zigbee-herdsman-converters
Version:
Collection of device converters to be used with zigbee-herdsman
1,081 lines • 52.3 kB
JavaScript
"use strict";
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var __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", { value: true });
exports.definitions = void 0;
const node_assert_1 = __importDefault(require("node:assert"));
const zigbee_herdsman_1 = require("zigbee-herdsman");
const fz = __importStar(require("../converters/fromZigbee"));
const tz = __importStar(require("../converters/toZigbee"));
const exposes = __importStar(require("../lib/exposes"));
const m = __importStar(require("../lib/modernExtend"));
const globalStore = __importStar(require("../lib/store"));
const tuya = __importStar(require("../lib/tuya"));
const utils = __importStar(require("../lib/utils"));
const e = exposes.presets;
const ea = exposes.access;
const manufacturerSpecificSwitchTypeClusterCode = 0x1224;
const manufacturerSpecificMinimumBrightnessClusterCode = 0x1224;
const manufacturerSpecificRotaryRemoteControlClusterCode = 0xff03;
const switchTypeAttribute = 0x8803;
const switchTypeDataType = 0x20;
const minimumBrightnessLevelAttribute = 0x7809;
const minimumBrightnessLevelDataType = 0x20;
const minimumBrightnessLevelRawOffset = 4;
const minimumBrightnessLevelRawScale = 4.6615756;
const switchTypeValueMap = {
0: "momentary",
1: "toggle",
};
const switchTypeValueLookup = {
momentary: 0,
toggle: 1,
};
const rd1pKnobActionsMap = {
commandOff: "double_pressed",
commandOn: "pressed",
commandToggle: "held",
commandRelease: "released",
commandMoveWithOnOff: "started_rotating_",
commandStepWithOnOff: "rotating_",
commandStop: "stopped_rotating",
};
const kineticRFButtonMultiPressActions = {
1: "single",
2: "double",
3: "triple",
4: "quadruple",
5: "quintuple",
};
const kineticRFButtonMultiPressTimeout = 1000;
const kineticRFButtonMultiPressOptions = {
actions: () => e
.enum("actions", ea.SET, [
"single",
"single & double",
"single, double & triple",
"single, double, triple & quadruple",
"single, double, triple, quadruple & quintuple",
])
.withDescription("Which press actions do you wish to detect (default: single)?"),
timeout: () => e
.numeric("timeout", ea.SET)
.withValueMin(500)
.withValueMax(1500)
.withUnit("ms")
.withDescription("Time in ms to delay sending of action since last event to allow for multi-press event detection (ignored if only single event is being detected)."),
};
const luxScale = (value, type) => {
let result = value;
if (type === "from") {
result = 10 ** ((result - 1) / 10000);
if (result > 0 && result <= 2200) {
result = -7.969192 + 0.0151988 * result;
}
else if (result > 2200 && result <= 2500) {
result = -1069.189434 + 0.4950663 * result;
}
else if (result > 2500) {
result = 78029.21628 - 61.73575 * result + 0.01223567 * result ** 2;
}
result = result < 1 ? 1 : result;
}
return result;
};
const fzLocal = {
kinetic_rf_button_multi_press: {
cluster: "genOnOff",
type: ["attributeReport", "readResponse"],
options: [kineticRFButtonMultiPressOptions.actions(), kineticRFButtonMultiPressOptions.timeout()],
convert: (model, msg, publish, options, meta) => {
if (utils.hasAlreadyProcessedMessage(msg, model))
return;
if (msg.data?.onOff === undefined)
return;
const endpoint = msg.endpoint;
const actionsRaw = typeof options?.actions === "string" ? options.actions : undefined;
if (!actionsRaw || actionsRaw === "single") {
return { action: `button_${endpoint.ID}_single_pressed` };
}
let buttonClickCount = globalStore.getValue(endpoint, "button_click_count");
buttonClickCount = buttonClickCount ? buttonClickCount + 1 : 1;
globalStore.putValue(endpoint, "button_click_count", buttonClickCount);
const existingTimer = globalStore.getValue(endpoint, "timer");
if (existingTimer)
clearTimeout(existingTimer);
const timeout = typeof options?.timeout === "number" ? options.timeout : kineticRFButtonMultiPressTimeout;
const enabledActions = actionsRaw ? actionsRaw.split(/[, &]+/) : [];
const timer = setTimeout(() => {
const count = globalStore.getValue(endpoint, "button_click_count");
if (kineticRFButtonMultiPressActions[count]) {
const button_action = kineticRFButtonMultiPressActions[count];
if (enabledActions.includes(button_action)) {
publish({ action: `button_${endpoint.ID}_${button_action}_pressed` });
}
}
