LTC3260 Low Noise Dual Supply Inverting Charge Pump APPLICATIONS TYPICAL APPLICATION
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1 LTC Low Noise Dual Supply Inverting Charge Pump FEATURES n V IN Range:.V to V n Inverting Charge Pump Generates V IN n Charge Pump Output Current Up to ma n Low Noise Negative LDO Post Regulator (I LDO = ma Max) n Low Noise Independent Positive LDO Regulator (I LDO = ma Max) n µa Quiescent Current in Burst Mode Operation with Both LDO Regulators On n khz to khz Programmable Oscillator Frequency n Stable with Ceramic Capacitors n Short-Circuit/Thermal Protection n Low Profile mm mm -Pin DFN and Thermally Enhanced -Pin MSOP Packages APPLICATIONS n Low Noise Bipolar/Inverting Supplies n Industrial/Instrumentation Low Noise Bias Generators n Portable Medical Equipment n Portable Instruments DESCRIPTION The LTC is a low noise dual polarity output power supply that includes an inverting charge pump with both positive and negative LDO regulators. The charge pump operates over a wide.v to V input range and can deliver up to ma of output current. Each LDO regulator can provide up to ma of output current. The negative LDO post regulator is powered from the charge pump output. The LDO output voltages can be adjusted using external resistor dividers. The charge pump employs either low quiescent current Burst Mode operation or low noise constant frequency mode. In Burst Mode operation the charge pump regulates to.9 V IN, and the LTC draws only µa of quiescent current with both LDO regulators on. In constant frequency mode the charge pump produces an output equal to V IN and operates at a fixed khz or to a programmed value between khz to khz using an external resistor. The LTC is available in low profile (.mm) mm x mm -pin DFN and thermally enhanced -pin MSOP packages. L, LT, LTC, LTM, Burst Mode, Linear Technology and the Linear logo are registered trademarks and ThinSOT is a trademark of Linear Technology Corporation. All other trademarks are the property of their respective owners. TYPICAL APPLICATION ±V Outputs from a Single V Input LDO Rejection of Ripple V V µf µf µf V IN LDO LTC EN ADJ EN BYP MODE C BYP C ADJ LDO RT k µf nf nf µf TAa V 99k k k 99k V mv/div mv/div mv/div V IN = V = V = V f OSC = khz I LDO = ma I LDO ma µs/div TAb f
2 LTC ABSOLUTE MAXIMUM RATINGS V IN, EN, EN, MODE....V to V LDO...V to V, LDO... V to.v RT, ADJ....V to V BYP....V to.v ADJ... V to.v BYP....V to.v (Notes, ), LDO, LDO Short-Circuit Duration... Indefinite Operating Junction Temperature Range (Note )... C to C Storage Temperature Range... C to C Lead Temperature (Soldering, sec) MSE Only... C PIN CONFIGURATION TOP VIEW EN RT BYP ADJ LDO C BYP ADJ MODE EN LDO 9 V IN C DE PACKAGE -LEAD (mm mm) PLASTIC DFN T JMAX = C, θ JA = C/W EXPOSED PAD (PIN ) IS, MUST BE SOLDERED TO PCB EN RT BYP ADJ LDO C NC TOP VIEW BYP ADJ MODE EN LDO V IN C 9 NC MSE PACKAGE -LEAD PLASTIC MSOP T JMAX = C, θ JA = C/W EXPOSED PAD (PIN ) IS, MUST BE SOLDERED TO PCB ORDER INFORMATION LEAD FREE FINISH TAPE AND REEL PART MARKING* PACKAGE DESCRIPTION TEMPERATURE RANGE LTCEDE#PBF LTCEDE#TRPBF -Lead (mm mm) Plastic DFN C to C LTCIDE#PBF LTCIDE#TRPBF -Lead (mm mm) Plastic DFN C to C LTCEMSE#PBF LTCEMSE#TRPBF -Lead Plastic MSOP C to C LTCIMSE#PBF LTCIMSE#TRPBF -Lead Plastic MSOP C to C Consult LTC Marketing for parts specified with wider operating temperature ranges. *The temperature grade is identified by a label on the shipping container.consult LTC Marketing for information on non-standard lead based finish parts. For more information on lead free part marking, go to: For more information on tape and reel specifications, go to: f
