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CHAPTER 16 SERIAL INTERFACE CHANNEL 0 (
µ
PD78014Y Subseries)
321
16.1 Serial Interface Channel 0 Functions
Serial interface channel 0 employs the following five modes.
• Operation stop mode
• 3-wire serial I/O mode
• SBI (Serial bus interface) mode
• 2-wire serial I/O mode
• I
2
C (Inter IC) bus mode
Caution
Do not switch the operation mode (3-wire serial I/O/2-wire serial I/O/SBI/I
2
C bus) during the serial
interface channel 0 operation enable. The operation mode should be switched after stopping the
serial operation.
(1) Operation stop mode
Operation stop mode is used when serial transfer is not performed, thus reducing power dissipation.
(2) 3-wire serial I/O mode (MSB/LSB-first switchable)
3-wire serial I/O mode transfers 8-bit data with three lines; serial clock (SCK0), serial output (SO0), and serial
input (SI0).
3-wire serial I/O mode can transfer/receive at the same time, so the data transfer processing time is fast.
The start bit of 8-bit data to undergo serial transfer is switchable between MSB and LSB, so it is possible to connect
devices of any start bit.
3-wire serial I/O mode is valid for connection of peripheral I/O units and display controllers which incorporate
a conventional synchronous clocked serial interface as is the case with the 75X/XL, 78K and 17K series.
(3) SBI (serial bus interface) mode (MSB first)
This mode is used for 8-bit data transfer with two or more devices using two lines of serial clock (SCK0) and serial
data bus (SB0 or SB1) (see Figure 16-1).
The SBI mode complies with the NEC serial bus format and distinguishes the transfer data into “address”,
“command”, and “data” to transmit or receive the data.
• Address
: Data to select objective devices in serial communication
• Command : Data to instruct objective devices
• Data
: Data to be actually transferred
In the actual transfer, the master device first outputs the “address” to the serial bus, and selects the slave device
as communication target from among two or more devices. The serial transfer is then performed by transmitting
and receiving “command” and “data” between the master and slave devices. The receiver automatically
distinguishes the received data as “address”, “command”, or “data”, by hardware.
This function enables to use input/output ports effectively and to simplify a serial interface controller of application
programs.
In addition, the wake-up function for handshake, and the acknowledge signal and busy signal output function
can be used.
Summary of Contents for 78011BGC AB8 Series
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Page 62: ...www DataSheet4U com CHAPTER 2 OUTLINE µPD78014Y Subseries 62 MEMO ...
Page 78: ...www DataSheet4U com CHAPTER 3 PIN FUNCTION µPD78014 Subseries 78 MEMO ...
Page 94: ...www DataSheet4U com CHAPTER 4 PIN FUNCTION µPD78014Y Subseries 94 MEMO ...
Page 170: ...www DataSheet4U com CHAPTER 7 CLOCK GENERATOR 170 MEMO ...
Page 222: ...www DataSheet4U com CHAPTER 9 8 BIT TIMER EVENT COUNTER 222 MEMO ...
Page 230: ...www DataSheet4U com CHAPTER 10 WATCH TIMER 230 MEMO ...
Page 262: ...www DataSheet4U com CHAPTER 14 A D CONVERTER 262 MEMO ...
Page 318: ...www DataSheet4U com CHAPTER 15 SERIAL INTERFACE CHANNEL 0 µPD78014 Subseries 318 MEMO ...
Page 408: ...www DataSheet4U com CHAPTER 16 SERIAL INTERFACE CHANNEL 0 µPD78014Y Subseries 408 MEMO ...
Page 446: ...www DataSheet4U com CHAPTER 17 SERIAL INTERFACE CHANNEL 1 446 MEMO ...
Page 472: ...www DataSheet4U com CHAPTER 18 INTERRUPT FUNCTIONS AND TEST FUNCTION 472 MEMO ...
Page 502: ...www DataSheet4U com CHAPTER 22 µPD78P014 78P014Y 502 MEMO ...
Page 520: ...www DataSheet4U com CHAPTER 23 INSTRUCTION SET 520 MEMO ...