Datasheet
Table Of Contents
- Description
- Features
- 1. Configuration Summary
- 2. Ordering Information
- 3. Block Diagram
- 4. Pinout
- 5. I/O Multiplexing and Considerations
- 6. Signal Descriptions List
- 7. Power Supply and Start-Up Considerations
- 8. Product Mapping
- 9. Memories
- 10. Processor and Architecture
- 11. Peripherals Configuration Overview
- 12. DSU – Device Service Unit
- 12.1 Overview
- 12.2 Features
- 12.3 Block Diagram
- 12.4 Signal Description
- 12.5 Product Dependencies
- 12.6 Debug Operation
- 12.7 Chip-Erase
- 12.8 Programming
- 12.9 Intellectual Property Protection
- 12.10 Device Identification
- 12.11 Functional Description
- 12.12 Register Summary
- 12.13 Register Description
- 12.13.1 Control
- 12.13.2 Status A
- 12.13.3 Status B
- 12.13.4 Address
- 12.13.5 Length
- 12.13.6 Data
- 12.13.7 Debug Communication Channel n
- 12.13.8 Device Identification
- 12.13.9 CoreSight ROM Table Entry n
- 12.13.10 CoreSight ROM Table End
- 12.13.11 Coresight ROM Table Memory Type
- 12.13.12 Peripheral Identification 4
- 12.13.13 Peripheral Identification 0
- 12.13.14 Peripheral Identification 1
- 12.13.15 Peripheral Identification 2
- 12.13.16 Peripheral Identification 3
- 12.13.17 Component Identification 0
- 12.13.18 Component Identification 1
- 12.13.19 Component Identification 2
- 12.13.20 Component Identification 3
- 13. Clock System
- 14. GCLK – Generic Clock Controller
- 14.1 Overview
- 14.2 Features
- 14.3 Block Diagram
- 14.4 Signal Description
- 14.5 Product Dependencies
- 14.6 Functional Description
- 14.6.1 Principle of Operation
- 14.6.2 Basic Operation
- 14.6.2.1 Initialization
- 14.6.2.2 Enabling, Disabling and Resetting
- 14.6.2.3 Generic Clock Generator
- 14.6.2.4 Enabling a Generic Clock Generator
- 14.6.2.5 Disabling a Generic Clock Generator
- 14.6.2.6 Selecting a Clock Source for the Generic Clock Generator
- 14.6.2.7 Changing Clock Frequency
- 14.6.2.8 Duty Cycle
- 14.6.2.9 Generic Clock Output on I/O Pins
- 14.6.3 Generic Clock
- 14.6.4 Additional Features
- 14.6.5 Sleep Mode Operation
- 14.6.6 Synchronization
- 14.7 Register Summary
- 14.8 Register Description
- 15. PM – Power Manager
- 15.1 Overview
- 15.2 Features
- 15.3 Block Diagram
- 15.4 Signal Description
- 15.5 Product Dependencies
- 15.6 Functional Description
- 15.6.1 Principle of Operation
- 15.6.2 Basic Operation
- 15.6.2.1 Initialization
- 15.6.2.2 Enabling, Disabling and Resetting
- 15.6.2.3 Selecting the Main Clock Source
- 15.6.2.4 Selecting the Synchronous Clock Division Ratio
- 15.6.2.5 Clock Ready Flag
- 15.6.2.6 Peripheral Clock Masking
- 15.6.2.7 Clock Failure Detector
- 15.6.2.8 Reset Controller
- 15.6.2.9 Sleep Mode Controller
- 15.6.3 SleepWalking
- 15.6.4 Interrupts
- 15.6.5 Events
- 15.6.6 Sleep Mode Operation
- 15.7 Register Summary
- 15.8 Register Description
- 15.8.1 Control
- 15.8.2 Sleep Mode
- 15.8.3 CPU Clock Select
- 15.8.4 APBA Clock Select
- 15.8.5 APBB Clock Select
- 15.8.6 APBC Clock Select
- 15.8.7 AHB Mask
- 15.8.8 APBA Mask
- 15.8.9 APBB Mask
- 15.8.10 APBC Mask
- 15.8.11 Interrupt Enable Clear
- 15.8.12 Interrupt Enable Set
- 15.8.13 Interrupt Flag Status and Clear
