MAX859C - 3.3V/5V or Adjustable Output, Step-up DC-DC Converters
MAX859C/D - 3.3v/5v or Adjustable-output, Step-up DC-DC Converters
MAX859CSA - 3.3V/5V or Adjustable-Output, Step-Up DC-DC Converters
MAX859CUA - 3.3V/5V or Adjustable-Output, Step-Up DC-DC Converters
MAX859E - 3.3V/5V or Adjustable Output, Step-up DC-DC Converters
MAX859ESA - 3.3V/5V or Adjustable-Output, Step-Up DC-DC Converters
MAX859M - 3.3V/5V or Adjustable Output, Step-up DC-DC Converters
MAX859MJA - 3.3V/5V or Adjustable-Output, Step-Up DC-DC Converters
MAX860 - 50ma, Frequency-selectable, Switched-capacitor Voltage Converters
MAX8600 - Single-/Dual-Input 1-Cell Li+ Chargers with OVP Protection and Programmable Charge Timer The MAX8600/MAX8601 single-/dual-input linear battery chargers safely charge single-cell Li+ batteries. The charging rate is optimized to accommodate the thermal characteristics ofA given application. There is no need to reduce the maximum charge current or worst-case charger power dissipation. Charging is optimized for Li+ cells usingA control algorithm that includes low-battery precharging, voltage and current-limit
MAX8600ETD - Single-/Dual-Input 1-Cell Li+ Chargers with OVP Protection and Programmable Charge Timer The MAX8600/MAX8601 single-/dual-input linear battery chargers safely charge single-cell Li+ batteries. The charging rate is optimized to accommodate the thermal characteristics ofA given application. There is no need to reduce the maximum charge current or worst-case charger power dissipation. Charging is optimized for Li+ cells usingA control algorithm that includes low-battery precharging, voltage and current-limit
MAX8601 - Single-/Dual-Input 1-Cell Li+ Chargers with OVP Protection and Programmable Charge Timer The MAX8600/MAX8601 single-/dual-input linear battery chargers safely charge single-cell Li+ batteries. The charging rate is optimized to accommodate the thermal characteristics ofA given application. There is no need to reduce the maximum charge current or worst-case charger power dissipation. Charging is optimized for Li+ cells usingA control algorithm that includes low-battery precharging, voltage and current-limit
MAX8601ETD - Single-/Dual-Input 1-Cell Li+ Chargers with OVP Protection and Programmable Charge Timer The MAX8600/MAX8601 single-/dual-input linear battery chargers safely charge single-cell Li+ batteries. The charging rate is optimized to accommodate the thermal characteristics ofA given application. There is no need to reduce the maximum charge current or worst-case charger power dissipation. Charging is optimized for Li+ cells usingA control algorithm that includes low-battery precharging, voltage and current-limit
MAX8606 - Usb/ac Adapter, Li+ Linear Battery Charger With Integrated 50mohm Battery Switch In Tdfn
MAX860C/D - MAX860, MAX861 50mA, Frequency-Selectable, Switched-capacitor Voltage Converters
MAX860ESA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX860I/E - MAX860, MAX861 50mA, Frequency-Selectable, Switched-capacitor Voltage Converters
MAX860ISA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX860IUA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX860M - MAX860, MAX861 50mA, Frequency-Selectable, Switched-capacitor Voltage Converters
MAX860-MAX861 - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX860MJA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX861 - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX8614 - Dual-Output (+ and -) Converters for CCD in 3mm x 3mm TDFNThe MAX8614A/MAX8614B dual-output step-up DC-DC converters generate bothA positive and negative supply voltage that are each independently regulated. The positive output delivers up to 50mA while the inverter supplies up to 100mA with input voltages between 2.7V and 5.5V. The MAX8614A/MAX8614B are ideal for powering CCD imaging devices and displays in digital cameras and other portable equipment.
