MAX6366HKA26+ Encyclopedia Entry

Product Overview

The MAX6366HKA26+ belongs to the category of voltage supervisors and is designed for use in various electronic systems to monitor the power supply voltage. Its characteristics include precise monitoring, low power consumption, and a small package size. The product is typically available in a compact SOT23-5 package and is essential for ensuring reliable operation of microcontrollers, DSPs, and other sensitive components. The packaging consists of a single unit per package.

Specifications

Input Voltage Range: 1.8V to 5.5V
Threshold Voltage: 2.6V
Operating Temperature Range: -40°C to +125°C
Quiescent Current: 3µA (typical)

Detailed Pin Configuration

The MAX6366HKA26+ features a standard SOT23-5 pin configuration: 1. GND 2. RESET 3. MR 4. VCC 5. N/C

Functional Features

Precise Voltage Monitoring
Manual Reset Input
Low Power Consumption
Small Package Size

Advantages and Disadvantages

Advantages

Accurate voltage monitoring
Wide input voltage range
Low quiescent current

Disadvantages

Limited number of alternative models
May require external components for specific applications

Working Principles

The MAX6366HKA26+ operates by continuously monitoring the input voltage and comparing it to the preset threshold voltage. When the input voltage falls below the threshold, the device asserts a reset signal to ensure proper system operation.

Detailed Application Field Plans

The MAX6366HKA26+ finds extensive application in battery-powered devices, portable electronics, embedded systems, and industrial control systems. It is particularly useful in applications where maintaining stable voltage levels is critical for system reliability.

Detailed and Complete Alternative Models

While the MAX6366HKA26+ offers precise voltage monitoring in a compact package, alternative models such as the MAX6369 and MAX6381 provide similar functionality with different threshold voltage options and package sizes. These alternatives cater to diverse application requirements and offer flexibility in design.

In conclusion, the MAX6366HKA26+ is a versatile voltage supervisor that provides accurate monitoring and reset functionality in a compact form factor. Its wide input voltage range and low power consumption make it suitable for a variety of electronic systems, from consumer electronics to industrial applications.

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What is the MAX6366HKA26+?
- The MAX6366HKA26+ is a low-power microprocessor supervisory circuit designed to monitor the power supply voltage of microprocessor systems.
What is the input voltage range for the MAX6366HKA26+?
- The input voltage range for the MAX6366HKA26+ is typically between 1.6V and 5.5V.
What is the purpose of using the MAX6366HKA26+ in a technical solution?
- The MAX6366HKA26+ ensures that the microprocessor operates within safe voltage levels by monitoring the power supply and providing reset signals when necessary.
How does the MAX6366HKA26+ help in preventing data corruption in microprocessor systems?
- By monitoring the power supply voltage, the MAX6366HKA26+ can initiate a reset signal if the voltage falls below a specified threshold, preventing data corruption.
Can the MAX6366HKA26+ be used in battery-powered applications?
- Yes, the MAX6366HKA26+ is suitable for battery-powered applications due to its low-power operation and wide input voltage range.
What are the key features of the MAX6366HKA26+?
- Some key features of the MAX6366HKA26+ include low quiescent current, adjustable reset threshold, and manual reset input.
Is the MAX6366HKA26+ suitable for automotive electronics applications?
- Yes, the MAX6366HKA26+ is suitable for automotive electronics applications due to its robust design and ability to operate in harsh environments.
How does the MAX6366HKA26+ handle power supply transients?
- The MAX6366HKA26+ includes built-in glitch immunity to ensure that transient voltage spikes do not trigger false resets.
Can the MAX6366HKA26+ be used in conjunction with other supervisory circuits?
- Yes, the MAX6366HKA26+ can be used alongside other supervisory circuits to provide additional layers of protection and redundancy.
What are some typical applications for the MAX6366HKA26+?
- Typical applications for the MAX6366HKA26+ include microprocessor-based systems, industrial control systems, portable devices, and embedded systems.