- 15.8.14 Reset Cause
- 16. SYSCTRL – System Controller
- 16.1 Overview
- 16.2 Features
- 16.3 Block Diagram
- 16.4 Signal Description
- 16.5 Product Dependencies
- 16.6 Functional Description
- 16.6.1 Principle of Operation
- 16.6.2 External Multipurpose Crystal Oscillator (XOSC) Operation
- 16.6.3 32kHz External Crystal Oscillator (XOSC32K) Operation
- 16.6.4 32kHz Internal Oscillator (OSC32K) Operation
- 16.6.5 32kHz Ultra Low Power Internal Oscillator (OSCULP32K) Operation
- 16.6.6 8MHz Internal Oscillator (OSC8M) Operation
- 16.6.7 Digital Frequency Locked Loop (DFLL48M) Operation
- 16.6.8 3.3V Brown-Out Detector Operation
- 16.6.9 Voltage Reference System Operation
- 16.6.10 Interrupts
- 16.6.11 Synchronization
- 16.7 Register Summary
- 16.8 Register Description
- 16.8.1 Interrupt Enable Clear
- 16.8.2 Interrupt Enable Set
- 16.8.3 Interrupt Flag Status and Clear
- 16.8.4 Power and Clocks Status
- 16.8.5 External Multipurpose Crystal Oscillator (XOSC) Control
- 16.8.6 32kHz External Crystal Oscillator (XOSC32K) Control
- 16.8.7 32kHz Internal Oscillator (OSC32K) Control
- 16.8.8 32kHz Ultra Low Power Internal Oscillator (OSCULP32K) Control
- 16.8.9 8MHz Internal Oscillator (OSC8M) Control
- 16.8.10 DFLL48M Control
- 16.8.11 DFLL48M Value
- 16.8.12 DFLL48M Multiplier
- 16.8.13 DFLL48M Synchronization
- 16.8.14 3.3V Brown-Out Detector (BOD33) Control
- 16.8.15 Voltage Regulator System (VREG) Control
- 16.8.16 Voltage References System (VREF) Control
- 17. WDT – Watchdog Timer
- 18. RTC – Real-Time Counter
- 18.1 Overview
- 18.2 Features
- 18.3 Block Diagram
- 18.4 Signal Description
- 18.5 Product Dependencies
- 18.6 Functional Description
- 18.7 Register Summary
- 18.8 Register Description
- 18.8.1 Control
- 18.8.2 Read Request
- 18.8.3 Event Control
- 18.8.4 Interrupt Enable Clear
- 18.8.5 Interrupt Enable Set
- 18.8.6 Interrupt Flag Status and Clear
- 18.8.7 Status
- 18.8.8 Debug Control
- 18.8.9 Frequency Correction
- 18.8.10 Counter Value
- 18.8.11 Clock Value
- 18.8.12 Counter Period
- 18.8.13 Compare n Value
- 18.8.14 Alarm n Value
- 18.8.15 Alarm n Mask
- 19. EIC – External Interrupt Controller
- 20. NVMCTRL – Non-Volatile Memory Controller
- 20.1 Overview
- 20.2 Features
- 20.3 Block Diagram
- 20.4 Signal Description
- 20.5 Product Dependencies
- 20.6 Functional Description
- 20.7 Register Summary
- 20.8 Register Description
- 21. PORT
- 21.1 Overview
- 21.2 Features
- 21.3 Block Diagram
- 21.4 Signal Description
- 21.5 Product Dependencies
- 21.6 Functional Description
- 21.7 Register Summary
- 21.8 Register Description
- 21.8.1 Data Direction
- 21.8.2 Data Direction Clear
- 21.8.3 Data Direction Set
- 21.8.4 Data Direction Toggle
- 21.8.5 Data Output Value
- 21.8.6 Data Output Value Clear
- 21.8.7 Data Output Value Set
- 21.8.8 Data Output Value Toggle
- 21.8.9 Data Input Value
- 21.8.10 Control
- 21.8.11 Write Configuration
- 21.8.12 Peripheral Multiplexing n
- 21.8.13 Pin Configuration y
- 22. EVSYS – Event System
- 23. SERCOM – Serial Communication Interface
- 24. SERCOM USART – SERCOM Universal Synchronous and Asynchronous Receiver and Transmitter
- 24.1 Overview
