Touch Sensor
Introduction
A touch sensor system is built on a substrate which carries electrodes and relevant connections under a protective flat surface. When the surface is touched, the capacitance variation is used to evaluate if the touch was valid.
The sensing pads can be arranged in different combinations (e.g., matrix, slider), so that a larger area or more points can be detected. The touch pad sensing process is under the control of a hardware-implemented finite-state machine (FSM) which is initiated by software or a dedicated hardware timer.
For design, operation, and control registers of a touch sensor, see ESP32-S3 Technical Reference Manual > On-Chip Sensors and Analog Signal Processing [PDF].
In-depth design details of touch sensors and firmware development guidelines for ESP32-S3 are available in Touch Sensor Application Note.
Functionality Overview
Description of API is broken down into groups of functions to provide a quick overview of the following features:
Initialization of touch pad driver
Configuration of touch pad GPIO pins
Taking measurements
Adjusting parameters of measurements
Filtering measurements
Touch detection methods
Setting up interrupts to report touch detection
Waking up from Sleep mode on interrupt
For detailed description of a particular function, please go to Section API Reference. Practical implementation of this API is covered in Section Application Examples.
Initialization
Before using a touch pad, you need to initialize the touch pad driver by calling the function touch_pad_init()
. This function sets several .._DEFAULT
driver parameters listed in API Reference under Macros. It also removes the information about which pads have been touched before, if any, and disables interrupts.
If the driver is not required anymore, deinitialize it by calling touch_pad_deinit()
.
Configuration
Enabling the touch sensor functionality for a particular GPIO is done with touch_pad_config()
. The following 14 capacitive touch pads are supported for ESP32-S3.
Touch Pad |
GPIO Pin |
---|---|
T0 |
Internal channel, not connect to a GPIO |
T1 |
GPIO1 |
T2 |
GPIO2 |
T3 |
GPIO3 |
T4 |
GPIO4 |
T5 |
GPIO5 |
T6 |
GPIO6 |
T7 |
GPIO7 |
T8 |
GPIO8 |
T9 |
GPIO9 |
T10 |
GPIO10 |
T11 |
GPIO11 |
T12 |
GPIO12 |
T13 |
GPIO13 |
T14 |
GPIO14 |
Use the function touch_pad_set_fsm_mode()
to select if touch pad measurement (operated by FSM) should be started automatically by a hardware timer, or by software. If software mode is selected, use touch_pad_sw_start()
to start the FSM.
Touch State Measurements
The following function come in handy to read raw measurements from the sensor:
It can also be used, for example, to evaluate a particular touch pad design by checking the range of sensor readings when a pad is touched or released. This information can be then used to establish a touch threshold.
For the demonstration of how to read the touch pad data, check the application example peripherals/touch_sensor/touch_sensor_v2/touch_pad_read.
Method of Measurements
The touch sensor records the period of time (i.e., the number of clock cycles) over a fixed charge/discharge cycles (specified by touch_pad_set_charge_discharge_times()
). The count result is the raw data that read from touch_pad_read_raw_data()
. After finishing one measurement, the touch sensor sleeps until the next measurement start, this interval between two measurements can be set by touch_pad_set_measurement_interval()
.
Note
If the specified charge and discharge cycles for measurement is too samll, the result may be inaccurate, but increasing charge and discharge cycles will increase the power consumption as well. Additionally, the response of the touch sensor will slow down if the total time of the inverval and measurement is too long.
Optimization of Measurements
A touch sensor has several configurable parameters to match the characteristics of a particular touch pad design. For instance, to sense smaller capacity changes, it is possible to narrow down the reference voltage range within which the touch pads are charged/discharged. The high and low reference voltages are set using the function touch_pad_set_voltage()
.
Besides the ability to discern smaller capacity changes, a positive side effect is reduction of power consumption for low power applications. A likely negative effect is an increase in measurement noise. If the dynamic range of obtained readings is still satisfactory, then further reduction of power consumption might be done by reducing the measurement time with touch_pad_set_charge_discharge_times()
.
The following list summarizes available measurement parameters and corresponding 'set' functions:
Touch pad charge / discharge parameters:
voltage range:
touch_pad_set_voltage()
speed (slope):
touch_pad_set_cnt_mode()
Charge and discharge times of one measurement:
touch_pad_set_charge_discharge_times()
Relationship between the voltage range (high/low reference voltages), speed (slope), and measurement time is shown in the figure below.
The last chart Output represents the touch sensor reading, i.e., the time taken to accumulate the fixed number of cycles.
All functions are provided in pairs to set a specific parameter and to get the current parameter's value, e.g., touch_pad_set_voltage()
and touch_pad_get_voltage()
.
Filtering of Measurements
If measurements are noisy, you can filter them with provided API functions. The ESP32-S3's touch functionality provide two sets of APIs for doing this.
There is an internal touch channel that is not connected to any external GPIO. The measurements from this denoise pad can be used to filters out interference introduced on all channels, such as noise introduced by the power supply and external EMI.
The denoise paramaters are set with the function touch_pad_denoise_set_config()
and started by with touch_pad_denoise_enable()
There is also a configurable hardware implemented IIR-filter (infinite impulse response). This IIR-filter is configured with the function touch_pad_filter_set_config()
and enabled by calling touch_pad_filter_enable()
Touch Detection
Touch detection is implemented in ESP32's hardware based on the user-configured threshold and raw measurements executed by FSM. Use the functions touch_pad_get_status()
to check which pads have been touched and touch_pad_clear_status()
to clear the touch status information.
Hardware touch detection can also be wired to interrupts. This is described in the next section.
If measurements are noisy and capacity changes are small, hardware touch detection might be unreliable. To resolve this issue, instead of using hardware detection/provided interrupts, implement measurement filtering and perform touch detection in your own application. For sample implementation of both methods of touch detection, see peripherals/touch_sensor/touch_sensor_v2/touch_pad_interrupt.
Touch Triggered Interrupts
Before enabling an interrupt on a touch detection, you should establish a touch detection threshold. Use the functions described in Touch State Measurements to read and display sensor measurements when a pad is touched and released. Apply a filter if measurements are noisy and relative capacity changes are small. Depending on your application and environment conditions, test the influence of temperature and power supply voltage changes on measured values.
Once a detection threshold is established, it can be set during initialization with touch_pad_config()
or at the runtime with touch_pad_set_thresh()
.
Finally, configure and manage interrupt calls using the following functions:
When interrupts are operational, you can obtain the information from which particular pad an interrupt came by invoking touch_pad_get_status()
and clear the pad status with touch_pad_clear_status()
.
Application Examples
Touch sensor read example: peripherals/touch_sensor/touch_sensor_v2/touch_pad_read.
Touch sensor interrupt example: peripherals/touch_sensor/touch_sensor_v2/touch_pad_interrupt.
