Hardware Abstraction Layer (HAL)
I2C (Inter-Integrated Circuit)

General Description


High level interface for interacting with the I2C resource.

The I2C protocol is a synchronous serial interface protocol. This driver supports both master and slave mode of operation. The communication frequency and address (for slave operation) can be configured.

Features

Quick Start

Initialize an I2C instance using the cyhal_i2c_init and provide sda (I2C data) and scl (I2C clock) pins.
By default, this initializes the resource as an I2C master.
Configure the behavior (master/slave) and the interface (bus frequency, slave address) using the cyhal_i2c_configure function.
See Snippet 1: I2C Initialization and Configuration for example initialization as master or slave.

Note
The clock parameter (const cyhal_clock_divider_t *clk) is optional and can be set to NULL to generate and use an available clock resource with a default frequency (CYHAL_I2C_MASTER_DEFAULT_FREQ).

Code Snippets

Snippet 1: I2C Initialization and Configuration

This snippet initializes an I2C resource as master or slave and assigns the sda and scl pins.

Initializing as I2C master

// Declare variables
cy_rslt_t rslt;
cyhal_i2c_t i2c_master_obj;
// Define frequency
uint32_t I2C_MASTER_FREQUENCY = 100000u;
// Define the I2C master configuration structure
cyhal_i2c_cfg_t i2c_master_config =
{
0, // address is not used for master mode
I2C_MASTER_FREQUENCY
};
// Initialize I2C master, set the SDA and SCL pins and assign a new clock
rslt = cyhal_i2c_init(&i2c_master_obj, CYBSP_I2C_SDA, CYBSP_I2C_SCL, NULL);
// Configure the I2C resource to be master
rslt = cyhal_i2c_configure(&i2c_master_obj, &i2c_master_config);

Initializing as I2C slave

// Declare variables
cy_rslt_t rslt;
cyhal_i2c_t i2c_slave_obj;
// Define address
uint16_t I2C_SLAVE_ADDRESS = 0x08u;
// Define frequency
uint32_t I2C_SLAVE_FREQUENCY = 100000u;
// Define the slave configuration structure
cyhal_i2c_cfg_t i2c_slave_config =
{ CYHAL_I2C_MODE_SLAVE, I2C_SLAVE_ADDRESS, I2C_SLAVE_FREQUENCY };
// Initialize I2C slave, set the SDA and SCL pins and assign a new clock
rslt = cyhal_i2c_init(&i2c_slave_obj, CYBSP_I2C_SDA, CYBSP_I2C_SCL, NULL);
// Configure the I2C resource to be slave
rslt = cyhal_i2c_configure(&i2c_slave_obj, &i2c_slave_config);

Snippet 2: Handling events

This snippet shows how to enable and handle I2C events using cyhal_i2c_enable_event and cyhal_i2c_register_callback.
The callback parameter of cyhal_i2c_register_callback is used to pass the callback handler that will be invoked when an event occurs.
The event parameter of cyhal_i2c_enable_event is used to pass the bitmasks of events ( cyhal_i2c_event_t) to be enabled.

