).0ma max. (VCC=.V, during reading) 0.mA max. (VCC=.7V, during reading) Wide operating voltage range:.7 to.v (during reading).7 to.v (during writing) Sequential read Write protection under low power supply voltage Protect function against write due to erroneous instruction recognition CMOS schmitt input (CS, SK) Endurance: million cycles guaranteed ( C) Data retention: years (after 0,000 rewrites (at C)) High temperature operation: Operating temperature 0 to C CONTENTS Charge Pumps Switching Regulators (DCDC Converters) MEMORY ICs E PROM SENSORS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs CMOS IC PACKAGES Temperature Sensor, Temperature Switch SPECIFICATIONS Item Memory Organization Product name size Instruction code Operating voltage range Read Write Current consumption Read Standby Clock frequency (max.) Endurance * Data retention Package MINI ANALOG ICs Operational Amplifier, Comparator S9AA S9AA Kbit Kbit bits bits NM9CSxx compatible NM9CSxx compatible.7 to.v.7 to.v.7 to.v.7 to.v 0.mA (.7V).0mA (.V) 0.mA (.7V).0mA (.V).0μA.0μA 0.MHz (.7V) million cycles ( C) to.0mhz (.V) 0,000 cycles ( C) 0.MHz (.7V) million cycles ( C) to.0mhz (.V) 0,000 cycles ( C) years * years * pin SOP pin SOP REALTIME CLOCK ICs S9AA S9AA Kbit Kbit bits 0 bits NM9CSxx compatible NM9CSxx compatible.7 to.v.7 to.v.7 to.v.7 to.v 0.mA (.7V).0mA (.V) 0.mA (.7V).0mA (.V).0μA.0μA 0.MHz (.7V) million cycles ( C) to.0mhz (.V) 0,000 cycles ( C) 0.MHz (.7V) million cycles ( C) to.0mhz (.V) 0,000 cycles ( C) years * years * pin SOP pin SOP PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC *. Cycles/word (Word: bits) *. After 0,000 rewrites (at C) DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC

102 MEMORY ICs LOW VOLTAGE OPERATION, SUPERSMALL PACKAGE WIRE SERIAL E PROM E PROM SC0BP/0BP The SC0BP/0BP are wire, low voltage operation, lowpowerconsumption serial E PROMs with a wide operating voltage range. Depending on the product, the memory size is Kbit or Kbit. An endurance of million cycles over a wide temperature range ( 0 to C) is guaranteed and data can be retained for 0 years after million rewrites, making these highly reliable memories. These products enable page write and sequential read. The use of a supersmall pin SNT * package and WLP * means that these memory ICs are ideal for small and thin applications such as mobile devices. Low current consumption:.0μa max. (VCC=.V, during standby) 0.mA max. (VCC=.V, during reading) Operating voltage range:. to.v (during reading). to.v (during writing, SC0BP).7 to.v (during writing, SC0BP) Page write: bytes/page (SC0BP) bytes/page (SC0BP) Sequential read Operating frequency: 00kHz (VCC=. to.v) Endurance: million cycles guaranteed ( C) Data retention: 0 years (after million rewrites) Write protection: 00% Package: SNTA (SC0BP) WLPA (SC0BP) *. Smalloutline Nonleaded Thin package *. Wafer Level Chip Size Package PIN CONFIGURATIONS SNTA NC VCC NC 7 WP NC SCL GND SDA ( max.) SC0BPPHLTFG WLPA Bottom view VCC WP SDA GND SCL (.. 0. max.) SC0BPHALTF (Unit : mm) SPECIFICATIONS Item Product name SC0BPPHLTFG SCS0BPHALTF Memory size Kbit Kbit Organization bits bits Page write size bytes bytes Operating voltage range Current consumption Clock frequency Slave Protect Endurance * Data retention Read Write Read Standby (max.) address area 0.mA (.7V) 00kHz (. to.v) 0 years. to.v. to.v.0μa million cycles ( C) 00% 0.mA (.V) 00kHz (. to.v) (After million cycles) 0.mA (.7V). to.v.7 to.v 0.mA (.V) 00kHz (. to.v) 0 years.0μa million cycles ( C) 00% 00kHz (. to.v) (After million cycles) Package SNTA WLPA *. Cycles/word (Word: bits) 0 CMOS IC 00700

