Datasheet
Table Of Contents
- Cover
- Notes regarding these materials
- General Precautions on Handling of Product
- Configuration of This Manual
- Preface
- Contents
- Figures
- Tables
- Section 1 Overview
- Section 2 CPU
- Section 3 Exception Handling
- Section 4 Interrupt Controller
- 4.1 Features
- 4.2 Input/Output Pins
- 4.3 Register Descriptions
- 4.3.1 Interrupt Edge Select Register (IEGR)
- 4.3.2 Wakeup Edge Select Register (WEGR)
- 4.3.3 Interrupt Enable Register 1 (IENR1)
- 4.3.4 Interrupt Enable Register 2 (IENR2)
- 4.3.5 Interrupt Request Register 1 (IRR1)
- 4.3.6 Interrupt Request Register 2 (IRR2)
- 4.3.7 Wakeup Interrupt Request Register (IWPR)
- 4.3.8 Interrupt Priority Registers A to F (IPRA to IPRF)
- 4.3.9 Interrupt Mask Register (INTM)
- 4.4 Interrupt Sources
- 4.5 Interrupt Exception Handling Vector Table
- 4.6 Operation
- 4.7 Usage Notes
- Section 5 Clock Pulse Generator
- 5.1 Register Description
- 5.2 System Clock Generator
- 5.3 Subclock Generator
- 5.4 Prescalers
- 5.5 Usage Notes
- 5.5.1 Note on Resonators and Resonator Circuits
- 5.5.2 Notes on Board Design
- 5.5.3 Definition of Oscillation Stabilization Wait Time
- 5.5.4 Note on Subclock Stop State
- 5.5.5 Note on the Oscillation Stabilization of Resonators
- 5.5.6 Note on Using On-Chip Power-On Reset
- 5.5.7 Note on Using the On-Chip Emulator
- Section 6 Power-Down Modes
- 6.1 Register Descriptions
- 6.2 Mode Transitions and States of LSI
- 6.3 Direct Transition
- 6.3.1 Direct Transition from Active (High-Speed) Mode to Active (Medium-Speed) Mode
- 6.3.2 Direct Transition from Active (High-Speed) Mode to Subactive Mode
- 6.3.3 Direct Transition from Active (Medium-Speed) Mode to Active (High-Speed) Mode
- 6.3.4 Direct Transition from Active (Medium-Speed) Mode to Subactive Mode
- 6.3.5 Direct Transition from Subactive Mode to Active (High-Speed) Mode
- 6.3.6 Direct Transition from Subactive Mode to Active (Medium-Speed) Mode
- 6.3.7 Notes on External Input Signal Changes before/after Direct Transition
- 6.4 Module Standby Function
- 6.5 Usage Notes
- Section 7 ROM
- Section 8 RAM
- Section 9 I/O Ports
- Section 10 Realtime Clock (RTC)
- 10.1 Features
- 10.2 Input/Output Pin
- 10.3 Register Descriptions
- 10.3.1 Second Data Register/Free Running Counter Data Register (RSECDR)
- 10.3.2 Minute Data Register (RMINDR)
- 10.3.3 Hour Data Register (RHRDR)
- 10.3.4 Day-of-Week Data Register (RWKDR)
- 10.3.5 RTC Control Register 1 (RTCCR1)
- 10.3.6 RTC Control Register 2 (RTCCR2)
- 10.3.7 Clock Source Select Register (RTCCSR)
- 10.3.8 RTC Interrupt Flag Register (RTCFLG)
- 10.4 Operation
- 10.5 Interrupt Sources
- 10.6 Usage Notes
- Section 11 Timer C
- Section 12 Timer F
- Section 13 Timer G
- Section 14 16-Bit Timer Pulse Unit (TPU)
- 14.1 Features
- 14.2 Input/Output Pins
- 14.3 Register Descriptions
- 14.3.1 Timer Control Register (TCR)
- 14.3.2 Timer Mode Register (TMDR)
- 14.3.3 Timer I/O Control Register (TIOR)
- 14.3.4 Timer Interrupt Enable Register (TIER)
- 14.3.5 Timer Status Register (TSR)
- 14.3.6 Timer Counter (TCNT)
- 14.3.7 Timer General Register (TGR)
- 14.3.8 Timer Start Register (TSTR)
- 14.3.9 Timer Synchro Register (TSYR)
- 14.4 Interface to CPU
- 14.5 Operation
- 14.6 Interrupt Sources
- 14.7 Operation Timing
- 14.8 Usage Notes
- 14.8.1 Module Standby Function Setting
- 14.8.2 Input Clock Restrictions
- 14.8.3 Caution on Period Setting
- 14.8.4 Contention between TCNT Write and Clear Operation
- 14.8.5 Contention between TCNT Write and Increment Operation
- 14.8.6 Contention between TGR Write and Compare Match
- 14.8.7 Contention between TGR Read and Input Capture
- 14.8.8 Contention between TGR Write and Input Capture
- 14.8.9 Contention between Overflow and Counter Clearing
- 14.8.10 Contention between TCNT Write and Overflow
- 14.8.11 Multiplexing of I/O Pins
- 14.8.12 Interrupts when Module Standby Function is Used
- 14.8.13 Output Conditions for 0% Duty and 100% Duty
- Section 15 Asynchronous Event Counter (AEC)
- Section 16 Watchdog Timer
- Section 17 Serial Communications Interface 3 (SCI3, IrDA)
- 17.1 Features
- 17.2 Input/Output Pins
- 17.3 Register Descriptions
- 17.3.1 Receive Shift Register (RSR)
- 17.3.2 Receive Data Register (RDR)
- 17.3.3 Transmit Shift Register (TSR)
- 17.3.4 Transmit Data Register (TDR)
- 17.3.5 Serial Mode Register (SMR)
- 17.3.6 Serial Control Register (SCR)
- 17.3.7 Serial Status Register (SSR)
- 17.3.8 Bit Rate Register (BRR)
- 17.3.9 Serial Port Control Register (SPCR)
- 17.3.10 Serial Port Control Register 2 (SPCR2)
- 17.3.11 IrDA Control Register (IrCR)
- 17.3.12 Serial Extended Mode Register (SEMR)
