ESPHome  2024.11.0
Data Structures | Typedefs | Enumerations | Variables
esphome::spi Namespace Reference

Data Structures

class  NullPin
 A pin to replace those that don't exist. More...
 
class  SPIBus
 
class  SPIClient
 Base class for SPIDevice, un-templated. More...
 
class  SPIComponent
 
class  SPIDelegate
 
class  SPIDelegateBitBash
 An implementation of SPI that relies only on software toggling of pins. More...
 
class  SPIDevice
 The SPIDevice is what components using the SPI will create. More...
 
class  Utility
 

Typedefs

using QuadSPIComponent = SPIComponent
 

Enumerations

enum  SPIBitOrder { BIT_ORDER_LSB_FIRST, BIT_ORDER_MSB_FIRST }
 The bit-order for SPI devices. This defines how the data read from and written to the device is interpreted. More...
 
enum  SPIClockPolarity { CLOCK_POLARITY_LOW = false, CLOCK_POLARITY_HIGH = true }
 The SPI clock signal polarity,. More...
 
enum  SPIClockPhase { CLOCK_PHASE_LEADING, CLOCK_PHASE_TRAILING }
 The SPI clock signal phase. More...
 
enum  SPIMode { MODE0 = 0, MODE1 = 1, MODE2 = 2, MODE3 = 3 }
 Modes mapping to clock phase and polarity. More...
 
enum  SPIDataRate : uint32_t {
  DATA_RATE_1KHZ = 1000, DATA_RATE_75KHZ = 75000, DATA_RATE_200KHZ = 200000, DATA_RATE_1MHZ = 1000000,
  DATA_RATE_2MHZ = 2000000, DATA_RATE_4MHZ = 4000000, DATA_RATE_5MHZ = 5000000, DATA_RATE_8MHZ = 8000000,
  DATA_RATE_10MHZ = 10000000, DATA_RATE_20MHZ = 20000000, DATA_RATE_40MHZ = 40000000, DATA_RATE_80MHZ = 80000000
}
 The SPI clock signal frequency, which determines the transfer bit rate/second. More...
 

Variables

const char *const TAG = "spi"
 

Typedef Documentation

◆ QuadSPIComponent

Definition at line 352 of file spi.h.

Enumeration Type Documentation

◆ SPIBitOrder

The bit-order for SPI devices. This defines how the data read from and written to the device is interpreted.

Enumerator
BIT_ORDER_LSB_FIRST 

The least significant bit is transmitted/received first.

BIT_ORDER_MSB_FIRST 

The most significant bit is transmitted/received first.

Definition at line 38 of file spi.h.

◆ SPIClockPhase

The SPI clock signal phase.

This defines when the data signals are sampled. Most SPI devices use the LEADING clock phase.

Enumerator
CLOCK_PHASE_LEADING 

The data is sampled on a leading clock edge. (CPHA=0)

CLOCK_PHASE_TRAILING 

The data is sampled on a trailing clock edge. (CPHA=1)

Definition at line 64 of file spi.h.

◆ SPIClockPolarity

The SPI clock signal polarity,.

This defines how the clock signal is used. Flipping this effectively inverts the clock signal.

Enumerator
CLOCK_POLARITY_LOW 

The clock signal idles on LOW.

(CPOL=0)

A rising edge means a leading edge for the clock.

CLOCK_POLARITY_HIGH 

The clock signal idles on HIGH.

(CPOL=1)

A falling edge means a trailing edge for the clock.

Definition at line 48 of file spi.h.

◆ SPIDataRate

enum esphome::spi::SPIDataRate : uint32_t

The SPI clock signal frequency, which determines the transfer bit rate/second.

Implementations can use the pre-defined constants here, or use an integer in the template definition to manually use a specific data rate.

Enumerator
DATA_RATE_1KHZ 
DATA_RATE_75KHZ 
DATA_RATE_200KHZ 
DATA_RATE_1MHZ 
DATA_RATE_2MHZ 
DATA_RATE_4MHZ 
DATA_RATE_5MHZ 
DATA_RATE_8MHZ 
DATA_RATE_10MHZ 
DATA_RATE_20MHZ 
DATA_RATE_40MHZ 
DATA_RATE_80MHZ 

Definition at line 87 of file spi.h.

◆ SPIMode

Modes mapping to clock phase and polarity.

Enumerator
MODE0 
MODE1 
MODE2 
MODE3 

Definition at line 76 of file spi.h.

Variable Documentation

◆ TAG

static const char *const esphome::spi::TAG = "spi"

Definition at line 8 of file spi.cpp.