Datasheet

ManualsBrandsMICROCHIP TECHNOLOGY ManualsMicrocontrollers, Microprocessors & QuartzesEmbedded microcontroller LQFP 48 (7x7) 16/32-Bit 55 MHz I/O number 21

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Table Of Contents

Features
1. Description
- 1.1 Configuration Summary of the SAM7S512, SAM7S256, SAM7S128, SAM7S64, SAM7S321, SAM7S32, SAM7S161 and SAM7S16
2. Block Diagram
3. Signal Description
4. Package and Pinout
- 4.1 64-lead LQFP and 64-pad QFN Package Outlines
- 4.2 64-lead LQFP and 64-pad QFN Pinout
- 4.3 48-lead LQFP and 48-pad QFN Package Outlines
- 4.4 48-lead LQFP and 48-pad QFN Pinout
5. Power Considerations
- 5.1 Power Supplies
- 5.2 Power Consumption
- 5.3 Voltage Regulator
- 5.4 Typical Powering Schematics
6. I/O Lines Considerations
- 6.1 JTAG Port Pins
- 6.2 Test Pin
- 6.3 Reset Pin
- 6.4 ERASE Pin
- 6.5 PIO Controller A Lines
- 6.6 I/O Line Drive Levels
7. Processor and Architecture
- 7.1 ARM7TDMI Processor
- 7.2 Debug and Test Features
- 7.3 Memory Controller
- 7.4 Peripheral DMA Controller
8. Memories
- 8.1 SAM7S512
- 8.2 SAM7S256
- 8.3 SAM7S128
- 8.4 SAM7S64
- 8.5 SAM7S321/32
- 8.6 SAM7S161/16
- 8.7 Memory Mapping
- 8.8 Embedded Flash
- 8.9 Fast Flash Programming Interface
- 8.10 SAM-BA Boot Assistant
9. System Controller
- 9.1 Reset Controller
  - 9.1.1 Brownout Detector and Power-on Reset
- 9.2 Clock Generator
- 9.3 Power Management Controller
- 9.4 Advanced Interrupt Controller
- 9.5 Debug Unit
- 9.6 Periodic Interval Timer
- 9.7 Watchdog Timer
- 9.8 Real-time Timer
- 9.9 PIO Controller
- 9.10 Voltage Regulator Controller
10. Peripherals
- 10.1 User Interface
- 10.2 Peripheral Identifiers
- 10.3 Peripheral Multiplexing on PIO Lines
- 10.4 PIO Controller A Multiplexing
- 10.5 Serial Peripheral Interface
- 10.6 Two-wire Interface
- 10.7 USART
- 10.8 Serial Synchronous Controller
- 10.9 Timer Counter
- 10.10 PWM Controller
- 10.11 USB Device Port (Does not pertain to SAM7S32/16)
- 10.12 Analog-to-digital Converter
11. ARM7TDMI Processor Overview
- 11.1 Overview
- 11.2 ARM7TDMI Processor
12. Debug and Test Features
- 12.1 Description
- 12.2 Block Diagram
- 12.3 Application Examples
  - 12.3.1 Debug Environment
  - 12.3.2 Test Environment
- 12.4 Debug and Test Pin Description
- 12.5 Functional Description
13. Reset Controller (RSTC)
- 13.1 Overview
- 13.2 Block Diagram
- 13.3 Functional Description
- 13.4 Reset Controller (RSTC) User Interface
14. Real-time Timer (RTT)
- 14.1 Overview
- 14.2 Block Diagram
- 14.3 Functional Description
- 14.4 Real-time Timer (RTT) User Interface
15. Periodic Interval Timer (PIT)
- 15.1 Overview
- 15.2 Block Diagram
- 15.3 Functional Description
- 15.4 Periodic Interval Timer (PIT) User Interface
16. Watchdog Timer (WDT)
- 16.1 Overview
- 16.2 Block Diagram
- 16.3 Functional Description
- 16.4 Watchdog Timer (WDT) User Interface
17. Voltage Regulator Mode Controller (VREG)
- 17.1 Overview
- 17.2 Voltage Regulator Power Controller (VREG) User Interface
  - 17.2.1 Voltage Regulator Mode Register
18. Memory Controller (MC)
- 18.1 Overview
- 18.2 Block Diagram
- 18.3 Functional Description
- 18.4 Memory Controller (MC) User Interface
19. Embedded Flash Controller (EFC)
- 19.1 Overview
- 19.2 Functional Description
- 19.3 Embedded Flash Controller (EFC) User Interface
20. Fast Flash Programming Interface (FFPI)
- 20.1 Overview
- 20.2 Parallel Fast Flash Programming
- 20.3 Serial Fast Flash Programming
21. SAM7 Boot Program
- 21.1 Description
- 21.2 Flow Diagram
- 21.3 Device Initialization with USB
- 21.4 Device Initialization without USB
- 21.5 SAM-BA Boot
- 21.6 Hardware and Software Constraints
