![]() ![]() For example, you can connect to spectrum analyzers and signal generators to test AD-FMCOMMS2-EBZ and AD-FMCOMMS3-EBZ evaluation boards. This serial digital coaxial cable acts as a signal booster and can route and. LOOPBACK CABLE AD FMCOMMS4 EBZ HOW TOInformation on the card, and how to use it, the design package that surrounds it, and the software which can make it work, can be found here. While the complete chip level design package can be found on the the ADI web site. Use Instrument Control Toolbox™ to automate RF measurements for final verification, or to bring in more signals to validate your RF Blockset design. The AD-FMComms4-EBZ is an FMC board for the AD9364, a highly integrated RF Agile Transceiver.Generate LTE standard compliant signals to test the transmitter and receiver with LTE Toolbox ®.Stream RF data into MATLAB and Simulink using the AD9361 and Xilinx Zynq-7000 hardware.Design RF systems with rapid system-level simulation.Related RF System Design capabilities with other MathWorks products: RF impairments such as IP2, IP3, DC offset, image rejection, thermal noise, phase noise.Fully programmable automatic gain control (AGC), and analog and digital filters for up and down conversion.Examples to combine in the same model transmitter and different receivers.Testbenches to simulate the behaviour of the transmitter and receiver with different test signals. LOOPBACK CABLE AD FMCOMMS4 EBZ GENERATORIntegration with either of the AD9361 Filter Wizard or AD9371 Profile Generator Apps from Analog Devices for programming the multirate, multistage digital up and down conversion filters.Library of the AD9371 RF transmitter, receiver, observer, and sniffer Simulink blocks.Library of the RF transmitter and receiver Simulink blocks suitable for AD9361, AD9363, or AD9364.Configure the model transceiver with the same settings that you can use to program the hardware.Use as design tools and test benches without needing extensive measurement campaigns on the implemented hardware.Add interfering signals and evaluate the results in the time or frequency domains.Generate or import test vectors and evaluate the effects of nonlinearity, noise, gain and phase imbalance, spectral leakage, and other imperfections introduced by the RF transmitter and receiver.Use reference tones and LTE/WLAN standard compliant signals.Predict the impact of the RF imperfections on your test signals.The AD9361 and AD9371 transceiver RF Blockset models, allow you to: ![]()
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