M38513E4FP#U0 Renesas Electronics America, M38513E4FP#U0 Datasheet - Page 41

M38513E4FP#U0

Manufacturer Part Number

M38513E4FP#U0

Description

IC 740 MCU ROM 16K 42SSOP

Manufacturer

Renesas Electronics America

Series

740/38000r

Datasheets

1.M38513E4FPU0.pdf (57 pages)

2.M38514E6FP.pdf (93 pages)

Specifications of M38513E4FP#U0

Core Processor

740

Core Size

8-Bit

Speed

8MHz

Connectivity

SIO, UART/USART

Peripherals

PWM, WDT

Number Of I /o

Program Memory Size

16KB (16K x 8)

Program Memory Type

OTP

Ram Size

512 x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 5.5 V

Data Converters

A/D 5x10b

Oscillator Type

External

Operating Temperature

-20°C ~ 85°C

Package / Case

42-SSOP

Package

42SSOP

Family Name

740

Maximum Speed

8 MHz

Operating Supply Voltage

5 V

Data Bus Width

8 Bit

Number Of Programmable I/os

Interface Type

I2C-BUS

On-chip Adc

5-chx10-bit

Number Of Timers

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

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3851 Group

(1) Read-modify-write instruction

The precautions when the read-modify-write instruction such as

SEB, CLB etc. is executed for each register of the multi-master

• I

(2) START condition generating procedure using multi-master

1. Procedure example (The necessary conditions of the generat-

2. Use “Branch on Bit Set” of “BBS 5, $002D, –” for the BB flag

3. Use “STA $2B, STX $2B” or “STY $2B” of the zero page ad-

4. Execute the branch instruction of Item 2 and the store instruc-

Rev.1.01

C-BUS interface are described below.

When executing the read-modify-write instruction for this regis-

ter during transfer, data may become a value not intended.

When the read-modify-write instruction is executed for this regis-

ter at detecting the STOP condition, data may become a value

not intended. It is because H/W changes the read/write bit

(RWB) at the above timing.

Do not execute the read-modify-write instruction for this register

because all bits of this register are changed by H/W.

When the read-modify-write instruction is executed for this regis-

ter at detecting the START condition or at completing the byte

transfer, data may become a value not intended. Because H/W

changes the bit counter (BC0-BC2) at the above timing.

The read-modify-write instruction can be executed for this regis-

ter.

0030

The read-modify-write instruction can be executed for this regis-

ter.

Precautions when using multi-master I

BUS interface

ing procedure are described in Items 2 to 5 below.

BUSFREE:

BUSBUSY:

confirming and branch process.

dressing instruction for writing the slave address value to the

tion of Item 3 continuously, as shown in the procedure example

above.

C data shift register (S0: address 002B

C address register (S0D: address 002C

C status register (S1: address 002D

C control register (S1D: address 002E

C clock control register (S2: address 002F

C START/STOP condition control register (S2D: address

LDA —

SEI

BBS 5, S1, BUSBUSY (BB flag confirming and branch process)

STA S0

LDM #$F0, S1

CLI

C data shift register.

•

)

Oct 15, 2003

(Built-in 24 KB or more ROM)

(Taking out of slave address value)

(Interrupt disabled)

(Writing of slave address value)

(Trigger of START condition generating)

(Interrupt enabled)

page 39 of 89

)

C-

5. Disable interrupts during the following three process steps:

(3) RESTART condition generating procedure

1. Procedure example (The necessary conditions for the proce-

2. Select the slave receive mode when the PIN bit is “0”. Do not

3. The SCL pin is released by writing the slave address value to

4. Disable interrupts during the following two process steps:

(4) Writing to I

Do not execute an instruction to set the PIN bit to “1” from “0” and

an instruction to set the MST and TRX bits to “0” from “1” simulta-

neously. Because it may enter the state that the SCL pin is

released and the SDA pin is released after about one machine

cycle. Do not execute an instruction to set the MST and TRX bits

to “0” from “1” simultaneously when the PIN bit is “1”. Because it

may become the same as above.

(5) Process of after STOP condition generating

Do not write data in the I

tus register S1 until the bus busy flag BB becomes “0” after

generating the STOP condition in the master mode. Because the

STOP condition waveform might not be normally generated.

Reading to the above registers do not have the problem.

• Write slave address value

• Trigger RESTART condition generation

• BB flag confirming

• Writing of slave address value

• Trigger of START condition generating

When the condition of the BB flag is bus busy, enable interrupts

immediately.

dure are described in items 2 to 4 below.)

Execute the following procedure when the PIN bit is “0”.

write “1” to the PIN bit. Neither “0” nor “1” is specified as input to

the BB bit.

The TRX bit becomes “0” and the SDA pin is released.

the I

LDM #$00, S1

LDA —

SEI

STA S0

LDM #$F0, S1

CLI

C data shift register.

•

C status register

C data shift register S0 and the I

(Select slave receive mode)

(Take out of slave address value)

(Disable interrupt)

(Write slave address value)

(Trigger RESTART condition generation)

(Enable interrupt)

C sta-

M38513E4FP#U0 Renesas Electronics America, M38513E4FP#U0 Datasheet - Page 41

M38513E4FP#U0

Specifications of M38513E4FP#U0

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