Salam ka sadaya pamiarsa bagian "DIY atanapi Do It Yourself" dina Habr! Artikel dinten ieu bakal ngeunaan switch touch dina chip TTP223 | . Saklar beroperasi dina mikrokontroler nRF52832 | , modul YJ-17103 kalawan anteneu dicitak sarta konektor pikeun anteneu MHF4 éksternal dipaké. Switch touch beroperasi dina batré CR2430 atanapi CR2450. Konsumsi dina modeu ngirimkeun henteu langkung ti 8 mA, dina mode sare henteu langkung ti 6 µA.
Kawas sakabeh proyék saméméhna, ieu ogé mangrupa proyék Arduino, program ieu ditulis dina Arduino IDE. Palaksanaan software alat dumasar kana protokol Mysensors | , dina Mysensors. Forum komunitas basa Inggris - , forum komunitas basa Rusia -
(Pikeun anu hoyong diajar - , , , , | pikeun anu hoyong ngabantosan () dina pangwangunan proyék- )
Papan switch touch dikembangkeun dina program Deeptrace, nyandak kana akun manufaktur salajengna nganggo metode Laser Ironing Technology (LUT). Papan ieu dikembangkeun dina diménsi 60x60mm (panel kaca standar gaduh diménsi 80x80mm). Sirkuit dicitak dina halaman majalah Antenna sareng ditransferkeun nganggo beusi Bosch kalayan setélan "Len" (kakuatan maksimal) kana papan serat kaca foil dua sisi 1.5mm, 35µm (dina henteuna anu sanés).
Etching dilumangsungkeun ku leyuran ferric klorida, saméméhna disiapkeun dina babandingan 1.5 teaspoons per 250 ml cai haneut. Prosésna nyandak 15 menit.
Pangeboran liang pikeun vias interlayer jeung fastening wadah batré dipigawé ku DREMEL 3000 mini bor dipasang dina DREMEL 220 bor stand. Liang pikeun vias interlayer dibor ku bor 0,4mm, liang pikeun wadah batré jeung bor 1,1mm. . Trimming sapanjang wates dewan dipigawé ku mini bor sarua jeung DREMEL 540 kantétan (Cutting bunderan d = 32.0mm). Pruning dilaksanakeun dina respirator.
Tinning tina papan etched dipigawé maké Rose alloy dina leyuran cai (1 séndok téh asam sitrat crystallized per 300 ml cai).
Prosés soldering nyandak ngeunaan sajam, lolobana waktu ieu spent soldering kawat (tinned, 0.4 mm diaméterna) dina liang pikeun vias interlayer.
Papan dikumbah ku FLUX OFF aerosol cleaner.
Desain awak alat dilaksanakeun dina tilu diménsi pangropéa desain dibantuan komputer. Ukuran casing 78,5mm X 78,5mm X 12mm.
Modél réngsé kasus sareng panutup kompartemen batré disimpen dina format STL, teras éta kedah nyiapkeun modél ieu pikeun nyitak dina printer SLA (nambahan dukungan, orientasi). Dina tahap ieu, timbul masalah leutik, saprak wewengkon print printer SLA rumah tangga leutik. Model kasus alat dina posisi paling optimal relatif ka waktos percetakan teu cocog kana dimensi wewengkon percetakan. Nalika nempatkeun modél dina 45 derajat, éta ogé masihan hasil anu nguciwakeun; beurat dukungan sami sareng beurat modél awak. Ieu mutuskeun pikeun nyitak model vertikal, nyieun rojongan dina salah sahiji sisi hareup, sapuk sateuacanna jeung kanyataan pos-processing. Nyitak awak butuh 5 jam kalayan setting lapisan 50 microns. Salajengna, pamrosésan dilumangsungkeun ngagunakeun sandpaper pisan halus (Kuring moal nulis nomer sabab kuring henteu weruh :)). Panutup batré butuh 40 menit pikeun nyitak.
Panel kaca ti Aliexpress dijual kalayan pigura plastik anu parantos dipasang; teu aya masalah sareng ngahapus pigura. Kuring ngahapus panel kaca saatos dipanaskeun ku pengering rambut biasa.
