QTouch Library for AVR & AVR32 devices

This is the QTouch Library for AVR and AVR32 devices that consists of one api header file(touch_api.h) and respective pre-compiled libraries.

All projects using these libraries must also provide the required header file(touch_qt_config.h) used to configure the library. For more information on the Qtouch Library, check www.atmel.com/qtouchlib.

Data Structures
struct	qt_lib_sig_info_t
	This will be used to get the library information from the library. More...
struct	tag_qt_touch_lib_config_data_t
	post processing configuration data that is received from the debug interface. More...
struct	tag_qt_touch_lib_measure_data_t
	measured touch data that is sent for the debugging and fine tunning. More...
struct	tag_qt_touch_status_t
	The state of the library sensors. More...
struct	tag_sensor_t

Macros
#define	BURST_FUNC_NAME   BURST_JOIN( _STATIC_PORT_PIN_CONF_, QTOUCH_SNS_PORT_COUNT, INTRABURST_1, INTRABURST_2, _POWER_OPTIMIZATION_, QTOUCH_PIN_CONF )
	Build pointer to correct burst function. More...
#define	BURST_JOIN(static_flag, num_ports, intra1, intra2, pow_opt, qtouch_pin_conf)   JOIN4( static_flag, num_ports, intra1, intra2, pow_opt, qtouch_pin_conf )
#define	CALCULATE_MASKS   NULL
	This part of the code below is used for library selection. More...
#define	CONCAT(A, B, C)   JOIN1( A, B, C )
#define	JOIN(x, y)   x ## y
	QTouch libraries are supplied built with a range of charge times. More...
#define	JOIN1(A, B, C)   A ## B ## C
#define	JOIN4(a, b, c, d, e, f)   burst_ ## a ## _ ## b ## _ ## c ## d ## _ ## e ##_ ## f
	Macros for string concatenation. More...
#define	qt_init_sensing()   qt_init_sensing_with_burst( BURST_FUNC_NAME ,CALCULATE_MASKS)
	initialise touch sensing. More...
#define	QT_MAX_NUM_ROTORS_SLIDERS   0
#define	QT_NUM_SENSOR_STATE_BYTES   ( ( QT_NUM_CHANNELS + 7u ) / 8u )
	The number of bytes required to report the maximum possible number of sensors. More...
#define	QTLIB_BURST_AGAIN   (uint16_t) 0x0100
	indicating that reburst is needed to resolve in FILTERIN or FILTEROUT or RECALIBRATE state. More...
#define	QTLIB_CHANNEL_REF_CHANGE   (uint16_t) 0x0008
	indicating that at least one reference value has changed since last call to measure_sensors. More...
#define	QTLIB_IN_DETECT   (uint16_t) 0x0001
	indicating that at least one sensor is in detect. More...
#define	QTLIB_NO_ACTIVITY   (uint16_t) 0x0000
	Status flags used with debug. More...
#define	QTLIB_RESOLVE_CAL   (uint16_t) 0x0200
	indicating that reburst is needed to resolve in CALIBRATION. More...
#define	QTLIB_RESOLVE_DI   (uint16_t) 0x0800
	indicating that reburst is needed to resolve in RECAL. More...
#define	QTLIB_RESOLVE_FILTERIN   (uint16_t) 0x0400
	indicating that reburst is needed to resolve in FILTERING. More...
#define	QTLIB_RESOLVE_POS_RECAL   (uint16_t) 0x1000
	indicating that reburst is needed to resolve in RECAL. More...
#define	QTLIB_ROTOR_SLIDER_POS_CHANGE   (uint16_t) 0x0004
	indicating that at least one rotor slider has changed position since last call to measure_sensors. More...
#define	QTLIB_STATUS_CHANGE   (uint16_t) 0x0002
	indicating that at least one sensor haschanged ON/OFF state since last call to measure_sensors. More...
#define	REG(REGISTER, SIDE)   JOIN( REGISTER, SIDE )
	Macro to build register writes for controlling ports. More...
#define	TOUCH_DATA_T   uint8_t

