MAX6315 (28)
MAX6315 is available from Analog Devices at Xecor. Designed for monitoring power supplies in µP and digital systems, the MAX6315 offers precision factory-set VCC reset thresholds, low power consumption (5µA supply current), and open-drain active-low RESET output. Available in a compact 4-pin SOT143 package, it is ideal for critical µP power monitoring, portable battery-powered equipment, and intelligent instruments. Whether used in computers, controllers, or automotive applications, this series ensures reliable system operation with minimal power consumption for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX6315 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX6315US31D3+T | SOT-143-4 package with 140ms active low reset timer | SOT143-4 | 8,646 | |
| MAX6315US29D3+T | Supervisory Circuits Open-Drain SOT uP Reset Circuit | SOT143-4 | 5,949 | |
| MAX6315US29D3-T | MAX6315US29D3+T product description | TO-253-4 | 5,235 | |
| MAX6315US26D2-T | 1 Channel for Power Regulation | TO-253-4 | 8,165 | |
| MAX6315US29D3+ | It comes in a PDSO4 package that is lead-free and has a TO-253 and SOT-143 form factor | SOT-4 | 7,064 | |
| MAX6315US30D3+ | MAX6315US30D3+ ensures stable power supply with its specialized PMIC technology | SOT-4 | 4,497 | |
| MAX6315US26D1+T | MAX6315US26D1+T, SOT-143-4 package, 5.5V input | SOT-143-4 | 4,104 | |
| MAX6315US26D4+T | Ensure reliable performance with this voltage supervisor circuit. (66 characters) | SOT-143-4 | 5,770 | |
| MAX6315US26D2+T | 1 Channel for Power Regulation | SOT-143-4 | 6,413 | |
| MAX6315US26D3+T | Stay updated with the latest Monitors & Reset Circuits | SOT-143-4 | 4,521 | |
| MAX6315US29D1+T | Supervisory Circuits Open-Drain SOT uP Reset Circuit | SOT-143-4 | 7,965 | |
| MAX6315US29D2+T | This product acts as a safeguard for the processor, ensuring stable voltage levels and protecting against potential damage or malfunction | SOT143-4 | 7,382 | |
| MAX6315US30D1+T | Monitor critical voltage levels with 1ms response time | SOT-143-4 | 4,331 | |
| MAX6315US29D4+T | This product comes in a small SOT-143-4 package | SOT-143-4 | 7,194 | |
| MAX6315US30D3+T | Keep your system running smoothly with open drain output | SOT-143-4 | 2,182 | |
| MAX6315US30D2+T | Fast turn-off and low quiescent current for minimal power consumption | SOT-143-4 | 5,957 | |
| MAX6315US30D4+T | Reset circuit designed for supervisory applications, offering precise control and reliability | SOT-143-4 | 3,821 | |
| MAX6315US44D1+ | Processor Supervisor 4.39V 1 Active Low/Open Drain 4-Pin SOT-143 T/R | SOT-143-4 | 2,808 | |
| MAX6315US31D1+T | MAX6315US31D1+T: Ensuring reliable operation with open-drain reset circuit | SOT-143-4 | 7,442 | |
| MAX6315US31D2+T | Get MAX6315US31D2+T for robust µP reset solutions | SOT-143-4 | 7,715 | |
| MAX6315US31D4+T | Explore the features of MAX6315US31D4+T open-drain SOT µP reset circuit | SOT-143-4 | 2,561 | |
| MAX6315US44D4+T | Ensure reliable performance with MAX6315US44D4+T | SOT-143-4 | 6,864 | |
| MAX6315US44D3+T | Keep your microprocessor running smoothly with MAX6315US44D3+T | SOT-143-4 | 6,422 | |
| MAX6315US44D1+T | Active low reset functionality for optimal performance | SOT-143-4 | 2,004 | |
| MAX6315US44D2+T | Monitor voltage levels for optimal performance | SOT-143-4 | 6,932 | |
| MAX6315US45D3+ | Processor Supervisor 4.5V 1 Active Low/Open Drain 4-Pin SOT-143 T/R | SOT-143-4 | 3,430 | |
| MAX6315US46D3+T | Supervisory Circuits Open-Drain SOT uP Reset Circuit | SOT-143-4 | 4,606 | |
| MAX6315US46D2+T | Space-saving SOT package with robust functionali | SOT-143-4 | 2,595 |
Key Featrues
Precision Voltage Monitoring: The MAX6315 offers factory-set VCC reset thresholds in 100mV increments from 2.5V to 5V, ensuring accurate voltage monitoring. This precision enhances system reliability by detecting even minor voltage fluctuations, making it ideal for critical applications like microprocessors and digital systems.
