s908gz60cfa Freescale Semiconductor, Inc, s908gz60cfa Datasheet - Page 195

s908gz60cfa

Manufacturer Part Number

s908gz60cfa

Description

M68hc08 Microcontrollers

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.S908GZ60CFA.pdf (352 pages)

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To initiate an ESCI transmission:

At the start of a transmission, transmitter control logic automatically loads the transmit shift register with

a preamble of 1s. After the preamble shifts out, control logic transfers the SCDR data into the transmit

shift register. A 0 start bit automatically goes into the least significant bit (LSB) position of the transmit shift

The ESCI transmitter empty bit, SCTE, in SCS1 becomes set when the SCDR transfers a byte to the

transmit shift register. The SCTE bit indicates that the SCDR can accept new data from the internal data

bus. If the ESCI transmit interrupt enable bit, SCTIE, in SCC2 is also set, the SCTE bit generates a

transmitter CPU interrupt request.

When the transmit shift register is not transmitting a character, the TxD pin goes to the idle condition, high.

If at any time software clears the ENSCI bit in ESCI control register 1 (SCC1), the transmitter and receiver

relinquish control of the port E pins.

14.4.2.3 Break Characters

Writing a 1 to the send break bit, SBK, in SCC2 loads the transmit shift register with a break character.

For TXINV = 0 (output not inverted), a transmitted break character contains all 0s and has no start, stop,

or parity bit. Break character length depends on the M bit in SCC1 and the LINR bits in SCBR. As long as

SBK is at 1, transmitter logic continuously loads break characters into the transmit shift register. After

software clears the SBK bit, the shift register finishes transmitting the last break character and then

transmits at least one 1. The automatic 1 at the end of a break character guarantees the recognition of

the start bit of the next character.

When LINR is cleared in SCBR, the ESCI recognizes a break character when a start bit is followed by

eight or nine 0 data bits and a 0 where the stop bit should be, resulting in a total of 10 or 11 consecutive

0 data bits. When LINR is set in SCBR, the ESCI recognizes a break character when a start bit is followed

by 9 or 10 0 data bits and a 0 where the stop bit should be, resulting in a total of 11 or 12 consecutive 0

data bits.

Receiving a break character has these effects on ESCI registers:

Freescale Semiconductor

1. Enable the ESCI by writing a 1 to the enable ESCI bit (ENSCI) in ESCI control register 1 (SCC1).

2. Enable the transmitter by writing a 1 to the transmitter enable bit (TE) in ESCI control register 2

3. Clear the ESCI transmitter empty bit (SCTE) by first reading ESCI status register 1 (SCS1) and

4. Repeat step 3 for each subsequent transmission.

•

(SCC2).

then writing to the SCDR. For 9-bit data, also write the T8 bit in SCC3.

Sets the framing error bit (FE) in SCS1

Sets the ESCI receiver full bit (SCRF) in SCS1

Clears the ESCI data register (SCDR)

Clears the R8 bit in SCC3

Sets the break flag bit (BKF) in SCS2

May set the overrun (OR), noise flag (NF), parity error (PE), or reception in progress flag (RPF) bits

MC68HC908GZ60 • MC68HC908GZ48 • MC68HC908GZ32 Data Sheet, Rev. 6

Functional Description

195

s908gz60cfa Freescale Semiconductor, Inc, s908gz60cfa Datasheet - Page 195

s908gz60cfa

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