HD6417034 Datasheet, PDF(440/691 Page) Renesas Technology Corp – SuperH RISC ENGINE SH7032 AND SH7034

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HD6417034 Datasheet, PDF (440/691 Pages) Renesas Technology Corp – SuperH RISC ENGINE SH7032 AND SH7034

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Table 13.13 SSR Status Flags and Transfer of Receive Data

SSR Status Flags

Receive Error Status

RDRF

ORER FER PER

Overrun error

1

1

0

0

Framing error

0

0

1

0

Parity error

0

0

0

1

Overrun error + framing error

1

1

1

0

Overrun error + parity error

1

1

0

1

Framing error + parity error

0

0

1

1

Overrun error + framing error + parity 1

error

1

1

1

O: Receive data is transferred from RSR to RDR.

X: Receive data is not transferred from RSR to RDR.

Receive Data

Transfer

RSR â RDR

X

O

O

X

X

O

X

Break Detection and Processing: Break signals can be detected by reading the RxD pin directly

when a framing error (FER) is detected. In the break state, the input from the RxD pin consists of

all 0s, so FER is set and the parity error flag (PER) may also be set. In the break state, the SCI

receiver continues to operate, so if the FER bit is cleared to 0, it will be set to 1 again.

Sending a Break Signal: When TE is cleared to 0 the TxD pin becomes an I/O port, the level and

direction (input or output) of which are determined by the data register (DR) of the I/O port and

the control register (CR) of the PFC. This feature can be used to send a break signal. The DR

value substitutes for the mark state until the PFC setting is performed. The DR bits should

therefore be set as an output port that outputs 1 beforehand. To send a break signal during serial

transmission, clear the DR bit to 0, and select output port as the TxD pin function by the PFC.

When TE is cleared to 0, the transmitter is initialized, regardless of its current state.

Receive Error Flags and Transmitter Operation (Synchronous Mode Only): When a receive

error flag (ORER, PER, or FER) is set to 1, the SCI will not start transmitting even if TDRE is set

to 1. Be sure to clear the receive error flags to 0 before starting to transmit. Note that clearing RE

to 0 does not clear the receive error flags.

Receive Data Sampling Timing and Receive Margin in Asynchronous Mode: In asynchronous

mode, the SCI operates on a base clock of 16 times the bit rate frequency. In receiving, the SCI

synchronizes internally with the falling edge of the start bit, which it samples on the base clock.

Receive data is latched on the rising edge of the eighth base clock pulse. See figure 13.21.

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