MAX6314 (11)
MAX6314 is available from Analog Devices at Xecor. Designed for monitoring power supplies in microprocessor (µP) and digital systems, the MAX6314 offers bidirectional reset outputs, precision factory-set VCC reset thresholds, and low power consumption with a supply current of just 5µA. Available in SOT-143-4 package options, it is ideal for applications such as computers, controllers, intelligent instruments, and portable battery-powered equipment. Whether used in critical µP power monitoring or portable devices, this series ensures reliability, accuracy, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX6314 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX6314US26D2+ | Protect your processor with MAX6314US26D2 | SOT-4 | 2,315 | |
| MAX6314US26D2+T | Supervisory Circuits 68HC11/Bidirectional-Compatible uP Reset Circuit | SOT-143-4 | 7,336 | |
| MAX6314US26D1+T | Protect your 68HC11 system with bidirectional-compatible reset circuit | SOT-143-4 | 7,469 | |
| MAX6314US26D1/GG8 | Bidirectional-Compatible Reset for Microprocessor | SOT-23-4 | 3,218 | |
| MAX6314US29D2+T | Processor Supervisor 2.93V 1 Active Low/Bidirectional 4-Pin SOT-143 T/R | SOT-143-4 | 5,776 | |
| MAX6314US29D3+T | Supervisory Circuits 68HC11/Bidirectional-Compatible uP Reset Circuit | SOT-143-4 | 3,579 | |
| MAX6314US30D1+T | Supervisory Circuits 68HC11/Bidirectional-Compatible uP Reset Circuit | SOT-143-4 | 3,221 | |
| MAX6314US31D3+ | Processor Supervisor 3.08V 1 Active Low/Bidirectional 4-Pin SOT-23 T/R | SOT-23-4 | 6,958 | |
| MAX6314US44D1+T | Get peace of mind with the MAX6314US44D1+T reset circuit for your electronic applications | SOT-143-4 | 4,223 | |
| MAX6314US44D2+T | Supervisory Circuits 68HC11/Bidirectional-Compatible uP Reset Circuit | SOT-143-4 | 5,071 | |
| MAX6314US46D3+T | Supervisory Circuits 68HC11/Bidirectional-Compatible uP Reset Circuit | SOT-143-4 | 3,209 |
Key Featrues
Bidirectional Reset Output: The MAX6314 features a bidirectional reset output that simplifies interfacing with microprocessors like the 68HC11, which have bidirectional reset inputs. This enhances circuit reliability and reduces the need for external components, making it ideal for critical µP power monitoring applications.
Precision Reset Thresholds: With factory-set VCC reset thresholds in 100mV increments from 2.5V to 5V, the MAX6314 ensures accurate voltage monitoring. This precision (±1.8% at 25°C) improves system stability and reliability in applications such as portable battery-powered equipment.
Low Power Consumption: The MAX6314 operates with a supply current of just 5µA, making it highly efficient for low-power applications. This feature is particularly beneficial for portable and battery-operated devices, extending battery life and reducing energy consumption.
Multiple Reset Timeout Periods: The device offers four selectable reset timeout periods (1ms, 20ms, 140ms, or 1120ms), providing flexibility for different system requirements. This adaptability ensures optimal performance across various use cases, from industrial controllers to intelligent instruments.
Compact SOT143 Package: The MAX6314 is housed in a small SOT143 package, saving board space and enabling integration into compact designs. This feature is advantageous for space-constrained applications like embedded systems and portable devices.
Precision Reset Thresholds: With factory-set VCC reset thresholds in 100mV increments from 2.5V to 5V, the MAX6314 ensures accurate voltage monitoring. This precision (±1.8% at 25°C) improves system stability and reliability in applications such as portable battery-powered equipment.
Low Power Consumption: The MAX6314 operates with a supply current of just 5µA, making it highly efficient for low-power applications. This feature is particularly beneficial for portable and battery-operated devices, extending battery life and reducing energy consumption.
Multiple Reset Timeout Periods: The device offers four selectable reset timeout periods (1ms, 20ms, 140ms, or 1120ms), providing flexibility for different system requirements. This adaptability ensures optimal performance across various use cases, from industrial controllers to intelligent instruments.
Compact SOT143 Package: The MAX6314 is housed in a small SOT143 package, saving board space and enabling integration into compact designs. This feature is advantageous for space-constrained applications like embedded systems and portable devices.
Applications
Microprocessor Power Monitoring: The MAX6314 is ideal for monitoring power supplies in microprocessor (µP) systems, such as those in embedded controllers or IoT devices. Its bidirectional reset output ensures reliable operation with µP architectures like the 68HC11, making it suitable for applications requiring precise power management and fault detection in industrial automation and smart devices.
Portable Battery-Powered Equipment: The MAX6314 is well-suited for portable devices, such as handheld meters or medical monitors, where low power consumption and reliable reset functionality are critical. Its 5µA supply current and small SOT143 package make it an excellent choice for battery-powered applications requiring robust power supervision.
Critical µP and µC Power Monitoring: The MAX6314 is perfect for applications requiring critical power monitoring in microprocessors and microcontrollers, such as automotive control systems or industrial machinery. Its precision reset thresholds and immunity to short VCC transients ensure stable operation in harsh environments.
Intelligent Instruments: The MAX6314 is ideal for use in intelligent instruments, such as data loggers or environmental monitoring systems, where accurate power supervision and manual reset capabilities are essential. Its compact design and low power consumption make it a reliable choice for advanced instrumentation in scientific and industrial settings.
Portable Battery-Powered Equipment: The MAX6314 is well-suited for portable devices, such as handheld meters or medical monitors, where low power consumption and reliable reset functionality are critical. Its 5µA supply current and small SOT143 package make it an excellent choice for battery-powered applications requiring robust power supervision.
Critical µP and µC Power Monitoring: The MAX6314 is perfect for applications requiring critical power monitoring in microprocessors and microcontrollers, such as automotive control systems or industrial machinery. Its precision reset thresholds and immunity to short VCC transients ensure stable operation in harsh environments.
Intelligent Instruments: The MAX6314 is ideal for use in intelligent instruments, such as data loggers or environmental monitoring systems, where accurate power supervision and manual reset capabilities are essential. Its compact design and low power consumption make it a reliable choice for advanced instrumentation in scientific and industrial settings.
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