globalStore.putValue(endpoint, "button_click_count", 0);
}, timeout);
globalStore.putValue(endpoint, "timer", timer);
},
},
switch_type: {
cluster: "genBasic",
type: ["attributeReport", "readResponse"],
convert: (model, msg, publish, options, meta) => {
if (Object.hasOwn(msg.data, switchTypeAttribute)) {
const value = msg.data[switchTypeAttribute];
return {
external_switch_type: switchTypeValueMap[value] || "unknown",
external_switch_type_numeric: value,
};
}
return undefined;
},
},
minimum_brightness_level: {
cluster: "genBasic",
type: ["attributeReport", "readResponse"],
convert: (model, msg, publish, options, meta) => {
if (Object.hasOwn(msg.data, minimumBrightnessLevelAttribute)) {
const value = msg.data[minimumBrightnessLevelAttribute];
const levelValue = Math.round((value - minimumBrightnessLevelRawOffset) / minimumBrightnessLevelRawScale);
return {
minimum_brightness_level: levelValue,
};
}
return undefined;
},
},
rotary_remote_control: {
cluster: "candeoRotaryRemoteControl",
type: ["commandRotaryRemoteControl"],
convert: (model, msg, publish, options, meta) => {
if (utils.hasAlreadyProcessedMessage(msg, model))
return;
const messageTypes = {
1: "button_press",
3: "ring_rotation",
};
const messageType = msg.data.field1;
if (messageType in messageTypes) {
const rotary_remote_control_actions = [];
if (messageTypes[messageType] === "button_press") {
const buttonNumber = msg.data.field3;
const buttonAction = msg.data.field4;
const buttonNumbers = {
1: "button_1_",
2: "button_2_",
4: "button_3_",
8: "button_4_",
16: "centre_button_",
};
const buttonActions = {
1: "click",
2: "double_click",
3: "hold",
4: "release",
};
if (buttonNumber in buttonNumbers && buttonAction in buttonActions) {
rotary_remote_control_actions.push(buttonNumbers[buttonNumber] + buttonActions[buttonAction]);
}
}
else if (messageTypes[messageType] === "ring_rotation") {
const ringAction = msg.data.field3;
const ringActions = {
1: "started_",
2: "stopped_",
3: "continued_",
};
if (ringAction in ringActions) {
if (ringActions[ringAction] === "stopped_") {
const previous_direction = globalStore.getValue(msg.endpoint, "previous_direction");
if (previous_direction !== undefined) {
rotary_remote_control_actions.push(`stopped_${previous_direction}`);
}
globalStore.putValue(msg.endpoint, "previous_rotation_event", "stopped_");
}
else {
const ringDirection = msg.data.field2;
const ringDirections = {
1: "rotating_right",
2: "rotating_left",
};
if (ringDirection in ringDirections) {
const previous_rotation_event = globalStore.getValue(msg.endpoint, "previous_rotation_event");
if (previous_rotation_event !== undefined) {
const ringClicks = msg.data.field4;
if (previous_rotation_event === "stopped_") {
rotary_remote_control_actions.push(`started_${ringDirections[ringDirection]}`);
globalStore.putValue(msg.endpoint, "previous_rotation_event", "started_");
if (ringClicks > 1) {
for (let i = 1; i < ringClicks; i++) {
rotary_remote_control_actions.push(`continued_${ringDirections[ringDirection]}`);
}
globalStore.putValue(msg.endpoint, "previous_rotation_event", "continued_");
}
}
else if (previous_rotation_event === "started_" || previous_rotation_event === "continued_") {
rotary_remote_control_actions.push(`continued_${ringDirections[ringDirection]}`);
if (ringClicks > 1) {
for (let i = 1; i < ringClicks; i++) {
rotary_remote_control_actions.push(`continued_${ringDirections[ringDirection]}`);
}
}
globalStore.putValue(msg.endpoint, "previous_rotation_event", "continued_");
}
}
globalStore.putValue(msg.endpoint, "previous_direction", ringDirections[ringDirection]);
}
}
}
}
for (let i = 0; i < rotary_remote_control_actions.length; i++) {
const payload = { action: rotary_remote_control_actions[i] };
utils.addActionGroup(payload, msg, model);
publish(payload);
}
}
return;
},
},
rd1p_knob_rotation: {
cluster: "genLevelCtrl",
type: ["commandMoveWithOnOff", "commandStepWithOnOff", "commandStop"],
convert: (model, msg, publish, options, meta) => {
if (utils.hasAlreadyProcessedMessage(msg, model))
return;
let knobAction = "unknown";
if (msg.type in rd1pKnobActionsMap) {
knobAction = rd1pKnobActionsMap[msg.type];
if (msg.type === "commandMoveWithOnOff") {
(0, node_assert_1.default)("movemode" in msg.data);
if (msg.data.movemode === 0 || msg.data.movemode === 1) {
knobAction += msg.data.movemode === 1 ? "left" : "right";
}
}
