HSC-ADC-FIFO5-INTZ Analog Devices Inc, HSC-ADC-FIFO5-INTZ Datasheet - Page 23

HSC-ADC-FIFO5-INTZ

Manufacturer Part Number

HSC-ADC-FIFO5-INTZ

Description

Interposer Quad/octal ADCs

Manufacturer

Analog Devices Inc

Datasheets

1.HSC-ADC-AD922XFFAZ.pdf (44 pages)

2.HSC-ADC-FIFO5-INTZ.pdf (28 pages)

Specifications of HSC-ADC-FIFO5-INTZ

Accessory Type

ADC Interface Board

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

AD6640

Lead Free Status / Rohs Status

Supplier Unconfirmed

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TROUBLESHOOTING

FLAT LINE SIGNAL DISPLAYED

Scenario: After clicking the time domain button, the signal

displayed in the window is a flat line.

Check the power connections.

Verify that the USB cable does not exceed 5 feet in length

or the parallel printer cable is IEEE-1284 compatible.

Check the cable connection between the PC and the FIFO

board. If applicable, ensure the correct parallel port is

selected (LPT1 or LPT2) under Config > Buffer.

If using a parallel port, make sure the Printer Port in the

computer BIOS is set to Standard Bidirectional.

Make sure Channel A, Channel B, or both channels are

selected under Config > FFT.

Check the signal connections and make sure that the clock

is present at the output of the ADC evaluation board.

Verify that data bits are switching at the connection point

between the FIFO and the ADC evaluation board.

Use the Analyze > Bus Check option to ensure all data bits

are switching. See Figure 19 for an example of the AD6645,

14-bit single channel ADC. Note: The left-most bit is the

MSB.

Figure 18. Bus Check for a 12-Bit ADC

Rev. 0 | Page 23 of 44

HSC-ADC-EVALA-SC/HSC-ADC-EVALA-DC

10. Refer to Table 2, to ensure that all jumpers are set

DISPLAYED SIGNAL UNLIKE ANALOG INPUT

Scenario: After clicking Time Domain, the signal displayed

does not look like the analog input signal.

Use the ADC data sheet to ensure all jumper connections

are set appropriately on the ADC evaluation board. Ensure

the ADC power-down option is not active.

appropriately.

A fast sinusoidal signal may look like a solid red block in

the time-domain window (due to the number of sine waves

shown). Right click the window to open a hidden menu

where you can zoom in to a closer view of the signal.

Check the cable connection between the PC and the FIFO

board. If applicable, ensure the correct parallel port is

selected (LPT1 or LPT2) under Config > Buffer.

Check the signal connections.

Use the Analyze > Bus Check option to ensure all of the

data bits are switching.

Ensure that the Twos Complement button is set correctly

under Config > FFT. If the Twos Complement box is

checked and the ADC outputs are not in Twos Complement

format, a time-domain plot may look like Figure 20.

Adjust the timing to ensure that the data is captured

correctly. Refer to the Clocking Description section in the

Theory of Operation, and Table 2 for more information.

Try using a very low frequency analog input (for example,

0.1 MHz to 1 MHz) to debug timing issues. For an exact

number of cycles, such as 10, try (10×fs)/M, where fs =

encode frequency and M = sample size (2

Check for problems with the common-mode level at the

analog input by looking at the time data with no analog

input signal.

Figure 19. Typical Time Domain Plot

HSC-ADC-FIFO5-INTZ Analog Devices Inc, HSC-ADC-FIFO5-INTZ Datasheet - Page 23

HSC-ADC-FIFO5-INTZ

Specifications of HSC-ADC-FIFO5-INTZ

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