103 MEMORY ICs LOW VOLTAGE OPERATION, SUPERSMALL PACKAGE WIRE SERIAL E PROM E PROM S9LA/A/A/7A The S9LA/A/A/7A are lowvoltageoperation highspeed, lowcurrentconsumption wire E PROMs with a wide operating voltage range. Depending on the product, the memory size is Kbit, Kbit, Kbit, or Kbit. It is organized as word bit, word bit, word bit, and word bit respectively. Each is capable of sequential read, at which time addresses are automatically incremented in bit blocks. The instruction code is compatible with the NM9CSxx. These highly reliable E PROM memories feature a guaranteed endurance of million cycles over a wide operating temperature range ( 0 to C), data retention of 0 years after million rewrites. Builtin data protection functions such as prohibiting write operations during lowvoltage supply and protecting against write due to erroneous instruction recognition make these products ideal for storing important data. The use of a supersmall SNT * package means that these memories are excellent for small and thin applications such as mobile devices. *. Smalloutline Nonleaded Thin package Product Name S9LA S9LA S9LA S9L7A PIN CONFIGURATIONS Item SNTA CS VCC SK 7 NC DI TEST DO GND ( max.) S9LAD0IITG S9LAD0IITG S9LAD0IITG SPECIFICATIONS Memory size Kbit Kbit Kbit Kbit *. Cycles/word (Word: bits) Organization bits bits bits bits pin TSSOP S9LAD0ITTG S9LAD0ITTG S9LAD0ITTG S9L7AD0ITTG Instruction code NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible SNTA NC GND VCC 7 TEST SK DI CS DO ( max.) S9L7AD0IITG CS VCC SK 7 NC DI TEST DO GND Operating voltage range Read Write. to.v. to.v. to.v. to.v. to.v (WRITE, ERASE) 0.mA (.V).7 to.v 0.mA (.V) (WRAL, ERAL). to.v (WRITE, ERASE) 0.mA (.V).7 to.v 0.mA (.V) (WRAL, ERAL). to.v (WRITE, ERASE) 0.mA (.V).7 to.v 0.mA (.V) (WRAL, ERAL). to.v (WRITE, ERASE) 0.mA (.V).7 to.v 0.mA (.V) (WRAL, ERAL) Low current consumption:.μa max. (VCC=.V, during standby, S9LA/A/A).0μA max. (VCC=.V, during standby, S9L7A) 0.mA max. (VCC=.V, during reading) 0.mA max. (VCC=.V, during reading) Wide operating voltage range:. to.v (during reading). to.v (WRITE, ERASE).7 to.v (WRAL, ERAL) Sequential read capable Write protection under low power supply voltage Protect function against write due to erroneous instruction recognition (S9LA/A/A) Endurance: Up to 0 million cycles ( C) million cycles guaranteed ( C) Data retention: 0 years (after million rewrites) pin SOP CS VCC SK 7 NC DI TEST DO GND WLP7D Bottom view TEST VCC GND DI CS 7 SK DO ( max.) S9LAD0IH7T S9LAD0IJTG S9LAD0IJTG S9LAD0IJTG S9L7AD0IJTG Current consumption Read Standby.μA.μA.μA.0μA Clock frequency (max.) 0.MHz (.V) to.0mhz (.V) 0.MHz (.V) to.0mhz (.V) 0.MHz (.V) to.0mhz (.V) 0.MHz (.V) to.0mhz (.V) pin SOP (rotated) NC TEST VCC 7 GND CS DO SK DI S9LAR0IJTG S9LAR0IJTG S9LAR0IJTG WLP7D (Low profile 0.9mm max.) Bottom view TEST VCC GND DI CS 7 SK DO ( max.) S9LAD0IH7T Endurance * Data retention (Unit : mm) Package Up to 0 million cycles SNTA 0 years ( C) pin SOP (After million cycles) million cycles ( C) pin TSSOP Up to 0 million cycles SNTA 0 years ( C) pin SOP (After million cycles) million cycles ( C) pin TSSOP SNTA Up to 0 million cycles 0 years pin SOP ( C) (After million cycles) pin TSSOP million cycles ( C) WLP7D Up to 0 million cycles SNTA 0 years ( C) pin SOP (After million cycles) million cycles ( C) pin TSSOP CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Lithiumion Rechargeable Battery Protection ICs MEMORY ICs E PROM SENSORS MINI ANALOG ICs Temperature Sensor, Temperature Switch Operational Amplifier, Comparator REALTIME CLOCK ICs PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CMOS IC PACKAGES CMOS IC

104 MEMORY ICs FOR DIMM SERIAL PRESENCE DETECT WIRE SERIAL E PROM NEW E PROM SC0A SC0A is a wired serial E PROM for DIMM Serial Presence Detect which operates with low current consumption and the wide range operation. The SC0A has the capacity of Kbit and the organization of words bit, is able to Page Write and Sequential Read. SC0A has Hardware Protect and Software Protect. Hardware Protect inhibits Write to all memory area by connecting the WP pin to VCC. Software Protect inhibits Write in 0% of the lower address (the address 00h to 7Fh) in all memory area by inputting command when the WP pin is connected to GND or left open. PIN CONFIGURATION Pin TSSOP PLPC (MLP Compatible) * Operating voltage range Read:. to.v Write:.7 to.v Page write: bytes/page Sequential read Operation frequency: 00kHz (VCC=. to.v) Noise fi ltering Schmitt trigger and noise fi lter on bus input pins (SCL, SDA) Write protect function during low power supply Endurance: 0 cycles/word * (at C) *. For each address (Word: bits) Data retention: 00 years ( C) Memory size Kbit Write Protect: Hardware Protect 00% (addresses 00h to FFh) Software Protect for the lower address of 0% (addresses 00h to 7Fh) Package: pin TSSOP, PLPC (MLP Compatible) (Under development) A0 A A GND 7 VCC WP SCL SDA A0 A A GND 7 VCC WP SCL SDA SC0A0ITTG ( 0. max.) *. Under development (Unit : mm) SPECIFICATIONS Product name Item Memory size Organization Page write size Operating voltage range SC0A0ITTG K bit bits bytes. to.v.7 to.v Current consumption Read Write Read Standby 0.mA (.V) 0.mA (.V).μA Clock frequency (max.) 00kHz (. to.v) 00kHz (. to.v) Endurance * million cycles ( C) Data retention 00 years ( C) Slave address Protect area Package pin TSSOP Hardware: 00% PLPC Software: 0% (MLP Compatible) * *. Cycles/word (Word: bits) *. Under development 0 CMOS IC 00700

