MAX6376 (6)
The MAX6376 is available from Analog Devices at Xecor. Designed for monitoring battery, power-supply, and regulated system voltages, the MAX6376 offers ultra-low 500nA supply current, ±2.5% threshold accuracy over temperature, and no external components required. Available in 3-Pin SC70 or SOT23 packages, it is ideal for load switching, power sequencing, portable battery-powered equipment, and precision battery monitoring. Whether used in digital/analog systems or power-supply monitoring, this series ensures reliability, 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 MAX6376 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX6376XR23+ | Processor Supervisor 2.32V 1 Active High/Push-Pull 3-Pin SC-70 T/R | SC-70-3 | 5,909 | |
| MAX6376XR23+T | Processor Supervisor 2.32V 1 Active High/Push-Pull 3-Pin SC-70 T/R | SC-70-3 | 5,491 | |
| MAX6376XR29+ | MAX6376XR29+: Provides accurate voltage detection capabilities | SC-70-3 | 2,689 | |
| MAX6376XR26+T | MAX6376XR26+T: Ultra-low-power voltage detectors in SC70/SOT23 | SC-70-3L | 4,083 | |
| MAX6376XR29+T | Active high/push-pull design for reliable operation | SC-70-3L | 2,279 | |
| MAX6376UR29+T | MAX6376UR29+T: Compact and efficient voltage detector in SC70/SOT23 package | SOT23-3 | 7,956 |
Key Featrues
Ultra-Low 500nA Supply Current - The MAX6375/MAX6376/MAX6377 models feature an ultra-low supply current of 500nA, significantly enhancing power efficiency in battery-powered applications. This low current consumption extends battery life, making these devices ideal for portable and energy-sensitive systems.
±2.5% Threshold Accuracy Over Temperature - With a precision threshold accuracy of ±2.5% across varying temperatures, these voltage detectors ensure reliable and consistent performance in diverse environmental conditions. This accuracy minimizes false triggers and enhances system reliability.
No External Components Required - The integrated design eliminates the need for external components, reducing board space, cost, and complexity. This simplifies circuit design and accelerates time-to-market for applications requiring voltage monitoring.
Multiple Output Configurations - Available in push-pull active-low OUT, push-pull OUT, and open-drain active-low OUT versions, these devices offer flexibility to match specific system requirements. This versatility broadens their applicability across different circuit designs.
Power-Supply Transient Immunity - These voltage detectors are designed to withstand power-supply transients, ensuring stable operation in noisy environments. This immunity enhances system robustness and reliability in industrial and automotive applications.
±2.5% Threshold Accuracy Over Temperature - With a precision threshold accuracy of ±2.5% across varying temperatures, these voltage detectors ensure reliable and consistent performance in diverse environmental conditions. This accuracy minimizes false triggers and enhances system reliability.
No External Components Required - The integrated design eliminates the need for external components, reducing board space, cost, and complexity. This simplifies circuit design and accelerates time-to-market for applications requiring voltage monitoring.
Multiple Output Configurations - Available in push-pull active-low OUT, push-pull OUT, and open-drain active-low OUT versions, these devices offer flexibility to match specific system requirements. This versatility broadens their applicability across different circuit designs.
Power-Supply Transient Immunity - These voltage detectors are designed to withstand power-supply transients, ensuring stable operation in noisy environments. This immunity enhances system robustness and reliability in industrial and automotive applications.
Applications
Load Switching/Power Sequencing: The MAX6375-MAX6380 voltage detectors are ideal for managing load switching and power sequencing in complex systems. Their ultra-low power consumption and precise voltage monitoring ensure reliable operation in applications such as power supplies, where accurate sequencing is critical to prevent damage and ensure proper startup sequences.
Portable Battery-Powered Equipment: These voltage detectors are well-suited for portable battery-powered devices, such as handheld medical instruments or consumer electronics. Their low 500nA supply current and precise voltage monitoring capabilities help extend battery life while ensuring the system operates within safe voltage limits.
Power-Supply Monitoring in Digital/Analog Systems: The MAX6375-MAX6380 series is perfect for monitoring power supplies in mixed-signal systems. With ±2.5% threshold accuracy over temperature and no external components required, these detectors provide a cost-effective and reliable solution for ensuring stable operation in digital and analog circuits.
Precision Battery Monitoring: These devices excel in precision battery monitoring applications, such as in electric vehicles or renewable energy systems. Their internally trimmed resistors and precision bandgap reference ensure accurate voltage detection, enabling timely alerts for low battery conditions or overvoltage scenarios, thus protecting the system and prolonging battery life.
Portable Battery-Powered Equipment: These voltage detectors are well-suited for portable battery-powered devices, such as handheld medical instruments or consumer electronics. Their low 500nA supply current and precise voltage monitoring capabilities help extend battery life while ensuring the system operates within safe voltage limits.
Power-Supply Monitoring in Digital/Analog Systems: The MAX6375-MAX6380 series is perfect for monitoring power supplies in mixed-signal systems. With ±2.5% threshold accuracy over temperature and no external components required, these detectors provide a cost-effective and reliable solution for ensuring stable operation in digital and analog circuits.
Precision Battery Monitoring: These devices excel in precision battery monitoring applications, such as in electric vehicles or renewable energy systems. Their internally trimmed resistors and precision bandgap reference ensure accurate voltage detection, enabling timely alerts for low battery conditions or overvoltage scenarios, thus protecting the system and prolonging battery life.
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