Martin Kojtal / tsi_sensor

A library for Freescale MCU which contain TSI peripheral, just for Kinetis L version. Because they use "lighter" version of TSI peripheral.

Dependents:   kl25z-tinyshell-demo tsi_slider_light_senso_LED frdm_tsi_slider_led_blend demo_slider ... more

This library is "fork" of the TSI library created by the mbed team.

tsi_sensor.h@3:20ffa9b18488, 2014-02-23 (annotated)

Committer:
Kojto
Date:
Sun Feb 23 18:31:58 2014 +0000
Revision:
3:20ffa9b18488
Parent:
2:b7074bcc2376
Child:
4:f64097679f27
Analog slider contain own instances of electrodes.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
Kojto 0:9331e373c138 1 /* Freescale Semiconductor Inc.
Kojto 0:9331e373c138 2 *
Kojto 0:9331e373c138 3 * mbed Microcontroller Library
Kojto 0:9331e373c138 4 * (c) Copyright 2009-2012 ARM Limited.
Kojto 0:9331e373c138 5 *
Kojto 0:9331e373c138 6 * Permission is hereby granted, free of charge, to any person obtaining a copy of this software
Kojto 0:9331e373c138 7 * and associated documentation files (the "Software"), to deal in the Software without
Kojto 0:9331e373c138 8 * restriction, including without limitation the rights to use, copy, modify, merge, publish,
Kojto 0:9331e373c138 9 * distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the
Kojto 0:9331e373c138 10 * Software is furnished to do so, subject to the following conditions:
Kojto 0:9331e373c138 11 *
Kojto 0:9331e373c138 12 * The above copyright notice and this permission notice shall be included in all copies or
Kojto 0:9331e373c138 13 * substantial portions of the Software.
Kojto 0:9331e373c138 14 *
Kojto 0:9331e373c138 15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
Kojto 0:9331e373c138 16 * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
Kojto 0:9331e373c138 17 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
Kojto 0:9331e373c138 18 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
Kojto 0:9331e373c138 19 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Kojto 0:9331e373c138 20 */
Kojto 0:9331e373c138 21
Kojto 0:9331e373c138 22 #ifndef TSISENSOR_H
Kojto 0:9331e373c138 23 #define TSISENSOR_H
Kojto 0:9331e373c138 24
Kojto 0:9331e373c138 25 /**
Kojto 0:9331e373c138 26 * TSISensor example
Kojto 0:9331e373c138 27 *
Kojto 0:9331e373c138 28 * @code
Kojto 0:9331e373c138 29 * #include "mbed.h"
Kojto 0:9331e373c138 30 * #include "TSISensor.h"
Kojto 0:9331e373c138 31 *
Kojto 0:9331e373c138 32 * int main(void) {
Kojto 0:9331e373c138 33 * DigitalOut led(LED_GREEN);
Kojto 0:9331e373c138 34 * TSIElectrode elec0(9);
Kojto 0:9331e373c138 35 * TSIElectrode elec1(10);
Kojto 0:9331e373c138 36 * TSIAnalogSlider tsi(elec0, elec1, 40);
Kojto 0:9331e373c138 37 *
Kojto 0:9331e373c138 38 * while (true) {
Kojto 0:9331e373c138 39 * printf("slider percentage: %f%\r\n", tsi.readPercentage());
Kojto 0:9331e373c138 40 * printf("slider distance: %dmm\r\n", tsi.readDistance());
Kojto 0:9331e373c138 41 * wait(1);
Kojto 0:9331e373c138 42 * led = !led;
Kojto 0:9331e373c138 43 * }
Kojto 0:9331e373c138 44 * }
Kojto 0:9331e373c138 45 * @endcode
Kojto 0:9331e373c138 46 */
Kojto 0:9331e373c138 47 #define NO_TOUCH 0
Kojto 0:9331e373c138 48
Kojto 0:9331e373c138 49 /** TSI Electrode with simple data required for touch detection.
Kojto 0:9331e373c138 50 */
