RTKA-SEMITECRTDEVAZ

DAQ on a Stick with Semitec RTD Temperature Sensor

Description

This reference design shows the operation of Renesas’ precision products in a temperature sensor application. The application uses Renesas’ data acquisition (DAQ) on a stick reference design that has been modified to work with a Semitec 103AP-2 RTD temperature sensor. The system operates over the temperature range of -60 °C to +150 °C. It has an accuracy of ±1 °C or better.

The reference design is a self-contained demo showing a complete signal chain solution from the Semitec sensor, to the signal conditioning components consisting of a Vishay precision resistor and Renesas precision parts, a Renesas RL78/G1C microcontroller and a graphical user interface (GUI). The image to the right shows the DAQ on a stick connected to the external Semitec temperature sensor.

The complete reference design is conveniently housed in a USB stick form factor with plug-in connection for the temperature sensor. This compact design draws power through the USB port and uses a GUI to display the real-time temperature readings from the temperature sensor onto the computer.  

The image below shows a simplified block diagram of the temperature sensor design. The design uses a Semitec 103AP-2 thermistor, a Vishay Precision Group 500Ω ±0.1% precision resistor, Renesas’ ISL28634 instrumentation amplifier (in amp), ISL21090 2.5V precision voltage reference, ISL21010 4.096V precision voltage reference, ISL21010 3.3V precision voltage reference, the ISL26104 24-bit Delta-Sigma converter, ISL22316 digitally controlled potentiometer (DCP), and an R5F10JBC (RL78/G1C) microcontroller.

Key Features

  • Self-contained demo platform
  • 24-bit ADC with programmable sample rate
  • Zero-drift amplifiers
  • Real-time graphing on a GUI
  • Accurracy of ±1 °C or better for a range of -60 °C to +150 °C

Software and Tools

The installation application includes the following items:

  • GUI software
  • Desktop shortcut for easy access
  • Application note and schematics

RTD Temperature Sensor Reference Design

DAQ on a Stick with Semitec RTD Temperature Sensor

Related Products

ISL28634
Programmable Instrumentation Amplifier

ISL21090
2.5V Precision Voltage Reference

ISL21010
4.096V Voltage Reference

ISL21010
3.3V Voltage Reference

ISL26104
24-bit Delta-Sigma Converter

ISL22316
Digitally Controlled Potentiometer (DCP)

R5F10JBC
(RL78/G1C) Microcontroller

User Guide

TitleTypeLast Updated DateSize
RKTA-SEMITECRTDEVZ User’s Manual
RKTA-SEMITECRTDEVZ Evaluation Board User’s Manual
PDF 27 Jun 2019 430 KB

Datasheets

TitleTypeLast Updated DateSize
ISL21010 Datasheet
Micropower Voltage Reference
PDF 19 Apr 2019 3.43 MB
ISL21090 Datasheet
Ultra Low Noise, Precision Voltage Reference
PDF 19 Jul 2018 1.72 MB
ISL22316 Datasheet
Low Noise, Low Power I2C® Bus, 128 Taps
PDF 19 Jul 2018 1017 KB
ISL23328 Datasheet
Dual, 128-Tap, Low Voltage Digitally Controlled Potentiometer (XDCP)
PDF 19 Jul 2018 1.17 MB
ISL26102, ISL26104 Datasheet
Low-Noise 24-bit Delta SIgma ADC
PDF 19 Jul 2018 1.31 MB
ISL28533, ISL28534, ISL28535, ISL28633, ISL28634, ISL28635 Datasheet
5V, Rail-to-Rail I/O, Zero-Drift, Programmable Gain Instrumentation Amplifiers
PDF 19 Jul 2018 2.21 MB
RL78/G1C Data Sheet
R01DS0348EJ0120_RL78G1C
PDF 20 Sep 2016 1.49 MB

TitleTypeLast Updated DateSize
RTKA-SEMITECRTDEVAZ Software Installer
Software installer for the DAQ on a Stick with Semitec RTD Temperature Sensor
EXE 13 Jul 2019 15 MB

WEEE Questionnaire: The WEEE Return Questionnaire is intended for the return of EEEs supplied by Renesas Electronics Europe to its customers in the European Union only.

Disclaimer: THIS MATERIAL IS PROVIDED “AS-IS” FOR EVALUATION PURPOSES ONLY. RENESAS ELECTRONICS CORPORATION AND ITS SUBSIDIARIES (collectively, “Renesas”) DISCLAIM ALL WARRANTIES, INCLUDING WITHOUT LIMITATION, FITNESS FOR A PARTICULAR PURPOSE AND MERCHANTABILITY. Renesas provides evaluation platforms and design proposals to help our customers to develop products. However, factors beyond Renesas' control, including without limitation, component variations, temperature changes and PCB layout, could significantly affect the product performance. It is the user’s responsibility to verify the actual circuit performance.