- 17.4 Operation in Asynchronous Mode
- 17.5 Operation in Clock Synchronous Mode
- 17.6 Multiprocessor Communication Function
- 17.7 IrDA Operation
- 17.8 Interrupt Requests
- 17.9 Usage Notes
- 17.9.1 Break Detection and Processing
- 17.9.2 Mark State and Break Sending
- 17.9.3 Receive Error Flags and Transmit Operations (Clock Synchronous Mode Only)
- 17.9.4 Receive Data Sampling Timing and Reception Margin in Asynchronous Mode
- 17.9.5 Note on Switching SCK3 Pin Function
- 17.9.6 Relation between Writing to TDR and Bit TDRE
- 17.9.7 Relation between RDR Reading and bit RDRF
- 17.9.8 Transmit and Receive Operations when Making State Transition
- 17.9.9 Setting in Subactive or Subsleep Mode
- 17.9.10 Oscillator when Serial Communications Interface 3 is Used
- Section 18 Serial Communication Interface 4 (SCI4)
- Section 19 14-Bit PWM
- Section 20 A/D Converter
- Section 21 LCD Controller/Driver
- Section 22 I2C Bus Interface 2 (IIC2)
- 22.1 Features
- 22.2 Input/Output Pins
- 22.3 Register Descriptions
- 22.3.1 I2C Bus Control Register 1 (ICCR1)
- 22.3.2 I2C Bus Control Register 2 (ICCR2)
- 22.3.3 I2C Bus Mode Register (ICMR)
- 22.3.4 I2C Bus Interrupt Enable Register (ICIER)
- 22.3.5 I2C Bus Status Register (ICSR)
- 22.3.6 Slave Address Register (SAR)
- 22.3.7 I2C Bus Transmit Data Register (ICDRT)
- 22.3.8 I2C Bus Receive Data Register (ICDRR)
- 22.3.9 I2C Bus Shift Register (ICDRS)
- 22.4 Operation
- 22.5 Interrupt Request
- 22.6 Bit Synchronous Circuit
- 22.7 Usage Notes
- 22.7.1 Note on Issuing Stop Condition and Start (Re-Transmit) Condition
- 22.7.2 Note on Setting WAIT Bit in I2C Bus Mode Register (ICMR)
- 22.7.3 Restriction on Transfer Rate Setting in Multimaster Operation
- 22.7.4 Restriction on the Use of Bit Manipulation Instructions for MST and TRS Setting in Multimaster Operation
- 22.7.5 Usage Note on Master Receive Mode
- Section 23 Power-On Reset Circuit
- Section 24 Address Break
- Section 25 List of Registers
- Section 26 Electrical Characteristics
- Appendix
- Main Revisions and Additions in this Edition
- Index
- Colophon
- Address List
- Back Cover
Section 22 I
2
C Bus Interface 2 (IIC2)
Rev. 2.00 Jul. 04, 2007 Page 496 of 692
REJ09B0309-0200
[Legend]
S: Start condition. The master device drives SDA from high to low while SCL is high.
SLA: Slave address
R/W: Indicates the direction of data transfer: from the slave device to the master device when
R/W is 1, or from the master device to the slave device when R/W is 0.
A: Acknowledge. The receive device drives SDA to low.
DATA: Transfer data
P: Stop condition. The master device drives SDA from low to high while SCL is high.
22.4.2 Master Transmit Operation
In master transmit mode, the master device outputs the transmit clock and transmit data, and the
slave device returns an acknowledge signal. For master transmit mode operation timing, refer to
figures 22.5 and 22.6. The transmission procedure and operations in master transmit mode are
described below.
1. Set the ICE bit in ICCR1 to 1. Set the MLS and WAIT bits in ICMR and the CKS3 to CKS0
bits in ICCR1 to 1. (Initial setting)
2. Read the BBSY flag in ICCR2 to confirm that the bus is free. Set the MST and TRS bits in
ICCR1 to select master transmit mode. Then, write 1 to BBSY and 0 to SCP using MOV
instruction. (Start condition issued) This generates the start condition.
3. After confirming that TDRE in ICSR has been set, write the transmit data (the first byte data
show the slave address and R/W) to ICDRT. At this time, TDRE is automatically cleared to 0,
and data is transferred from ICDRT to ICDRS. TDRE is set again.
4. When transmission of one byte data is completed while TDRE is 1, TEND in ICSR is set to 1
at the rise of the 9th transmit clock pulse. Read the ACKBR bit in ICIER, and confirm that the
slave device has been selected. Then, write second byte data to ICDRT. When ACKBR is 1,
the slave device has not been acknowledged, so issue the stop condition. To issue the stop
condition, write 0 to BBSY and SCP using MOV instruction. SCL is fixed low until the
transmit data is prepared or the stop condition is issued.
5. The transmit data after the second byte is written to ICDRT every time TDRE is set.
6. Write the number of bytes to be transmitted to ICDRT. Wait until TEND is set (the end of last
byte data transmission) while TDRE is 1, or wait for NACK (NACKF in ICSR = 1) from the
receive device while ACKE in ICIER is 1. Then, issue the stop condition to clear TEND or
NACKF.
7. When the STOP bit in ICSR is set to 1, the operation returns to the slave receive mode.