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Part Manufacturer Description PDF & SAMPLES
TPS60302REF-170 Texas Instruments Boost: High Efficiency Charge Pump
TPS60302EVM-170REF200209 Texas Instruments Boost: High Efficiency Charge Pump
ISL59833IAZ-T7 Intersil Corporation 200MHz Single Supply Video Driver With Charge Pump; QSOP16; Temp Range: -40° to 85°C
ISL59833IAZ Intersil Corporation 200MHz Single Supply Video Driver With Charge Pump; QSOP16; Temp Range: -40° to 85°C
PMP5528 Texas Instruments Boost with charge pump 35V to 50V@1mA
ISL59837IAZ Intersil Corporation 200MHz Single Supply Video Driver With Charge Pump and Power Down; QSOP16; Temp Range: -40° to 85°C

"Charge Pumps"

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: regulators, charge pumps, switched capacitor, voltage converters, regulator ICs, inductorless voltage , voltages: linear regulators, switching regulators, and charge pumps. Links to supportive application notes , switching and linear regulators, as with regulated and unregulated charge pumps, serve an additional , here (e.g. linear regulators, Page 1 of 7 switching regulators, and charge pumps) are DC-DC , the polarity of) its supply voltage. Charge pumps perform these same three operations, but with Maxim Integrated Products
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MAX17083 MAX1725 MAX6765 MAX6774 MAX828 MAX889 Charge Pumps MAX15023 MAX668 MAX1726 MAX6766 MAX6767
Abstract: charge pumps for LCD bias power and a step-up converter for driving up to 8 series white LEDs for backlighting. The input voltage range is from 2.7V to 5.5V. The charge pumps provide fixed +5V, +15V, and -10V , and internal drivers, these charge pumps eliminate parasitic charge-current glitches and reduce , Power Using Charge Pumps +5V at 25mA for Source Driver +15V at 100ÂuA for VON -10V at 100ÂuA for VOFF , (Charge Pumps Only) VCTRL = 0V, ONBIAS = IN VMAIN Regulation Voltage 0.1mA < ILOAD < 25mA Maxim Integrated Products
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MAX1578/MAX1579 LQH32CN220K53 JMK107BJ225KA
Abstract: charge pumps. And along the way it provides tutorials that discuss more advanced power-supply topics , linear regulators, along with regulated and unregulated charge pumps, serve an additional purpose: They , (change the polarity of) its supply voltage. Charge pumps perform these same three operations, but with , disadvantages of linear regulators, switching regulators, and charge pumps will now be explained. The material , regulators is less critical than for switching regulators and charge pumps. Why would you use any Power IC
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PL0300
Abstract: ANALOGIC TECH AN-113 Application Note A Simple Model for DC/DC Charge Pumps Introduction , , typically below 300mA output current Charge pumps provide enhanced efficiency when compared to LDO , compared to LDO regulators. Unlike LDO regulators, which can only step down voltage, charge pumps can provide an output voltage which is greater than the input voltage. In addition, charge pumps can generate , switching noise can be greater than inductive switching regulators. Like charge pumps, inductive switching -
OCR Scan
effio-e Effio OXUF tl 113 S12006
Abstract: charge pumps for LCD bias power and a step-up converter for driving up to 8 series white LEDs for backlighting. The input voltage range is from 2.7V to 5.5V. The charge pumps provide fixed +5V, +15V, and -10V , and internal drivers, these charge pumps eliminate parasitic charge-current glitches and reduce , Power Using Charge Pumps +5V at 25mA for Source Driver +15V at 100uA for VON -10V at 100uA for VOFF , Frequency VDD Output Voltage Charge-pump pause threshold Quiescent Current (Charge Pumps Only Maxim Integrated Products
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GRM188R60J475KE19 MAX1578 MAX1578ETG MAX1579
Abstract: charge pumps for LCD bias power and a step-up converter for driving up to 8 series white LEDs for backlighting. The input voltage range is from 2.7V to 5.5V. The charge pumps provide fixed +5V, +15V, and -10V , and internal drivers, these charge pumps eliminate parasitic charge-current glitches and reduce , Power Using Charge Pumps +5V at 25mA for Source Driver +15V at 100uA for VON -10V at 100uA for VOFF , Frequency VDD Output Voltage Charge-pump pause threshold Quiescent Current (Charge Pumps Only Maxim Integrated Products
