C8051F960-A-GQ Silicon Labs, C8051F960-A-GQ Datasheet - Page 394

C8051F960-A-GQ

Manufacturer Part Number

C8051F960-A-GQ

Description

8-bit Microcontrollers - MCU 128KB DC-DC LCD AES

Manufacturer

Silicon Labs

Datasheet

1.C8051F960-A-GQ.pdf (492 pages)

Specifications of C8051F960-A-GQ

Rohs

yes

Core

8051

Processor Series

C8051

Data Bus Width

8 bit

Maximum Clock Frequency

24.5 MHz

Program Memory Size

128 KB

Data Ram Size

8 KB

On-chip Adc

Yes

Operating Supply Voltage

1.8 V to 3.8 V

Operating Temperature Range

- 40 C to + 85 C

Package / Case

QFP-80

Mounting Style

SMD/SMT

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Figure 28.5 shows a typical master write sequence. Two transmit data bytes are shown, though any num-

ber of bytes may be transmitted. All “data byte transferred” interrupts occur after the ACK cycle in this

mode, regardless of whether hardware ACK generation is enabled.

28.5.2. Read Sequence (Master)

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

be a transmitter during the address byte, and a receiver during all data bytes. The SMBus interface gener-

ates the START condition and transmits the first byte containing the address of the target slave and the

data direction bit. In this case the data direction bit (R/W) will be logic 1 (READ). Serial data is then

received from the slave on SDA while the SMBus outputs the serial clock. The slave transmits one or more

bytes of serial data.

If hardware ACK generation is disabled, the ACKRQ is set to 1 and an interrupt is generated after each

received byte. Software must write the ACK bit at that time to ACK or NACK the received byte.

With hardware ACK generation enabled, the SMBus hardware will automatically generate the ACK/NACK,

and then post the interrupt. It is important to note that the appropriate ACK or NACK value should be

set up by the software prior to receiving the byte when hardware ACK generation is enabled.

Writing a 1 to the ACK bit generates an ACK; writing a 0 generates a NACK. Software should write a 0 to

the ACK bit for the last data transfer, to transmit a NACK. The interface exits Master Receiver Mode after

the STO bit is set and a STOP is generated. The interface will switch to Master Transmitter Mode if

SMB0DAT is written while an active Master Receiver. Figure 28.6 shows a typical master read sequence.

Two received data bytes are shown, though any number of bytes may be received. The “data byte trans-

ferred” interrupts occur at different places in the sequence, depending on whether hardware ACK genera-

tion is enabled. The interrupt occurs before the ACK with hardware ACK generation disabled, and after

the ACK when hardware ACK generation is enabled.

394

Received by SMBus

Interface

Transmitted by

SMBus Interface

SLA

Figure 28.5. Typical Master Write Sequence

Interrupts with Hardware ACK Disabled (EHACK = 0)

Interrupts with Hardware ACK Enabled (EHACK = 1)

Data Byte

Rev. 0.5

S = START

P = STOP

A = ACK

W = WRITE

SLA = Slave Address

Data Byte

C8051F960-A-GQ Silicon Labs, C8051F960-A-GQ Datasheet - Page 394

C8051F960-A-GQ

Specifications of C8051F960-A-GQ

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