void handle_i2c_events(void* callback_arg, cyhal_i2c_event_t event)
{
// To remove unused variable warning
(void)callback_arg;
// Check write complete event
if (0UL != (CYHAL_I2C_SLAVE_WR_CMPLT_EVENT & event))
{
// Perform the required functions
}
// Check read complete event
if (0UL != (CYHAL_I2C_SLAVE_RD_CMPLT_EVENT & event))
{
// Perform the required functions
}
// Check for errors
if (0UL == (CYHAL_I2C_SLAVE_ERR_EVENT & event))
{
// Perform the required function
}
}
cy_rslt_t snippet_cyhal_i2c_slave_callback_init()
{
// Declare variables
cy_rslt_t rslt;
cyhal_i2c_t i2c_slave_obj;
// Define the slave configuration structure
cyhal_i2c_cfg_t i2c_slave_config = { CYHAL_I2C_MODE_SLAVE, 0x08u, 100000u };
// Initialize I2C slave, set the SDA and SCL pins and assign a new clock
rslt = cyhal_i2c_init(&i2c_slave_obj, CYBSP_I2C_SDA, CYBSP_I2C_SCL, NULL);
// Configure the I2C resource to be slave
if (CY_RSLT_SUCCESS == rslt)
{
rslt = cyhal_i2c_configure(&i2c_slave_obj, &i2c_slave_config);
}
if (CY_RSLT_SUCCESS == rslt)
{
// Register I2C slave event callback
cyhal_i2c_register_callback(&i2c_slave_obj, (cyhal_i2c_event_callback_t)handle_i2c_events,
NULL);
// Enable I2C Events
3u, true);
}
return rslt;
}

Snippet 3: I2C Master Asynchronous Transfer

This snippet shows how to implement asynchronous transfers using cyhal_i2c_master_transfer_async.
cyhal_i2c_abort_async is used to stop the transfer, in this case when an error occurs.

// Declare variables
cyhal_i2c_t i2c_master_obj;
uint8_t tx_buff[3] = { 1, 2, 3 };
uint8_t rx_buff[3];
// Defining master callback handler
void master_event_handler(void* callback_arg, cyhal_i2c_event_t event)
{
// To remove unused variable warning
(void)callback_arg;
// Check write complete event
if (0UL != (CYHAL_I2C_MASTER_WR_CMPLT_EVENT & event))
{
// Perform the required functions
}
// Check read complete event
if (0UL != (CYHAL_I2C_MASTER_RD_CMPLT_EVENT & event))
{
// Perform the required functions
}
if (0UL != (CYHAL_I2C_MASTER_ERR_EVENT & event))
{
// In case of error abort transfer
cyhal_i2c_abort_async(&i2c_master_obj);
}
}
cy_rslt_t snippet_cyhal_async_transfer(void)
{
cy_rslt_t rslt;
// Define address
uint16_t I2C_SLAVE_ADDRESS = 0x08u;
// Define frequency
uint32_t I2C_MASTER_FREQUENCY = 100000u;
// Configure I2C Master
cyhal_i2c_cfg_t i2c_master_config = { CYHAL_I2C_MODE_MASTER, 0, I2C_MASTER_FREQUENCY };
rslt = cyhal_i2c_init(&i2c_master_obj, CYBSP_I2C_SDA, CYBSP_I2C_SCL, NULL);
if (CY_RSLT_SUCCESS == rslt)
{
rslt = cyhal_i2c_configure(&i2c_master_obj, &i2c_master_config);
}
if (CY_RSLT_SUCCESS == rslt)
{
cyhal_i2c_register_callback(&i2c_master_obj,
(cyhal_i2c_event_callback_t)master_event_handler,
NULL);
3u, true);
// Initiate master write and read transfer using tx_buff and rx_buff respectively.
rslt = cyhal_i2c_master_transfer_async(&i2c_master_obj, I2C_SLAVE_ADDRESS, tx_buff, 3,
rx_buff, 3);
}
return rslt;
}

More Information

Peripheral Driver Library (PDL)

Code examples (Github)

API Reference

 I2C HAL Results
 I2C specific return codes.
 

Data Structures

struct  cyhal_i2c_cfg_t
 Initial I2C configuration. More...
 

Macros

#define CYHAL_I2C_MODE_SLAVE   (true)
 Named define for Slave mode for use when initializing the cyhal_i2c_cfg_t structure. More...
 
#define CYHAL_I2C_MODE_MASTER   (false)
 Named define for Master mode for use when initializing the cyhal_i2c_cfg_t structure. More...
 

Typedefs

typedef void(* cyhal_i2c_event_callback_t) (void *callback_arg, cyhal_i2c_event_t event)
 Handler for I2C events.
 

