2024-08-22 02:28:17 +03:00
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export class spmClass {
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constructor(args) {
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this.src1 = args.src1;
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this.src2 = args.src2;
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this.frq = args.freq;
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this.d = args.d_inner;
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this.visible = args.visible;
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2024-09-09 12:14:24 +03:00
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this.cpt = this.__todB(this.src1.values); //переводим значения массива в дБ
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this.max = this.__todB(this.src2.values); //переводим значения массива в дБ
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2024-08-22 02:28:17 +03:00
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}
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2024-09-09 12:14:24 +03:00
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__todB(arr, type) {
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2024-08-22 02:28:17 +03:00
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let __limit = 3e-4; //пороговое значение
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if (type != undefined) {
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switch (type) {
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case 0: __limit = 1e-6; break;
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case 1: __limit = 1e-9; break;
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case 2: __limit = 1e-12; break;
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default:
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break;
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};
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};
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return arr.map((item) => (item = 20 * Math.log10(item / __limit)));
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} //перевод линейных величин в дБ
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2024-09-09 12:14:24 +03:00
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__getdBi(d = this.d, rpm = this.frq * 60) {
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2024-08-22 02:28:17 +03:00
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const a = 3.135283064375708;
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const b = 4.999746694992378;
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const k = -58.16048390995372;
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function getLogUnitValue(lin_unit_value, base, k, c) {
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return c * Math.log(lin_unit_value) / Math.log(base) + k;
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};
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function getDLogUnitValue(d) {
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const base = 0.5921510231527015;
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const k = -3.015055963296224;
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const c = -0.9111115009540;
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return getLogUnitValue(d, base, k, c);
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};
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function getRpmLogUnitValue(rpm) {
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const base = 6.69896278136537;
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const k = -0.008927920952982967;
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const c = 3.3041976536011;
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return getLogUnitValue(rpm, base, k, c);
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};
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return a * getDLogUnitValue(d) + b * getRpmLogUnitValue(rpm) + k;
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} //расчет естественного уровня вибрации dBi
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2024-09-09 12:14:24 +03:00
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__getdBc() {
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2024-08-22 02:28:17 +03:00
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return Math.sqrt(this.cpt.reduce((acc, item) => (acc + item ** 2), 0) / this.cpt.length);
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} //вычисляем ковровый уровень (СКЗ) в дБ
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2024-09-09 12:14:24 +03:00
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__getdBm() {
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2024-08-22 02:28:17 +03:00
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return Math.max(...this.max);
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} //вычисляем максимальную амплитуду импульсов в дБ
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2024-09-09 12:14:24 +03:00
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__getdBn() {
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return this.__getdBm() - this.__getdBi()
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2024-08-22 02:28:17 +03:00
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} //нормализованное значение амплитуды в дБ
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2024-09-09 12:14:24 +03:00
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__getLR() {
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2024-08-22 02:28:17 +03:00
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let __max0 = this.max.slice(0) //делаем копию массива для сортировки
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let __maxSort = __max0.sort((a, b) => (b - a)); //сортируем массив по убыванию
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let __max40 = __maxSort.slice(0, 40); //выделяем 40 первых (максимальных) значений из массива
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return __max40.reduce((acc, item) => (acc + item), 0) / __max40.length;
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} //определяем LR (среднее из 40 импульсов)
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2024-09-09 12:14:24 +03:00
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__getHR() {
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2024-08-22 02:28:17 +03:00
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let __max1000 = this.max.slice(0, this.max.length / 2); //выделяем 1000 значений из массива
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return Math.sqrt(__max1000.reduce((acc, item) => (acc + item ** 2), 0) / __max1000.length); //вычисляем HR (СКЗ) в дБ
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} //вычисляем HR (СКЗ) в дБ
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getWave() {
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2024-09-09 12:14:24 +03:00
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let __dBm = this.__getdBm();
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let __dBc = this.__getdBc();
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let __LR = this.__getLR();
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let __HR = this.__getHR();
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2024-08-22 02:28:17 +03:00
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if (this.visible == true) {
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let __canvas = gtl.plots.add("Impulseform");
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__canvas.add({
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color: this.src2.color,
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name: this.src2.name,
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x: this.src2.time,
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y: this.max
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}); //рисуем форму импульсов SPM
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__canvas.add({
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color: 0xFFFF00,
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name: "dBc",
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x: this.src2.time,
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y: this.max.map((item) => (item = __dBc))
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}); //рисуем уровень dBc
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__canvas.add({
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color: 0xFF0000,
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name: "dBm",
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x: this.src2.time,
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y: this.max.map((item) => (item = __dBm))
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}); //рисуем уровень dBm
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__canvas.add({
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color: 0xFFA500,
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name: "HR",
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x: this.src2.time,
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y: this.max.map((item) => (item = __HR))
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}); //рисуем уровень HR
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__canvas.add({
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color: 0xFF00CC,
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name: "LR",
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x: this.src2.time,
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y: this.max.map((item) => (item = __LR))
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}); //рисуем уровень LR
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}
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return {
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dBm: __dBm,
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dBc: __dBc,
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LR: __LR,
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HR: __HR
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}
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}
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getResult() {
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let __result = {}; //результат
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let __state = "Норма"; //общее состояние
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let __dBn = this.__getdBn();
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2024-08-22 02:28:17 +03:00
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let __wav = this.getWave(); //рисуем форму сигнала и получаем пороги
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switch (true) {
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case (__dBn > 20) && (__dBn < 35):
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__state = "Предупреждение";
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break;
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case __dBn >= 35:
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__state = "Опасность";
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break;
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default:
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break;
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};
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__result = {
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dBm: __wav.dBm,
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dBc: __wav.dBc,
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LR: __wav.LR,
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HR: __wav.HR,
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state: __state
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};
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return __result
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} //оценка общего состояния
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}
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