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K60P100M100SF2RM Datasheet, PDF (1534/1809 Pages) Freescale Semiconductor, Inc – K60 Sub-Family Reference Manual
Functional description
In the following figure, the verification samples RT3 and RT5 determine that the first low
detected was noise and not the beginning of a start bit. In this example
C7816[ISO_7816E] = 0. The RT clock is reset and the start bit search begins again. The
noise flag is not set because the noise occurred before the start bit was found.
START BIT
LSB
Rx pin input
SAMPLES 1 1 1 0
1
110
0
0
0 0 00
RT CLOCK
RT CLOCK COUNT
RESET RT CLOCK
Figure 51-191. Start bit search example 1 (C7816[ISO_7816E] = 0)
In the following figure, verification sample at RT3 is high. In this example
C7816[ISO_7816E] = 0. The RT3 sample sets the noise flag. Although the perceived bit
time is misaligned, the data samples RT8, RT9, and RT10 are within the bit time and data
recovery is successful.
PERCEIVED START BIT
ACTUAL START BIT
LSB
Rx pin input
SAMPLES 1 1 1 1 1 0
1
0
0000
RT CLOCK
RT CLOCK COUNT
RESET RT CLOCK
Figure 51-192. Start bit search example 2 (C7816[ISO_7816E] = 0)
In the following figure, a large burst of noise is perceived as the beginning of a start bit,
although the test sample at RT5 is high. In this example C7816[ISO_7816E] = 0. The
RT5 sample sets the noise flag. Although this is a worst-case misalignment of perceived
bit time, the data samples RT8, RT9, and RT10 are within the bit time and data recovery
is successful.
1534
K60 Sub-Family Reference Manual, Rev. 6, Nov 2011
Freescale Semiconductor, Inc.