UNPKG

zigbee-herdsman-converters

Version:

Collection of device converters to be used with zigbee-herdsman

github.com/Koenkk/zigbee-herdsman-converters

Koenkk/zigbee-herdsman-converters

179 lines • 8.66 kB

JavaScript

"use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", { value: true }); const exposes = __importStar(require("../lib/exposes")); const fromZigbee_1 = __importDefault(require("../converters/fromZigbee")); const toZigbee_1 = __importDefault(require("../converters/toZigbee")); const reporting = __importStar(require("../lib/reporting")); const e = exposes.presets; const definitions = [ { zigbeeModel: ['SZ-ESW01'], model: 'SZ-ESW01', vendor: 'Sercomm', description: 'Telstra smart plug', fromZigbee: [fromZigbee_1.default.on_off, fromZigbee_1.default.metering], exposes: [e.switch(), e.power()], toZigbee: [toZigbee_1.default.on_off], configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['genOnOff', 'seMetering']); await reporting.onOff(endpoint); await reporting.instantaneousDemand(endpoint); endpoint.saveClusterAttributeKeyValue('seMetering', { divisor: 1000000, multiplier: 1 }); }, }, { zigbeeModel: ['SZ-ESW01-AU'], model: 'SZ-ESW01-AU', vendor: 'Sercomm', description: 'Telstra smart plug', exposes: [e.switch(), e.power(), e.energy(), e.current(), e.voltage()], fromZigbee: [fromZigbee_1.default.on_off, fromZigbee_1.default.metering, fromZigbee_1.default.electrical_measurement], toZigbee: [toZigbee_1.default.on_off], configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['genOnOff', 'seMetering', 'haElectricalMeasurement']); await reporting.onOff(endpoint); await reporting.instantaneousDemand(endpoint); await reporting.currentSummDelivered(endpoint); endpoint.saveClusterAttributeKeyValue('seMetering', { divisor: 1000000, multiplier: 1 }); await reporting.readEletricalMeasurementMultiplierDivisors(endpoint); await reporting.rmsVoltage(endpoint); await reporting.rmsCurrent(endpoint); }, }, { zigbeeModel: ['SZ-ESW02'], model: 'SZ-ESW02', vendor: 'Sercomm', description: 'Telstra smart plug 2', fromZigbee: [fromZigbee_1.default.on_off, fromZigbee_1.default.metering], exposes: [e.switch(), e.power()], toZigbee: [toZigbee_1.default.on_off], configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['genOnOff', 'seMetering']); await reporting.onOff(endpoint); await reporting.instantaneousDemand(endpoint); endpoint.saveClusterAttributeKeyValue('seMetering', { divisor: 1000000, multiplier: 1 }); }, }, { zigbeeModel: ['XHS2-SE'], model: 'XHS2-SE', vendor: 'Sercomm', description: 'Magnetic door & window contact sensor', fromZigbee: [fromZigbee_1.default.ias_contact_alarm_1, fromZigbee_1.default.temperature, fromZigbee_1.default.battery], toZigbee: [], meta: { battery: { voltageToPercentage: '3V_2100' } }, configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['msTemperatureMeasurement', 'genPowerCfg']); await reporting.temperature(endpoint); await reporting.batteryVoltage(endpoint); }, exposes: [e.contact(), e.battery_low(), e.tamper(), e.temperature(), e.battery()], }, { zigbeeModel: ['SZ-DWS04', 'SZ-DWS04N_SF'], model: 'SZ-DWS04', vendor: 'Sercomm', description: 'Magnetic door & window contact sensor', fromZigbee: [fromZigbee_1.default.ias_contact_alarm_1, fromZigbee_1.default.temperature, fromZigbee_1.default.battery], toZigbee: [], meta: { battery: { voltageToPercentage: '3V_2100' } }, configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['msTemperatureMeasurement', 'genPowerCfg']); await reporting.temperature(endpoint); await reporting.batteryVoltage(endpoint); }, exposes: [e.contact(), e.battery_low(), e.tamper(), e.temperature(), e.battery()], }, { zigbeeModel: ['SZ-DWS08N', 'SZ-DWS08', 'SZ-DWS08N-CZ3'], model: 'SZ-DWS08', vendor: 'Sercomm', description: 'Magnetic door & window contact sensor', fromZigbee: [fromZigbee_1.default.ias_contact_alarm_1, fromZigbee_1.default.temperature, fromZigbee_1.default.battery], toZigbee: [], meta: { battery: { voltageToPercentage: '3V_2100' } }, configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['msTemperatureMeasurement', 'genPowerCfg']); await reporting.temperature(endpoint); await reporting.batteryVoltage(endpoint); }, exposes: [e.contact(), e.battery_low(), e.tamper(), e.temperature(), e.battery()], }, { zigbeeModel: ['SZ-PIR02_SF', 'SZ-PIR02'], model: 'AL-PIR02', vendor: 'Sercomm', description: 'PIR motion sensor', fromZigbee: [fromZigbee_1.default.ias_occupancy_alarm_1, fromZigbee_1.default.battery], toZigbee: [], meta: { battery: { voltageToPercentage: '3V_2100' } }, configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['genPowerCfg']); await reporting.batteryPercentageRemaining(endpoint); }, exposes: [e.occupancy(), e.battery_low(), e.tamper(), e.battery()], }, { zigbeeModel: ['SZ-PIR04N', 'SZ-PIR04N_EU'], model: 'SZ-PIR04N', vendor: 'Sercomm', description: 'PIR motion & temperature sensor', fromZigbee: [fromZigbee_1.default.ias_occupancy_alarm_1, fromZigbee_1.default.illuminance, fromZigbee_1.default.temperature, fromZigbee_1.default.battery], toZigbee: [], meta: { battery: { voltageToPercentage: '3V_2500_3200' } }, configure: async (device, coordinatorEndpoint) => { const endpoint = device.getEndpoint(1); await reporting.bind(endpoint, coordinatorEndpoint, ['msIlluminanceMeasurement', 'msTemperatureMeasurement', 'genPowerCfg']); await reporting.illuminance(endpoint); await reporting.temperature(endpoint); await reporting.batteryVoltage(endpoint); }, exposes: [e.occupancy(), e.tamper(), e.illuminance(), e.temperature(), e.battery(), e.battery_voltage()], }, { zigbeeModel: ['SZ-WTD03'], model: 'SZ-WTD03', vendor: 'Sercomm', description: 'Water leak detector', fromZigbee: [fromZigbee_1.default.ias_water_leak_alarm_1, fromZigbee_1.default.battery], toZigbee: [], exposes: [e.water_leak(), e.battery_low()], }, ]; exports.default = definitions; module.exports = definitions; //# sourceMappingURL=sercomm.js.map