Texas Instruments ADS8402 EVM, ADS8412 EVM manual FCC Warning

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Contents

FCC Warning

This equipment is intended for use in a laboratory test environment only. It gen- erates, uses, and can radiate radio frequency energy and has not been tested for compliance with the limits of computing devices pursuant to subpart J of part 15 of FCC rules, which are designed to provide reasonable protection against radio frequency interference. Operation of this equipment in other en- vironments may cause interference with radio communications, in which case the user at his own expense will be required to take whatever measures may be required to correct this interference.

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Contents User’s Guide Important Notice Products ApplicationsEVM Important Notice EVM Warnings and Restrictions Data Sheets Literature Number Read This FirstFCC Warning Contents Figures TablesFeatures Introduction EVM OverviewFeatures IntroductionSignal Conditioning Reference Analog InterfaceSignal Conditioning Analog Input ConnectorDescription Signal Name Connector.Pin# Solder Short Jumper Setting Reference Description Jumper Setting DesignatorReference Page Pinout for Parallel Control Connector P2 Connector.Pin Signal DescriptionDigital Interface Pinout for Converter Control Connector J3 Jumper Settings for Decoder OutputsData Bus Connector P3 Reference Designator Description Jumper SettingsPower Connector, J1, Pinout Power Supply RequirementsPower Supply Test Points Test Point Signal DescriptionPage Using the EVM As a Reference Board As a Prototype BoardAs a Software Test Platform ADS8402/ADS8412EVM BOM, Layout, and Schematic ADS9393EVM Bill of Materials ADS8402/ADS8412EVM Bill Of MaterialsADS8402/ADS8412EVM BOM, Layout, and Schematic ADS8402/ADS8412EVM Layout Top Layer-LayerGround Plane-Layer Power Plane-Layer Bottom Layer-Layer ADS8402/ADS8412EVM Schematic +IN SJP4 TP6 +5VCC

ADS8402 EVM, ADS8412 EVM, ADS8402 specifications

Texas Instruments is renowned for its innovative semiconductor solutions, and the ADS8402 and ADS8412 analog-to-digital converters (ADCs) showcase the company's commitment to precision in data acquisition applications. The ADS8402 is a 16-bit, 2-channel ADC renowned for its high performance and versatility. It operates at data rates up to 1 MSPS (Mega Samples Per Second), making it ideal for a range of applications including industrial automation, high-speed data acquisition systems, and medical instrumentation.

The ADS8402 boasts a differential input architecture that enhances noise immunity and improves measurement accuracy. With features such as integrated voltage reference and a programmable gain amplifier, the device allows for adaptability in handling various signal levels. Its low power consumption further extends its appeal for portable and battery-operated devices. The device comes equipped with an internal clock generator, simplifying system design by reducing external components.

For developers looking to evaluate the performance of the ADS8402, the ADS8402 EVM (Evaluation Module) provides a robust platform. The EVM includes the necessary hardware for quick and convenient testing of the device's capabilities. It features numerous connectivity options, enabling users to interface with a variety of microcontrollers and processors. Benefiting from TI's extensive software support, the EVM allows for easy data visualization and manipulation through compatible software platforms.

On the other hand, the ADS8412 is an advanced 16-bit ADC with a single channel and supports faster sampling rates up to 2 MSPS. It is designed for applications requiring high precision and high throughput. The device features an integrated digital filter that significantly lowers noise and enhances signal integrity. The ADS8412 is particularly well-suited for precision measurement systems in industries such as telecommunications and data acquisition.

The ADS8412 EVM caters to users who wish to explore the capabilities of the ADS8412 with ease. Similar to the ADS8402 EVM, the ADS8412 evaluation module provides structured support for testing with readily available interfaces. This makes it an invaluable tool for engineers and developers looking to integrate high-performance ADCs into their designs.

Both the ADS8402 and ADS8412 ADCs exemplify Texas Instruments' dedication to delivering high-quality, innovative technologies that meet the demands of modern applications. With their combination of precision, speed, and adaptability, these ADCs are excellent choices for engineers seeking reliable data acquisition solutions.