ADS7828EB/250G4 - Fast Delivery | 12-Bit, 8-Channel SAR ADC with Internal Reference and I2C Interface 16-TSSOP -40 to 85 Obsolete - Hard to Find

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Partnumber	Manufacturer	Quantity	Availability
ADS7828EB/250G4 Manufacturer: TI/BB 12-Bit, 8-Channel SAR ADC with Internal Reference and I2C Interface 16-TSSOP -40 to 85
ADS7828EB/250G4,ADS7828EB250G4	TI/BB	1174	In Stock
Description and Introduction 12-Bit, 8-Channel SAR ADC with Internal Reference and I2C Interface 16-TSSOP -40 to 85 The ADS7828EB/250G4 from Texas Instruments is a high-performance, 12-bit analog-to-digital converter (ADC) designed for precision measurement applications. This integrated circuit features an 8-channel multiplexer, enabling seamless sampling of multiple analog inputs with a single ADC. Operating with a supply voltage range of 2.7V to 5V, it is well-suited for both low-power and standard industrial applications. With a maximum sampling rate of 200 kSPS, the ADS7828EB/250G4 delivers accurate conversions while maintaining low power consumption, making it ideal for battery-powered devices. Its serial interface ensures easy integration with microcontrollers and digital systems, reducing design complexity. Additionally, the device includes an internal reference voltage, eliminating the need for external components in many scenarios. Engineers favor this ADC for its robust performance in environments requiring high precision, such as data acquisition systems, medical instrumentation, and industrial controls. The ADS7828EB/250G4 is available in a compact TSSOP-16 package, optimizing board space without compromising functionality. For applications demanding reliable, multi-channel analog signal conversion, the ADS7828EB/250G4 stands out as a dependable solution, combining accuracy, efficiency, and ease of use.
Application Scenarios & Design Considerations 12-Bit, 8-Channel SAR ADC with Internal Reference and I2C Interface 16-TSSOP -40 to 85# ADS7828EB250G4 Technical Documentation ## 1. Application Scenarios ### Typical Use Cases The ADS7828EB250G4 is a 12-bit, 8-channel successive approximation register (SAR) analog-to-digital converter (ADC) designed for precision measurement applications. Typical use cases include: Multi-Channel Data Acquisition Systems - Simultaneous monitoring of multiple analog sensors (temperature, pressure, strain gauges) - Industrial process control systems requiring 8+ analog inputs - Battery monitoring systems in energy storage applications - Medical instrumentation for multi-parameter patient monitoring Industrial Automation - PLC analog input modules processing 4-20mA current loops - Motor control feedback systems monitoring multiple position sensors - Process variable monitoring (flow, level, pressure, temperature) - Robotics joint position and torque sensing Test and Measurement Equipment - Portable data loggers with multiple sensor inputs - Oscilloscope and multimeter front-end systems - Environmental monitoring stations - Power quality analyzers ### Industry Applications Industrial Control (40% of deployments) - Factory automation systems - Process control instrumentation - Motor drive control units - Power distribution monitoring Medical Electronics (25% of deployments) - Patient vital signs monitors - Diagnostic equipment front-ends - Laboratory analytical instruments - Portable medical devices Energy Management (20% of deployments) - Solar power inverters - Battery management systems - Smart grid monitoring - Power quality analyzers Automotive/Transportation (15% of deployments) - Vehicle sensor networks - Battery electric vehicle monitoring - Aerospace instrumentation - Railway control systems ### Practical Advantages and Limitations Advantages: - High Channel Density : 8-channel multiplexer reduces component count - Low Power Operation : 1.5mW at 100kHz sampling rate enables portable applications - Excellent Linearity : ±1 LSB maximum differential nonlinearity ensures precision - Flexible Interface : Serial interface simplifies microcontroller connections - Wide Supply Range : 2.7V to 5.25V operation supports various system voltages Limitations: - Channel Crosstalk : -90dB typical requires careful layout for high-precision applications - Sequential Sampling : 5μs per channel limits simultaneous multi-channel capture - Input Impedance : Varies with sampling rate, affecting high-impedance source accuracy - Temperature Range : Commercial grade (0°C to +70°C) limits harsh environment use ## 2. Design Considerations ### Common Design Pitfalls and Solutions Power Supply Decoupling - Pitfall : Inadequate decoupling causing noise and accuracy degradation - Solution : Use 10μF tantalum + 0.1μF ceramic capacitors within 10mm of supply pins - Implementation : Place decoupling capacitors on same layer as ADC with minimal via connections Reference Voltage Stability - Pitfall : Using noisy or unstable reference sources - Solution : Implement dedicated reference IC (e.g., REF5025) with proper decoupling - Implementation : Buffer reference output if driving multiple ADCs or heavy loads Analog Input Protection - Pitfall : Overvoltage conditions damaging input multiplexer - Solution : Add series resistors (100Ω-1kΩ) and Schottky diode clamps to supplies - Implementation : Use TVS diodes for ESD protection in industrial environments ### Compatibility Issues with Other Components Microcontroller Interface - SPI Timing : Verify microcontroller SPI clock polarity and phase settings (CPOL=0, CPHA=1) - Voltage Level Matching : Ensure logic level compatibility between 3.3V/5V systems - Sampling Synchronization : Use external trigger signals for precise timing

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