USB Type-C and USB PD Controller Power Switch/High-Speed ​​Multiplexer Reference Design

TIDA-00714 TI Design is a complete TPS65982-based reference design for USB Type-C and power delivery applications. Allows users to develop various power profiles and alternate modes (such as DisplayPort) and debug existing USB Type-C and power delivery systems.

Schematic PCB

Magnetic Tamper Detection Reference Design Using Low Power Hall Effect Sensors

Magnetic tampering can disable any transformer in an energy metering system, which may result in the system not being properly powered or the energy being consumed by the load being recorded incorrectly. This design enables a Class 0.2 three-phase energy metering system that uses Hall sensors to detect magnetic tampering. Magnetic tamper detection is enabled when operating from primary and backup power. Various methods are employed to reduce the current consumption of Hall sensors in order to extend battery life when operating from backup power.

Schematic PCB

Automotive pre-buck and post-boost reference design using CAN discrete SBC

The TIDA-01428 reference design sequentially implements a 1A, wide input voltage 3.3V buck converter, followed by a compact low input voltage 5V fixed boost converter to power the Controller Area Network (CAN) physical layer interface. This design has been tested for CISPR 25 radiated emissions and conducted emissions using voltage methods, and for immunity to Bulk Current Injection (BCI) per ISO 11452-4 by operating CAN communications at 500KBPS. TIDA-01428 is an EMC-vetted power tree and CAN reference design that can be used in many automotive applications. A system basis chip (SBC) is an integrated circuit (IC) that combines several typical building blocks of a system, including transceivers, linear regulators, and switching regulators. While these integrated devices can provide size and cost savings in many applications, integrated devices do not work well in every situation. For applications where SBC is less suitable, a better approach is to build discrete implementations of the above building blocks to create a discrete SBC.

Schematic PCB

Multi-parameter patient vital signs monitor front-end reference design

This reference design is for a multiparameter front end of a patient monitor that measures vital sign parameters like ECG, heart rate, SpO2 and respiration.it uses biosensing front end integrated circuits like the AFE4403 and ADS1292R devices, to measure these parameters. It also uses three TMP117 sensors to accurately measure skin temperature. This design can interface with the pace detection module to detect the pace pulse. The design also uses an isolated UART connection to transfer data to a computer. The entire front end subsytem runs on a rechargeable 3.7V li ion battery.

Schematic PCB

Near Field Communication (NFC) Reader/Writer Reference Design

This Near Field Communication (NFC) reference design provides a firmware example for implementing an NFC reader/writer application using the TRF7970A NFC transceiver. This reference design provides a number of easy-to-use application programming interfaces (APIs) that allow users to quickly implement NFC reader/writer functionality. The accompanying documentation, hardware, and sample C code allow designers to develop NFC reader/writer applications using the ultra-low-power MSP430/MSP432 MCUs or easily port to other carefully selected MCUs.

Schematic PCB

Liquid-resistant capacitive touch keyboard reference design

Liquid Tolerant Capacitive Touch Keyboard Design (TIDM-1021) is a reference design for implementing a liquid tolerant capacitive touch human machine interface (HMI). It integrates TI's MSP430FR2633 microcontroller (MCU) with high-performance CapTIvate™ touch technology and optimized sensor layout design and software. This reference design demonstrates how to design capacitive touch hardware and software that can operate reliably under the influence of liquids and pass challenging conducted noise immunity testing.

Schematic PCB

ADC120 8-Channel, 50ksps to 1Msps, 12-Bit Analog-to-Digital Converter Evaluation Board

Evaluation board for the ADC120 8-channel, 50ksps to 1Msps, 12-bit analog to digital converter

Schematic PCB

CN0206

Thermocouple temperature measurement system with current consumption less than 500 μA

Schematic PCB

CN0209

Fully programmable universal analog front end for process control applications

Schematic PCB

CN0214

USB thermocouple temperature measurement system using ARM7

Schematic PCB

CN0218

500 V common mode voltage and current monitor

Schematic PCB

CN0219

^{Adopt ADAV801/ADAV803 audio codec to implement S/PDIF and I 2} S interface with SigmaDSP codec

Schematic PCB

CN0224

Quad HDMI input using ADV7612 receiver, fast switching multiplexer with extended temperature range

Schematic PCB

CN0241

High-side current sensing with input overvoltage protection

Schematic PCB

CN0313

EMC COMPLIANT RS-485 Transceiver Protection Circuit

Schematic PCB

CN0368

Reluctance angle and linear position measurement

Schematic PCB

CN0263

Robust video receiver with battery short-circuit protection on input      

Schematic PCB

CN0264: Robust Composite Video Transmission Solution with Output Short-to-Battery Protection for Rearview Cameras and Rear Seat Entertainment Systems

Robust composite video transmission solution with output short-to-battery protection

Schematic PCB

CN0275

Complete broadband driver and receiver solution for video over UTP for RGB, YPbPr and more

Schematic PCB

CN0281

Using ADuC7060/ADuC7061 precision analog microcontroller to build a thermocouple temperature sensor with cold junction compensation based on automotive SENT interface

Schematic PCB