Diffuser pikeun lampu tukang LED didamel tina pita dua sisi sareng napel akrilik 3M 9088-200. Pikeun pencahyaan fluoresensi aya sababaraha bahan pikeun dipilih, pita napel Cina sareng kertas napel dipotong kana kasét ti perusahaan domestik Luminofor. Pilihanna dilakukeun pikeun produsén domestik; numutkeun parasaan kuring, éta langkung terang sareng langkung lami. A pasagi kertas jeung pigmén fluoresensi ieu glued di luhur kalawan 3M 9088-200 pita dua sisi.
Kaca ieu glued kana awak switch ngagunakeun pita dua kali sided kalawan 3M VHB 4910 napel acrylic.
Panutupna dibenerkeun ku screw M 1,4 X 5 mm.
Biaya alat éta 890 rubles.
Salajengna sumping bagian program. Aya sababaraha masalah. Tétéla yén chip sénsor TTP223 tiasa dianggo saé kalayan catu daya 3.3V anu stabil sareng henteu saé nalika didamel langsung tina batré anu discharged. Nalika ngamimitian alat sareng catu daya sakitar 2.5v, tambah saatos "drawdown" tambahan nalika ngerjakeun presentasi Mysensors, microcircuit TTP223 (langsung saatos calibration) nyababkeun gangguan MK saprak éta kalayan pemicu aktip.
Sirkuit catu daya ka microcircuit dirobah (manajemén kakuatan TTP223 kalawan gpio MK), taneuh tambahan ieu disadiakeun, sarta resistors kalawan lalawanan luhur diganti dina rgb dipingpin garis (anu ngajalankeun dina sisi séjén dewan sensor kapasitif). Ieu ogé ditambahkeun kana software nu: aktivasina kakuatan pikeun microcircuit kapasitif sanggeus dimimitian kerangka Mysensors jeung digawé kaluar presentasi teh. Tunda pikeun kalibrasi otomatis tina chip TTP223 nalika kakuatan diterapkeun parantos dua kali. Sadaya parobihan ieu ngaleungitkeun masalah ieu.
Sateuacan ningali kode program, kuring nyarankeun yén anjeun familiarize diri sareng struktur dasar sketsa dina Mysensors.void before()
{
// Дополнительная функция, если сравнивать со стандартной структурой Ардуино скетчей, то before() это подобие setup(), отработка происходит до инициализации транспортного уровня Mysensors, рекомендуется например для инициализации устройств SPI
}
void setup()
{
}
void presentation()
{
//Тут происходит презентация ноды и ее сенсоров на контролере через маршрутизатор
sendSketchInfo("Name of my sensor node", "1.0"); // презентация названия ноды, версии ПО
present(CHILD_ID, S_WHATEVER, "Description"); // презентация сенсоров ноды, описания сенсоров
}
void loop()
{
}
Toel switch kode uji program:test_sens.ino
/**
ТЕСТОВЫЙ СКЕТЧ СЕНСОРНОГО ВЫКЛЮЧАТЕЛЯ С ПРЕРЫВАНИЯМИ НА NRF_LPCOMP
*/
bool button_flag;
bool sens_flag;
bool send_flag;
bool detection;
bool nosleep;
byte timer;
unsigned long SLEEP_TIME = 21600000; //6 hours
unsigned long oldmillis;
unsigned long newmillis;
unsigned long interrupt_time;
unsigned long SLEEP_TIME_W;
uint16_t currentBatteryPercent;
uint16_t batteryVoltage = 0;
uint16_t battery_vcc_min = 2400;
uint16_t battery_vcc_max = 3000;
#define MY_RADIO_NRF5_ESB
//#define MY_PASSIVE_NODE
#define MY_NODE_ID 30
#define MY_PARENT_NODE_ID 0
#define MY_PARENT_NODE_IS_STATIC
#define MY_TRANSPORT_UPLINK_CHECK_DISABLED
#define IRT_PIN 3 //(PORT0, gpio 5)
#include <MySensors.h>
// see https://www.mysensors.org/download/serial_api_20
#define SENS_CHILD_ID 0
#define CHILD_ID_VOLT 254
MyMessage sensMsg(SENS_CHILD_ID, V_VAR1);
//MyMessage voltMsg(CHILD_ID_VOLT, V_VOLTAGE);
void preHwInit() {
sleep(2000);
pinMode(RED_LED, OUTPUT);
digitalWrite(RED_LED, HIGH);
pinMode(GREEN_LED, OUTPUT);
digitalWrite(GREEN_LED, HIGH);
pinMode(BLUE_LED, OUTPUT);
digitalWrite(BLUE_LED, HIGH);
pinMode(MODE_PIN, INPUT);
pinMode(SENS_PIN, INPUT);
}
void before()
{
