All transmission and reception of serial data on the UPDI is achieved using the UPDI
frames presented in Figure 34-3. Communication is initiated from the master (debugger) side, and
every transmission must start with a SYNCH character upon which the UPDI can recover the
transmission baud rate, and store this setting for the coming data. The baud rate set by
the SYNCH character will be used for both reception and transmission for the instruction
byte received after the SYNCH. See 34.3.3 UPDI Instruction Set for details on when the next SYNCH character is expected in the
instruction stream.
There is no writable baud rate register in the UPDI, so the baud rate sampled
from the SYNCH character is used for data recovery by sampling the Start bit, and
performing a majority vote on the middle samples. This process is repeated for all bits
in the frame, including the parity bit and two Stop bits. The baud generator uses 16
samples, and the majority voting is done on sample 7, 8, and 9.
The transmission baud rate must be set up in relation to the selected UPDI
clock, which can be adjusted by UPDICLKSEL in UPDI.ASI_CTRLA. See Table 34-2 for recommended maximum and minimum baud rate
settings.
Table 34-2. Recommended UART Baud Rate
Based on UPDICLKSEL Setting
UPDICLKSEL[1:0]
MAX Recommended Baud Rate
MIN Recommended Baud Rate
0x1 (16 MHz)
0.9 Mbps
0.300 kbps
0x2 (8 MHz)
450 kbps
0.150 kbps
0x3 (4 MHz) - Default
225 kbps
0.075 kbps
The UPDI Baud Rate Generator utilizes fractional baud counting to minimize
the transmission error. With the fixed frame format used by the UPDI, the maximum and
recommended receiver transmission error limits can be seen in the following table:
Table 34-3. Receiver Baud Rate
Error
Data + Parity Bits
Rslow
Rfast
Max. Total Error [%]
Recommended Max. RX Error [%]
9
96.39
104.76
+4.76/-3.61
+1.5/-1.5
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