22. Peripheral DMA Controller (PDC)
- 22.1 Overview
- 22.2 Block Diagram
- 22.3 Functional Description
- 22.4 Peripheral DMA Controller (PDC) User Interface
23. Advanced Interrupt Controller (AIC)
- 23.1 Overview
- 23.2 Block Diagram
- 23.3 Application Block Diagram
- 23.4 AIC Detailed Block Diagram
- 23.5 I/O Line Description
- 23.6 Product Dependencies
- 23.7 Functional Description
- 23.8 Advanced Interrupt Controller (AIC) User Interface
24. Clock Generator
- 24.1 Overview
- 24.2 Slow Clock RC Oscillator
- 24.3 Main Oscillator
- 24.4 Divider and PLL Block
  - 24.4.1 PLL Filter
  - 24.4.2 Divider and Phase Lock Loop Programming
25. Power Management Controller (PMC)
- 25.1 Description
- 25.2 Master Clock Controller
- 25.3 Processor Clock Controller
- 25.4 USB Clock Controller
- 25.5 Peripheral Clock Controller
- 25.6 Programmable Clock Output Controller
- 25.7 Programming Sequence
- 25.8 Clock Switching Details
  - 25.8.1 Master Clock Switching Timings
  - 25.8.2 Clock Switching Waveforms
- 25.9 Power Management Controller (PMC) User Interface
26. Debug Unit (DBGU)
- 26.1 Overview
- 26.2 Block Diagram
- 26.3 Product Dependencies
- 26.4 UART Operations
- 26.5 Debug Unit (DBGU) User Interface
27. Parallel Input/Output Controller (PIO)
- 27.1 Overview
- 27.2 Block Diagram
- 27.3 Product Dependencies
- 27.4 Functional Description
- 27.5 I/O Lines Programming Example
- 27.6 Programmable Multibit ECC Error Location (PIO) User Interface
28. Serial Peripheral Interface (SPI)
- 28.1 Overview
- 28.2 Block Diagram
- 28.3 Application Block Diagram
- 28.4 Signal Description
- 28.5 Product Dependencies
- 28.6 Functional Description
- 28.7 Serial Peripheral Interface (SPI) User Interface User Interface
29. Two-wire Interface (TWI) SAM7S512/256/128/64/321/32
- 29.1 Overview
- 29.2 List of Abbreviations
- 29.3 Block Diagram
- 29.4 Application Block Diagram
  - 29.4.1 I/O Lines Description
- 29.5 Product Dependencies
- 29.6 Functional Description
- 29.7 Two-wire Interface (TWI) User Interface
30. Two Wire Interface (TWI) SAM7S161/16
- 30.1 Overview
- 30.2 List of Abbreviations
- 30.3 Block Diagram
- 30.4 Application Block Diagram
  - 30.4.1 I/O Lines Description
- 30.5 Product Dependencies
- 30.6 Functional Description
  - 30.6.1 Transfer Format
  - 30.6.2 Modes of Operation
- 30.7 Master Mode
- 30.8 Multi-master Mode
  - 30.8.1 Definition
  - 30.8.2 Different Multi-master Modes
    - 30.8.2.1 TWI as Master Only
    - 30.8.2.2 TWI as Master or Slave
- 30.9 Slave Mode
- 30.10 Two-wire Interface (TWI) User Interface
31. Universal Synchronous Asynchronous Receiver Transceiver (USART)
- 31.1 Overview
- 31.2 Block Diagram
- 31.3 Application Block Diagram
- 31.4 I/O Lines Description
- 31.5 Product Dependencies
- 31.6 Functional Description
- 31.7 Universal Synchronous Asynchronous Receiver Transmitter (USART) User Interface
32. Synchronous Serial Controller (SSC)
- 32.1 Description
- 32.2 Block Diagram
- 32.3 Application Block Diagram
- 32.4 Pin Name List
- 32.5 Product Dependencies
- 32.6 Functional Description
- 32.7 SSC Application Examples
- 32.8 Syncrhronous Serial Controller (SSC) User Interface
33. Timer Counter (TC)
- 33.1 Overview
- 33.2 Block Diagram
- 33.3 Pin Name List
- 33.4 Product Dependencies
- 33.5 Functional Description
- 33.6 Timer Counter (TC) User Interface
34. Pulse Width Modulation Controller (PWM)
- 34.1 overview
- 34.2 Block Diagram
- 34.3 I/O Lines Description
- 34.4 Product Dependencies
- 34.5 Functional Description
- 34.6 Pulse Width Modulation Controller (PWM) User Interface
35. USB Device Port (UDP)
- 35.1 Overview
- 35.2 Block Diagram
