C8051F581-IMR Silicon Labs, C8051F581-IMR Datasheet - Page 240

C8051F581-IMR

Manufacturer Part Number

C8051F581-IMR

Description

8-bit Microcontrollers - MCU 50MIPS 128kB 8kB SPI

Manufacturer

Silicon Labs

Datasheet

1.C8051F585-IQR.pdf (356 pages)

Specifications of C8051F581-IMR

Rohs

yes

Core

8051

Processor Series

C8051

Data Bus Width

8 bit

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C8051F58x/F59x

overflow after 25 ms (and SMBTOE set), the Timer 3 interrupt service routine can be used to reset (disable

and re-enable) the SMBus in the event of an SCL low timeout.

23.3.5. SCL High (SMBus Free) Timeout

The SMBus specification stipulates that if the SCL and SDA lines remain high for more that 50 µs, the bus

is designated as free. When the SMBFTE bit in SMB0CF is set, the bus will be considered free if SCL and

SDA remain high for more than 10 SMBus clock source periods (as defined by the timer configured for the

SMBus clock source). If the SMBus is waiting to generate a Master START, the START will be generated

following this timeout. Note that a clock source is required for free timeout detection, even in a slave-only

implementation.

23.4. Using the SMBus

The SMBus can operate in both Master and Slave modes. The interface provides timing and shifting con-

trol for serial transfers; higher level protocol is determined by user software. The SMBus interface provides

the following application-independent features:



SMBus interrupts are generated for each data byte or slave address that is transferred. The point at which

the interrupt is generated depends on whether the hardware is acting as a data transmitter or receiver.

When a transmitter (i.e. sending address/data, receiving an ACK), this interrupt is generated after the ACK

cycle so that software may read the received ACK value; when receiving data (i.e. receiving address/data,

sending an ACK), this interrupt is generated before the ACK cycle so that software may define the outgo-

ing ACK value. See Section 23.5 for more details on transmission sequences.

Interrupts are also generated to indicate the beginning of a transfer when a master (START generated), or

the end of a transfer when a slave (STOP detected). Software should read the SMB0CN (SMBus Control

Table 23.4 provides a quick SMB0CN decoding reference.

23.4.1. SMBus Configuration Register

The SMBus Configuration register (SMB0CF) is used to enable the SMBus Master and/or Slave modes,

select the SMBus clock source, and select the SMBus timing and timeout options. When the ENSMB bit is

set, the SMBus is enabled for all master and slave events. Slave events may be disabled by setting the

INH bit. With slave events inhibited, the SMBus interface will still monitor the SCL and SDA pins; however,

the interface will NACK all received addresses and will not generate any slave interrupts. When the INH bit

is set, all slave events will be inhibited following the next START (interrupts will continue for the duration of

the current transfer).

240

Byte-wise serial data transfers

Clock signal generation on SCL (Master Mode only) and SDA data synchronization

Timeout/bus error recognition, as defined by the SMB0CF configuration register

START/STOP timing, detection, and generation

Bus arbitration

Interrupt generation

Status information

Rev. 1.2

C8051F581-IMR Silicon Labs, C8051F581-IMR Datasheet - Page 240

C8051F581-IMR

Specifications of C8051F581-IMR

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