Enumerations

enum  cyhal_i2c_event_t {
  CYHAL_I2C_EVENT_NONE = 0,
  CYHAL_I2C_SLAVE_READ_EVENT = 1 << 1,
  CYHAL_I2C_SLAVE_WRITE_EVENT = 1 << 2,
  CYHAL_I2C_SLAVE_RD_IN_FIFO_EVENT = 1 << 3,
  CYHAL_I2C_SLAVE_RD_BUF_EMPTY_EVENT = 1 << 4,
  CYHAL_I2C_SLAVE_RD_CMPLT_EVENT = 1 << 5,
  CYHAL_I2C_SLAVE_WR_CMPLT_EVENT = 1 << 6,
  CYHAL_I2C_SLAVE_ERR_EVENT = 1 << 7,
  CYHAL_I2C_MASTER_WR_IN_FIFO_EVENT = 1 << 17,
  CYHAL_I2C_MASTER_WR_CMPLT_EVENT = 1 << 18,
  CYHAL_I2C_MASTER_RD_CMPLT_EVENT = 1 << 19,
  CYHAL_I2C_MASTER_ERR_EVENT = 1 << 20
}
 Enum to enable/disable/report interrupt cause flags. More...
 
enum  cyhal_i2c_fifo_type_t {
  CYHAL_I2C_FIFO_RX,
  CYHAL_I2C_FIFO_TX
}
 I2C FIFO type. More...
 
enum  cyhal_i2c_output_t {
  CYHAL_I2C_OUTPUT_TRIGGER_RX_FIFO_LEVEL_REACHED,
  CYHAL_I2C_OUTPUT_TRIGGER_TX_FIFO_LEVEL_REACHED
}
 Enum of possible output signals from an I2C. More...
 

Functions

cy_rslt_t cyhal_i2c_init (cyhal_i2c_t *obj, cyhal_gpio_t sda, cyhal_gpio_t scl, const cyhal_clock_t *clk)
 Initialize the I2C peripheral, and configures its specified pins. More...
 
void cyhal_i2c_free (cyhal_i2c_t *obj)
 Deinitialize the i2c object. More...
 
cy_rslt_t cyhal_i2c_configure (cyhal_i2c_t *obj, const cyhal_i2c_cfg_t *cfg)
 Configure the I2C block. More...
 
cy_rslt_t cyhal_i2c_master_write (cyhal_i2c_t *obj, uint16_t dev_addr, const uint8_t *data, uint16_t size, uint32_t timeout, bool send_stop)
 I2C master blocking write. More...
 
cy_rslt_t cyhal_i2c_master_read (cyhal_i2c_t *obj, uint16_t dev_addr, uint8_t *data, uint16_t size, uint32_t timeout, bool send_stop)
 I2C master blocking read. More...
 
cy_rslt_t cyhal_i2c_slave_config_write_buffer (cyhal_i2c_t *obj, const uint8_t *data, uint16_t size)
 The function configures the write buffer on an I2C Slave. More...
 
cy_rslt_t cyhal_i2c_slave_config_read_buffer (cyhal_i2c_t *obj, uint8_t *data, uint16_t size)
 The function configures the read buffer on an I2C Slave. More...
 
cy_rslt_t cyhal_i2c_master_mem_write (cyhal_i2c_t *obj, uint16_t address, uint16_t mem_addr, uint16_t mem_addr_size, const uint8_t *data, uint16_t size, uint32_t timeout)
 Perform an I2C write using a block of data stored at the specified memory location. More...
 
cy_rslt_t cyhal_i2c_master_mem_read (cyhal_i2c_t *obj, uint16_t address, uint16_t mem_addr, uint16_t mem_addr_size, uint8_t *data, uint16_t size, uint32_t timeout)
 Perform an I2C read using a block of data stored at the specified memory location. More...
 
