Document Outline

DESCRIPTION
FEATURES
Notes
PIN CONFIGURATION
- M38039FFFP/HP, M38037M8-XXXFP/HP
- M38039FFSP, M38037M8-XXXSP
- M38049FFFP/HP, M38047M8-XXXFP/HP
- M38049FFSP, M38047M8-XXXSP
FUNCTIONAL BLOCK
- 3803 group
- 3804 group
PIN DESCRIPTION
- þÿ
- þÿ
PART NUMBERING
GROUP EXPANSION
- Memory Type
- Memory Size
- Packages
- Memory Expansion Plan
- Support products
FUNCTIONAL DESCRIPTION
CENTRAL PROCESSING UNIT (CPU)
- [Accumulator (A)]
- [Index Register X (X)]
- [Index Register Y (Y)]
- [Stack Pointer (S)]
- [Program Counter (PC)]
- [Processor status register (PS)]
- [CPU Mode Register (CPUM)]
- [MISRG]
  - (1) Bit 0 of address 001016: Oscillation stabilizing time set after STP instruction released bit
  - (2) Bits 1, 2, 3 of address 001016: Middle-speed Mode Automatic Switch Function
MEMORY
- Special Function Register (SFR) Area
- RAM
- ROM
- Interrupt Vector Area
- Zero Page
- Special Page
I/O PORTS
INTERRUPTS
- Interrupt Control
- Interrupt Operation
- Interrupt Source Selection
- External Interrupt Pin Selection
- Notes
TIMERS
- 8-bit Timers
  - Timer divider
  - Prescaler 12
  - Timer 1 and Timer 2
  - Prescaler X and prescaler Y
  - Timer X and Timer Y
    - (1) Timer mode
    - (2) Pulse output mode
    - (3) Event counter mode
    - (4) Pulse width measurement mode
- 16-bit Timers
  - (1) Timer mode
  - (2) Event counter mode
  - þÿ
  - (4) Pulse period measurement mode
  - (5) Pulse width measurement mode
  - (6) Programmable waveform generating mode
  - (7) Programmable one-shot generating mode
  - Notes regarding all modes
SERIAL I/O
- Serial I/O1
  - (1) Clock Synchronous Serial I/O Mode
  - (2) Asynchronous Serial I/O (UART) Mode
  - [Serial I/O1 Control Register (SIO1CON)]
  - [UART1 Control Register (UART1CON)]
  - [Serial I/O1 Status Register (SIO1STS)]
  - [Transmit Buffer Register 1/Receive Buffer Register 1 (TB1/RB1)]
  - [Baud Rate Generator 1 (BRG1)]
  - Notes concerning serial I/O1
    - 1. Notes when selecting clock synchronous serial I/O
    - 2. Notes shen selecting clock asynchronous serial I/O
    - 3. SRDY1 output of reception side
    - þÿ
    - 5. Data transmission control with referring to transmit shift register completion flag
    - 6. Transmission control when external clock is selected
    - þÿ
- Serial I/O2
  - [Serial I/O2 Control Register (SIO2CON)]
- Serial I/O3
  - (1) Clock Synchronous Serial I/O Mode
  - (2) Asynchronous Serial I/O (UART) Mode
  - [Serial I/O3 Control Register (SIO3CON)]
  - [UART3 Control Register (UART3CON)]
  - [Serial I/O3 Status Register (SIO3STS)]
  - [Transmit Buffer Register 3/Receive Buffer Register 3 (TB3/RB3)]
  - [Baud Rate Generator 3 (BRG3)]
  - Notes concerning serial I/O3
    - 1. Notes when selecting clock synchronous serial I/O
    - 2. Notes when selecting clock asynchronous serial I/O
    - 3. SRDY3 output of reception side