API Reference
Header File
components/driver/touch_sensor/esp32s3/include/driver/touch_sensor.h
This header file can be included with:
#include "driver/touch_sensor.h"
This header file is a part of the API provided by the
driver
component. To declare that your component depends ondriver
, add the following to your CMakeLists.txt:REQUIRES driver
or
PRIV_REQUIRES driver
Functions
-
esp_err_t touch_pad_fsm_start(void)
Set touch sensor FSM start.
Note
Start FSM after the touch sensor FSM mode is set.
Note
Call this function will reset benchmark of all touch channels.
- Returns
ESP_OK on success
-
esp_err_t touch_pad_sw_start(void)
Trigger a touch sensor measurement, only support in SW mode of FSM.
- Returns
ESP_OK on success
-
esp_err_t touch_pad_set_charge_discharge_times(uint16_t charge_discharge_times)
Set charge and discharge times of each measurement.
Note
This function will specify the charge and discharge times in each measurement period The clock is sourced from SOC_MOD_CLK_RTC_FAST, and its default frequency is SOC_CLK_RC_FAST_FREQ_APPROX The touch sensor will record the total clock cycles of all the charge and discharge cycles as the final result (raw value)
Note
If the charge and discharge times is too small, it may lead to inaccurate results.
- Parameters
charge_discharge_times -- Charge and discharge times, range: 0 ~ 0xffff. No exact typical value can be recommended because the capacity is influenced by the hardware design and how finger touches, but suggest adjusting this value to make the measurement time around 1 ms.
- Returns
ESP_OK Set charge and discharge times success
-
esp_err_t touch_pad_get_charge_discharge_times(uint16_t *charge_discharge_times)
Get charge and discharge times of each measurement.
- Parameters
charge_discharge_times -- Charge and discharge times
- Returns
ESP_OK Get charge_discharge_times success
ESP_ERR_INVALID_ARG The input parameter is NULL
-
esp_err_t touch_pad_set_measurement_interval(uint16_t interval_cycle)
Set the interval between two measurements.
Note
The touch sensor will sleep between two mesurements This function is to set the interval cycle And the interval is clocked from SOC_MOD_CLK_RTC_SLOW, its default frequency is SOC_CLK_RC_SLOW_FREQ_APPROX
- Parameters
interval_cycle -- The interval between two measurements sleep_time = interval_cycle / SOC_CLK_RC_SLOW_FREQ_APPROX. The approximate frequency value of RTC_SLOW_CLK can be obtained using rtc_clk_slow_freq_get_hz function.
- Returns
ESP_OK Set interval cycle success
-
esp_err_t touch_pad_get_measurement_interval(uint16_t *interval_cycle)
Get the interval between two measurements.
- Parameters
interval_cycle -- The interval between two measurements
- Returns
ESP_OK Get interval cycle success
ESP_ERR_INVALID_ARG The input parameter is NULL
-
esp_err_t touch_pad_set_meas_time(uint16_t sleep_cycle, uint16_t meas_times)
Set touch sensor times of charge and discharge and sleep time. Excessive total time will slow down the touch response. Too small measurement time will not be sampled enough, resulting in inaccurate measurements.
Note
The touch sensor will measure time of a fixed number of charge/discharge cycles (specified as the second parameter). That means the time (raw value) will increase as the capacity of the touch pad is increasing. The time (raw value) here is the number of clock cycles which is sourced from SOC_MOD_CLK_RTC_FAST and at (SOC_CLK_RC_FAST_FREQ_APPROX) Hz as default
Note
The greater the duty cycle of the measurement time, the more system power is consumed.
- Parameters
sleep_cycle -- The touch sensor will sleep after each measurement. sleep_cycle decide the interval between each measurement. t_sleep = sleep_cycle / SOC_CLK_RC_SLOW_FREQ_APPROX. The approximate frequency value of RTC_SLOW_CLK can be obtained using rtc_clk_slow_freq_get_hz function.
meas_times -- The times of charge and discharge in each measurement of touch channels. Range: 0 ~ 0xffff. Recommended typical value: Modify this value to make the measurement time around 1 ms.
- Returns
ESP_OK on success
-
esp_err_t touch_pad_get_meas_time(uint16_t *sleep_cycle, uint16_t *meas_times)
Get touch sensor times of charge and discharge and sleep time.
- Parameters
sleep_cycle -- Pointer to accept sleep cycle number
meas_times -- Pointer to accept measurement times count.
- Returns
ESP_OK on success
-
esp_err_t touch_pad_set_idle_channel_connect(touch_pad_conn_type_t type)
Set the connection type of touch channels in idle status. When a channel is in measurement mode, other initialized channels are in idle mode. The touch channel is generally adjacent to the trace, so the connection state of the idle channel affects the stability and sensitivity of the test channel. The
CONN_HIGHZ
(high resistance) setting increases the sensitivity of touch channels. TheCONN_GND
(grounding) setting increases the stability of touch channels.- Parameters
type -- Select idle channel connect to high resistance state or ground.
- Returns
ESP_OK on success
-
esp_err_t touch_pad_get_idle_channel_connect(touch_pad_conn_type_t *type)
Get the connection type of touch channels in idle status. When a channel is in measurement mode, other initialized channels are in idle mode. The touch channel is generally adjacent to the trace, so the connection state of the idle channel affects the stability and sensitivity of the test channel. The
CONN_HIGHZ
(high resistance) setting increases the sensitivity of touch channels. TheCONN_GND
(grounding) setting increases the stability of touch channels.- Parameters
type -- Pointer to connection type.
- Returns
ESP_OK on success
-
esp_err_t touch_pad_set_thresh(touch_pad_t touch_num, uint32_t threshold)
Set the trigger threshold of touch sensor. The threshold determines the sensitivity of the touch sensor. The threshold is the original value of the trigger state minus the benchmark value.
Note
If set "TOUCH_PAD_THRESHOLD_MAX", the touch is never be triggered.
- Parameters
touch_num -- touch pad index
threshold -- threshold of touch sensor. Should be less than the max change value of touch.
- Returns
ESP_OK on success
-
esp_err_t touch_pad_get_thresh(touch_pad_t touch_num, uint32_t *threshold)
Get touch sensor trigger threshold.
- Parameters
touch_num -- touch pad index
threshold -- pointer to accept threshold
- Returns
ESP_OK on success
ESP_ERR_INVALID_ARG if argument is wrong
-
esp_err_t touch_pad_set_channel_mask(uint16_t enable_mask)
Register touch channel into touch sensor scan group. The working mode of the touch sensor is cyclically scanned. This function will set the scan bits according to the given bitmask.
Note
If set this mask, the FSM timer should be stop firsty.