105 MEMORY ICs HIGHRELIABILITY, SPIBUS SERIAL E PROM NEW E PROM SC00A The SC00A is a SPI serial E PROM which operates at high speed, with low current consumption and the wide range operation. The SC00A has the capacity of Kbit and the organization of 0 words bit, is able to Page Write and sequential read. The use of a supersmall pin SNT * package and WLP * means that this memory IC is ideal for small and thin applications such as mobile devices. *. Smalloutline Nonleaded Thin package *. Wafer Level Chip Size Package PIN CONFIGURATIONS Wide range operation Read :. to.v (at 0 to C) Write :.7 to.v (at 0 to C) Operation frequency MHz (. to. V),.0 MHz (. to.v) SPI mode (0, 0) and (, ) Page Write bytes/page Sequential read Write protect: Software, Hardware Protect area: %, 0%, 00% Monitors Write to the memory by a status register Write protect function during the low power supply CMOS schmitt input (CS, SCK, SI, WP, HOLD) Endurance: 0 cycles/word * (at C), *. For each address (Word: bit) Data retention: 00 years ( C) Memory capacitance: Kbit Data before shipment: Memory array FFh, SRWD=0, BP=0, BP0=0 Package : SNTA : WLPH : pin SOP : pin TSSOP CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) CS SO WP GND Pin SOP 7 SC00A0IJTG VCC HOLD SCK SI CS SO WP GND Pin TSSOP 7 SC00A0ITTG VCC HOLD SCK SI CS SO WP GND SNTA 7 SC00A0IITG VCC HOLD SCK SI WLPH (Low profile 0.9mm max.) Bottom view A C VCC SCK B D HOLD A C CS SO WP E SI E MEMORY ICs E PROM CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS GND Lithiumion Rechargeable Battery Protection ICs ( max.) SC00A0IHT (Unit : mm) Product name SPECIFICATIONS Item Memory size Organization Page write size Operating voltage range SC00A K bit 0 bits bytes. to.v.7 to.v *. Cycles/word (Word: bits) Current consumption Read Write Read Standby.mA (.V).mA (.V).μA Clock frequency (max.).0mhz (. to.v).0mhz (. to.v) Endurance * million cycles ( C) Data retention 00 years ( C) Slave address Protect area No %, 0%, 00% Package SNTA WLPH pin SOP pin TSSOP SENSORS MINI ANALOG ICs Temperature Sensor, Temperature Switch Operational Amplifier, Comparator REALTIME CLOCK ICs PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

106 MEMORY ICs E PROM OTHER E PROM WIRE Item Memory size Product Name S9U0A S9U0A S9U0A S9Z0A S9Z0A Kbit Kbit Kbit Kbit Kbit *. Cycles/word (Word: bits) Organization bits bits bits bits bits Instruction code NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible NM9CSxx compatible Operating voltage range Read Write 0.9 to.v 0.9 to.v 0.9 to.v 0.9 to.v 0.9 to.v. to.v. to.v. to.v 0.9 to.v 0.9 to.v Current consumption Read Standby 0.mA (0.9V) 0.mA (.V) 0.mA (0.9V) 0.mA (.V) 0.mA (0.9V) 0.mA (.V) 0.mA (0.9V) 0.mA (.V) 0.mA (0.9V) 0.mA (.V).0μA (0 to 70 C).0μA (0 to C).0μA (0 to 70 C).0μA (0 to C).0μA (0 to 70 C).0μA (0 to C).0μA (0 to 70 C).0μA (0 to C).0μA (0 to 70 C).0μA (0 to C) Remark The products listed in the above table standardly contain lead. For Pb(lead)free products, please contact our sales offi ce. Clock frequency (max.) 0kHz (0.9V) to 00kHz (.V) (0 to 70 C) 0kHz (0.9V) to 00kHz (.V) (0 to 70 C) 0kHz (0.9V) to 00kHz (.V) (0 to 70 C) 0kHz (0.9V) to 00kHz (.V) (0 to 70 C) 0kHz (0.9V) to 00kHz (.V) (0 to 70 C) Endurance * 00,000 cycles ( C) 00,000 cycles ( C) 00,000 cycles ( C) 00,000 cycles ( C) 00,000 cycles ( C) Data retention 0 years (After 00,000 cycles) 0 years (After 00,000 cycles) 0 years (After 00,000 cycles) 0 years (After 00,000 cycles) 0 years (After 00,000 cycles) Package pin SOP pin SSOP pin SOP pin SSOP pin SOP pin SSOP pin SOP pin SSOP pin SOP 0 CMOS IC 00700

107 SENSORS Sensor Lineup Package Sensor Temperature sensor IC Temperature switch IC Sensitivity:. mv/ C Supersmall SNT package Sensitivity:.0mV/ C Supersmall SNT package Highprecision Highprecision Sensitivity:.0mV/ C Supersmall WLP package Highprecision Sensitivity:.77mV/ C Supersmall WLP package Ultralow current consumption With latch function External setting for detection temperature Internal setting for detection temperature With hysteresis function DEV NEW NEW S0C series S0C series SA series SA series SA series SA series SLM0A series S0AC series S0AA series S0B series S series SNTA SNTA SCAB WLPB SOT pin MSOP Product Lineup SII offers a lineup of analogtype temperature sensor ICs with a linear output voltage for temperature changes and switchtype temperature switch ICs which invert the output signal at the detection temperature. These are suitable for a wide range of applications such as temperature control and temperature detection. Type Product name Function Temperature Temperature Supply voltage Current Accuracy sensitivity range range consumption Package S0C/0C series Analog.0mV/ C 0 to 00 C. to 0V ±.0 C (S0C) SCAB.μA ( C) ±. C (S0C) SNTA ±.0 C (SA) SA/A series Analog.0mV/ C 0 to 00 C. to 0V.0μA ( C) SNTA ±. C (SA) Temperature ±.0 C (SA) sensor IC SA/A series Analog.0mV/ C 0 to 00 C. to 0V.0μA ( C) WLPB ±. C (SA) SCAB SLM0A series Analog.77mV/ C to 0 C. to.v ±. C.μA ( C) SNTA WLPB S0AA Latch 0 to 9 C. to 0V ±. C μa ( C) Pin MSOP External setting for S0AC Latch Temperature detection temperature. to 0V μa ( C) Pin MSOP switch IC S0B series Latch to 9 C.0 to 0V ±. C μa ( C) SOT S series Hysteresis to 9 C. to 0V ±. C 0μA ( C) SNTA SOT NEW DEV : New product : Under development NEW NEW DEV Page Charge Pumps Switching Regulators (DCDC Converters) REALTIME SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs MINI ANALOG ICs Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

