M16C62_N Datasheet, PDF(353/621 Page) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY

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M16C62_N Datasheet, PDF (353/621 Pages) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY

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Clock-Synchronous Serial I/O

Mitsubishi microcomputers

M16C / 62 Group

SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER

2.4.3 Operation of the Serial I/O (transmission in clock-synchronous serial I/O

mode, transfer clock output from multiple pins function selected)

In transmitting data in clock-synchronous serial I/O mode, choose functions from those listed in Table

2.4.2. Operations of the circled items are described below. Figure 2.4.10 shows the operation timing, and

Figures 2.4.11 and 2.4.12 show the set-up procedures.

Table 2.4.2. Choosed functions

Item

Set-up

Item

Set-up

Transfer clock

source

O Internal clock (f1 / f8 / f32)

External clock (CLKi pin)

Transmission

interrupt factor

Transmission buffer empty

O Transmission complete

CTS function

CLK polarity

Transfer clock

CTS function enabled

O CTS function disabled

Output transfer clock

Not selected

to multiple pins

(Note 1)

O Selected

Output transmission data at CTS / RTS

O the falling edge of the

separation function

transfer clock

(Note 2)

O Pin shared by CTS and RTS

CTS and RTS separated

Output transmission data at Data logic select

the rising edge of the

function

transfer clock

(Note 3)

O No reverse

Reverse

O LSB first

MSB first

TXD, RXD I/O

polarity reverse bit

(Note 3)

O No reverse

Reverse

Note 1: This can be selected only when UART1 is used in combination with the internal clock. When this function is

_______ _______

_______ _______

selected, neither UART1 CTS/RTS function, nor UART0 CTS/RTS separation function can be utilized. Set the

_______ _______

UART1 CTS/RTS disable bit to â1â.

_______ _______

Note 2: UART0 only. (UART1 CTS/RTS function cannot be used when this function is selected.)

Note 3: UART2 only.

Operation (1) Setting the transmit enable bit to â1â makes data transmissible status ready.

(2) When transmission data is written to the UART1 transmit buffer register, transmission data

held in the UART1 transmit buffer register is transmitted to the UART1 transmit register in

synchronization with the first falling edge of the transfer clock. At this time, the first bit of the

transmission data is transmitted from the TxD1 pin. Then the data is transmitted bit by bit

from the lower order in synchronization with the falling edges of the transfer clock.

(3) When transmission of 1-byte data is completed, the transmit register empty flag goes to â1â,

which indicates that the transmission is completed. The transfer clock stops at âHâ level. At

this time, the UART1 transmit interrupt request bit goes to â1â.

(4) Setting CLK/CLKS select bit 1 to â1â and setting CLK/CLKS select bit 0 to â1â causes the

CLKS1 pin to go to the transfer clock output pin. Change the transfer clock output pin when

transmission is halted.

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