Showing results: 1 - 15 of 29 items found.
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GaGe
Performing real-time digital signal processing (DSP) routines such as Fast Fourier Transform (FFT), Signal Averaging, Finite Impulse Response (FIR) Filtering, Digital Down Conversion (DDC) and more have traditionally required the use of dedicated DSP processors, Field Programmable Gate Arrays (FPGAs), or Application Specific Integrated Circuits (ASICs).
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GaGe
GaGe provides a powerful and easy-to-use PC oscilloscope software application, GaGeScope, for use with CompuScope digitizers without the need for any programming as well as a complete library of software development kits (SDKs) for C/C#, LabVIEW, and MATLAB for custom software application development.
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GaGe
Your product description goes here.
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GaGe
GaGe provides several eXpert FPGA processing firmware options for use with CompuScope Digitizers. All standard default CompuScope Digitizer model configurations can store raw acquired waveform data to onboard sample memory and then transfer them quickly to the user for analysis, display and/or storage. The addition of optional eXpert FPGA processing firmware features allow for some signal processing analysis, or other specific functionality, to be performed on the digitizer hardware itself within its onboard Field Programmable Gate Array (FPGA).
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GaGe
Your product description goes here.
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TB3 – RazorMax -
GaGe
Thunderbolt 3 provides the largest bit-rate capacity interface possible at up to 40 Gbps (5 GB/s) over a USB-C connector to support a variety of protocols including PCI Express (PCIe).
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GaGe
GaGe has a long history of providing high-speed, real-time signal acquisition, processing, and recording systems on PC-based platforms. This expertise saves customers time and eliminates uncertainties and risks with self-integrated systems.
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Thunderbolt 3 -
GaGe
Thunderbolt 3 provides the largest bit-rate capacity interface possible at up to 40 Gbps (5 GB/s) over a USB-C connector to support a variety of protocols including PCI Express (PCIe).
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GaGe
Digital signal processing routines can be conducted on raw signal data acquired by GaGe high-speed digitizers either directly on the onboard FPGA of the digitizer card via our eXpert FPGA firmware features or can be optionally conducted on GPU cards receiving real-time streaming of raw signal data acquired by GaGe high-speed digitizers via the PCIe interface.
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GaGe
GaGe 12-bit resolution digitizer models divide the input voltage range into 4,096 different digitization levels, which improves the delectability limit by a factor of 16 over the 256 levels of an 8-bit resolution digitizer model.
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GaGe
Today’s high-band signal standards are using higher frequencies and wider bandwidths than ever before for applications such as next generation 5G wireless services, satellite communications, electronic warfare, and more.
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GaGe
GaGe high-performance digitizers are renowned for sustaining the maximum effective number of bits (ENOB) over a wide signal frequency range with quality signal conditioning and signal fidelity features. With A/D sampling rates up to 6 GS/s and very deep onboard acquisition memory of up to 16 GB, our high speed PCIe and PXIe digitizers provide optimal combinations of high sampling speeds with 8-bit, 12-bit, 14-bit, and 16-bit high resolution rates with large sampling memory options and high-speed data streaming capabilities.
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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 Oscar Express 44XX CompuScope PCIe digitizer board features 16-bit resolution with sampling rates up to 100 MS/s with true Effective Number of Bits (ENOB) of 12.2-bits with 10 MHz input.
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GaGe
Utilizing the eXpert Signal Averaging Firmware on a GaGe CompuScope Digitizer allows users to detect a small repetitive signal in a noisy environment by conducting rapid signal averaging completely on the digitizer's onboard FPGA with absolutely no host system CPU loading.