Setting Up the PSU:

- Connect the provided wall wort with a 12 V output to the PSU with the power switch in the off position.

- After plugging in the power and flipping the switch to the on position LEDs will indicate which power
  rails are on. (D2 inicates the 3.3V is active for the ADC)

Power the FPGA and ADC:

- ADC

      - Move Jumpers:

            - JP13 → 1-2; JP14 → 1-2; JP17 → 1-2

      - Provide 3.3V between J18 and J12

- FPGA

      - Plug in 6V wall wort with FPGA power switch in the off position

Connect the FPGA and ADC:

- ADC and FPGA mate with connectors on the boards labeled ADC_Interface

Connect the FPGA and ADC to the PC by USB:

- ADC

      - Change jumpers as indicated in section 3.2 of the ADS41xx/58B18EVM User's Guide

            - Move jumper JP12 to short positions 2-3, which places the ADC in serial operation mode.

            - Move jumper JP11 to short positions 1-2, which does not allow the USB circuit to control SDATA.

            - Move jumper JP9 to short positions 1-2, which does not allow the USB circuit to control SEN.

      - Install Software, connect via USB, and install drivers

- FPGA

      - Install Software, connect via USB, and install drivers

- One can control the ADC with the FPGA, see 3.4 of the ADS41xx/58B18EVM User's Guide

Connect the Clock and Data-in to the ADC:

      - Both Go to the function generator for now

            - Clock Input amplitude ~.2-1.5V P-P

                  - Set to ~.5V P-P

            - Clock Input frequency

                  - Set to ~100 MHz

            - Analog Signal Input amplitude <1.5V P-P

                  - Set to ~.5V P-P

            - Analog Signal frequency

                  - Set to ~10 MHz

The FPGA board keeps giving a JTAG Error and will not connect to the ADC properly. I have sent it back for a new one.