else if (msg.type === "commandStepWithOnOff") {
(0, node_assert_1.default)("stepmode" in msg.data);
if (msg.data.stepmode === 0 || msg.data.stepmode === 1) {
knobAction += msg.data.stepmode === 1 ? "left" : "right";
}
}
}
const payload = { action: knobAction };
utils.addActionGroup(payload, msg, model);
return payload;
},
},
rd1p_knob_press: {
cluster: "genOnOff",
type: ["commandOn", "commandOff", "commandToggle", "commandRelease"],
convert: (model, msg, publish, options, meta) => {
if (utils.hasAlreadyProcessedMessage(msg, model))
return;
let knobAction = "unknown";
if (msg.type in rd1pKnobActionsMap) {
knobAction = rd1pKnobActionsMap[msg.type];
}
const payload = { action: knobAction };
utils.addActionGroup(payload, msg, model);
return payload;
},
},
};
const tzLocal = {
switch_type: {
key: ["external_switch_type"],
convertSet: async (entity, key, value, meta) => {
utils.assertString(value);
const numericValue = switchTypeValueLookup[value] ?? Number.parseInt(value, 10);
await entity.write("genBasic", { [switchTypeAttribute]: { value: numericValue, type: switchTypeDataType } }, { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
return { state: { external_switch_type: value } };
},
convertGet: async (entity, key, meta) => {
await entity.read("genBasic", [switchTypeAttribute], { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
},
},
minimum_brightness_level: {
key: ["minimum_brightness_level"],
convertSet: async (entity, key, value, meta) => {
utils.assertNumber(value);
let numericValue = Number(value);
if (Number.isNaN(numericValue))
return;
if (numericValue < 0) {
numericValue = 0;
}
if (numericValue > 50) {
numericValue = 50;
}
const minValue = minimumBrightnessLevelRawOffset + Math.round(numericValue * minimumBrightnessLevelRawScale);
await entity.write("genBasic", { [minimumBrightnessLevelAttribute]: { value: minValue, type: minimumBrightnessLevelDataType } }, { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
return { state: { minimum_brightness_level: value } };
},
convertGet: async (entity, key, meta) => {
await entity.read("genBasic", [minimumBrightnessLevelAttribute], { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
},
},
};
exports.definitions = [
{
fingerprint: [{ modelID: "C205", manufacturerName: "Candeo" }],
model: "C205",
vendor: "Candeo",
description: "Zigbee switch module",
extend: [m.onOff()],
fromZigbee: [fzLocal.switch_type],
toZigbee: [tzLocal.switch_type],
exposes: [e.enum("external_switch_type", ea.ALL, ["momentary", "toggle"]).withLabel("External switch type")],
configure: async (device, coordinatorEndpoint, logger) => {
const endpoint1 = device.getEndpoint(1);
await endpoint1.write("genOnOff", { 16387: { value: 0xff, type: 0x30 } });
await endpoint1.read("genOnOff", ["startUpOnOff"]);
await endpoint1.write("genBasic", { [switchTypeAttribute]: { value: switchTypeValueLookup["toggle"], type: switchTypeDataType } }, { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.read("genBasic", [switchTypeAttribute], { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
},
},
{
zigbeeModel: ["HK-DIM-A", "Candeo Zigbee Dimmer", "HK_DIM_A"],
fingerprint: [
{ modelID: "Dimmer-Switch-ZB3.0", manufacturerName: "Candeo" },
{ modelID: "HK_DIM_A", manufacturerName: "Shyugj" },
],
model: "C202.1",
vendor: "Candeo",
description: "Zigbee LED smart dimmer switch",
extend: [m.light({ configureReporting: true, powerOnBehavior: false })],
},
{
fingerprint: [
{ modelID: "Dimmer-Switch-ZB3.0", manufacturerID: 4098 },
{ modelID: "C210", manufacturerName: "Candeo" },
{ modelID: "Dimmer-Switch-ZB3.0", manufacturerName: "Smart Dim" },
],
model: "C210",
vendor: "Candeo",
description: "Zigbee dimming smart plug",
extend: [m.light({ configureReporting: true, levelConfig: { features: ["current_level_startup"] }, powerOnBehavior: true })],
},
{
fingerprint: [{ modelID: "C204", manufacturerName: "Candeo" }],
model: "C204",
vendor: "Candeo",
description: "Zigbee micro smart dimmer",
extend: [
m.light({
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: { features: ["on_off_transition_time", "on_level", "current_level_startup"] },
effect: false,
}),
m.electricityMeter({
power: { min: 10, max: 600, change: 50 },
voltage: { min: 10, max: 600, change: 500 },
current: { min: 10, max: 600, change: 500 },
energy: { min: 10, max: 1800, change: 360000 },