- 35.3 Product Dependencies
- 35.4 Typical Connection
  - 35.4.1 USB Device Transceiver
  - 35.4.2 VBUS Monitoring
- 35.5 Functional Description
- 35.6 USB Device Port (UDP) User Interface
36. Analog-to-Digital Converter (ADC)
- 36.1 Overview
- 36.2 Block Diagram
- 36.3 Signal Description
- 36.4 Product Dependencies
- 36.5 Functional Description
- 36.6 Analog-to-Digital Converter (ADC) User Interface
37. SAM7S Electrical Characteristics
- 37.1 Absolute Maximum Ratings
- 37.2 DC Characteristics
- 37.3 Power Consumption
  - 37.3.1 Power Consumption Versus Modes
  - 37.3.2 Peripheral Power Consumption in Active Mode
- 37.4 Crystal Oscillators Characteristics
- 37.5 PLL Characteristics
- 37.6 Master Clock Characteristics
- 37.7 I/O Characteristics
- 37.8 USB Transceiver Characteristics
  - 37.8.1 Electrical Characteristics
  - 37.8.2 Switching Characteristics
- 37.9 ADC Characteristics
- 37.10 AC Characteristics
38. Mechanical Characteristics
- 38.1 Package Drawings
- 38.2 LQFP Packages
- 38.3 QFN Packages
- 38.4 Soldering Profile
39. SAM7S Ordering Information
40. Errata
- 40.1 Marking
- 40.2 Errata Summary by Product and Revision or Manufacturing Number
- 40.3 Errata Organization by Product and Revision or Manufacturing Number
- 40.4 SAM7S512 Errata - Revision A Parts
  - 40.4.1 Analog-to-Digital Converter (ADC)
  - 40.4.2 Embedded Flash Controller (EFC)
    - 40.4.2.1 EFC: Embedded Flash Access Time 1
  - 40.4.3 Parallel Input/Output Controller (PIO)
  - 40.4.4 Pulse Width Modulation Controller (PWM)
  - 40.4.5 Real Time Timer (RTT)
    - 40.4.5.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.4.6 Serial Peripheral Interface (SPI)
  - 40.4.7 Synchronous Serial Controller (SSC)
  - 40.4.8 Two-wire Interface (TWI)
  - 40.4.9 Universal Synchronous Asynchronous Receiver Transmitter (USART)
- 40.5 SAM7S512 Errata - Revision B Parts
  - 40.5.1 Analog-to-Digital Converter (ADC)
  - 40.5.2 Embedded Flash Controller (EFC)
    - 40.5.2.1 EFC: Embedded Flash Access Time 2
  - 40.5.3 Parallel Input/Output Controller (PIO)
  - 40.5.4 Pulse Width Modulation Controller (PWM)
  - 40.5.5 Real Time Timer (RTT)
    - 40.5.5.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.5.6 Serial Peripheral Interface (SPI)
  - 40.5.7 Synchronous Serial Controller (SSC)
  - 40.5.8 Two-wire Interface (TWI)
  - 40.5.9 Universal Synchronous Asynchronous Receiver Transmitter (USART)
- 40.6 SAM7S256 Errata - Manufacturing Number 58818C
  - 40.6.1 Chip ID
    - 40.6.1.1 Wrong Chip ID Value
  - 40.6.2 Analog-to-Digital Converter (ADC)
  - 40.6.3 Master Clock (MCK)
    - 40.6.3.1 MCK: Limited Master Clock Frequency Ranges
  - 40.6.4 Non Volatile Memory Bits (NVM Bits)
    - 40.6.4.1 NVM Bits: Write/Erase Cycles Number
  - 40.6.5 Parallel Input/Output Controller (PIO)
  - 40.6.6 Power Management Controller (PMC)
    - 40.6.6.1 PMC: Slow Clock Selected in PMC and a Transition Occurs on PA1
    - 40.6.6.2 PMC: Programming CSS in PMC_MCKR Register
  - 40.6.7 Pulse Width Modulation Controller (PWM)
  - 40.6.8 Real Time Timer (RTT)
    - 40.6.8.1 RTT: Possible Event Loss when Reading RTT_SR
    - 40.6.8.2 RTT: RTT_VR May be Corrupted
  - 40.6.9 Serial Peripheral Interface (SPI)
  - 40.6.10 Synchronous Serial Controller (SSC)
  - 40.6.11 Two-wire Interface (TWI)
  - 40.6.12 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.6.13 Voltage Regulator
    - 40.6.13.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.6.13.2 Voltage Regulator: Load Versus Temperature
  - 40.6.14 Watchdog Timer (WDT)
    - 40.6.14.1 WDT: The Watchdog Timer May Lock the Device in a Reset State
