C8051F709-GQR Silicon Labs, C8051F709-GQR Datasheet - Page 235

C8051F709-GQR

Manufacturer Part Number

C8051F709-GQR

Description

8-bit Microcontrollers - MCU 8kB 32B EEPROM Cap Sense

Manufacturer

Silicon Labs

Datasheet

1.C8051F709-GQR.pdf (306 pages)

Specifications of C8051F709-GQR

Rohs

yes

Core

8051

Processor Series

C8051

Data Bus Width

8 bit

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30.5.4. Read Sequence (Slave)

During a read sequence, an SMBus master reads data from a slave device. The slave in this transfer will

be a receiver during the address byte, and a transmitter during all data bytes. When slave events are

enabled (INH = 0), the interface enters Slave Receiver Mode (to receive the slave address) when a START

followed by a slave address and direction bit (READ in this case) is received. If hardware ACK generation

is disabled, upon entering Slave Receiver Mode, an interrupt is generated and the ACKRQ bit is set. The

software must respond to the received slave address with an ACK, or ignore the received slave address

with a NACK. If hardware ACK generation is enabled, the hardware will apply the ACK for a slave address

which matches the criteria set up by SMB0ADR and SMB0ADM. The interrupt will occur after the ACK

cycle.

If the received slave address is ignored (by software or hardware), slave interrupts will be inhibited until the

next START is detected. If the received slave address is acknowledged, zero or more data bytes are trans-

mitted. If the received slave address is acknowledged, data should be written to SMB0DAT to be transmit-

ted. The interface enters slave transmitter mode, and transmits one or more bytes of data. After each byte

is transmitted, the master sends an acknowledge bit; if the acknowledge bit is an ACK, SMB0DAT should

be written with the next data byte. If the acknowledge bit is a NACK, SMB0DAT should not be written to

before SI is cleared (an error condition may be generated if SMB0DAT is written following a received

NACK while in slave transmitter mode). The interface exits slave transmitter mode after receiving a STOP.

The interface will switch to slave receiver mode if SMB0DAT is not written following a Slave Transmitter

interrupt. Figure 30.8 shows a typical slave read sequence. Two transmitted data bytes are shown, though

any number of bytes may be transmitted. Notice that all of the “data byte transferred” interrupts occur after

the ACK cycle in this mode, regardless of whether hardware ACK generation is enabled.

30.6. SMBus Status Decoding

The current SMBus status can be easily decoded using the SMB0CN register. The appropriate actions to

take in response to an SMBus event depend on whether hardware slave address recognition and ACK

generation is enabled or disabled. Table 30.5 describes the typical actions when hardware slave address

recognition and ACK generation is disabled. Table 30.6 describes the typical actions when hardware slave

address recognition and ACK generation is enabled. In the tables, STATUS VECTOR refers to the four

upper bits of SMB0CN: MASTER, TXMODE, STA, and STO. The shown response options are only the typ-

ical responses; application-specific procedures are allowed as long as they conform to the SMBus specifi-

cation. Highlighted responses are allowed by hardware but do not conform to the SMBus specification.

Received by SMBus

Interface

Transmitted by

SMBus Interface

SLA

Figure 30.8. Typical Slave Read Sequence

Interrupts with Hardware ACK Disabled (EHACK = 0)

Interrupts with Hardware ACK Enabled (EHACK = 1)

Data Byte

Rev. 1.0

S = START

P = STOP

N = NACK

R = READ

SLA = Slave Address

Data Byte

C8051F70x/71x

235

C8051F709-GQR Silicon Labs, C8051F709-GQR Datasheet - Page 235

C8051F709-GQR

Specifications of C8051F709-GQR

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