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Table Of Contents

Features
1. Pin Configurations
- 1.1 Pin Descriptions
2. Overview
- 2.1 Block Diagram
- 2.2 Pin Descriptions
3. Disclaimer
4. Resources
5. About Code Examples
6. Data Retention
7. AVR CPU Core
- 7.1 Overview
- 7.2 ALU – Arithmetic Logic Unit
- 7.3 Status Register
  - 7.3.1 SREG – AVR Status Register
- 7.4 General Purpose Register File
  - 7.4.1 The X-register, Y-register, and Z-register
- 7.5 Stack Pointer
  - 7.5.1 SPH and SPL – Stack Pointer High and Stack Pointer Low Register
- 7.6 Instruction Execution Timing
- 7.7 Reset and Interrupt Handling
  - 7.7.1 Interrupt Behavior
  - 7.7.2 Interrupt Response Time
8. Memories
- 8.1 Overview
- 8.2 In-System Reprogrammable Flash Program Memory
- 8.3 SRAM Data Memory
  - 8.3.1 SRAM Data Access Times
- 8.4 EEPROM Data Memory
  - 8.4.1 EEPROM Read/Write Access
  - 8.4.2 Preventing EEPROM Corruption
- 8.5 I/O Memory
- 8.6 General Purpose I/O Registers
- 8.7 Register Description
9. System Clock and their Distribution
- 9.1 Clock Systems and their Distribution
- 9.2 Clock Sources
- 9.3 Default Clock Source
- 9.4 Low Power Crystal Oscillator
- 9.5 Calibrated Internal RC Oscillator
- 9.6 PLL
  - 9.6.1 Internal PLL
- 9.7 128 kHz Internal Oscillator
- 9.8 External Clock
- 9.9 Clock Output Buffer
- 9.10 System Clock Prescaler
- 9.11 Register Description
10. Power Management and Sleep Modes
- 10.1 Overview
- 10.2 Sleep Modes
- 10.3 Idle Mode
- 10.4 ADC Noise Reduction Mode
- 10.5 Power-down Mode
- 10.6 Standby Mode
- 10.7 Power Reduction Register
- 10.8 Minimizing Power Consumption
- 10.9 Register Description
  - 10.9.1 SMCR – Sleep Mode Control Register
  - 10.9.2 PRR – Power Reduction Register
11. System Control and Reset
- 11.1 Resetting the AVR
- 11.2 Reset Sources
- 11.3 Internal Voltage Reference
  - 11.3.1 Voltage Reference Enable Signals and Start-up Time
- 11.4 Watchdog Timer
  - 11.4.1 Features
  - 11.4.2 Overview
- 11.5 Register Description
  - 11.5.1 MCUSR – MCU Status Register
  - 11.5.2 WDTCSR – Watchdog Timer Control Register
12. Interrupts
- 12.1 Interrupt Vectors in ATmega16M1/32M1/64M1
  - 12.1.1 Moving Interrupts Between Application and Boot Space
- 12.2 Register Description
  - 12.2.1 MCUCR – MCU Control Register
13. External Interrupts
- 13.1 Pin Change Interrupt Timing
- 13.2 Register Description
14. I/O-Ports
- 14.1 Overview
- 14.2 Ports as General Digital I/O
- 14.3 Alternate Port Functions
- 14.4 Register Description
15. 8-bit Timer/Counter0 with PWM
- 15.1 Features
- 15.2 Overview
  - 15.2.1 Definitions
  - 15.2.2 Registers
- 15.3 Timer/Counter Clock Sources
- 15.4 Counter Unit
- 15.5 Output Compare Unit
- 15.6 Compare Match Output Unit
  - 15.6.1 Compare Output Mode and Waveform Generation
- 15.7 Modes of Operation
- 15.8 Timer/Counter Timing Diagrams
- 15.9 Register Description
16. 16-bit Timer/Counter1 with PWM
- 16.1 Features
- 16.2 Overview
  - 16.2.1 Registers
  - 16.2.2 Definitions
- 16.3 Accessing 16-bit Registers
  - 16.3.1 Reusing the Temporary High Byte Register
- 16.4 Timer/Counter Clock Sources
- 16.5 Counter Unit
- 16.6 Input Capture Unit
- 16.7 Output Compare Units
- 16.8 Compare Match Output Unit
  - 16.8.1 Compare Output Mode and Waveform Generation
- 16.9 Modes of Operation
- 16.10 Timer/Counter Timing Diagrams
- 16.11 Register Description
17. Timer/Counter0 and Timer/Counter1 Prescalers
- 17.1 Internal Clock Source
- 17.2 Prescaler Reset
- 17.3 External Clock Source
- 17.4 Register Description
  - 17.4.1 GTCCR – General Timer/Counter Control Register
18. PSC – Power Stage Controller
- 18.1 Features
- 18.2 Overview
- 18.3 Accessing 16-bit Registers
- 18.4 PSC Description
- 18.5 Functional Description
- 18.6 Update of Values
  - 18.6.1 Value Update Synchronization
- 18.7 Overlap Protection
- 18.8 Signal Description
  - 18.8.1 Input Description
  - 18.8.2 Output Description
- 18.9 PSC Input
  - 18.9.1 PSC Input Configuration
- 18.10 PSC Input Modes 001b to 10xb: Deactivate outputs without changing timing.
- 18.11 PSC Input Mode 11xb: Halt PSC and Wait for Software Action
- 18.12 Analog Synchronization
- 18.13 Interrupt Handling
- 18.14 PSC Clock Sources
- 18.15 Interrupts
  - 18.15.1 Interrupt Vector
  - 18.15.2 PSC Interrupt Vectors in ATmega16M1/32M1/64M1
- 18.16 Register Description
19. SPI – Serial Peripheral Interface
- 19.1 Features
- 19.2 Overview
- 19.3 SS Pin Functionality