NRF_POWER->DCDCEN = 1;
NRF_UART0->ENABLE = 0;
sleep(1000);
digitalWrite(BLUE_LED, LOW);
sleep(150);
digitalWrite(BLUE_LED, HIGH);
}
void presentation() {
sendSketchInfo("EFEKTA Sens 1CH Sensor", "1.1");
present(SENS_CHILD_ID, S_CUSTOM, "SWITCH STATUS");
//present(CHILD_ID_VOLT, S_MULTIMETER, "Battery");
}
void setup() {
digitalWrite(BLUE_LED, LOW);
sleep(100);
digitalWrite(BLUE_LED, HIGH);
sleep(200);
digitalWrite(BLUE_LED, LOW);
sleep(100);
digitalWrite(BLUE_LED, HIGH);
lpComp();
detection = false;
SLEEP_TIME_W = SLEEP_TIME;
pinMode(31, OUTPUT);
digitalWrite(31, HIGH);
/*
while (timer < 10) {
timer++;
digitalWrite(GREEN_LED, LOW);
wait(5);
digitalWrite(GREEN_LED, HIGH);
wait(500);
}
timer = 0;
*/
sleep(7000);
while (timer < 3) {
timer++;
digitalWrite(GREEN_LED, LOW);
sleep(15);
digitalWrite(GREEN_LED, HIGH);
sleep(85);
}
timer = 0;
sleep(1000);
}
void loop() {
if (detection) {
if (digitalRead(MODE_PIN) == 1 && button_flag == 0 && digitalRead(SENS_PIN) == 0) {
//back side button detection
button_flag = 1;
nosleep = 1;
}
if (digitalRead(MODE_PIN) == 1 && button_flag == 1 && digitalRead(SENS_PIN) == 0) {
digitalWrite(RED_LED, LOW);
wait(10);
digitalWrite(RED_LED, HIGH);
wait(50);
}
if (digitalRead(MODE_PIN) == 0 && button_flag == 1 && digitalRead(SENS_PIN) == 0) {
nosleep = 0;
button_flag = 0;
digitalWrite(RED_LED, HIGH);
lpComp_reset();
}
if (digitalRead(SENS_PIN) == 1 && sens_flag == 0 && digitalRead(MODE_PIN) == 0) {
//sens detection
sens_flag = 1;
nosleep = 1;
newmillis = millis();
interrupt_time = newmillis - oldmillis;
SLEEP_TIME_W = SLEEP_TIME_W - interrupt_time;
if (send(sensMsg.set(detection))) {
send_flag = 1;
}
}
if (digitalRead(SENS_PIN) == 1 && sens_flag == 1 && digitalRead(MODE_PIN) == 0) {
if (send_flag == 1) {
while (timer < 10) {
timer++;
digitalWrite(GREEN_LED, LOW);
wait(20);
digitalWrite(GREEN_LED, HIGH);
wait(30);
}
timer = 0;
} else {
while (timer < 10) {
timer++;
digitalWrite(RED_LED, LOW);
wait(20);
digitalWrite(RED_LED, HIGH);
wait(30);
}
timer = 0;
}
}
if (digitalRead(SENS_PIN) == 0 && sens_flag == 1 && digitalRead(MODE_PIN) == 0) {
sens_flag = 0;
nosleep = 0;
send_flag = 0;
digitalWrite(GREEN_LED, HIGH);
sleep(500);
lpComp_reset();
}
if (SLEEP_TIME_W < 60000) {
SLEEP_TIME_W = SLEEP_TIME;
sendBatteryStatus();
}
}
else {
//if (detection == -1) {
SLEEP_TIME_W = SLEEP_TIME;
sendBatteryStatus();
}
if (nosleep == 0) {
oldmillis = millis();
sleep(SLEEP_TIME_W);
}
}
void sendBatteryStatus() {
wait(20);
batteryVoltage = hwCPUVoltage();
wait(2);
if (batteryVoltage > battery_vcc_max) {
currentBatteryPercent = 100;
}
else if (batteryVoltage < battery_vcc_min) {
currentBatteryPercent = 0;
} else {
currentBatteryPercent = (100 * (batteryVoltage - battery_vcc_min)) / (battery_vcc_max - battery_vcc_min);
}
sendBatteryLevel(currentBatteryPercent, 1);
wait(2000, C_INTERNAL, I_BATTERY_LEVEL);
//send(powerMsg.set(batteryVoltage), 1);
//wait(2000, 1, V_VAR1);
}
void lpComp() {
NRF_LPCOMP->PSEL = IRT_PIN;
NRF_LPCOMP->ANADETECT = 1;
NRF_LPCOMP->INTENSET = B0100;
NRF_LPCOMP->ENABLE = 1;
NRF_LPCOMP->TASKS_START = 1;
NVIC_SetPriority(LPCOMP_IRQn, 15);
NVIC_ClearPendingIRQ(LPCOMP_IRQn);
NVIC_EnableIRQ(LPCOMP_IRQn);
}
void s_lpComp() {
if ((NRF_LPCOMP->ENABLE) && (NRF_LPCOMP->EVENTS_READY)) {
NRF_LPCOMP->INTENCLR = B0100;
}
}
void r_lpComp() {
NRF_LPCOMP->INTENSET = B0100;
}
#if __CORTEX_M == 0x04
#define NRF5_RESET_EVENT(event)
event = 0;
(void)event
#else
#define NRF5_RESET_EVENT(event) event = 0
#endif
extern "C" {
void LPCOMP_IRQHandler(void) {
detection = true;