}),
],
fromZigbee: [fzLocal.switch_type, fzLocal.minimum_brightness_level],
toZigbee: [tzLocal.switch_type, tzLocal.minimum_brightness_level],
exposes: [
e
.enum("external_switch_type", ea.ALL, ["momentary", "toggle"])
.withLabel("External switch type")
.withDescription("Change the type of external switch connected to the device (momentary or toggle). Power cycle the device after changing this setting to ensure it takes effect."),
e
.numeric("minimum_brightness_level", ea.ALL)
.withValueMin(0)
.withValueMax(50)
.withUnit("%")
.withValueStep(1)
.withLabel("Minimum brightness level")
.withDescription("Set the minimum brightness level for the device (0 - 50, 0 = do not use a minimum brightness level). Power cycle the device after changing this setting to ensure it takes effect."),
],
configure: async (device, coordinatorEndpoint, logger) => {
const endpoint1 = device.getEndpoint(1);
await endpoint1.write("genOnOff", { 16387: { value: 0xff, type: 0x30 } });
await endpoint1.read("genOnOff", ["startUpOnOff"]);
await endpoint1.write("genLevelCtrl", { 17: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["onLevel"]);
await endpoint1.write("genLevelCtrl", { 16: { value: 0x0a, type: 0x21 } });
await endpoint1.read("genLevelCtrl", ["onOffTransitionTime"]);
await endpoint1.write("genLevelCtrl", { 16384: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["startUpCurrentLevel"]);
await endpoint1.write("genBasic", { [switchTypeAttribute]: { value: switchTypeValueLookup["momentary"], type: switchTypeDataType } }, { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.read("genBasic", [switchTypeAttribute], { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.write("genBasic", { [minimumBrightnessLevelAttribute]: { value: 4, type: minimumBrightnessLevelDataType } }, { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
await endpoint1.read("genBasic", [minimumBrightnessLevelAttribute], { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
},
},
{
fingerprint: [{ modelID: "C-ZB-DM204", manufacturerName: "Candeo" }],
model: "C-ZB-DM204",
vendor: "Candeo",
description: "Zigbee micro smart dimmer",
extend: [
m.light({
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: { features: ["on_off_transition_time", "on_level", "current_level_startup"] },
effect: false,
}),
m.electricityMeter({
power: { min: 10, max: 600, change: 50 },
voltage: { min: 10, max: 600, change: 500 },
current: { min: 10, max: 600, change: 500 },
energy: { min: 10, max: 1800, change: 360000 },
}),
],
fromZigbee: [fzLocal.switch_type, fzLocal.minimum_brightness_level],
toZigbee: [tzLocal.switch_type, tzLocal.minimum_brightness_level],
exposes: [
e
.enum("external_switch_type", ea.ALL, ["momentary", "toggle"])
.withLabel("External switch type")
.withDescription("Change the type of external switch connected to the device (momentary or toggle). Power cycle the device after changing this setting to ensure it takes effect."),
e
.numeric("minimum_brightness_level", ea.ALL)
.withValueMin(0)
.withValueMax(50)
.withUnit("%")
.withValueStep(1)
.withLabel("Minimum brightness level")
.withDescription("Set the minimum brightness level for the device (0 - 50, 0 = do not use a minimum brightness level). Power cycle the device after changing this setting to ensure it takes effect."),
],
configure: async (device, coordinatorEndpoint, logger) => {
const endpoint1 = device.getEndpoint(1);
await endpoint1.write("genOnOff", { 16387: { value: 0xff, type: 0x30 } });
await endpoint1.read("genOnOff", ["startUpOnOff"]);
await endpoint1.write("genLevelCtrl", { 17: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["onLevel"]);
await endpoint1.write("genLevelCtrl", { 16: { value: 0x0a, type: 0x21 } });
await endpoint1.read("genLevelCtrl", ["onOffTransitionTime"]);
await endpoint1.write("genLevelCtrl", { 16384: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["startUpCurrentLevel"]);
await endpoint1.write("genBasic", { [switchTypeAttribute]: { value: switchTypeValueLookup["momentary"], type: switchTypeDataType } }, { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.read("genBasic", [switchTypeAttribute], { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.write("genBasic", { [minimumBrightnessLevelAttribute]: { value: 4, type: minimumBrightnessLevelDataType } }, { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
