SH7050 Datasheet, PDF(443/841 Page) Renesas Technology Corp – 32-Bit RISC Microcomputer SuperH RISC engine Family/

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SH7050 Datasheet, PDF (443/841 Pages) Renesas Technology Corp – 32-Bit RISC Microcomputer SuperH RISC engine Family/

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Section 13 Serial Communication Interface (SCI)

RDR. If this check passes, the SCI sets RDRF to 1 and stores the received data in the RDR. If

the check does not pass (receive error), the SCI operates as indicated in table 13.11 and no

further transmission or reception is possible. If the error flag is set to 1, the RDRF bit is not set

to 1 during reception, even if the RDRF bit is 0 cleared. When restarting reception, be sure to

clear the error flag.

3. After setting RDRF to 1, if the receive-data-full interrupt enable bit (RIE) is set to 1 in the

SCR, the SCI requests a receive-data-full interrupt (RxI). If the ORER bit is set to 1 and the

receive-data-full interrupt enable bit (RIE) in the SCR is also set to 1, the SCI requests a

receive-error interrupt (ERI).

Transmitting and Receiving Serial Data Simultaneously (Clock Synchronous Mode): Figure

13.22 shows a sample flowchart for transmitting and receiving serial data simultaneously. The

procedure is as follows (the steps correspond to the numbers in the flowchart):

1. SCI initialization: Set the TxD and RxD pins using the PFC.

2. SCI status check and transmit data write: Read the serial status register (SSR), check that the

TDRE bit is 1, then write transmit data in the transmit data register (TDR) and clear TDRE to

0. The TxI interrupt can also be used to determine if the TDRE bit has changed from 0 to 1.

3. Receive error handling: If a receive error occurs, read the ORER bit in SSR to identify the

error. After executing the necessary error processing, clear ORER to 0. Transmitting/receiving

cannot resume if ORER remains set to 1.

4. SCI status check and receive data read: Read the serial status register (SSR), check that RDRF

is set to 1, then read receive data from the receive data register (RDR) and clear RDRF to 0.

The RxI interrupt can also be used to determine if the RDRF bit has changed from 0 to 1.

5. Continue transmitting and receiving serial data: Read the RDRF bit and RDR, and clear RDRF

to 0 before the frame MSB (bit 7) of the current frame is received. Also read the TDRE bit to

check whether it is safe to write (if it reads 1); if so, write data in TDR, then clear TDRE to 0

before the MSB (bit 7) of the current frame is transmitted. When the DMAC or the DTC is

started by a transmit-data-empty interrupt request (TxI) to write data in TDR, the TDRE bit is

checked and cleared automatically. When the DMAC is started by a receive-data-full interrupt

(RxI) to read RDR, the RDRF bit is cleared automatically.

Note: When selecting the transmission or receiving mode to the simultaneous transmission and

receiving mode, clear TE and RE bits to zero once, then set both of them to 1

simultaneously.

Rev. 5.00 Jan 06, 2006 page 423 of 818

REJ09B0273-0500

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