    - 40.6.14.2 WDT: The Watchdog Timer Status Register and Interrupt
- 40.7 SAM7S256 Errata - Revision A Parts
  - 40.7.1 Chip ID
    - 40.7.1.1 Wrong Chip ID Value
  - 40.7.2 Analog-to-Digital Converter (ADC)
  - 40.7.3 Non Volatile Memory Bits (NVM Bits)
    - 40.7.3.1 NVM Bits: Write/Erase Cycles Number
  - 40.7.4 Parallel Input/Output Controller (PIO)
  - 40.7.5 Power Management Controller (PMC)
    - 40.7.5.1 PMC: Slow Clock Selected in PMC and a Transition Occurs on PA1
    - 40.7.5.2 PMC: Programming CSS in PMC_MCKR Register
  - 40.7.6 Pulse Width Modulation Controller (PWM)
  - 40.7.7 Real Time Timer (RTT)
    - 40.7.7.1 RTT: Possible Event Loss when Reading RTT_SR
    - 40.7.7.2 RTT: RTT_VR May be Corrupted
  - 40.7.8 Serial Peripheral Interface (SPI)
  - 40.7.9 Synchronous Serial Controller (SSC)
  - 40.7.10 Two-wire Interface (TWI)
  - 40.7.11 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.7.12 Voltage Regulator
    - 40.7.12.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.7.12.2 Voltage Regulator: Load Versus Temperature
  - 40.7.13 Watchdog Timer (WDT)
    - 40.7.13.1 WDT: The Watchdog Timer May Lock the Device in a Reset State
    - 40.7.13.2 WDT: The Watchdog Timer Status Register and Interrupt
- 40.8 SAM7S256 Errata - Revision B Parts
  - 40.8.1 Analog-to-Digital Converter (ADC)
  - 40.8.2 Non Volatile Memory Bits (NVM Bits)
    - 40.8.2.1 NVM Bits: Write/Erase Cycles Number
  - 40.8.3 Parallel Input/Output Controller (PIO)
    - 40.8.3.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.8.3.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.8.4 Pulse Width Modulation Controller (PWM)
  - 40.8.5 Real Time Timer (RTT)
    - 40.8.5.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.8.6 Serial Peripheral Interface (SPI)
  - 40.8.7 Synchronous Serial Controller (SSC)
  - 40.8.8 Two-wire Interface (TWI)
  - 40.8.9 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.8.10 Voltage Regulator
    - 40.8.10.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.8.10.2 Voltage Regulator: Load Versus Temperature
- 40.9 SAM7S256 Errata - Revision C Parts
  - 40.9.1 Embedded Flash Controller (EFC)
    - 40.9.1.1 EFC: Embedded Flash Access Time 1
  - 40.9.2 Parallel Input/Output Controller (PIO)
    - 40.9.2.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.9.2.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.9.3 Pulse Width Modulation Controller (PWM)
  - 40.9.4 Real Time Timer (RTT)
    - 40.9.4.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.9.5 USART: Universal Synchronous Asynchronous Receiver Transmitter
    - 40.9.5.1 USART: DCD is active High instead of Low
- 40.10 SAM7S256 Errata - Revision D Parts
  - 40.10.1 Embedded Flash Controller (EFC)
    - 40.10.1.1 EFC: Embedded Flash Access Time 1
  - 40.10.2 Parallel Input/Output Controller (PIO)
    - 40.10.2.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.10.2.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.10.3 Pulse Width Modulation Controller (PWM)
  - 40.10.4 Real Time Timer (RTT)
    - 40.10.4.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.10.5 USART: Universal Synchronous Asynchronous Receiver Transmitter
    - 40.10.5.1 USART: DCD is active High instead of Low
- 40.11 SAM7S128 Errata - Manufacturing Number 58818C
  - 40.11.1 Chip ID
    - 40.11.1.1 Wrong Chip ID Value
  - 40.11.2 Analog-to-Digital Converter (ADC)
  - 40.11.3 Master Clock (MCK)
    - 40.11.3.1 MCK: Limited Master Clock Frequency Ranges
  - 40.11.4 Non Volatile Memory Bits (NVM Bits)
    - 40.11.4.1 NVM Bits: Write/Erase Cycles Number
  - 40.11.5 Parallel Input/Output Controller (PIO)
  - 40.11.6 Power Management Controller (PMC)
