Thermal Sensors For Low Power Lasers A-02-D12-BBF
Description
Thermal methods of measuring power and energy are those in which radiant energy is absorbed and converted into heat, which generates a temperature rise in the absorber. The absorbed energy is then measured through a function that takes into account the temperature gradient between the hot area (where the laser strikes) and a cool area (where the generated heat is dissipated). This measurement can be done by means of thermocouples arrays (thermopile). The temperature difference will generate a voltage at the end of each single thermocouple and the resulting total voltage will be proportional to the incident power or energy.
Thermal Sensors For Low Power Lasers A-02-D12-BBF
Specifications |
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Power Range (Power Mode): | 0.0001-0.2W |
Energy Range (Energy Mode): | 0.001-0.2J |
Spectral Range: | 190-25um |
Aperture: | 10 mm |
Cooling: | Convection |
Features
Models up to 40W (200W intermittent)
Sensitive thermopile sensors for power detection down to 10μW and energy to 2mJ
Broadband and High resistant coatings to 28KW/cm2
Energy measurement up to 200 Joules
NIST and PTB (Physikalisch-Technische Bundesanstalt) traceability
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Frequently Asked Questions
The thermal sensor can handle a maximum average power of 200 mW.
The thermal sensor can detect power as low as 0.1 mW.
The response time of the thermal sensor is 2 seconds.
The thermal sensor can measure a maximum energy of 200 mJ.
The thermal sensor weighs 0.2 Kg.