108 SENSORS TEMPERATURE SENSOR IC (SENSITIVITY.0mV/ C) Temperature sensor SA/A series The SA/A series is a family of highprecision temperature sensor ICs on a single chip with a linear output voltage for temperature changes. Each chip is composed of a temperature sensor, a constant current circuit, and an operational amplifi er. It can be used at temperatures ranging from 0 to 00 C. These devices have much better linearity than other temperature sensors such as thermistors, and can be used for temperature control applications extensively. PIN CONFIGURATION Temperature accuracy SA series : ±.0 C (0 to 00 C) SA series : ±. C (0 to 00 C) Linear output voltage.0mv/ C typ. Ta= 0 C:.V typ. Ta=0 C:.90V typ. Ta=00 C:.V typ. Nonlinearity ±0.% typ. (0 to 0 C) Wide power supply voltage operation VDD=. to 0.0V ( C) Low current consumption.0μa typ. ( C) Builtin operational amplifi er Output voltage referred to Supersmall package SNTA SNTA VDD VOUT NC APPLICATIONS Compensation of highfrequency circuits such as cellular phones and radio equipment Compensation of oscillation frequency in crystal oscillator LCD contrast compensation Compensation of amplifi er gain Compensation of auto focus circuits Temperature detection in battery management Overheating prevention for charged batteries or halogen lights SPECIFICATIONS Product name SAITG SAITG Item Operating voltage range. to 0.0V. to 0.0V Sensitivity (typ.).0mv/ C.0mV/ C Temperature accuracy ±.0 C ±. C Linearity ±0.% Typ. ±0.% Typ. Operating temperature range 0 to 00 C 0 to 00 C Current consumption (typ. Ta= C).0μA.0μA Package SNTA SNTA TEMPERATURE (Ta) VS. OUTPUT VOLTAGE (VOUT) CHARACTERISTICS GRAPH (TYPICAL DATA) VOUT [V] Ta [ C] 0 CMOS IC 00700

109 SENSORS TEMPERATURE SENSOR IC (SENSITIVITY.0mV/ C) Temperature sensor SA/A series The SA/A series is a family of highprecision temperature sensor ICs on a single chip with a linear output voltage for temperature changes. Each chip is composed of a temperature sensor, a constant current circuit, and an operational amplifi er. It can be used at temperatures ranging from 0 to 00 C. These devices have much better linearity than other temperature sensors such as thermistors, and can be used for temperature control applications extensively. PIN CONFIGURATION Product name SAHT SAHT Item WLPB Bottom view SPECIFICATIONS VDD VOUT ( max.) Operating voltage range. to 0.0V. to 0.0V Sensitivity (typ.).0mv/ C.0mV/ C (Unit : mm) Temperature accuracy ±.0 C ±. C Temperature accuracy SA series : ±.0 C (0 to 00 C) SA series : ±. C (0 to 00 C) Linear output voltage.0mv/ C typ. Ta= 0 C:.V typ. Ta=0 C:.90V typ. Ta=00 C:.V typ. Nonlinearity ±0.% typ. (0 to 0 C) Wide power supply voltage operation VDD=. to 0.0V ( C) Low current consumption.0μa typ. ( C) Builtin operational amplifi er Output voltage referred to Supersmall package WLPB Compensation of highfrequency circuits such as cellular phones and radio equipment Compensation of oscillation frequency in crystal oscillator LCD contrast compensation Compensation of amplifi er gain Compensation of auto focus circuits Temperature detection in battery management Overheating prevention for charged batteries or halogen lights Linearity ±0.% Typ. ±0.% Typ. APPLICATIONS Operating temperature range 0 to 00 C 0 to 00 C Current consumption (typ. Ta= C).0μA.0μA Package WLPB WLPB CONTENTS Detectors Charge Pumps Switching Regulators (DCDC Converters) REALTIME SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS Regulators Lithiumion Rechargeable Battery Protection ICs TEMPERATURE (Ta) VS. OUTPUT VOLTAGE (VOUT) CHARACTERISTICS GRAPH (TYPICAL DATA) Ta [ C] MINI ANALOG ICs Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC VOUT [V] CMOS IC

110 SENSORS TEMPERATURE SENSOR IC (SENSITIVITY.mV/ C) Temperature sensor S0C/0C series The S0C/0C series is a family of highprecision temperature sensor ICs on a single chip with a linear output voltage for temperature changes. Each chip is composed of a temperature sensor, a constant current circuit, and an operational amplifi er. It can be used at temperatures ranging from 0 to 00 C. These devices have much better linearity than other temperature sensors such as thermistors, and can be used for temperature control applications extensively. PIN CONFIGURATIONS SCAB VDD NC VOUT SNTA VDD VOUT NC Linear output voltage for temperature change Low current consumption Builtin operational amplifi er based output Package: SCAB SNTA APPLICATIONS Compensation of highfrequency circuits such as cellular phones and radio equipment Compensation of oscillation frequency in crystal oscillator LCD contrast compensation Temperature detection in battery management Compensation of amplifi er gain Overheating prevention for charged batteries or halogen lights Compensation of auto focus circuits SPECIFICATIONS Item Product name S0CNBDRATFG S0CPFDRATFG S0CNBDRBTFG S0CPFDRBTFG Operating voltage range. to 0.0V. to 0.0V Sensitivity (typ.).mv/ C.mV/ C Temperature accuracy ±.0 C ±. C Linearity ±0.% Typ. ±0.% Typ. Operating temperature range 0 to 00 C 0 to 00 C Current consumption (typ. Ta= C).μA.μA Package SCAB SNTA SCAB SNTA TEMPERATURE (Ta) VS. OUTPUT VOLTAGE (VOUT) CHARACTERISTICS GRAPH (TYPICAL DATA) VOUT [V] Ta [ C] 0 CMOS IC 00700

