MEATEST M641 Real-Resistance RTD Simulator
The Meatest M641 Real-Resistance RTD Simulator is designed for RTD and other resistance based sensors simulation. It’s 0.1°C accuracy and 5 W load capacity is suited for industrial use
Operated either manually or via one of four available remote control interfaces these decades are ideal for automated checks at production lines.
- Real resistors switched by relays
- Custom temperature scales
- No residual resistance
- 0.1°C accuracy
Authorised Australian Distributor
The Meatest M641 Real-Resistance RTD Simulator is a precise RTD simulator with range from 16Ω to 400 kΩ. Basic accuracy is 0.003 %. Best resolution at the lowest range is 100µΩ. Decade contains stable foil resistors with low temperature coefficient switched by low thermal voltage relays.
The built-in software of the Meatest M641 Real-Resistance RTD Simulator contains function of RTD temperature sensor simulation with parameters according to IEC (DIN) or US standards, temperature setting in degree of Celsius or Fahrenheit. Instrument can be controlled via RS232, USB, LAN or GPIB interface.
The Meatest M641 Real-Resistance RTD Simulator is sophisticated instrument with its own recalibration procedure. The procedure enables to correct any deviation in resistance without any mechanical adjusting. Decade box is designed for checking parameters of resistance meters, regulators and process meters that use external resistance sensors for non-electric quantity measuring.
The Meatest M631 and M641 are programmable real-resistance decades with parameters designed specifically for RTD sensors’ simulation and testing of RTD evaluation units like temperature regulators, transducers, etc. The core function is still resistance so you can as well calibrate ohmmeters and other resistance based meters easily. The main difference between M6x1 RTD simulators is combination of accuracy and load capacity. M641 with its 5 W load capacity is suited for industry where M631 with its 0.01°C accuracy and 0.001°C resolution is rather a laboratory reference. Containing some of the most stable (and expensive) foil resistors available, the M631 has temperature coefficient as good as 1 ppm/°C. RTD simulators can be used for AC application as well, see datasheet for typical frequency responses.
Ease of Use
M6xx series was made to make resistance calibration as easy as it gets. Large LCD shows all related parameters including total accuracy. And there is no residual resistance or hidden absolute error so you don’t have to calculate it by yourself, accuracy you see is accuracy you get. And that’s not the only thing that firmware sorts out for you. Would you like the resistance shown in distance or force units? User function will do this for you. Complete recalibration? Ten minutes and off you go.
RTD simulators’ functions can be remotely controlled via RS232, USB, LAN or GPIB interface. This way you can introduce calibration/test stage directly into production line of any resistance based sensor and reduce time required for final quality tests dramatically.
- Maximum voltage: 200 V pk
- Maximum current: 500 mA
- Total power dissipation: 0.25 W
- TC of used resistors:
< 1 ppm/ C (16 Ω … 2 kΩ)
< 5 ppm/ C (2 kΩ … 10 kΩ)
< 50 ppm/ C (10 kΩ … 400 kΩ)
- Reaction time: 6 ms
- Switching method: Fast / Smooth / Via short / Via open
- Terminals: gold plated terminals 4mm
- Remote control: RS232 interface (optionally USB, LAN, IEEE488)
- Power supply: 115/230 Vac, 50/60 Hz
- Reference temperatures: +20°C … +26°C
- Working temperatures: +5°C … +40°C
- Storage temperatures: -10°C … +50°C
- Dimensions: W 390 mm, H 128 mm, D 310 mm
- Weight: 5.2 kg
Meatest M641 Soecifications:
|Resistance||10 Ω – 300 kΩ
max dissipation power 5 W
± 200 ppm / year
|Temperature||RTD ± 0.1°C / year, resolution 0.01°C|