Kojto 0:9331e373c138 51 class TSIElectrode {
Kojto 0:9331e373c138 52 public:
Kojto 0:9331e373c138 53 /** Initialize electrode.
Kojto 0:9331e373c138 54 */
Kojto 0:9331e373c138 55 TSIElectrode(uint32_t tsi_channel) : _threshold(100) {
Kojto 0:9331e373c138 56 _channel = (uint8_t)tsi_channel;
Kojto 0:9331e373c138 57 }
Kojto 0:9331e373c138 58 /** Set baseline.
Kojto 0:9331e373c138 59 */
Kojto 0:9331e373c138 60 void setBaseline(uint32_t baseline) {
Kojto 0:9331e373c138 61 _baseline = (uint16_t)baseline;
Kojto 0:9331e373c138 62 }
Kojto 0:9331e373c138 63 /** Set threshold.
Kojto 0:9331e373c138 64 */
Kojto 0:9331e373c138 65 void setThreshold(uint32_t threshold) {
Kojto 0:9331e373c138 66 _threshold = (uint16_t)threshold;
Kojto 0:9331e373c138 67 }
Kojto 0:9331e373c138 68 /** Set signal.
Kojto 0:9331e373c138 69 */
Kojto 0:9331e373c138 70 void setSignal(uint32_t signal) {
Kojto 0:9331e373c138 71 _signal = (uint16_t)signal;
Kojto 0:9331e373c138 72 }
Kojto 0:9331e373c138 73 /** Get baseline.
Kojto 0:9331e373c138 74 */
Kojto 0:9331e373c138 75 uint32_t getBaseline() {
Kojto 0:9331e373c138 76 return _baseline;
Kojto 0:9331e373c138 77 }
Kojto 0:9331e373c138 78 /** Get delta.
Kojto 0:9331e373c138 79 */
Kojto 0:9331e373c138 80 uint32_t getDelta() {
Kojto 0:9331e373c138 81 int32_t delta = getSignal() - getBaseline();
Kojto 0:9331e373c138 82 if (delta < 0) {
Kojto 0:9331e373c138 83 return 0;
Kojto 0:9331e373c138 84 } else {
Kojto 0:9331e373c138 85 return delta;
Kojto 0:9331e373c138 86 }
Kojto 0:9331e373c138 87 }
Kojto 0:9331e373c138 88 /** Get signal.
Kojto 0:9331e373c138 89 */
Kojto 0:9331e373c138 90 uint32_t getSignal() {
Kojto 0:9331e373c138 91 return _signal;
Kojto 0:9331e373c138 92 }
Kojto 0:9331e373c138 93 /** Get threshold.
Kojto 0:9331e373c138 94 */
Kojto 0:9331e373c138 95 uint32_t getThreshold() {
Kojto 0:9331e373c138 96 return _threshold;
Kojto 0:9331e373c138 97 }
Kojto 0:9331e373c138 98 /** Get channel.
Kojto 0:9331e373c138 99 */
Kojto 0:9331e373c138 100 uint32_t getChannel() {
Kojto 0:9331e373c138 101 return _channel;
Kojto 0:9331e373c138 102 }
Kojto 0:9331e373c138 103 private:
Kojto 0:9331e373c138 104 uint8_t _channel;
Kojto 0:9331e373c138 105 uint16_t _signal;
Kojto 0:9331e373c138 106 uint16_t _baseline;
Kojto 0:9331e373c138 107 uint16_t _threshold;
Kojto 0:9331e373c138 108 };
Kojto 0:9331e373c138 109
Kojto 0:9331e373c138 110 /** Analog slider which consists of two electrodes.
Kojto 0:9331e373c138 111 */
Kojto 0:9331e373c138 112 class TSIAnalogSlider {
Kojto 0:9331e373c138 113 public:
Kojto 0:9331e373c138 114 /**
Kojto 0:9331e373c138 115 * Initialize the TSI Touch Sensor
Kojto 0:9331e373c138 116 */
Kojto 3:20ffa9b18488 117 TSIAnalogSlider(uint32_t elec0, uint32_t elec1, uint32_t range);
Kojto 0:9331e373c138 118 /**
Kojto 0:9331e373c138 119 * Read Touch Sensor percentage value
Kojto 0:9331e373c138 120 *
Kojto 0:9331e373c138 121 * @returns percentage value between [0 ... 1]
Kojto 0:9331e373c138 122 */
Kojto 0:9331e373c138 123 float readPercentage();
Kojto 0:9331e373c138 124 /**
Kojto 0:9331e373c138 125 * Read Touch Sensor distance
Kojto 0:9331e373c138 126 *
Kojto 0:9331e373c138 127 * @returns distance in mm. The value is between [0 ... _range]
Kojto 0:9331e373c138 128 */
Kojto 0:9331e373c138 129 uint32_t readDistance();
Kojto 0:9331e373c138 130 /** Get current electrode.
