PIC16F1826 Datasheet, PDF(237/406 Page) Microchip Technology – 18/20/28-Pin Flash Microcontrollers with nanoWatt XLP Technology

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PIC16F1826 Datasheet, PDF (237/406 Pages) Microchip Technology – 18/20/28-Pin Flash Microcontrollers with nanoWatt XLP Technology

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PIC16F/LF1826/27

FIGURE 24-4:

SPI MASTER AND MULTIPLE SLAVE CONNECTION

SPI Master

SCKx

SDOx

SDIx

General I/O

General I/O

General I/O

SCKx

SDIx

SDOx

SSx

SPI Slave

#1

SCKx

SDIx

SDOx

SSx

SPI Slave

#2

SCKx

SDIx

SDOx

SSx

SPI Slave

#3

24.2.1 SPI MODE REGISTERS

The MSSPx module has five registers for SPI mode

operation. These are:

â¢ MSSPx STATUS register (SSPxSTAT)

â¢ MSSPx Control Register 1 (SSPxCON1)

â¢ MSSPx Control Register 3 (SSPxCON3)

â¢ MSSPx Data Buffer register (SSPxBUF)

â¢ MSSPx Address register (SSPxADD)

â¢ MSSPx Shift register (SSPxSR)

(Not directly accessible)

SSPxCON1 and SSPxSTAT are the control and STA-

TUS registers in SPI mode operation. The SSPxCON1

register is readable and writable. The lower 6 bits of

the SSPxSTAT are read-only. The upper two bits of the

SSPxSTAT are read/write.

In one SPI master mode, SSPxADD can be loaded

with a value used in the Baud Rate Generator. More

information on the Baud Rate Generator is available in

Section 24.7 âBaud Rate Generatorâ.

SSPxSR is the shift register used for shifting data in

and out. SSPxBUF provides indirect access to the

SSPxSR register. SSPxBUF is the buffer register to

which data bytes are written, and from which data

bytes are read.

In receive operations, SSPxSR and SSPxBUF

together create a buffered receiver. When SSPxSR

receives a complete byte, it is transferred to SSPxBUF

and the SSPxIF interrupt is set.

During transmission, the SSPxBUF is not buffered. A

write to SSPxBUF will write to both SSPxBUF and

SSPxSR.

ï£ 2010 Microchip Technology Inc.

Preliminary

DS41391C-page 237

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