表面电阻计,具同心环探头、点对点探头、两点阻值探头,同心环探头前置放大器能有效地消除干扰并以高电阻值进行可靠性测试,极高的、稳定度、重复性,测量范围广:10的4次方Ohm~10的14次方Ohm/sq或10的3次方Ohm~10的13次Ohm,橡胶电极提供极好的表面接触,质轻便携 表面电阻测量仪,用于评估防静电地板,工作台,衣服等的导电性能 Trek's Surface Resistance Meter (Model 152) is a lightweight, portable unit designed to precisely measure surface resistance on a wide variety of of conductive, dissipative, and insulative materials. It features exceptional measurement accuracy, wide measurement ranges, and multiple probe configuration options. Model 152 SURFACE resistance METER The TrekModel 152 Surface Resistance Meteris designed to measure surface resistance on a wide varieties of conductive, dissipative, and insulative materials. The Model 152 employs a measurement technique which conforms to several ANSI/ESD Association standards for measuring surface resistance and surface resistivity including ANSI/ESD-STM2.1 for garments, STM4.1 for work surfaces, STM7.1 for flooring, STM11.11 for planar materials, and STM 11.13 for two point measurement. A variety of measuring probe electrode configurations are available for making surface resistance or surface resistivity measurements. The Model 152 features exceptional measurement accuracy and wide measurement ranges of 10 E3 to 10 E13 ohms using point-to-point probes or the two-point resistance probe for small surface measurement, and 10 E4 to 10 E14 ohms/square using the concentric ring probe. Measured resistance values are clearly displayed on a high-contrast LCD display using scientific notation. The electrode test voltage for the measurement probe(s) is switch selectable for 10 V or 100 V operation to conform to the individual requirements of the ESD Association standards and testing conditions. The selected test voltage is indicated on the LCD display. The exclusive Trek Model 152P-CR concentric ring measuring probe contains a preamplifier which eliminates the usual noise, stray pickup, and long settling time associated with other type probe designs, therefore providing ease of operation even at very high resistance values. The Model 152 will detect the connection of the active concentric ring probe, automatically adjust the measuring range, and indicate values in ohms/square on the LCD display. The Model 152 is light-weight and portable, and can be operated from internal batteries or connected to an AC line power source using a battery eliminator. · Meter Measurement Capability 10 E3 to 10 E13 ohms. (extends to 10E14 ohms using the Concentric Ring probe). · Surface Resistivity / Surface Resistance Probe Measurement Ranges - Concentric Ring Probe
10 E4 to 10 E14 ohms/square. - Point-to-Point Probes
10 E3 to 10 E13 ohms. - Two-Point Resistance Probe
10 E3 to 10 E13 ohms.
· Measurement Accuracy (of reading) At 25 °C ±10 °C at 20% to 70% RH: - Concentric Ring Probe (152P-CR)
10 E4 to 10 E13 ohms/square, ±5% of LCD reading, 10 E14 ohms/square, ±8% of LCD reading. - Point-to-Point Probes (152AP-5P)
10 E3 to 10 E12 ohm range, ±5% of LCD reading, 10 E13 ohm range, ±8% of LCD reading. - Two-Point Resistance Probe (152P-2P)
10 E3 to 10 E11 ohm range, ±5% of LCD reading, 10 E12 to 10 E13 ohm range, ±10% of LCD reading.
· Meter Probe Electrode Test Voltage User selectable for 10 V or 100 V, ±2%. · Test Current Limit Limited to less than 13 mA in the 10 V range and less than 1.7 mA in the 100 V range. · Test Probes (purchased separately) - A) Trek Model 152AP-5P 2.27 kg. (5 lb.) test probes (set of two probes) are available for performing resistance measurements per ANSI/ESD-STM4.1 standards (point-to-point or surface resistance measurements).
- B) Trek Model 152P-CR 2.27 kg.(5 lb.) concentric ring test probe contains a preamplifier for performing surface resistance/surface resistivity measurements per ANSI/ESD-STM11-11 standards.
The exclusive Trek Model 152P-CR concentric ring measuring probe contains a pre-amplifier which eliminates the usual noise, stray pick-up, and long settling time associated with other type probe designs, therefore providing ease of operation even at very high resistance values. - C) Trek Model 152P-2P probe performs resistivity measurements on surface areas too small to be measured using conventional probes
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