Showing product results. 1 - 15 of 127 products found.
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EM-4320 | 10 kHz – 1000 MHz - Electro-Metrics Corp.
The EM-4320 Calibrated Impulse Generator is a reliable source of calibrated impulses at variable repetition rates. The EM-4320 provides a repetition rate variable between 1 and 100 Hz. (1 Hz steps between 1 and 10 Hz, 10 Hz steps between 10 Hz 100 Hz) and a provision for synchronizing with and operating at the AC line frequency. A front panel push-button switch also provides for generating a single impulse.
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EM-7832 | 100 KHz – 65 MHz - Electro-Metrics Corp.
The EM-7832 Line Impedance Stabilization Network (LISN) is a ruggedly constructed one-piece unit. It is a two channel low pass filter network containing a 5 µH coil used to isolate an electrically operated device from an external power source. This LISN uses insulated pin plugs for improved safety and features a BNC monitor connector.
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EM-7825-1 | 450 KHz – 100 MHz - Electro-Metrics Corp.
The Electro-Metrics EM-7825-1 Line Impedance Stabilization Network (LISN) is a two channel low pass filter network designed to isolate an electrically operated device from an external power source. The EM- 7825-1 is used when high frequency conducted measurements are made in accordance with certain FCC, CISPR and VDE standards.
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EM-7823 | 10 KHz – 30 MHz - Electro-Metrics Corp.
The EM-7823 Line Impedance Stabilization Network (sometimes referred to as a “V Network”) is a two line low pass filter network designed to isolate an electrically operated device from an external power source (usually the power mains). It provides a stable and consistent line impedance at the frequencies where radio interference measurements are made.
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EM-7821 | 450 KHz – 100 MHz - Electro-Metrics Corp.
The Electro-Metrics EM-7821 Line Impedance Stabilization Network (LISN) is a two channel low pass filter network designed to isolate an electrically operated device from an external power source. The EM-7821 is used when high frequency conducted measurements are made in accordance with certain FCC, CISPR and VDE standards.
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EM-7832-1 | 100 KHz – 65 MHz - Electro-Metrics Corp.
The EM-7832-1 Line Impedance Stabilization Network (LISN) is a ruggedly constructed one-piece unit. It is a two channel low pass filter network containing a 5 µH coil used to isolate an electrically operated device from an external power source. This LISN uses insulated pin plugs for improved safety and features a BNC monitor connector.
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EM-7825-2 | 10 KHz – 10 MHz - Electro-Metrics Corp.
The EM-7825-2 Line Impedance Stabilization Network (LISN) is a single line low pass filter network designed to isolate an electrically operated device from an external power source. The EM-7825-2 is used when conducted measurements are made in accordance with MIL-STD-461D/MIL-STD- 462D. The unit is calibrated and operates over the frequency range of 10 kHz to 10 MHz.
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EM-7825 | 10 KHz – 10 MHz - Electro-Metrics Corp.
The EM-7825 Line Impedance Stabilization Network (LISN) is a two line low pass filter network designed to isolate an electrically operated device from an external power source. The EM-7825 is used when conducted measurements are made in accordance with MIL-STD-461D/MIL-STD- 462D. The unit is calibrated and operates over the frequency range of 10 kHz to 10 MHz.
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EM-7820 | 10 KHz – 30 MHz - Electro-Metrics Corp.
The Electro-Metrics EM-7820 Line Impedance Stabilization Network (LISN) is a two-channel low pass filter network designed to isolate an electrically operated device from an external power source. The EM- 7820 is used when high frequency conducted measurements are made in accordance with ANSI C63.4 and certain FCC, CISPR and VDE standards.
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EM-7820-1 | 10 KHz – 30 MHz - Electro-Metrics Corp.
The EM-7820-1 Line Impedance Stabilization Network (sometimes referred to as a “V Network”) is a single line low pass filter network designed to isolate an electrically operated device from an external power source (usually the power mains). It provides stable and consistent line impedance at the frequencies where radio interference measurements are made.