CMOS 8-Bit 8Channel Data Acquisition System

Digitally Controlled CCFL Backlight Power Supplies

General Description The MAX1610/MAX1611 are fully integrated, high efficiency drivers for cold-cathode fluorescent lamps(CCFLs). They operate from a 4.5V to 26V power source. An on-board, high-switching-frequency power MOSFET reduces external component count and magnetics size. The MAX1610/MAX161

Digitally Controlled CCFL Backlight Power Supplies

General Description The MAX1610/MAX1611 are fully integrated, high efficiency drivers for cold-cathode fluorescent lamps(CCFLs). They operate from a 4.5V to 26V power source. An on-board, high-switching-frequency power MOSFET reduces external component count and magnetics size. The MAX1610/MAX161

Digitally Controlled CCFL Backlight Power Supplies

General Description The MAX1610/MAX1611 are fully integrated, high efficiency drivers for cold-cathode fluorescent lamps(CCFLs). They operate from a 4.5V to 26V power source. An on-board, high-switching-frequency power MOSFET reduces external component count and magnetics size. The MAX1610/MAX161

Digitally Controlled CCFL Backlight Power Supplies

General Description The MAX1610/MAX1611 are fully integrated, high efficiency drivers for cold-cathode fluorescent lamps(CCFLs). They operate from a 4.5V to 26V power source. An on-board, high-switching-frequency power MOSFET reduces external component count and magnetics size. The MAX1610/MAX161

Digitally Controlled CCFL Backlight Power Supplies

General Description The MAX1610/MAX1611 are fully integrated, high efficiency drivers for cold-cathode fluorescent lamps(CCFLs). They operate from a 4.5V to 26V power source. An on-board, high-switching-frequency power MOSFET reduces external component count and magnetics size. The MAX1610/MAX161

Bridge-Battery Backup Controllers for Notebooks

General Description The MAX1612/MAX1613 manage the bridge battery (sometimes called a hot-swap or auxiliary battery) in portable systems such as notebook computers. They feature a step-up DC-DC converter that boosts 2-cell or 3-cell bridge-battery voltages up to the same level as the main battery

Dual Pushbutton Controllers in Tiny 6-Bump WLP Package

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Dual Pushbutton Controllers in Tiny 6-Bump WLP Package

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Dual Pushbutton Controllers

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Dual Pushbutton Controllers in Tiny 6-Bump WLP Package

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Dual Pushbutton Controllers

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Dual Pushbutton Controllers in Tiny 6-Bump WLP Package

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Dual Pushbutton Controllers

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Dual Pushbutton Controllers in Tiny 6-Bump WLP Package

General Description The MAX16122–MAX16125 pushbutton controllers with single-supply monitors monitor one or two pushbuttons and generate a hard reset signal if the buttons are pushed and held for a setup delay. These devices make it easy to “hide” the hard reset function in an existing pushbutton

Load-Dump/Reverse-Voltage Protection Circuits

General Description The MAX16126/MAX16127 load-dump/reverse-voltage protection circuits protect power supplies from damaging input voltage conditions, including overvoltage, reverse-voltage, and high-voltage transient pulses. Using a built-in charge pump, the devices control two external back-t

Load-Dump/Reverse-Voltage Protection Circuits

General Description The MAX16126/MAX16127 load-dump/reverse-voltage protection circuits protect power supplies from damaging input voltage conditions, including overvoltage, reverse-voltage, and high-voltage transient pulses. Using a built-in charge pump, the devices control two external back-t

Load-Dump/Reverse-Voltage Protection Circuits

General Description The MAX16126/MAX16127 load-dump/reverse-voltage protection circuits protect power supplies from damaging input voltage conditions, including overvoltage, reverse-voltage, and high-voltage transient pulses. Using a built-in charge pump, the devices control two external back-t

Load-Dump/Reverse-Voltage Protection Circuits

General Description The MAX16126/MAX16127 load-dump/reverse-voltage protection circuits protect power supplies from damaging input voltage conditions, including overvoltage, reverse-voltage, and high-voltage transient pulses. Using a built-in charge pump, the devices control two external back-t

Bridge-Battery Backup Controllers for Notebooks

General Description The MAX1612/MAX1613 manage the bridge battery (sometimes called a hot-swap or auxiliary battery) in portable systems such as notebook computers. They feature a step-up DC-DC converter that boosts 2-cell or 3-cell bridge-battery voltages up to the same level as the main battery

