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The Trek® 157 combines patented precision charge measurement capability with features that drive down ionizer maintenance and performance testing costs. Enhanced features, such as those that enable the operator to store and retrieve data as data points or graphs and record operator comments for reference, make the Trek® 157 ideal for use in dissipative testing of materials and monitoring of static charge.
The MonroeTM 282 series StatArcTM fieldmeters are pocket-sized, non-contacting static meters for consistently accurate readings. Simply hold the instrument so the range finder LED beams from a non-pulsing circle indicating you’re at exactly the right distance from the target for readings between 20 kV to 2000 V (model dependent).
Model 287 performs manual or automatic decay and balance tests for periodic verification of ionization equipment. It then stores the results and averaged decay times for up to ten manual tests and up to ten complete automatic test sequences.
All functions are controlled by four pushbuttons.
Non-Contacting, Hand-Held Electrostatic Voltmeters
The Trek® 876 and 884 electrostatic voltmeters offer a distinct advantage over other handheld fieldmeters. They can provide accurate surface voltage measurements that are independent of sensor-probe-to-measured-surface spacing. They can be used for a variety of applications from manufacturing to semiconductor material testing.
The Trek® 152-1 surface/volume resistance meter is designed to precisely measure surface or volume resistance on a wide variety of conductive, dissipative, and insulative materials. It features exceptional measurement accuracy and wide measurement ranges. When used with Advanced Energy’s uniquely-designed 152P-CR-1 concentric ring probe, the instrument provides consistent ease of operation even at very high resistance values.
The Static H-0110 Honestmeter is an instrument designed to measure the attenuation of static electricity. It is an ideal device for measuring the diffusibility of static in materials. This unit is used to charge the sample by irritating it with air ions generated by corona discharge, and after charge deposition, it can measure the static decay curve. Since air ions are generated by the corona discharge method with AC, the sample under test can be charged with either positive or negative ions.