cy_rslt_t cyhal_i2c_master_transfer_async (cyhal_i2c_t *obj, uint16_t address, const void *tx, size_t tx_size, void *rx, size_t rx_size)
 Initiate a non-blocking I2C master asynchronous transfer. More...
 
cy_rslt_t cyhal_i2c_abort_async (cyhal_i2c_t *obj)
 Abort asynchronous transfer. More...
 
void cyhal_i2c_register_callback (cyhal_i2c_t *obj, cyhal_i2c_event_callback_t callback, void *callback_arg)
 Register an I2C event callback handler
More...
 
void cyhal_i2c_enable_event (cyhal_i2c_t *obj, cyhal_i2c_event_t event, uint8_t intr_priority, bool enable)
 Configure and Enable or Disable I2C Interrupt. More...
 
cy_rslt_t cyhal_i2c_set_fifo_level (cyhal_i2c_t *obj, cyhal_i2c_fifo_type_t type, uint16_t level)
 Sets a threshold level for a FIFO that will generate an interrupt and a trigger output. More...
 
cy_rslt_t cyhal_i2c_enable_output (cyhal_i2c_t *obj, cyhal_i2c_output_t output, cyhal_source_t *source)
 Enables the specified output signal from an I2C. More...
 
cy_rslt_t cyhal_i2c_disable_output (cyhal_i2c_t *obj, cyhal_i2c_output_t output)
 Disables the specified output signal from an I2C. More...
 
cy_rslt_t cyhal_i2c_init_cfg (cyhal_i2c_t *obj, const cyhal_i2c_configurator_t *cfg)
 Initialize the I2C peripheral using a configurator generated configuration struct. More...
 

Data Structure Documentation

◆ cyhal_i2c_cfg_t

struct cyhal_i2c_cfg_t
Data Fields
bool is_slave Operates as a slave when set to (true), else as a master (false)
uint16_t address Address of this slave resource (7-bit), should be set to 0 for master.
uint32_t frequencyhal_hz Frequency that the I2C bus runs at (I2C data rate in bits per second)
Refer to the device datasheet for the supported I2C data rates.

Macro Definition Documentation

◆ CYHAL_I2C_MODE_SLAVE

#define CYHAL_I2C_MODE_SLAVE   (true)

Named define for Slave mode for use when initializing the cyhal_i2c_cfg_t structure.

◆ CYHAL_I2C_MODE_MASTER

#define CYHAL_I2C_MODE_MASTER   (false)

Named define for Master mode for use when initializing the cyhal_i2c_cfg_t structure.

Enumeration Type Documentation

◆ cyhal_i2c_event_t

Enum to enable/disable/report interrupt cause flags.

Enumerator
CYHAL_I2C_EVENT_NONE 

No event.

CYHAL_I2C_SLAVE_READ_EVENT 

Indicates that the slave was addressed and the master wants to read data.

CYHAL_I2C_SLAVE_WRITE_EVENT 

Indicates that the slave was addressed and the master wants to write data.

CYHAL_I2C_SLAVE_RD_IN_FIFO_EVENT 

All slave data from the configured Read buffer has been loaded into the TX FIFO.

CYHAL_I2C_SLAVE_RD_BUF_EMPTY_EVENT 

The master has read all data out of the configured Read buffer.

CYHAL_I2C_SLAVE_RD_CMPLT_EVENT 

Indicates the master completed reading from the slave (set by the master NAK or Stop)

CYHAL_I2C_SLAVE_WR_CMPLT_EVENT 

Indicates the master completed writing to the slave (set by the master Stop or Restart)

CYHAL_I2C_SLAVE_ERR_EVENT 

Indicates the I2C hardware detected an error.

CYHAL_I2C_MASTER_WR_IN_FIFO_EVENT 

All data specified by cyhal_i2c_master_transfer_async has been loaded into the TX FIFO.

CYHAL_I2C_MASTER_WR_CMPLT_EVENT 

The master write started by cyhal_i2c_master_transfer_async is complete.

