- •Features
- •Pin Configurations
- •Overview
- •Block Diagram
- •Pin Descriptions
- •Port A (PA2..PA0)
- •Port B (PB7..PB0)
- •Port D (PD6..PD0)
- •RESET
- •XTAL1
- •XTAL2
- •Disclaimer
- •AVR CPU Core
- •Introduction
- •Architectural Overview
- •Status Register
- •Stack Pointer
- •Interrupt Response Time
- •SRAM Data Memory
- •Data Memory Access Times
- •EEPROM Data Memory
- •EEPROM Read/Write Access
- •Atomic Byte Programming
- •Split Byte Programming
- •Erase
- •Write
- •I/O Memory
- •General Purpose I/O Registers
- •Clock Systems and their Distribution
- •Clock Sources
- •Default Clock Source
- •Crystal Oscillator
- •External Clock
- •Idle Mode
- •Power-down Mode
- •Standby Mode
- •Analog Comparator
- •Brown-out Detector
- •Internal Voltage Reference
- •Watchdog Timer
- •Port Pins
- •Resetting the AVR
- •Reset Sources
- •Power-on Reset
- •External Reset
- •Brown-out Detection
- •Watchdog Reset
- •Watchdog Timer
- •Interrupts
- •I/O-Ports
- •Introduction
- •Configuring the Pin
- •Toggling the Pin
- •Reading the Pin Value
- •Alternate Port Functions
- •Alternate Functions of Port A
- •Alternate Functions of Port B
- •Alternate Functions of Port D
- •Register Description for I/O-Ports
- •External Interrupts
- •8-bit Timer/Counter0 with PWM
- •Overview
- •Registers
- •Definitions
- •Counter Unit
- •Output Compare Unit
- •Force Output Compare
- •Modes of Operation
- •Normal Mode
- •Fast PWM Mode
- •Phase Correct PWM Mode
- •Internal Clock Source
- •Prescaler Reset
- •External Clock Source
- •16-bit Timer/Counter1
- •Overview
- •Registers
- •Definitions
- •Compatibility
- •Counter Unit
- •Input Capture Unit
- •Input Capture Trigger Source
- •Noise Canceler
- •Using the Input Capture Unit
- •Output Compare Units
- •Force Output Compare
- •Modes of Operation
- •Normal Mode
- •Fast PWM Mode
- •Phase Correct PWM Mode
- •USART
- •Overview
- •Clock Generation
- •External Clock
- •Synchronous Clock Operation
- •Frame Formats
- •Parity Bit Calculation
- •USART Initialization
- •Sending Frames with 5 to 8 Data Bit
- •Sending Frames with 9 Data Bit
- •Parity Generator
- •Disabling the Transmitter
- •Receiving Frames with 5 to 8 Data Bits
- •Receiving Frames with 9 Data Bits
- •Receiver Error Flags
- •Parity Checker
- •Disabling the Receiver
- •Flushing the Receive Buffer
- •Asynchronous Data Recovery
- •Using MPCM
- •Overview
- •Functional Descriptions
- •Three-wire Mode
- •SPI Slave Operation Example
- •Two-wire Mode
- •Start Condition Detector
- •Alternative USI Usage
- •4-bit Counter
- •12-bit Timer/Counter
- •Software Interrupt
- •Analog Comparator
- •debugWIRE On-chip Debug System
- •Features
- •Overview
- •Physical Interface
- •Software Break Points
- •Limitations of debugWIRE
- •debugWIRE Related Register in I/O Memory
- •Performing a Page Write
- •Reading the Fuse and Lock Bits from Software
- •Preventing Flash Corruption
- •Fuse Bits
- •Latching of Fuses
- •Signature Bytes
- •Calibration Byte
- •Page Size
- •Signal Names
- •Parallel Programming
- •Enter Programming Mode
- •Chip Erase
- •Programming the Flash
- •Programming the EEPROM
- •Reading the Flash
- •Reading the EEPROM
- •Programming the Lock Bits
- •Reading the Signature Bytes
- •Reading the Calibration Byte
- •Serial Downloading
- •Electrical Characteristics
- •Absolute Maximum Ratings*
- •DC Characteristics
- •External Clock Drive Waveforms
- •External Clock Drive
- •Active Supply Current
- •Idle Supply Current
- •Power-down Supply Current
- •Standby Supply Current
- •Pin Pull-up
- •Pin Driver Strength
- •Internal Oscillator Speed
- •Register Summary
- •Instruction Set Summary
- •Ordering Information
- •Packaging Information
- •Errata
- •ATtiny2313 Rev B
- •ATtiny2313 Rev A
- •Changes from Rev. 2514F-08/04 to Rev. 2514G-10/04
- •Changes from Rev. 2514F-08/04 to Rev. 2514G-10/04
- •Changes from Rev. 2514E-04/04 to Rev. 2514F-08/04
- •Changes from Rev. 2514D-03/04 to Rev. 2514E-04/04
- •Changes from Rev. 2514C-12/03 to Rev. 2514D-03/04
- •Changes from Rev. 2514B-09/03 to Rev. 2514C-12/03
- •Changes from Rev. 2514A-09/03 to Rev. 2514B-09/03
- •Table of Contents
ATtiny2313/V
System Clock and
Clock Options
Clock Systems and their Distribution
Figure 11 presents the principal clock systems in the AVR and their distribution. All of the clocks need not be active at a given time. In order to reduce power consumption, the clocks to modules not being used can be halted by using different sleep modes, as described in “Power Management and Sleep Modes” on page 29. The clock systems are detailed below.
Figure 11. Clock Distribution
General I/O |
|
CPU Core |
RAM |
Flash and |
Modules |
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EEPROM |
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clkI/O |
AVR Clock |
clkCPU |
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Control Unit |
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clkFLASH |
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Reset Logic |
Watchdog Timer |
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Source clock |
Watchdog clock |
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Clock |
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Multiplexer |
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Watchdog |
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Oscillator |
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External Clock |
Crystal |
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Calibrated RC |
Oscillator |
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Oscillator |
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CPU Clock – clkCPU |
The CPU clock is routed to parts of the system concerned with operation of the AVR |
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core. Examples of such modules are the General Purpose Register File, the Status Reg- |
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ister and the data memory holding the Stack Pointer. Halting the CPU clock inhibits the |
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core from performing general operations and calculations. |
I/O Clock – clkI/O |
The I/O clock is used by the majority of the I/O modules, like Timer/Counters, and |
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USART. The I/O clock is also used by the External Interrupt module, but note that some |
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external interrupts are detected by asynchronous logic, allowing such interrupts to be |
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detected even if the I/O clock is halted. Also note that start condition detection in the USI |
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module is carried out asynchronously when clkI/O is halted, enabling USI start condition |
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detection in all sleep modes. |
Flash Clock – clkFLASH |
The Flash clock controls operation of the Flash interface. The Flash clock is usually |
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active simultaneously with the CPU clock. |
21
2543H–AVR–02/05