CMOS Micropower Step-UP Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85 (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Operatio

CMOS Micropower Step-Up Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85 (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Operatio

CMOS Micropower Step-UP Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85 (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Operatio

CMOS Micropower Step-Up Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85 (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Operatio

CMOS Micropower Step-Up Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85 (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Operatio

CMOS Micropower Step-Up Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85 (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Operatio

CMOS Micropower Step-Up Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85% (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Ope

CMOS Micropower Step-Up Switching Regulator

General Description Maxim’s MAX630 and MAX4193 CMOS DC-DC regulators are designed for simple, efficient, minimum-size DC-DC converter circuits in the 5mW to 5W range. Features ♦ High Efficiency—85% (typ) ♦ 70µA Typical Operating Current ♦ 1µA Maximum Quiescent Current ♦ 2.0V to 16.5V Ope

CMOS Fixed/Adjustable Output Step-Up Switching Regulators

CMOS Fixed/Adjustable Output Step-Up Switching Regulators

CMOS Fixed/Adjustable Output Step-Up Switching Regulators

CMOS Fixed/Adjustable Output Step-Up Switching Regulators

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

4-Pin, Ultra-Low-Voltage, Low-Power 關P Reset Circuits with Manual Reset

General Description The MAX6335/MAX6336/MAX6337 microprocessor (µP) supervisory circuits monitor the power supplies in 1.8V to 3.3V µP and digital systems. They increase circuit reliability and reduce cost by eliminating external components and adjustments. They also feature a debounced manual-re

6-Pin μP Reset Circuit with Power-Fail Comparator

General Description The MAX6342–MAX6345 family of microprocessor (µP) supervisory circuits monitors power supplies in digital systems. These devices significantly improve system reliability and accuracy compared to separate ICs or discrete components. Features ♦ Small 6-Pin SOT23 Package ♦ Pre

CMOS Micropower Inverting Switching Regulator

CMOS Micropower Inverting Switching Regulator

CMOS Micropower Inverting Switching Regulator

CMOS Micropower Inverting Switching Regulator

CMOS Micropower Inverting Switching Regulator

CMOS Micropower Inverting Switching Regulator

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Dual/Triple-Voltage 關P Supervisory Circuits

General Description The MAX6351–MAX6360 microprocessor (µP) supervisors with multiple reset voltages significantly improve system reliability and accuracy compared to separate ICs or discrete components. If any input supply voltage drops below its associated preset threshold, all reset outputs

Overvoltage Protection Switch/Limiter Controllers Operate Up to 72V

General Description The MAX6397/MAX6398 are small, high-voltage overvoltage protection circuits. These devices disconnect the output load or limit the output voltage during an input overvoltage condition. These devices are ideal for applications that must survive high-voltage transients such as

5V/3.3V/3V/Adjustable, High-Efficiency, Low IQ, Step-Down DC-DC Converters

General Description The MAX639/MAX640/MAX653 step-down switching regulators provide high efficiency over a wide range of load currents, delivering up to 225mA. A current-limiting pulse-frequency-modulated (PFM) control scheme gives the devices the benefits of pulse-width-modulated (PWM) converter

5V/3.3V/3V/Adjustable, High-Efficiency, Low IQ, Step-Down DC-DC Converters

General Description The MAX639/MAX640/MAX653 step-down switching regulators provide high efficiency over a wide range of load currents, delivering up to 225mA. A current-limiting pulse-frequency-modulated (PFM) control scheme gives the devices the benefits of pulse-width-modulated (PWM) converter

5V/3.3V/3V/Adjustable, High-Efficiency, Low IQ, Step-Down DC-DC Converters

General Description The MAX639/MAX640/MAX653 step-down switching regulators provide high efficiency over a wide range of load currents, delivering up to 225mA. A current-limiting pulse-frequency-modulated (PFM) control scheme gives the devices the benefits of pulse-width-modulated (PWM) converter

Dual/Triple-Voltage 關P Supervisory Circuits

文件：327.33 Kbytes Page：11 Pages

CMOS Micropower Step-Up Switching Regulator

文件：263.87 Kbytes Page：14 Pages

封装/外壳：8-SOIC（0.154"，3.90mm 宽） 功能：升压 包装：卷带（TR）剪切带（CT）Digi-Reel® 得捷定制卷带 描述：IC REG BOOST ADJ 525MA 8SOIC 集成电路（IC） 稳压器 - DC-DC 开关稳压器

开关稳压器 CMOS uPower Step Up Switching Reg

封装/外壳：8-SOIC（0.154"，3.90mm 宽） 功能：升压 包装：卷带（TR） 描述：IC REG BOOST ADJ 525MA 8SOIC 集成电路（IC） DC DC 开关稳压器

开关稳压器 CMOS uPower Step Up Switching Reg

CMOS Micropower Step-Up Switching Regulator

文件：263.87 Kbytes Page：14 Pages

开关稳压器 CMOS uPower Step Up Switching Reg

CMOS Micropower Step-Up Switching Regulator

文件：263.87 Kbytes Page：14 Pages