12
12-19
Ver.0.10
SERIAL I/O
12.2 Serial I/O Related Registers
The SIO Mode Register consists of bits to set the serial I/O operation mode, data format, and the
functions used during communication.
The SIO Transmit/Receive Mode Register must always be set before serial I/O starts operating. If
you want to change settings of this register after the serial I/O started transmitting or receiving data,
be sure to confirm that transmit and receive operations have been completed and disable transmit/
receive operations (by clearing the SIO Transmit Control Register transmit enable bit and SIO
Receive Control Register receive enable bit to 0) before you change.
(1) SMOD (serial I/O mode select) bits (D8 to D10)
These bits select the operation mode of serial I/O.
(2) CKS (internal/external clock select) bit (D11)
This bit is effective when CSIO mode is selected. Setting this bit has no effect when UART mode
is selected, in which case the serial I/O is clocked by an internal clock.
(3) STB (stop bit length select) bit (D12)
This bit is effective when UART mode is selected. Use this bit to select the stop bit length that
indicates the end of data to transmit. Setting this bit to 0 selects one stop bit, and setting this bit
to 1 selects two stop bits. During clock-synchronous mode, the content of this bit has no effect.
(4) PSEL (parity odd/even select) bit (D13)
This bit is effective during UART mode. When parity is enabled (D14 = 1), use this bit to select the
parity attribute (whether odd or even). Setting this bit to 0 selects an odd parity, and setting this bit
to 1 selects an even parity. When parity is disabled (D14 = 0) and during clock-synchronous
mode, the content of this bit has no effect.
(5) PEN (parity enable) bit (D14)
This bit is effective during UART mode. When this bit is set to 1, a parity bit is added immediately
after the data bits of transmit data, and for receive data, the parity in it is checked. The parity bit
added to the transmit data is automatically determined to be a 1 or a 0 in such a way that the
attribute (odd/even) of the sum of the number of 1's in data bits and the content of the parity bit
agrees with one selected by the parity odd/even select bit (D13). Figure 12.2.4 shows an
example of data format when parity is enabled.
(6) SEN (sleep select) bit (D15)
This bit is effective during UART mode. If the sleep function is enabled by setting this bit to 1, data
is latched into the UART Receive Buffer Register only when the most significant bit (MSB) of the
received data is 1.
Summary of Contents for M32170F3VFP
Page 42: ...1 1 24 Ver 0 10 OVERVIEW 1 4 Pin Layout This is a blank page ...
Page 56: ...2 2 14 Ver 0 10 This is a blank page ...
Page 88: ...3 3 32 Ver 0 10 ADDRESS SPACE 3 7 Notes on Address Space This is a blank page ...
Page 270: ...9 9 40 Ver 0 10 DMAC 9 4 Precautions about the DMAC This is a blank page ...
Page 614: ...12 12 64 Ver 0 10 This is a blank page SERIAL I O 12 9 Precautions on Using UART Mode ...
Page 756: ...17 17 10 Ver 0 10 RAM BACKUP MODE 17 4 Exiting RAM Backup Mode Wakeup This is a blank page ...
Page 762: ...18 18 6 Ver 0 10 OSCILLATION CIRCUIT 18 2 Clock Generator Circuit This is a blank page ...
Page 831: ...CHAPTER 22 CHAPTER 22 TYPICAL CHARACTERISTICS 22 1 A D Conversion Characteristics ...
Page 833: ...Appendix 1 1 Dimensional Outline Drawing APPENDIX 1 APPENDIX 1 MECHANICAL SPECIFICATIONS ...
Page 841: ...Appendix 3 1 Precautions about Noise APPENDIX 3 APPENDIX 3 PRECAUTIONS ABOUT NOISE ...