Note
The touch sensor that in scan map, should be deinit GPIO function firstly by
touch_pad_io_init
.- Parameters
enable_mask -- bitmask of touch sensor scan group. e.g. TOUCH_PAD_NUM14 -> BIT(14)
- Returns
ESP_OK on success
-
esp_err_t touch_pad_get_channel_mask(uint16_t *enable_mask)
Get the touch sensor scan group bit mask.
- Parameters
enable_mask -- Pointer to bitmask of touch sensor scan group. e.g. TOUCH_PAD_NUM14 -> BIT(14)
- Returns
ESP_OK on success
-
esp_err_t touch_pad_clear_channel_mask(uint16_t enable_mask)
Clear touch channel from touch sensor scan group. The working mode of the touch sensor is cyclically scanned. This function will clear the scan bits according to the given bitmask.
Note
If clear all mask, the FSM timer should be stop firsty.
- Parameters
enable_mask -- bitmask of touch sensor scan group. e.g. TOUCH_PAD_NUM14 -> BIT(14)
- Returns
ESP_OK on success
-
esp_err_t touch_pad_config(touch_pad_t touch_num)
Configure parameter for each touch channel.
Note
Touch num 0 is denoise channel, please use
touch_pad_denoise_enable
to set denoise function- Parameters
touch_num -- touch pad index
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG if argument wrong
ESP_FAIL if touch pad not initialized
-
esp_err_t touch_pad_reset(void)
Reset the FSM of touch module.
Note
Call this function after
touch_pad_fsm_stop
.- Returns
ESP_OK Success
-
touch_pad_t touch_pad_get_current_meas_channel(void)
Get the current measure channel.
Note
Should be called when touch sensor measurement is in cyclic scan mode.
- Returns
touch channel number
-
uint32_t touch_pad_read_intr_status_mask(void)
Get the touch sensor interrupt status mask.
- Returns
touch interrupt bit
-
esp_err_t touch_pad_intr_enable(touch_pad_intr_mask_t int_mask)
Enable touch sensor interrupt by bitmask.
Note
This API can be called in ISR handler.
- Parameters
int_mask -- Pad mask to enable interrupts
- Returns
ESP_OK on success
-
esp_err_t touch_pad_intr_disable(touch_pad_intr_mask_t int_mask)
Disable touch sensor interrupt by bitmask.
Note
This API can be called in ISR handler.
- Parameters
int_mask -- Pad mask to disable interrupts
- Returns
ESP_OK on success
-
esp_err_t touch_pad_intr_clear(touch_pad_intr_mask_t int_mask)
Clear touch sensor interrupt by bitmask.
- Parameters
int_mask -- Pad mask to clear interrupts
- Returns
ESP_OK on success
-
esp_err_t touch_pad_isr_register(intr_handler_t fn, void *arg, touch_pad_intr_mask_t intr_mask)
Register touch-pad ISR. The handler will be attached to the same CPU core that this function is running on.
- Parameters
fn -- Pointer to ISR handler
arg -- Parameter for ISR
intr_mask -- Enable touch sensor interrupt handler by bitmask.
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG Arguments error
ESP_ERR_NO_MEM No memory
-
esp_err_t touch_pad_timeout_set(bool enable, uint32_t threshold)
Enable/disable the timeout check and set timeout threshold for all touch sensor channels measurements. If enable: When the touch reading of a touch channel exceeds the measurement threshold, a timeout interrupt will be generated. If disable: the FSM does not check if the channel under measurement times out.
Note
The threshold compared with touch readings.
Note
In order to avoid abnormal short circuit of some touch channels. This function should be turned on. Ensure the normal operation of other touch channels.
- Parameters
enable -- true(default): Enable the timeout check; false: Disable the timeout check.
threshold -- For all channels, the maximum value that will not be exceeded during normal operation.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_timeout_resume(void)
Call this interface after timeout to make the touch channel resume normal work. Point on the next channel to measure. If this API is not called, the touch FSM will stop the measurement after timeout interrupt.
Note
Call this API after finishes the exception handling by user.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_read_raw_data(touch_pad_t touch_num, uint32_t *raw_data)
get raw data of touch sensor.
Note
After the initialization is complete, the "raw_data" is max value. You need to wait for a measurement cycle before you can read the correct touch value.
- Parameters
touch_num -- touch pad index
raw_data -- pointer to accept touch sensor value
- Returns
ESP_OK Success
ESP_FAIL Touch channel 0 haven't this parameter.
-
esp_err_t touch_pad_read_benchmark(touch_pad_t touch_num, uint32_t *benchmark)
get benchmark of touch sensor.
Note
After initialization, the benchmark value is the maximum during the first measurement period.
- Parameters
touch_num -- touch pad index
benchmark -- pointer to accept touch sensor benchmark value
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG Touch channel 0 haven't this parameter.
-
esp_err_t touch_pad_filter_read_smooth(touch_pad_t touch_num, uint32_t *smooth)
Get smoothed data that obtained by filtering the raw data.
- Parameters
touch_num -- touch pad index
smooth -- pointer to smoothed data
-
esp_err_t touch_pad_reset_benchmark(touch_pad_t touch_num)
Force reset benchmark to raw data of touch sensor.
- Parameters
touch_num -- touch pad index
TOUCH_PAD_MAX Reset basaline of all channels
- Returns
ESP_OK Success
-
esp_err_t touch_pad_filter_set_config(const touch_filter_config_t *filter_info)
set parameter of touch sensor filter and detection algorithm. For more details on the detection algorithm, please refer to the application documentation.
- Parameters
filter_info -- select filter type and threshold of detection algorithm
- Returns
ESP_OK Success
-
esp_err_t touch_pad_filter_get_config(touch_filter_config_t *filter_info)
get parameter of touch sensor filter and detection algorithm. For more details on the detection algorithm, please refer to the application documentation.
- Parameters
filter_info -- select filter type and threshold of detection algorithm
- Returns
ESP_OK Success
-
esp_err_t touch_pad_filter_enable(void)
enable touch sensor filter for detection algorithm. For more details on the detection algorithm, please refer to the application documentation.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_filter_disable(void)
disable touch sensor filter for detection algorithm. For more details on the detection algorithm, please refer to the application documentation.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_denoise_set_config(const touch_pad_denoise_t *denoise)
set parameter of denoise pad (TOUCH_PAD_NUM0). T0 is an internal channel that does not have a corresponding external GPIO. T0 will work simultaneously with the measured channel Tn. Finally, the actual measured value of Tn is the value after subtracting lower bits of T0. The noise reduction function filters out interference introduced simultaneously on all channels, such as noise introduced by power supplies and external EMI.
- Parameters
denoise -- parameter of denoise
- Returns
ESP_OK Success
-
esp_err_t touch_pad_denoise_get_config(touch_pad_denoise_t *denoise)
get parameter of denoise pad (TOUCH_PAD_NUM0).