MAX8614AETD+T - Smallest Dual-Output (+ and -) DC-DC Converter for CCD and OLED Applications Is Extremely Flexible and Easy to Design-InSUNNYVALE, CA-April 25, 2006-Maxim Integrated Products (NASDAQ: MXIM) introduces the MAX8614, the industry\'s smallest dual-output step-up DC-DC converter to generate voltage outputs up to +24V positive and -10V negative with 100mA output current. The MAX8614 output is adjustable with external resistors for applications in digital still cameras (DSC), cell phone cameras, and OLED display p
MAX8614BETD+T - Smallest Dual-Output (+ and -) DC-DC Converter for CCD and OLED Applications Is Extremely Flexible and Easy to Design-InSUNNYVALE, CA-April 25, 2006-Maxim Integrated Products (NASDAQ: MXIM) introduces the MAX8614, the industry\'s smallest dual-output step-up DC-DC converter to generate voltage outputs up to +24V positive and -10V negative with 100mA output current. The MAX8614 output is adjustable with external resistors for applications in digital still cameras (DSC), cell phone cameras, and OLED display p
MAX861C/D - MAX860, MAX861 50mA, Frequency-Selectable, Switched-capacitor Voltage Converters
MAX861ESA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX861I/E - MAX860, MAX861 50mA, Frequency-Selectable, Switched-capacitor Voltage Converters
MAX861ISA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX861IUA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX861M - MAX860, MAX861 50mA, Frequency-Selectable, Switched-capacitor Voltage Converters
MAX861MJA - 50mA, Frequency-Selectable, Switched-Capacitor Voltage Converters
MAX8620Y - Pmic For Microprocessors Or Dsps In Portable Equipment
MAX8620YETD - PMIC for Microprocessors or DSPs in Portable Equipment
MAX8621Y - Dual Step-down Dc-dc Power-management Ics For Portable Devices
MAX8621YETG - Dual Step-Down DC-DC Power-Management ICs for Portable Devices
MAX8621Z - Dual Step-Down DC-DC Power-Management ICs for Portable Devices The MAX8621Y/MAX8621Z power-management integrated circuits (PMICs) are designed forA variety of portable devices including cellular handsets. These PMICs include two high-efficiency step-down DC-DC converters, four low-dropout linear regulators (LDOs) with pin-programmable capability, one open-drain driver,A 60ms (typ) reset timer, and power-on/off control logic. These devices offer high efficiency withA no-load supply current of 160µA, and t
MAX8621ZETG - Dual Step-Down DC-DC Power-Management ICs for Portable Devices
MAX8646 - The MAX8646 high-efficiency switching regulator delivers up to 6A load current at output voltages from 0.6V to (0.9 x VIN). This device operates from 2.35V to 3.6V, making it ideal for on-board point-of-load and post-regulation applications. Total output error is less than ±1% over load, line, and temperature.The MAX8646 features fixed-frequency, PWM-mode operation withA switching frequency range of 500kHz to 2MHz set by an external resistor. High-frequency operation allows for an all-ceramic capacitor des
MAX866 - 3.3v/5v Or Adjustable-output, Single-cell Dc-dc Converters
MAX8660 - High-Efficiency, Low-IQ PMICs with Dynamic Voltage Management for Mobile ApplicationsPower-Management ICs Optimized for the New Intel XScale Processor The MAX8660/MAX8661 power management ICs (PMICs) power Intel XScale® applications processors in smart cellular phones, PDAs, Internet appliances, and other portable devices.Four step-down DC-DC outputs, three linear regulators, and an 8th always-on LDO are integrated with power-management functions. Two dynamically controlled DCDC outputs power the processor
MAX8661 - High-Efficiency, Low-IQ PMICs with Dynamic Voltage Management for Mobile ApplicationsPower-Management ICs Optimized for the New Intel XScale Processor The MAX8660/MAX8661 power management ICs (PMICs) power Intel XScale® applications processors in smart cellular phones, PDAs, Internet appliances, and other portable devices.Four step-down DC-DC outputs, three linear regulators, and an 8th always-on LDO are integrated with power-management functions. Two dynamically controlled DCDC outputs power the processor
MAX8702 - Dual-Phase MOSFET Drivers with Temperature Sensor The MAX8702/MAX8703 dual-phase noninverting MOSFET drivers are designed to work with PWM controller ICs, such as the MAX8705/MAX8707, in notebook CPU core and other multiphase regulators. Applications can either step down directly from the battery voltage to create the core voltage, or step down fromA low-voltage system supply. The single-stage conversion method allows the highest possible efficiency, while the 2-stage conversion at higher switching frequen
