S9S12GN48F0VLF Freescale Semiconductor, S9S12GN48F0VLF Datasheet - Page 685

S9S12GN48F0VLF

Manufacturer Part Number

S9S12GN48F0VLF

Description

16-bit Microcontrollers - MCU S12 Core,64kFlash,Au

Manufacturer

Freescale Semiconductor

Datasheet

1.S9S12G96F0CLL.pdf (1292 pages)

Specifications of S9S12GN48F0VLF

Rohs

yes

Core

S12

Processor Series

MC9S12G

Data Bus Width

16 bit

Maximum Clock Frequency

25 MHz

Program Memory Size

48 KB

Data Ram Size

2 KB

On-chip Adc

Yes

Operating Supply Voltage

3.13 V to 5.5 V

Operating Temperature Range

- 40 C to + 125 C

Package / Case

LQFP-48

Mounting Style

SMD/SMT

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The SCI also sets a ﬂag, the transmit data register empty ﬂag (TDRE), every time it transfers data from the

buffer (SCIDRH/L) to the transmitter shift register.The transmit driver routine may respond to this ﬂag by

writing another byte to the Transmitter buffer (SCIDRH/SCIDRL), while the shift register is still shifting

out the ﬁrst byte.

To initiate an SCI transmission:

Writing the TE bit from 0 to a 1 automatically loads the transmit shift register with a preamble of 10 logic

1s (if M = 0) or 11 logic 1s (if M = 1). After the preamble shifts out, control logic transfers the data from

the SCI data register into the transmit shift register. A logic 0 start bit automatically goes into the least

signiﬁcant bit position of the transmit shift register. A logic 1 stop bit goes into the most signiﬁcant bit

position.

Hardware supports odd or even parity. When parity is enabled, the most signiﬁcant bit (MSB) of the data

character is the parity bit.

The transmit data register empty ﬂag, TDRE, in SCI status register 1 (SCISR1) becomes set when the SCI

data register transfers a byte to the transmit shift register. The TDRE ﬂag indicates that the SCI data

control register 2 (SCICR2) is also set, the TDRE ﬂag generates a transmitter interrupt request.

Freescale Semiconductor

1. Conﬁgure the SCI:

2. Transmit Procedure for each byte:

3. Repeat step 2 for each subsequent transmission.

a) Select a baud rate. Write this value to the SCI baud registers (SCIBDH/L) to begin the baud

b) Write to SCICR1 to conﬁgure word length, parity, and other conﬁguration bits

c) Enable the transmitter, interrupts, receive, and wake up as required, by writing to the SCICR2

a) Poll the TDRE ﬂag by reading the SCISR1 or responding to the TDRE interrupt. Keep in mind

b) If the TDRE ﬂag is set, write the data to be transmitted to SCIDRH/L, where the ninth bit is

rate generator. Remember that the baud rate generator is disabled when the baud rate is zero.

Writing to the SCIBDH has no effect without also writing to SCIBDL.

(LOOPS,RSRC,M,WAKE,ILT,PE,PT).

be shifted out of the transmitter shift register.

that the TDRE bit resets to one.

written to the T8 bit in SCIDRH if the SCI is in 9-bit data format. A new transmission will not

result until the TDRE ﬂag has been cleared.

The TDRE ﬂag is set when the shift register is loaded with the next data to

be transmitted from SCIDRH/L, which happens, generally speaking, a little

over half-way through the stop bit of the previous frame. Speciﬁcally, this

transfer occurs 9/16ths of a bit time AFTER the start of the stop bit of the

previous frame.

MC9S12G Family Reference Manual, Rev.1.23

NOTE

Serial Communication Interface (S12SCIV5)

687

S9S12GN48F0VLF Freescale Semiconductor, S9S12GN48F0VLF Datasheet - Page 685

S9S12GN48F0VLF

Specifications of S9S12GN48F0VLF

Available stocks

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