Datasheet
Table Of Contents
- Features
- 1. Description
- 2. About Code Examples
- 3. AVR CPU Core
- 4. Memories
- 4.1 In-System Reprogrammable Flash Program Memory
- 4.2 SRAM Data Memory
- 4.3 EEPROM Data Memory
- 4.4 I/O Memory
- 4.5 External Memory Interface
- 4.5.1 Overview
- 4.5.2 Using the External Memory Interface
- 4.5.3 Address Latch Requirements
- 4.5.4 Pull-up and Bus-keeper
- 4.5.5 Timing
- 4.5.6 External Memory Control Register A - XMCRA
- 4.5.7 External Memory Control Register B - XMCRB
- 4.5.8 Using all Locations of External Memory Smaller than 64 KB
- 4.5.9 Using all 64KB Locations of External Memory
- 4.6 General Purpose I/O Registers
- 5. System Clock
- 6. Power Management and Sleep Modes
- 7. System Control and Reset
- 8. Interrupts
- 9. I/O-Ports
- 9.1 Introduction
- 9.2 Ports as General Digital I/O
- 9.3 Alternate Port Functions
- 9.4 Register Description for I/O-Ports
- 9.4.1 Port A Data Register - PORTA
- 9.4.2 Port A Data Direction Register - DDRA
- 9.4.3 Port A Input Pins Address - PINA
- 9.4.4 Port B Data Register - PORTB
- 9.4.5 Port B Data Direction Register - DDRB
- 9.4.6 Port B Input Pins Address - PINB
- 9.4.7 Port C Data Register - PORTC
- 9.4.8 Port C Data Direction Register - DDRC
- 9.4.9 Port C Input Pins Address - PINC
- 9.4.10 Port D Data Register - PORTD
- 9.4.11 Port D Data Direction Register - DDRD
- 9.4.12 Port D Input Pins Address - PIND
- 9.4.13 Port E Data Register - PORTE
- 9.4.14 Port E Data Direction Register - DDRE
- 9.4.15 Port E Input Pins Address - PINE
- 9.4.16 Port F Data Register - PORTF
- 9.4.17 Port F Data Direction Register - DDRF
- 9.4.18 Port F Input Pins Address - PINF
- 9.4.19 Port G Data Register - PORTG
- 9.4.20 Port G Data Direction Register - DDRG
- 9.4.21 Port G Input Pins Address - PING
- 10. External Interrupts
- 11. Timer/Counter3/1/0 Prescalers
- 12. 8-bit Timer/Counter0 with PWM
- 13. 16-bit Timer/Counter (Timer/Counter1 and Timer/Counter3)
- 13.1 Features
- 13.2 Overview
- 13.3 Accessing 16-bit Registers
- 13.4 Timer/Counter Clock Sources
- 13.5 Counter Unit
- 13.6 Input Capture Unit
- 13.7 Output Compare Units
- 13.8 Compare Match Output Unit
- 13.9 Modes of Operation
- 13.10 Timer/Counter Timing Diagrams
- 13.11 16-bit Timer/Counter Register Description
- 13.11.1 Timer/Counter1 Control Register A - TCCR1A
- 13.11.2 Timer/Counter3 Control Register A - TCCR3A
- 13.11.3 Timer/Counter1 Control Register B - TCCR1B
- 13.11.4 Timer/Counter3 Control Register B - TCCR3B
- 13.11.5 Timer/Counter1 Control Register C - TCCR1C
- 13.11.6 Timer/Counter3 Control Register C - TCCR3C
- 13.11.7 Timer/Counter1 - TCNT1H and TCNT1L
- 13.11.8 Timer/Counter3 - TCNT3H and TCNT3L
- 13.11.9 Output Compare Register A - OCR1AH and OCR1AL
- 13.11.10 Output Compare Register B - OCR1BH and OCR1BL
- 13.11.11 Output Compare Register C - OCR1CH and OCR1CL
- 13.11.12 Output Compare Register A - OCR3AH and OCR3AL
- 13.11.13 Output Compare Register B - OCR3BH and OCR3BL
- 13.11.14 Output Compare Register C - OCR3CH and OCR3CL
- 13.11.15 Input Capture Register - ICR1H and ICR1L
- 13.11.16 Input Capture Register - ICR3H and ICR3L
- 13.11.17 Timer/Counter1 Interrupt Mask Register - TIMSK1
- 13.11.18 Timer/Counter3 Interrupt Mask Register - TIMSK3