MAX8702ETP - Dual-Phase MOSFET Drivers with Temperature Sensor The MAX8702/MAX8703 dual-phase noninverting MOSFET drivers are designed to work with PWM controller ICs, such as the MAX8705/MAX8707, in notebook CPU core and other multiphase regulators. Applications can either step down directly from the battery voltage to create the core voltage, or step down fromA low-voltage system supply. The single-stage conversion method allows the highest possible efficiency, while the 2-stage conversion at higher switching frequen
MAX8703 - Dual-Phase MOSFET Drivers with Temperature Sensor The MAX8702/MAX8703 dual-phase noninverting MOSFET drivers are designed to work with PWM controller ICs, such as the MAX8705/MAX8707, in notebook CPU core and other multiphase regulators. Applications can either step down directly from the battery voltage to create the core voltage, or step down fromA low-voltage system supply. The single-stage conversion method allows the highest possible efficiency, while the 2-stage conversion at higher switching frequen
MAX8703ETP - Dual-Phase MOSFET Drivers with Temperature Sensor The MAX8702/MAX8703 dual-phase noninverting MOSFET drivers are designed to work with PWM controller ICs, such as the MAX8705/MAX8707, in notebook CPU core and other multiphase regulators. Applications can either step down directly from the battery voltage to create the core voltage, or step down fromA low-voltage system supply. The single-stage conversion method allows the highest possible efficiency, while the 2-stage conversion at higher switching frequen
MAX8707 - Multiphase, Fixed-Frequency Controller for AMD Hammer CPU Core Power Supplies The MAX8707 isA multiphase (3-/4-phase), interleaved, fixed-frequency, step-down controller for AMD Hammer CPU core supplies. Interleaved multiphase operation reduces the input ripple current and output voltage ripple while easing component selection and layout placement. The MAX8707 includes active voltage positioning with adjustable gain and offset, reducing power dissipation and bulk output-capacitance requirements. The MAX870
MAX8707ETL - Multiphase, Fixed-Frequency Controller for AMD Hammer CPU Core Power Supplies The MAX8707 isA multiphase (3-/4-phase), interleaved, fixed-frequency, step-down controller for AMD Hammer CPU core supplies. Interleaved multiphase operation reduces the input ripple current and output voltage ripple while easing component selection and layout placement. The MAX8707 includes active voltage positioning with adjustable gain and offset, reducing power dissipation and bulk output-capacitance requirements. The MAX870
MAX8709 - MAX870, MAX871 Switched-capacitor Voltage Inverters
MAX8710 - Low-cost, Linear-regulator Lcd Panel Power Supplies
MAX8710ETG - Low-Cost, Linear-Regulator LCD Panel Power Supplies The MAX8710/MAX8711/MAX8712 offer complete linear-regulator power-supply solutions for thin-film transistor (TFT) liquid-crystal-display (LCD) panels used in LCD monitors and LCD TVs. All three devices includeA high-performance AVDD linear regulator,A positive charge-pump regulator,A negative charge-pump regulator, and built-in power-up sequence control. The MAX8710 and MAX8711 also includeA high-current operational amplifier. Additionally, the MAX8710
MAX8710-MAX8761 - Low-Cost, Linear-Regulator LCD Panel Power Supplies
MAX8711 - Low-Cost, Linear-Regulator LCD Panel Power Supplies
MAX8711ETE - LCD Display Panel Power Supply TFT Monitor TV complete Linear-regulator Power-supply Solutions For Thin-film Transistor (TFT) Liquid-crystal-display (LCD) Panels Used in LCD Monitors and LCD Tvs. All Three Devices IncludeA High-performance Avdd Linear Regulator,A Positive Charge-pump Regulator,A Negative Charge-pump Regulator, and Built-in Power-up Sequence Control. The MAX8710 and MAX8711 Also IncludeA High-current Operational Amplifier. Additionally, The MAX8710 Provides Logic-controlled High-voltage
MAX8711ETG - Low-Cost, Linear-Regulator LCD Panel Power Supplies The MAX8710/MAX8711/MAX8712 offer complete linear-regulator power-supply solutions for thin-film transistor (TFT) liquid-crystal-display (LCD) panels used in LCD monitors and LCD TVs. All three devices includeA high-performance AVDD linear regulator,A positive charge-pump regulator,A negative charge-pump regulator, and built-in power-up sequence control. The MAX8710 and MAX8711 also includeA high-current operational amplifier. Additionally, the MAX8710
MAX8712 - Low-Cost, Linear-Regulator LCD Panel Power Supplies
