TMPM370FYDFG Toshiba, TMPM370FYDFG Datasheet - Page 192

TMPM370FYDFG

Manufacturer Part Number

TMPM370FYDFG

Description

Microcontrollers (MCU) MCU w/ ARM Cortex-M3 256K FLASH, 10K RAM

Manufacturer

Toshiba

Datasheet

1.TMPM370FYFG.pdf (498 pages)

Specifications of TMPM370FYDFG

Processor Series

TX03

Core

ARM Cortex M3

3rd Party Development Tools

MDK-ARM, RL-ARM, ULINK2

Product Summaries

Summary

Lead Free

Yes

Rohs Compatible Product(s)

Available

Rom (kbytes)

256K

Rom Type

Flash

Ram (kbytes)

10K

Number Of Pins

100

Package

QFP(14x20)

Vcc

Cpu Mhz

Ssp (ch) Spi

I2c/sio (ch)

Uart/sio (ch)

Usb

Can

Ethernet

External Bus Interface

Cs/wait Controller (ch)

Dma Controller

10-bit Da Converter

10-bit Ad Converter

12-bit Ad Converter

16-bit Timer / Counter

Motor / Igbt Control

Vector Engine

Real Time Clock

Watchdog Timer

Osc Freq Detect

Clock Gear

Low-power Hold Function

Remote Control Interface

Hardware Cec Controller

Comparators

Low-voltage Detector

Etm Hardware Trace

2-bit

Lead Free Status / Rohs Status

Details

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

TMPM370FYDFG

Manufacturer:

TOSHIBA/东芝

Quantity:

20 000

Current page: 192 of 498
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10.3.14 Parity Control Circuit

10.3.15 Error Flag

If the parity addition bit <PE> of the serial control register SC0CR is set to “1,” data is sent

with the parity bit. Note that the parity bit may be used only in the 7- or 8-bit UART mode.

The <EVEN> bit of SC0CR selects either even or odd parity.

Upon data transmission, the parity control circuit automatically generates the parity with the

data written to the transmit buffer (SC0BUF). After data transmission is complete, the parity

bit will be stored in SC0BUF bit 7 <TB7> in the 7-bit UART mode and in bit 7 <TB8> in the

serial mode control register SC0MOD in the 8-bit UART mode. The <PE> and <EVEN>

settings must be completed before data is written to the transmit buffer.

Upon data reception, the parity bit for the received data is automatically generated while the

data is shifted to receive buffer 1 and moved to receive buffer 2 (SC0BUF). In the 7-bit

UART mode, the parity generated is compared with the parity stored in SC0BUF <RB7>,

while in the 8-bit UART mode, it is compared with the bit 7 <RB8> of the SC0CR register. If

there is any difference, a parity error occurs and the <PERR> flag of the SC0CR register is

set. When the FIFO is used, the <PERR> indicates that one or more data have the parity

error among the receiving data.

In the I/O interface mode, the SC0CR <PERR> flag functions as an under-run error flag, not

as a parity flag.

Three error flags are provided to inprove the reliability of received data.

Note)

Overrun error <OERR>: Bit 4 of the serial control register SC0CR

In both UART and I/O interface modes, this bit is set to “1” when an error is generated

by completing the reception of the next frame receive data before the receive buffer

has been read. If the receive FIFO is enabled, the received data is automatically

moved to the receive FIFO and no overrun error will be generated until the receive

FIFO is full (or until the usable bytes are fully occupied). This flag is set to “0” when it is

read. In the I/O interface SCLK output mode, no overrun error is generated and

therefore, this flag is inoperative and the operation is undefined.

Parity error/under-run error <PERR>: Bit 3 of the SC0CR register

In the UART mode, this bit is set to “1” when a parity error is generated. A parity error is

generated when the parity generated from the received data is different from the parity

received. This flag is set to “0” when it is read.

In the I/O interface mode, this bit indicates an under-run error. When the double buffer

control bit <WBUF> of the serial mode control register SC0MOD2 is set to “1” in the

SCLK input mode, if no data is set to the transmit double buffer before the next data

transfer clock after completing the transmission from the transmit shift register, this

error flag is set to “1” indicating an under-run error. If the transmit FIFO is enabled, any

data content in the transmit FIFO will be moved to the buffer. When the transmit FIFO

and the double buffer are both empty, an under-run error will be generated. Because

no under-run errors can be generated in the SCLK output mode, this flag is inoperative

Changing the mode from I/O interface SCLK output mode to the other

mode, read SC0CR to clear SC0CR<OERR> flag.

TMPM370 10-21

Serial Channel

TMPM370

TMPM370FYDFG Toshiba, TMPM370FYDFG Datasheet - Page 192

TMPM370FYDFG

Specifications of TMPM370FYDFG

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