111 SENSORS TEMPERATURE SENSOR IC (SENSITIVITY.77mV/ C) UNDER DEVELOPMENT Temperature sensor SLM0A series The SLM0A series is a family of highprecision temperature sensor IC on a single chip with a linear output voltage for temperature changes. Each chip is composed of a temperature sensor, a constant current circuit, and an operational amplifi er. It can be used at temperatures ranging from to 0 C. These devices have much better linearity than other temperature sensors such as thermistors, and can be used for temperature control applications extensively. PIN CONFIGURATIONS SNTA WLPB Bottom view Item Product name SLM0ANTG SLM0AITG VDD VOUT NC VDD VOUT ( max.) SPECIFICATIONS VOUT [V] Operating voltage range. to.v. to.v SCAB Sensitivity (typ.).77mv/ C.77mV/ C Ta [ C] VDD NC VOUT (Unit : mm) Temperature accuracy ±. C ±. C Temperature accuracy: ±. C ( to 0 C) Linear output voltage.77mv/ C typ. Ta= 0 C:.0V typ. Ta=0 C:.V typ. Ta=0 C: 0.0V typ. Nonlinearity ±0.% typ. (0 to 0 C) Wide power supply voltage operation VDD=. to.v (0 to 0 C) VDD=.7 to.v ( to 0 C) Low current consumption.μa typ. ( C).0μA max. ( to 0 C) Builtin operational amplifi er Output voltage referred to Package SNTA, SCAB, WLPB Compensation of highfrequency circuits such as cellular phones and radio equipment Compensation of oscillation frequency in crystal oscillator LCD contrast compensation Compensation of amplifi er gain Compensation of auto focus circuits Temperature detection in battery management Overheating prevention for charged batteries or halogen lights Linearity ±0.% Typ. ±0.% Typ. APPLICATIONS Operating temperature range to 0 C to 0 C Current consumption (typ. Ta= C).μA.μA Package SCAB SNTA Charge Pumps Switching Regulators (DCDC Converters) REALTIME SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS TEMPERATURE (Ta) VS. OUTPUT VOLTAGE (VOUT) CHARACTERISTICS GRAPH (TYPICAL DATA) CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs MINI ANALOG ICs Operational Amplifier, Comparator PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC 00700

112 SENSORS TEMPERATURE SWITCH IC NEW Temperature switch S0B series The S0B series is a temperature switch IC with a latch function detects the temperature with sensitivity of ±. C. The output signal is inverted when the detection temperature is reached, and latched until detection of the power supply voltage lowering. Low voltage operation of.0v is possible and the current consumption is low, μa (typ.), due to CMOS configuration. The S0A series consists of a temperature sensor with negative temperature coefficient, a reference voltage source, a comparator, voltage detection circuit, and noise suppression circuit, and all are enclosed in SOT package. Since the temperature range of this IC is 0 to 00 C, it is possible to achieve the extensive application for temperature control. Detection temperature: to 9 C, C steps Detection temperature accuracy: ±. C Wide operating voltage range: VDD=.0 to 0.0V Release voltage:. to.v, 0.V steps Low current consumption: μa typ. ( C) Builtin circuit for preventing temperature detection malfunction Output logic level is fixed by the latch after temperature detection Active high or active low output logic is selectable CMOS or Nch opendrain output is selectable Package: SOT PIN CONFIGURATION SOT Pin No. Symbol Description RT * Reference voltage pin GND pin CD Capacitor connection pin for setting time for malfunction prevention DET Pin for outputting set temperature detection signal VDD Power supply pin *. Set the RT pin open in use. SELECTION GUIDE Product name Detection temperature (TDET) Output form Output logic Release voltage (VRET) S0BAGMTG 0 C CMOS Active low.9v S0BAHMTG 90 C CMOS Active high.9v S0BAJMTG 0 C Nch open drain Active low.v Remark For options other than those listed above, please contact our sales offi ce. BLOCK DIAGRAM. CMOS output product. Nch open drain output product VDD VDD Temperature Sensor VREF CD Temperature Sensor V REF CD RT RT Reference Source D Q DF/F CK R DET Reference Source D Q DF/F CK R DET Detector Detector CMOS IC 00700

113 SENSORS TEMPERATURE SWITCH IC NEW Temperature switch S series The S series is a temperature switch IC which detects the temperature with a temperature sensitivity of ±. C. This IC restores the output voltage when the temperature drops to the level of release temperature. The S operates at the lower power supply voltage of.v and its current consumption is 0μA Typ. due to CMOS confi guration. A temperature sensor with the negative temperature coeffi cient, a reference voltage generation circuit and a comparator are integrated on one chip, and enclosed into the small packages SNTA and SOT. PIN CONFIGURATIONS SNTA Detection temperature : to 9 C, C steps, detection accuracy : ±. C Low voltage operation : VDD (min.)=. V Low current consumption : 0μA typ. (Ta= C) Hysteresis temperature can be switched in 0 C, C, C and 0 C Selectable output logic in active high or low Selectable output form in CMOS or Nch open drain Packages : SNTA, SOT SOT CONTENTS Detectors Regulators Charge Pumps Switching Regulators (DCDC Converters) Pin No. Symbol Description RT * Reference voltage pin GND pin HYS * Hysteresis pin DET Output pin HYS * Hysteresis pin VDD Power supply pin *. Set the RT pin open in use. *. Fix the HYS pin and the HYS pin as VDD or in use. Pin No. Symbol Description HYS * Hysteresis pin GND pin RT * Reference voltage pin VDD Power supply pin DET Output pin *. The HYS pin is not equipped for the S with SOT. Fix HYS pin as VDD or. *. Set the RT pin open in use. Lithiumion Rechargeable Battery Protection ICs SELECTION GUIDE SNTA Product name Detection temperature (TDET) DET Pin output logic DET Pin output form Hysteresis temperature SA70AITG 70 C Active high CMOS 0 C, C, C, 0 C SA0AITG 0 C Active high CMOS 0 C, C, C, 0 C SA90AITG 90 C Active high CMOS 0 C, C, C, 0 C Remark Please contact our sales offi ce for products other than those specifi ed above. SOT Product name Detection temperature (TDET) DET Pin output logic DET Pin output form Hysteresis temperature SADMTG C Active low Nch open drain C, 0 C SADMTG C Active low Nch open drain C, 0 C SA7DMTG 7 C Active low Nch open drain C, 0 C SADMTG C Active low Nch open drain C, 0 C SA9DMTG 9 C Active low Nch open drain C, 0 C Remark Please contact our sales offi ce for products other than those specifi ed above. BLOCK DIAGRAM. CMOS output product. Nch open drain output product VDD VDD REALTIME SENSORS MEMORY ICs CLOCK ICs E PROM Temperature Sensor, Temperature Switch MINI ANALOG ICs Operational Amplifier, Comparator CMOS IC PACKAGES PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC RT Temperature sensor Reference voltage generation circuit Logic circuit (selectable) DET RT Temperature sensor Reference voltage generation circuit Logic circuit (selectable) DET DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS HYS HYS * HYS HYS * *. The HYS pin is not equipped for the S with SOT. CMOS IC 00700