- Parameters
denoise -- Pointer to parameter of denoise
- Returns
ESP_OK Success
-
esp_err_t touch_pad_denoise_enable(void)
enable denoise function. T0 is an internal channel that does not have a corresponding external GPIO. T0 will work simultaneously with the measured channel Tn. Finally, the actual measured value of Tn is the value after subtracting lower bits of T0. The noise reduction function filters out interference introduced simultaneously on all channels, such as noise introduced by power supplies and external EMI.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_denoise_read_data(uint32_t *data)
Get denoise measure value (TOUCH_PAD_NUM0).
- Parameters
data -- Pointer to receive denoise value
- Returns
ESP_OK Success
-
esp_err_t touch_pad_waterproof_set_config(const touch_pad_waterproof_t *waterproof)
set parameter of waterproof function.
The waterproof function includes a shielded channel (TOUCH_PAD_NUM14) and a guard channel. Guard pad is used to detect the large area of water covering the touch panel. Shield pad is used to shield the influence of water droplets covering the touch panel. It is generally designed as a grid and is placed around the touch buttons.
- Parameters
waterproof -- parameter of waterproof
- Returns
ESP_OK Success
-
esp_err_t touch_pad_waterproof_get_config(touch_pad_waterproof_t *waterproof)
get parameter of waterproof function.
- Parameters
waterproof -- parameter of waterproof
- Returns
ESP_OK Success
-
esp_err_t touch_pad_waterproof_enable(void)
Enable parameter of waterproof function. Should be called after function
touch_pad_waterproof_set_config
.- Returns
ESP_OK Success
-
esp_err_t touch_pad_waterproof_disable(void)
Disable parameter of waterproof function.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_proximity_enable(touch_pad_t touch_num, bool enabled)
Enable/disable proximity function of touch channels. The proximity sensor measurement is the accumulation of touch channel measurements.
Note
Supports up to three touch channels configured as proximity sensors.
- Parameters
touch_num -- touch pad index
enabled -- true: enable the proximity function; false: disable the proximity function
- Returns
ESP_OK: Configured correctly.
ESP_ERR_INVALID_ARG: Touch channel number error.
ESP_ERR_NOT_SUPPORTED: Don't support configured.
-
esp_err_t touch_pad_proximity_set_count(touch_pad_t touch_num, uint32_t count)
Set measure count of proximity channel. The proximity sensor measurement is the accumulation of touch channel measurements.
Note
All proximity channels use the same
count
value. So please pass the parameterTOUCH_PAD_MAX
.- Parameters
touch_num -- Touch pad index. In this version, pass the parameter
TOUCH_PAD_MAX
.count -- The cumulative times of measurements for proximity pad. Range: 0 ~ 255.
- Returns
ESP_OK: Configured correctly.
ESP_ERR_INVALID_ARG: Touch channel number error.
-
esp_err_t touch_pad_proximity_get_count(touch_pad_t touch_num, uint32_t *count)
Get measure count of proximity channel. The proximity sensor measurement is the accumulation of touch channel measurements.
Note
All proximity channels use the same
count
value. So please pass the parameterTOUCH_PAD_MAX
.- Parameters
touch_num -- Touch pad index. In this version, pass the parameter
TOUCH_PAD_MAX
.count -- The cumulative times of measurements for proximity pad. Range: 0 ~ 255.
- Returns
ESP_OK: Configured correctly.
ESP_ERR_INVALID_ARG: Touch channel number error.
-
esp_err_t touch_pad_proximity_get_data(touch_pad_t touch_num, uint32_t *measure_out)
Get the accumulated measurement of the proximity sensor. The proximity sensor measurement is the accumulation of touch channel measurements.
- Parameters
touch_num -- touch pad index
measure_out -- If the accumulation process does not end, the
measure_out
is the process value.
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG Touch num is not proximity
-
esp_err_t touch_pad_sleep_channel_get_info(touch_pad_sleep_channel_t *slp_config)
Get parameter of touch sensor sleep channel. The touch sensor can works in sleep mode to wake up sleep.
Note
After the sleep channel is configured, Please use special functions for sleep channel. e.g. The user should uses
touch_pad_sleep_channel_read_data
instead oftouch_pad_read_raw_data
to obtain the sleep channel reading.- Parameters
slp_config -- touch sleep pad config.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_sleep_channel_enable(touch_pad_t pad_num, bool enable)
Enable/Disable sleep channel function for touch sensor. The touch sensor can works in sleep mode to wake up sleep.
Note
ESP32S2 only support one sleep channel.
Note
After the sleep channel is configured, Please use special functions for sleep channel. e.g. The user should uses
touch_pad_sleep_channel_read_data
instead oftouch_pad_read_raw_data
to obtain the sleep channel reading.- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
enable -- true: enable sleep pad for touch sensor; false: disable sleep pad for touch sensor;
- Returns
ESP_OK Success
-
esp_err_t touch_pad_sleep_channel_enable_proximity(touch_pad_t pad_num, bool enable)
Enable/Disable proximity function for sleep channel. The touch sensor can works in sleep mode to wake up sleep.
Note
ESP32S2 only support one sleep channel.
- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
enable -- true: enable proximity for sleep channel; false: disable proximity for sleep channel;
- Returns
ESP_OK Success
-
esp_err_t touch_pad_sleep_set_threshold(touch_pad_t pad_num, uint32_t touch_thres)
Set the trigger threshold of touch sensor in deep sleep. The threshold determines the sensitivity of the touch sensor.
Note
In general, the touch threshold during sleep can use the threshold parameter parameters before sleep.
- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
touch_thres -- touch sleep pad threshold
- Returns
ESP_OK Success
-
esp_err_t touch_pad_sleep_get_threshold(touch_pad_t pad_num, uint32_t *touch_thres)
Get the trigger threshold of touch sensor in deep sleep. The threshold determines the sensitivity of the touch sensor.
Note
In general, the touch threshold during sleep can use the threshold parameter parameters before sleep.
- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
touch_thres -- touch sleep pad threshold
- Returns
ESP_OK Success
-
esp_err_t touch_pad_sleep_channel_read_benchmark(touch_pad_t pad_num, uint32_t *benchmark)
Read benchmark of touch sensor sleep channel.
- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
benchmark -- pointer to accept touch sensor benchmark value
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG parameter is NULL
-
esp_err_t touch_pad_sleep_channel_read_smooth(touch_pad_t pad_num, uint32_t *smooth_data)
Read smoothed data of touch sensor sleep channel. Smoothed data is filtered from the raw data.
- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
smooth_data -- pointer to accept touch sensor smoothed data
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG parameter is NULL
-
esp_err_t touch_pad_sleep_channel_read_data(touch_pad_t pad_num, uint32_t *raw_data)
Read raw data of touch sensor sleep channel.
- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
raw_data -- pointer to accept touch sensor raw data
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG parameter is NULL
-
esp_err_t touch_pad_sleep_channel_reset_benchmark(void)
Reset benchmark of touch sensor sleep channel.