    - 40.11.6.1 PMC: Slow Clock Selected in PMC and a Transition Occurs on PA1
    - 40.11.6.2 PMC: Programming CSS in PMC_MCKR Register
  - 40.11.7 Pulse Width Modulation Controller (PWM)
  - 40.11.8 Real Time Timer (RTT)
    - 40.11.8.1 RTT: Possible Event Loss when Reading RTT_SR
    - 40.11.8.2 RTT: RTT_VR May be Corrupted
  - 40.11.9 Serial Peripheral Interface (SPI)
  - 40.11.10 Synchronous Serial Controller (SSC)
  - 40.11.11 Two-wire Interface (TWI)
  - 40.11.12 USART: Universal Synchronous Asynchronous Receiver Transmitter
  - 40.11.13 Voltage Regulator
    - 40.11.13.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.11.13.2 Voltage Regulator: Load Versus Temperature
  - 40.11.14 Watchdog Timer (WDT)
    - 40.11.14.1 WDT: The Watchdog Timer May Lock the Device in a Reset State
    - 40.11.14.2 WDT: The Watchdog Timer Status Register and Interrupt
- 40.12 SAM7S128 Errata - Revision A Parts
  - 40.12.1 Chip ID
    - 40.12.1.1 Wrong Chip ID Value
  - 40.12.2 Analog-to-Digital Converter (ADC)
  - 40.12.3 Non Volatile Memory Bits (NVM Bits)
    - 40.12.3.1 NVM Bits: Write/Erase Cycles Number
  - 40.12.4 Parallel Input/Output Controller (PIO)
  - 40.12.5 Power Management Controller (PMC)
    - 40.12.5.1 PMC: Slow Clock Selected in PMC and a Transition Occurs on PA1
    - 40.12.5.2 PMC: Programming CSS in PMC_MCKR Register
  - 40.12.6 Pulse Width Modulation Controller (PWM)
  - 40.12.7 Real Time Timer (RTT)
    - 40.12.7.1 RTT: Possible Event Loss when Reading RTT_SR
    - 40.12.7.2 RTT: RTT_VR May be Corrupted
  - 40.12.8 Serial Peripheral Interface (SPI)
  - 40.12.9 Synchronous Serial Controller (SSC)
  - 40.12.10 Two-wire Interface (TWI)
  - 40.12.11 USART: Universal Synchronous Asynchronous Receiver Transmitter
  - 40.12.12 Voltage Regulator
    - 40.12.12.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.12.12.2 Voltage Regulator: Load Versus Temperature
  - 40.12.13 Watchdog Timer (WDT)
    - 40.12.13.1 WDT: The Watchdog Timer May Lock the Device in a Reset State
    - 40.12.13.2 WDT: The Watchdog Timer Status Register and Interrupt
- 40.13 SAM7S128 Errata - Revision B Parts
  - 40.13.1 Analog-to-Digital Converter (ADC)
  - 40.13.2 Non Volatile Memory Bits (NVM Bits)
    - 40.13.2.1 NVM Bits: Write/Erase Cycles Number
  - 40.13.3 Parallel Input/Output Controller (PIO)
    - 40.13.3.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.13.3.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.13.4 Pulse Width Modulation Controller (PWM)
  - 40.13.5 Real Time Timer (RTT)
    - 40.13.5.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.13.6 Serial Peripheral Interface (SPI)
  - 40.13.7 Synchronous Serial Controller (SSC)
  - 40.13.8 Two-wire Interface (TWI)
  - 40.13.9 USART: Universal Synchronous Asynchronous Receiver Transmitter
  - 40.13.10 Voltage Regulator
    - 40.13.10.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.13.10.2 Voltage Regulator: Load Versus Temperature
- 40.14 SAM7S128 Errata - Revision C Parts
  - 40.14.1 Embedded Flash Controller (EFC)
    - 40.14.1.1 EFC: Embedded Flash Access Time 1
  - 40.14.2 Parallel Input/Output Controller (PIO)
    - 40.14.2.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.14.2.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.14.3 Pulse Width Modulation Controller (PWM)
  - 40.14.4 Real Time Timer (RTT)
    - 40.14.4.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.14.5 USART: Universal Synchronous Asynchronous Receiver Transmitter
    - 40.14.5.1 USART: DCD is active High instead of Low
- 40.15 SAM7S128 Errata - Revision D Parts
  - 40.15.1 Embedded Flash Controller (EFC)
