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FIBARO- Double Switch 2
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FIBARO- Double Switch 2
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/**
* FIBARO Double Switch 2
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Fibaro Double Switch 2 ZW5", namespace: "FibarGroup", author: "Fibar Group") {
capability "Switch"
capability "Energy Meter"
capability "Power Meter"
capability "Button"
capability "Configuration"
capability "Health Check"
command "reset"
command "refresh"
fingerprint mfr: "010F", prod: "0203"
fingerprint deviceId: "0x1001", inClusters:"0x5E,0x86,0x72,0x59,0x73,0x22,0x56,0x32,0x71,0x98,0x7A,0x25,0x5A,0x85,0x70,0x8E,0x60,0x75,0x5B"
fingerprint deviceId: "0x1001", inClusters:"0x5E,0x86,0x72,0x59,0x73,0x22,0x56,0x32,0x71,0x7A,0x25,0x5A,0x85,0x70,0x8E,0x60,0x75,0x5B"
}
tiles (scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 3, height: 4){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "off", label: '', action: "switch.on", icon: "https://s3-eu-west-1.amazonaws.com/fibaro-smartthings/switch/switch_2.png", backgroundColor: "#ffffff"
attributeState "on", label: '', action: "switch.off", icon: "https://s3-eu-west-1.amazonaws.com/fibaro-smartthings/switch/switch_1.png", backgroundColor: "#00a0dc"
}
tileAttribute("device.multiStatus", key:"SECONDARY_CONTROL") {
attributeState("multiStatus", label:'${currentValue}')
}
}
valueTile("power", "device.power", decoration: "flat", width: 2, height: 2) {
state "power", label:'${currentValue}\n W', action:"refresh"
}
valueTile("energy", "device.energy", decoration: "flat", width: 2, height: 2) {
state "energy", label:'${currentValue}\n kWh', action:"refresh"
}
valueTile("reset", "device.energy", decoration: "flat", width: 2, height: 2) {
state "reset", label:'reset\n kWh', action:"reset"
}
standardTile("main", "device.switch", decoration: "flat", canChangeIcon: true) {
state "off", label: 'off', action: "switch.on", icon: "https://s3-eu-west-1.amazonaws.com/fibaro-smartthings/switch/switch_2.png", backgroundColor: "#ffffff"
state "on", label: 'on', action: "switch.off", icon: "https://s3-eu-west-1.amazonaws.com/fibaro-smartthings/switch/switch_1.png", backgroundColor: "#00a0dc"
}
main "main"
details(["switch","power","energy","reset"])
}
preferences {
input (
title: "Fibaro Double Switch 2 ZW5 manual",
description: "Tap to view the manual.",
image: "http://manuals.fibaro.com/wp-content/uploads/2016/08/switch2_icon.jpg",
url: "http://manuals.fibaro.com/content/manuals/en/FGS-2x3/FGS-2x3-EN-T-v1.2.pdf",
type: "href",
element: "href"
)
parameterMap().each {
input (
title: "${it.num}. ${it.title}",
description: it.descr,
type: "paragraph",
element: "paragraph"
)
input (
name: it.key,
title: null,
description: "Default: $it.def" ,
type: it.type,
options: it.options,
range: (it.min != null && it.max != null) ? "${it.min}..${it.max}" : null,
defaultValue: it.def,
required: false
)
}
input ( name: "logging", title: "Logging", type: "boolean", required: false )
}
}
def on() {
encap(zwave.basicV1.basicSet(value: 255),1)
}
def off() {
encap(zwave.basicV1.basicSet(value: 0),1)
}
def childOn() {
sendHubCommand(response(encap(zwave.basicV1.basicSet(value: 255),2)))
}
def childOff() {
sendHubCommand(response(encap(zwave.basicV1.basicSet(value: 0),2)))
}
def reset() {
def cmds = []
cmds << [zwave.meterV3.meterReset(), 1]
cmds << [zwave.meterV3.meterGet(scale: 0), 1]
cmds << [zwave.meterV3.meterGet(scale: 2), 1]
encapSequence(cmds,1000)
}
def childReset() {
def cmds = []
cmds << response(encap(zwave.meterV3.meterReset(), 2))
cmds << response(encap(zwave.meterV3.meterGet(scale: 0), 2))
cmds << response(encap(zwave.meterV3.meterGet(scale: 2), 2))
sendHubCommand(cmds,1000)
}
def refresh() {
def cmds = []
cmds << [zwave.meterV3.meterGet(scale: 0), 1]
cmds << [zwave.meterV3.meterGet(scale: 2), 1]
encapSequence(cmds,1000)
}
def childRefresh() {
def cmds = []
cmds << response(encap(zwave.meterV3.meterGet(scale: 0), 2))
cmds << response(encap(zwave.meterV3.meterGet(scale: 2), 2))