Typedefs
typedef enum tag_aks_group_t	aks_group_t
	Which AKS group, if any, a sensor is in. More...
typedef enum tag_channel_t	channel_t
	The channel(s) in a sensor. More...
typedef enum tag_hysteresis_t	hysteresis_t
	A sensor detection hysteresis value. More...
typedef struct qt_lib_sig_info_t	qt_lib_siginfo_t
	This will be used to get the library information from the library. More...
typedef struct tag_qt_touch_lib_config_data_t	qt_touch_lib_config_data_t
	post processing configuration data that is received from the debug interface. More...
typedef struct tag_qt_touch_lib_measure_data_t	qt_touch_lib_measure_data_t
	measured touch data that is sent for the debugging and fine tunning. More...
typedef struct tag_qt_touch_status_t	qt_touch_status_t
	The state of the library sensors. More...
typedef enum tag_recal_threshold_t	recal_threshold_t
	A sensor recalibration threshold. More...
typedef enum tag_resolution_t	resolution_t
	For rotors and sliders, the resolution of the reported angle or position. More...
typedef struct tag_sensor_t	sensor_t
typedef enum tag_sensor_type_t	sensor_type_t
	Options for the sensor types available. More...
typedef uint8_t	threshold_t
	QMATRIX Start. More...

Enumerations
enum	tag_aks_group_t {   NO_AKS_GROUP,   AKS_GROUP_1,   AKS_GROUP_2,   AKS_GROUP_3,   AKS_GROUP_4,   AKS_GROUP_5,   AKS_GROUP_6,   AKS_GROUP_7 }
	Which AKS group, if any, a sensor is in. More...
enum	tag_channel_t {   CHANNEL_0,   CHANNEL_1,   CHANNEL_2,   CHANNEL_3 }
	The channel(s) in a sensor. More...
enum	tag_hysteresis_t {   HYST_50,   HYST_25,   HYST_12_5,   HYST_6_25 }
	A sensor detection hysteresis value. More...
enum	tag_recal_threshold_t {   RECAL_100 = 0,   RECAL_50,   RECAL_25,   RECAL_12_5,   RECAL_6_25 }
	A sensor recalibration threshold. More...
enum	tag_resolution_t {   RES_1_BIT,   RES_2_BIT,   RES_3_BIT,   RES_4_BIT,   RES_5_BIT,   RES_6_BIT,   RES_7_BIT,   RES_8_BIT }
	For rotors and sliders, the resolution of the reported angle or position. More...
enum	tag_sensor_type_t {   SENSOR_TYPE_UNASSIGNED,   SENSOR_TYPE_KEY,   SENSOR_TYPE_ROTOR,   SENSOR_TYPE_SLIDER }
	Options for the sensor types available. More...

Functions
void	BURST_FUNC_NAME (TOUCH_DATA_T mask_index)
	Burst function prototype. The code itself is stored in the touch library. More...
void	calc_masks (void)
void	qt_calibrate_sensing (void)
	calibrate touch sensing. More...
void	qt_enable_key (channel_t channel, aks_group_t aks_group, threshold_t detect_threshold, hysteresis_t detect_hysteresis)
	enable a key sensor. More...
void	qt_get_library_sig (qt_lib_siginfo_t *lib_sig_ptr)
	Get the library signature. More...
int16_t	qt_get_sensor_delta (uint8_t sensor)
	get the current delta on the specified sensor. More...
void	qt_init_sensing_with_burst (void(*burst_function)(TOUCH_DATA_T mask_index), void(*calculate_masks)(void))
uint16_t	qt_measure_sensors (uint16_t current_time_ms)
	measure touch sensors. More...
void	qt_reset_sensing (void)
	reset touch sensing. More...

