PIC16LF1824T39A_12 Datasheet, PDF(267/418 Page) Microchip Technology – 20-Pin Flash Microcontrollers with XLP Technology

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PIC16LF1824T39A_12 Datasheet, PDF (267/418 Pages) Microchip Technology – 20-Pin Flash Microcontrollers with XLP Technology

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25.6.7 I2C MASTER MODE RECEPTION

Master mode reception is enabled by programming the

Receive Enable bit, RCEN bit of the SSP1CON2

register.

Note:

The MSSP1 module must be in an Idle

state before the RCEN bit is set or the

RCEN bit will be disregarded.

The Baud Rate Generator begins counting and on each

rollover, the state of the SCL pin changes

(high-to-low/low-to-high) and data is shifted into the

SSP1SR. After the falling edge of the eighth clock, the

receive enable flag is automatically cleared, the con-

tents of the SSP1SR are loaded into the SSP1BUF, the

BF flag bit is set, the SSP1IF flag bit is set and the Baud

Rate Generator is suspended from counting, holding

SCL low. The MSSP1 is now in Idle state awaiting the

next command. When the buffer is read by the CPU,

the BF flag bit is automatically cleared. The user can

then send an Acknowledge bit at the end of reception

by setting the Acknowledge Sequence Enable, ACKEN

bit of the SSP1CON2 register.

25.6.7.1 BF Status Flag

In receive operation, the BF bit is set when an address

or data byte is loaded into SSP1BUF from SSP1SR. It

is cleared when the SSP1BUF register is read.

25.6.7.2 SSPOV Status Flag

In receive operation, the SSPOV bit is set when eight

bits are received into the SSP1SR and the BF flag bit is

already set from a previous reception.

25.6.7.3 WCOL Status Flag

If the user writes the SSP1BUF when a receive is

already in progress (i.e., SSP1SR is still shifting in a

data byte), the WCOL bit is set and the contents of the

buffer are unchanged (the write does not occur).

PIC16LF1824T39A

25.6.7.4 Typical Receive Sequence:

1. The user generates a Start condition by setting

the SEN bit of the SSP1CON2 register.

2. SSP1IF is set by hardware on completion of the

Start.

3. SSP1IF is cleared by software.

4. User writes SSP1BUF with the slave address to

transmit and the R/W bit set.

5. Address is shifted out the SDA pin until all eight

bits are transmitted. Transmission begins as

soon as SSP1BUF is written to.

6. The MSSP1 module shifts in the ACK bit from

the slave device and writes its value into the

ACKSTAT bit of the SSP1CON2 register.

7. The MSSP1 module generates an interrupt at

the end of the ninth clock cycle by setting the

SSP1IF bit.

8. User sets the RCEN bit of the SSP1CON2 regis-

ter and the master clocks in a byte from the slave.

9. After the 8th falling edge of SCL, SSP1IF and

BF are set.

10. Master clears SSP1IF and reads the received

byte from SSP1UF, clears BF.

11. Master sets ACK value sent to slave in ACKDT

bit of the SSP1CON2 register and initiates the

ACK by setting the ACKEN bit.

12. Masters ACK is clocked out to the slave and

SSP1IF is set.

13. User clears SSP1IF.

14. Steps 8-13 are repeated for each received byte

from the slave.

15. Master sends a not ACK or Stop to end

communication.

ï£ 2012 Microchip Technology Inc.

Preliminary

DS41657A-page 267

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