sendHubCommand(cmds,1000)
}
def setState(String key, Integer value) {
state."$key".value = value
}
Integer getState(String key) {
state."$key".value
}
//Configuration and synchronization
def updated() {
if ( state.lastUpdated && (now() - state.lastUpdated) < 500 ) return
def cmds = []
logging("${device.displayName} - Executing updated()","info")
if (!childDevices) {
createChildDevices()
}
if (device.currentValue("numberOfButtons") != 6) { sendEvent(name: "numberOfButtons", value: 6) }
cmds << zwave.multiChannelAssociationV2.multiChannelAssociationGet(groupingIdentifier: 1) //verify if group 1 association is correct
runIn(3,"syncStart")
state.lastUpdated = now()
response(encapSequence(cmds,1000))
}
private syncStart() {
boolean syncNeeded = false
parameterMap().each {
if(settings."$it.key" != null) {
if (state."$it.key" == null) { state."$it.key" = [value: null, state: "synced"] }
if (state."$it.key".value != settings."$it.key" as Integer || state."$it.key".state in ["notSynced","inProgress"]) {
state."$it.key".value = settings."$it.key" as Integer
state."$it.key".state = "notSynced"
syncNeeded = true
}
}
}
if ( syncNeeded ) {
logging("${device.displayName} - starting sync.", "info")
multiStatusEvent("Sync in progress.", true, true)
syncNext()
}
}
private syncNext() {
logging("${device.displayName} - Executing syncNext()","info")
def cmds = []
for ( param in parameterMap() ) {
if ( state."$param.key"?.value != null && state."$param.key"?.state in ["notSynced","inProgress"] ) {
multiStatusEvent("Sync in progress. (param: ${param.num})", true)
state."$param.key"?.state = "inProgress"
cmds << response(encap(zwave.configurationV2.configurationSet(configurationValue: intToParam(state."$param.key".value, param.size), parameterNumber: param.num, size: param.size)))
cmds << response(encap(zwave.configurationV2.configurationGet(parameterNumber: param.num)))
break
}
}
if (cmds) {
runIn(10, "syncCheck")
log.debug "cmds!"
sendHubCommand(cmds,1000)
} else {
runIn(1, "syncCheck")
}
}
private syncCheck() {
logging("${device.displayName} - Executing syncCheck()","info")
def failed = []
def incorrect = []
def notSynced = []
parameterMap().each {
if (state."$it.key"?.state == "incorrect" ) {
incorrect << it
} else if ( state."$it.key"?.state == "failed" ) {
failed << it
} else if ( state."$it.key"?.state in ["inProgress","notSynced"] ) {
notSynced << it
}
}
if (failed) {
logging("${device.displayName} - Sync failed! Check parameter: ${failed[0].num}","info")
sendEvent(name: "syncStatus", value: "failed")
multiStatusEvent("Sync failed! Check parameter: ${failed[0].num}", true, true)
} else if (incorrect) {
logging("${device.displayName} - Sync mismatch! Check parameter: ${incorrect[0].num}","info")
sendEvent(name: "syncStatus", value: "incomplete")
multiStatusEvent("Sync mismatch! Check parameter: ${incorrect[0].num}", true, true)
} else if (notSynced) {
logging("${device.displayName} - Sync incomplete!","info")
sendEvent(name: "syncStatus", value: "incomplete")
multiStatusEvent("Sync incomplete! Open settings and tap Done to try again.", true, true)
} else {
logging("${device.displayName} - Sync Complete","info")
sendEvent(name: "syncStatus", value: "synced")
multiStatusEvent("Sync OK.", true, true)
}
}
private multiStatusEvent(String statusValue, boolean force = false, boolean display = false) {
if (!device.currentValue("multiStatus")?.contains("Sync") || device.currentValue("multiStatus") == "Sync OK." || force) {
sendEvent(name: "multiStatus", value: statusValue, descriptionText: statusValue, displayed: display)
}
}
def zwaveEvent(physicalgraph.zwave.commands.configurationv2.ConfigurationReport cmd) {
def paramKey = parameterMap().find( {it.num == cmd.parameterNumber } ).key
logging("${device.displayName} - Parameter ${paramKey} value is ${cmd.scaledConfigurationValue} expected " + state."$paramKey".value, "info")
state."$paramKey".state = (state."$paramKey".value == cmd.scaledConfigurationValue) ? "synced" : "incorrect"
syncNext()
}
private createChildDevices() {