  - 19.3.1 Slave Mode
  - 19.3.2 Master Mode
- 19.4 Data Modes
- 19.5 Register Description
20. CAN – Controller Area Network
- 20.1 Features
- 20.2 Overview
- 20.3 CAN Protocol
- 20.4 CAN Controller
- 20.5 CAN Channel
- 20.6 Message Objects
- 20.7 CAN Timer
- 20.8 Error Management
- 20.9 Interrupts
  - 20.9.1 Interrupt organization
  - 20.9.2 Interrupt Behavior
- 20.10 Register Description
- 20.11 MOb Registers
- 20.12 Examples of CAN Baud Rate Setting
21. LIN / UART - Local Interconnect Network Controller or UART
- 21.1 Features
  - 21.1.1 LIN
  - 21.1.2 UART
- 21.2 Overview
- 21.3 LIN Protocol
- 21.4 LIN / UART Controller
- 21.5 LIN / UART Description
- 21.6 Register Description
22. ADC – Analog to Digital Converter
- 22.1 Features
- 22.2 Operation
- 22.3 Starting a Conversion
- 22.4 Prescaling and Conversion Timing
- 22.5 Changing Channel or Reference Selection
  - 22.5.1 ADC Input Channels
  - 22.5.2 ADC Voltage Reference
- 22.6 ADC Noise Canceler
- 22.7 ADC Conversion Result
- 22.8 Temperature Measurement
  - 22.8.1 User Calibration
  - 22.8.2 Manufacturing Calibration
- 22.9 Amplifier
- 22.10 Register Description
23. ISRC - Current Source
- 23.1 Features
- 23.2 Typical applications
- 23.3 Register Description
  - 23.3.1 ADCSRB – ADC Control and Status Register B
24. AC – Analog Comparator
- 24.1 Features
- 24.2 Overview
- 24.3 Use of ADC Amplifiers
- 24.4 Register Description
25. DAC – Digital to Analog Converter
- 25.1 Features
- 25.2 Overview
- 25.3 Operation
- 25.4 Starting a Conversion
  - 25.4.1 DAC Voltage Reference
- 25.5 Register Description
  - 25.5.1 DACON – Digital to Analog Conversion Control Register
  - 25.5.2 DACH and DACL – Digital to Analog Converter input Register
    - 25.5.2.1 DALA = 0
    - 25.5.2.2 DALA = 1
26. debugWIRE On-chip Debug System
- 26.1 Features
- 26.2 Overview
- 26.3 Physical Interface
- 26.4 Software Break Points
- 26.5 Limitations of debugWIRE
- 26.6 Register Description
  - 26.6.1 DWDR – debugWire Data Register
27. Boot Loader Support – Read-While-Write Self-Programming
- 27.1 Overview
- 27.2 Application and Boot Loader Flash Sections
  - 27.2.1 Application Section
  - 27.2.2 BLS – Boot Loader Section
- 27.3 Read-While-Write and No Read-While-Write Flash Sections
  - 27.3.1 RWW – Read-While-Write Section
  - 27.3.2 NRWW – No Read-While-Write Section
- 27.4 Boot Loader Lock Bits
- 27.5 Entering the Boot Loader Program
- 27.6 Addressing the Flash During Self-Programming
- 27.7 Self-Programming the Flash
- 27.8 Register Description
  - 27.8.1 SPMCSR – Store Program Memory Control and Status Register
28. Memory Programming
- 28.1 Program And Data Memory Lock Bits
- 28.2 Fuse Bits
- 28.3 PSC Output Behavior During Reset
  - 28.3.1 Latching of Fuses
- 28.4 Signature Bytes
- 28.5 Calibration Byte
- 28.6 Page Size
- 28.7 Parallel Programming Parameters, Pin Mapping, and Commands
  - 28.7.1 Signal Names
- 28.8 Serial Programming Pin Mapping
- 28.9 Parallel Programming
- 28.10 Serial Downloading
29. Electrical Characteristics
- 29.1 Absolute Maximum Ratings*
- 29.2 DC Characteristics
- 29.3 Speed Grades
- 29.4 Clock Characteristics
  - 29.4.1 Calibrated Internal RC Oscillator Accuracy
- 29.5 External Clock Drive Characteristics
- 29.6 System and Reset Characteristics
- 29.7 PLL Characteristics
- 29.8 SPI Timing Characteristics
- 29.9 ADC Characteristics
- 29.10 Parallel Programming Characteristics
30. Typical Characteristics – TBD
31. Register Summary
32. Instruction Set Summary
33. Errata
- 33.1 Errata ATmega16M1
  - 33.1.1 Rev. A
- 33.2 Errata ATmega32M1
  - 33.2.1 Rev. A
- 33.3 Errata ATmega64M1
  - 33.3.1 Rev. A
34. Ordering Information
- 34.1 ATmega16M1
- 34.2 ATmega32M1
- 34.3 ATmega64M1
35. Packaging Information
- 35.1 32A
- 35.2 32M1-A
36. Datasheet Revision History
- 36.1 8209A – 08/09
Table of Contents

266

8209A–AVR–08/09

ATmega16M1/32M1/64M1

Figure 25-1. Digital to Analog Converter Block Schematic

25.3 Operation

The Digital to Analog Converter generates an analog signal proportional to the value of the DAC

registers value.

In order to have an accurate sampling frequency control, there is the possibility to update the

DAC input values through different trigger events.

DAC Output

Driver

DALA DAOE DAEN

-DAATE DATS2 DATS1 DATS0

DACH DACL

DACON

1010

VRef

D2A pin

DAC

Result

Update DAC

Trigger

DAC Low bitsDAC High bits

Edge

Detector

Sources