3 LTC ELECTRICAL CHARACTERISTICS The l denotes the specifications which apply over the full operating temperature range, otherwise specifications are at T A = C (Note ). V IN = EN = EN = V, MODE = V, RT = kω. SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS Charge Pump V IN Input Voltage Range l. V V UVLO V IN Undervoltage Lockout Threshold V IN Rising V IN Falling I VIN V IN Quiescent Current Shutdown, EN = EN = V EN = V, I LDO = ma MODE = V IN, EN = V, I VOUT = I LDO = ma MODE = V IN, I VOUT = I LDO = I LDO = ma MODE = V, I VOUT = ma l l.... V V V RT RT Regulation Voltage. V Regulation Voltage MODE = V MODE = V. µa µa µa µa ma.9 V IN V V IN V f OSC Oscillator Frequency RT = khz R OUT Charge Pump Output Impedance MODE = V, RT = Ω I SHORT_CKT Max I VOUT Short-Circuit Current = l ma V MODE(H) MODE Threshold Rising l.. V V MODE(L) MODE Threshold Falling l.. V I MODE MODE Pin Internal Pull-Down Current V IN = MODE = V. µa ma Positive Regulator LDO Output Voltage Range l. V V ADJ ADJ Reference Voltage l... V I ADJ ADJ Input Current V ADJ =.V na I LDO (SC) LDO Short-Circuit Current l ma Line Regulation. mv/v Load Regulation. mv/ma V DROPOUT LDO Dropout Voltage I LDO = ma mv Output Voltage Noise C BYP = nf µv RMS V EN (H) EN Threshold Rising l.. V V EN (L) EN Threshold Falling l.. V I EN EN Pin Internal Pull-Down Current V IN = EN = V. µa ma Negative Regulator LDO Output Voltage Range l. V V ADJ ADJ Reference Voltage l... V I ADJ ADJ Input Current V ADJ =.V na I LDO (SC) LDO Short-Circuit Current l ma Line Regulation. mv/v Load Regulation. mv/ma V DROPOUT LDO Dropout Voltage I LDO = ma mv Output Voltage Noise C BYP = nf µv RMS V EN(H) EN Threshold Rising l.. V V EN(L) EN Threshold Falling l.. V I EN EN Pin Internal Pull-Down Current V IN = EN = V. µa f
4 LTC ELECTRICAL CHARACTERISTICS Note : Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime. Note : The LTC is tested under pulsed load conditions such that T J T A. The LTCE is guaranteed to meet specifications from C to C junction temperature. Specifications over the C to C operating junction temperature range are assured by design, characterization and correlation with statistical process controls. The LTCI is guaranteed over the C to C operating junction temperature range. Note that the maximum ambient temperature consistent with these specifications is determined by specific operating conditions in conjunction with board layout, the rated package thermal impedance and other environmental factors. The junction temperature (T J, in C) is calculated from the ambient temperature (T A, in C) and power dissipation (P D, in Watts) according to the formula: T J = T A (P D θ JA ), where θ JA = C/W is the package thermal impedance. Note : This IC includes overtemperature protection that is intended to protect the device during momentary overload conditions. Junction temperatures will exceed C when overtemperature protection is active. Continuous operation above the specified maximum operating junction temperature may result in device degradation or failure. TYPICAL PERFORMANCE CHARACTERISTICS (T A = C, C FLY = µf, C IN = C OUT = C LDO = C LDO = µf unless otherwise noted) Oscillator Frequency vs Supply Voltage Oscillator Frequency vs R T Shutdown Current vs Temperature OSCILLATOR FREQUENCY (khz) R T = R T = kω SUPPLY VOLTAGE (V) OSCILLATOR FREQUENCY (khz) R T (kω) SHUTDOWN CURRENT (µa) V IN = V V IN = V V IN = V G G G QUIESCENT CURRENT (µa) Quiescent Current vs Temperature V IN = V Burst Mode OPERATION WITH BOTH LDOs ON Burst Mode OPERATION WITH NEGATIVE LDO ON POSITIVE LDO ON QUIESCENT CURRENT (ma) Quiescent Current vs Supply Voltage (Constant Frequency Mode) f OSC = khz f OSC = khz f OSC = khz QUIESCENT CURRENT (ma) 9 Quiescent Current vs Temperature (Constant Frequency Mode) f OSC = khz f OSC = khz f OSC = khz V IN = V SUPPLY VOLTAGE (V) G G G f
