SWRZ072B May   2017  – December 2020 AWR1642

 

  1. 1Introduction
  2. 2Device Nomenclature
  3. 3Device Markings
  4. 4Usage Notes
    1. 4.1 MSS: SPI Speed in 3-Wire Mode Usage Note
  5. 5Advisory to Silicon Variant / Revision Map
  6. 6Known Design Exceptions to Functional Specifications
    1.     MSS#10
    2.     MSS#11
    3.     MSS#12
    4.     MSS#14
    5.     MSS#16
    6.     MSS#17
    7.     MSS#18
    8.     MSS#19
    9.     MSS#20
    10.     MSS#22
    11.     MSS#37B
    12.     MSS#38A
    13.     MSS#39
    14.     MSS#40
    15.     MSS#42
    16.     MSS#43
    17.     MSS#44
    18.     MSS#45
    19.     ANA#06
    20.     ANA#08A
    21.     ANA#09A
    22.     ANA#10A
    23.     ANA#11A
    24.     ANA#12A
    25.     ANA#15
    26.     ANA#16
    27.     ANA#17A
    28.     ANA#18B
    29.     ANA#20
    30.     ANA#21A
    31.     ANA#22A
    32.     ANA#24A
    33.     ANA#27
    34.     DSS#01
    35.     DSS#02
    36.     DSS#03
    37.     DSS#04
    38.     DSS#05
    39.     DSS#06
    40.     DSS#07
  7. 7Trademarks
  8. 8Revision History

ANA#11A

TX, RX Calibrations Sensitive to Large External Interference

Revision(s) Affected:

AWR1642 ES1.0 and AWR1642 ES2.0

Description:

External interference present on the RX or TX pins, during the period of the device calibration at RfInit, can lead to degraded accuracy or errors in the calibration results. If the interference changes its level while these calibrations are actively running, the calibration algorithm may interpret this as a change in signal power, leading to incorrect convergence. This applies to boot-time PD, Rx IQ mismatch calibration, Rx gain calibration, Tx power calibration, and phase-shifter calibration. It also impacts run-time Tx output power calibration in CLPC mode.

Workaround(s):

Workaround #1:

The incident power detector in the TX output power detector, along with the absolute level of the PA loopback used during the PA loopback monitors, are insensitive to this, and they can be used to check that the calibrations converged correctly. Calibration can be re-run if large interference was observed.

Workaround #2:

Another workaround is to save the boot time calibrations at production (done in a clean environment without interference) and during operation, the calibrations can be restored. For the runtime Tx output power calibrations, OLPC mode can be used instead of the CLPC mode.