- 24.2 Features
- 24.3 Block Diagram
- 24.4 Signal Description
- 24.5 Product Dependencies
- 24.6 Functional Description
- 24.7 Register Summary
- 24.8 Register Description
- 25. SERCOM SPI – SERCOM Serial Peripheral Interface
- 25.1 Overview
- 25.2 Features
- 25.3 Block Diagram
- 25.4 Signal Description
- 25.5 Product Dependencies
- 25.6 Functional Description
- 25.7 Register Summary
- 25.8 Register Description
- 26. SERCOM I2C – SERCOM Inter-Integrated Circuit
- 26.1 Overview
- 26.2 Features
- 26.3 Block Diagram
- 26.4 Signal Description
- 26.5 Product Dependencies
- 26.6 Functional Description
- 26.7 Register Summary
- 26.8 Register Description
- 27. TC – Timer/Counter
- 27.1 Overview
- 27.2 Features
- 27.3 Block Diagram
- 27.4 Signal Description
- 27.5 Product Dependencies
- 27.6 Functional Description
- 27.7 Register Summary
- 27.8 Register Description
- 27.8.1 Control A
- 27.8.2 Read Request
- 27.8.3 Control B Clear
- 27.8.4 Control B Set
- 27.8.5 Control C
- 27.8.6 Debug Control
- 27.8.7 Event Control
- 27.8.8 Interrupt Enable Clear
- 27.8.9 Interrupt Enable Set
- 27.8.10 Interrupt Flag Status and Clear
- 27.8.11 Status
- 27.8.12 Counter Value
- 27.8.13 Period Value
- 27.8.14 Compare/Capture
- 28. ADC – Analog-to-Digital Converter
- 28.1 Overview
- 28.2 Features
- 28.3 Block Diagram
- 28.4 Signal Description
- 28.5 Product Dependencies
- 28.6 Functional Description
- 28.6.1 Principle of Operation
- 28.6.2 Basic Operation
- 28.6.3 Prescaler
- 28.6.4 ADC Resolution
- 28.6.5 Differential and Single-Ended Conversions
- 28.6.6 Accumulation
- 28.6.7 Averaging
- 28.6.8 Oversampling and Decimation
- 28.6.9 Window Monitor
- 28.6.10 Offset and Gain Correction
- 28.6.11 Interrupts
- 28.6.12 Events
- 28.6.13 Sleep Mode Operation
- 28.6.14 Synchronization
- 28.7 Register Summary
- 28.8 Register Description
- 28.8.1 Control A
- 28.8.2 Reference Control
- 28.8.3 Average Control
- 28.8.4 Sampling Time Control
- 28.8.5 Control B
- 28.8.6 Window Monitor Control
- 28.8.7 Software Trigger
- 28.8.8 Input Control
- 28.8.9 Event Control
- 28.8.10 Interrupt Enable Clear
- 28.8.11 Interrupt Enable Set
- 28.8.12 Interrupt Flag Status and Clear
- 28.8.13 Status
- 28.8.14 Result
- 28.8.15 Window Monitor Lower Threshold
- 28.8.16 Window Monitor Upper Threshold
- 28.8.17 Gain Correction
- 28.8.18 Offset Correction
- 28.8.19 Calibration
- 28.8.20 Debug Control
- 29. AC – Analog Comparators
- 29.1 Overview
- 29.2 Features
- 29.3 Block Diagram
- 29.4 Signal Description
- 29.5 Product Dependencies
- 29.6 Functional Description
- 29.7 Additional Features
- 29.8 Register Summary
- 29.9 Register Description
- 30. DAC – Digital-to-Analog Converter
- 30.1 Overview
- 30.2 Features
- 30.3 Block Diagram
- 30.4 Signal Description
- 30.5 Product Dependencies
- 30.6 Functional Description
- 30.7 Register Summary
- 30.8 Register Description
- 31. PTC - Peripheral Touch Controller
- 32. Electrical Characteristics
- 32.1 Disclaimer
- 32.2 Absolute Maximum Ratings
- 32.3 General Operating Ratings
- 32.4 Supply Characteristics
- 32.5 Maximum Clock Frequencies
- 32.6 Power Consumption
- 32.7 I/O Pin Characteristics