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MAX1578EVKIT
Abstract: the output voltages of the inverting converter and the charge pumps. Efficiency of 94% can be achieved , 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com. Dual SMPS Outputs, LDO, and Dual Charge Pumps , Dual SMPS Outputs, LDO, and Dual Charge Pumps with I2C Interface for OLED ELECTRICAL , 3 Dual SMPS Outputs, LDO, and Dual Charge Pumps with I2C Interface for OLED MAX17065 , Dual SMPS Outputs, LDO, and Dual Charge Pumps with I2C Interface for OLED ELECTRICAL CHARACTERISTICS Maxim Integrated Products
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fault finding all type of smps file MA1706 A/700 T2844-1
Abstract: Doubler/Inverter Charge Pumps Divide by Two Doubler or inverter charge pumps can halve an input voltage , circuits. Small size and high efficiency (approaching 100%) have made switched-capacitor charge pumps , voltage-doubler charge pumps requires only three external capacitors (Figure 2). Both configurations accept input , illustrate the performance of charge pumps operating in the voltage-divider mode: output resistance vs , aware, however, that most Q pumps can halve an input voltage as well as double or invert it. The Maxim Integrated Products
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MAX1683 MAX1730 MAX1680 MAX1681 MAX1682 MAX868 max660 MAX660 DI256
Abstract: Doubler/Inverter Charge Pumps Divide by Two Abstract: Doubler or inverter charge pumps can halve an input , circuits. Small size and high efficiency (approaching 100%) have made switched-capacitor charge pumps (Q , voltage-doubler charge pumps requires only three external capacitors (Figure 2). Both configurations accept input , resistance for the output capacitor C2. Four graphs illustrate the performance of charge pumps operating in , Maxim > App Notes > POWER-SUPPLY CIRCUITS Keywords: 0.5X step-down, charge pump, dc-dc converter Maxim Integrated Products
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APP1876 DC TO DC convertor 1876 MAX1680 APP AN1876
Abstract: above results are somewhat surprising because most charge pumps are not nearly this efficient. The , mode for as long as possible as while the battery declines. Older charge pumps without 1x mode typically obtain only 50% to 67% efficiency. Also, some competing charge pumps that do include a 1x mode , (a) require more board area and height than do charge pumps (b). With chip-scale packaging and 1uF , arrangement. With charge pumps, the LED arrangement is somewhat specific to the particular IC used. Ripple Maxim Integrated Products
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MAX1561 MAX1573 APP3243 MAX1599 AN3243
Abstract: AAT3113/13A, AAT3114/14A High Efficiency 1.5X Fractional Charge Pumps For White LED Applications , High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Pin Descriptions Pin # , , AAT3114/14A High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Absolute Maximum , AAT3113/13A, AAT3114/14A High Efficiency 1.5X Fractional Charge Pumps For White LED Applications , Fractional Charge Pumps For White LED Applications Typical Characteristics VIN = 3.5V, CIN = COUT = C1 = Advanced Analogic Technologies
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AAT3113A AAT3114 QFN44
Abstract: 4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS FSP3302/FSP3303 FEATURES GENERAL DESCRIPTION , /10 2007-4-10 4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS FSP3302/FSP3303 PIN DESCRIPTION , long periods may affect device reliability. 2/10 2007-4-10 4 & 6 CHANNEL CHARGE PUMPS FOR , & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS FSP3302/FSP3303 FUNCTIONAL BLOCK DIAGRAM C1P C1N , /PROG pin that occurs within 75us increments the 4/10 2007-4-10 4 & 6 CHANNEL CHARGE PUMPS FOR Foslink Semiconductor
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QFN16L DAC ic 0800 pin diagram qfn16 2007410 FSP3302 FSP3303 FSP3302/FSP3303XXX
Abstract: 19-1376; Rev 1; 12/98 3V to 5V Regulating Charge Pumps for SIM Cards The MAX1686 provides , /MAX1686H 3V to 5V Regulating Charge Pumps for SIM Cards ABSOLUTE MAXIMUM RATINGS IN, OUT, SHDN, 3/5 , 3V to 5V Regulating Charge Pumps for SIM Cards EFFICIENCY vs. INPUT VOLTAGE (5V MODE , MAX1686-17 250us/div MAX1686-16 MAX1686/MAX1686H 3V to 5V Regulating Charge Pumps for SIM , 3V to 5V Regulating Charge Pumps for SIM Cards PIN NAME FUNCTION 3V/5V Select Input Maxim Integrated Products