await endpoint1.read("genBasic", [minimumBrightnessLevelAttribute], { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
},
},
{
fingerprint: [
{ modelID: "C-ZB-DM204V2", manufacturerName: "Candeo" },
{ modelID: "C-ZB-DM204v2", manufacturerName: "Candeo" },
],
model: "C-ZB-DM204v2",
vendor: "Candeo",
description: "Zigbee micro smart dimmer",
extend: [
m.light({
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: { features: ["on_off_transition_time", "on_level", "current_level_startup"] },
effect: false,
}),
m.electricityMeter({
power: { min: 10, max: 600, change: 50 },
voltage: { min: 10, max: 600, change: 500 },
current: { min: 10, max: 600, change: 500 },
energy: { min: 10, max: 1800, change: 360000 },
}),
],
fromZigbee: [fzLocal.switch_type, fzLocal.minimum_brightness_level],
toZigbee: [tzLocal.switch_type, tzLocal.minimum_brightness_level],
exposes: [
e
.enum("external_switch_type", ea.ALL, ["momentary", "toggle"])
.withLabel("External switch type")
.withDescription("Change the type of external switch connected to the device (momentary or toggle). Power cycle the device after changing this setting to ensure it takes effect."),
e
.numeric("minimum_brightness_level", ea.ALL)
.withValueMin(0)
.withValueMax(50)
.withUnit("%")
.withValueStep(1)
.withLabel("Minimum brightness level")
.withDescription("Set the minimum brightness level for the device (0 - 50, 0 = do not use a minimum brightness level). Power cycle the device after changing this setting to ensure it takes effect."),
],
configure: async (device, coordinatorEndpoint, logger) => {
const endpoint1 = device.getEndpoint(1);
await endpoint1.write("genOnOff", { 16387: { value: 0xff, type: 0x30 } });
await endpoint1.read("genOnOff", ["startUpOnOff"]);
await endpoint1.write("genLevelCtrl", { 17: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["onLevel"]);
await endpoint1.write("genLevelCtrl", { 16: { value: 0x0a, type: 0x21 } });
await endpoint1.read("genLevelCtrl", ["onOffTransitionTime"]);
await endpoint1.write("genLevelCtrl", { 16384: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["startUpCurrentLevel"]);
await endpoint1.write("genBasic", { [switchTypeAttribute]: { value: switchTypeValueLookup["momentary"], type: switchTypeDataType } }, { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.read("genBasic", [switchTypeAttribute], { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.write("genBasic", { [minimumBrightnessLevelAttribute]: { value: 4, type: minimumBrightnessLevelDataType } }, { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
await endpoint1.read("genBasic", [minimumBrightnessLevelAttribute], { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
},
},
{
zigbeeModel: ["C202"],
fingerprint: [
{ modelID: "Candeo Zigbee Dimmer", softwareBuildID: "1.04", dateCode: "20230828" },
{ modelID: "Candeo Zigbee Dimmer", softwareBuildID: "1.20", dateCode: "20240813" },
],
model: "C202",
vendor: "Candeo",
description: "Smart rotary dimmer",
extend: [
m.light({
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: { features: ["on_level", "current_level_startup"] },
powerOnBehavior: true,
}),
],
},
{
zigbeeModel: ["C201"],
model: "C201",
vendor: "Candeo",
description: "Smart dimmer module",
extend: [
m.light({
configureReporting: true,
levelConfig: { features: ["on_level", "current_level_startup"] },
powerOnBehavior: true,
}),
],
},
{
fingerprint: [
{ modelID: "C-ZB-LC20-CCT", manufacturerName: "Candeo" },
{ modelID: "C-ZB-LC20v2-CCT", manufacturerName: "Candeo" },
],
model: "C-ZB-LC20-CCT",
vendor: "Candeo",
description: "Smart LED controller (CCT mode)",
extend: [
m.light({
colorTemp: { range: [158, 500] },
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: {
features: ["current_level_startup"],
},
powerOnBehavior: true,
effect: false,
}),
m.identify(),
],
ota: true,
},
{
fingerprint: [
{ modelID: "C-ZB-LC20-Dim", manufacturerName: "Candeo" },
{ modelID: "C-ZB-LC20v2-Dim", manufacturerName: "Candeo" },
],
model: "C-ZB-LC20-Dim",
vendor: "Candeo",
description: "Smart LED controller (dimmer mode)",
extend: [
m.light({
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: {
features: ["current_level_startup"],
},
powerOnBehavior: true,
effect: false,
}),
m.identify(),
],
ota: true,
},
{
fingerprint: [
{ modelID: "C-ZB-LC20-RGB", manufacturerName: "Candeo" },
