C8051F060DK Silicon Laboratories Inc, C8051F060DK Datasheet - Page 241

C8051F060DK

Manufacturer Part Number

C8051F060DK

Description

DEV KIT FOR F060/F062/F063

Manufacturer

Silicon Laboratories Inc

Type

MCUr

Datasheet

1.C8051F060-TB.pdf (328 pages)

Specifications of C8051F060DK

Contents

Evaluation Board, Power Supply, USB Cables, Adapter and Documentation

Processor To Be Evaluated

C8051F06x

Interface Type

USB

Silicon Manufacturer

Silicon Labs

Core Architecture

8051

Silicon Core Number

C8051F060

Silicon Family Name

C8051F06x

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

For Use With/related Products

C8051060, C8051F062 and C8051F063

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1214

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

C8051F060DK

Manufacturer:

Silicon Labs

Quantity:

135

Current page: 241 of 328
Download datasheet (2Mb)

C8051F060/1/2/3/4/5/6/7

20.4. SMBus Special Function Registers

The SMBus0 serial interface is accessed and controlled through five SFRs: SMB0CN Control Register,

SMB0CR Clock Rate Register, SMB0ADR Address Register, SMB0DAT Data Register and SMB0STA Sta-

tus Register. The five special function registers related to the operation of the SMBus0 interface are

described in the following sections.

20.4.1. Control Register

The SMBus0 Control register SMB0CN is used to configure and control the SMBus0 interface. All of the

bits in the register can be read or written by software. Two of the control bits are also affected by the

SMBus0 hardware. The Serial Interrupt flag (SI, SMB0CN.3) is set to logic 1 by the hardware when a valid

serial interrupt condition occurs. It can only be cleared by software. The Stop flag (STO, SMB0CN.4) is set

to logic 1 by software. It is cleared to logic 0 by hardware when a STOP condition is detected on the bus.

Setting the ENSMB flag to logic 1 enables the SMBus0 interface. Clearing the ENSMB flag to logic 0 dis-

ables the SMBus0 interface and removes it from the bus. Momentarily clearing the ENSMB flag and then

resetting it to logic 1 will reset SMBus0 communication. However, ENSMB should not be used to tempo-

rarily remove a device from the bus since the bus state information will be lost. Instead, the Assert

Acknowledge (AA) flag should be used to temporarily remove the device from the bus (see description of

AA flag below).

Setting the Start flag (STA, SMB0CN.5) to logic 1 will put SMBus0 in a master mode. If the bus is free,

SMBus0 will generate a START condition. If the bus is not free, SMBus0 waits for a STOP condition to free

the bus and then generates a START condition after a 5 µs delay per the SMB0CR value (In accordance

with the SMBus protocol, the SMBus0 interface also considers the bus free if the bus is idle for 50 µs and

no STOP condition was recognized). If STA is set to logic 1 while SMBus0 is in master mode and one or

more bytes have been transferred, a repeated START condition will be generated.

When the Stop flag (STO, SMB0CN.4) is set to logic 1 while the SMBus0 interface is in master mode, the

interface generates a STOP condition. In a slave mode, the STO flag may be used to recover from an error

condition. In this case, a STOP condition is not generated on the bus, but the SMBus hardware behaves

as if a STOP condition has been received and enters the "not addressed" slave receiver mode. Note that

this simulated STOP will not cause the bus to appear free to SMBus0. The bus will remain occupied until a

STOP appears on the bus or a Bus Free Timeout occurs. Hardware automatically clears the STO flag to

logic 0 when a STOP condition is detected on the bus.

The Serial Interrupt flag (SI, SMB0CN.3) is set to logic 1 by hardware when the SMBus0 interface enters

one of 27 possible states. If interrupts are enabled for the SMBus0 interface, an interrupt request is gener-

ated when the SI flag is set. The SI flag must be cleared by software.

Important Note: If SI is set to logic 1 while the SCL line is low, the clock-low period of the serial clock will

be stretched and the serial transfer is suspended until SI is cleared to logic 0. A high level on SCL is not

affected by the setting of the SI flag.

The Assert Acknowledge flag (AA, SMB0CN.2) is used to set the level of the SDA line during the acknowl-

edge clock cycle on the SCL line. Setting the AA flag to logic 1 will cause an ACK (low level on SDA) to be

sent during the acknowledge cycle if the device has been addressed. Setting the AA flag to logic 0 will

cause a NACK (high level on SDA) to be sent during acknowledge cycle. After the transmission of a byte in

slave mode, the slave can be temporarily removed from the bus by clearing the AA flag. The slave's own

address and general call address will be ignored. To resume operation on the bus, the AA flag must be

reset to logic 1 to allow the slave's address to be recognized.

Rev. 1.2

241

C8051F060DK Silicon Laboratories Inc, C8051F060DK Datasheet - Page 241

C8051F060DK

Specifications of C8051F060DK

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