Datasheet

ManualsBrandsMicrochip ManualsAVR MicrocontrollersAVR RISC Microcontroller 8bit 64KB TQFP

241

242

243

244

245

246

247

248

249

250

Table Of Contents

1. Description
- 1.1 Comparison Between AT90CAN32, AT90CAN64 and AT90CAN128
- 1.2 Part Description
- 1.3 Disclaimer
- 1.4 Block Diagram
- 1.5 Pin Configurations
- 1.6 Pin Descriptions
2. About Code Examples
3. AVR CPU Core
- 3.1 Introduction
- 3.2 Architectural Overview
- 3.3 ALU - Arithmetic Logic Unit
- 3.4 Status Register
- 3.5 General Purpose Register File
- 3.6 Stack Pointer
- 3.7 Instruction Execution Timing
- 3.8 Reset and Interrupt Handling
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
- 4.6 General Purpose I/O Registers
5. System Clock
- 5.1 Clock Systems and their Distribution
- 5.2 Clock Sources
- 5.3 Default Clock Source
- 5.4 Crystal Oscillator
- 5.5 Low-frequency Crystal Oscillator
- 5.6 Calibrated Internal RC Oscillator
- 5.7 External Clock
- 5.8 Clock Output Buffer
- 5.9 Timer/Counter2 Oscillator
- 5.10 System Clock Prescaler
6. Power Management and Sleep Modes
- 6.1 Idle Mode
- 6.2 ADC Noise Reduction Mode
- 6.3 Power-down Mode
- 6.4 Power-save Mode
- 6.5 Standby Mode
- 6.6 Minimizing Power Consumption
7. System Control and Reset
- 7.1 Reset
- 7.2 Internal Voltage Reference
- 7.3 Watchdog Timer
- 7.4 Timed Sequences for Changing the Configuration of the Watchdog Timer
8. Interrupts
- 8.1 Interrupt Vectors in AT90CAN32/64/128
- 8.2 Moving Interrupts Between Application and Boot Space
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
10. External Interrupts
- 10.1 External Interrupt Register Description
11. Timer/Counter3/1/0 Prescalers
- 11.1 Overview
- 11.2 Timer/Counter0/1/3 Prescalers Register Description
12. 8-bit Timer/Counter0 with PWM
- 12.1 Features
- 12.2 Overview
- 12.3 Timer/Counter Clock Sources
- 12.4 Counter Unit
- 12.5 Output Compare Unit
- 12.6 Compare Match Output Unit
- 12.7 Modes of Operation
- 12.8 Timer/Counter Timing Diagrams
- 12.9 8-bit Timer/Counter Register Description
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
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
- 15.1 Overview
- 15.2 Description
16. Serial Peripheral Interface - SPI
- 16.1 Features
- 16.2 SS Pin Functionality
- 16.3 Data Modes
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
- 17.12 Examples of Baud Rate Setting
18. Two-wire Serial Interface
- 18.1 Features
- 18.2 Two-wire Serial Interface Bus Definition
- 18.3 Data Transfer and Frame Format
- 18.4 Multi-master Bus Systems, Arbitration and Synchronization
- 18.5 Overview of the TWI Module
- 18.6 TWI Register Description
- 18.7 Using the TWI
- 18.8 Transmission Modes
- 18.9 Multi-master Systems and Arbitration
19. Controller Area Network - CAN
- 19.1 Features
- 19.2 CAN Protocol
- 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
- 19.11 MOb Registers
- 19.12 Examples of CAN Baud Rate Setting
20. Analog Comparator
- 20.1 Overview
- 20.2 Analog Comparator Register Description
- 20.3 Analog Comparator Multiplexed Input
21. Analog to Digital Converter - ADC
- 21.1 Features
- 21.2 Operation
- 21.3 Starting a Conversion
- 21.4 Prescaling and Conversion Timing
- 21.5 Changing Channel or Reference Selection
- 21.6 ADC Noise Canceler
- 21.7 ADC Conversion Result
- 21.8 ADC Register Description
22. JTAG Interface and On-chip Debug System
- 22.1 Features
- 22.2 Overview
- 22.3 Test Access Port - TAP
- 22.4 TAP Controller
- 22.5 Using the Boundary-scan Chain
- 22.6 Using the On-chip Debug System
- 22.7 On-chip Debug Specific JTAG Instructions
- 22.8 On-chip Debug Related Register in I/O Memory
- 22.9 Using the JTAG Programming Capabilities
- 22.10 Bibliography
23. Boundary-scan IEEE 1149.1 (JTAG)
- 23.1 Features
- 23.2 System Overview
- 23.3 Data Registers
- 23.4 Boundary-scan Specific JTAG Instructions
- 23.5 Boundary-scan Related Register in I/O Memory
- 23.6 Boundary-scan Chain
- 23.7 AT90CAN32/64/128 Boundary-scan Order
- 23.8 Boundary-scan Description Language Files
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
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
- 25.7 SPI Serial Programming Overview
- 25.8 SPI Serial Programming
- 25.9 JTAG Programming Overview
26. Electrical Characteristics (1)
- 26.1 Absolute Maximum Ratings*
- 26.2 DC Characteristics
- 26.3 External Clock Drive Characteristics
- 26.4 Maximum Speed vs. VCC
- 26.5 Two-wire Serial Interface Characteristics
- 26.6 SPI Timing Characteristics
- 26.7 CAN Physical Layer Characteristics
- 26.8 ADC Characteristics
- 26.9 External Data Memory Characteristics
- 26.10 Parallel Programming Characteristics
27. Decoupling Capacitors
28. AT90CAN32/64/128 Typical Characteristics
- 28.1 Active Supply Current
- 28.2 Idle Supply Current
- 28.3 Power-down Supply Current
- 28.4 Power-save Supply Current
- 28.5 Standby Supply Current
- 28.6 Pin Pull-up
- 28.7 Pin Driver Strength
- 28.8 Pin Thresholds and Hysteresis
- 28.9 BOD Thresholds and Analog Comparator Offset
- 28.10 Internal Oscillator Speed
- 28.11 Current Consumption of Peripheral Units
- 28.12 Current Consumption in Reset and Reset Pulse Width
29. Register Summary
30. Instruction Set Summary
31. Ordering Information
32. Packaging Information
- 32.1 TQFP64
- 32.2 QFN64
33. Errata
- 33.1 Errata Summary
- 33.2 Errata Description
34. Datasheet Revision History for AT90CAN32/64/128
- 34.1 Changes from 7679G - 03/08 to 7679H - 08/08
- 34.2 Changes from 7679F - 11/07 to 7679G - 03/08
- 34.3 Changes from 7679E - 07/07 to 7679F - 11/07
- 34.4 Changes from 7679D - 02/07 to 7679E - 07/07
- 34.5 Changes from 7679C - 01/07 to 7679D - 02/07
- 34.6 Changes from 7679B - 11/06 to 7679C - 01/07
- 34.7 Changes from 7679A - 10/06 to 7679B - 11/06
- 34.8 Document Creation