114 SENSORS TEMPERATURE SWITCH IC The S0AA series is a temperature switch IC which detects the temperature with sensitivity of ±. C. It operates from a power supply voltage of.v, and integrates a temperature sensor with a temperature coefficient of mv/ C, a reference voltage generator, a comparator, a voltage detector, and a noise protection circuit in a single small pin MSOP package. With an operating temperature range of 0 to 00 C, this series is ideal for temperature control applications extensively. The detection temperature is set internally. In the S0AC series, the detection temperature can be set by an external resistor. Temperature switch S0A series Detection temperature: 0 to 9 C, in C steps Detection temperature accuracy: ±. C Temperature voltage output based on Low voltage operation: VDD (min.) =.V Low current consumption: μa typ. ( C) Output logic level is fi xed by the latch after temperature detection. Built in error prevention circuit for temperature detection Small package: pin MSOP PIN CONFIGURATION Common to S0AA/AC series pin MSOP 7 Pin No. Symbol Description VDD Positive power supply pin DET Setting temperature detection output signal (active high) CD Delay time setting capacitor connection pin for voltage detection circuits CD Capacitor connection pin for error prevention time setting Ground pin RESET Reset I/O pin (active low) 7 RT Reference voltage input pin VOUT Reference voltage output pin for builtin comparator SELECTION GUIDE S0AA series Product name Detection temperature DET output Release voltage RESET TDET VRET S0AAAFNMAATG 0 C Active high. V Pull up S0AACFNMAETG C Active high.9 V Pull up Remark For options other than those listed above, please contact our marketing department. S0AC series Product name DET output Release voltage RESET VRET S0ACAFNMACTG Active high. V Pull up Remark For options other than those listed above, please contact our marketing department. BLOCK DIAGRAM S0AA series VDD VOUT RT Vref Temperature sensor Vref Reference voltage generator CD D Q DF/F DET CK R RESET detector with delay circuit CD CMOS IC 00700

115 MINI ANALOG ICs Mini Analog Lineup Mini Analog Package SCA SOT Charge Pumps Switching Regulators (DCDC Converters) CMOS IC PACKAGES REALTIME MINI ANALOG ICs MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CONTENTS Detectors Regulators Lithiumion Rechargeable Battery Protection ICs SENSORS Temperature Sensor, Temperature Switch CMOS operational amplifier 0.μA RailtoRail circuit circuit S90A/9A S90A/90A Page 7 CMOS comparator 0.7μA RailtoRail circuit S90A/9A circuit S90A/90A 9 Operational Amplifiers Product Lineup SII CMOS operation amplifi ers are ICs in which a generalpurpose analog circuit is embedded in a small package. Low voltage driving and low current consumption make them optimum for small mobile devices driven by batteries. Product name Feature Input RailtoRail * Operating Range Current Consumption Input Offset Pakcage Low voltage operation, 0.0mV max. (S90A) SCA S90A/9A 0.9 to.v 0.μA Low current consumption.0mv max. (S9A) SOT 0μA (S90A) S90A/90A Low current consumption. to.v.0mv max. SCA 0μA (S90A) *. RailtoRail is the registered trademark of Motorola, Inc. Comparators Product Lineup SII CMOS comparators are ICs in which a generalpurpose analog circuit is embedded in a small package. Low voltage driving and low current consumption make them optimum for small mobile devices driven by batteries. Product name Feature Input RailtoRail * Operating Range Current Consumption Input Offset Pakcage Low voltage operation, 0.0mV max. (S90A) S90A/9A 0.9 to.v 0.7μA SCA Low current consumption.0mv max. (S9A) 0μA (S90A) S90A/90A Low current consumption. to.v.0mv max. SCA 0μA (S90A) *. RailtoRail is the registered trademark of Motorola, Inc. CMOS IC 00700

116 MINI ANALOG ICs 0.µA RAILTORAIL CMOS OPERATIONAL AMPLIFIER Operational amplifier Circuit S90A/9A The minianalog series is a group of ICs that incorporate a generalpurpose analog circuit in a small package. The S90A/9A are CMOS type operational amplifiers that feature RailtoRail* I/O and an internal phase compensation circuit. These features enable driving at a lower voltage (from 0.9V) and with lower current consumption (0.μA typ.) than existing generalpurpose operational amplifi ers, making the S9xA/B series ideal for use in batterypowered compact portable devices. Can be driven at lower voltage than existing generalpurpose operational amplifi ers: VDD=0.9 to.v Superlow current consumption: IDD=0.μA typ. Railtorail wide I/O voltage range: VCMR= to VDD Low input offset voltage: 0.0mV max. (S90A).0mV max. (S9A) No external devices due to an internal phase compensation Small package SCA, SOT *. RailtoRail is a registered trademark of Motorola, Inc. PIN CONFIGURATIONS VDD SCA OUT APPLICATIONS Cellular phones, digital cameras, PDAs, notebook PCs, digital camcorders IN() IN() (S90ACNCHBUTFG/S9ACNCHBVTFG) SOT VDD OUT IN() IN() (S90ACMCHBUTG/S9ACMCHBVTG) PRODUCT LIST Package SCA Offset voltage ( circuit is mounted) VIO=0mV max. S90ACNCHBUTFG VIO=mV max. S9ACNCHBVTFG SOT ( circuit is mounted) S90ACMCHBUTG S9ACMCHBVTG SPECIFICATIONS *. Value in VIN=VDD/ in voltage follower confi guration *. RL=00kΩ Ta= C (typ.) Product name S90ACNC/S9ACNC Absolute maximum rating 0. to 7.0 Operating temperature range 0 to C Package SCA Operating voltage 0.9 to.v Power supply voltage VDD At 0.9V At.V At.0V Current consumption * 0.9μA max. 0.9μA max. 0.9μA max. Input offset voltage mv max. mv max. mv max. Input offset current pa pa pa Input bias current pa pa pa Commonmode input voltage range 0 to 0.9V 0 to.v 0 to.0v gain (open loop) 7dB 7dB 0dB Maximum output voltage swing * VOH 0.V min..7v min..9v min. VOL 0.0V max. 0.0V max. 0.0V max. Slew rate.0 V/ms.V/ms.0V/ms Gain bandwidth product.0khz.0khz.khz Source current (VOUT=) 0μA min..ma min..ma min. Sink current (VOUT=VDD) μa min..ma min..ma min. CMOS IC 00700

