Manufacturer Part Number
MAX6164BESA
Manufacturer
analog-devices
Introduction
The MAX6164BESA is a precision voltage reference part of the power management integrated circuits (PMIC) category, specifically designed for voltage reference tasks.
Product Features and Performance
Series reference type with fixed output voltage
Output voltage precisely set at 4.096V
Supports output currents up to 5 mA
Tight tolerance level of ±0.12%
Stable across temperature variations with a coefficient of 10ppm/°C
Low noise performance, 50µVp-p (0.1Hz to 10Hz) and 50µVrms (10Hz to 10kHz)
Input voltage range from 4.296V to 12.6V
Low supply current requirement of 120µA
Designed for operation over a wide temperature range (-40°C to 85°C)
Surface mount package form factor, in an 8-SOIC package
Product Advantages
High accuracy and stability for critical applications
Low noise output for sensitive electronics
Wide input voltage range for flexibility in different power supplies
Efficient power usage due to low supply current
Rugged temperature range for use in harsh environments
Key Technical Parameters
Voltage Output (Min/Fixed): 4.096V
Current Output: 5 mA
Tolerance: ±0.12%
Temperature Coefficient: 10ppm/°C
Voltage Input: 4.296V ~ 12.6V
Current Supply: 120µA
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
Ensures stable output under varying environmental conditions
Compliance with standard industrial specifications for safety and performance
Compatibility
Compatible with surface mount technology (SMT) for easy integration into existing designs
Application Areas
Precision instrumentation
High-accuracy data conversion
Power supplies
Automotive electronics
Medical devices
Industrial automation
Product Lifecycle
The product is marked as obsolete, indicating it is nearing discontinuation
Customers are encouraged to look for replacements or upgrades for future designs
Several Key Reasons to Choose This Product
Precision and reliability in voltage referencing tasks
Beneficial for high-accuracy and low-noise requirements
Flexible across a wide range of input voltages
Economical power consumption for energy-sensitive projects
Suitability for a variety of stringent application environments
Although obsolete, it remains a viable choice for existing designs requiring minimal disturbance
