Serial Communications Interface (SCI)

Functional Description

MC68HC908AZ60A — Rev 2.0 Technical Data

MOTOROLA Serial Communications Interface (SCI) 259

18.5.3.4 Framing Errors

If the data recovery logic does not detect a logic 1 where the stop bit

should be in an incoming character, it sets the framing error bit, FE, in

SCS1. A break character also sets the FE bit because a break character

has no stop bit. The FE bit is set at the same time that the SCRF bit is

set.

18.5.3.5 Baud Rate Tolerance

A transmitting device may be operating at a baud rate below or above

the receiver baud rate. Accumulated bit time misalignment can cause

one of the three stop bit data samples to fall outside the actual stop bit.

Then a noise error occurs. If more than one of the samples is outside the

stop bit, a framing error occurs. In most applications, the baud rate

tolerance is much more than the degree of misalignment that is likely to

occur.

As the receiver samples an incoming character, it resynchronizes the RT

clock on any valid falling edge within the character. Resynchronization

within characters corrects misalignments between transmitter bit times

and receiver bit times.

Slow Data Tolerance

Figure 18-9 shows how much a slow received character can be

misaligned without causing a noise error or a framing error. The slow

stop bit begins at RT8 instead of RT1 but arrives in time for the stop

bit data samples at RT8, RT9, and RT10.

Figure 18-9. Slow Data

MSB STOP

RT1

RT2

RT3

RT4

RT5

RT6

RT7

RT8

RT9

RT10

RT11

RT12

RT13

RT14

RT15

RT16

DATA

SAMPLES

RECEIVER

RT CLOCK

Serial Communications Interface (SCI)

Technical Data MC68HC908AZ60A — Rev 2.0

260 Serial Communications Interface (SCI) MOTOROLA

For an 8-bit character, data sampling of the stop bit takes the receiver

9bit times× 16 RT cycles + 10 RT cycles = 154 RT cycles.

With the misaligned character shown in Figure 18-9, the receiver

counts 154 RT cycles at the point when the count of the transmitting

device is 9 bit times × 16 RT cycles + 3 RT cycles = 147 RT cycles.

The maximum percent difference between the receiver count and the

transmitter count of a slow 8-bit character with no errors is

For a 9-bit character, data sampling of the stop bit takes the receiver

10 bit times × 16 RT cycles + 10 RT cycles = 170 RT cycles.

With the misaligned character shown in Figure 18-9, the receiver

counts 170 RT cycles at the point when the count of the transmitting

device is 10 bit times × 16 RT cycles + 3 RT cycles = 163 RT cycles.

The maximum percent difference between the receiver count and the

transmitter count of a slow 9-bit character with no errors is

Fast Data Tolerance

Figure 18-10 shows how much a fast received character can be

misaligned without causing a noise error or a framing error. The fast

stop bit ends at RT10 instead of RT16 but is still there for the stop bit

data samples at RT8, RT9, and RT10.

Figure 18-10. Fast Data

154 147–

154

--------------------------

100× 4.54%=

170 163–

170

--------------------------

100× 4.12%=

IDLE OR NEXT CHARACTERSTOP

RT1

RT2

RT3

RT4

RT5

RT6

RT7

RT8

RT9

RT10

RT11

RT12

RT13

RT14

RT15

RT16

DATA

SAMPLES

RECEIVER

RT CLOCK

Serial Communications Interface (SCI)

Functional Description

MC68HC908AZ60A — Rev 2.0 Technical Data

MOTOROLA Serial Communications Interface (SCI) 261

For an 8-bit character, data sampling of the stop bit takes the receiver

9bittimes× 16 RT cycles + 10 RT cycles = 154 RT cycles.

With the misaligned character shown in Figure 18-10, the receiver

counts 154 RT cycles at the point when the count of the transmitting

device is 10 bit times × 16 RT cycles = 160 RT cycles.

The maximum percent difference between the receiver count and the

transmitter count of a fast 8-bit character with no errors is

For a 9-bit character, data sampling of the stop bit takes the receiver

10 bit times × 16 RT cycles + 10 RT cycles = 170 RT cycles.

With the misaligned character shown in Figure 18-10, the receiver

counts 170 RT cycles at the point when the count of the transmitting

device is 11 bit times × 16 RT cycles = 176 RT cycles.

The maximum percent difference between the receiver count and the

transmitter count of a fast 9-bit character with no errors is

18.5.3.6 Receiver Wakeup

So that the MCU can ignore transmissions intended only for other

receivers in multiple-receiver systems, the receiver can be put into a

standby state. Setting the receiver wakeup bit, RWU, in SCC2 puts the

receiver into a standby state during which receiver interrupts are

disabled.

Depending on the state of the WAKE bit in SCC1, either of two

conditions on the RxD pin can bring the receiver out of the standby state:

• Address mark — An address mark is a logic 1 in the most

significant bit position of a received character. When the WAKE bit

is set, an address mark wakes the receiver from the standby state

by clearing the RWU bit. The address mark also sets the SCI

receiver full bit, SCRF. Software can then compare the character

containing the address mark to the user-defined address of the

receiver. If they are the same, the receiver remains awake and

154 160–

154

--------------------------

100× 3.90%.=

170 176–

170

--------------------------

100× 3.53%.=

Part #	8A/S6
Description	Incandescent S Light Lamp
Category	LAMP
Availability	In Stock
Qty	2

8A/S6

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Technical Document