- 32.8 Analog Characteristics
- 32.8.1 Voltage Regulator Characteristics
- 32.8.2 Power-On Reset (POR) Characteristics
- 32.8.3 Brown-Out Detectors Characteristics
- 32.8.4 Analog-to-Digital (ADC) characteristics
- 32.8.5 Digital to Analog Converter (DAC) Characteristics
- 32.8.6 Analog Comparator Characteristics
- 32.8.7 Bandgap Reference Characteristics
- 32.8.8 Temperature Sensor Characteristics
- 32.9 NVM Characteristics
- 32.10 Oscillators Characteristics
- 32.10.1 Crystal Oscillator (XOSC) Characteristics
- 32.10.2 External 32 kHz Crystal Oscillator (XOSC32K) Characteristics
- 32.10.3 Digital Frequency Locked Loop (DFLL48M) Characteristics
- 32.10.4 32.768kHz Internal oscillator (OSC32K) Characteristics
- 32.10.5 Ultra Low Power Internal 32kHz RC Oscillator (OSCULP32K) Characteristics
- 32.10.6 8MHz RC Oscillator (OSC8M) Characteristics
- 32.11 PTC Typical Characteristics
- 32.12 Timing Characteristics
- 33. Packaging Information
- 34. Schematic Checklist
- 35. Errata
- 36. Datasheet Revision History
- Appendix A. Conventions
- Appendix B. Acronyms and Abbreviations
- Table of Contents
625
Atmel | SMART SAM D20 [DATASHEET]
Atmel-42129K–SAM-D20_datasheet–06/2014
o Wait for fine lock (PCLKSR.DFLLLCKF set to 1)
o Switch back system clock/module clocks to the DFLL48M
Better accuracy is achieved using a high multiplier for the DFLL48M, using a
scaled down or slow clock as reference. A multiplier of 6 will have a theoretical
worst case frequency deviation from the reference clock of +/- 8.33%. A multiplier
of 500 will have a theoretical worst case frequency deviation from the reference
clock of +/- 0.1%.
4 - If the DFLL48M reaches the maximum or minimum COARSE or FINE
calibration values during the locking sequence, an out of bounds interrupt
will be generated. These interrupts will be generated even if the final
calibration values at DFLL48M lock are not at maximum or minimum, and
might therefore be false out of bounds interrupts. Errata reference: 10669
Fix/Workaround:
Check that the lockbits: DFLLLCKC and DFLLLCKF in the SYSCTRL Interrupt
Flag Status and Clear register (INTFLAG) are both set before enabling the
DFLLOOB interrupt.
35.2.8 EVSYS
1 - Using synchronous or resynchronized paths, some channels (0,3,6,7)
detect an overrun on every event even if no overrun condition is present.
Errata reference: 10895
Fix/Workaround:
- Ignore overrun detection bit for channels 0,3,6,7.
- Use channels 1,2,4,5 if overrun detection is required.
2 - Changing the selected generator of a channel can trigger a spurious
interrupt/event. Errata reference: 10443
Fix/Workaround:
To change the generator of a channel, first write with EDGESEL written to zero,
then perform a second write with EDGESEL written to its target value.
35.2.9 SERCOM
1 - The SERCOM SPI CTRLA register bit 17 (DOPO Bit 1) will always be zero,
and cannot be changed. Therefore the SERCOM SPI cannot be switched
between master and slave mode on the same DI and DO pins. Errata
reference: 10812
Fix/Workaround:
Connect the alternate DI and DO pins externally and use the port MUX to switch
between pin configurations for master and slave functionality.