The 919E-30-46-10K pyroelectric energy detector comes with a removable diffuser based attenuator for high energy YAG and erbium lasers. It has a 46 mm aperture with diffuser out and 33mm aperture with diffuser in. It can measure energies from 10 µJ up to 30 J. It can operate at repetition rates up to 10 kHz and is calibrated specifically for 1,064 nm (both with diffuser in and out), 532 nm(with diffuse out only), 2.1 and 2.94 µm (with diffuser in only). It is suitable for measuring wavelength range between 0.19 to 3 µm. The sensor comes with a standard 1.5 meter cable for connecting to a power meter. Certain specifications are interrelated with various settings, please refer to the complete specifications sheet under Resources below to determine if this product meets your requirement. It has one 1/4-20 tapped hole on the side and one M6 hole on the back side of the head for mounting and comes with a 1/2 inch diameter post.

Pyroelectric Sensor Pulse Energy Measurement

The configuration of a typical pyroelectric sensor and its operational output can be seen in the above Figure. A pyroelectric material, which is usually crystalline, possesses an electric polarization, even in the absence of an applied voltage. An incident laser pulse heats the crystal, which causes the material to expand and produce a change in the polarization. Charge builds up on opposite surfaces of the crystal which generates a current flow that charges a capacitor. This charged capacitor induces a voltage whose amplitude change is proportional to the original laser pulse energy. Since it is the change in temperature that produces the current, pyroelectric detectors respond only to pulsed or modulated radiation. They respond much more rapidly to variations in radiation than thermopiles and are unaffected by steady background radiation.