5 TYPICAL PERFORMANCE CHARACTERISTICS (T A = C, C FLY = µf, C IN = C OUT = C LDO = C LDO = µf unless otherwise noted) LTC EFFECTIVE OPEN-LOOP RESISTANCE (Ω) Effective Open-Loop Resistance vs Temperature f OSC = khz V IN = V V IN = V V IN = V SHORT-CIRCUIT CURRENT (ma) Short-Circuit Current vs Supply Voltage R T = R T = kω SUPPLY VOLTAGE (V) VOLTAGE LOSS (V) Voltage Loss (V IN ) vs Output Current (Constant Frequency Mode). V IN = V f OSC = khz f OSC = khz f OSC = khz OUTPUT CURRENT (ma) EFFECTIVE OPEN-LOOP RESISTANCE (Ω) 9 Effective Open-Loop Resistance vs Supply Voltage f OSC = khz f OSC = khz G ADJ PIN VOLTAGE (V).... G ADJ Pin Voltage vs Temperature LDO DROPOUT VOLTAGE (mv) LDO Dropout Voltage vs Temperature V IN = V I LDO = ma G9 SUPPLY VOLTAGE (V). G G G LDO SUPPLY REJECTION (db) LDO Supply Rejection V IN =.V = V I LDO = ma V RIPPLE = mv RMS C LDO = µf. FREQUENCY (khz) PIN CURRENT (ma) LDO Pin Current vs I LOAD. V IN = V I LOAD (ma) (V) LDO Load Regulation V IN = V UNITY GAIN I LDO (ma) G G G f
6 LTC TYPICAL PERFORMANCE CHARACTERISTICS (T A = C, C FLY = µf, C IN = C OUT = C LDO = C LDO = µf unless otherwise noted). ADJ Pin Voltage vs Temperature LDO Dropout Voltage vs Temperature VOUT = V LDO Power Supply Rejection ADJ PIN VOLTAGE (V).... LDO DROPOUT VOLTAGE (mv) I LDO = ma LDO SUPPLY REJECTION (db) =.V = V I LDO = ma V RIPPLE = mv RMS C LDO = µf. FREQUENCY (khz) G G G (V) LDO Load Regulation = V UNITY GAIN mv/div mv/div mv/div LDO Rejection of Ripple mv/div I ma LDO ma LDO Load Transient... I LDO (ma) V IN = V = V = V f OSC = khz I LDO = ma I LDO ma µs/div G V IN = V = V µs/div G G9 LDO Load Transient Transient (Burst Mode Operation, MODE = H) Transient (MODE = Low to High) mv/div mv/div mv/div I ma LDO ma ma I OUT ma MODE V IN = V µs/div = V REFER TO FIGURE G V IN = V f OSC = khz ms/div G V IN = V f OSC = khz I OUT = ma ms/div G f
7 LTC PIN FUNCTIONS (DFN/MSOP) EN (Pin / Pin ): Logic Input. A logic high on the EN pin enables the positive low dropout (LDO ) regulator. RT (Pin /Pin ): Input Connection for Programming the Switching Frequency. The RT pin servos to a fixed.v when the EN pin is driven to a logic high. A resistor from RT to sets the charge pump switching frequency. If the RT pin is tied to, the switching frequency defaults to a fixed khz. BYP (Pin / Pin ): LDO Reference Bypass Pin. Connect a capacitor from BYP to to reduce LDO output noise. Leave floating if unused. ADJ (Pin / Pin ): Feedback Input for the Negative Low Dropout Regulator. This pin servos to a fixed voltage of.v when the control loop is complete. LDO (Pin / Pin ): Negative Low Dropout (LDO ) Linear Regulator Output. This pin requires a low ESR (equivalent series resistance) capacitor with at least µf capacitance to ground for stability. (Pin / Pin ): Charge Pump Output Voltage. In constant frequency mode (MODE = low) this pin is driven to V IN. In Burst Mode operation, (MODE = high) this pin voltage is regulated to.9 V IN using an internal burst comparator with hysteretic control. C (Pin / Pin ): Flying Capacitor Negative Connection. C (Pin / Pin ): Flying Capacitor Positive Connection. NC (Pins, 9 MSOP Only): No Connect. These pins are not connected to the LTC die. These pins should be left floating, connected to ground or shorted to adjacent pins. V IN (Pin 9/ Pin ): Input Voltage for Both Charge Pump and Positive Low Dropout (LDO ) Regulator. V IN should be bypassed with a low impedance ceramic capacitor. LDO (Pin / Pin ): Positive Low Dropout (LDO ) Output. This pin requires a low ESR capacitor with at least µf capacitance to ground for stability. EN (Pin / Pin ): Logic Input. A logic high on the EN pin enables the inverting charge pump as well as the negative LDO regulator. MODE (Pin / Pin ): Logic Input. The MODE pin determines the charge pump operating mode. A logic high on the MODE pin forces the charge pump to operate in Burst Mode operation regulating to approximately.9 V IN with hysteretic control. A logic low on the MODE pin forces the charge pump to operate as