342
CHAPTER 17 SERIAL INTERFACE CHANNEL 0 (
ยต
PD78058FY SUBSERIES)
(1) Serial I/O shift register 0 (SIO0)
This is an 8-bit register to carry out parallel-serial conversion and to carry out serial transmission/reception
(shift operation) in synchronization with the serial clock.
SIO0 is set with an 8-bit memory manipulation instruction.
When bit 7 (CSIE0) of serial operating mode register 0 (CSIM0) is 1, writing data to SIO0 starts serial operation.
In transmission, data written to SIO0 is output to the serial output (SO0) or serial data bus (SB0/SB1). In
reception, data is read from the serial input (SI0) or SB0/SB1 to SIO0.
Note that, if a bus is driven in the I2C bus mode or 2-wire serial I/O mode, the bus pin must serve for both
input and output. Therefore, the transmission N-ch open-drain output of the device which will start reception
of data must be turned off beforehand. Consequently, write FFH to SIO0 in advance.
In the I2C bus mode, set SIO0 to FFH with bit 7 (BSYE) of the serial bus interface control register (SBIC) set
to 0.
RESET input makes SIO0 undefined.
Caution Do not execute an instruction that writes SIO0 in the I2C bus mode while WUP (bit 5 of the
serial operating mode register 0 (CSIM0)) = 1. Even if such an instruction is not executed,
data can be received when the wake-up function is used (WUP = 1). For the detail of the wake-
up function, refer to 17.4.4 (1) (c) Wake-up function.
(2) Slave address register (SVA)
This is an 8-bit register to set the slave address value for connection of a slave device to the serial bus.
This register is not used in the 3-wire serial I/O mode.
SVA is set with an 8-bit memory manipulation instruction.
The master device outputs a slave address for selection of a particular slave device to the connected slave
device. These two data (the slave address output from the master device and the SVA value) are compared
with an address comparator. If they match, the slave device has been selected. In that case, bit 6 (COI) of
serial operating mode register 0 (CSIM0) becomes 1.
Also, by setting bit 4 (SVAM) of the interrupt timing instruction register (SINT) at (1), the address can be
compared with the higher order 7 bits, with the LSB being masked.
If a match is not detected during address reception, bit 2 (RELD) of the serial bus interface control register
(SBIC) is cleared to 0. Furthermore, when in the I2C bus mode, the wake up function can be used by setting
bit 5 (WUP) of CSIM0 at (1). In this case, the interrupt request signal (INTCSI0) is generated when the slave
address output by the master coincides with the value of SVA (the interrupt request signal is also generated
when the stop condition is detected), and it can be learned by this interrupt request that the master requests
for communication. To use the wake-up function, set SIC to 1.
Further, when in the 2-wire serial I/O mode or in the I2C bus mode, when sending as a master or as a slave,
SVA can be used to detect errors.
RESET input makes SVA undefined.