安纳森 Analog Semiconductor IC High speed, Low dropout, ±% High output accuracy CMOS Voltage Regulator with Dual output (IMPORTANT: Please check the last page for Genuine Product Labeling) Rev. E- Website: Tel: +8-9-8 Email:
Rev. E- Products Data Sheet Analog Semiconductor IC High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator GENERAL DESCRIPTIONS The VRD series are dual positive voltage regulators with high speed, low voltage dropout and high accuracy output achieved by low current consumption. Because each regulator is completely separated, the crosstalk between each regulator can be reduced. The output voltage is guaranteed within ±% within the given temperature range by Vref controlling the temperature characteristic. It corresponds to the low ESR capacitor as an output stabilization capacitor. The charged ESR capacitor can be discharged with an internal switch by making the CE=VSS, as a result the VOUT quickly returns to the VSS level. To make the current capacity of the output transistor not exceeded, the over-current protection circuit is built in. HALOGEN RoHS COMPLIANCE FEATURES Output voltage range.8v~.v (selectable with a step of.v) Operating voltage range.v~.v High accuracy output voltage ±% (Vout=.9V~.V) / ±mv (Vout=.8V~.9V) Maximum output current ma / Channel Dropout voltage Typ.9mV (output=.v, IOUT=mA) Low current consumption Typ. µa / Channel High ripple rejection Typ. db at KHz Low ESR capacitor. µf ceramic capacitor Operating temperature range C ~ +8 C Built-in over-current protector Limit current : ma CL high-speed auto-discharge Built-in On/Off circuit Small package SOT- (.9.8.mm), LLP- (.8..mm) APPLICATIONS Battery powered devices Cellular phone Digital / Video cameras Portable games Handheld instruments
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator PRODUCTS NUMBERING GUIDE VRD Discharge function Package form Function specification Output voltage Ch- Output voltage Ch- X : Auto discharge T : SOT- L : LLP- L / M / N / P * Refer to the following selection table. 8 ~ : Selectable with a step of.v in the range of.8v ~.V e.g.) J :.8V, :.V * Refer to the following selection table. Function specification selection table Symbol VR VR Function Specification L ±mv ±mv VOUT=.8V~.9V / VOUT=.8V~.9V M ±mv ±% VOUT=.8V~.9V / VOUT=.9V~.V N ±% ±mv VOUT=.9V~.V / VOUT=.8V~.9V P ±% ±% VOUT=.9V~.V / VOUT=.9V~.V Output voltage selection table Symbol Voltage Symbol Voltage Symbol Voltage Symbol Voltage Symbol Voltage A. A. A. A..... B. B. B. B..... C. C. C. C..... D. D. D. D..... E. E. E. E..... F. F. F. F..... G. G. G. G..... H. H. H. H. 8.8 8.8 8.8 8.8 8.8 J.8 J.8 J.8 J.8 J.8 9.9 9.9 9.9 9.9 9.9 K.9 K.9 K.9 K.9 K.9.....
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator PIN CONFIGURATION / MARKING SPECIFICATION (SOT-) - Vout Vss Vout A B C D E F G G G G EN Vin EN (Top view) Pin Configuration No. Symbol Descriptions EN -Channel enable VIN Voltage input EN -Channel enable VOUT -Channel output VSS Power ground VOUT -Channel output Marking Specification Code Mark Contents A D Products series name BC 8~ -Ch output voltage DE 8~ -Ch output voltage F X Discharge function G Internal rule Lot number PIN CONFIGURATION / MARKING SPECIFICATION (SOT-) - Vout Vss Vout A B C D E F F F F EN Vin EN (Top view) Pin Configuration No. Symbol Descriptions EN -Channel enable VIN Voltage input EN -Channel enable VOUT -Channel output VSS Power ground VOUT -Channel output Marking Specification Code Mark Contents A D Products series name BC 8~ -Ch output voltage DE 8~ -Ch output voltage F Internal rule Lot number