CYHAL_I2C_MASTER_RD_CMPLT_EVENT 

The master read started by cyhal_i2c_master_transfer_async is complete.

CYHAL_I2C_MASTER_ERR_EVENT 

Indicates the I2C hardware has detected an error.

◆ cyhal_i2c_fifo_type_t

I2C FIFO type.

Enumerator
CYHAL_I2C_FIFO_RX 

Set RX FIFO level.

CYHAL_I2C_FIFO_TX 

Set TX FIFO level.

◆ cyhal_i2c_output_t

Enum of possible output signals from an I2C.

Enumerator
CYHAL_I2C_OUTPUT_TRIGGER_RX_FIFO_LEVEL_REACHED 

Output the RX FIFO signal which is triggered when the receive FIFO has more entries than the configured level.

CYHAL_I2C_OUTPUT_TRIGGER_TX_FIFO_LEVEL_REACHED 

Output the TX FIFO signal which is triggered when the transmit FIFO has less entries than the configured level.

Function Documentation

◆ cyhal_i2c_init()

cy_rslt_t cyhal_i2c_init ( cyhal_i2c_t obj,
cyhal_gpio_t  sda,
cyhal_gpio_t  scl,
const cyhal_clock_t clk 
)

Initialize the I2C peripheral, and configures its specified pins.

By default it is configured as a Master with a bus frequency = CYHAL_I2C_MASTER_DEFAULT_FREQ. Use cyhal_i2c_configure() to change the default behavior.
NOTE: Master/Slave specific functions only work when the block is configured to be in that mode.
See Snippet 1: I2C Initialization and Configuration

Parameters
[out]objPointer to an I2C object. The caller must allocate the memory for this object but the init function will initialize its contents.
[in]sdaThe sda pin
[in]sclThe scl pin
[in]clkThe clock to use can be shared, if not provided a new clock will be allocated
Returns
The status of the init request

◆ cyhal_i2c_free()

void cyhal_i2c_free ( cyhal_i2c_t obj)

Deinitialize the i2c object.

Parameters
[in,out]objThe i2c object

◆ cyhal_i2c_configure()

cy_rslt_t cyhal_i2c_configure ( cyhal_i2c_t obj,
const cyhal_i2c_cfg_t cfg 
)

Configure the I2C block.

NOTE: Master/Slave specific functions only work when the block is configured to be in that mode.
See Snippet 1: I2C Initialization and Configuration

Parameters
[in]objThe I2C object
[in]cfgConfiguration settings to apply
Returns
The status of the configure request

◆ cyhal_i2c_master_write()

cy_rslt_t cyhal_i2c_master_write ( cyhal_i2c_t obj,
uint16_t  dev_addr,
const uint8_t *  data,
uint16_t  size,
uint32_t  timeout,
bool  send_stop 
)

I2C master blocking write.

This will write size bytes of data from the buffer pointed to by data. It will not return until either all of the data has been written, or the timeout has elapsed.

Parameters
[in]objThe I2C object
[in]dev_addrdevice address (7-bit)
[in]dataI2C send data
[in]sizeI2C send data size
[in]timeouttimeout in millisecond, set this value to 0 if you want to wait forever
[in]send_stopwhether the stop should be send, used to support repeat start conditions
Returns
The status of the master_write request

◆ cyhal_i2c_master_read()

cy_rslt_t cyhal_i2c_master_read ( cyhal_i2c_t obj,
uint16_t  dev_addr,
uint8_t *  data,
uint16_t  size,
uint32_t  timeout,
bool  send_stop 
)

I2C master blocking read.

This will read size bytes of data into the buffer pointed to by data. It will not return until either all of the data has been read, or the timeout has elapsed.

