Temperature Measurement
Solutions
The miniature measuring amplifiers of the MAL-Series make the connection to the measuring systems of BMC Messsysteme GmbH totally easy. Using 5B compatible measuring amplifiers a galvanic separation of the signal is possible.
With the miniature measurement amplifiers of the MAL-Series it is very easy to connect your sensors to the measurement systems of BMC Messsysteme GmbH. With our 5B compatible measurement amplifiers these signals can even be galvanically isolated from the measurement system.
Measurement Device
- 16 analog inputs
(16 bit, ±10V, ±5V, ±2V, ±1V) - max. sampling rate 250kHz
- 2 analog outputs (16 bit, ±10V)
- analog channels electrically isolated
- 4 digital inputs and outputs each
(TTL/CMOS) - 1 counter (16 bit, isolated)
- bus-powered
- USB 2.0, high-speed
Measurement Amplifier
- compact & powerful
- size: 24-pin DIL IC
- 50Hz bandwidth
- differential input
- measured quantities: temperature (PT100), 0..300°C
- linearization
- sensor supply 1mA
- output filter 6dB/oct.
Connection Technology
- connectors for 16+4 channels
- 37 jacks for 4mm banana plugs, 18 terminal connectors (4-pin)
- connect to DAQ system at D-Sub 37 male
- sensor supply for 16 channels
Complete Package
Now you've got an all-round carefree package for your measurement task. From your sensor to the connection technology, to connecting cables right through to displaying live data of our signals. Best components, combined perfectly.
This combination of our all-in-one AMS-Series in connection with the NextView-Software is an extremely powerful, flexible and yet very compact system, that leaves no wishes unanswered.
Measurement Software
- Visualize. Configure.
Scan. Analyze. - Application-oriented.
No programming. - Various versions.
- Show signals.
Live or recorded. - MultiScan & File Train. (just NV Pro)
- Trigger & Prehistory. (just NV Pro)
Measurement Device
- 5B compatible for measurement amplifiers of the MA-Series
- 8 amplifier inputs, 8 analog inputs (non-amplified)
- 16 bit, max. 250kHz
- 2 analog outputs (16 bit, ±10V)
- 32 digital channels (2x16 bit, TTL/CMOS)
- 3 counters (32 bit, max. 16 MHz) for pulse, incremental encoder, or pulse-time measurement
- power supply 12-40V
- TCP/IP Ethernet (Twisted Pair)
- synchronized to real-time
- individual plug-in cassettes installable per channel
Complete Package
Now you've got an all-round carefree package for your measurement task. From your sensor to the connection technology, to connecting cables right through to displaying live data of our signals. Best components, combined perfectly.
In Detail
To give your application a complete measurement system you will need several components. Below we offer a perfect solution from our modular product range, preconfigurated and optimized in price and value.
Of course all components can be adjusted to your individual needs. Our team is more than happy to help any time via phone or mail.
Temperature measurement is the most popular kind of measurement in measuring technology. For example surrounding from -20 ... +50°C or temperatures in technical application ranges that can be over 1.000°C are widely used. In most cases temperature changes very slow. There are special cases, e.g. a firing point in which the temperature changes in just a few milliseconds.
Basically there are two very different measuring methods for acquiring temperatures within industrial measuring technology. For one the acquisition of the resistance value of a PT-100 sensor. On the other hand the measuring of minimal voltage of a thermo element. The PT-100 measurement requires measuring amplifiers that adjust and enhance the non-linear resistance value. For thermo elements a measuring amplifier with very high amplification is necessary that also adjusts the non-linear signal. Unlike the PT-100 measuring the measurement with a thermo element is just a difference measurement. That means that the thermo element measures the difference in temperature between the actual thermo element and the connection point to the measuring system. Therefore the temperature at the connection point has to be measured very precisely to get an exact result. In the PT-100 measuring technology attention should be paid to the fact that resistance in the cable lenght distorts the measuring result. This can be avoided by using four-wire-technology. A contact free temperature measurement can be achieved by applying an infrared temperature meter. This involves high expenses and limited precision.