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator PIN CONFIGURATION / MARKING SPECIFICATION (LLP-) Vout Vout Vss A B C D E F G G G G EN Vin EN (Top view) Pin Configuration No. Symbol Descriptions EN -Channel enable VIN Voltage input EN -Channel enable VSS Power ground VOUT -Channel output VOUT -Channel output Marking Specification Code Mark Contents A D Products series name BC 8~ -Ch output voltage DE 8~ -Ch output voltage F X Discharge function G Internal rule Lot number
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator BLOCK DIAGRAM VIN VOUT VOUT Over-current Protector Over-current Protector Voltage Reference + _ Voltage Reference + _ Vss EN EN ABSOLUTE MAXIMUM RATINGS Note : Items Symbol Ratings Unit Input voltage range VIN. ~ +. V Output current IOUT ma Output voltage range VOUT VSS. ~ VIN +. V SOT- PD mw Power dissipation ) LLP- PD mw Operating temperature range TOPR ~ +8 C Storage temperature range TSTG ~ + C ) Power dissipation depends on conditions of mounting on boards. PCB dimension is mm mm.mm. TYPICAL APPLICATION CIRCUITS EN VOUT CL = µf EN VSS VOUT VIN CL = µf CIN = µf
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator ELECTRICAL CHARACTERISTICS (Ta= C unless otherwise specified) Items Symbol Conditions Min. Typ. Max. Unit Test circuit Output voltage VOUT VOUT+.V VIN.V IOUT=mA Ta= C ~ +8 C VOUT.9V VOUT.99 VOUT VOUT. VOUT.9V - + mv V.9V VOUT.V - - ma.v VOUT.V - - ma.v VOUT.V - - ma Output current IOUT VIN VOUT+.V.V VOUT.8V - - ma.9v VOUT.V - - ma.v VOUT.V - - ma.v VOUT.V - - ma.9v VOUT.V - 8 9 mv.v VOUT.V - mv.v VOUT.V - mv Dropout voltage VDROP IOUT=mA.V VOUT.8V - mv.9v VOUT.V - 9 mv.v VOUT.V - 8 mv.v VOUT.V - 8 mv
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator ELECTRICAL CHARACTERISTICS (CONTINUED) (Ta= C unless otherwise specified) Items Symbol Conditions Min. Typ. Max. Unit Test circuit Current consumption IDD VIN=VOUT+.V, VOUT=Open, IOUT=mA - 8 µa Standby current ISTB EN=VSS -.. µa Input voltage VIN. -. V Load regulation VOUT VIN=VOUT+.V, IOUT=.mA ~ma - mv Line regulation VOUT / VIN VOUT VOUT+.V VIN.V, IOUT=mA -.. %/V Ripple rejection Rr VIN=VOUT+.V, f=khz, VRIP=.VP-P, IOUT=mA - - db Limit current ILIMIT EN=VIN - - ma Short circuit current ISHORT VIN=VOUT+.V, VOUT=V - - ma Output voltage temperature coefficient VOUT / Ta VOUT VEN=VIN, IOUT=mA Ta= C ~ +8 C ± ppm / C EN high level voltage VENH. -. V EN low level voltage VENL - -. V EN high level current IENH VEN= VIN. -. µa EN low level current IENL VEN= VSS. -. µa CL auto-discharge resistance RDIS VIN=.V, VOUT=.V, VEN= VSS - - Ω
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TEST CIRCUITS Circuit () - Output voltage, Output current, Dropout voltage, Input voltage, Load regulation, Line regulation, Limit current, Short circuit current, Output voltage temperature coefficient, CL auto-discharge resistance, EN high level voltage, EN low level voltage, EN high level current, EN low level current VIN VOUT A CL V IOUT V A EN VIN CIN VOUT A IOUT A EN VSS CL V A Circuit () - Current consumption, Standby current VIN VOUT CL VIN V CIN EN VOUT EN VSS CL Circuit () - Ripple rejection VIN VOUT A CL V IOUT V EN VOUT A IOUT EN VSS CL V 8