{ modelID: "C-ZB-LC20v2-RGB", manufacturerName: "Candeo" },
],
model: "C-ZB-LC20-RGB",
vendor: "Candeo",
description: "Smart LED controller (RGB mode)",
extend: [
m.light({
color: { modes: ["xy", "hs"], enhancedHue: true },
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: {
features: ["current_level_startup"],
},
powerOnBehavior: true,
effect: false,
}),
m.identify(),
],
ota: true,
},
{
fingerprint: [
{ modelID: "C-ZB-LC20-RGBCCT", manufacturerName: "Candeo" },
{ modelID: "C-ZB-LC20v2-RGBCCT", manufacturerName: "Candeo" },
],
model: "C-ZB-LC20-RGBCCT",
vendor: "Candeo",
description: "Smart LED controller (RGBCCT mode)",
extend: [
m.light({
colorTemp: { range: [158, 500] },
color: { modes: ["xy", "hs"], enhancedHue: true },
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: {
features: ["current_level_startup"],
},
powerOnBehavior: true,
effect: false,
}),
m.identify(),
],
ota: true,
},
{
fingerprint: [
{ modelID: "C-ZB-LC20-RGBW", manufacturerName: "Candeo" },
{ modelID: "C-ZB-LC20v2-RGBW", manufacturerName: "Candeo" },
],
model: "C-ZB-LC20-RGBW",
vendor: "Candeo",
description: "Smart LED controller (RGBW mode)",
extend: [
m.light({
colorTemp: { range: [158, 500] },
color: { modes: ["xy", "hs"], enhancedHue: true },
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: {
features: ["current_level_startup"],
},
powerOnBehavior: true,
effect: false,
}),
m.identify(),
],
ota: true,
},
{
fingerprint: [{ modelID: "C-ZB-SM205-2G", manufacturerName: "Candeo" }],
model: "C-ZB-SM205-2G",
vendor: "Candeo",
description: "Smart 2 gang switch module",
extend: [
m.deviceEndpoints({
endpoints: { l1: 1, l2: 2, e11: 11 },
multiEndpointSkip: ["power", "current", "voltage", "energy"],
}),
m.onOff({ endpointNames: ["l1", "l2"] }),
m.electricityMeter({
power: { min: 10, max: 600, change: 50 },
voltage: { min: 10, max: 600, change: 500 },
current: { min: 10, max: 600, change: 500 },
energy: { min: 10, max: 1800, change: 360000 },
}),
],
fromZigbee: [fzLocal.switch_type],
toZigbee: [tzLocal.switch_type],
exposes: [e.enum("external_switch_type", ea.ALL, ["momentary", "toggle"]).withLabel("External switch type").withEndpoint("e11")],
meta: {},
configure: async (device, coordinatorEndpoint, logger) => {
const endpoint1 = device.getEndpoint(1);
const endpoint2 = device.getEndpoint(2);
await endpoint1.write("genOnOff", { 16387: { value: 0xff, type: 0x30 } });
await endpoint1.read("genOnOff", [16387]);
await endpoint2.write("genOnOff", { 16387: { value: 0xff, type: 0x30 } });
await endpoint2.read("genOnOff", [16387]);
const endpoint11 = device.getEndpoint(11);
await endpoint1.write("genBasic", { [switchTypeAttribute]: { value: switchTypeValueLookup["toggle"], type: switchTypeDataType } }, { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint11.read("genBasic", [switchTypeAttribute], { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
},
},
{
fingerprint: [{ modelID: "C-ZB-SM30-2G", manufacturerName: "Candeo" }],
model: "C-ZB-SM30-2G",
vendor: "Candeo",
description: "Smart 2 gang switch module",
extend: [
m.deviceEndpoints({
endpoints: { l1: 1, l2: 2, e3: 3 },
multiEndpointSkip: ["power", "current", "voltage", "energy"],
}),
m.onOff({
powerOnBehavior: false,
endpointNames: ["l1", "l2"],
}),
m.electricityMeter({
power: { min: 5, max: 300, change: 10 },
voltage: { min: 5, max: 600, change: 500 },
current: { min: 5, max: 900, change: 10 },
energy: { min: 5, max: 1800, change: 50 },
}),
],
exposes: [
e.power_on_behavior(["off", "on", "previous"]).withEndpoint("l1"),
e.power_on_behavior(["off", "on", "previous"]).withEndpoint("l2"),
],
fromZigbee: [fz.power_on_behavior],
toZigbee: [tz.power_on_behavior],
configure: async (device, coordinatorEndpoint) => {
await m.setupAttributes(device, coordinatorEndpoint, "genOnOff", [{ attribute: "startUpOnOff", min: "MIN", max: "MAX", change: 1 }], false);
},
meta: {},
},
{
fingerprint: [{ modelID: "C-RFZB-SM1" }],
model: "C-RFZB-SM1",
vendor: "Candeo",
description: "Zigbee & RF Switch Module",
extend: [m.onOff({ powerOnBehavior: true })],
},
{
fingerprint: [
{ modelID: "C203", manufacturerName: "Candeo" },
{ modelID: "HK-LN-DIM-A", manufacturerName: "Candeo" },
],
model: "C203",
vendor: "Candeo",
description: "Zigbee micro smart dimmer",
extend: [
m.light({
