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The SEM203P is a push button configurable in-head transmitter that accepts PT100 temperature sensors and converts sensor
output over a configured range to a standard industrial (4 to 20) mA transmission signal. A simple push button operation allows
the user to not only select the desire range and burnout direction but also perform user trim at both (4 and 20) mA points. If required, the desired range can be specified at the time of order, removing the need for user configuration
The SEM203TC is a cost effective in head transmitter that accepts thermocouple temperature sensors and converts sensor output over a configured range to a standard industrial (4 to 20) mA transmission signal. A simple push button operation allows the user to select TC type, burnout direction, select fixed ranges and trim the (4 and 20) mA points. If required the desired range can be specified at the time of order, removing the need for user configuration.
The SEM203W potentiometer transmitter is an in-head transmitter that accepts potentiometer sensors and converts the sensor output over a configured range to a standard industrial (4 to 20) mA transmission signal. A simple push button operation allows the user to select the desired transmitter range manually, by setting the slide wire position and pressing button to store at both the (4 and 20) mA points.
The SEM206P is a cost effective “smart” in head transmitter that accepts PT100 temperature sensors and
converts sensor output over a configured range to a standard industrial (4 to 20) mA transmission signal.
PC configuration allows the user to select Range, units and Burnout direction, without requiring calibration
equipment. Configuration is performed quickly using our USB port driven configurator by simply connecting two clips
to the SEM206P loop terminals and following the software instructions. Calibration set up may be saved as a file on
the PC for later use. If required the desired range can be specified at the time of order, removing the need for user configuration.
The SEM206TC thermocouple temperature transmitter is a cost effective “smart” in head transmitter that accepts thermocouple temperature sensors and converts sensor output over a configured range to a standard industrial (4 to 20) mA transmission signal.
PC configuration allows the user to select TC type, Range, units and Burnout direction, without requiring calibration
equipment. Configuration is performed quickly using a our new USB port driven configurator by simply connecting two
clips to the SEM206TC loop terminals and following the software instructions. Calibration set up may be saved as a
file on the PC for later use. If required the desired range can be specified at the time of order, removing the need for user configuration.
The SEM206TH potentiometer transmitter is an in-head transmitter that accepts potentiometer sensors and converts the sensor output over a configured range to a standard industrial (4 to 20) mA transmission signal. A simple push button operation allows the user to select the desired transmitter range manually, by setting the slide wire position and pressing button to store at both the (4 and 20) mA points.
The TTR200 RTD temperature transmitter accepts huge range of sensors including Pt100, Pt500, Pt1000, Potentiometer, and Resistance sensors and generates an industry standard (4 to 20) mA transmission signal. The product can be easily programmed using our free USB Speedlink software and a standard USB lead (safe area version). Used with potentiometer and mV inputs, a linearisation feature is available allowing the mA output to act as required over 22 points of the input signal.
The TTC200 thermocouple temperature transmitter accepts most commonly used thermocouple and mV sensors and generates an industry standard (4 to 20) mA transmission signal. The product can be easily programmed using our free USB Speedlink software and a standard USB lead (safe area version). The mV input also has a linearisation feature allowing the mA output to act as required over 22 points of the input signal.
The SEM210 universal temperature transmitter accepts most commonly used Pt100, thermocouple, mV , potentiometer sensors and generates an industry standard (4 to 20) mA transmission signal. The product can be easily programmed using our free USB Speedlink software and a standard USB lead (safe area version).
The SEM310 HART temperature transmitter is a universal device which accepts most commonly used Pt100, thermocouple, mV , potentiometer sensors and generates an industry standard (4 to 20) mA transmission signal. Compatible to HART 5, 6, or 7 the product can be easily programmed using our free USB Speedlink software and a standard USB lead (safe area version). It can also be programmed via a HART communication device / system.
The SEM104 is a (4 to 20) mA temperature sensor transmitter which can be housed in a head mount DIN standard enclosure. The SEM104P is for Pt100 inputs and is field rangeable if necessary, using links on the printed circuit board and the use of on-board SPAN and ZERO potentiometers. A wide selection of compatible probe assemblies are available with various immersion lengths and process connections.
The SEM104TC is an analogue temperature transmitter that accepts thermocouple temperature sensors. Its temperature range is set by selecting solder links and adjusting potentiometers for the 4 and 20mA output. (If you already know the range you require, we can do this for you.) This type of transmitter has a virtually instantaneous response time over the modern digital transmitters. So in applications where this is important, these are ideal.
The SEM110 is an analogue temperature transmitter that accepts Pt100, Differential, Potentiometer and Resisitance sensors. Its range is factory set and can not be changed. Calibration is achieved by adjusting potentiometers for the 4 and 20mA output.
ATEX versions of the SEM110 are also available.
This type of transmitter has a virtually instantaneous response time and higher accuracy over the modern digital transmitters. So in applications where this is important, these are ideal. There is no software in the product, so in applications where long life, high reliability and stability are important, these products are ideal. For example, the nuclear industry.
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