Digital IR Thermometer uses variable focus optics.

Press Release Summary:




Non-contact, infrared temperature sensor M670S sees through view ports such as glass, quartz, or sapphire without any loss of accuracy. With 7.5 msec response time and temperature range from 350-3,000°C, unit provides digital interface communications with remote addressability for up to 32 sensors. It measures temperature by receiving passive incoming radiation from target at wavelengths from visible light to NIR portion of spectrum.



Original Press Release:



Mikron Introduces the New Model M670S Digital Infrared Temperature Transmitter



Mikron Infrared, Inc. has added the high performance M670S to its line of non-contact infrared temperature sensors. The new smart Mikron M670S is technically among the most advanced infrared thermometers available today, both industrial processes and research applications. This highly accurate and fast temperature measuring device is designed for both stationary and moving objects such as, induction heating of small parts, vacuum melting of metals, heat treating furnaces, glass melting tanks, rotary kilns or temperature of products on conveyer belts. M670S can see through conventional view ports such as glass, quartz or sapphire without any loss of accuracy.

Other outstanding features are:
oUltra-fast 7.5 millisecond response time
oTemperature ranges from 350°C to 3000°C
oDigital interface communications with remote addressability for up to 32 sensors.
oBuilt-in setpoint relay
oUpright through-lens sighting and variable focus optics.
oSimultaneous 4-20mA analog and RS485 digital outputs
oMIRDAC software for remote configuration and monitoring.
oMultiple alarms including ambient over-temperature, hi, low, process rate, etc.
o24Vdc operation
oIntegral bright LED alpha numeric display

The M670S has the ability to measure temperature by receiving passive incoming radiation from a target at very short wavelengths, such as visible light to the near infrared portion of the spectrum. This method insures that the selected wavelength matches the characteristics of the intended application. In addition, the utilization of shorter wavelengths minimizes the impact of target emissivity variation on temperature readings. Also, transmission losses due to the presence of water vapor in the intervening media can be ignored or minimized.

For more information contact Mikron Infrared, Inc. 16 Thornton Rd., Oakland, NJ 07436 USA; Tel. (800)631-0176; Tel. (201)405-0900; Fax (201)405-0090. www.mikroninfrared.com

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