    - 40.15.1.1 EFC: Embedded Flash Access Time 1
  - 40.15.2 Parallel Input/Output Controller (PIO)
    - 40.15.2.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.15.2.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.15.3 Pulse Width Modulation Controller (PWM)
  - 40.15.4 Real Time Timer (RTT)
    - 40.15.4.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.15.5 USART: Universal Synchronous Asynchronous Receiver Transmitter
    - 40.15.5.1 USART: DCD is active High instead of Low
- 40.16 SAM7S64 Errata - Manufacturing Number 58814G
  - 40.16.1 Analog-to-Digital Converter (ADC)
  - 40.16.2 JTAG
    - 40.16.2.1 JTAG: Recommendation for TDI Pin
  - 40.16.3 Master Clock (MCK)
    - 40.16.3.1 MCK: Limited Master Clock Frequency Ranges
  - 40.16.4 Non Volatile Memory Bits (NVM Bits)
    - 40.16.4.1 NVM Bits: Write/Erase Cycles Number
  - 40.16.5 Parallel Input/Output Controller (PIO)
  - 40.16.6 Pulse Width Modulation Controller (PWM)
  - 40.16.7 Real Time Timer (RTT)
    - 40.16.7.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.16.8 Serial Peripheral Interface (SPI)
  - 40.16.9 Synchronous Serial Controller (SSC)
  - 40.16.10 Two-wire Interface (TWI)
  - 40.16.11 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.16.12 Voltage Regulator
    - 40.16.12.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.16.12.2 Voltage Regulator: Load Versus Temperature
- 40.17 SAM7S64 Errata - Revision A Parts
  - 40.17.1 Analog-to-Digital Converter (ADC)
  - 40.17.2 Non Volatile Memory Bits (NVM Bits)
    - 40.17.2.1 NVM Bits: Write/Erase Cycles Number
  - 40.17.3 Parallel Input/Output Controller (PIO)
  - 40.17.4 Pulse Width Modulation Controller (PWM)
  - 40.17.5 Real Time Timer (RTT)
    - 40.17.5.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.17.6 Serial Peripheral Interface (SPI)
  - 40.17.7 Synchronous Serial Controller (SSC)
  - 40.17.8 Two-wire Interface (TWI)
  - 40.17.9 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.17.10 Voltage Regulator
    - 40.17.10.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.17.10.2 Voltage Regulator: Load Versus Temperature
- 40.18 SAM7S64 Errata - Revision B Parts
  - 40.18.1 Analog-to-Digital Converter (ADC)
  - 40.18.2 Non Volatile Memory Bits (NVM Bits)
    - 40.18.2.1 NVM Bits: Write/Erase Cycles Number
  - 40.18.3 Parallel Input/Output Controller (PIO)
    - 40.18.3.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.18.3.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.18.4 Pulse Width Modulation Controller (PWM)
  - 40.18.5 Real Time Timer (RTT)
    - 40.18.5.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.18.6 Serial Peripheral Interface (SPI)
  - 40.18.7 Synchronous Serial Controller (SSC)
  - 40.18.8 Two-wire Interface (TWI)
  - 40.18.9 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.18.10 Voltage Regulator
    - 40.18.10.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.18.10.2 Voltage Regulator: Load Versus Temperature
- 40.19 SAM7S64 Errata - Revision C Parts
  - 40.19.1 Parallel Input/Output Controller (PIO)
    - 40.19.1.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.19.1.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.19.2 Pulse Width Modulation Controller (PWM)
  - 40.19.3 Real Time Timer (RTT)
    - 40.19.3.1 RTT: Possible Event Loss when Reading RTT_SR
- 40.20 SAM7S321 Errata - Revision A Parts
  - 40.20.1 Analog-to-Digital Converter (ADC)
  - 40.20.2 Parallel Input/Output Controller (PIO)
    - 40.20.2.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.20.2.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.20.3 Pulse Width Modulation Controller (PWM)
