Showing results: 61 - 75 of 584 items found.
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Art.-Nr.: TE-1600 -
NextGig Systems
The ideal physical layer conversion between Automotive Ethernet and your PC system. The 100BASE-T1 MediaConverter NXP establishes one direct point-to-point conversion between automotive ECU’s using 100BASE-T1 and any standard Fast Ethernet device with RJ-45 connector.
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Art.-Nr.: TE-1401-1 -
NextGig Systems
The ideal physical layer conversion between Automotive Gigabit Ethernet and your PC system The 1000BASE-T1 MediaConverter establishes one direct point-to-point conversion between automotive ECU’s using 1000BASE-T1 and any standard Gigabit Ethernet device with RJ-45 connector.
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Art.-Nr.: TE-1000 -
NextGig Systems
The ideal physical layer conversion between Automotive Ethernet and your PC system. The 100BASE-T1 MediaConverter BCM establishes one direct point-to-point conversion between automotive ECU’s using 100BASE-T1 and any standard Fast Ethernet device with RJ-45 connector.
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V965 -
CAEN S.p.A.
The Mod. V965 is a 1-unit wide VME 6U module housing 16 Charge-to-Digital Conversion channels with current integrating negative inputs (50 Ohm impedance). For each channel, the input charge is converted to a voltage level by a QAC (Charge to Amplitude Conversion) section.
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V965A -
CAEN S.p.A.
The Mod. V965A is a 1-unit wide VME 6U module housing 8 Charge-to-Digital Conversion channels with current integrating negative inputs (50 Ohm impedance). For each channel, the input charge is converted to a voltage level by a QAC (Charge to Amplitude Conversion) section.
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HMS-5000 -
ECOPIA
Constant current source + Van der Pauw method terminal conversion system
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Test Data Management -
Doble Engineering
Test data management solutions include data clean-up, data conversion, test plan creation, "historic" file conversion and options for ongoing support. These allow you and your teams to save time and ensures clean, consistent data files for field testing and regulatory reporting.
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Extron Electronics
Signal conversion for matching display resolution or optimizing image quality, or to output NTSC or PAL.
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AMF -
Intepro Systems
The Intepro AMF Series is a complete line of single and three phase, 400Hz AC Frequency Converter products. With Power levels ranging from 6kVA up to 300kVA, the AMF series of frequency converter products are the ideal and cost effective solutions for precise frequency conversion in all avionics and higher frequency electronic applications. Power and frequency conversion is supplied by state-of-the-art IGBT pulse-width-modulated power amplifiers resulting in highly efficient power conversion, compact design and maximized performance with minimum downtime.
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Extron Electronics
Products for switching and distribution, extension over long distances, and conversion of HD-SDI, 3G-SDI & 12G-SDI signals.
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CXR Larus Corporation
CXR offers a choice of conversion and optical transport Ethernet or TDM streams, and CWDM optical multiplexing.
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ZET 440 -
ZETLAB Company
Charge amplifier ZET 440 for piezoelectric detectors is intended for:*amplification and conversion of output signals of primary piezoelectric transducers with charge output;*amplification and conversion of output signals of primary transducers with the IEPE type in-built electronics to voltage;*gain ratios: 1, 10, 100;*LPF: 0.1, 1, 10 Hz
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V792 -
CAEN S.p.A.
The Mod. V792 is a 1-unit wide VME 6U module housing 32 Charge-to-Digital Conversion channels with current integrating negative inputs (50 Ohm impedance).For each channel, the input charge is converted to a voltage level by a QAC (Charge to Amplitude Conversion) section. Input range is 0 ÷ 400 pC.
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CPCI392 -
AcQ Inducom
The CPCI392 16-Channel Common-Mode Input ADC card is very well suited to be used in applications in which autonomous signal conversion is an issue, as well as in standard mid-range applications. Enabled channels are scanned at maximum rate and conversion results are stored in shared memory. A local DSP performs the data acquisition and calibration transparent for the host.
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CPCI393 -
AcQ Inducom
The CPCI393 8-Channel Differential Input ADC card is very well suited to be used in applications in which autonomous signal conversion is an issue, as well as in standard mid-range applications. Enabled channels are scanned at maximum rate and conversion results are stored in shared memory. A local DSP performs the data acquisition and calibration transparent for the host.