NRF5_RESET_EVENT(NRF_LPCOMP->EVENTS_UP);
NRF_LPCOMP->EVENTS_UP = 0;
MY_HW_RTC->CC[0] = (MY_HW_RTC->COUNTER + 2);
}
}
void lpComp_reset () {
s_lpComp();
detection = false;
NRF_LPCOMP->EVENTS_UP = 0;
r_lpComp();
}
MyBoardNRF5.cpp
#ifdef MYBOARDNRF5
#include <variant.h>
/*
* Pins descriptions. Attributes are ignored by arduino-nrf5 variant.
* Definition taken from Arduino Primo Core with ordered ports
*/
const PinDescription g_APinDescription[]=
{
{ NOT_A_PORT, 0, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // LFCLK
{ NOT_A_PORT, 1, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // LFCLK
{ PORT0, 2, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A0, PWM4, NOT_ON_TIMER},
{ PORT0, 3, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A1, PWM5, NOT_ON_TIMER},
{ PORT0, 4, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A2, PWM6, NOT_ON_TIMER},
{ PORT0, 5, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A3, PWM7, NOT_ON_TIMER},
{ PORT0, 6, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT3
{ PORT0, 7, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT4
{ PORT0, 8, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM10, NOT_ON_TIMER}, //USER_LED
{ PORT0, 9, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // NFC1
{ PORT0, 10, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // NFC2
{ PORT0, 11, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // TX
{ PORT0, 12, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // RX
{ PORT0, 13, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SDA
{ PORT0, 14, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SCL
{ PORT0, 15, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SDA1
{ PORT0, 16, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // SCL1
{ PORT0, 17, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // TP4
{ PORT0, 18, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // TP5
{ PORT0, 19, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT2
{ PORT0, 20, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT1
{ PORT0, 21, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT1
{ PORT0, 22, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM9, NOT_ON_TIMER},
{ PORT0, 23, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM8, NOT_ON_TIMER},
{ PORT0, 24, PIO_DIGITAL, PIN_ATTR_DIGITAL, No_ADC_Channel, NOT_ON_PWM, NOT_ON_TIMER}, // INT
{ PORT0, 25, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM11, NOT_ON_TIMER}, //RED_LED
{ PORT0, 26, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM11, NOT_ON_TIMER}, //GREEN_LED
{ PORT0, 27, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), No_ADC_Channel, PWM11, NOT_ON_TIMER}, //BLUE_LED
{ PORT0, 28, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A4, PWM3, NOT_ON_TIMER},
{ PORT0, 29, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A5, PWM2, NOT_ON_TIMER},
{ PORT0, 30, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A6, PWM1, NOT_ON_TIMER},
{ PORT0, 31, PIO_DIGITAL, (PIN_ATTR_DIGITAL|PIN_ATTR_PWM), ADC_A7, PWM0, NOT_ON_TIMER}
};
// Don't remove this line
#include <compat_pin_mapping.h>
#endif
MyBoardNRF5.h
#ifndef _MYBOARDNRF5_H_
#define _MYBOARDNRF5_H_
#ifdef __cplusplus
extern "C"
{
#endif // __cplusplus
// Number of pins defined in PinDescription array
#define PINS_COUNT (32u)
#define NUM_DIGITAL_PINS (32u)
#define NUM_ANALOG_INPUTS (8u)
#define NUM_ANALOG_OUTPUTS (8u)
/*
* LEDs
*
* This is optional
*
* With My Sensors, you can use
* hwPinMode() instead of pinMode()
* hwPinMode() allows to use advanced modes like OUTPUT_H0H1 to drive LEDs.
