MAX6713 (7)
The MAX6713 is available from Analog Devices at Xecor. Designed for monitoring power supplies in microprocessor and digital systems, the MAX6713 offers precision monitoring of 2.5V, 3.0V, 3.3V, and 5.0V power-supply voltages, a manual reset input, and a low supply current of 12µA. Available in a compact 4-Pin SC70 package, it is ideal for applications such as computers, controllers, intelligent instruments, and portable battery-powered equipment. Whether used in critical µP and µC power monitoring or portable devices, this series ensures reliable performance, low cost, and power-supply transient immunity for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX6713 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX6713REXS+ | Ensure microprocessor reliability with MAX6713REXS+ | SC-4 | 2,286 | |
| MAX6713REXS+T | MAX6713REXS+T: ROHS Certified Reset Circuit with Active Low Functionality, SC-70-4 Package | SC70-4 | 7,444 | |
| MAX6713TEXS+ | Processor Supervisor 3.08V 1 Active Low/Open Drain 4-Pin SC-70 T/R | SC70-4 | 6,384 | |
| MAX6713ZEXS+T | Keep your microprocessor on track with MAX6713ZEXS+T | SC-70-4 | 4,530 | |
| MAX6713TEXS+T | Supervisory Circuits 4-Pin SC70 Microprocessor Reset Circuits with Manual Reset Input | SC-70-4 | 6,968 | |
| MAX6713SEXS+T | 4-Pin SC70 Microprocessor Reset Circuits | SC70-4 | 5,183 | |
| MAX6713LEXS+T | Ensure reliable microprocessor reset with MAX6713LEXS+T | SC-70-4 | 5,900 |
Key Featrues
Precision Voltage Monitoring: The MAX6711/MAX6712/MAX6713 provide precise monitoring of 2.5V, 3.0V, 3.3V, and 5.0V power-supply voltages, ensuring reliable operation of µP and digital systems. This precision enhances system stability and reduces the risk of malfunctions due to voltage fluctuations.
Multiple Output Configurations: Available in three output configurations—Push-Pull active-low RESET (MAX6711), Push-Pull RESET (MAX6712), and Open-Drain active-low RESET (MAX6713)—these circuits offer flexibility for diverse system designs, enabling compatibility with various µP and digital systems.
Manual Reset Input: The inclusion of a debounced manual reset input allows for user-initiated system resets, improving control and troubleshooting capabilities in critical applications such as controllers and servers.
Low Power Consumption: With a supply current of only 12µA, these supervisory circuits are ideal for portable battery-powered equipment, extending battery life and enhancing energy efficiency.
Compact SC70 Package: The 4-pin SC70 package ensures a small footprint, making these circuits suitable for space-constrained applications like intelligent instruments and portable devices, while maintaining robust performance.
Multiple Output Configurations: Available in three output configurations—Push-Pull active-low RESET (MAX6711), Push-Pull RESET (MAX6712), and Open-Drain active-low RESET (MAX6713)—these circuits offer flexibility for diverse system designs, enabling compatibility with various µP and digital systems.
Manual Reset Input: The inclusion of a debounced manual reset input allows for user-initiated system resets, improving control and troubleshooting capabilities in critical applications such as controllers and servers.
Low Power Consumption: With a supply current of only 12µA, these supervisory circuits are ideal for portable battery-powered equipment, extending battery life and enhancing energy efficiency.
Compact SC70 Package: The 4-pin SC70 package ensures a small footprint, making these circuits suitable for space-constrained applications like intelligent instruments and portable devices, while maintaining robust performance.
Applications
Microprocessor Power Monitoring: The MAX6711/MAX6712/MAX6713 are ideal for monitoring power supplies in microprocessor (µP) and digital systems. Their precision monitoring of 2.5V, 3.0V, 3.3V, and 5.0V power-supply voltages ensures reliable operation in critical µP and µC systems, making them suitable for applications in servers, workstations, and embedded controllers.
Portable Battery-Powered Equipment: These supervisory circuits are perfect for portable battery-powered devices, where low power consumption and reliable voltage monitoring are essential. With a supply current of just 12µA and guaranteed reset valid down to VCC = +1V, they ensure stable operation in portable equipment such as handheld instruments and IoT devices.
Intelligent Instruments: The MAX6711/MAX6712/MAX6713 are well-suited for intelligent instruments that require precise voltage monitoring and manual reset capabilities. Their open-drain or push-pull output configurations, combined with a 140ms minimum power-on reset pulse width, make them ideal for ensuring reliable startup and operation in advanced measurement and control systems.
Critical µP and µC Power Monitoring: These circuits are essential for critical µP and µC power monitoring in industrial and automotive applications. Their ability to provide reset signals even during power-supply transients, along with a manual reset input, ensures robust performance in environments where power stability is crucial, such as in motor control units and industrial automation systems.
Portable Battery-Powered Equipment: These supervisory circuits are perfect for portable battery-powered devices, where low power consumption and reliable voltage monitoring are essential. With a supply current of just 12µA and guaranteed reset valid down to VCC = +1V, they ensure stable operation in portable equipment such as handheld instruments and IoT devices.
Intelligent Instruments: The MAX6711/MAX6712/MAX6713 are well-suited for intelligent instruments that require precise voltage monitoring and manual reset capabilities. Their open-drain or push-pull output configurations, combined with a 140ms minimum power-on reset pulse width, make them ideal for ensuring reliable startup and operation in advanced measurement and control systems.
Critical µP and µC Power Monitoring: These circuits are essential for critical µP and µC power monitoring in industrial and automotive applications. Their ability to provide reset signals even during power-supply transients, along with a manual reset input, ensures robust performance in environments where power stability is crucial, such as in motor control units and industrial automation systems.
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