TAG: temperature

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The following Controller Boards are compatible with the DA 24/7 Wildcard™ • PDQ-Board-Users-Guide • QCard-Users-Guide • Handheld-(Legacy) …scientific-measurement, analog, temperature
Conductivity sensing I/O board precisely measures aqueous liquid conductances/conductivities. [Conductivity-cell-transmitter] The Conductivity Sensing Wildcar…analog, data-acquisition, temperature, scientific-measurement, pid-control
Rather than using the NIST polynomial, convert thermocouple voltages to temperatures efficiently using rational polynomial function equations. The potential or…temperature
[Analog-I/O-Signal-Conditioning-Filter] The I/O Filter Wildcard™ provides a place for prototyping analog circuitry or for filtering or conditioning I/O lines of…analog, data-acquisition, prototyping, motor-control, scientific-measurement, temperature, robotics, pid-control
The PWM Driver Wildcard, intended for use with the PDQ Board microcontroller and PDQ Screen Controllers, contains eight MOSFET PWM low-side drivers which conver…solenoid-control, pid-control, motor-control, digital, temperature
Eight optically isolated high-current open-drain MOSFET digital output lines [Opto-isolated-high-current-digital-outputs-to-control-motors,-heaters,-valves,-so…digital, motor-control, pid-control, solenoid-control, temperature
[Microcontroller-I/O-board-for-data-acquisition-contains-an-op-amp-signal-conditioning-amplifier,-filter,-current-to-voltage,-and-voltage-to-current-converter-f…analog, industrial-communications, solenoid-control, scientific-measurement, pid-control, temperature, motor-control
This glossary defines the important constants and C library functions that comprise the Thermocouple Measurement Wildcard driver code. The Thermocouple Measure…scientific-measurement, temperature, data-acquisition
This document describes how to use the Thermocouple Measurement Wildcard(tm). It provides an overview of the hardware and software for the Wildcard as well as a…scientific-measurement, temperature, data-acquisition
Reducing thermocouple measurement noise Thermocouple voltages are quite small, with only 4 microvolts corresponding to a temperature difference of 0.1°C. Cons…temperature
Convert type B thermocouple voltages to temperatures efficiently using rational polynomial function calibration equations. If you use Mosaic's Thermocouple Wil…temperature
Convert type E thermocouple voltages to temperatures efficiently using calibration equations based on rational polynomial function. For those using Mosaic's Th…temperature
Calibrate and convert type J thermocouple voltage to temperature efficiently using rational polynomials. If you use Mosaic's Thermocouple Wildcard, Type J ther…temperature
Mosaic's Thermocouple Wildcard automatically converts measured voltages to temperatures for you, and with high accuracy. However, if you are not using the Mosa…temperature
Convert type N thermocouple voltages to temperatures efficiently using rational polynomial function calibration equations. If you use Mosaic's Thermocouple Wil…temperature
Convert type R thermocouple voltages to temperatures more accurately using rational polynomial functions. Mosaic's Thermocouple Wildcard incorporates high accu…temperature
Convert type S thermocouple voltages to temperatures efficiently using rational polynomial function calibration equations. For those using Mosaic's Thermocoupl…temperature
Calibrate and convert type T thermocouple voltage to temperature accurately using rational polynomial function equations. If you are using the Thermocouple Wil…temperature
 
 
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