* https://github.com/mysensors/MySensors/blob/development/drivers/NRF5/nrf5_wiring_constants.h
*
*/
#define PIN_LED1 (16)
#define PIN_LED2 (15)
#define PIN_LED3 (17)
#define RED_LED (PIN_LED1)
#define GREEN_LED (PIN_LED2)
#define BLUE_LED (PIN_LED3)
#define INTERRUPT_PIN (5)
#define MODE_PIN (25)
#define SENS_PIN (27)
/*
* Analog ports
*
* If you change g_APinDescription, replace PIN_AIN0 with
* port numbers mapped by the g_APinDescription Array.
* You can add PIN_AIN0 to the g_APinDescription Array if
* you want provide analog ports MCU independed, you can add
* PIN_AIN0..PIN_AIN7 to your custom g_APinDescription Array
* defined in MyBoardNRF5.cpp
*/
static const uint8_t A0 = ADC_A0;
static const uint8_t A1 = ADC_A1;
static const uint8_t A2 = ADC_A2;
static const uint8_t A3 = ADC_A3;
static const uint8_t A4 = ADC_A4;
static const uint8_t A5 = ADC_A5;
static const uint8_t A6 = ADC_A6;
static const uint8_t A7 = ADC_A7;
/*
* Serial interfaces
*
* RX and TX are required.
* If you have no serial port, use unused pins
* CTS and RTS are optional.
*/
#define PIN_SERIAL_RX (11)
#define PIN_SERIAL_TX (12)
#ifdef __cplusplus
}
#endif
#endif
Switch ngabogaan tombol touch sarta tombol kawijaksanaan dina tonggong alat. Tombol kawijaksanaan ieu bakal dianggo pikeun modeu layanan, mode ngariung over-the-air, sareng reset alat. Tombolna ngagaduhan fitur anti mumbul beusi. Garis tina sensor kapasitif jeung garis tina tombol kawijaksanaan disambungkeun ngaliwatan diodes Schottky tur disambungkeun ka pin analog p0.05, sarta ogé ti sensor kapasitif jeung tombol kawijaksanaan aya garis ka pin MK p0.25 na p0.27. .0.05 pikeun maca kaayaan sanggeus ngaktipkeun interupsi on pin p0.05. XNUMX. Dina pin pXNUMX, interupsi via comparator (NRF_LPCOMP) via EVENTS_UP diaktipkeun. Kuring narima inspirasi pikeun ngajawab masalah и .
Saklar ieu ditambahkeun kana jaringan Mysensors, dikelola ku controller home pinter Majordomo ()
Kode PHP pikeun nambahkeun switch kana metoda statusUpdate
if (getGlobal("MysensorsButton01.status")==1) {
if (getGlobal('MysensorsRelay04.status') == 0) {
setGlobal('MysensorsRelay04.status', '1');
} else if (getGlobal('MysensorsRelay04.status') == 1) {
setGlobal('MysensorsRelay04.status', '0');
}
}
Tempo hasilna dina video
Engké, hiji pilihan dijieun ku konverter dorongan, tapi ieu teu patali jeung operasi tina TTP223 microcircuit kapasitif; aya deui kahayang pikeun katerangan alus tur seragam nalika mencét kenop sapanjang sakabéh umur batre.
neuteup
Proyék Github -
Rusia-diomongkeun Mysensors
- solusi gancang pikeun masalah sareng Mysensors, tip, trik, masang papan, damel sareng mikrokontroler atmega 328, stm32, nRF5 dina Arduino IDE -
Sababaraha poto
sumber: www.habr.com