- Returns
ESP_OK Success
-
esp_err_t touch_pad_sleep_channel_read_proximity_cnt(touch_pad_t pad_num, uint32_t *proximity_cnt)
Read proximity count of touch sensor sleep channel.
- Parameters
pad_num -- Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode.
proximity_cnt -- pointer to accept touch sensor proximity count value
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG parameter is NULL
-
esp_err_t touch_pad_sleep_channel_set_work_time(uint16_t sleep_cycle, uint16_t meas_times)
Change the operating frequency of touch pad in deep sleep state. Reducing the operating frequency can effectively reduce power consumption. If this function is not called, the working frequency of touch in the deep sleep state is the same as that in the wake-up state.
- Parameters
sleep_cycle -- The touch sensor will sleep after each measurement. sleep_cycle decide the interval between each measurement. t_sleep = sleep_cycle / (RTC_SLOW_CLK frequency). The approximate frequency value of RTC_SLOW_CLK can be obtained using rtc_clk_slow_freq_get_hz function.
meas_times -- The times of charge and discharge in each measure process of touch channels. The timer frequency is 8Mhz. Range: 0 ~ 0xffff. Recommended typical value: Modify this value to make the measurement time around 1ms.
- Returns
ESP_OK Success
Header File
components/driver/touch_sensor/include/driver/touch_sensor_common.h
This header file can be included with:
#include "driver/touch_sensor_common.h"
This header file is a part of the API provided by the
driver
component. To declare that your component depends ondriver
, add the following to your CMakeLists.txt:REQUIRES driver
or
PRIV_REQUIRES driver
Functions
-
esp_err_t touch_pad_init(void)
Initialize touch module.
Note
If default parameter don't match the usage scenario, it can be changed after this function.
- Returns
ESP_OK Success
ESP_ERR_NO_MEM Touch pad init error
ESP_ERR_NOT_SUPPORTED Touch pad is providing current to external XTAL
-
esp_err_t touch_pad_deinit(void)
Un-install touch pad driver.
Note
After this function is called, other touch functions are prohibited from being called.
- Returns
ESP_OK Success
ESP_FAIL Touch pad driver not initialized
-
esp_err_t touch_pad_io_init(touch_pad_t touch_num)
Initialize touch pad GPIO.
- Parameters
touch_num -- touch pad index
- Returns
ESP_OK on success
ESP_ERR_INVALID_ARG if argument is wrong
-
esp_err_t touch_pad_set_voltage(touch_high_volt_t refh, touch_low_volt_t refl, touch_volt_atten_t atten)
Set touch sensor high voltage threshold of chanrge. The touch sensor measures the channel capacitance value by charging and discharging the channel. So the high threshold should be less than the supply voltage.
- Parameters
refh -- the value of DREFH
refl -- the value of DREFL
atten -- the attenuation on DREFH
- Returns
ESP_OK on success
ESP_ERR_INVALID_ARG if argument is wrong
-
esp_err_t touch_pad_get_voltage(touch_high_volt_t *refh, touch_low_volt_t *refl, touch_volt_atten_t *atten)
Get touch sensor reference voltage,.
- Parameters
refh -- pointer to accept DREFH value
refl -- pointer to accept DREFL value
atten -- pointer to accept the attenuation on DREFH
- Returns
ESP_OK on success
-
esp_err_t touch_pad_set_cnt_mode(touch_pad_t touch_num, touch_cnt_slope_t slope, touch_tie_opt_t opt)
Set touch sensor charge/discharge speed for each pad. If the slope is 0, the counter would always be zero. If the slope is 1, the charging and discharging would be slow, accordingly. If the slope is set 7, which is the maximum value, the charging and discharging would be fast.
Note
The higher the charge and discharge current, the greater the immunity of the touch channel, but it will increase the system power consumption.
- Parameters
touch_num -- touch pad index
slope -- touch pad charge/discharge speed
opt -- the initial voltage
- Returns
ESP_OK on success
ESP_ERR_INVALID_ARG if argument is wrong
-
esp_err_t touch_pad_get_cnt_mode(touch_pad_t touch_num, touch_cnt_slope_t *slope, touch_tie_opt_t *opt)
Get touch sensor charge/discharge speed for each pad.
- Parameters
touch_num -- touch pad index
slope -- pointer to accept touch pad charge/discharge slope
opt -- pointer to accept the initial voltage
- Returns
ESP_OK on success
ESP_ERR_INVALID_ARG if argument is wrong
-
esp_err_t touch_pad_isr_deregister(void (*fn)(void*), void *arg)
Deregister the handler previously registered using touch_pad_isr_handler_register.
- Parameters
fn -- handler function to call (as passed to touch_pad_isr_handler_register)
arg -- argument of the handler (as passed to touch_pad_isr_handler_register)
- Returns
ESP_OK on success
ESP_ERR_INVALID_STATE if a handler matching both fn and arg isn't registered
-
esp_err_t touch_pad_get_wakeup_status(touch_pad_t *pad_num)
Get the touch pad which caused wakeup from deep sleep.
- Parameters
pad_num -- pointer to touch pad which caused wakeup
- Returns
ESP_OK Success
ESP_ERR_INVALID_ARG parameter is NULL
-
esp_err_t touch_pad_set_fsm_mode(touch_fsm_mode_t mode)
Set touch sensor FSM mode, the test action can be triggered by the timer, as well as by the software.
- Parameters
mode -- FSM mode
- Returns
ESP_OK on success
ESP_ERR_INVALID_ARG if argument is wrong
-
esp_err_t touch_pad_get_fsm_mode(touch_fsm_mode_t *mode)
Get touch sensor FSM mode.
- Parameters
mode -- pointer to accept FSM mode
- Returns
ESP_OK on success
-
esp_err_t touch_pad_clear_status(void)
To clear the touch sensor channel active status.
Note
The FSM automatically updates the touch sensor status. It is generally not necessary to call this API to clear the status.
- Returns
ESP_OK on success
-
uint32_t touch_pad_get_status(void)
Get the touch sensor channel active status mask. The bit position represents the channel number. The 0/1 status of the bit represents the trigger status.
- Returns
The touch sensor status. e.g. Touch1 trigger status is
status_mask & (BIT1)
.
-
bool touch_pad_meas_is_done(void)
Check touch sensor measurement status.
- Returns
True measurement is under way
False measurement done
GPIO Lookup Macros
Some useful macros can be used to specified the GPIO number of a touch pad channel, or vice versa. e.g.,
TOUCH_PAD_NUM5_GPIO_NUM
is the GPIO number of channel 5 (12);TOUCH_PAD_GPIO4_CHANNEL
is the channel number of GPIO 4 (channel 0).