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator DESCRIPTION OF OPERATION General operation In reference to following a part of the block diagram of output voltage control of the VRD series ; *) VIN VOUT Over-current Protector R R DIS V FEEDBACK Voltage Reference V REF + _ Error Amp. R VSS EN By the error amplifier, the reference voltage (V REF ) is compared with V FEEDBACK which is divided by feedback resistors R and R. It supplies the output transistor (see note *) to keep a stabilized output voltage against with any fluctuation of input voltage by negative feedback system. Note *) The VRD series has P-channel MOSFET which is connected to the VOUT terminal as the output transistor. To prevent the VRD series from being damaged due to inverse current from VOUT terminal to VIN terminal through a parasitic diode, VOUT should not be exceeded VIN+.V. EN terminal (shutdown function) & CL auto-discharge The VRD series can be shutdown through EN terminal. The P-channel MOSFET is turned off and operation of all internal circuits stops to reduce the current consumption when the signal of EN terminal is set to the shutdown level. In shutdown mode, the VRD series enables the electric charge at the CL to be discharged via the auto-discharge resistance (R DIS ; Ω), and the VOUT terminal can be rapidly returned to the VSS level as a result. Output capacitor (CL) For phase compensation, an output capacitor (CL) is required to connected between VOUT terminal and VSS terminal as close as possible. A ceramic capacitor with capacitance value of at least.µf is recommended. Of course, the suitable capacitance value should be different by the condition of each application. In addition, an input capacitor (CIN) with capacitance value of at least.µf is also recommended between VIN terminal and VSS terminal for stable input power. Over current protection and short circuit protection Built-in over current protection circuit performs circuit protection from over current as a current limiter. When the load current reaches the limit level, the output voltage drops and output current also decreases accordingly. A current of typ. ma will flow when output terminal is shorted. 9
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS vs. Output Current VRD (VOUT=.V) VRD (VOUT=.V).....8... EN=VIN, Ta= C, CIN=CL=.µF Out Current : IOUT (ma) VIN=EN=VOUT+.V, CIN=CL=.µF. VIN=.V Ta=+ C VIN=.V. Ta= C VIN=.V Ta=+8 C.....8. Out Current : IOUT (ma) VRD (VOUT=.8V) VRD (VOUT=.8V). EN=VIN, Ta= C, CIN=CL=.µF. VIN=EN=VOUT+.V, CIN=CL=.µF.8.. VIN=.8V VIN=.9V VIN=.V VIN=.V. Ta=+ C Ta= C Ta=+8 C Out Current : IOUT (ma).8. Out Current : IOUT (ma)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS vs. Output Current (continued) VRD (VOUT=.8V) VRD (VOUT=.8V). EN=VIN, Ta= C, CIN=CL=.µF. VIN=EN=VOUT+.V, CIN=CL=.µF..... VIN=.8V Ta=+ C VIN=.9V. Ta= C VIN=.V Ta=+8 C Out Current : IOUT (ma).... Out Current : IOUT (ma) VRD (VOUT=.V) VRD (VOUT=.V). EN=VIN, Ta= C, CIN=CL=.µF. VIN=EN=VOUT+.V, CIN=CL=.µF...... Out Current : IOUT (ma) VIN=.V VIN=.V VIN=.V...... Out Current : IOUT (ma) Ta=+ C Ta= C Ta=+8 C
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS vs. VRD (VOUT=.V) VRD (VOUT=.). EN=VIN, Ta= C, CIN=CL=.µF. EN=VIN, Ta= C, CIN=CL=.µF.8..... ma. ma ma ma ma ma................8.....8..8.. VRD (VOUT=.8V) VRD (VOUT=.8V). EN=VIN, Ta= C, CIN=CL=.µF. EN=VIN, Ta= C, CIN=CL=.µF.9.8.... ma ma ma.9.8............ ma ma ma
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS vs. (continued) VRD (VOUT=.8V) VRD (VOUT=.8V). EN=VIN, Ta= C, CIN=CL=.µF. EN=VIN, Ta= C, CIN=CL=.µF.9... ma ma ma.9.......... ma ma ma VRD (VOUT=.V) VRD (VOUT=.V). EN=VIN, Ta= C, CIN=CL=.µF. EN=VIN, Ta= C, CIN=CL=.µF.......9......... ma ma ma..... ma. ma ma.9......