    - 4.Setting serial I/O control register again
    - 5. Data transmission control with referring to transmit shift register completion flag
    - 6. Transmission control when external clock is selected
    - 7. Transmit interrupt request when transmit enable bit is set
PULSE WIDTH MODULATION (PWM)
- Data Setting
- PWM Operation
A-D CONVERTER
- [A-D Conversion Register 1, 2 (AD1, AD2)]
- [AD/DA Control Register (ADCON)]
- Comparison Voltage Generator
- Channel Selector
- Comparator and Control Circuit
D-A CONVERTER
WATCHDOG TIMER
- Watchdog Timer Initial Value
- Watchdog Timer Operations
MULTI-MASTER I2C-BUS INTERFACE
- [I2C Data Shift Register (S0)]
- [I2C Slave Address Registers 0 to 2 (S0D0 to S0D2)]
- [I2C Clock Control Register (S2)]
- [I2C Control Register (S1D)]
- [I2C Status Register (S1)]
- START Condition Generating Method
- STOP Condition Generating Method
- START/STOP Condition Detecting Operation
- [I2C START/STOP Condition Control Register (S2D)]
- [I2C Special Mode Status Register (S3)]
- [I2C Special Mode Control Register (S3D)]
- Address Data Communication
- Example of Master Transmission
- Example of Slave Reception
- Precautions when using multi-master I2C-BUS interface
  - (1) Read-modify-write instruction
  - (2) START condition generating procedure using multi-master
  - (3) RESTART condition generating procedure
  - (4) Writing to I2C status register
  - (5) Process of after STOP condition generating
RESET CIRCUIT
CLOCK GENERATING CIRCUIT
- Frequency Control
  - (1) Middle-speed mode
  - þÿ
  - (3) Low-speed mode
  - (4) Low power dissipation mode
- Oscillation Control
  - (1) Stop mode
  - (2) Wait mode
FLASH MEMORY MODE
- (1) Flash memory mode 1 (parallel I/O mode)
  - Functional Outline (parallel input/output mode)
  - Read-only Mode
  - Read/Write Mode
- (2) Flash memory mode 2 (serial I/O mode)
  - Functional Outline (serial I/O mode)
- (3) Flash memory mode 3 (CPU reprogramming mode)
  - Functional Outline (CPU reprogramming mode)
NOTES ON PROGRAMMING
- Processor Status Register
- Interrupts
- Decimal Calculations
- Timers
- Multiplication and Division Instructions
- Ports
- Serial I/O
- A-D Converter
- D-A Converter
- Instruction Execution Time
NOTES ON USAGE
- Handling of Power Source Pins
- Flash Memory Version
- þÿ
DATA REQUIRED FOR MASK ORDERS
ELECTRICAL CHARACTERISTICS
- Absolute maximum ratings
- Recommended operating conditions
- Recommended operating conditions
- Electrical characteristics
- Electrical characteristics (flash memory version)
- Electrical characteristics (mask ROM version)
- A-D converter characteristics (1)
- A-D converter characteristics (2)
- D-A converter characteristics
- Timing requirements (1)
- Timing requirements (2)
- Switching characteristics 1
- Switching characteristics 2
- Multi-master I2C-BUS bus line characteristics
PACKAGE OUTLINE
- 64P6N-A
- þÿ
- þÿ
REVISION HISTORY

