The first part of the session focuses on an introduction to power systems and goals of power system protection.
This session explains the use case for protection relay, the sequence of events during a fault, fault types and the approach for fault analysis.
The third part of the session provides details on the need to focus on the AC AIM and its use cases in different types of protection relays.
This session explains the representation of voltage or current waveforms in the time and frequency domain.
Design details for TIDA-00834 high accuracy analog front-end using 16-bit SAR ADC with ±10V measurement range reference design
The fifth-part of the session will focus on providing detailed information on the TIDA-00834 design.
This section covers the basics of mechanical water meters and the principle of operation for impeller based water meters.
Learn more about inductive sensing with our FemtoFET™ and CC1350 wireless MCU.
Learn more about multiband sub-1GHz RF sub-systems.
Learn how to implement bidirectional InfraRed PHY communication with a single IR LED.
This video covers the “Innovative seven-segment LCD control using GPIO pins and SW.”
This section introduces the heat and cold meter training series.
ADS1220 delta-sigma family uses the ratiometric approach for measuring RTD sensors with the built-in current excitation source.
TIDA-01526 implements a high-precision DTM sub-system using a 24-bit, low-power, Delta-Sigma ADC.
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.
This section covers what meter tampering is, and introduces the isolated modulator and isolated metrology AFE architectures.
In this section, the different high-side power supply options that are available are discussed.
In this section, the isolated metrology AFE architecture and the TIDA-01550 reference design will be discussed.
In this section, the isolated modulator architecture will be discussed and various isolated modulator designs will also be compared.
This section compares the two isolated shunt sensing architectures and discusses which architecture is best for different system requirements.