Showing results: 1 - 15 of 167 items found.
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GX3232 Series -
Marvin Test Solutions, Inc.
The GX3232 is a multi-channel 16-bit, analog input and output cPCI module, supporting 32 single-ended or 16 differential input channels and four analog output channels. The inputs can be software configured for differential or single-end operation and are sequentially scanned with a maximum aggregate scan rate of 300 kS/s. Three input ranges are software-selectable: ±10 V, ±5 V or ±2.5 V. Optionally, the GX3232 is available with a high voltage input configuration and supports three ranges: ±60 V, ±30 V and ±15 V. The high voltage configuration supports 16 single-ended or 8 differential input channels for high voltage and 16 single-ended or 8 differential inputs for low voltage measurement. Four analog output channels provide software-selectable output ranges of ±2.5 V, ±5 V or ±10 V. The outputs can be updated either synchronously or asynchronously and support waveform generation. Each output can be clocked at rates up to 300 kS/s. A 16-bit digital I/O port is also provided, which supports 16 bidirectional data lines. Note that when used with a TS-700 system only 8 of these digital I/O lines are available at the test system's receiver interface.
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GX3903 Series -
Marvin Test Solutions, Inc.
The GX3903 is a 3-port, cPCI asynchronous communications interface board supporting RS-232, RS-422, and RS-485 interfaces. Each port is configured at the time of order for RS-232, RS-422 or RS-485 signaling. The default configuration is RS-232. For RS-232 mode, each port supports RTS, CTS, TXD, RXD, DCD, DRC, DSR, and RI signaling. The RS-422 mode supports TXD, RXD, CTS, and RTS with each line operating differentially with a uni-directional drive.
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RAR-429 Series -
Marvin Test Solutions, Inc.
The RAR-429 module is a rugged, reliable, full featured, CompactPCI module designed to provide a stand-alone, ARINC 429 interface for avionics applications. Up to 16 ARINC429 channels are supported on a 3U CompactPCI module. The RAR-429 offers full functional test, simulation, and monitoring for ARINC 429 test and simulation applications.
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GX3216 Series -
Marvin Test Solutions, Inc.
The GX3216 is a multi-channel analog input and output cPCI module, supporting 16 differential input channels and two analog output channels. Dedicated 1 MS/s D to As and A to Ds allow simultaneous acquisition and generation of analog signals. Input ranges are software-selectable as ±10 V, ±5 V or ±2.5 V. The inputs are divided into two channel groups, with an independent software-controlled range assignable to each group. Two analog output channels provide software-selected output ranges of ±2.5 V, ±5 V or ±10 V and independent of the input range assignments. Output data is provided via two dedicated control registers, or through a 256 K-Sample FIFO buffer for waveform generation. Six bidirectional digital I/O lines are also available and can be programmed as inputs or outputs.
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GX3904 -
Marvin Test Solutions, Inc.
The GX3904 is an 8-port, cPCI asynchronous communications interface board supporting (4) RS232 and (4) RS422 signal levels. The four RS232 ports offer a full set of data and modem control lines configured for DTE operation. The four RS422 ports offer differential signaling and support DTE operation. Each RS422 differential pair is terminated by a 150 parallel resistor. An optional transition cable is available to convert the front panel SCSI connector to (8) DB-9, D-sub connectors.
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GX3748 -
Marvin Test Solutions, Inc.
The GX3748 is a user configurable, FPGA-based, 3U PXI card which features 48 voltage comparator channels. The daughter board interfaces to the GX3700 FPGA baseboard which employs the Altera Stratix III FPGA. Each input channel can accept input voltage signals from 0 to 50 volts, with programmable threshold levels. Three of the 48 channels are supported by the board's timestamp event feature.
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GX2065 -
Marvin Test Solutions, Inc.
The GX2065 offers a unique combination of features, resolution, accuracy and speed in a compact, single slot 3U PXI format. Featuring 6- digit resolution, 0.005% basic DCV reading accuracy and up to 3,500 reading per second (rps) assures you of measurements that are accurate, fast and repeatable. All measurement functions including digitizing functions are isolated from the PXI bus - providing the ability to make true differential, floating measurements. An on-board controller performs all necessary DMM and digitizer calculations, minimizing PXI control bus overhead.
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GaGe
The GaGe Razor Express16XX CompuScope PCIe digitizer board features 16-bit resolution with sampling rates up to 200 MS/s with true Effective Number of Bits (ENOB) of 11.7-bits with 10 MHz input.
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GaGe
The GaGe Octave Express 84XX CompuScope PCIe digitizer card features 16-bit resolution with sampling rates up to 25 MS/s with true Effective Number of Bits (ENOB) of 12-bits with 10 MHz input.
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GaGe
The GaGe RazorEdge Express CompuScope is a dual-channel 16-bit digitizer supporting A/D sampling rates up to 250 MS/s with up to 125 MHz input bandwidth.
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GaGe
The GaGe RazorPlus Express CompuScope is a dual-channel 16-bit digitizer supporting A/D sampling rates up to 500 MS/s with up to 250 MHz input bandwidth.
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GaGe
The GaGe Cobra Express CompuScope PCIe digitizer board features 8-bit resolution with sampling rates up to 2.0 GS/s with true Effective Number of Bits (ENOB) of 7.4-bits with 10 MHz input.
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EON Express CompuScope -
GaGe
The GaGe EON Express CompuScope PCIe Gen3 digitizer board features unprecedented speed and resolution in a 6 GS/s streaming digitizer with 1.75 GHz bandwidth and PCIe data streaming rates up to 6 GB/s.
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GaGe
The GaGe CobraMax Express CompuScope PCIe digitizer board features 8-bit resolution with sampling rates up to 4.0 GS/s with true Effective Number of Bits (ENOB) of 7.6-bits with 10 MHz input.
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ADQ14 -
Teledyne SP Devices
ADQ14 is a 14-bit digitizer family with 1, 2, or 4 channels and 0.5, 1, or 2 GSPS sampling rate. It is also available with either AC or DC coupling (ADQ14AC and ADQ14DC) and comes in six different form factors. This simplifies integration and enables cost-efficient system-level design.