Regarding the change of names mentioned in the document, such as Mitsubishi
Electric and Mitsubishi XX, to Renesas Technology Corp.

The semiconductor operations of Hitachi and Mitsubishi Electric were transferred to Renesas

Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog

and discrete devices, and memory chips other than DRAMs (flash memory, SRAMs etc.)

Accordingly, although Mitsubishi Electric, Mitsubishi Electric Corporation, Mitsubishi

Semiconductors, and other Mitsubishi brand names are mentioned in the document, these names

have in fact all been changed to Renesas Technology Corp. Thank you for your understanding.

Except for our corporate trademark, logo and corporate statement, no changes whatsoever have been

made to the contents of the document, and these changes do not constitute any alteration to the

contents of the document itself.

Note : Mitsubishi Electric will continue the business operations of high frequency & optical devices

and power devices.

Renesas Technology Corp.

Customer Support Dept.

April 1, 2003

To all our customers

3803/3804 Group

SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER

MITSUBISHI MICROCOMPUTERS

DESCRIPTION

The 3803/3804 group is the 8-bit microcomputer based on the 740

family core technology.

The 3803/3804 group is designed for household products, office

automation equipment, and controlling systems that require ana-

log signal processing, including the A-D converter and D-A

converters.

The 3804 group is the version of the 3803 group to which an I

C-

BUS control function has been added.

FEATURES

Basic machine-language instructions ...................................... 71

Minimum instruction execution time ................................ 0.24

(at 16.8 MHz oscillation frequency)

Memory size

ROM ............................................................... 16 K to 60 K bytes

RAM ................................................................. 640 to 2048 bytes

Programmable input/output ports ............................................ 56

Software pull-up resistors ................................................. Built-in

Interrupts

21 sources, 16 vectors ............................................... 3803 group

(external 8, internal 12, software 1)

23 sources, 16 vectors ............................................... 3804 group

(external 9, internal 13, software 1)

Timers ........................................................................... 16-bit

8-bit

(with 8-bit prescaler)

Watchdog timer ............................................................ 16-bit

Serial I/O ...................... 8-bit

2 (UART or Clock-synchronized)

8-bit

1 (Clock-synchronized)

PWM ............................................ 8-bit

1 (with 8-bit prescaler)

C-BUS interface (3804 group only) ........................... 1 channel

A-D converter ............................................. 10-bit

16 channels

(8-bit reading enabled)

D-A converter ................................................. 8-bit

2 channels

LED direct drive port .................................................................. 8

Clock generating circuit ..................................... Built-in 2 circuits

(connect to external ceramic resonator or quartz-crystal oscillator)

Power source voltage

In high-, middle-speed mode

At 16.8 MHz oscillation frequency ............................ 4.5 to 5.5 V

At 12.5 MHz oscillation frequency ............................ 4.0 to 5.5 V

At 8.38 MHz oscillation frequency) ........................ 2.7 to 5.5 V

In low-speed mode

At 32 kHz oscillation frequency .............................. 2.7 to 5.5 V

(

This value of flash memory version is 4.0 to 5.5 V.)

Power dissipation

In high-speed mode ................................................ 60 mW (typ.)

(at 16.8 MHz oscillation frequency, at 5 V power source voltage)

In low-speed mode ................................................... 60

W (typ.)

(at 32 kHz oscillation frequency, at 3 V power source voltage)

Operating temperature range .................................... 20 to 85°C

Packages

SP .................................................. 64P4B (64-pin 750 mil SDIP)

FP ....................................... 64P6N-A (64-pin 14

14 mm QFP)

HP ..................................... 64P6Q-A (64-pin 10

10 mm LQFP)

Supply voltage ................................................. V

= 5 V ± 10 %

Program/Erase voltage ........................... V

= 11.7 V to 12.6 V

Programming method ...................... Programming in unit of byte

Erasing method

Batch erasing ........................................ Parallel/Serial I/O mode

Block erasing .................................... CPU reprogramming mode

Program/Erase control by software command

Number of times for programming/erasing ............................ 100

Operating temperature range (at programming/erasing) ...........

........................................................................ Room temperature

Notes

1. The flash memory version cannot be used for application em-

bedded in the MCU card.

2. Supply voltage Vcc of the flash memory version is 4.0 to 5.5

3803/3804 Group

SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER

MITSUBISHI MICROCOMPUTERS

PIN CONFIGURATION (TOP VIEW)

Fig. 1 3803 group pin configuration

Package type : 64P6N-A/64P6Q-A

PIN CONFIGURATION (TOP VIEW)

Fig. 2 3803 group pin configuration

Package type : 64P4B

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: Flash memory version

3803/3804 Group

SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER

MITSUBISHI MICROCOMPUTERS

PIN CONFIGURATION (TOP VIEW)

Fig. 3 3804 group pin configuration

Package type : 64P6N-A/64P6Q-A

PIN CONFIGURATION (TOP VIEW)

Fig. 4 3804 group pin configuration

Package type : 64P4B

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: Flash memory version

3803/3804 Group

SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER

MITSUBISHI MICROCOMPUTERS

FUNCTIONAL BLOCK DIAGRAM (Package: 64P4B)

Fig. 5 3803 group functional block diagram

FUNCTIONAL BLOCK

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Ð­Ð»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: M38037M8

Document Outline

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: M38037M8