Header File
This header file can be included with:
#include "soc/touch_sensor_channel.h"
Macros
-
TOUCH_PAD_GPIO1_CHANNEL
-
TOUCH_PAD_NUM1_GPIO_NUM
-
TOUCH_PAD_GPIO2_CHANNEL
-
TOUCH_PAD_NUM2_GPIO_NUM
-
TOUCH_PAD_GPIO3_CHANNEL
-
TOUCH_PAD_NUM3_GPIO_NUM
-
TOUCH_PAD_GPIO4_CHANNEL
-
TOUCH_PAD_NUM4_GPIO_NUM
-
TOUCH_PAD_GPIO5_CHANNEL
-
TOUCH_PAD_NUM5_GPIO_NUM
-
TOUCH_PAD_GPIO6_CHANNEL
-
TOUCH_PAD_NUM6_GPIO_NUM
-
TOUCH_PAD_GPIO7_CHANNEL
-
TOUCH_PAD_NUM7_GPIO_NUM
-
TOUCH_PAD_GPIO8_CHANNEL
-
TOUCH_PAD_NUM8_GPIO_NUM
-
TOUCH_PAD_GPIO9_CHANNEL
-
TOUCH_PAD_NUM9_GPIO_NUM
-
TOUCH_PAD_GPIO10_CHANNEL
-
TOUCH_PAD_NUM10_GPIO_NUM
-
TOUCH_PAD_GPIO11_CHANNEL
-
TOUCH_PAD_NUM11_GPIO_NUM
-
TOUCH_PAD_GPIO12_CHANNEL
-
TOUCH_PAD_NUM12_GPIO_NUM
-
TOUCH_PAD_GPIO13_CHANNEL
-
TOUCH_PAD_NUM13_GPIO_NUM
-
TOUCH_PAD_GPIO14_CHANNEL
-
TOUCH_PAD_NUM14_GPIO_NUM
Header File
This header file can be included with:
#include "hal/touch_sensor_types.h"
Structures
-
struct touch_pad_denoise
Touch sensor denoise configuration
Public Members
-
touch_pad_denoise_grade_t grade
Select denoise range of denoise channel. Determined by measuring the noise amplitude of the denoise channel.
-
touch_pad_denoise_cap_t cap_level
Select internal reference capacitance of denoise channel. Ensure that the denoise readings are closest to the readings of the channel being measured. Use
touch_pad_denoise_read_data
to get the reading of denoise channel. The equivalent capacitance of the shielded channel can be calculated from the reading of denoise channel.
-
touch_pad_denoise_grade_t grade
-
struct touch_pad_waterproof
Touch sensor waterproof configuration
Public Members
-
touch_pad_t guard_ring_pad
Waterproof. Select touch channel use for guard pad. Guard pad is used to detect the large area of water covering the touch panel.
-
touch_pad_shield_driver_t shield_driver
Waterproof. Shield channel drive capability configuration. Shield pad is used to shield the influence of water droplets covering the touch panel. When the waterproof function is enabled, Touch14 is set as shield channel by default. The larger the parasitic capacitance on the shielding channel, the higher the drive capability needs to be set. The equivalent capacitance of the shield channel can be estimated through the reading value of the denoise channel(Touch0).
-
touch_pad_t guard_ring_pad
-
struct touch_filter_config
Touch sensor filter configuration
Public Members
-
touch_filter_mode_t mode
Set filter mode. The input of the filter is the raw value of touch reading, and the output of the filter is involved in the judgment of the touch state.
-
uint32_t debounce_cnt
Set debounce count, such as
n
. If the measured values continue to exceed the threshold forn+1
times, the touch sensor state changes. Range: 0 ~ 7
-
uint32_t noise_thr
Noise threshold coefficient. Higher = More noise resistance. The actual noise should be less than (noise coefficient * touch threshold). Range: 0 ~ 3. The coefficient is 0: 4/8; 1: 3/8; 2: 2/8; 3: 1;
-
uint32_t jitter_step
Set jitter filter step size. Range: 0 ~ 15
-
touch_smooth_mode_t smh_lvl
Level of filter applied on the original data against large noise interference.
-
touch_filter_mode_t mode
-
struct touch_pad_sleep_channel_t
Touch sensor channel sleep configuration
Public Members
-
touch_pad_t touch_num
Set touch channel number for sleep pad. Only one touch sensor channel is supported in deep sleep mode. If clear the sleep channel, point this pad to
TOUCH_PAD_NUM0
-
bool en_proximity
enable proximity function for sleep pad
-
touch_pad_t touch_num
Macros
-
TOUCH_PAD_BIT_MASK_ALL
-
TOUCH_PAD_SLOPE_DEFAULT
-
TOUCH_PAD_TIE_OPT_DEFAULT
-
TOUCH_PAD_BIT_MASK_MAX
-
TOUCH_PAD_HIGH_VOLTAGE_THRESHOLD
-
TOUCH_PAD_LOW_VOLTAGE_THRESHOLD
-
TOUCH_PAD_ATTEN_VOLTAGE_THRESHOLD
-
TOUCH_PAD_IDLE_CH_CONNECT_DEFAULT
-
TOUCH_PAD_THRESHOLD_MAX
If set touch threshold max value, The touch sensor can't be in touched status
-
TOUCH_PAD_SLEEP_CYCLE_DEFAULT
Excessive total time will slow down the touch response. Too small measurement time will not be sampled enough, resulting in inaccurate measurements.
Note
The greater the duty cycle of the measurement time, the more system power is consumed. The number of sleep cycle in each measure process of touch channels. The timer frequency is RTC_SLOW_CLK (can be 150k or 32k depending on the options). Range: 0 ~ 0xffff
-
TOUCH_PAD_MEASURE_CYCLE_DEFAULT
The times of charge and discharge in each measure process of touch channels. The timer frequency is 8Mhz. Recommended typical value: Modify this value to make the measurement time around 1ms. Range: 0 ~ 0xffff
-
TOUCH_PAD_INTR_MASK_ALL
All touch interrupt type enable.