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Dropout Voltage vs. Output Current VRD (VOUT=.V) VRD (VOUT=.8V). EN=VIN, CIN=CL=.µF. EN=VIN, CIN=CL=.µF Dropout Voltage : VDROP (V)....... Output Current : IOUT (ma) Ta=+ C Ta= C Ta=+8 C Dropout Voltage : VDROP (V)....... Output Current : IOUT (ma) Ta=+ C Ta= C Ta=+8 C VRD (VOUT=.8V) VRD (VOUT=.V) Dropout Voltage : VDROP (V)........ EN=VIN, CIN=CL=.µF Ta=+ C Ta= C Ta=+8 C Dropout Voltage : VDROP (V)........ EN=VIN, CIN=CL=.µF Ta=+ C Ta= C Ta=+8 C Output Current : IOUT (ma) Output Current : IOUT (ma)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS vs. Ambient Temperature VRD (VOUT=.V) VRD (VOUT=.8V). VIN=EN=VOUT+.V, IOUT=mA, CIN=CL=.µF.9 VIN=EN=VOUT+.V, IOUT=mA, CIN=CL=.µF....8.8.. - - Ambient Temperature : Ta ( C). - - Ambient Temperature : Ta ( C) VRD (VOUT=.8V) VRD (VOUT=.V).9 VIN=EN=VOUT+.V, IOUT=mA, CIN=CL=.µF. VIN=EN=VOUT+.V, IOUT=mA, CIN=CL=.µF.8.8..... -. - - - Ambient Temperature : Ta ( C) Ambient Temperature : Ta ( C)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Supply Current vs. Ambient Temperature (Total value of VR & VR) VIN=EN=VOUT+.V Supply Current : IDD (µa) - - - 8 Ambient Temperature : Ta ( C) VR=.V / VR=.V VR=.V / VR=.V VR=.8V / VR=.V VR=.V / VR=.8V TYPICAL CHARACTERISTICS Cross Talk. VOUT=.V, VOUT=.V Ch Ch VIN=.V, IOUT=. ma, IOUT=mA Tr/Tf=µs, Ta= C, CIN=CL=. µf... (VR) : VOUT (V)..... (VR) (VR)..... (VR) : VOUT (V)... Time (ms/div).
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Supply Current vs. VRD (VOUT=.V) VRD (VOUT=.8V) Supply Current : IDD (µa) EN=VIN, EN=GND, CIN=CL=.µF Ta=+ C Ta= C Ta=+8 C Supply Current : IDD (µa) EN=VIN, EN=GND, CIN=CL=.µF Ta=+ C Ta= C Ta=+8 C VRD (VOUT=.8V) VRD (VOUT=.V) Supply Current : IDD (µa) EN=VIN, EN=GND, CIN=CL=.µF Ta=+ C Ta= C Ta=+8 C Supply Current : IDD (µa) EN=VIN, EN=GND, CIN=CL=.µF Ta=+ C Ta= C Ta=+8 C
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Load Transient Response VRD (VOUT=.V) VRD (VOUT=.8V). VIN=EN=VOUT+.V Tr=Tf=µs, Ta= C, CIN=CL=.µF.9 VIN=EN=VOUT+.V Tr=Tf=µs, Ta= C, CIN=CL=.µF....... Output Current Output Current : IOUT (ma).8.8..... Output Current Output Current : IOUT (ma). Time (µs/div). Time (µs/div) VRD (VOUT=.8V) VRD (VOUT=.V).9 VIN=EN=VOUT+.V Tr=Tf=µs, Ta= C, CIN=CL=.µF. VIN=EN=VOUT+.V Tr=Tf=µs, Ta= C, CIN=CL=.µF.8.8..... Output Current Output Current : IOUT (ma)....... Output Current Output Current : IOUT (ma). Time (µs/div). Time (µs/div) 8
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Input Transient Response (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF.......9.9.8.8. - Time (µs/div). - Time (µs/div). VRD (VOUT=.8V) VRD (VOUT=.V) VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF..9.9.8.8. VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF...... Time (µs/div). Time (µs/div). 9
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Input Transient Response (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF.......9.9.8.8. - Time (µs/div). - Time (µs/div). VRD (VOUT=.8V) VRD (VOUT=.V) VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF..9.9.8.8...... Time (µs/div). Time (µs/div).
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Input Transient Response (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF.......9.9.8.8. - Time (µs/div). - Time (µs/div). VRD (VOUT=.8V) VRD (VOUT=.V) VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=Tf=µs, Ta= C, CIN=CL=.µF..9.9.8.8...... Time (µs/div). Time (µs/div).