246

7679H–CAN–08/08

AT90CAN32/64/128

19.5.3 Acceptance Filter

Upon a reception hit (i.e., a good comparison between the I

D + RTR + RBn + IDE

received and an

IDT+ RTRTAG + RBnTAG + IDE

specified while taking the comparison mask into account) the

IDT

+ RTRTAG + RBnTAG + IDE

received are updated in the MOb (written over the registers).

Figure 19-10. Acceptance Filter Block Diagram

Note: Examples:

Full filtering: to accept only ID = 0x317 in part A.

- ID MSK = 111 1111 1111

- ID TAG = 011 0001 0111

Partial filtering: to accept ID from 0x310 up to 0x317 in part A.

- ID MSK = 111 1111 1000

- ID TAG = 011 0001 0xxx

No filtering: to accept all ID from 0x000 up to 0x7FF in part A.

- ID MSK = 000 0000 0000

- ID TAG = xxx xxxx xxxx

19.5.4 MOb Page

Every MOb is mapped into a page to save place. The page number is the MOb number. This

page number is set in CANPAGE register. The number 15 is reserved for factory tests.

CANHPMOB register gives the MOb having the highest priority in CANSIT registers. It is format-

ted to provide a direct entry for CANPAGE register. Because CANHPMOB codes CANSIT

registers, it will be only updated if the corresponding enable bits (ENRX, ENTX, ENERR) are

enabled (c.f. Figure 19-14).

19.5.5 CAN Data Buffers

To preserve register allocation, the CAN data buffer is seen such as a FIFO (with address

pointer accessible) into a MOb selection.This also allows to reduce the risks of un-controlled

accesses.

There is one FIFO per MOb. This FIFO is accessed into a MOb page thanks to the CAN mes-

sage register.

CANIDM Registers (MOb[i])

IDMSK

RTRMSK IDEMSK

CANIDT Registers & CANCDMOB (MOb[i])

ID & RB

RTRTAG IDE

internal RxDcan

Rx Shift Register (internal)

ID & RB

RTR IDE

Hit MOb[i]

14(33)

13(31) - RB excluded

RB excluded

13(31)14(33)

Write

Enable

13(31)