H8S2117R Datasheet, PDF(478/1024 Page) Renesas Technology Corp – 16-Bit Single-Chip Microcomputer H8S Family / H8S/2100 Series

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H8S2117R Datasheet, PDF (478/1024 Pages) Renesas Technology Corp – 16-Bit Single-Chip Microcomputer H8S Family / H8S/2100 Series

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Section 15 Serial Communication Interface (SCI)

15.7.4 Receive Data Sampling Timing and Reception Margin

Only the internal clock generated by the internal baud rate generator can be used as a

communication clock in smart card interface mode. In this mode, the SCI can operate using a

basic clock with a frequency of 32, 64, 372, or 256 times the bit rate according to the BCP1 and

BCP0 settings (the frequency is always 16 times the bit rate in normal asynchronous mode). At

reception, the falling edge of the start bit is sampled using the internal basic clock in order to

perform internal synchronization. Receive data is sampled at the 16th, 32nd, 186th and 128th

rising edges of the basic clock pulses so that it can be latched at the center of each bit as shown in

figure 15.25. The reception margin here is determined by the following formula.

M = ï£¦ (0.5 â 1 ) â (L â 0.5) F â ï£¦ D â 0.5 ï£¦ (1 + F) ï£¦ Ã 100 [%] ... Formula (1)

2N

N

M: Reception margin (%)

N: Ratio of bit rate to clock (N = 32, 64, 372, 256)

D: Clock duty (D = 0 to 1.0)

L: Frame length (L = 10)

F: Absolute value of clock rate deviation

Assuming values of F = 0, D = 0.5, and N = 372 in formula (1), the reception margin is

determined by the formula below.

M = (0.5 â 1 / 2 Ã 372) Ã 100 [%] = 49.866%

Internal

basic clock

372 clock cycles

186 clock

cycles

0

185

371 0

Receive data

(RxD)

Start bit

D0

Synchronization

sampling timing

Data sampling

timing

185

371 0

D1

Figure 15.25 Receive Data Sampling Timing in Smart Card Interface Mode

(When Clock Frequency is 372 Times the Bit Rate)

Rev. 1.00 Apr. 28, 2008 Page 452 of 994

REJ09B0452-0100

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