SWRZ075D May   2017  – December 2020 AWR1443

 

  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#01
    2.     MSS#03A
    3.     MSS#04A
    4.     MSS#05A
    5.     MSS#06
    6.     MSS#07A
    7.     MSS#08
    8.     MSS#09
    9.     MSS#13
    10.     MSS#14
    11.     MSS#15
    12.     MSS#19
    13.     MSS#20
    14.     MSS#21A
    15.     MSS#22
    16.     MSS#23
    17.     MSS#24
    18.     MSS#25
    19.     MSS#26
    20.     MSS#27
    21.     MSS#28
    22.     MSS#29
    23.     MSS#30
    24.     MSS#31
    25.     MSS#33
    26.     MSS#35
    27.     MSS#37B
    28.     MSS#38A
    29.     MSS#39
    30.     MSS#40
    31.     MSS#43
    32.     MSS#44
    33.     MSS#45
    34.     ANA#01
    35.     ANA#02
    36.     ANA#03
    37.     ANA#04
    38.     ANA#06
    39.     ANA#08A
    40.     ANA#10A
    41.     ANA#11A
    42.     ANA#12A
    43.     ANA#13
    44.     ANA#15
    45.     ANA#16
    46.     ANA#17A
    47.     ANA#18B
    48.     ANA#20
    49.     ANA#21A
    50.     ANA#22A
    51.     ANA#24A
    52.     ANA#27
  7. 7Trademarks
  8. 8Revision History

MSS#38A

GPIO Glitch During Power-Up

Revision(s) Affected:

AWR1443 ES1.0, AWR1443 ES2.0, and AWR1443 ES3.0

Description:

During the 3.3-V supply ramp, the GPIO outputs could possibly see a short glitch (rising above the 0 V for a short duration), if the 3.3V supply powers up before the 1.8V supply. This GPIO glitch cannot be avoided by just a pulldown resistor. If the GPIO glitch during boot-up is high enough, it could be falsely detected as a “high”.

Workaround(s):

Powering up the 1.8V supply before the 3.3V supply resolved the issue. Incase that is not feasible, AND the GPIO is used for critical controls where glitch cannot be tolerated, the GPIO output should be gated by the nRESET signal of the xWR device.

Using a tri-state buffer (for example: SN74LVC1G126-Q1) externally to isolate the GPIO output from the system until the nRESET of xWR device is released. At this point, all the supplies are expected to be stable.