  - 40.20.4 Real Time Timer (RTT)
    - 40.20.4.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.20.5 Serial Peripheral Interface (SPI)
  - 40.20.6 Synchronous Serial Controller (SSC)
  - 40.20.7 Two-wire Interface (TWI)
  - 40.20.8 Universal Synchronous Asynchronous Receiver Transmitter (USART)
- 40.21 SAM7S32 Errata - Manufacturing Number 58814G
  - 40.21.1 Analog-to-Digital Converter (ADC)
  - 40.21.2 JTAG
    - 40.21.2.1 JTAG: Recommendation for TDI Pin
  - 40.21.3 Master Clock (MCK)
    - 40.21.3.1 MCK: Limited Master Clock Frequency Ranges
  - 40.21.4 Non Volatile Memory Bits (NVM Bits)
    - 40.21.4.1 NVM Bits: Write/Erase Cycles Number
  - 40.21.5 Parallel Input/Output Controller (PIO)
  - 40.21.6 Pulse Width Modulation Controller (PWM)
  - 40.21.7 Serial Peripheral Interface (SPI)
  - 40.21.8 Synchronous Serial Controller (SSC)
  - 40.21.9 Two-wire Interface (TWI)
  - 40.21.10 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.21.11 Voltage Regulator
    - 40.21.11.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.21.11.2 Voltage Regulator: Load Versus Temperature
- 40.22 SAM7S32 Errata - Revision A Parts
  - 40.22.1 Analog-to-Digital Converter (ADC)
  - 40.22.2 Non Volatile Memory Bits (NVM Bits)
    - 40.22.2.1 NVM Bits: Write/Erase Cycles Number
  - 40.22.3 Parallel Input/Output Controller (PIO)
  - 40.22.4 Pulse Width Modulation Controller (PWM)
  - 40.22.5 Real Time Timer (RTT)
    - 40.22.5.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.22.6 Serial Peripheral Interface (SPI)
  - 40.22.7 Synchronous Serial Controller (SSC)
  - 40.22.8 Two-wire Interface (TWI)
  - 40.22.9 Universal Synchronous Asynchronous Receiver Transmitter (USART)
  - 40.22.10 Voltage Regulator
    - 40.22.10.1 Voltage Regulator: Current Consumption in Deep Mode
    - 40.22.10.2 Voltage Regulator: Load Versus Temperature
- 40.23 SAM7S32 Errata - Revision B Parts
  - 40.23.1 Analog-to-Digital Converter (ADC)
  - 40.23.2 Parallel Input/Output Controller (PIO)
    - 40.23.2.1 PIO: Electrical Characteristics on NRST and PA0-PA16 and PA21-31
    - 40.23.2.2 PIO: Drive Low NRST, PA0-PA16 and PA21-PA31
  - 40.23.3 Pulse Width Modulation Controller (PWM)
  - 40.23.4 Real Time Timer (RTT)
    - 40.23.4.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.23.5 Serial Peripheral Interface (SPI)
  - 40.23.6 Synchronous Serial Controller (SSC)
  - 40.23.7 Two-wire Interface (TWI)
  - 40.23.8 Universal Synchronous Asynchronous Receiver Transmitter (USART)
- 40.24 SAM7S161 Errata - Revision A Parts
  - 40.24.1 Analog-to-Digital Converter (ADC)
  - 40.24.2 Pulse Width Modulation Controller (PWM)
  - 40.24.3 Real Time Timer (RTT)
    - 40.24.3.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.24.4 Serial Peripheral Interface (SPI)
    - 40.24.4.1 SPI: Bad Serial Clock Generation on 2nd Chip Select
  - 40.24.5 Synchronous Serial Controller (SSC)
  - 40.24.6 Universal Synchronous Asynchronous Receiver Transmitter (USART)
    - 40.24.6.1 USART: DCD is active High instead of Low
- 40.25 SAM7S16 Errata - Revision A Parts
  - 40.25.1 Analog-to-Digital Converter (ADC)
  - 40.25.2 Pulse Width Modulation Controller (PWM)
  - 40.25.3 Real Time Timer (RTT)
    - 40.25.3.1 RTT: Possible Event Loss when Reading RTT_SR
  - 40.25.4 Serial Peripheral Interface (SPI)
    - 40.25.4.1 SPI: Bad Serial Clock Generation on 2nd Chip Select
  - 40.25.5 Synchronous Serial Controller (SSC)
  - 40.25.6 Universal Synchronous Asynchronous Receiver Transmitter (USART)
    - 40.25.6.1 USART: DCD is active High instead of Low
Revision History
Table of Contents

