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Overview of temperature measurement in heat meters

This section introduces the heat and cold meter training series. The series covers the basics of RTD sensors and their usage in heat and cold meters, as defined in the EN1434 set of standards.

Measuring RTD sensors with Delta-Sigma ADS1220 family

ADS1220 Delta-Sigma family uses the ratiometric approach for measuring RTD sensors with the built-in current excitation source. Offset and gain calibration are required before the resistance measurement is converted into a temperature reading by the application MCU.

Differential Temperature Measurement sub-system reference design

TIDA-01526 implements a high-precision Differential Temperature Measurement (DTM) subsystem using a 24-bit, low-power, Delta-Sigma ADC. Heat and cold meter DTM subsystems typically use two 2- or 4-wire RTDs such as PT100, PT500 or PT1000 and can achieve measurement accuracy of 20 mK over a water temperature range of 3°C to 180°C. The MSP430FR6047 application MCU converts the resistance value into a temperature reading in TIDA-01526.

Digital temperature sensor replacement of RTD sensors with TMP116

The TMP116 digital precision temperature sensor for the -55 to +125ºC range achieves higher accuracy than the Class AA PT sensor with a 1-point calibration. A small PCB including TI's TPD1E10B06 or TPD1E04U04 protection devices can be sealed into a RTD metal tube and meet the EN 61000-4-2 and -4-4 levels of ESD protection. The 64-bit internal EEPROM inside TMP116 stores user defined calibration data into the digital temperature sensor, simplifying integration with application MCUs, such as MSP430FR6047, FR6989 or CC13xx/26xx wireless MCU families.

Engineer It Analog How-to Training

Data converters

From simplifying high voltage current measurements to getting the most out of a SAR ADC, these data converter training videos explore everything from selecting the right DAC to defining a multiplying DAC.  

Engineer It Analog How-to Training

Engineer It

Engineer It is an educational, “how-to” video series where TI experts provide fundamental knowledge and solutions to overcome design challenges. Here, you can learn how to spin your motor in minutes, avoid amplifier input/output swing limitations, test and isolate power supplies and more from industry experts.

The HART of the Current Loop: Designing SMART Field Transmitters and PLCs with TI's Very First HART Modem

This presentation series covers analog output design and how HART is used in both analog input modules and analog output modules. It also provides information on the HART testing and certification process.

Signal Acquisition system using TI’s High Resolution SAR Converters

The report illustrates a differentially driven signal fed into TI’s 20 bit SAR ADC. This results in raw data available for data processing. This has zero latency and high linearity.

This TI design illustrate the CW Doppler signal conditioning for an ultrasound machine. The input signal bandwidth up to 100KHz and 128 differential signals from AFEs are summed together in a differential high speed amplifier and digitized with TI SAR ADC.

This presentation also addresses :

An adaptive circuit for adjusting the cut off frequency of anti-aliasing circuit in our explanations.

Precision DACs (<=10MSPS) – Learning center

The Precision DAC Learning Center is a collection of technical content that will help guide you through the precision DAC design process. Whether you are learning the basics of digital-to-analog conversion or trying to understand how to implement a precision DAC in your system, this learning center provides a range of videos, articles, and blogs to help you along the way.

Fundamentals

Become familiar with TI's DAC portfolio and what it offers your designs. 

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Specifications

How do DAC specifications change and enhance your design? Find out here. 

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Architectures

Take a look at common precision DAC architectures, and find the perfect fit for your design. 

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Identifying the right DAC

With so many options available, how do you chose the right DAC? Let us help! 

Troubleshooting a DAC

Running into trouble?! Don't worry, the right solution is just a click away. 

Factory automation and control

Go-to information for DACs in factory automation and control applications. 

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Modeling

Learn more about DAC SPICE models and use cases. 

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Power control

Dig in to voltage monitoring and control with your DAC. 

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Automotive

Fuel up on knowledge about DACs and automotive designs. 

How to synchronize high speed multi-channel clocks?

Modern high speed end equipment's like oscilloscope, 5G wireless communication tester and RADAR requires multichannel transceiver system. The biggest challenge is to provide the high frequency, low phase noise, multiple synchronized clocks to each transceiver's data converters and local oscillator. This training will explain how to synchronize the high speed multi-channel clocks and expand for high channel count clocks requirement.

Industrial Op Amp Webinar

Date:
August 26, 2015

Duration:
01:04:23
Are you being asked to do more with less? Most system designers are. That’s why we’re providing more precision amplifier tools and resources than ever. From par
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