Manufacturer Part Number
ADS8330IBRSAT
Manufacturer
Texas Instruments
Introduction
The ADS8330IBRSAT is a high-performance, 16-bit analog-to-digital converter with a high sampling rate and flexible input configurations.
Product Features and Performance
16-bit resolution
Sampling rate up to 1 MSPS (Mega Samples Per Second)
Two analog inputs with differential or single-ended capability
SPI data interface for easy communication
S/H-ADC configuration with a 1:1 sample-and-hold to ADC ratio
Single A/D converter
SAR (Successive Approximation Register) architecture for precision and speed
External reference voltage required
Product Advantages
High-resolution ADC suitable for precise data acquisition
Fast sampling rate ideal for high-speed applications
SPI interface facilitates simple integration with microcontrollers and digital systems
Compatible with various input signal types, enhancing versatility
Reliable performance across a wide operating temperature range
Key Technical Parameters
Number of Bits: 16
Sampling Rate: 1M samples per second
Number of Inputs: 2
Input Type: Differential, Single Ended
Data Interface: SPI
Architecture: SAR
Voltage - Supply, Analog: 5V
Voltage - Supply, Digital: 1.65V to 5.5V
Operating Temperature: -40°C to 85°C
Quality and Safety Features
Designed to operate reliably over an industrial temperature range
Built to Texas Instruments' rigorous quality standards
Compatibility
SPI data interface for compatibility with most microcontrollers
Flexible input voltage range for interfacing with different signal levels
Application Areas
Industrial control systems
Medical instrumentation
Communication systems
Data acquisition systems
Product Lifecycle
Active product status indicating current production with support available
Not reported as nearing discontinuation
Replacements or upgrades may be available if specifications change
Several Key Reasons to Choose This Product
Texas Instruments' reputation for quality and reliability
High-resolution conversion for accurate data acquisition
Fast sampling rates for real-time monitoring applications
Compatibility with a wide range of microcontroller systems
Robust performance across a broad temperature range
Easy integration with existing digital systems using SPI
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