Manufacturer Part Number
MAX6191BESA
Manufacturer
Analog Devices
Introduction
The MAX6191BESA is a precision voltage reference specifically designed for power management applications, offering high stability and low noise.
Product Features and Performance
Fixed 2.048V output voltage
Low noise performance: 40µVp-p (0.1Hz to 10Hz), 105µVrms (10Hz to 10kHz)
Low current consumption: 35µA supply current
Wide voltage input range: 2.5V to 12.6V
Temperature coefficient of 10ppm/°C ensures stable output across temperature variations
Operating temperature range from -40°C to +85°C
Product Advantages
Exceptional tolerance: ±0.24%, offering precise voltage reference
Low power consumption enhances battery life in portable applications
High stability and reliability over temperature and time
Minimal noise contribution to the system, suitable for sensitive applications
Key Technical Parameters
Output Voltage (Min/Fixed): 2.048V
Current Output: 500 µA
Tolerance: ±0.24%
Temperature Coefficient: 10ppm/°C
Noise 0.1Hz to 10Hz: 40µVp-p
Noise 10Hz to 10kHz: 105µVrms
Voltage Input: 2.5V ~ 12.6V
Current Supply: 35µA
Mounting Type: Surface Mount
Package/Case: 8-SOIC
Quality and Safety Features
Engineered to meet high standards of quality and reliability
Operating temperature range supports diverse environmental conditions
Compatibility
Surface Mount Device (SMD) for compatibility with modern PCB assembly processes
Suitable for a wide range of power management circuits due to its wide input voltage range
Application Areas
Precision power supplies
Battery-powered devices
Data acquisition systems
Portable and handheld equipment
Medical devices
Product Lifecycle
The product status is obsolete, indicating the end of its production lifecycle
Users should consider looking for current replacements or upgrades as per the latest analog-devices portfolio
Several Key Reasons to Choose This Product
High accuracy and low tolerance are critical for precision applications
Low noise output suitable for sensitive electronic devices
Wide operating voltage and temperature range increases versatility
Low supply current aids in designing power-efficient applications
Given its obsolescence, ideal for repair or maintenance of existing systems where design continuity is necessary