Bridge-Battery Backup Controllers for Notebooks

General Description The MAX1612/MAX1613 manage the bridge battery (sometimes called a hot-swap or auxiliary battery) in portable systems such as notebook computers. They feature a step-up DC-DC converter that boosts 2-cell or 3-cell bridge-battery voltages up to the same level as the main battery

High-Side, N-Channel MOSFET Switch Driver

General Description The MAX1614 drives high-side, n-channel power MOSFETs to provide battery power-switching functions in portable equipment. The n-channel power MOSFETs typically have one-third the on-resistance of p-channel MOSFETs of similar size and cost. An internal micropower regulator and

High-Side, N-Channel MOSFET Switch Driver

General Description The MAX1614 drives high-side, n-channel power MOSFETs to provide battery power-switching functions in portable equipment. The n-channel power MOSFETs typically have one-third the on-resistance of p-channel MOSFETs of similar size and cost. An internal micropower regulator and

High-Side, N-Channel MOSFET Switch Driver

General Description The MAX1614 drives high-side, n-channel power MOSFETs to provide battery power-switching functions in portable equipment. The n-channel power MOSFETs typically have one-third the on-resistance of p-channel MOSFETs of similar size and cost. An internal micropower regulator and

High-Side, N-Channel MOSFET Switch Driver

General Description The MAX1614 drives high-side, n-channel power MOSFETs to provide battery power-switching functions in portable equipment. The n-channel power MOSFETs typically have one-third the on-resistance of p-channel MOSFETs of similar size and cost. An internal micropower regulator and

High-Voltage, Low-Power Linear Regulators for Notebook Computers

General Description The MAX1615/MAX1616 are micropower, SOT23-5 linear regulators that supply always-on, keep-alive power to CMOS RAM and microcontrollers (µCs) in systems with high-voltage batteries. Key features include wide input voltage range, low dropout voltage, and low quiescent supply cur

High-Voltage, Low-Power Linear Regulators for Notebook Computers

General Description The MAX1615/MAX1616 are micropower, SOT23-5 linear regulators that supply always-on, keep-alive power to CMOS RAM and microcontrollers (µCs) in systems with high-voltage batteries. Key features include wide input voltage range, low dropout voltage, and low quiescent supply cur

High-Voltage, Low-Power Linear Regulators for Notebook Computers

General Description The MAX1615/MAX1616 are micropower, SOT23-5 linear regulators that supply always-on, keep-alive power to CMOS RAM and microcontrollers (µCs) in systems with high-voltage batteries. Key features include wide input voltage range, low dropout voltage, and low quiescent supply cur

High-Voltage, Low-Power Linear Regulators for Notebook Computers

General Description The MAX1615/MAX1616 are micropower, SOT23-5 linear regulators that supply always-on, keep-alive power to CMOS RAM and microcontrollers (µCs) in systems with high-voltage batteries. Key features include wide input voltage range, low dropout voltage, and low quiescent supply cur

Highly Integrated, 4-Channel Sequencer and Supervisor

General Description The MAX16165/MAX16166 monitor up to five voltages and sequence up to four voltages. These devices provide an adjustable delay as each supply is turned on as well as monitor each power-supply voltage, including the input voltage VDD. The MAX16165/MAX16166 operate from a su

Highly Integrated, 4-Channel Sequencer and Supervisor

General Description The MAX16165/MAX16166 monitor up to five voltages and sequence up to four voltages. These devices provide an adjustable delay as each supply is turned on as well as monitor each power-supply voltage, including the input voltage VDD. The MAX16165/MAX16166 operate from a su

nanoPower Pushbutton On/Off Controller and Battery Freshness Seal

General Description The MAX16169 is an extremely low-power, pushbutton, on/off controller with a switch debouncer and built-in latch. This device accepts a noisy input from a mechanical switch and produces a clean, latched output, and a one-shot interrupt output, in response to a switch closure e

nanoPower Pushbutton On/Off Controller and Battery Freshness Seal

General Description The MAX16169 is an extremely low-power, pushbutton, on/off controller with a switch debouncer and built-in latch. This device accepts a noisy input from a mechanical switch and produces a clean, latched output, and a one-shot interrupt output, in response to a switch closure e

nanoPower Pushbutton On/Off Controller and Battery Freshness Seal

General Description The MAX16169 is an extremely low-power, pushbutton, on/off controller with a switch debouncer and built-in latch. This device accepts a noisy input from a mechanical switch and produces a clean, latched output, and a one-shot interrupt output, in response to a switch closure e

