R5F211B1SP#U0 Renesas Electronics America, R5F211B1SP#U0 Datasheet - Page 211

R5F211B1SP#U0

Manufacturer Part Number

R5F211B1SP#U0

Description

IC R8C MCU FLASH 4K 20SSOP

Manufacturer

Renesas Electronics America

Series

M16C™ M16C/R8C/Tiny/1Br

Datasheets

1.R5F211A2SPU0.pdf (51 pages)

2.R5F211A2SPU0.pdf (300 pages)

3.R5F211A2SPU0.pdf (341 pages)

Specifications of R5F211B1SP#U0

Core Processor

R8C

Core Size

16-Bit

Speed

20MHz

Connectivity

I²C, SIO, SSU, UART/USART

Peripherals

LED, POR, Voltage Detect, WDT

Number Of I /o

Program Memory Size

4KB (4K x 8)

Program Memory Type

FLASH

Ram Size

384 x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 5.5 V

Data Converters

A/D 4x10b

Oscillator Type

Internal

Operating Temperature

-20°C ~ 85°C

Package / Case

20-SSOP

For Use With

R0K5211B4S001BE - KIT STARTER FOR R8C/18191A1BR0K5211B4S000BE - KIT DEV EVALUATION R8C/1BR0E521174CPE10 - EMULATOR COMPACT R8C/18/19/1

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Part Number:

R5F211B1SP#U0R5F211B1SP#V0

Manufacturer:

MICREL

Quantity:

2 860

Current page: 211 of 341
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R8C/1A Group, R8C/1B Group

Rev.1.30

REJ09B0252-0130

16.2.6.2

Figure 16.19 shows an Example of Clock Synchronous Serial I/O with Chip Select Operation during Data

Transmission (4-Wire Bus Communication Mode). During the data transmit operation, clock synchronous

serial I/O with chip select operates as described below.

When the MCU is set as the master device, it outputs a synchronous clock and data. When the MCU is set as a

slave device, it outputs data in synchronization with the input clock while the SCS pin is “L”.

When the transmit data is written to the SSTDR register after setting the TE bit to 1 (transmit enabled), the

TDRE bit is automatically set to 0 (data has not been transferred from registers SSTDR to SSTRSR) and the

data is transferred from registers SSTDR to SSTRSR. After the TDRE bit is set to 1 (data is transferred from

registers SSTDR to SSTRSR), transmission starts. When the TIE bit in the SSER register is set to 1, a TXI

interrupt request is generated.

After 1 frame of data is transferred while the TDRE bit is set to 0, the data is transferred from registers SSTDR

to SSTRSR and transmission of the next frame is started. If the 8th bit is transmitted while TDRE is set to 1,

TEND in the SSSR register is set to 1 (when the last bit of the transmit data is transmitted, the TDRE bit is set

to 1) and the state is retained. If the TEIE bit in the SSER register is set to 1 (transmit-end interrupt requests

enabled), a TEI interrupt request is generated. The SSCK pin remains “H” after transmit-end and the SCS pin is

held “H”. When transmitting continuously while the SCS pin is held “L”, write the next transmit data to the

SSTDR register before transmitting the 8th bit.

Transmission cannot be performed while the ORER bit in the SSSR register is set to 1 (overrun error). Confirm

that the ORER bit is set to 0 before transmission.

In contrast to the clock synchronous communication mode, the SSO pin is placed in high-impedance state while

the SCS pin is placed in high-impedance state when operating as a master device and the SSI pin is placed in

high-impedance state while the SCS pin is placed in “H” input state when operating as a slave device.

The sample flowchart is the same as that for the clock synchronous communication mode. (Refer to Figure

16.14 Sample Flowchart of Data Transmission (Clock Synchronous Communication Mode).)

Dec 08, 2006

Data Transmission

Page 193 of 315

16. Clock Synchronous Serial Interface

R5F211B1SP#U0 Renesas Electronics America, R5F211B1SP#U0 Datasheet - Page 211

R5F211B1SP#U0

Specifications of R5F211B1SP#U0

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