FIFO 64KX9 FIFO 64KX9 CLOCK D/A Converter 10 bit D/A Converter 10 bit Up-Converter LO Down ConverterIntegrator To DAQ Card 9 Bit Basic Schematic of.

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Presentation transcript:

FIFO 64KX9 FIFO 64KX9 CLOCK D/A Converter 10 bit D/A Converter 10 bit Up-Converter LO Down ConverterIntegrator To DAQ Card 9 Bit Basic Schematic of the NOISE RADAR Control I/O to DAQ Card To the Antenna Array Circulator

Noise Generator RF Section Circulator SP3T Switch TX & RX Antennas To the DAQ Card Control I/O Basic Schematic of the NOISE RADAR

The Basic Schematic of the Wide Band Noise Radar 11 Tap Linear Feedback Shift Register 11 Tap Linear Feedback Shift Register CLOCK Very Fast Clock  1GHz Up-Converter Adjust Starting Sequence CorrelatorDown-Converter LO To the DAQ Card Circulator To the Antenna

Basic Schematic of the Frequency Hopping Monopulse Radar VCO DriverVCO Power Splitter I/Q Demodulator I/Q Demodulator I/Q Demodulator Tx Ant. Rx Ant1 Rx Ant2 Rx Ant3 Amplifier To the DAQ Card Amp. To the DAQ Card

[dB] Antennas (AEL1-12 Horn) are 32inches above the ground, inside the weeds, with horizontal polarization. Average wind speed is 9mi/h. After Background subtraction, and for processing 100MHz is used (600MHz is available), with 4 averages.

[dB] Antennas (AEL1-12 Horn) are 32inches above the ground, inside the weeds, with horizontal polarization. Average wind speed is 9mi/h. Before Background subtraction, and for processing 100MHz is used (600MHz is available), with 4 averages.

Antennas (AEL1-12 Horn) are directly on the ground, inside the weeds, with horizontal polarization. Average wind speed is 10mi/h. After Background subtraction, and for processing 100MHz is used (600MHz is available), with 4 averages. [dB]

Antennas (AEL1-12 Horn) are directly on the ground, inside the weeds, with horizontal polarization. Average wind speed is 10mi/h. Before Background subtraction, and for processing 100MHz is used (600MHz is available), with 4 averages. [dB]

Working on the new NOISE RADAR Checked all the power supply, ground, connector and IC connections. Wrote the Subroutines to communicate with the Noise Radar via the DAQ Card. Confirmed that the Noise Radar can RESET itself and update the flags (empty, full, programmable almost full and almost empty flags). Programmed the programmable almost full and almost empty flags of the first FIFO to create the time delay between two signals, for range gating. Will LOAD the FIFO’s and READ from the FIFO’s and get the Analog Waveform from the D/A Card. Will send the Analog Waveform through the RF Front End to the Antennas.