MCP6562-E/SN - Microchip Technology

Manufacturer Part Number

MCP6562-E/SN

Manufacturer

Microchip Technology

Introduction

A general-purpose dual comparator device optimized for low-power, low-voltage applications

Product Features and Performance

Dual comparator elements

CMOS, Push-Pull, Rail-to-Rail, TTL compatible outputs

Low input offset voltage: 10mV max at 5.5V

Ultra-low input bias current: 1pA max at 5.5V

Output current capability: 50mA typical

Low quiescent current: 130µA max

Good CMRR and PSRR: 66dB CMRR, 70dB PSRR typical

Fast propagation delay: 80ns max

Integrated hysteresis: 5mV

Operational temperature range: -40°C to 125°C

Product Advantages

Low power consumption makes it suitable for battery-powered devices

Rail-to-rail output provides maximum dynamic range

High output drive current for driving heavy loads

Compatible with both CMOS and TTL logic levels

Wide supply voltage range for flexibility in various applications

Key Technical Parameters

Supply voltage range: 1.8V to 5.5V

Input offset voltage

Input bias current

Output current

Quiescent current

CMRR and PSRR

Propagation delay

Hysteresis

Operating temperature range

Quality and Safety Features

Built to high-quality standards of Microchip Technology

Conforms to applicable safety regulations

Compatibility

Compatible with various microcontrollers and digital systems

Applicable for use with both single and dual supply operations

Interoperable with CMOS and TTL logic circuits

Application Areas

Sensing and detection systems

Battery-powered devices

Power supply control

Window comparators

Multivoltage digital systems integration

Product Lifecycle

Active status, not nearing discontinuation

Replacement or upgrades available if needed

Several Key Reasons to Choose This Product

Low input offset current and low power suits precision applications

Versatile supply voltage range aligns with a variety of power sources

The fast response helpful in timing-critical applications

Robust output current enables direct interface with a wide range of loads

Operational across a broad temperature span suits extreme-environment designs

High CMRR and PSRR ensure stability against power supply variations and common-mode signals