DF61654N50FTV Renesas Electronics America, DF61654N50FTV Datasheet - Page 647

DF61654N50FTV

Manufacturer Part Number

DF61654N50FTV

Description

IC H8SX/1654 MCU FLASH 120TQFP

Manufacturer

Renesas Electronics America

Series

H8® H8SX/1600r

Datasheet

1.DF61653N50FTV.pdf (1020 pages)

Specifications of DF61654N50FTV

Core Processor

H8SX

Core Size

32-Bit

Speed

50MHz

Connectivity

I²C, IrDA, SCI, SmartCard, USB

Peripherals

DMA, PWM, WDT

Number Of I /o

Program Memory Size

512KB (512K x 8)

Program Memory Type

FLASH

Ram Size

40K x 8

Voltage - Supply (vcc/vdd)

3 V ~ 3.6 V

Data Converters

A/D 8x10b; D/A 2x8b

Oscillator Type

External

Operating Temperature

-20°C ~ 75°C

Package / Case

120-TQFP, 120-VQFP

For Use With

HS0005KCU11H - EMULATOR E10A-USB H8S(X),SH2(A)3DK1657 - DEV EVAL KIT FOR H8SX/1657

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

DF61654N50FTV

Manufacturer:

Renesas Electronics America

Quantity:

10 000

Current page: 647 of 1020
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Section 14 Serial Communication Interface (SCI, IrDA, CRC)

14.5

Multiprocessor Communication Function

Use of the multiprocessor communication function enables data transfer to be performed among a

number of processors sharing communication lines by means of asynchronous serial

communication using the multiprocessor format, in which a multiprocessor bit is added to the

transfer data. When multiprocessor communication is carried out, each receiving station is

addressed by a unique ID code. The serial communication cycle consists of two component cycles:

an ID transmission cycle which specifies the receiving station, and a data transmission cycle for

the specified receiving station. The multiprocessor bit is used to differentiate between the ID

transmission cycle and the data transmission cycle. If the multiprocessor bit is 1, the cycle is an ID

transmission cycle, and if the multiprocessor bit is 0, the cycle is a data transmission cycle. Figure

14.13 shows an example of inter-processor communication using the multiprocessor format. The

transmitting station first sends data which includes the ID code of the receiving station and a

multiprocessor bit set to 1. It then transmits transmit data added with a multiprocessor bit cleared

to 0. The receiving station skips data until data with a 1 multiprocessor bit is sent. When data with

a 1 multiprocessor bit is received, the receiving station compares that data with its own ID. The

station whose ID matches then receives the data sent next. Stations whose ID does not match

continue to skip data until data with a 1 multiprocessor bit is again received.

The SCI uses the MPIE bit in SCR to implement this function. When the MPIE bit is set to 1,

transfer of receive data from RSR to RDR, error flag detection, and setting the SSR status flags,

RDRF, FER, and ORER in SSR to 1 are prohibited until data with a 1 multiprocessor bit is

received. On reception of a receive character with a 1 multiprocessor bit, the MPB bit in SSR is

set to 1 and the MPIE bit is automatically cleared, thus normal reception is resumed. If the RIE bit

in SCR is set to 1 at this time, an RXI interrupt is generated.

When the multiprocessor format is selected, the parity bit setting is invalid. All other bit settings

are the same as those in normal asynchronous mode. The clock used for multiprocessor

communication is the same as that in normal asynchronous mode.

Rev.1.00 Sep. 08, 2005 Page 597 of 966

REJ09B0219-0100

DF61654N50FTV Renesas Electronics America, DF61654N50FTV Datasheet - Page 647

DF61654N50FTV

Specifications of DF61654N50FTV

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