MAX8712ETC - LCD Display Panel Power Supply TFT Monitor TV complete Linear-regulator Power-supply Solutions For Thin-film Transistor (TFT) Liquid-crystal-display (LCD) Panels Used in LCD Monitors and LCD Tvs. All Three Devices IncludeA High-performance Avdd Linear Regulator,A Positive Charge-pump Regulator,A Negative Charge-pump Regulator, and Built-in Power-up Sequence Control. The MAX8710 and MAX8711 Also IncludeA High-current Operational Amplifier. Additionally, The MAX8710 Provides Logic-controlled High-voltage
MAX8712ETG - Low-Cost, Linear-Regulator LCD Panel Power Supplies The MAX8710/MAX8711/MAX8712 offer complete linear-regulator power-supply solutions for thin-film transistor (TFT) liquid-crystal-display (LCD) panels used in LCD monitors and LCD TVs. All three devices includeA high-performance AVDD linear regulator,A positive charge-pump regulator,A negative charge-pump regulator, and built-in power-up sequence control. The MAX8710 and MAX8711 also includeA high-current operational amplifier. Additionally, the MAX8710
MAX8716ETG - Interleaved High-Efficiency, Dual Power-Supply Controllers for Notebook Computers The MAX8716/MAX8717/MAX8757 are dual, stepdown, interleaved, fixed-frequency, switch-mode power-supply (SMPS) controllers with synchronous rectification. They are intended for main (5V/3.3V) and I/O power generation in battery-powered systems. Fixed-frequency operation with optimal interleaving minimizes input ripple current from the lowest input voltages up to the 26V maximum input. Optimal 40/60 interleaving allows the input
MAX8717 - Interleaved High-Efficiency, Dual Power-Supply Controllers for Notebook Computers The MAX8716/MAX8717/MAX8757 are dual, stepdown, interleaved, fixed-frequency, switch-mode power-supply (SMPS) controllers with synchronous rectification. They are intended for main (5V/3.3V) and I/O power generation in battery-powered systems. Fixed-frequency operation with optimal interleaving minimizes input ripple current from the lowest input voltages up to the 26V maximum input. Optimal 40/60 interleaving allows the input
MAX8717ETI - Interleaved High-Efficiency, Dual Power-Supply Controllers for Notebook Computers The MAX8716/MAX8717/MAX8757 are dual, stepdown, interleaved, fixed-frequency, switch-mode power-supply (SMPS) controllers with synchronous rectification. They are intended for main (5V/3.3V) and I/O power generation in battery-powered systems. Fixed-frequency operation with optimal interleaving minimizes input ripple current from the lowest input voltages up to the 26V maximum input. Optimal 40/60 interleaving allows the input
MAX8718 - High-voltage, Low-power Linear Regulators For Notebook Computers
MAX8718ETA - High-Voltage, Low-Power Linear Regulators for Notebook Computers
MAX8719 - High-Voltage, Low-Power Linear Regulators for Notebook Computers
MAX8719ETA - High-Voltage, Low-Power Linear Regulators for Notebook Computers
MAX8726 - Triple-Output TFT-LCD DC-DC Converters The MAX1748/MAX8726 triple-output DC-DC converters inA low-profile TSSOP package provide the regulated voltages required by active-matrix, thin-film transistor (TFT) liquid-crystal displays (LCDs). One high-power DC-DC converter and two low-power charge pumps convert the +3.3V to +5V input supply voltage into three independent output voltages. The primary 1MHz DC-DC converter generatesA boosted output voltage (VMAIN) up to 13V using ultra-small inductors and ceramic
MAX8728 - Low-cost, Multiple-output Power Supply For Lcd Monitors/tvs
MAX8728ETJ - Low-Cost Multiple-Output Power Supply for LCD Monitors/TVs The MAX8728 generates all the supply rails for thin-film transistor (TFT) liquid-crystal display (LCD) panels in TVs and monitors. It includes step-down and step-up regulators, positive and negative charge pumps, andA dual-mode, logic-controlled, high-voltage switch control block. The MAX8728 can operate from input voltages from 7V to 13.2V and is optimized for LCD TV panel and LCD monitor applications running directly from 12V supplies.The step-up
MAX872C - 10 A, Low-Dropout, Precision Voltage Reference
MAX872C/D - MAX872, MAX874 10µA, Low-Dropout, Precision Voltage Reference
MAX872CPA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX872CSA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX872E - 10 A, Low-Dropout, Precision Voltage Reference
MAX872EPA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX872ESA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX872-MAX874 - 10ҐмA, Low-Dropout, Precision Voltage References
MAX873 - Low-power, Low-drift, +2.5v/+5v/+10v Precision Voltage References