an openloop inverter with a constant switching frequency. The switching frequency in both modes is determined by an external resistor from the RT pin to. In Burst Mode operation, this represents the frequency of the burst cycles before the part enters the low quiescent current sleep state. ADJ (Pin / Pin ): Feedback Input for the Positive Low Dropout (LDO ) Regulator. This pin servos to a fixed voltage of.v when the control loop is complete. BYP (Pin /Pin ): LDO Reference Bypass Pin. Connect a capacitor from BYP to to reduce LDO output noise. Leave floating if unused. (Exposed Pad Pin / Exposed Pad Pin ): Ground. The exposed package pad is ground and must be soldered to the PC board ground plane for proper functionality and for rated thermal performance. f
8 LTC BLOCK DIAGRAM Note: Pin numbers are as per DFN package. Refer to the Pin Functions section for corresponding MSOP pin numbers. INVERTING CHARGE PUMP EN IN 9 C S S C S S.V REF ADJ BYP RT khz TO khz OSC.V REF BYP ADJ EN MODE CHARGE PUMP AND INPUT LOGIC LDO OPERATION (Refer to the Block Diagram) The LTC is a high voltage low noise dual output regulator. It includes an inverting charge pump and two LDO regulators to generate bipolar low noise supply rails from a single positive input. It supports a wide input power supply range from.v to V. Shutdown Mode In shutdown mode, all circuitry except the internal bias is turned off. The LTC is in shutdown when a logic low is applied to both the enable inputs (EN and EN ). The LTC only draws µa (typical) from the V IN supply in shutdown. Charge Pump Constant Frequency Operation The LTC provides low noise constant frequency operation when a logic low is applied to the MODE pin. The charge pump and oscillator circuit are enabled using the EN pin. At the beginning of a clock cycle, switches S and S are closed. The external flying capacitor across the C and C pins is charged to the V IN supply. In the second phase of the clock cycle, switches S and S are opened, while switches S and S are closed. In this configuration the C side of the flying capacitor is grounded and charge is delivered through the C pin to. In steady state the pin regulates at V IN less any voltage drop due to the load current on or LDO. f
9 LTC OPERATION (Refer to the Block Diagram) The charge transfer frequency can be adjusted between khz and khz using an external resistor on the RT pin. At slower frequencies the effective open-loop output resistance (R OL ) of the charge pump is larger and it is able to provide smaller average output current (see the Available Output Current vs f OSC graph in the Typical Performance Characteristics section). Figure can be used to determine a suitable value of RT to achieve a required oscillator frequency. If the RT pin is grounded, the part operates at a constant frequency of khz. OSCILLATOR FREQUENCY (khz) R T (kω) F Figure. Oscillator Frequency vs R T Charge Pump Burst Mode Operation The LTC provides low power Burst Mode operation when a logic high is applied to the MODE pin. In Burst Mode operation, the charge pump charges the pin to.9 V IN (typical). The part then shuts down the internal oscillator to reduce switching losses and goes into a low current state. This state is referred to as the sleep state in which the IC consumes only about µa with both LDOs enabled. When the output voltage droops enough to overcome the burst comparator hysteresis, the part wakes up and commences charge pump cycles until output voltage exceeds.9 V IN (typical). This mode provides lower operating current at the cost of higher output ripple and is ideal for light load operation. The frequency of charging cycles is set by the external resistor on the RT pin. The charge pump has a lower R OL at higher frequencies. For Burst Mode operation it is recommended that the RT pin be tied to. This minimizes the charge