Variables
void(*	burst_proc )(TOUCH_DATA_T mask_index)
	Function pointer used for bursting. More...
uint16_t	tag_qt_touch_lib_measure_data_t::channel_references [4]
	reference signal for each channel. More...
uint16_t	tag_qt_touch_lib_measure_data_t::channel_signals [4]
	measured signal on each channel. More...
uint8_t	tag_sensor_t::from_channel
	sensor from and to channels keys: from channel = to channel rotors/sliders run between the from and to channels NB: only need to_channel for keys in rotors/sliders build More...
uint8_t	tag_sensor_t::general_counter
	general purpose ctr: used for calibration, drifting, etc. More...
uint16_t	qt_lib_sig_info_t::lib_sig_hword
uint16_t	qt_lib_sig_info_t::lib_sig_lword
uint16_t	lib_status_flags
	variable holding the status flags. More...
uint16_t	qt_lib_sig_info_t::library_version
uint8_t	tag_sensor_t::ndil_counter
	DI ctr. More...
qt_touch_lib_config_data_t	qt_config_data
	This configuration data structure parameters if needs to be changed will be changed in the qt_set_parameters function. More...
uint8_t	tag_qt_touch_lib_config_data_t::qt_di
	Sensor detect integration (DI) limit. More...
uint8_t	tag_qt_touch_lib_config_data_t::qt_drift_hold_time
	Sensor drift hold time. More...
void(*	qt_filter_callback )(void)
	This function is called after the library has made capacitive measurements, but before it has processed them. The user can use this hook to apply filter functions to the measured signal values. More...
uint8_t	tag_qt_touch_lib_config_data_t::qt_max_on_duration
	Sensor maximum on duration. More...
qt_touch_lib_measure_data_t	qt_measure_data
	measurement data. More...
uint16_t	qt_measurement_period_msec
	timer period in msec. More...
uint8_t	tag_qt_touch_lib_config_data_t::qt_neg_drift_rate
	Sensor negative drift rate. More...
uint8_t	tag_qt_touch_lib_config_data_t::qt_pos_drift_rate
	Sensor positive drift rate. More...
uint8_t	tag_qt_touch_lib_config_data_t::qt_pos_recal_delay
	Positive recalibration delay. More...
recal_threshold_t	tag_qt_touch_lib_config_data_t::qt_recal_threshold
	Sensor recalibration threshold. More...
qt_touch_status_t	tag_qt_touch_lib_measure_data_t::qt_touch_status
	state of sensors. More...
uint8_t	tag_qt_touch_status_t::rotor_slider_values [QT_MAX_NUM_ROTORS_SLIDERS]
	Rotor angles or slider positions. More...
uint8_t	tag_qt_touch_status_t::sensor_states [QT_NUM_SENSOR_STATE_BYTES]
	The state (on/off) of the library sensors. More...
sensor_t	sensors [4]
	the library sensors. More...
uint8_t	tag_sensor_t::state
	sensor state (calibrating, on, ...). More...
uint8_t	tag_sensor_t::threshold
	sensor detection threshold. More...
uint8_t	tag_sensor_t::type_aks_pos_hyst
	sensor type, AKS group, positive recal flag, and hysteresis value bits 7..6: sensor type: 00: key 01: rotor 10: slider 11: reserved bits 5..3: AKS group (0..7): 0 = no AKS group bit 2 : positive recal flag bits 1..0: hysteresis More...

#define BURST_FUNC_NAME   BURST_JOIN( _STATIC_PORT_PIN_CONF_, QTOUCH_SNS_PORT_COUNT, INTRABURST_1, INTRABURST_2, _POWER_OPTIMIZATION_, QTOUCH_PIN_CONF )

Build pointer to correct burst function.

#define BURST_JOIN	(		static_flag,
			num_ports,
			intra1,
			intra2,
			pow_opt,
			qtouch_pin_conf
	)		JOIN4( static_flag, num_ports, intra1, intra2, pow_opt, qtouch_pin_conf )

#define CALCULATE_MASKS   NULL

This part of the code below is used for library selection.