- 13.11.19 Timer/Counter1 Interrupt Flag Register - TIFR1
- 13.11.20 Timer/Counter3 Interrupt Flag Register - TIFR3
- 14. 8-bit Timer/Counter2 with PWM and Asynchronous Operation
- 14.1 Features
- 14.2 Overview
- 14.3 Timer/Counter Clock Sources
- 14.4 Counter Unit
- 14.5 Output Compare Unit
- 14.6 Compare Match Output Unit
- 14.7 Modes of Operation
- 14.8 Timer/Counter Timing Diagrams
- 14.9 8-bit Timer/Counter Register Description
- 14.10 Asynchronous operation of the Timer/Counter2
- 14.11 Timer/Counter2 Prescaler
- 15. Output Compare Modulator - OCM
- 16. Serial Peripheral Interface - SPI
- 17. USART (USART0 and USART1)
- 17.1 Features
- 17.2 Overview
- 17.3 Dual USART
- 17.4 Clock Generation
- 17.5 Serial Frame
- 17.6 USART Initialization
- 17.7 Data Transmission - USART Transmitter
- 17.8 Data Reception - USART Receiver
- 17.9 Asynchronous Data Reception
- 17.10 Multi-processor Communication Mode
- 17.11 USART Register Description
- 17.11.1 USART0 I/O Data Register - UDR0
- 17.11.2 USART1 I/O Data Register - UDR1
- 17.11.3 USART0 Control and Status Register A - UCSR0A
- 17.11.4 USART1 Control and Status Register A - UCSR1A
- 17.11.5 USART0 Control and Status Register B - UCSR0B
- 17.11.6 USART1 Control and Status Register B - UCSR1B
- 17.11.7 USART0 Control and Status Register C - UCSR0C
- 17.11.8 USART1 Control and Status Register C - UCSR1C
- 17.11.9 USART0 Baud Rate Registers - UBRR0L and UBRR0H
- 17.11.10 USART1 Baud Rate Registers - UBRR1L and UBRR1H
- 17.12 Examples of Baud Rate Setting
- 18. Two-wire Serial Interface
- 19. Controller Area Network - CAN
- 19.1 Features
- 19.2 CAN Protocol
- 19.2.1 Principles
- 19.2.2 Message Formats
- 19.2.3 CAN Bit Timing
- 19.2.3.1 Bit Construction
- 19.2.3.2 Synchronization Segment
- 19.2.3.3 Propagation Time Segment
- 19.2.3.4 Phase Segment 1
- 19.2.3.5 Sample Point
- 19.2.3.6 Phase Segment 2
- 19.2.3.7 Information Processing Time
- 19.2.3.8 Bit Lengthening
- 19.2.3.9 Bit Shortening
- 19.2.3.10 Synchronization Jump Width
- 19.2.3.11 Programming the Sample Point
- 19.2.3.12 Synchronization
- 19.2.4 Arbitration
- 19.2.5 Errors
- 19.3 CAN Controller
- 19.4 CAN Channel
- 19.5 Message Objects
- 19.6 CAN Timer
- 19.7 Error Management
- 19.8 Interrupts
- 19.9 CAN Register Description
- 19.10 General CAN Registers
- 19.10.1 CAN General Control Register - CANGCON
- 19.10.2 CAN General Status Register - CANGSTA
- 19.10.3 CAN General Interrupt Register - CANGIT
- 19.10.4 CAN General Interrupt Enable Register - CANGIE
- 19.10.5 CAN Enable MOb Registers - CANEN2 and CANEN1
- 19.10.6 CAN Enable Interrupt MOb Registers - CANIE2 and CANIE1
- 19.10.7 CAN Status Interrupt MOb Registers - CANSIT2 and CANSIT1
- 19.10.8 CAN Bit Timing Register 1 - CANBT1
- 19.10.9 CAN Bit Timing Register 2 - CANBT2
- 19.10.10 CAN Bit Timing Register 3 - CANBT3
- 19.10.11 CAN Timer Control Register - CANTCON
- 19.10.12 CAN Timer Registers - CANTIML and CANTIMH
- 19.10.13 CAN TTC Timer Registers - CANTTCL and CANTTCH
- 19.10.14 CAN Transmit Error Counter Register - CANTEC
- 19.10.15 CAN Receive Error Counter Register - CANREC
- 19.10.16 CAN Highest Priority MOb Register - CANHPMOB
- 19.10.17 CAN Page MOb Register - CANPAGE
- 19.11 MOb Registers