pump R OL, quickly charges the output up to the burst threshold and optimizes the duration of the low current sleep state. Charge Pump Soft-Start The LTC has built in soft-start circuitry to prevent excessive current flow during start-up. The soft-start is achieved by internal circuitry that slowly ramps the amount of current available at the output storage capacitor. The soft-start circuitry is reset in the event of a commanded shutdown or thermal shutdown. Charge Pump Short-Circuit/Thermal Protection The LTC has built-in short-circuit current limit as well as overtemperature protection. During a short-circuit condition, the part automatically limits its output current to approximately ma. If the junction temperature exceeds approximately C the thermal shutdown circuitry disables current delivery to the output. Once the junction temperature drops back to approximately C current delivery to the output is resumed. When thermal protection is active the junction temperature is beyond the specified operating range. Thermal protection is intended for momentary overload conditions outside normal operation. Continuous operation above the specified maximum operating junction temperature may impair device reliability. Positive Low Dropout Linear Regulator (LDO ) The positive low dropout regulator (LDO ) supports a load of up to ma. The LDO takes power from the V IN pin and drives the LDO output pin to a voltage programmed by the resistor divider connected between the LDO, ADJ and pins. For stability, the LDO output must be bypassed to ground with a low ESR ceramic capacitor that maintains a capacitance of at least µf across operating temperature and voltage. The LDO is enabled or disabled via the EN logic input pin. When the LDO is enabled, a soft-start circuit ramps its regulation point from zero to the final value over a period of µs, reducing the inrush current on V IN. f 9
10 LTC OPERATION (Refer to the Block Diagram) Figure shows the LDO regulator application circuit. The LDO output voltage can be programmed by choosing suitable values of R and R such that: R =.V R An optional capacitor of nf can be connected from the BYP pin to ground. This capacitor bypasses the internal.v reference of the LTC and improves the noise performance of the LDO. If this function is not used the BYP pin should be left floating. LTC EN.V REF V IN LDO ADJ BYP CBYP Figure : Positive LDO Application Circuit R F LDO OUTPUT C OUT Negative Low Dropout Linear Regulator (LDO ) The negative low dropout regulator (LDO ) supports a load of up to ma. The LDO takes power from the pin (output of the inverting charge pump) and drives the LDO output pin to a voltage programmed by the resistor divider connected between the LDO, ADJ and pins. For stability, the LDO output must be bypassed to ground with a low ESR ceramic capacitor that maintains a capacitance of at least µf across operating temperature and voltage. The LDO is enabled or disabled via the EN logic input pin. Initially, when the EN logic input is low, the charge pump circuitry is disabled and the pin is at. When EN is switched high, the pin will be driven R negative by the charge pump circuitry. Soft-start circuitry in the charge pump also provides soft-start functionality for the LDO and prevents excessive inrush currents. Figure shows the LDO regulator application circuit. The LDO output voltage can be programmed by choosing suitable values of R and R such that: V R LDO =.V R When the inverting charge pump is in Burst Mode operation (MODE = high), the typical hysteresis on the pin is % of V IN voltage. The LDO voltage should be set high enough above in order to prevent LDO from entering dropout during normal operation. An optional capacitor of nf can be connected from the BYP pin to ground. This capacitor bypasses the internal.v reference of the LTC and improves the noise performance of the LDO. If this function is not used the BYP pin should be left floating. In order to improve transient response, an optional capacitor, C ADJ, may be used as shown in Figure. A recommended value for C ADJ is pf. Experimentation with capacitor values between pf and pf may yield improved transient response. EN.V REF LTC BYP C BYP ADJ LDO C ADJ C OUT F Figure : Negative LDO Application Circuit R R LDO OUTPUT f