This code will not be documented.

#define CONCAT	(		A,
			B,
			C
	)		JOIN1( A, B, C )

#define JOIN	(		x,
			y
	)		x ## y

QTouch libraries are supplied built with a range of charge times.

Charge time is the duration in which charge is transferred from the AVR onto the measurement capacitor. Shorter charge times result in faster measurements, but may be too fast to completely transfer charge onto the measurement capacitor.

The range of charge times lets the user choose a suitable version for the clock rate their chip is running at.

To make capacitive measurements, a charge time on the order of 0.25us to 2.5us is typically required. The following table shows the charge times corresponding to a range of clock speeds.

Clock speed (MHz) Cycle time (us) Suitable charge times

---

1 1 1~2 cycles (1us to 2us) 2 0.5 1~5 cycles (0.5us to 2.5us) 4 0.25 1~10 cycles (0.25us to 2.5us) 8 0.125 2~10 cycles (0.25us to 1.25us) 10 0.1 3~25 cycles (0.3us to 2.5us) 16 0.0625 4~25 cycles (0.25us to 1.5625s) 20 0.05 5~50 cycles (0.25us to 2.5us) Error Checking For the User Configuration Options Starts here._QMATRIX_ Error Checking For the User Configuration Options ends here. WARNING! Do not edit below this line. Utility macro for expanding port registers.

#define JOIN1	(		A,
			B,
			C
	)		A ## B ## C

#define JOIN4	(		a,
			b,
			c,
			d,
			e,
			f
	)		burst_ ## a ## _ ## b ## _ ## c ## d ## _ ## e ##_ ## f

Macros for string concatenation.

#define qt_init_sensing

(

)

qt_init_sensing_with_burst( BURST_FUNC_NAME ,CALCULATE_MASKS)

initialise touch sensing.

Note

Any sensors required must be enabled (using qt_enable_xxx()) before calling this function.

This function calculates internal library variables and configures the touch channels, and must be called before qt_measure_sensors().

Referenced by touch_init().

#define QT_MAX_NUM_ROTORS_SLIDERS   0

#define QT_NUM_SENSOR_STATE_BYTES   ( ( QT_NUM_CHANNELS + 7u ) / 8u )

The number of bytes required to report the maximum possible number of sensors.

#define QTLIB_BURST_AGAIN   (uint16_t) 0x0100

indicating that reburst is needed to resolve in FILTERIN or FILTEROUT or RECALIBRATE state.

Referenced by touch_key_is_pressed().

#define QTLIB_CHANNEL_REF_CHANGE   (uint16_t) 0x0008

indicating that at least one reference value has changed since last call to measure_sensors.

#define QTLIB_IN_DETECT   (uint16_t) 0x0001

indicating that at least one sensor is in detect.

#define QTLIB_NO_ACTIVITY   (uint16_t) 0x0000

Status flags used with debug.

indicating no activity.

#define QTLIB_RESOLVE_CAL   (uint16_t) 0x0200

indicating that reburst is needed to resolve in CALIBRATION.

#define QTLIB_RESOLVE_DI   (uint16_t) 0x0800

indicating that reburst is needed to resolve in RECAL.

#define QTLIB_RESOLVE_FILTERIN   (uint16_t) 0x0400

indicating that reburst is needed to resolve in FILTERING.

#define QTLIB_RESOLVE_POS_RECAL   (uint16_t) 0x1000

indicating that reburst is needed to resolve in RECAL.

#define QTLIB_ROTOR_SLIDER_POS_CHANGE   (uint16_t) 0x0004

indicating that at least one rotor slider has changed position since last call to measure_sensors.

#define QTLIB_STATUS_CHANGE   (uint16_t) 0x0002

indicating that at least one sensor haschanged ON/OFF state since last call to measure_sensors.

#define REG	(		REGISTER,
			SIDE
	)		JOIN( REGISTER, SIDE )

Macro to build register writes for controlling ports.