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Input Rise Time (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF - -...... - - - Time (µs/div) - Time (µs/div) VRD (VOUT=.8V) VRD (VOUT=.V) - - - VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF 8 - - - VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF 9 8 Time (µs/div) Time (µs/div)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Input Rise Time (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF - -...... - - - Time (µs/div) - Time (µs/div) VRD (VOUT=.8V) VRD (VOUT=.V) - - VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF 8 - - VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF 9 8 - Time (µs/div) - Time (µs/div)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Input Rise Time (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF. VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF - -...... - - - Time (µs/div) - Time (µs/div) VRD (VOUT=.8V) VRD (VOUT=.V) - - - VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF 8 - - - VIN=EN, Tr=µs, Ta= C, CIN=CL=.µF 9 8 Time (µs/div) Time (µs/div)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS EN Rise Time (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF. VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 8 - - - - EN........ - - EN - Time (µs/div) - Time (µs/div) VRD (VOUT=.8V) VRD (VOUT=.V) VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 8 VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 9 - - - EN - - - EN 8 Time (µs/div) Time (µs/div)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS EN Rise Time (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF. VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 8 - - - - EN........ - - EN - Time (µs/div) - Time (µs/div) VRD (VOUT=.8V) VRD (VOUT=.V) VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 8 VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 9 - - - EN - - - EN 8 Time (µs/div) Time (µs/div)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS EN Rise Time (Iout=mA) VRD (VOUT=.V) VRD (VOUT=.8V) VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF. VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 8 - - - - EN........ - - EN - Time (µs/div) - Time (µs/div) VRD (VOUT=.8V) VRD (VOUT=.V) VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 8 VIN=VOUT+.V Tr=µs, Ta= C, CIN=CL=.µF 9 - - - EN - - - EN 8 Time (µs/div) Time (µs/div)
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TYPICAL CHARACTERISTICS Ripple Rejection Rate VRD (VOUT=.V) VIN=EN=(VOUT+.)Vdc+.Vp-pac IOUT=mA, Ta= C, CIN=CL=.µF VRD (VOUT=.8V) VIN=EN=(VOUT+.)Vdc +.Vp-pac IOUT=mA, Ta= C, CIN=CL=.µF Ripple Rejection Rate : RR (db) 9 8 Ripple Rejection Rate : RR (db) 9 8.... Ripple Frequency : f (KHz) Ripple Frequency : f (KHz) VRD (VOUT=.8V) VIN=EN=(VOUT+.)Vdc +.Vp-pac IOUT=mA, Ta= C, CIN=CL=.µF VRD (VOUT=.V) VIN=EN=(VOUT+.)Vdc +.Vp-pac IOUT=mA, Ta= C, CIN=CL=.µF Ripple Rejection Rate : RR (db) 9 8 Ripple Rejection Rate : RR (db) 9 8.... Ripple Frequency : f (KHz) Ripple Frequency : f (KHz) 8
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator PACKAGE DIMENSIONS (SOT-).9±..~. (Unit : mm).8±. a a a (Marked Side) a a a.9.9. +...±.. +.. ~.. +.. Min. ~..9±. a =. +.. Flat length =. min. Recommended land pattern......9±..~.. +.. ~..9.9.9 9
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TAPING AND LOADING SPECIFICATIONS (SOT-) (Unit : mm).±..±. Mark ø. +. Mark.±..±. REEL DIMENSIONS (SOT-) (Unit : mm) 9.±. ø±. ø±.±..±..±. Taping direction ø8± 8.±..±.. Max..8±. (, pcs / reel) 9.±.
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator PACKAGE DIMENSIONS (LLP-) (Unit : mm).8±..±..±..±..±. (Marked Side) (.) (.)..±..±. (.).±. *.±. (.) (.) (.) Max.. (Typ..).±. Recommended land pattern.8...........
Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator TAPING AND LOADING SPECIFICATIONS (LLP-) (Unit : mm).±..±. Mark ø. +. Mark.±..±. REEL DIMENSIONS (LLP-) (Unit : mm) 9.±. ø±. ø±.±..±. ø.±..±..±. ø8± 8.±..±. Taping direction (, pcs / reel) 9.±.
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Rev. E- High speed, Low dropout, ±% High output accuracy Dual CMOS Voltage Regulator GENUINE PRODUCT LEGITIMATE LABEL DEFINITION Green colored Circle RoHS Label Other specific customized Labels Ordinary Product Information Bar Our internal Outgoing Check Code Code Our Internal QR Check Code Logo and Brand Name (Black color Logo) Our Internal Product Check Code Genuine labels MUST include our correct contact information as shown