11 APPLICATIONS INFORMATION Effective Open-Loop Output Resistance The effective open-loop output resistance (R OL ) of a charge pump is a very important parameter which determines the strength of the charge pump. The value of this parameter depends on many factors such as the oscillator frequency (f OSC ), value of the flying capacitor (C FLY ), the nonoverlap time, the internal switch resistances (R S ) and the ESR of the external capacitors. Typical R OL values as a function of temperature are shown in Figure EFFECTIVE OPEN-LOOP RESISTANCE (Ω) f OSC = khz V IN = V V IN = V V IN = V F Figure. Typical R OL vs Temperature Input/Output Capacitor Selection The style and value of capacitors used with the LTC determine several important parameters such as regulator control loop stability, output ripple, charge pump strength and minimum turn-on time. To reduce noise and ripple, it is recommended that low ESR ceramic capacitors be used for the charge pump and LDO outputs. All capacitors should retain at least µf of capacitance over operating temperature and bias voltage. Tantalum and aluminum capacitors can be used in parallel with a ceramic capacitor to increase the total capacitance but should not be used alone because of their high ESR. In constant frequency mode, the value of C OUT directly controls the amount of output ripple for a given load current. Increasing the size of C OUT will reduce the output ripple at the expense of higher LTC minimum turn-on time. The peak-to-peak output ripple at the pin is approximately given by the expression: V RIPPLE(P-P) I OUT t C OUT f ON OSC where C OUT is the value of the output capacitor, f OSC is the oscillator frequency and t ON is the on-time of the oscillator (µs typical). Just as the value of C OUT controls the amount of output ripple, the value of C IN controls the amount of ripple present at the input (V IN ) pin. The amount of bypass capacitance required at the input depends on the source impedance driving V IN. For best results it is recommended that V IN be bypassed with at least µf of low ESR capacitance. A high ESR capacitor such as tantalum or aluminum will have higher input noise than a low ESR ceramic capacitor. Therefore, a ceramic capacitor is recommended as the main bypass capacitance with a tantalum or aluminum capacitor used in parallel if desired. Flying Capacitor Selection The flying capacitor controls the strength of the charge pump. A µf or greater ceramic capacitor is suggested for the flying capacitor for applications requiring the full rated output current of the charge pump. For very light load applications, the flying capacitor may be reduced to save space or cost. For example, a.µf capacitor might be sufficient for load currents up to ma. A smaller flying capacitor leads to a larger effective openloop resistance (R OL ) and thus limits the maximum load current that can be delivered by the charge pump. Ceramic Capacitors Ceramic capacitors of different materials lose their capacitance with higher temperature and voltage at different rates. For example, a capacitor made of XR or XR material will retain most of its capacitance from C to C whereas a ZU or YV style capacitor will lose considerable capacitance over that range. ZU and YV capacitors may f