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: { features: ["on_off_transition_time", "on_level", "current_level_startup"] },
effect: false,
}),
],
fromZigbee: [fzLocal.switch_type, fzLocal.minimum_brightness_level],
toZigbee: [tzLocal.switch_type, tzLocal.minimum_brightness_level],
exposes: [
e
.enum("external_switch_type", ea.ALL, ["momentary", "toggle"])
.withLabel("External switch type")
.withDescription("Change the type of external switch connected to the device (momentary or toggle). Power cycle the device after changing this setting to ensure it takes effect."),
e
.numeric("minimum_brightness_level", ea.ALL)
.withValueMin(0)
.withValueMax(50)
.withUnit("%")
.withValueStep(1)
.withLabel("Minimum brightness level")
.withDescription("Set the minimum brightness level for the device (0 - 50, 0 = do not use a minimum brightness level). Power cycle the device after changing this setting to ensure it takes effect."),
],
configure: async (device, coordinatorEndpoint, logger) => {
const endpoint1 = device.getEndpoint(1);
await endpoint1.write("genOnOff", { 16387: { value: 0xff, type: 0x30 } });
await endpoint1.read("genOnOff", ["startUpOnOff"]);
await endpoint1.write("genLevelCtrl", { 17: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["onLevel"]);
await endpoint1.write("genLevelCtrl", { 16: { value: 0x0a, type: 0x21 } });
await endpoint1.read("genLevelCtrl", ["onOffTransitionTime"]);
await endpoint1.write("genLevelCtrl", { 16384: { value: 0xff, type: 0x20 } });
await endpoint1.read("genLevelCtrl", ["startUpCurrentLevel"]);
await endpoint1.write("genBasic", { [switchTypeAttribute]: { value: switchTypeValueLookup["momentary"], type: switchTypeDataType } }, { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.read("genBasic", [switchTypeAttribute], { manufacturerCode: manufacturerSpecificSwitchTypeClusterCode });
await endpoint1.write("genBasic", { [minimumBrightnessLevelAttribute]: { value: 4, type: minimumBrightnessLevelDataType } }, { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
await endpoint1.read("genBasic", [minimumBrightnessLevelAttribute], { manufacturerCode: manufacturerSpecificMinimumBrightnessClusterCode });
},
},
{
fingerprint: [{ modelID: "C-ZB-SEWA", manufacturerName: "Candeo" }],
model: "C-ZB-SEWA",
vendor: "Candeo",
description: "Water sensor",
extend: [m.battery(), m.iasZoneAlarm({ zoneType: "water_leak", zoneAttributes: ["alarm_1"] })],
},
{
fingerprint: [{ modelID: "C-ZB-SETE", manufacturerName: "Candeo" }],
model: "C-ZB-SETE",
vendor: "Candeo",
description: "Temperature & humidity sensor",
extend: [m.temperature(), m.humidity(), m.battery()],
},
{
fingerprint: [{ modelID: "C-ZB-SEDC", manufacturerName: "Candeo" }],
model: "C-ZB-SEDC",
vendor: "Candeo",
description: "Door contact sensor",
extend: [m.battery(), m.iasZoneAlarm({ zoneType: "contact", zoneAttributes: ["alarm_1"] })],
},
{
fingerprint: [{ modelID: "C-ZB-SEMO", manufacturerName: "Candeo" }],
model: "C-ZB-SEMO",
vendor: "Candeo",
description: "Motion sensor",
extend: [
m.battery(),
m.illuminance({ reporting: null, scale: luxScale }),
m.iasZoneAlarm({ zoneType: "occupancy", zoneAttributes: ["alarm_1"] }),
tuya.modernExtend.tuyaBase({ dp: true }),
],
exposes: [
e
.enum("sensitivity", ea.STATE_SET, ["low", "medium", "high"])
.withDescription("PIR sensor sensitivity (refresh and update only while active)"),
e
.enum("keep_time", ea.STATE_SET, ["10", "30", "60", "120"])
.withDescription("PIR keep time in seconds (refresh and update only while active)"),
e
.numeric("illuminance_interval", ea.STATE_SET)
.withValueMin(1)
.withValueMax(720)
.withValueStep(1)
.withUnit("minutes")
.withDescription("Brightness acquisition interval (refresh and update only while active)"),
],
meta: {
tuyaDatapoints: [
[
9,
"sensitivity",
tuya.valueConverterBasic.lookup({
low: tuya.enum(0),
medium: tuya.enum(1),
high: tuya.enum(2),
}),
],
[
10,
"keep_time",
tuya.valueConverterBasic.lookup({
"10": tuya.enum(0),
"30": tuya.enum(1),
"60": tuya.enum(2),
"120": tuya.enum(3),
}),
],
[102, "illuminance_interval", tuya.valueConverter.raw],
],
},
},
{
fingerprint: [{ modelID: "C-ZB-DM201-2G" }],
model: "C-ZB-DM201-2G",
vendor: "Candeo",
description: "Zigbee 2 gang dimmer module",
extend: [
m.deviceEndpoints({
endpoints: { l1: 1, l2: 2 },
}),
m.light({
endpointNames: ["l1", "l2"],
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