Parameters
[in]objThe I2C object
[in]dev_addrdevice address (7-bit)
[out]dataI2C receive data
[in]sizeI2C receive data size
[in]timeouttimeout in millisecond, set this value to 0 if you want to wait forever
[in]send_stopwhether the stop should be send, used to support repeat start conditions
Returns
The status of the master_read request

◆ cyhal_i2c_slave_config_write_buffer()

cy_rslt_t cyhal_i2c_slave_config_write_buffer ( cyhal_i2c_t obj,
const uint8_t *  data,
uint16_t  size 
)

The function configures the write buffer on an I2C Slave.

This is the buffer to which the master writes data to. The user needs to setup a new buffer every time (i.e. call cyhal_i2c_slave_config_write_buffer and cyhal_i2c_slave_config_read_buffer every time the buffer has been used up)
See related code example: PSoC™ 6 MCU: I2C Master

Parameters
[in]objThe I2C object
[in]dataI2C slave send data
[in]sizeI2C slave send data size
Returns
The status of the slave_config_write_buffer request

◆ cyhal_i2c_slave_config_read_buffer()

cy_rslt_t cyhal_i2c_slave_config_read_buffer ( cyhal_i2c_t obj,
uint8_t *  data,
uint16_t  size 
)

The function configures the read buffer on an I2C Slave.

This is the buffer from which the master reads data from. The user needs to setup a new buffer every time (i.e. call cyhal_i2c_slave_config_write_buffer and cyhal_i2c_slave_config_read_buffer every time the buffer has been used up)
See related code example: PSoC™ 6 MCU: I2C Master

Parameters
[in]objThe I2C object
[out]dataI2C slave receive data
[in]sizeI2C slave receive data size
Returns
The status of the slave_config_read_buffer request

◆ cyhal_i2c_master_mem_write()

cy_rslt_t cyhal_i2c_master_mem_write ( cyhal_i2c_t obj,
uint16_t  address,
uint16_t  mem_addr,
uint16_t  mem_addr_size,
const uint8_t *  data,
uint16_t  size,
uint32_t  timeout 
)

Perform an I2C write using a block of data stored at the specified memory location.

Parameters
[in]objThe I2C object
[in]addressdevice address (7-bit)
[in]mem_addrmem address to store the written data
[in]mem_addr_sizenumber of bytes in the mem address
[in]dataI2C master send data
[in]sizeI2C master send data size
[in]timeouttimeout in millisecond, set this value to 0 if you want to wait forever
Returns
The status of the write request

◆ cyhal_i2c_master_mem_read()

cy_rslt_t cyhal_i2c_master_mem_read ( cyhal_i2c_t obj,
uint16_t  address,
uint16_t  mem_addr,
uint16_t  mem_addr_size,
uint8_t *  data,
uint16_t  size,
uint32_t  timeout 
)

Perform an I2C read using a block of data stored at the specified memory location.

Parameters
[in]objThe I2C object
[in]addressdevice address (7-bit)
[in]mem_addrmem address to store the written data
[in]mem_addr_sizenumber of bytes in the mem address
[out]dataI2C master send data
[in]sizeI2C master send data size
[in]timeouttimeout in millisecond, set this value to 0 if you want to wait forever
Returns
The status of the read request

◆ cyhal_i2c_master_transfer_async()

cy_rslt_t cyhal_i2c_master_transfer_async ( cyhal_i2c_t obj,
uint16_t  address,
const void *  tx,
size_t  tx_size,
void *  rx,
size_t  rx_size 
)

Initiate a non-blocking I2C master asynchronous transfer.

Supports simultaneous write and read operation.