12 LTC APPLICATIONS INFORMATION also have a poor voltage coefficient causing them to lose % or more of their capacitance when the rated voltage is applied. Therefore when comparing different capacitors, it is often more appropriate to compare the amount of achievable capacitance for a given case size rather than discussing the specified capacitance value. The capacitor manufacture s data sheet should be consulted to ensure the desired capacitance at all temperatures and voltages. Table is a list of ceramic capacitor manufacturers and their websites. Table AVX Kemet Murata Taiyo Yuden Vishay TDK Layout Considerations Due to high switching frequency and high transient currents produced by LTC, careful board layout is necessary for optimum performance. A true ground plane and short connections to all the external capacitors will improve performance and ensure proper regulation under all conditions. Figure shows an example layout for the LTC. V IN LDO C BYP C FLY C BYP R T Figure. Recommended Layout LDO F The flying capacitor nodes C and C switch large currents at a high frequency. These nodes should not be routed close to sensitive pins such as the LDO feedback pins (ADJ and ADJ ) and internal reference bypass pins (BYP and BYP ). Thermal Management At high input voltages and maximum output current, there can be substantial power dissipation in the LTC. If the junction temperature increases above approximately C, the thermal shutdown circuitry will automatically deactivate the output. To reduce the maximum junction temperature, a good thermal connection to the PC board ground plane is recommended. Connecting the exposed pad of the package to a ground plane under the device on two layers of the PC board can reduce the thermal resistance of the package and PC board considerably. Derating Power at High Temperatures To prevent an overtemperature condition in high power applications, Figure should be used to determine the maximum combination of ambient temperature and power dissipation. The power dissipated in the LTC should always fall under the line shown for a given ambient temperature. The power dissipated in the LTC has three components. Power dissipated in the positive LDO: P LDO = (V IN V LDO ) I LDO Power dissipated in the negative LDO: P LDO = ( V LDO ) I LDO and Power dissipated in the inverting charge pump: P CP = (V IN ) (I OUT I LDO ) where I OUT denotes any additional current that might be pulled directly from the pin. The LDO current is also supplied by the charge pump through and is therefore included in the charge pump power dissipation. The total power dissipation of the LTC is given by: P D = P LDO P LDO P CP f
13 APPLICATIONS INFORMATION MAXIMUM POWER DISSIPATION (W) θ JA = C/W T J = C RECOMMENDED OPERATION THERMAL SHUTDOWN T J = C AMBIENT F Figure. Maximum Power Dissipation vs Ambient Temperature LTC The derating curve in Figure assumes a maximum thermal resistance, θ JA, of C/W for the package. This can be achieved from a printed circuit board layout with a solid ground plane and a good connection to the exposed pad of the LTC package. It is recommended that the LTC be operated in the region corresponding to T J C for continuous operation as shown in Figure. Short-term operation may be acceptable for C < T J < C but long-term operation in this region should be avoided as it may reduce the life of the part or cause degraded performance. For T J > C the part will be in thermal shutdown. TYPICAL APPLICATIONS Low Power ±V Power Supply from a Single-Ended V Input Supply V C µf C.µF 9 C.µF IN LTC EN ADJ EN BYP MODE C BYP C ADJ LDO RT C.µF C.µF R.9M R k R k R.9M TA V V High Voltage Input to Bipolar Output with Highly Efficient Dividing/Inverting Charge Pump.V TO V C µf V D MBR D MBR C µf V C.µF V D MBR NOTE: THE LTC WILL ALWAYS RUN IN CONTINUOUS FREQUENCY REGARDLESS OF THE MODE PIN SETTING BECAUSE IS ALWAYS LESS THAN /V IN LDO V IN EN EN ADJ C BYP C LTC BYP ADJ MODE RT LDO C.µF C.µF C.µF V R k R k R k R k C.µF C.µF TA V V ~ V IN V F I OUT ROL V F f