MAX8730 - Low-Cost Battery Charger The MAX8730 highly integrated, multichemistry, battery-charger control IC simplifies construction of accurate and efficient chargers. The MAX8730 operates at high switching frequency to minimize external component size and cost. The MAX8730 uses analog inputs to control charge current and voltage, and can be programmed byA microcontroller or hardwired. The MAX8730 reduces charge current to give priority to the system load, effectively limiting the adapter current and reducing the a
MAX8730ETI - Low-Cost Battery Charger The MAX8730 highly integrated, multichemistry, battery-charger control IC simplifies construction of accurate and efficient chargers. The MAX8730 operates at high switching frequency to minimize external component size and cost. The MAX8730 uses analog inputs to control charge current and voltage, and can be programmed byA microcontroller or hardwired. The MAX8730 reduces charge current to give priority to the system load, effectively limiting the adapter current and reducing the a
MAX8732 - High-Efficiency, Quad-Output, Main Power-supply Controllers For Notebook Computers The MAX8732/MAX8733/MAX8734 Dual Step-down, Switch-mode Power-supply (SMPS) Controllers Generate Logic-supply Voltages in Battery-powered Systems. The MAX8732/MAX8733/MAX8734 Include Two Pulse-width Modulation (PWM) Controllers, Adjustable From 2V to 5.5V or Fixed at 5V and 3.3V. These Devices Feature Two Linear Regulators Providing 5V and 3.3V Always-on Outputs. Each Linear Regulator Provides up to 100mA Output Current With
MAX8737 - Dual, Low-Voltage Linear Regulator Controllers with External MOSFETs
MAX8737ETE - Dual, Low-Voltage Linear Regulator Controllers with External MOSFETs
MAX8738 - EEPROM-Programmable TFT VCOM Calibrator with I2C Interface The MAX8738 is an I2C-programmable VCOM-adjustment solution for thin-film transistor (TFT) liquid-crystal displays (LCDs). The MAX8738 simplifies the labor-intensive VCOM-adjustment process and replaces mechanical potentiometers, which significantly reduces labor costs, increases reliability, and enables automation. The MAX8738 attaches to an external resistive voltage-divider and sinksA programmable current to set the VCOM voltage level. An intern
MAX8738EUA - EEPROM-Programmable TFT VCOM Calibrator with I2C Interface The MAX8738 is an I2C-programmable VCOM-adjustment solution for thin-film transistor (TFT) liquid-crystal displays (LCDs). The MAX8738 simplifies the labor-intensive VCOM-adjustment process and replaces mechanical potentiometers, which significantly reduces labor costs, increases reliability, and enables automation. The MAX8738 attaches to an external resistive voltage-divider and sinksA programmable current to set the VCOM voltage level. An intern
MAX873AC - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX873ACPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873ACSA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873AE - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX873AEPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873AESA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873AM - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX873AMJA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873BC - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX873BC/D - Low-power, Low-drift, +2.5v/+5v/+10v Precision Voltage References
MAX873BCPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873BCSA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873BE - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX873BEPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873BESA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873BM - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX873BMJA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX873-MAX876 - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX874 - 10ҐмA, Low-Dropout, Precision Voltage References
MAX8741 - MAX872, MAX874 10µA, Low-Dropout, Precision Voltage Reference
MAX8743 - Dual, High-efficiency, Step-down Controller With High Impedance In Shutdown
MAX8743EEI - Dual, High-Efficiency, Step-Down Controller with High Impedance in Shutdown
MAX8743ETX - Dual, High-Efficiency, Step-Down Controller with High Impedance in Shutdown
MAX874C - 10 A, Low-Dropout, Precision Voltage Reference
MAX874C/D - MAX872, MAX874 10µA, Low-Dropout, Precision Voltage Reference
MAX874CPA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX874CSA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX874E - 10 A, Low-Dropout, Precision Voltage Reference
MAX874EPA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX874ESA - 10ҐмA, Low-Dropout, Precision Voltage References
