PIC16LF1454 Datasheet, PDF(244/418 Page) Microchip Technology – 14/20-Pin Flash, 8-Bit USB Microcontrollers with XLP Technology

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

PIC16LF1454 Datasheet, PDF (244/418 Pages) Microchip Technology – 14/20-Pin Flash, 8-Bit USB Microcontrollers with XLP Technology

◁

PIC16(L)F1454/5/9

22.6.10 SLEEP OPERATION

While in Sleep mode, the I2C slave module can receive

addresses or data and when an address match or

complete byte transfer occurs, wake the processor

from Sleep (if the MSSP interrupt is enabled).

22.6.11 EFFECTS OF A RESET

A Reset disables the MSSP module and terminates the

current transfer.

22.6.12 MULTI-MASTER MODE

In Multi-Master mode, the interrupt generation on the

detection of the Start and Stop conditions allows the

determination of when the bus is free. The Stop (P) and

Start (S) bits are cleared from a Reset or when the

MSSP module is disabled. Control of the I2C bus may

be taken when the P bit of the SSPSTAT register is set,

or the bus is Idle, with both the S and P bits clear. When

the bus is busy, enabling the SSP interrupt will gener-

ate the interrupt when the Stop condition occurs.

In multi-master operation, the SDA line must be

monitored for arbitration to see if the signal level is the

expected output level. This check is performed by

hardware with the result placed in the BCLIF bit.

The states where arbitration can be lost are:

â¢ Address Transfer

â¢ Data Transfer

â¢ A Start Condition

â¢ A Repeated Start Condition

â¢ An Acknowledge Condition

22.6.13 MULTI -MASTER COMMUNICATION,

BUS COLLISION AND BUS

ARBITRATION

Multi-Master mode support is achieved by bus arbitra-

tion. When the master outputs address/data bits onto

the SDA pin, arbitration takes place when the master

outputs a â1â on SDA, by letting SDA float high and

another master asserts a â0â. When the SCL pin floats

high, data should be stable. If the expected data on

SDA is a â1â and the data sampled on the SDA pin is â0â,

then a bus collision has taken place. The master will set

the Bus Collision Interrupt Flag, BCLIF and reset the

I2C port to its Idle state (Figure 22-32).

If a transmit was in progress when the bus collision

occurred, the transmission is halted, the BF flag is

cleared, the SDA and SCL lines are deasserted and the

SSPBUF can be written to. When the user services the

bus collision Interrupt Service Routine and if the I2C

bus is free, the user can resume communication by

asserting a Start condition.

If a Start, Repeated Start, Stop or Acknowledge condi-

tion was in progress when the bus collision occurred, the

condition is aborted, the SDA and SCL lines are deas-

serted and the respective control bits in the SSPCON2

register are cleared. When the user services the bus col-

lision Interrupt Service Routine and if the I2C bus is free,

the user can resume communication by asserting a Start

condition.

The master will continue to monitor the SDA and SCL

pins. If a Stop condition occurs, the SSPIF bit will be set.

A write to the SSPBUF will start the transmission of

data at the first data bit, regardless of where the

transmitter left off when the bus collision occurred.

In Multi-Master mode, the interrupt generation on the

detection of Start and Stop conditions allows the deter-

mination of when the bus is free. Control of the I2C bus

can be taken when the P bit is set in the SSPSTAT

register, or the bus is Idle and the S and P bits are

cleared.

FIGURE 22-32:

BUS COLLISION TIMING FOR TRANSMIT AND ACKNOWLEDGE

Data changes

while SCL = 0

SDA line pulled low

by another source

SDA released

by master

Sample SDA. While SCL is high,

data does not match what is driven

by the master.

Bus collision has occurred.

SDA

SCL

BCLIF

Set bus collision

interrupt (BCLIF)

DS41639A-page 244

Preliminary

ï£ 2012 Microchip Technology Inc.

▷