117 MINI ANALOG ICs Operational amplifier CMOS OPERATIONAL AMPLIFIER Circuit S90A/90A The mini analog series is a family of ICs that integrate generalpurpose analog circuits in a small package. The S90A/90A is a CMOS operational amplifiers with a wide operating voltage range and superlow current consumption. The S90A/90A provides the best solution for batterypowered portable equipment. Low operation voltage : VDD=. to.v Low current consumption: I DD=0μA (S90) IDD=0μA (S90) Low input offset voltage:.0mv max. Small package: SCA CONTENTS Detectors PIN CONFIGURATION VDD Charge Pumps Switching Regulators (DCDC Converters) REALTIME MINI ANALOG ICs MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS SCA OUT IN() IN() (S90ANCATFG/S90ANCATFG) PRODUCT LIST Package SCA Current ( circuit is mounted) consumption IDD=0μA typ. S90ANCATFG IDD=0μA typ. S90ANCATFG SPECIFICATIONS APPLICATIONS Ta= C (typ.) Product name S90ANC S90ANC Absolute maximum rating Operating temperature range Package Operating voltage 0. to to C SCA. to.v 0. to to C SCA. to.v Power supply voltage VDD At.V At.0V At.V At.0V Current consumption Input offset voltage Input offset current Input bias current Commonmode input voltage range gain (open loop) Maximum output voltage swing (VOH) Slew rate Gain bandwidth product Source current (VOUT=) Sink current (VOUT=VDD) 0 A typ. mv max. pa pa 0 to.v 0dB.7V min. 0.07V/ s 0kHz 00 A min. ma min. 0 A typ. mv max. pa pa 0 to.v 0dB.9V min. 0.07V/ s 7kHz 0 A min. ma min. 0 A typ. mv max. pa pa 0 to.v 0dB.7V min. 0.0V/ s 0kHz 0 A min. ma min. 0 A typ. mv max. pa pa 0 to.v 0dB.9V min. 0.0V/ s khz A min. ma min. Cellular phones, PDAs, cameras, digital cameras, camcorders, notebook PCs Regulators Lithiumion Rechargeable Battery Protection ICs SENSORS Temperature Sensor, Temperature Switch PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

118 MINI ANALOG ICs 0.7μA RAILTORAIL CMOS COMPARATOR The mini analog series is a family of ICs that integrate generalpurpose analog circuits in a small package. The S90A/9A is a CMOS comparators with RailtoRail* I/O. Since this series features low voltage drive and low current consumption compared with the conventional comparator, it is ideal for small batterypowered portable applications. Comparator Circuit S90A/9A Compared with the conventional generalpurpose comparator, low voltage operation is possible: VDD=0.9 to.v Low current consumption: IDD=0.7μA typ. Wide I/O voltage range: VCMR= to VDD Small input offset voltage:.0mv max. Small package: SCA *. RailtoRail is a registered trademark of Motorola, Inc. PIN CONFIGURATION SCA APPLICATIONS Cellular phones, digital still cameras, PDAs, notebook PCs, digital camcorders VDD OUT IN() IN() (S90ACNCHCBTFG/S9ACNCHCCTFG) PRODUCT LIST Package SCA ( circuit is mounted) Offset voltage VIO=0mV max. S90ACNCHCBTFG VIO=mV max. S9ACNCHCCTFG SPECIFICATIONS Ta= C (typ.) Product name S90ACNC/S9ACNC Absolute maximum rating 0. to 7.0 Operating temperature range 0 to C Package SCA Operating voltage 0.9 to.v Power supply voltage VDD At 0.9V At.V At.0V Current consumption.μa max..μa max..μa max. Input offset voltage mv max. mv max. mv max. Input offset current pa pa pa Input bias current pa pa pa Commonmode input voltage range 0 to 0.9V 0 to.v 0 to.0v gain (open loop) 7dB 0dB db Maximum output voltage swing * VOH 0.V min..7v min..9v min. VOL 0.0V max. 0.0V max. 0.0V max. Source current (VOUT=) μa min..0ma min..0ma min. Sink current (VOUT=VDD) μa min..ma min..ma min. Rise propagation delay time μs 90μs 0μs Fall propagation delay time μs 0μs 0μs Output rise time μs μs 0μs Output fall time 0μs μs 0μs *. RL=00kΩ CMOS IC 00700