The intermediate JOIN macro is required for correct expansion of the args.

#define TOUCH_DATA_T   uint8_t

typedef enum tag_aks_group_t aks_group_t

Which AKS group, if any, a sensor is in.

NO_AKS_GROUP = sensor is not in an AKS group, and cannot be suppressed. AKS_GROUP_x = sensor is in AKS group x.

typedef enum tag_channel_t channel_t

The channel(s) in a sensor.

typedef enum tag_hysteresis_t hysteresis_t

A sensor detection hysteresis value.

This is expressed as a percentage of the sensor detection threshold.

HYST_x = hysteresis value is x% of detection threshold value (rounded down). NB: a minimum value of 2 is used.

Example: if detection threshold = 20, then: HYST_50 = 10 (50% of 20) HYST_25 = 5 (25% of 20) HYST_12_5 = 2 (12.5% of 20) HYST_6_25 = 2 (6.25% of 20 = 1, but value is hardlimited to 2)

typedef struct qt_lib_sig_info_t qt_lib_siginfo_t

This will be used to get the library information from the library.

typedef struct tag_qt_touch_lib_config_data_t qt_touch_lib_config_data_t

post processing configuration data that is received from the debug interface.

typedef struct tag_qt_touch_lib_measure_data_t qt_touch_lib_measure_data_t

measured touch data that is sent for the debugging and fine tunning.

typedef struct tag_qt_touch_status_t qt_touch_status_t

The state of the library sensors.

typedef enum tag_recal_threshold_t recal_threshold_t

A sensor recalibration threshold.

This is expressed as a percentage of the sensor detection threshold.

RECAL_x = recalibration threshold is x% of detection threshold value (rounded down). NB: a minimum value of 4 is used.

Example: if detection threshold = 40, then: RECAL_100 = 40 (100% of 40) RECAL_50 = 20 (50% of 40) RECAL_25 = 10 (25% of 40) RECAL_12_5 = 5 (12.5% of 40) RECAL_6_25 = 4 (6.25% of 40 = 2, but value is hardlimited to 4)

typedef enum tag_resolution_t resolution_t

For rotors and sliders, the resolution of the reported angle or position.

RES_x_BIT = rotor/slider reports x-bit values.

Example: if slider resolution is RES_7_BIT, then reported positions are in the range 0..127.

typedef struct tag_sensor_t sensor_t

typedef enum tag_sensor_type_t sensor_type_t

Options for the sensor types available.

typedef uint8_t threshold_t

QMATRIX Start.

QMATRIX EndAn unsigned 8-bit number setting a sensor detection threshold.

enum tag_aks_group_t

Which AKS group, if any, a sensor is in.

NO_AKS_GROUP = sensor is not in an AKS group, and cannot be suppressed. AKS_GROUP_x = sensor is in AKS group x.

Enumerator
NO_AKS_GROUP
AKS_GROUP_1
AKS_GROUP_2
AKS_GROUP_3
AKS_GROUP_4
AKS_GROUP_5
AKS_GROUP_6
AKS_GROUP_7

enum tag_channel_t

The channel(s) in a sensor.

Enumerator
CHANNEL_0
CHANNEL_1
CHANNEL_2
CHANNEL_3

enum tag_hysteresis_t

A sensor detection hysteresis value.

This is expressed as a percentage of the sensor detection threshold.

HYST_x = hysteresis value is x% of detection threshold value (rounded down). NB: a minimum value of 2 is used.

Example: if detection threshold = 20, then: HYST_50 = 10 (50% of 20) HYST_25 = 5 (25% of 20) HYST_12_5 = 2 (12.5% of 20) HYST_6_25 = 2 (6.25% of 20 = 1, but value is hardlimited to 2)

Enumerator
HYST_50
HYST_25
HYST_12_5
HYST_6_25

enum tag_recal_threshold_t

A sensor recalibration threshold.

This is expressed as a percentage of the sensor detection threshold.

