Datasheet
Table Of Contents
- RP2040 Datasheet
- Colophon
- Chapter 1. Introduction
- Chapter 2. System Description
- 2.1. Bus Fabric
- 2.2. Address Map
- 2.3. Processor subsystem
- 2.4. Cortex-M0+
- 2.5. DMA
- 2.6. Memory
- 2.7. Boot Sequence
- 2.8. Bootrom
- 2.9. Power Supplies
- 2.10. Core Supply Regulator
- 2.11. Power Control
- 2.12. Chip-Level Reset
- 2.13. Power-On State Machine
- 2.14. Subsystem Resets
- 2.15. Clocks
- 2.16. Crystal Oscillator (XOSC)
- 2.17. Ring Oscillator (ROSC)
- 2.18. PLL
- 2.19. GPIO
- 2.20. Sysinfo
- 2.21. Syscfg
- 2.22. TBMAN
- Chapter 3. PIO
- Chapter 4. Peripherals
- 4.1. USB
- 4.2. UART
- 4.3. I2C
- 4.3.1. Features
- 4.3.2. IP Configuration
- 4.3.3. I2C Overview
- 4.3.4. I2C Terminology
- 4.3.5. I2C Behaviour
- 4.3.6. I2C Protocols
- 4.3.7. Tx FIFO Management and START, STOP and RESTART Generation
- 4.3.8. Multiple Master Arbitration
- 4.3.9. Clock Synchronization
- 4.3.10. Operation Modes
- 4.3.11. Spike Suppression
- 4.3.12. Fast Mode Plus Operation
- 4.3.13. Bus Clear Feature
- 4.3.14. IC_CLK Frequency Configuration
- 4.3.15. DMA Controller Interface
- 4.3.16. Operation of Interrupt Registers
- 4.3.17. List of Registers
- 4.4. SPI
- 4.5. PWM
- 4.6. Timer
- 4.7. Watchdog
- 4.8. RTC
- 4.9. ADC and Temperature Sensor
- 4.10. SSI
- 4.10.1. Overview
- 4.10.2. Features
- 4.10.3. IP Modifications
- 4.10.4. Clock Ratios
- 4.10.5. Transmit and Receive FIFO Buffers
- 4.10.6. 32-Bit Frame Size Support
- 4.10.7. SSI Interrupts
- 4.10.8. Transfer Modes
- 4.10.9. Operation Modes
- 4.10.10. Partner Connection Interfaces
- 4.10.11. DMA Controller Interface
- 4.10.12. APB Interface
- 4.10.13. List of Registers
- Chapter 5. Electrical and Mechanical
- Appendix A: Register Field Types
- Appendix B: Errata
- Appendix C: Documentation Release History
Bits Name Description Type Reset
20:15 TREQ_SEL Select a Transfer Request signal.
The channel uses the transfer request signal to pace its
data transfer rate. Sources for TREQ signals are internal
(TIMERS) or external (DREQ, a Data Request from the
system).
0x0 to 0x3a → select DREQ n as TREQ
0x3b → Select Timer 0 as TREQ
0x3c → Select Timer 1 as TREQ
0x3d → Select Timer 2 as TREQ (Optional)
0x3e → Select Timer 3 as TREQ (Optional)
0x3f → Permanent request, for unpaced transfers.
RW 0x00
14:11 CHAIN_TO When this channel completes, it will trigger the channel
indicated by CHAIN_TO. Disable by setting CHAIN_TO =
(this channel).
Reset value is equal to channel number (so CHAIN_TO
disabled by default).
RW 0x0
10 RING_SEL Select whether RING_SIZE applies to read or write
addresses.
If 0, read addresses are wrapped on a (1 << RING_SIZE)
boundary. If 1, write addresses are wrapped.
RW 0x0
9:6 RING_SIZE Size of address wrap region. If 0, don’t wrap. For values n
> 0, only the lower n bits of the address will change. This
wraps the address on a (1 << n) byte boundary, facilitating
access to naturally-aligned ring buffers.
Ring sizes between 2 and 32768 bytes are possible. This
can apply to either read or write addresses, based on
value of RING_SEL.
0x0 → RING_NONE
RW 0x0
5 INCR_WRITE If 1, the write address increments with each transfer. If 0,
each write is directed to the same, initial address.
Generally this should be disabled for memory-to-peripheral
transfers.
RW 0x0
4 INCR_READ If 1, the read address increments with each transfer. If 0,
each read is directed to the same, initial address.
Generally this should be disabled for peripheral-to-memory
transfers.
RW 0x0
3:2 DATA_SIZE Set the size of each bus transfer (byte/halfword/word).
READ_ADDR and WRITE_ADDR advance by this amount
(1/2/4 bytes) with each transfer.
0x0 → SIZE_BYTE
0x1 → SIZE_HALFWORD
0x2 → SIZE_WORD
RW 0x0
RP2040 Datasheet
2.5. DMA 114