- 19.11.1 CAN MOb Status Register - CANSTMOB
- 19.11.2 CAN MOb Control and DLC Register - CANCDMOB
- 19.11.3 CAN Identifier Tag Registers - CANIDT1, CANIDT2, CANIDT3, and CANIDT4
- 19.11.4 CAN Identifier Mask Registers - CANIDM1, CANIDM2, CANIDM3, and CANIDM4
- 19.11.5 CAN Time Stamp Registers - CANSTML and CANSTMH
- 19.11.6 CAN Data Message Register - CANMSG
- 19.12 Examples of CAN Baud Rate Setting
- 20. Analog Comparator
- 21. Analog to Digital Converter - ADC
- 22. JTAG Interface and On-chip Debug System
- 23. Boundary-scan IEEE 1149.1 (JTAG)
- 24. Boot Loader Support - Read-While-Write Self-Programming
- 24.1 Features
- 24.2 Application and Boot Loader Flash Sections
- 24.3 Read-While-Write and No Read-While-Write Flash Sections
- 24.4 Boot Loader Lock Bits
- 24.5 Entering the Boot Loader Program
- 24.6 Addressing the Flash During Self-Programming
- 24.7 Self-Programming the Flash
- 24.7.1 Performing Page Erase by SPM
- 24.7.2 Filling the Temporary Buffer (Page Loading)
- 24.7.3 Performing a Page Write
- 24.7.4 Using the SPM Interrupt
- 24.7.5 Consideration While Updating BLS
- 24.7.6 Prevent Reading the RWW Section During Self-Programming
- 24.7.7 Setting the Boot Loader Lock Bits by SPM
- 24.7.8 EEPROM Write Prevents Writing to SPMCSR
- 24.7.9 Reading the Fuse and Lock Bits from Software
- 24.7.10 Preventing Flash Corruption
- 24.7.11 Programming Time for Flash when Using SPM
- 24.7.12 Simple Assembly Code Example for a Boot Loader
- 24.7.13 Boot Loader Parameters
- 25. Memory Programming
- 25.1 Program and Data Memory Lock Bits
- 25.2 Fuse Bits
- 25.3 Signature Bytes
- 25.4 Calibration Byte
- 25.5 Parallel Programming Overview
- 25.6 Parallel Programming
- 25.6.1 Enter Programming Mode
- 25.6.2 Considerations for Efficient Programming
- 25.6.3 Chip Erase
- 25.6.4 Programming the Flash
- 25.6.5 Programming the EEPROM
- 25.6.6 Reading the Flash
- 25.6.7 Reading the EEPROM
- 25.6.8 Programming the Fuse Low Bits
- 25.6.9 Programming the Fuse High Bits
- 25.6.10 Programming the Extended Fuse Bits
- 25.6.11 Programming the Lock Bits
- 25.6.12 Reading the Fuse and Lock Bits
- 25.6.13 Reading the Signature Bytes
- 25.6.14 Reading the Calibration Byte
- 25.7 SPI Serial Programming Overview
- 25.8 SPI Serial Programming
- 25.9 JTAG Programming Overview
- 25.9.1 Programming Specific JTAG Instructions
- 25.9.2 Data Registers
- 25.9.3 Programming Algorithm
- 25.9.3.1 Entering Programming Mode
- 25.9.3.2 Leaving Programming Mode
- 25.9.3.3 Performing Chip Erase
- 25.9.3.4 Programming the Flash
- 25.9.3.5 Reading the Flash
- 25.9.3.6 Programming the EEPROM
- 25.9.3.7 Reading the EEPROM
- 25.9.3.8 Programming the Fuses
- 25.9.3.9 Programming the Lock Bits
- 25.9.3.10 Reading the Fuses and Lock Bits
- 25.9.3.11 Reading the Signature Bytes
- 25.9.3.12 Reading the Calibration Byte
- 26. Decoupling Capacitors
- 27. Electrical Characteristics (1)
- 27.1 Absolute Maximum Ratings*
- 27.2 DC Characteristics(1)
- 27.3 External Clock Drive Characteristics
- 27.4 Maximum Speed vs. VCC
- 27.5 Two-wire Serial Interface Characteristics
- 27.6 SPI Timing Characteristics
- 27.7 CAN Physical Layer Characteristics
- 27.8 ADC Characteristics((1)
- 27.9 External Data Memory Characteristics(1)