levelConfig: { features: ["on_level", "current_level_startup"] },
powerOnBehavior: true,
effect: false,
}),
],
},
{
fingerprint: [{ modelID: "C-ZB-SR5BR", manufacturerName: "Candeo" }],
model: "C-ZB-SR5BR",
vendor: "Candeo",
description: "Zigbee scene switch remote - 5 button rotary",
extend: [
m.battery(),
m.deviceAddCustomCluster("candeoRotaryRemoteControl", {
name: "candeoRotaryRemoteControl",
ID: manufacturerSpecificRotaryRemoteControlClusterCode,
attributes: {},
commands: {
rotaryRemoteControl: {
name: "rotaryRemoteControl",
ID: 0x01,
parameters: [
{ name: "field1", type: zigbee_herdsman_1.Zcl.DataType.UINT8, max: 0xff },
{ name: "field2", type: zigbee_herdsman_1.Zcl.DataType.UINT8, max: 0xff },
{ name: "field3", type: zigbee_herdsman_1.Zcl.DataType.UINT8, max: 0xff },
{ name: "field4", type: zigbee_herdsman_1.Zcl.DataType.UINT8, max: 0xff },
],
},
},
commandsResponse: {},
}),
],
fromZigbee: [fzLocal.rotary_remote_control],
exposes: [
e.action([
"button_1_click",
"button_1_double_click",
"button_1_hold",
"button_1_release",
"button_2_click",
"button_2_double_click",
"button_2_hold",
"button_2_release",
"button_3_click",
"button_3_double_click",
"button_3_hold",
"button_3_release",
"button_4_click",
"button_4_double_click",
"button_4_hold",
"button_4_release",
"centre_button_click",
"centre_button_double_click",
"centre_button_hold",
"centre_button_release",
"started_rotating_left",
"continued_rotating_left",
"stopped_rotating_left",
"started_rotating_right",
"continued_rotating_right",
"stopped_rotating_right",
]),
],
configure: async (device, coordinatorEndpoint, logger) => {
const endpoint1 = device.getEndpoint(1);
await endpoint1.bind(manufacturerSpecificRotaryRemoteControlClusterCode, coordinatorEndpoint);
},
},
{
fingerprint: [{ modelID: "C-ZB-RD1", manufacturerName: "Candeo" }],
model: "C-ZB-RD1",
vendor: "Candeo",
description: "Zigbee rotary dimmer",
extend: [
m.light({
levelConfig: { features: ["on_level", "current_level_startup", "on_transition_time", "off_transition_time"] },
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
powerOnBehavior: true,
effect: false,
}),
m.electricityMeter({
power: { min: 5, max: 300, change: 10 },
voltage: { min: 5, max: 600, change: 500 },
current: { min: 5, max: 900, change: 10 },
energy: { min: 5, max: 1800, change: 50 },
}),
],
meta: {},
},
{
fingerprint: [{ modelID: "C-ZB-RD1P-DIM", manufacturerName: "Candeo" }],
model: "C-ZB-RD1P-DIM",
vendor: "Candeo",
description: "Zigbee rotary dimmer pro (dimmer mode)",
extend: [
m.light({
levelConfig: { features: ["on_level", "current_level_startup", "on_transition_time", "off_transition_time"] },
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
powerOnBehavior: true,
effect: false,
}),
m.electricityMeter({
power: { min: 5, max: 300, change: 10 },
voltage: { min: 5, max: 600, change: 500 },
current: { min: 5, max: 900, change: 10 },
energy: { min: 5, max: 1800, change: 50 },
}),
m.deviceAddCustomCluster("genOnOff", {
name: "genOnOff",
ID: 6,
attributes: {},
commands: {
release: {
name: "release",
ID: 0x03,
parameters: [],
},
},
commandsResponse: {},
}),
],
},
{
fingerprint: [{ modelID: "C-ZB-RD1P-DPM", manufacturerName: "Candeo" }],
model: "C-ZB-RD1P-DPM",
vendor: "Candeo",
description: "Zigbee rotary dimmer pro (dual purpose mode)",
extend: [
m.deviceEndpoints({
endpoints: { l1: 1, l2: 2 },
multiEndpointSkip: ["power", "current", "voltage", "energy"],
}),
m.light({
levelConfig: { features: ["on_level", "current_level_startup", "on_transition_time", "off_transition_time"] },
configureReporting: true,
levelReportingConfig: { min: 1, max: 3600, change: 1 },
powerOnBehavior: true,
effect: false,
}),
m.electricityMeter({
power: { min: 5, max: 300, change: 10 },
voltage: { min: 5, max: 600, change: 500 },
current: { min: 5, max: 900, change: 10 },
energy: { min: 5, max: 1800, change: 50 },
}),
m.deviceAddCustomCluster("genOnOff", {
name: "genOnOff",
ID: 6,
attributes: {},
commands: {
release: {
name: "release",
ID: 0x03,
parameters: [],
},
},
commandsResponse: {},
}),
],
fromZigbee: [fzLocal.rd1p_knob_rotation, fzLocal.rd1p_knob_press],
toZigbee: [],
exposes: [
e
.action([
"pressed",
"double_pressed",
"held",
"released",
"started_rotating_left",
"started_rotating_right",
"rotating_right",
"rotating_left",
"stopped_rotating",
])
.withEndpoint("l2"),
],
meta: {},
configure: async