PIC24F16KL402 Datasheet, PDF(141/260 Page) Microchip Technology – Low-Power, Low-Cost, General Purpose 16-Bit Flash Microcontrollers with nanoWatt XLP Technology

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PIC24F16KL402 Datasheet, PDF (141/260 Pages) Microchip Technology – Low-Power, Low-Cost, General Purpose 16-Bit Flash Microcontrollers with nanoWatt XLP Technology

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PIC24F16KL402 FAMILY

REGISTER 17-3: SSPxCON1: MSSPx CONTROL REGISTER 1 (SPI MODE)

U-0

U-0

U-0

U-0

U-0

U-0

U-0

â

â

â

â

â

â

â

bit 15

U-0

â

bit 8

R/W-0

WCOL

bit 7

R/W-0

SSPOV(1)

R/W-0

SSPEN(2)

R/W-0

CKP

R/W-0

SSPM3(3)

R/W-0

SSPM2(3)

R/W-0

SSPM1(3)

R/W-0

SSPM0(3)

bit 0

Legend:

R = Readable bit

-n = Value at POR

W = Writable bit

â1â = Bit is set

U = Unimplemented bit, read as â0â

â0â = Bit is cleared

x = Bit is unknown

bit 15-8

bit 7

bit 6

bit 5

bit 4

bit 3-0

Unimplemented: Read as â0â

WCOL: Write Collision Detect bit

1 = The SSPxBUF register is written while it is still transmitting the previous word

(must be cleared in software)

0 = No collision

SSPOV: Receive Overflow Indicator bit(1)

SPI Slave mode:

1 = A new byte is received while the SSPxBUF register is still holding the previous data. In case of over-

flow, the data in SSPxSR is lost. Overflow can only occur in Slave mode. The user must read the

SSPxBUF, even if only transmitting data, to avoid setting overflow (must be cleared in software).

0 = No overflow

SSPEN: Master Synchronous Serial Port Enable bit(2)

1 = Enables serial port and configures SCKx, SDOx, SDIx and SSx as serial port pins

0 = Disables serial port and configures these pins as I/O port pins

CKP: Clock Polarity Select bit

1 = Idle state for clock is a high level

0 = Idle state for clock is a low level

SSPM<3:0>: Master Synchronous Serial Port Mode Select bits(3)

1010 = SPI Master mode, Clock = FOSC/(2 * ([SSPxADD] + 1))

0101 = SPI Slave mode, Clock = SCKx pin; SSx pin control is disabled, SSx can be used as an I/O pin

0100 = SPI Slave mode, Clock = SCKx pin; SSx pin control is enabled

0011 = SPI Master mode, Clock = TMR2 output/2

0010 = SPI Master mode, Clock = FOSC/32

0001 = SPI Master mode, Clock = FOSC/8

0000 = SPI Master mode, Clock = FOSC/2

Note 1:

2:

3:

In Master mode, the overflow bit is not set since each new reception (and transmission) is initiated by

writing to the SSPxBUF register.

When enabled, these pins must be properly configured as input or output.

Bit combinations not specifically listed here are either reserved or implemented in I2C mode only.

ï£ 2011 Microchip Technology Inc.

DS31037B-page 141

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