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型號(hào)：	CR16HCT9
文件頁(yè)數(shù)：	79/157頁(yè)
文件大?。?/td>	1256K
代理商：	CR16HCT9

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Acknowledge Cycle

The Acknowledge Cycle consists of two signals: the ac-

knowledge clock pulse the master sends with each byte

transferred, and the acknowledge signal sent by the receiv-

ing device (Figure 41).

Figure 41.

ACCESS.bus Data Transaction

The master generates the acknowledge clock pulse on the

ninth clock pulse of the byte transfer. The transmitter releas-

es the SDA line (permits it to go high) to allow the receiver to

send the acknowledge signal. The receiver must pull down

the SDA line during the acknowledge clock pulse, thus sig-

nalling the correct reception of the last data byte, and its

readiness to receive the next byte. Figure 42 illustrates the

acknowledge cycle.

Figure 42.

ACCESS.bus Acknowledge Cycle

The master generates an acknowledge clock pulse after

each byte transfer. The receiver sends an acknowledge sig-

nal after every byte received.

There are two exceptions to the “acknowledge after every

byte” rule.

1. When the master is the receiver, it must indicate to the

transmitter an end of data by not-acknowledging (“neg-

ative acknowledge”) the last byte clocked out of the

slave. This “negative acknowledge” still includes the ac-

knowledge clock pulse (generated by the master), but

the SDA line is not pulled down.

2. When the receiver is full, otherwise occupied, or a prob-

lem has occurred, it sends a negative acknowledge to

indicate that it can not accept additional data bytes.

Addressing Transfer Formats

Each device on the bus has a unique address. Before any

data is transmitted, the master transmits the address of the

slave being addressed. The slave device should send an ac-

knowledge signal on the SDA line, once it recognizes its ad-

dress.

The address is the first seven bits after a Start Condition. The

direction of the data transfer (R/W) depends on the bit sent

after the address — the eighth bit. A low-to-high transition

during a SCL high period indicates the Stop Condition, and

ends the transaction (Figure 43).

Figure 43.

A Complete ACCESS.bus Data Transaction

When the address is sent, each device in the system com-

pares this address with its own. If there is a match, the device

considers itself addressed and sends an acknowledge sig-

nal. Depending upon the state of the R/W bit (1:read, 0:write),

the device acts as a transmitter or a receiver.

The I

C bus protocol allows sending a general call address

to all slaves connected to the bus. The first byte sent speci-

fies the general call address (00

) and the second byte

specifies the meaning of the general call (for example, “Write

slave address by software only”). Those slaves that require

the data acknowledge the call and become slave receivers;

the other slaves ignore the call.

Arbitration on the Bus

Multiple master devices on the bus, require arbitration be-

tween their conflicting bus-access demands. Control of the

bus is initially determined according to address bits and clock

cycle. If the masters are trying to address the same IC, data

comparisons determine the outcome of this arbitration. In

master mode, the device immediately aborts a transaction if

the value sampled on the SDA lines differs from the value

driven by the device. (Exceptions to this rule are SDA while

receiving data; in these cases the lines may be driven low by

the slave without causing an abort).

The SCL signal is monitored for clock synchronization pur-

pose and allow the slave to stall the bus. The actual clock pe-

riod will be the one set by the master with the longest clock

period or by the slave stall period. The clock high period is

determined by the master with the shortest clock high period.

When an abort occurs during the address transmission, the

master that identify the conflict, give-up the bus and should

switch to slave mode and continue to sample SDA to see if it

is being addressed by the winning master on the AC-

CESS.bus.

19.2

The ACB module provides the physical layer for an AC-

CESS.bus compliant serial interface. The module is config-

urable as either a master or slave device. As a slave device,

the ACB module may issue a request to become the bus

master.

ACB FUNCTIONAL DESCRIPTION

Start

Condition

Stop

Condition

SDA

SCL

MSB

ACK

2 3 - 6

3 - 8

Acknowledgment

Signal From Receiver

Byte Complete

nterrupt Within

Receiver

Clock Line Held

Low by Receiver

While Interrupt

is Serviced

Start

Condition

SCL

2 3 - 6

Transmitter Stays Off

the Bus During the

Acknowledgment Clock

Acknowledgment

Signal From Receiver

Data Output

Transmitter

Data Output

Receiver

Start

Condition

Stop

Condition

SDA

SCL

1 - 7

Address R/W ACK

Data

ACK

Data

ACK

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