Low Power Consumption: With a supply current of just 5µA, the MAX6315 minimizes power usage, making it highly efficient for portable and battery-powered devices. This feature extends battery life and reduces energy consumption, which is crucial for applications in portable electronics and IoT devices.
Open-Drain RESET Output: The open-drain active-low RESET output can exceed VCC, providing flexibility in interfacing with various logic levels. This feature simplifies circuit design and improves compatibility with different system architectures, enhancing versatility in use cases.
Immune to Short VCC Transients: The MAX6315 is designed to ignore short VCC transients, ensuring stable operation even in noisy environments. This immunity prevents false resets, improving system reliability in industrial and automotive applications where electrical noise is prevalent.
Compact SOT143 Package: The 4-pin SOT143 package saves space on the PCB, making the MAX6315 suitable for compact designs. This small form factor is particularly beneficial for space-constrained applications like wearables, handheld devices, and embedded systems.
Low Power Consumption: With a supply current of just 5µA, the MAX6315 minimizes power usage, making it highly efficient for portable and battery-powered devices. This feature extends battery life and reduces energy consumption, which is crucial for applications in portable electronics and IoT devices.
Open-Drain RESET Output: The open-drain active-low RESET output can exceed VCC, providing flexibility in interfacing with various logic levels. This feature simplifies circuit design and improves compatibility with different system architectures, enhancing versatility in use cases.
Immune to Short VCC Transients: The MAX6315 is designed to ignore short VCC transients, ensuring stable operation even in noisy environments. This immunity prevents false resets, improving system reliability in industrial and automotive applications where electrical noise is prevalent.
Compact SOT143 Package: The 4-pin SOT143 package saves space on the PCB, making the MAX6315 suitable for compact designs. This small form factor is particularly beneficial for space-constrained applications like wearables, handheld devices, and embedded systems.
Applications
Microprocessor Power Monitoring: The MAX6315 is ideal for monitoring power supplies in microprocessor (µP) and digital systems. Its precision voltage thresholds and low power consumption ensure reliable system operation, making it suitable for critical µP power monitoring in embedded systems, IoT devices, and industrial controllers.
Portable Battery-Powered Equipment: The MAX6315 is well-suited for portable battery-powered devices, such as handheld meters, medical devices, and consumer electronics. Its low supply current (5 µA) and wide operating voltage range (1 V to 5.5 V) ensure efficient power management and extended battery life.
Server and Workstation Power Supervision: The MAX6315 provides reliable power supply monitoring for servers, workstations, and desktop computers. Its open-drain RESET output and manual reset input ensure proper system initialization and recovery during power fluctuations, enhancing system reliability in data centers and enterprise environments.
Automotive Electronics: The MAX6315 is suitable for automotive applications, such as engine control units (ECUs) and infotainment systems. Its robust design, wide temperature range (-40°C to +125°C), and immunity to short VCC transients ensure stable operation in harsh automotive environments, making it ideal for critical power monitoring in vehicles.
Portable Battery-Powered Equipment: The MAX6315 is well-suited for portable battery-powered devices, such as handheld meters, medical devices, and consumer electronics. Its low supply current (5 µA) and wide operating voltage range (1 V to 5.5 V) ensure efficient power management and extended battery life.
Server and Workstation Power Supervision: The MAX6315 provides reliable power supply monitoring for servers, workstations, and desktop computers. Its open-drain RESET output and manual reset input ensure proper system initialization and recovery during power fluctuations, enhancing system reliability in data centers and enterprise environments.
Automotive Electronics: The MAX6315 is suitable for automotive applications, such as engine control units (ECUs) and infotainment systems. Its robust design, wide temperature range (-40°C to +125°C), and immunity to short VCC transients ensure stable operation in harsh automotive environments, making it ideal for critical power monitoring in vehicles.
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