Manufacturer Part Number
MAX6165AESA
Manufacturer
Analog Devices
Introduction
The MAX6165AESA is a precision voltage reference IC from Analog Devices, part of their power management and voltage reference category.
Product Features and Performance
Series voltage reference with fixed 5V output
Low output noise of 60µVp-p (0.1Hz to 10Hz) and 60µVrms (10Hz to 10kHz)
Stable output with a tight tolerance of ±0.04%
Low temperature coefficient of 5ppm/°C for consistent performance across temperature variations
Output current capability of 5 mA
Supports wide input voltage range from 5.2V to 12.6V
Low supply current draw of 120µA optimizes power efficiency
Product Advantages
High precision and stability for critical applications
Low noise performance suitable for sensitive electronics
Efficient power consumption for better system power management
Key Technical Parameters
Output Voltage: 5V (fixed)
Output Current: 5 mA
Tolerance: ±0.04%
Temperature Coefficient: 5ppm/°C
Input Voltage Range: 5.2V ~ 12.6V
Supply Current: 120µA
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Obsolescence status for reliability tracking
Compliance with industry-standard safety and quality norms
Compatibility
Compatible with 8-SOIC surface mount packaging systems
Easily integrable into a variety of electronic circuits
Application Areas
Used in precision voltage regulation for industrial, medical, and telecommunication equipment
Ideal for data converters, analog-to-digital converters, and high-precision instrumentation
Product Lifecycle
Obsolete status
Users should seek replacements or upgrades for current designs
Possible availability of alternative parts with similar specifications
Several Key Reasons to Choose This Product
Stable and precise voltage regulation
Highly accurate with low output noise, optimal for noise-sensitive applications
Efficient power management due to low supply current
Wide operating temperature range suitable for harsh environments
Analog Devices' reputation for quality and reliability in voltage reference ICs