- 27.10 Parallel Programming Characteristics
- 28. Register Summary
- 29. AT90CAN32/64/128 Typical Characteristics
- 29.1 Active Supply Current
- 29.2 Idle Supply Current
- 29.3 Power-down Supply Current
- 29.4 Power-save Supply Current
- 29.5 Pin Pull-up
- 29.6 Pin Driver Strength
- 29.7 Pin Thresholds and Hysteresis
- 29.8 BOD Thresholds and Analog Comparator Offset
- 29.9 Internal Oscillator Speed
- 29.10 Current Consumption of Peripheral Units
- 29.11 Current Consumption in Reset and Reset Pulse Width
- 29.12 Analog To Digital Converter
- 30. Instruction Set Summary
- 31. Ordering Information
- 32. Packaging Information
- 33. Errata
- 34. Datasheet Revision History for AT90CAN32/64/128
298
7682C–AUTO–04/08
AT90CAN32/64/128
22.8 On-chip Debug Related Register in I/O Memory
22.8.1 On-chip Debug Register – OCDR
The OCDR Register provides a communication channel from the running program in the micro-
controller to the debugger. The CPU can transfer a byte to the debugger by writing to this
location. At the same time, an internal flag; I/O Debug Register Dirty – IDRD – is set to indicate
to the debugger that the register has been written. When the CPU reads the OCDR Register the
7 LSB will be from the OCDR Register, while the MSB is the IDRD bit. The debugger clears the
IDRD bit when it has read the information.
In some AVR devices, this register is shared with a standard I/O location. In this case, the OCDR
Register can only be accessed if the OCDEN Fuse is programmed, and the debugger enables
access to the OCDR Register. In all other cases, the standard I/O location is accessed.
Refer to the debugger documentation for further information on how to use this register.
22.9 Using the JTAG Programming Capabilities
Programming of AVR parts via JTAG is performed via the 4-pin JTAG port, TCK, TMS, TDI, and
TDO. These are the only pins that need to be controlled/observed to perform JTAG program-
ming (in addition to power pins). It is not required to apply 12V externally. The JTAGEN Fuse
must be programmed and the JTD bit in the MCUCR Register must be cleared to enable the
JTAG Test Access Port.
The JTAG programming capability supports:
• Flash programming and verifying.
• EEPROM programming and verifying.
• Fuse programming and verifying.
• Lock bit programming and verifying.
The Lock bit security is exactly as in parallel programming mode. If the Lock bits LB1 or LB2 are
programmed, the OCDEN Fuse cannot be programmed unless first doing a chip erase. This is a
security feature that ensures no back-door exists for reading out the content of a secured
device.
The details on programming through the JTAG interface and programming specific JTAG
instructions are given in the section
“JTAG Programming Overview” on page 351.
22.10 Bibliography
For more information about general Boundary-scan, the following literature can be consulted:
• IEEE: IEEE Std 1149.1-1990. IEEE Standard Test Access Port and Boundary-scan
Architecture, IEEE, 1993.
• Colin Maunder: The Board Designers Guide to Testable Logic Circuits, Addison-Wesley,
1992.
Bit 7 6 5 4 3 2 1 0
IDRD/OCDR7 OCDR6 OCDR5 OCDR4 OCDR3 OCDR2 OCDR1 OCDR0 OCDR
Read/Write R/W R/W R/W R/W R/W R/W R/W R/W
Initial Value 0 0 0 0 0 0 0 0