119 MINI ANALOG ICs Comparator CMOS COMPARATOR Circuit S90A/90A The mini analog series is a family of ICs that integrate generalpurpose analog circuits in a small package. The S90A/90A is a CMOS type comparators with a wide operating voltage range and superlow current consumption. The S90A/90A provides the best solution for batterypowered portable equipment. Low voltage operation: VDD=. to.v Low current consumption: I DD=0μA (S90ACNC) IDD=0μA (S90ACNC) Low input offset voltage:.0mv max. Small package: SCA CONTENTS Detectors PIN CONFIGURATION Product name Absolute maximum rating Charge Pumps Switching Regulators (DCDC Converters) REALTIME MINI ANALOG ICs MEMORY ICs CLOCK ICs E PROM Operational Amplifier, Comparator CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS Operation temperature range Package Operating voltage Power supply voltage VDD Current consumption Input offset voltage Commonmode input voltage range Maximum output voltage swing (VOH) Source current (VOUT=0V) Sink current (VOUT=0.V) Rise propagation delay time Fall propagation delay time Output rise time Output fall time VDD SCA OUT IN() IN() (S90ACNCC0TFG/S90ACNCCTFG) PRODUCT LIST Package SCA Current ( circuit is mounted) consumption IDD=0μA typ. S90ACNCC0TFG IDD=0μA typ. S90ACNCCTFG SPECIFICATIONS APPLICATIONS Ta= C (typ.) S90ACNC S90ACNC 0. to to C SCA. to.v 0. to to C SCA. to.v At.V At.0V At.V At.0V 0 A typ. mv max. 0 to.v.v min. 00 A min. ma min. 0 s s. s. s 0 A typ. mv max. 0 to.v.7v min. 0 A min. ma min. 0 s s s s 0 A typ. mv max. 0 to.v.v min. 0 A min. ma min. 00 s s s s 0 A typ. mv max. 0 to.v.7v min. A min. ma min. 0 s 0 s 0 s 0 s Cellular phones, PDAs, cameras, digital still cameras, camcorders, notebook PCs Regulators Lithiumion Rechargeable Battery Protection ICs SENSORS Temperature Sensor, Temperature Switch PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC CMOS IC

120 REALTIME CLOCK ICs Realtime Clock Lineup Package Realtime Clock wire (I Cbus) wire (micro wire) Constant khz output Alarm settable to day/month/year bit counter Switch input detection function Constant khz output Alarm settable to day/month/year bit counter Switch input detection function S90A S9A S99A0 S99A0 S790A series S90A S9A S99A0 S790A series SNTA pin SOP pin SOP pin TSSOP pin TSSOP WLPA WLPA * * * * Page Product Lineup Realtime clock ICs send and set data of time and calendar when they receive a code from CPU. These ICs feature low current consumption and low voltage operation. Type Product name Features Operating voltage Current consumption Package Pin TSSOP Superlow 0.μA current. to.v S90A 0.μA (.0V) SNTA consumption (time keeping operation voltage) Pin SOP. to.v S9A Constant khz output 0.μA (.0V) SNTA (time keeping operation voltage) bit counter wire. to.v S99A0 Alarm settable to day/month/year 0.μA (.0V) WLPA (I Cbus) (time keeping operation voltage) Constant khz output bit counter. to.v S99A0 0.μA (.0V) Pin SOP Alarm settable to day/month/year (time keeping operation voltage) Pin SOP *. to.v S790A series Switch Input Detection Function 0.μA (.0V) Pin TSSOP * (time keeping operation voltage) WLPA Pin TSSOP Superlow 0.μA current. to.v S90A 0.μA (.0V) SNTA consumption (time keeping operation voltage) Pin SOP. to.v S9A Constant khz output 0.μA (.0V) SNTA (time keeping operation voltage) wire bit counter (micro wire). to.v S99A0 Alarm settable to day/month/year 0.μA (.0V) WLPA (time keeping operation voltage) Constant khz output Pin SOP *. to.v S790A series Switch Input Detection Function 0.μA (.0V) Pin TSSOP * (time keeping operation voltage) WLPA NEW DEV NEW : New product *. Under development : Under development 0 CMOS IC 00700

REALTIME CLOCK ICs SII CRYSTAL OSCILLATORS (.7kHz) Using SII crystal oscillators achieve high accuracy clocking operation when combined with an SII realtime clock.

capacitance Maximum excitation level Recommended excitation level.0pf μw 0.μW.0pF μw 0.μW Dimensions (mm) (max.) Diameter Width Depth Height.0.0.7.7. CONTENTS Detectors SSPT7F SMD ± 0ppm, ± 0ppm 7.

[Example of a matching report] Charge Pumps Switching Regulators (DCDC Converters) REALTIME CLOCK ICs CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS μw 0.

121 REALTIME CLOCK ICs SII CRYSTAL OSCILLATORS (.7kHz) Using SII crystal oscillators achieve high accuracy clocking operation when combined with an SII realtime clock. CRYSTAL OSCILLATOR PRODUCTS Product name Appearance Frequency deviation ± ppm, VT00F Cylinder ± 0ppm, ± 0ppm ± 0ppm, SPTAF SMD ± 0ppm, ± 00ppm Recommended specifi cation (for realtime clock) Load capacitance Maximum excitation level Recommended excitation level.0pf μw 0.μW.0pF μw 0.μW Dimensions (mm) (max.) Diameter Width Depth Height CONTENTS Detectors SSPT7F SMD ± 0ppm, ± 0ppm 7.0pF Access the following web page for details of SII crystal oscillators. MATCHING REPORT The SII web pages provide detailed matching reports including the evaluation results of matching between SII realtime clocks and SII crystal oscillators. [Example of a matching report] Charge Pumps Switching Regulators (DCDC Converters) REALTIME CLOCK ICs CMOS IC PACKAGES DESIGNATED CLIENT PRODUCTS, PHASEOUT AND OBSOLETE PRODUCTS μw 0.μW PROGRAMMABLE PORT CONTROLLERS, MINI LOGIC SENSORS Temperature Sensor, Temperature Switch Regulators MEMORY ICs E PROM Lithiumion Rechargeable Battery Protection ICs MINI ANALOG ICs Operational Amplifier, Comparator Optimal circuit constant and measurement results Evaluation data (waveform data and others) Component arrangement reference example Refer to the following URL for the matching report. CMOS IC 00700

CMOS IC. Product Catalogue

CMOS IC. Product Catalogue CMOS IC Product Catalogue 0-0 History of SII Semiconductor Corporation Starting t with a CMOS IC for quartz watches in the 90s, we have been manufacturing and supplying power supply ICs, microcomputer