14 LTC TYPICAL APPLICATIONS V Dual Tracking Bipolar Supply with Outputs from ±V to ±V V C.µF V C µf V LDO V IN EN EN ADJ C BYP LTC C ADJ BYP MODE LDO RT C.µF C.µF C.µF V R k R.k R k R k C.µF V C.µF V OUT OUT TA PACKAGE DESCRIPTION Please refer to for the most recent package drawings. DE Package -Lead Plastic DFN (mm mm) (Reference LTC DWG # -- Rev B). ±.. ±. ( SIDES) R =. TYP R =. TYP. ±.. ±.. ±.. ±.. ±.. REF. ±.. BSC RECOMMENDED SOLDER PAD PITCH AND DIMENSIONS APPLY SOLDER MASK TO AREAS THAT ARE NOT SOLDERED PACKAGE OUTLINE PIN TOP MARK (SEE NOTE ). REF NOTE:. DRAWING PROPOSED TO BE MADE VARIATION OF VERSION (WGED-) IN JEDEC PACKAGE OUTLINE MO-9. DRAWING NOT TO SCALE. ALL DIMENSIONS ARE IN MILLIMETERS. ±. ( SIDES). ±.... ±.. REF. ±.. BSC BOTTOM VIEW EXPOSED PAD. DIMENSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE MOLD FLASH. MOLD FLASH, IF PRESENT, SHALL NOT EXCEED.mm ON ANY SIDE. EXPOSED PAD SHALL BE SOLDER PLATED. SHADED AREA IS ONLY A REFERENCE FOR PIN LOCATION ON THE TOP AND BOTTOM OF PACKAGE. ±. PIN NOTCH R =. OR. CHAMFER (DE) DFN REV B f
15 PACKAGE DESCRIPTION Please refer to for the most recent package drawings. LTC MSE Package -Lead Plastic MSOP, Exposed Die Pad (Reference LTC DWG # -- Rev E) BOTTOM VIEW OF EXPOSED PAD OPTION. ±. (. ±.).9 ±. (. ±.). ±. (. ±.). REF. (.) MIN. ±. (. ±.) TYP GAUGE PLANE. (.). ±. (. ±.) DETAIL A. (.9) BSC RECOMMENDED SOLDER PAD LAYOUT TYP.. (..).9 ±. (.9 ±.) 9.9 ±. (.9 ±.) (NOTE ) 9. ±. (. ±.). REF DETAIL B CORNER TAIL IS PART OF DETAIL B THE LEADFRAME FEATURE. FOR REFERENCE ONLY NO MEASUREMENT PURPOSE. ±. (. ±.) REF. ±. (. ±.) (NOTE ). (.) DETAIL A. ±. (. ±.). (.) MAX. (.) REF NOTE:. DIMENSIONS IN MILLIMETER/(INCH). DRAWING NOT TO SCALE SEATING PLANE.. (..) TYP. (.9) BSC. DIMENSION DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS. MOLD FLASH, PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED.mm (.") PER SIDE. DIMENSION DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSIONS. INTERLEAD FLASH OR PROTRUSIONS SHALL NOT EXCEED.mm (.") PER SIDE. LEAD COPLANARITY (BOTTOM OF LEADS AFTER FORMING) SHALL BE.mm (.") MAX. EXPOSED PAD DIMENSION DOES INCLUDE MOLD FLASH. MOLD FLASH ON E-PAD SHALL NOT EXCEED.mm (.") PER SIDE.. ±. (. ±.) MSOP (MSE) 9 REV E Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of its circuits as described herein will not infringe on existing patent rights. f
16 LTC TYPICAL APPLICATION Low Noise ±V Power Supply from a Single-Ended V Input Supply (Frequency = khz) V C µf C µf 9 C µf V IN EN EN MODE C C LTC LDO ADJ BYP BYP ADJ LDO RT R k C µf C nf C nf C µf R 99k R k R k R 99k TA V V RELATED PARTS PART NUMBER DESCRIPTION COMMENTS LTC Switched-Capacitor Wide Input Range Voltage Converter with Shutdown Wide Input Voltage Range: V to V, I SD < µa, SO Package LTC/LTC Step-Up/Step-Down Switched-Capacitor DC/DC Converters V IN : V to V, :.V to V, I Q = µa, SO Package LT ma Output,.MHz Micropower Inverting Switching Regulator V IN :.9V to V, = ±V, ThinSOT Package LT ma Output, khz Micropower Inverting Switching Regulator V IN :.9V to V, = ±V, I Q = ma, MS, SO Packages LTC9 ma,.mhz Inductorless Step-Down DC/DC Converter V IN :.V to.v, =.V/.V, I Q = µa, MS Package LTC/LTC-./ LTC-. Inductorless Step-Down DC/DC Converters V IN :.V to.v, =.V,.V, I Q = µa, ThinSOT Package LTC LTC ma Spread Spectrum Inductorless Step-Down DC/DC Converter Dual ma, Spread Spectrum Inductorless Step-Down DC/DC Converter V IN :.V to.v, :.9V to.v,.v,.v, I Q = 9µA, MSE Package V IN :.V to.v, :.9V to.v, I Q = µa, DFN Package LT/LTL Switched-Capacitor Voltage Converters with Regulator V IN :.V to V/V, I OUT = ma/ma, N, S, SO Packages LT PRINTED IN USA Linear Technology Corporation McCarthy Blvd., Milpitas, CA 9- () -9 FAX: () - LINEAR TECHNOLOGY CORPORATION f
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