High-Voltage, Low-Power Linear Regulators for Notebook Computers

General Description The MAX1615/MAX1616 are micropower, SOT23-5 linear regulators that supply always-on, keep-alive power to CMOS RAM and microcontrollers (µCs) in systems with high-voltage batteries. Key features include wide input voltage range, low dropout voltage, and low quiescent supply cur

High-Voltage, Low-Power Linear Regulators for Notebook Computers

General Description The MAX1615/MAX1616 are micropower, SOT23-5 linear regulators that supply always-on, keep-alive power to CMOS RAM and microcontrollers (µCs) in systems with high-voltage batteries. Key features include wide input voltage range, low dropout voltage, and low quiescent supply cur

Remote/Local Temperature Sensor with SMBus Serial Interface

General Description The MAX1617 is a precise digital thermometer that reports the temperature of both a remote sensor and its own package. The remote sensor is a diode-connected transistor—typically a low-cost, easily mounted 2N3904 NPN type—that replaces conventional thermistors or thermocouples

SMBus Temperature Sensor with Internal and External Diode Input

The MAX1617 is a serially programmable temperature sensor optimized for monitoring modern high performance CPUs with on–board, integrated temperature sensing diodes. Temperature data is converted from the CPU’s diode outputs and made available as an 8–bit digital word. Features • Includes Intern

High-Voltage Ideal Diode Controller with Integrated CSA

General Description The MAX16170, a high-voltage ideal diode controller, offers full system-level protections for automotive applications. The MAX16170 is designed to enhance system safety, reliability, and performance with added diagnostics, robust fault-recovery mode, and a high-side, integrate

High-Voltage Ideal Diode Controller with Integrated CSA

General Description The MAX16170, a high-voltage ideal diode controller, offers full system-level protections for automotive applications. The MAX16170 is designed to enhance system safety, reliability, and performance with added diagnostics, robust fault-recovery mode, and a high-side, integrate

High-Voltage Ideal Diode Controller with Integrated CSA

General Description The MAX16170, a high-voltage ideal diode controller, offers full system-level protections for automotive applications. The MAX16170 is designed to enhance system safety, reliability, and performance with added diagnostics, robust fault-recovery mode, and a high-side, integrate

Remote/Local Temperature Sensor with SMBus Serial Interface

General Description The MAX1617A is a precise digital thermometer that reports the temperature of both a remote sensor and its own package. The remote sensor is a diode-connected transistor—typically a low-cost, easily mounted 2N3904 NPN type—that replaces conventional thermistors or thermocouple

Remote/Local Temperature Sensor with SMBus Serial Interface

General Description The MAX1617A is a precise digital thermometer that reports the temperature of both a remote sensor and its own package. The remote sensor is a diode-connected transistor—typically a low-cost, easily mounted 2N3904 NPN type—that replaces conventional thermistors or thermocouple

SMBus Temperature Sensor with Internal and External Diode Input

The MAX1617 is a serially programmable temperature sensor optimized for monitoring modern high performance CPUs with on–board, integrated temperature sensing diodes. Temperature data is converted from the CPU’s diode outputs and made available as an 8–bit digital word. Features • Includes Intern

Remote/Local Temperature Sensor with SMBus Serial Interface

General Description The MAX1617 is a precise digital thermometer that reports the temperature of both a remote sensor and its own package. The remote sensor is a diode-connected transistor—typically a low-cost, easily mounted 2N3904 NPN type—that replaces conventional thermistors or thermocouples

Remote Temperature Sensor with SMBus Serial Interface

General Description The MAX1618 precise digital thermometer reports the temperature of a remote sensor. The remote sensor is a diode-connected transistor—typically a low-cost, easily mounted 2N3904 NPN type—that replaces conventional thermistors or thermocouples. Remote accuracy is ±3°C for multi

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout

Nano Power, Tiny Supervisor with Manual Reset Input

General Description The MAX16180–MAX16183 are ultra-low-current, single-channel supervisory ICs that monitor the VCC voltage from 1.7V to 4.85V in 50mV increments and assert a reset when the VCC voltage falls below the reset threshold. The reset output remains asserted for the reset timeout