This will transfer rx_size bytes into the buffer pointed to by rx, while simultaneously transfering tx_size bytes of data from the buffer pointed to by tx, both in the background. When the requested quantity of data has been received, the CYHAL_I2C_MASTER_RD_CMPLT_EVENT will be raised. When the requested quantity of data has been transmitted, the CYHAL_I2C_MASTER_WR_CMPLT_EVENT will be raised. See cyhal_i2c_register_callback and cyhal_i2c_enable_event. If either of tx_size or rx_size is '0', the respective write or read operation is not performed. See Snippet 3: I2C Master Asynchronous Transfer

Parameters
[in]objThe I2C object
[in]addressdevice address (7-bit)
[in]txThe transmit buffer
[in]tx_sizeThe number of bytes to transmit. Use '0' if write operation is not required.
[out]rxThe receive buffer
[in]rx_sizeThe number of bytes to receive. Use '0' if read operation is not required.
Returns
The status of the master_transfer_async request

◆ cyhal_i2c_abort_async()

cy_rslt_t cyhal_i2c_abort_async ( cyhal_i2c_t obj)

Abort asynchronous transfer.


This function aborts the ongoing transfer by generating a stop condition.
See Snippet 3: I2C Master Asynchronous Transfer

Parameters
[in]objThe I2C object
Returns
The status of the abort_async request

◆ cyhal_i2c_register_callback()

void cyhal_i2c_register_callback ( cyhal_i2c_t obj,
cyhal_i2c_event_callback_t  callback,
void *  callback_arg 
)

Register an I2C event callback handler

This function will be called when one of the events enabled by cyhal_i2c_enable_event occurs.

See Snippet 2: Handling events

Parameters
[in]objThe I2C object
[in]callbackThe callback handler which will be invoked when an event triggers
[in]callback_argGeneric argument that will be provided to the callback when called

◆ cyhal_i2c_enable_event()

void cyhal_i2c_enable_event ( cyhal_i2c_t obj,
cyhal_i2c_event_t  event,
uint8_t  intr_priority,
bool  enable 
)

Configure and Enable or Disable I2C Interrupt.

When an enabled event occurs, the function specified by cyhal_i2c_register_callback will be called.

See Snippet 2: Handling events

Parameters
[in]objThe I2C object
[in]eventThe I2C event type
[in]intr_priorityThe priority for NVIC interrupt events
[in]enableTrue to turn on interrupts, False to turn off

◆ cyhal_i2c_set_fifo_level()

cy_rslt_t cyhal_i2c_set_fifo_level ( cyhal_i2c_t obj,
cyhal_i2c_fifo_type_t  type,
uint16_t  level 
)

Sets a threshold level for a FIFO that will generate an interrupt and a trigger output.

The RX FIFO interrupt and trigger will be activated when the receive FIFO has more entries than the threshold. The TX FIFO interrupt and trigger will be activated when the transmit FIFO has less entries than the threshold.

Parameters
[in]objThe I2C object
[in]typeFIFO type to set level for
[in]levelLevel threshold to set
Returns
The status of the level set

◆ cyhal_i2c_enable_output()

cy_rslt_t cyhal_i2c_enable_output ( cyhal_i2c_t obj,
cyhal_i2c_output_t  output,
cyhal_source_t source 
)

Enables the specified output signal from an I2C.

Parameters
[in]objThe I2C object
[in]outputWhich output signal to enable
[out]sourcePointer to user-allocated source signal object which will be initialized by enable_output. source should be passed to (dis)connect_digital functions to (dis)connect the associated endpoints.
Returns
The status of the output enable

◆ cyhal_i2c_disable_output()

cy_rslt_t cyhal_i2c_disable_output ( cyhal_i2c_t obj,
cyhal_i2c_output_t  output 
)

Disables the specified output signal from an I2C.

Parameters
[in]objThe I2C object
[in]outputWhich output signal to disable
Returns
The status of the output disable

◆ cyhal_i2c_init_cfg()

cy_rslt_t cyhal_i2c_init_cfg ( cyhal_i2c_t obj,
const cyhal_i2c_configurator_t cfg 
)

Initialize the I2C peripheral using a configurator generated configuration struct.

Parameters
[in]objThe I2C peripheral to configure
[in]cfgConfiguration structure generated by a configurator.
Returns
The status of the operation