RECAL_x = recalibration threshold is x% of detection threshold value (rounded down). NB: a minimum value of 4 is used.

Example: if detection threshold = 40, then: RECAL_100 = 40 (100% of 40) RECAL_50 = 20 (50% of 40) RECAL_25 = 10 (25% of 40) RECAL_12_5 = 5 (12.5% of 40) RECAL_6_25 = 4 (6.25% of 40 = 2, but value is hardlimited to 4)

Enumerator
RECAL_100
RECAL_50
RECAL_25
RECAL_12_5
RECAL_6_25

enum tag_resolution_t

For rotors and sliders, the resolution of the reported angle or position.

RES_x_BIT = rotor/slider reports x-bit values.

Example: if slider resolution is RES_7_BIT, then reported positions are in the range 0..127.

Enumerator
RES_1_BIT
RES_2_BIT
RES_3_BIT
RES_4_BIT
RES_5_BIT
RES_6_BIT
RES_7_BIT
RES_8_BIT

enum tag_sensor_type_t

Options for the sensor types available.

Enumerator
SENSOR_TYPE_UNASSIGNED
SENSOR_TYPE_KEY
SENSOR_TYPE_ROTOR
SENSOR_TYPE_SLIDER

void BURST_FUNC_NAME

(

TOUCH_DATA_T

mask_index

)

Burst function prototype. The code itself is stored in the touch library.

void calc_masks

(

void

)

void qt_calibrate_sensing

(

void

)

calibrate touch sensing.

Note

This function forces a calibration of all enabled sensors. This may be useful if, for instance, it is desired to globally recalibrate all sensors on a change in application operating mode.

void qt_enable_key	(	channel_t	channel,
		aks_group_t	aks_group,
		threshold_t	detect_threshold,
		hysteresis_t	detect_hysteresis
	)

enable a key sensor.

Parameters

channel,:	which touch channel the key sensor uses
aks_group,:	which AKS group (if any) the sensor is in
detect_threshold,:	the sensor detection threshold
detect_hysteresis,:	the sensor detection hysteresis value

Note

The sensor number corresponding to the key depends on the order in which sensors are enabled. The first sensor enabled is sensor 0, the second is sensor 1, and so on.

The current state of the key (on or off) can be checked in qt_touch_status.sensor_states.

Referenced by touch_config_sensor().

void qt_get_library_sig

(

qt_lib_siginfo_t *

lib_sig_ptr

)

Get the library signature.

Parameters

qt_lib_siginfo_t,:

lib_sig_ptr=Pointer to the library signature structure

int16_t qt_get_sensor_delta

(

uint8_t

sensor

)

get the current delta on the specified sensor.

Parameters

sensor,:

sensor number for which to get the delta.

Returns

int16_t: returns the delta on the specified sensor.

Note

This function is supplied as a functional replacement for the sensor_deltas[] array provided in earlier library versions.

void qt_init_sensing_with_burst	(	void(*)(TOUCH_DATA_T mask_index)	burst_function,
		void(*)(void)	calculate_masks
	)

uint16_t qt_measure_sensors

(

uint16_t

current_time_ms

)

measure touch sensors.

Parameters

current_time_ms,:

the current time, in ms

Returns

uint16_t: outputs the library status bits.

Note

This function performs a capacitive measurement on all enabled sensors. The measured signals for each sensor are then processed to check for user touches, releases, changes in rotor angle, changes in slider position, etc.

The current state of all enabled sensors is reported in the qt_touch_status struct.

Before calling this function, one or more sensors must have been enabled (using qt_enable_xxx()), and qt_init_sensing() must have been called.

Referenced by touch_key_is_pressed().

void qt_reset_sensing

(

void

)

reset touch sensing.

Note

This function disables all enabled sensors, and returns all library variables (e.g., qt_di) to their default values.

