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ADS5463EVM: input clock

Amir shahi
Prodigy 240 points
Part Number: ADS5463EVM
Other Parts Discussed in Thread: ADS5463, CDCM7005, LMX2582EVM

Hi,

I have some question about your ADS5463EVM, I have this evaluation board now, bout I have some problem with input frequency. according ADS5463 datasheet this chip work with 500 Mhz, and TI recommended CDCM7005 chip for clock solution.

1) why dose your board support single end clock input and then it convert it to differential clock?

2) can I accesses to differential clock input in your evaluation board (schematic shows me it is not possible)? 

3) can I drive this input with FPGA IOs?

4) if I drive this input with 250Mhz single end clock it will be work or no?

4) do you have any best and easiest way to drive this input clock with 500Mhz?

Thank you,

Amir

  • 0
    TI__Mastermind 43910 points

    Hi Amir

    1) SE clock input is readily usable with high quality signal generators. These configuration allows a high quality clock signal from the generator to be connected to the differential CLK+/- inputs of the ADC, which will give the best possible jitter performance, resulting in the best possible SNR.

    2) The differential inputs are not intended to be accessible on the EVM.

    3) FPGA generated clock signals will generally have higher jitter (from signal and power noise coupling, etc.) than can be used to achieve rated performance with the ADC. Please refer to the Clock Inputs section of the ADS5463 datasheet and Table 2, which lists the recommended RMS clock jitter for particular input signal frequency applications.

    4) If you connect the single ended clock as shown in the ADS5463 datasheet then the device will function. The performance that is achieved will be a function of the CLK amplitude and jitter, and the input signal frequency.

    5) The best way to drive the ADS5463EVM CLK input is using a good quality signal generator capable of 500 MHz and 1.5Vpp into 50 ohms. Another possibility is to use a clocking device EVM with similar capabilities. Something like the LMX2582EVM would be a good choice. The best way to drive the ADS5463 device inputs on a customer designed board is to use a clocking device with the required output frequency, drive level and jitter performance. A good place to start is the Clock Architect on-line tool available here:

    http://www.ti.com/design-tools/signal-chain-design/clock-architect.html

    Best regards,

    Jim B

  • 0 in reply to Jim Brinkhurst1
    Prodigy 240 points
    Thank you Jim,

    but one question again, if I drive ADS5463EVM single end input clock by using good quality signal generator with 200MHZ then can I achieve 200Msps in the output of ADC?

    Regards,
    Amir
  • 0 in reply to Amir shahi
    TI__Mastermind 43910 points
    Hi Amir
    Yes, that should work OK. The ADC should work as slow at 170 MSPS. (See Figure 25 in the datasheet).
    Best regards,
    Jim B
  • 0 in reply to Jim Brinkhurst1
    Prodigy 240 points

    Hi Jim,

    I have a question about input +AIN and -AIN these inputs are not true bipolar? and this ADC can not masseur negative part of signal? if it is true what do you sagest for the input signal measurement with negative and positive part with this ADC?

    Thanks,

    Amir

  • 0 in reply to Amir shahi
    TI__Mastermind 43910 points

    Hi Amir

    The analog inputs of this device cannot measure signals below ground. They should be driven with a differential signal having a nominal common mode voltage and differential amplitude as listed in the RECOMMENDED OPERATING CONDITIONS table on page 3 of the datasheet.

    If you have a signal which is centered around ground, you need to convert that to the proper common mode and differential amplitude using a balun transformer or differential amplifier. Please refer to the Input Configuration section of the datasheet for more information regarding how to drive the analog inputs.

    Best regards,

    Jim B