-
TOUCH_PROXIMITY_MEAS_NUM_MAX
Touch sensor proximity detection configuration
-
TOUCH_DEBOUNCE_CNT_MAX
-
TOUCH_NOISE_THR_MAX
-
TOUCH_JITTER_STEP_MAX
Type Definitions
-
typedef struct touch_pad_denoise touch_pad_denoise_t
Touch sensor denoise configuration
-
typedef struct touch_pad_waterproof touch_pad_waterproof_t
Touch sensor waterproof configuration
-
typedef struct touch_filter_config touch_filter_config_t
Touch sensor filter configuration
Enumerations
-
enum touch_pad_t
Touch pad channel
Values:
-
enumerator TOUCH_PAD_NUM0
Touch pad channel 0 is GPIO4(ESP32)
-
enumerator TOUCH_PAD_NUM1
Touch pad channel 1 is GPIO0(ESP32) / GPIO1(ESP32-S2)
-
enumerator TOUCH_PAD_NUM2
Touch pad channel 2 is GPIO2(ESP32) / GPIO2(ESP32-S2)
-
enumerator TOUCH_PAD_NUM3
Touch pad channel 3 is GPIO15(ESP32) / GPIO3(ESP32-S2)
-
enumerator TOUCH_PAD_NUM4
Touch pad channel 4 is GPIO13(ESP32) / GPIO4(ESP32-S2)
-
enumerator TOUCH_PAD_NUM5
Touch pad channel 5 is GPIO12(ESP32) / GPIO5(ESP32-S2)
-
enumerator TOUCH_PAD_NUM6
Touch pad channel 6 is GPIO14(ESP32) / GPIO6(ESP32-S2)
-
enumerator TOUCH_PAD_NUM7
Touch pad channel 7 is GPIO27(ESP32) / GPIO7(ESP32-S2)
-
enumerator TOUCH_PAD_NUM8
Touch pad channel 8 is GPIO33(ESP32) / GPIO8(ESP32-S2)
-
enumerator TOUCH_PAD_NUM9
Touch pad channel 9 is GPIO32(ESP32) / GPIO9(ESP32-S2)
-
enumerator TOUCH_PAD_NUM10
Touch channel 10 is GPIO10(ESP32-S2)
-
enumerator TOUCH_PAD_NUM11
Touch channel 11 is GPIO11(ESP32-S2)
-
enumerator TOUCH_PAD_NUM12
Touch channel 12 is GPIO12(ESP32-S2)
-
enumerator TOUCH_PAD_NUM13
Touch channel 13 is GPIO13(ESP32-S2)
-
enumerator TOUCH_PAD_NUM14
Touch channel 14 is GPIO14(ESP32-S2)
-
enumerator TOUCH_PAD_MAX
-
enumerator TOUCH_PAD_NUM0
-
enum touch_high_volt_t
Touch sensor high reference voltage
Values:
-
enumerator TOUCH_HVOLT_KEEP
Touch sensor high reference voltage, no change
-
enumerator TOUCH_HVOLT_2V4
Touch sensor high reference voltage, 2.4V
-
enumerator TOUCH_HVOLT_2V5
Touch sensor high reference voltage, 2.5V
-
enumerator TOUCH_HVOLT_2V6
Touch sensor high reference voltage, 2.6V
-
enumerator TOUCH_HVOLT_2V7
Touch sensor high reference voltage, 2.7V
-
enumerator TOUCH_HVOLT_MAX
-
enumerator TOUCH_HVOLT_KEEP
-
enum touch_low_volt_t
Touch sensor low reference voltage
Values:
-
enumerator TOUCH_LVOLT_KEEP
Touch sensor low reference voltage, no change
-
enumerator TOUCH_LVOLT_0V5
Touch sensor low reference voltage, 0.5V
-
enumerator TOUCH_LVOLT_0V6
Touch sensor low reference voltage, 0.6V
-
enumerator TOUCH_LVOLT_0V7
Touch sensor low reference voltage, 0.7V
-
enumerator TOUCH_LVOLT_0V8
Touch sensor low reference voltage, 0.8V
-
enumerator TOUCH_LVOLT_MAX
-
enumerator TOUCH_LVOLT_KEEP
-
enum touch_volt_atten_t
Touch sensor high reference voltage attenuation
Values:
-
enumerator TOUCH_HVOLT_ATTEN_KEEP
Touch sensor high reference voltage attenuation, no change
-
enumerator TOUCH_HVOLT_ATTEN_1V5
Touch sensor high reference voltage attenuation, 1.5V attenuation
-
enumerator TOUCH_HVOLT_ATTEN_1V
Touch sensor high reference voltage attenuation, 1.0V attenuation
-
enumerator TOUCH_HVOLT_ATTEN_0V5
Touch sensor high reference voltage attenuation, 0.5V attenuation
-
enumerator TOUCH_HVOLT_ATTEN_0V
Touch sensor high reference voltage attenuation, 0V attenuation
-
enumerator TOUCH_HVOLT_ATTEN_MAX
-
enumerator TOUCH_HVOLT_ATTEN_KEEP
-
enum touch_cnt_slope_t
Touch sensor charge/discharge speed
Values:
-
enumerator TOUCH_PAD_SLOPE_0
Touch sensor charge / discharge speed, always zero
-
enumerator TOUCH_PAD_SLOPE_1
Touch sensor charge / discharge speed, slowest
-
enumerator TOUCH_PAD_SLOPE_2
Touch sensor charge / discharge speed
-
enumerator TOUCH_PAD_SLOPE_3
Touch sensor charge / discharge speed
-
enumerator TOUCH_PAD_SLOPE_4
Touch sensor charge / discharge speed
-
enumerator TOUCH_PAD_SLOPE_5
Touch sensor charge / discharge speed
-
enumerator TOUCH_PAD_SLOPE_6
Touch sensor charge / discharge speed
-
enumerator TOUCH_PAD_SLOPE_7
Touch sensor charge / discharge speed, fast
-
enumerator TOUCH_PAD_SLOPE_MAX
-
enumerator TOUCH_PAD_SLOPE_0
-
enum touch_tie_opt_t
Touch sensor initial charge level
Values:
-
enumerator TOUCH_PAD_TIE_OPT_LOW
Initial level of charging voltage, low level
-
enumerator TOUCH_PAD_TIE_OPT_HIGH
Initial level of charging voltage, high level
-
enumerator TOUCH_PAD_TIE_OPT_MAX
-
enumerator TOUCH_PAD_TIE_OPT_LOW
-
enum touch_fsm_mode_t
Touch sensor FSM mode
Values:
-
enumerator TOUCH_FSM_MODE_TIMER
To start touch FSM by timer
-
enumerator TOUCH_FSM_MODE_SW
To start touch FSM by software trigger
-
enumerator TOUCH_FSM_MODE_MAX
-
enumerator TOUCH_FSM_MODE_TIMER
-
enum touch_trigger_mode_t
Values:
-
enumerator TOUCH_TRIGGER_BELOW
Touch interrupt will happen if counter value is less than threshold.
-
enumerator TOUCH_TRIGGER_ABOVE
Touch interrupt will happen if counter value is larger than threshold.
-
enumerator TOUCH_TRIGGER_MAX
-
enumerator TOUCH_TRIGGER_BELOW
-
enum touch_trigger_src_t
Values:
-
enumerator TOUCH_TRIGGER_SOURCE_BOTH
wakeup interrupt is generated if both SET1 and SET2 are "touched"
-
enumerator TOUCH_TRIGGER_SOURCE_SET1
wakeup interrupt is generated if SET1 is "touched"
-
enumerator TOUCH_TRIGGER_SOURCE_MAX
-
enumerator TOUCH_TRIGGER_SOURCE_BOTH
-
enum touch_pad_intr_mask_t
Values:
-
enumerator TOUCH_PAD_INTR_MASK_DONE
Measurement done for one of the enabled channels.