274

SAM7S Series [DATASHEET]

6175M–ATARM–26-Oct-12

28.6.3 Master Mode Operations

When configured in Master Mode, the SPI operates on the clock generated by the internal programmable baud

rate generator. It fully controls the data transfers to and from the slave(s) connected to the SPI bus. The SPI drives

the chip select line to the slave and the serial clock signal (SPCK).

The SPI features two holding registers, the Transmit Data Register and the Receive Data Register, and a single

Shift Register. The holding registers maintain the data flow at a constant rate.

After enabling the SPI, a data transfer begins when the processor writes to the SPI_TDR (Transmit Data Register).

The written data is immediately transferred in the Shift Register and transfer on the SPI bus starts. While the data

in the Shift Register is shifted on the MOSI line, the MISO line is sampled and shifted in the Shift Register. Trans-

mission cannot occur without reception.

Before writing the TDR, the PCS field must be set in order to select a slave.

If new data is written in SPI_TDR during the transfer, it stays in it until the current transfer is completed. Then, the

received data is transferred from the Shift Register to SPI_RDR, the data in SPI_TDR is loaded in the Shift Regis-

ter and a new transfer starts.

The transfer of a data written in SPI_TDR in the Shift Register is indicated by the TDRE bit (Transmit Data Register

Empty) in the Status Register (SPI_SR). When new data is written in SPI_TDR, this bit is cleared. The TDRE bit is

used to trigger the Transmit PDC channel.

The end of transfer is indicated by the TXEMPTY flag in the SPI_SR register. If a transfer delay (DLYBCT) is

greater than 0 for the last transfer, TXEMPTY is set after the completion of said delay. The master clock (MCK) can

be switched off at this time.

The transfer of received data from the Shift Register in SPI_RDR is indicated by the RDRF bit (Receive Data Reg-

ister Full) in the Status Register (SPI_SR). When the received data is read, the RDRF bit is cleared.

If the SPI_RDR (Receive Data Register) has not been read before new data is received, the Overrun Error bit

(OVRES) in SPI_SR is set. As long as this flag is set, data is loaded in SPI_RDR. The user has to read the status

Figure 28-5 on page 275 shows a block diagram of the SPI when operating in Master Mode. Figure 28-6 on page

276 shows a flow chart describing how transfers are handled.