This may be useful if it is desired to dynamically reconfigure sensing. After calling this function, any required sensors must be re-enabled, and qt_init_sensing() must be called before qt_measure_channels() is called again.

void(* burst_proc)(TOUCH_DATA_T mask_index)

Function pointer used for bursting.

uint16_t tag_qt_touch_lib_measure_data_t::channel_references[4]

reference signal for each channel.

uint16_t tag_qt_touch_lib_measure_data_t::channel_signals[4]

measured signal on each channel.

uint8_t tag_sensor_t::from_channel

sensor from and to channels keys: from channel = to channel rotors/sliders run between the from and to channels NB: only need to_channel for keys in rotors/sliders build

uint8_t tag_sensor_t::general_counter

general purpose ctr: used for calibration, drifting, etc.

uint16_t qt_lib_sig_info_t::lib_sig_hword

uint16_t qt_lib_sig_info_t::lib_sig_lword

uint16_t lib_status_flags

variable holding the status flags.

uint16_t qt_lib_sig_info_t::library_version

uint8_t tag_sensor_t::ndil_counter

DI ctr.

qt_touch_lib_config_data_t qt_config_data

This configuration data structure parameters if needs to be changed will be changed in the qt_set_parameters function.

uint8_t tag_qt_touch_lib_config_data_t::qt_di

Sensor detect integration (DI) limit.

Referenced by touch_set_parameters().

uint8_t tag_qt_touch_lib_config_data_t::qt_drift_hold_time

Sensor drift hold time.

Referenced by touch_set_parameters().

void(* qt_filter_callback)(void)

This function is called after the library has made capacitive measurements, but before it has processed them. The user can use this hook to apply filter functions to the measured signal values.

Referenced by touch_init().

uint8_t tag_qt_touch_lib_config_data_t::qt_max_on_duration

Sensor maximum on duration.

Referenced by touch_set_parameters().

qt_touch_lib_measure_data_t qt_measure_data

measurement data.

uint16_t qt_measurement_period_msec

timer period in msec.

uint8_t tag_qt_touch_lib_config_data_t::qt_neg_drift_rate

Sensor negative drift rate.

Referenced by touch_set_parameters().

uint8_t tag_qt_touch_lib_config_data_t::qt_pos_drift_rate

Sensor positive drift rate.

Referenced by touch_set_parameters().

uint8_t tag_qt_touch_lib_config_data_t::qt_pos_recal_delay

Positive recalibration delay.

Referenced by touch_set_parameters().

recal_threshold_t tag_qt_touch_lib_config_data_t::qt_recal_threshold

Sensor recalibration threshold.

Referenced by touch_set_parameters().

qt_touch_status_t tag_qt_touch_lib_measure_data_t::qt_touch_status

state of sensors.

uint8_t tag_qt_touch_status_t::rotor_slider_values[QT_MAX_NUM_ROTORS_SLIDERS]

Rotor angles or slider positions.

These values are valid when sensor_states shows that the corresponding rotor or slider sensor is in detect.

uint8_t tag_qt_touch_status_t::sensor_states[QT_NUM_SENSOR_STATE_BYTES]

The state (on/off) of the library sensors.

Bit 'n' = state of sensor 'n'. Bit 0 = sensor_states[0] bit 0 Bit 1 = sensor_states[0] bit 1 ... Bit 7 = sensor_states[0] bit 7 Bit 8 = sensor_states[1] bit 0 Bit 9 = sensor_states[1] bit 1 ... etc 0 = not in detect, 1 = in detect.

sensor_t sensors[4]

the library sensors.

uint8_t tag_sensor_t::state

sensor state (calibrating, on, ...).

uint8_t tag_sensor_t::threshold

sensor detection threshold.

uint8_t tag_sensor_t::type_aks_pos_hyst

sensor type, AKS group, positive recal flag, and hysteresis value bits 7..6: sensor type: 00: key 01: rotor 10: slider 11: reserved bits 5..3: AKS group (0..7): 0 = no AKS group bit 2 : positive recal flag bits 1..0: hysteresis