MAX875 - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX8757 - Interleaved High-Efficiency, Dual Power-Supply Controllers for Notebook Computers The MAX8716/MAX8717/MAX8757 are dual, stepdown, interleaved, fixed-frequency, switch-mode power-supply (SMPS) controllers with synchronous rectification. They are intended for main (5V/3.3V) and I/O power generation in battery-powered systems. Fixed-frequency operation with optimal interleaving minimizes input ripple current from the lowest input voltages up to the 26V maximum input. Optimal 40/60 interleaving allows the input
MAX8757ETI+ - Interleaved High-Efficiency, Dual Power-Supply Controllers for Notebook Computers The MAX8716/MAX8717/MAX8757 are dual, stepdown, interleaved, fixed-frequency, switch-mode power-supply (SMPS) controllers with synchronous rectification. They are intended for main (5V/3.3V) and I/O power generation in battery-powered systems. Fixed-frequency operation with optimal interleaving minimizes input ripple current from the lowest input voltages up to the 26V maximum input. Optimal 40/60 interleaving allows the input
MAX8758 - Step-up Regulator With Switch Control and Operational Amplifier For Tft Lcd
MAX8758ETG - Step-Up Regulator with Switch Control and Operational Amplifier for TFT LCD
MAX875AC - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX875ACPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875ACSA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875AE - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX875AEPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875AESA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875AM - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX875AMJA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875BC - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX875BC/D - Low-power, Low-drift, +2.5v/+5v/+10v Precision Voltage References
MAX875BCPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875BCSA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875BE - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX875BEPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875BESA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX875BM - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX875BMJA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876 - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX8760 - Dual-phase, Quick-pwm Controller For Amd Mobile Turion 64 Cpu Core Power Supplies
MAX8760ETL - Dual-Phase, Quick-PWM Controller for AMD Mobile Turion 64 CPU Core Power Supplies
MAX8761 - Low-Cost, Linear-Regulator LCD Panel Power Supplies
MAX8761ETG - Low-Cost, Linear-Regulator LCD Panel Power Supplies The MAX8710/MAX8711/MAX8712 offer complete linear-regulator power-supply solutions for thin-film transistor (TFT) liquid-crystal-display (LCD) panels used in LCD monitors and LCD TVs. All three devices includeA high-performance AVDD linear regulator,A positive charge-pump regulator,A negative charge-pump regulator, and built-in power-up sequence control. The MAX8710 and MAX8711 also includeA high-current operational amplifier. Additionally, the MAX8710
MAX876AC - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX876ACPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876ACSA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876AE - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX876AEPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876AESA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876AM - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX876AMJA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876BC - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX876BC/D - Low-power, Low-drift, +2.5v/+5v/+10v Precision Voltage References
MAX876BCPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876BCSA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876BE - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX876BEPA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876BESA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX876BM - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage Reference
MAX876BMJA - Low-Power, Low-Drift, +2.5V/+5V/+10V Precision Voltage References
MAX8794 - The MAX8794 DDR linear regulator sources and sinks up to 3A peak (typ) using internal n-channel MOSFETs. This linear regulator delivers an accurate 0.5V to 1.5V output fromA low-voltage power input (VIN = 1.1V to 3.6V). The MAX8794 usesA separate 3.3V bias supply to power the control circuitry and drive the internal n-channel MOSFETs.The MAX8794 provides current and thermal limits to prevent damage to the linear regulator. Additionally, the MAX8794 generatesA power-good (PGOOD) signal to indicate that th
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