Kojto 0:9331e373c138 131 */
Kojto 0:9331e373c138 132 TSIElectrode* getCurrentElectrode() {
Kojto 0:9331e373c138 133 return _current_elec;
Kojto 0:9331e373c138 134 }
Kojto 0:9331e373c138 135 /** Set current electrode which is being measured.
Kojto 0:9331e373c138 136 */
Kojto 0:9331e373c138 137 void setCurrentElectrode(TSIElectrode *elec){
Kojto 0:9331e373c138 138 _current_elec = elec;
Kojto 0:9331e373c138 139 }
Kojto 0:9331e373c138 140 /** Get next electrode.
Kojto 0:9331e373c138 141 */
Kojto 0:9331e373c138 142 TSIElectrode* getNextElectrode(TSIElectrode* electrode) {
Kojto 0:9331e373c138 143 if (electrode->getChannel() == _elec0.getChannel()) {
Kojto 0:9331e373c138 144 return &_elec1;
Kojto 0:9331e373c138 145 } else {
Kojto 0:9331e373c138 146 return &_elec0;
Kojto 0:9331e373c138 147 }
Kojto 0:9331e373c138 148 }
Kojto 0:9331e373c138 149 /** Return absolute distance position.
Kojto 0:9331e373c138 150 */
Kojto 0:9331e373c138 151 uint32_t getAbsoluteDistance() {
Kojto 0:9331e373c138 152 return _absolute_distance_pos;
Kojto 0:9331e373c138 153 }
Kojto 0:9331e373c138 154 /** Return absolute precentage position.
Kojto 0:9331e373c138 155 */
Kojto 0:9331e373c138 156 uint32_t getAbsolutePosition() {
Kojto 0:9331e373c138 157 return _absolute_percentage_pos;
Kojto 0:9331e373c138 158 }
Kojto 0:9331e373c138 159 /** Set value to the scan in progress flag.
Kojto 0:9331e373c138 160 */
Kojto 0:9331e373c138 161 void setScan(uint32_t scan) {
Kojto 0:9331e373c138 162 _scan_in_progress = scan;
Kojto 0:9331e373c138 163 }
Kojto 0:9331e373c138 164 /** Return instance to Analog slider. Used in tsi irq.
Kojto 0:9331e373c138 165 */
Kojto 0:9331e373c138 166 static TSIAnalogSlider *getInstance() {
Kojto 0:9331e373c138 167 return _instance;
Kojto 0:9331e373c138 168 }
Kojto 0:9331e373c138 169 private:
Kojto 0:9331e373c138 170 void sliderRead(void);
Kojto 0:9331e373c138 171 void selfCalibration(void);
Kojto 0:9331e373c138 172 void setSliderPercPosition(uint32_t elec_num, uint32_t position) {
Kojto 0:9331e373c138 173 _percentage_position[elec_num] = position;
Kojto 0:9331e373c138 174 }
Kojto 0:9331e373c138 175 void setSliderDisPosition(uint32_t elec_num, uint32_t position) {
Kojto 0:9331e373c138 176 _distance_position[elec_num] = position;
Kojto 0:9331e373c138 177 }
Kojto 0:9331e373c138 178 void setAbsolutePosition(uint32_t position) {
Kojto 0:9331e373c138 179 _absolute_percentage_pos = position;
Kojto 0:9331e373c138 180 }
Kojto 0:9331e373c138 181 void setAbsoluteDistance(uint32_t distance) {
Kojto 0:9331e373c138 182 _absolute_distance_pos = distance;
Kojto 0:9331e373c138 183 }
Kojto 0:9331e373c138 184 private:
Kojto 3:20ffa9b18488 185 TSIElectrode _elec0;
Kojto 3:20ffa9b18488 186 TSIElectrode _elec1;
Kojto 0:9331e373c138 187 uint8_t _scan_in_progress;
Kojto 0:9331e373c138 188 TSIElectrode* _current_elec;
Kojto 0:9331e373c138 189 uint8_t _percentage_position[2];
Kojto 0:9331e373c138 190 uint8_t _distance_position[2];
Kojto 0:9331e373c138 191 uint32_t _absolute_percentage_pos;
Kojto 0:9331e373c138 192 uint32_t _absolute_distance_pos;
Kojto 0:9331e373c138 193 uint8_t _range;
Kojto 0:9331e373c138 194 protected:
Kojto 0:9331e373c138 195 static TSIAnalogSlider *_instance;
Kojto 0:9331e373c138 196 };
Kojto 0:9331e373c138 197
Kojto 0:9331e373c138 198 #endif