Commit Graph

4 Commits (591a23156b8c6bff65235f1abcf6bbfadab91d45)

Author SHA1 Message Date
Istvan Csomortani d43e6ee239 axi_laser_driver: TIA's are controlled individually in manual mode
Update the sequencer, so the TIA channel selection can be controlled separately
for each TIA, when the sequencer runs in manual mode.
2019-08-08 14:26:07 +03:00
Istvan Csomortani ea158ee42b ad_fmclidar_ebz: Fix AFE's SPI interface connection 2019-08-08 14:26:07 +03:00
Istvan Csomortani ea18636586 ad_fmclidar1_ebz: Connect the TIA sequencer to the GPIOs 2019-08-08 14:26:07 +03:00
Istvan Csomortani 21bbc900c8 ad_fmclidar1_ebz: Initial commit
This commit was created by squashing the following commits, these
messages were kept just for sake of history:

  ad9694_500ebz: Mirror the SPI interface to FMCB
  ad9694_500ebz: Set transceiver reference clock to 250
  ad9694_500ebz: Allow to configure number of lanes, number of converters
                 and sample rate
  axi_ad9694: Fix number of lanes, it must be 2
  ad9694_500ebz: Update the mirrored spi pin assignments
  ad9694_500ebz: Gate SPI MISO signals based on chip-select
  ad9694_500ebz: Set channel pack sample width
  ad9694_500ebz: Change reference clock location
  ad9694_500ebz: Remove transceiver memory map arbitration
  ad9694_500ebz: Ensure ADC FIFO DMA_DATA_WIDTH is not larger ADC_DATA_WIDTH
  ad9694_500ebz: Adjust breakout board pin locations
  ad_fmclidar1_ebz: Rename the ad9694_500ebz project
  ad_fmclidar1_ebz: Fix lane mapping
  ad_fmclidar1_ebz: Delete deprecated files
  ad_fmclidar1_ebz: Integrate the axi_laser_driver into the design
  ad_fmclidar1_ebz: OTW is an active low signal
  ad_fmclidar1_ebz: zc706: Fix iic_dac signals assignment
  ad_fmclidar1_ebz: Switch to util_adcfifo
  ad_fmclidar1_ebz: Enable synced capture for the fifo
  ad_fmclidar1_ebz/zc706: Enable CAPTURE_TILL_FULL
  ad_fmclidar1_ebz/zc706: Reduce FIFO size to 2kB
  ad_fmclidar1_ebz: Laser driver runs on ADC's core clock
  ad_fmclidar1_ebz_bd: Delete the FIFO instance

     Because the DMA transfers are going to be relatively small (< 2kbyte),
     the DMA can handle the data rate, even when the frequency of the laser
     driver pulse is set to its maximum value. (200 kHz)

     The synchronization will be done by connecting the generated pulse to
     the DMA's SYNC input. Although, to support 2 or 1 channel scenarios, we
     need to use the util_axis_syncgen module to make sure that the DMA
     catches the pulse, in cases when the pulse width is too narrow. (SYNC is
     captures when valid and ready is asserted)

     Also we have to reset the cpack IP before each pulse, to keep the DMA buffer's
     relative starting point in time fixed, when only 2 or 1 channel is
     active.
2019-08-08 14:26:07 +03:00