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MAX1686H MAX1686EUA MAX1686HEUA
Abstract: AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED Applications General , 1 AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Pin , 3113.2004.07.1.4 AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED Applications , V us ns us uA 3 AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED , Temperature (°C) 3113.2004.07.1.4 AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White Advanced Analogic Technologies
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AAT3113 AAT3113ISN-20-T1 AAT3114ISN-20-T1
Abstract: AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED Applications General , D1 1 AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Pin , C1C1+ D4 D3 3113.2004.11.1.5 AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For , AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Typical , VIN (V) 5 AAT3113/4 High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Advanced Analogic Technologies
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AAT3113ITP-20-T1
Abstract: advertisement New Charge Pumps Offer Low Input and Output Noise Design Note 243 Sam Nork , generation is one undesirable characteristic of most charge pumps. Unwanted noise can create a variety of , LTC®3200 family of boost charge pumps employs a new architecture designed to minimize noise at the , . These parts are regulating boost charge pumps that can supply up to 100mA of output current. The , the LTC3200-even with onetenth the bypass capacitance. Typical Applications Charge pumps are Linear Technology
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LTC3200 LTC3200-5 DN243 1-800-4-LINEAR
Abstract: DATA SHEET AAT3113/3114 High Efficiency 1.5X Fractional Charge Pumps for White LED Applications , DATA SHEET AAT3113/3114 High Efficiency 1.5X Fractional Charge Pumps for White LED Applications , + D6 NC C1- DATA SHEET AAT3113/3114 High Efficiency 1.5X Fractional Charge Pumps for White , AAT3113/3114 High Efficiency 1.5X Fractional Charge Pumps for White LED Applications Electrical , SHEET AAT3113/3114 High Efficiency 1.5X Fractional Charge Pumps for White LED Applications Typical Skyworks Solutions
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202128B
Abstract: 19-1376; Rev 1; 12/98 3V to 5V Regulating Charge Pumps for SIM Cards General Description The , 1-800-998-8800. For small orders, phone 1-800-835-8769. 3V to 5V Regulating Charge Pumps for SIM Cards , 3V to 5V Regulating Charge Pumps for SIM Cards Typical Operating Characteristics (See , ) 3 3V to 5V Regulating Charge Pumps for SIM Cards MAX1686/MAX1686H Typical Operating , 3V to 5V Regulating Charge Pumps for SIM Cards Pin Description PIN 1 2 3 4 5 6 7 8 NAME 3/ 5 Maxim Integrated Products
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595D-
Abstract: AAT3113, AAT3114/14A High Efficiency 1.5X Fractional Charge Pumps For White LED Applications , , AAT3114/14A High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Pin Descriptions , Fractional Charge Pumps For White LED Applications Electrical Characteristics VIN = 3.5V, TA = -40°C to , Efficiency 1.5X Fractional Charge Pumps For White LED Applications Typical Characteristics VIN = 3.5V, CIN , AAT3113, AAT3114/14A High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Typical Advanced Analogic Technologies
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AAT3113ITP AAT3114A AAT3114AISN AAT3114ISN
Abstract: step-down converter, and two charge pumps convert the 8V to 14V input voltage into four output voltages , charge pumps independently generate adjustable regulated output voltages VGL and VGH to bias the LCD , short-circuit protection of the step-down converter. Current mode control is used for both charge pumps to , , one step-down converter, and two charge pumps convert the 8V to 14V input voltage into four output , . The dual charge pumps independently generate adjustable regulated output voltages VGL and VGH to Global Mixed-Mode Technology
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G5561A TSSOP-28 G5561B G5561BF41U TSSP-28
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