S9S12XS256J0CAL Datasheet, PDF(416/738 Page) Freescale Semiconductor, Inc – Microcontrollers

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S9S12XS256J0CAL Datasheet, PDF (416/738 Pages) Freescale Semiconductor, Inc – Microcontrollers

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Serial Communication Interface (S12SCIV5)

1 The address bit identiï¬es the frame as an address

character. See Section 14.4.6.6, âReceiver Wakeupâ.

14.4.4 Baud Rate Generation

A 13-bit modulus counter in the baud rate generator derives the baud rate for both the receiver and the

transmitter. The value from 0 to 8191 written to the SBR12:SBR0 bits determines the bus clock divisor.

The SBR bits are in the SCI baud rate registers (SCIBDH and SCIBDL). The baud rate clock is

synchronized with the bus clock and drives the receiver. The baud rate clock divided by 16 drives the

transmitter. The receiver has an acquisition rate of 16 samples per bit time.

Baud rate generation is subject to one source of error:

â¢ Integer division of the bus clock may not give the exact target frequency.

Table 14-16 lists some examples of achieving target baud rates with a bus clock frequency of 25 MHz.

When IREN = 0 then,

SCI baud rate = SCI bus clock / (16 * SCIBR[12:0])

Table 14-16. Baud Rates (Example: Bus Clock = 25 MHz)

Bits

SBR[12:0]

41

81

163

326

651

1302

2604

5208

Receiver

Clock (Hz)

609,756.1

308,642.0

153,374.2

76,687.1

38,402.5

19,201.2

9600.6

4800.0

Transmitter

Clock (Hz)

38,109.8

19,290.1

9585.9

4792.9

2400.2

1200.1

600.0

300.0

Target

Baud Rate

38,400

19,200

9,600

4,800

2,400

1,200

600

300

Error

(%)

.76

.47

.16

.15

.01

.01

.00

.00

S12XS Family Reference Manual, Rev. 1.13

416

Freescale Semiconductor

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