PIC16F7X7
2
10.4.1
REGISTERS
10.4 I C Mode
The MSSP module has six registers for I2C operation.
These are:
The MSSP module in I2C mode fully implements all
master and slave functions (including general call
support) and provides interrupts on Start and Stop bits
in hardware to determine a free bus (multi-master
function). The MSSP module implements the standard
mode specifications, as well as 7-bit and 10-bit
addressing.
• MSSP Control Register (SSPCON)
• MSSP Control Register 2 (SSPCON2)
• MSSP Status Register (SSPSTAT)
• Serial Receive/Transmit Buffer (SSPBUF)
• MSSP Shift Register (SSPSR) – Not directly
accessible
Two pins are used for data transfer:
• Serial clock (SCL) – RC3/SCK/SCL
• Serial data (SDA) – RC4/SDI/SDA
• MSSP Address Register (SSPADD)
SSPCON, SSPCON2 and SSPSTAT are the control
and status registers in I2C mode operation. The
SSPCON and SSPCON2 registers are readable and
writable. The lower 6 bits of the SSPSTAT are
read-only. The upper two bits of the SSPSTAT are
read/write.
The user must configure these pins as inputs or outputs
through the TRISC<4:3> bits.
FIGURE 10-7:
MSSP BLOCK DIAGRAM
(I2C™ MODE)
SSPSR is the shift register used for shifting data in or
out. SSPBUF is the buffer register to which data bytes
are written to or read from.
Internal
Data Bus
Read
Write
SSPADD register holds the slave device address when
the SSP is configured in I2C Slave mode. When the
SSP is configured in Master mode, the lower seven bits
of SSPADD act as the Baud Rate Generator reload
value.
RC3/SCK/
SCL
SSPBUF Reg
Shift
Clock
In receive operations, SSPSR and SSPBUF together
create a double-buffered receiver. When SSPSR
receives a complete byte, it is transferred to SSPBUF
and the SSPIF interrupt is set.
SSPSR Reg
RC4/
SDI/
SDA
MSb
LSb
Addr Match
Match Detect
SSPADD Reg
During transmission, the SSPBUF is not double-
buffered. A write to SSPBUF will write to both SSPBUF
and SSPSR.
Set, Reset
S, P bits
(SSPSTAT Reg)
Start and
Stop bit Detect
DS30498C-page 102
2004 Microchip Technology Inc.