-
enumerator TOUCH_PAD_INTR_MASK_ACTIVE
Active for one of the enabled channels.
-
enumerator TOUCH_PAD_INTR_MASK_INACTIVE
Inactive for one of the enabled channels.
-
enumerator TOUCH_PAD_INTR_MASK_SCAN_DONE
Measurement done for all the enabled channels.
-
enumerator TOUCH_PAD_INTR_MASK_TIMEOUT
Timeout for one of the enabled channels.
-
enumerator TOUCH_PAD_INTR_MASK_PROXI_MEAS_DONE
For proximity sensor, when the number of measurements reaches the set count of measurements, an interrupt will be generated.
-
enumerator TOUCH_PAD_INTR_MASK_DONE
-
enum touch_pad_denoise_grade_t
Values:
-
enumerator TOUCH_PAD_DENOISE_BIT12
Denoise range is 12bit
-
enumerator TOUCH_PAD_DENOISE_BIT10
Denoise range is 10bit
-
enumerator TOUCH_PAD_DENOISE_BIT8
Denoise range is 8bit
-
enumerator TOUCH_PAD_DENOISE_BIT4
Denoise range is 4bit
-
enumerator TOUCH_PAD_DENOISE_MAX
-
enumerator TOUCH_PAD_DENOISE_BIT12
-
enum touch_pad_denoise_cap_t
Values:
-
enumerator TOUCH_PAD_DENOISE_CAP_L0
Denoise channel internal reference capacitance is 5pf
-
enumerator TOUCH_PAD_DENOISE_CAP_L1
Denoise channel internal reference capacitance is 6.4pf
-
enumerator TOUCH_PAD_DENOISE_CAP_L2
Denoise channel internal reference capacitance is 7.8pf
-
enumerator TOUCH_PAD_DENOISE_CAP_L3
Denoise channel internal reference capacitance is 9.2pf
-
enumerator TOUCH_PAD_DENOISE_CAP_L4
Denoise channel internal reference capacitance is 10.6pf
-
enumerator TOUCH_PAD_DENOISE_CAP_L5
Denoise channel internal reference capacitance is 12.0pf
-
enumerator TOUCH_PAD_DENOISE_CAP_L6
Denoise channel internal reference capacitance is 13.4pf
-
enumerator TOUCH_PAD_DENOISE_CAP_L7
Denoise channel internal reference capacitance is 14.8pf
-
enumerator TOUCH_PAD_DENOISE_CAP_MAX
-
enumerator TOUCH_PAD_DENOISE_CAP_L0
-
enum touch_pad_shield_driver_t
Touch sensor shield channel drive capability level
Values:
-
enumerator TOUCH_PAD_SHIELD_DRV_L0
The max equivalent capacitance in shield channel is 40pf
-
enumerator TOUCH_PAD_SHIELD_DRV_L1
The max equivalent capacitance in shield channel is 80pf
-
enumerator TOUCH_PAD_SHIELD_DRV_L2
The max equivalent capacitance in shield channel is 120pf
-
enumerator TOUCH_PAD_SHIELD_DRV_L3
The max equivalent capacitance in shield channel is 160pf
-
enumerator TOUCH_PAD_SHIELD_DRV_L4
The max equivalent capacitance in shield channel is 200pf
-
enumerator TOUCH_PAD_SHIELD_DRV_L5
The max equivalent capacitance in shield channel is 240pf
-
enumerator TOUCH_PAD_SHIELD_DRV_L6
The max equivalent capacitance in shield channel is 280pf
-
enumerator TOUCH_PAD_SHIELD_DRV_L7
The max equivalent capacitance in shield channel is 320pf
-
enumerator TOUCH_PAD_SHIELD_DRV_MAX
-
enumerator TOUCH_PAD_SHIELD_DRV_L0
-
enum touch_pad_conn_type_t
Touch channel idle state configuration
Values:
-
enumerator TOUCH_PAD_CONN_HIGHZ
Idle status of touch channel is high resistance state
-
enumerator TOUCH_PAD_CONN_GND
Idle status of touch channel is ground connection
-
enumerator TOUCH_PAD_CONN_MAX
-
enumerator TOUCH_PAD_CONN_HIGHZ
-
enum touch_filter_mode_t
Touch channel IIR filter coefficient configuration.
Note
On ESP32S2. There is an error in the IIR calculation. The magnitude of the error is twice the filter coefficient. So please select a smaller filter coefficient on the basis of meeting the filtering requirements. Recommended filter coefficient selection
IIR_16
.Values:
-
enumerator TOUCH_PAD_FILTER_IIR_4
The filter mode is first-order IIR filter. The coefficient is 4.
-
enumerator TOUCH_PAD_FILTER_IIR_8
The filter mode is first-order IIR filter. The coefficient is 8.
-
enumerator TOUCH_PAD_FILTER_IIR_16
The filter mode is first-order IIR filter. The coefficient is 16 (Typical value).
-
enumerator TOUCH_PAD_FILTER_IIR_32
The filter mode is first-order IIR filter. The coefficient is 32.
-
enumerator TOUCH_PAD_FILTER_IIR_64
The filter mode is first-order IIR filter. The coefficient is 64.
-
enumerator TOUCH_PAD_FILTER_IIR_128
The filter mode is first-order IIR filter. The coefficient is 128.
-
enumerator TOUCH_PAD_FILTER_IIR_256
The filter mode is first-order IIR filter. The coefficient is 256.
-
enumerator TOUCH_PAD_FILTER_JITTER
The filter mode is jitter filter
-
enumerator TOUCH_PAD_FILTER_MAX
-
enumerator TOUCH_PAD_FILTER_IIR_4
-
enum touch_smooth_mode_t
Level of filter applied on the original data against large noise interference.
Note
On ESP32S2. There is an error in the IIR calculation. The magnitude of the error is twice the filter coefficient. So please select a smaller filter coefficient on the basis of meeting the filtering requirements. Recommended filter coefficient selection
IIR_2
.Values:
-
enumerator TOUCH_PAD_SMOOTH_OFF
No filtering of raw data.
-
enumerator TOUCH_PAD_SMOOTH_IIR_2
Filter the raw data. The coefficient is 2 (Typical value).
-
enumerator TOUCH_PAD_SMOOTH_IIR_4
Filter the raw data. The coefficient is 4.
-
enumerator TOUCH_PAD_SMOOTH_IIR_8
Filter the raw data. The coefficient is 8.
-
enumerator TOUCH_PAD_SMOOTH_MAX
-
enumerator TOUCH_PAD_SMOOTH_OFF