logging("${device.displayName} - executing createChildDevices()","info")
addChildDevice(
"Fibaro Double Switch 2 - USB",
"${device.deviceNetworkId}-2",
null,
[completedSetup: true, label: "${device.displayName} (CH2)", isComponent: false, componentName: "ch2", componentLabel: "Channel 2"]
)
}
private physicalgraph.app.ChildDeviceWrapper getChild(Integer childNum) {
return childDevices.find({ it.deviceNetworkId == "${device.deviceNetworkId}-${childNum}" })
}
def zwaveEvent(physicalgraph.zwave.commands.applicationstatusv1.ApplicationRejectedRequest cmd) {
logging("${device.displayName} - rejected request!","warn")
for ( param in parameterMap() ) {
if ( state."$param.key"?.state == "inProgress" ) {
state."$param.key"?.state = "failed"
break
}
}
}
def zwaveEvent(physicalgraph.zwave.commands.multichannelassociationv2.MultiChannelAssociationReport cmd) {
def cmds = []
if (cmd.groupingIdentifier == 1) {
if (cmd.nodeId != [0, zwaveHubNodeId, 1]) {
log.debug "${device.displayName} - incorrect MultiChannel Association for Group 1! nodeId: ${cmd.nodeId} will be changed to [0, ${zwaveHubNodeId}, 1]"
cmds << zwave.multiChannelAssociationV2.multiChannelAssociationRemove(groupingIdentifier: 1)
cmds << zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier: 1, nodeId: [0,zwaveHubNodeId,1])
} else {
logging("${device.displayName} - MultiChannel Association for Group 1 correct.","info")
}
}
if (cmds) { [response(encapSequence(cmds, 1000))] }
}
//event handlers
def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicReport cmd) {
//ignore
}
def zwaveEvent(physicalgraph.zwave.commands.switchbinaryv1.SwitchBinaryReport cmd, ep=null) {
logging("${device.displayName} - SwitchBinaryReport received, value: ${cmd.value} ep: $ep","info")
switch (ep) {
case 1:
sendEvent([name: "switch", value: (cmd.value == 0 ) ? "off": "on"])
break
case 2:
getChild(2)?.sendEvent([name: "switch", value: (cmd.value == 0 ) ? "off": "on"])
break
}
}
def zwaveEvent(physicalgraph.zwave.commands.meterv3.MeterReport cmd, ep=null) {
logging("${device.displayName} - MeterReport received, value: ${cmd.scaledMeterValue} scale: ${cmd.scale} ep: $ep","info")
if (ep==1) {
switch (cmd.scale) {
case 0:
sendEvent([name: "energy", value: cmd.scaledMeterValue, unit: "kWh"])
break
case 2:
sendEvent([name: "power", value: cmd.scaledMeterValue, unit: "W"])
break
}
multiStatusEvent("${(device.currentValue("power") ?: "0.0")} W | ${(device.currentValue("energy") ?: "0.00")} kWh")
} else if (ep==2) {
switch (cmd.scale) {
case 0:
getChild(2)?.sendEvent([name: "energy", value: cmd.scaledMeterValue, unit: "kWh"])
break
case 2:
getChild(2)?.sendEvent([name: "power", value: cmd.scaledMeterValue, unit: "W"])
break
}
getChild(2)?.sendEvent([name: "combinedMeter", value: "${(getChild(2)?.currentValue("power") ?: "0.0")} W / ${(getChild(2)?.currentValue("energy") ?: "0.00")} kWh", displayed: false])
}
}
def zwaveEvent(physicalgraph.zwave.commands.centralscenev1.CentralSceneNotification cmd) {
logging("${device.displayName} - CentralSceneNotification received, sceneNumber: ${cmd.sceneNumber} keyAttributes: ${cmd.keyAttributes}","info")
log.info cmd
def String action
def Integer button
switch (cmd.keyAttributes as Integer) {
case 0: action = "pushed"; button = cmd.sceneNumber; break
case 1: action = "released"; button = cmd.sceneNumber; break
case 2: action = "held"; button = cmd.sceneNumber; break
case 3: action = "pushed"; button = 2+(cmd.sceneNumber as Integer); break
case 4: action = "pushed"; button = 4+(cmd.sceneNumber as Integer); break
}
log.info "button $button $action"
sendEvent(name: "button", value: action, data: [buttonNumber: button], isStateChange: true)
}
/*
####################
## Z-Wave Toolkit ##
####################
*/
def parse(String description) {
def result = []
logging("${device.displayName} - Parsing: ${description}")
if (description.startsWith("Err 106")) {
result = createEvent(
descriptionText: "Failed to complete the network security key exchange. If you are unable to receive data from it, you must remove it from your network and add it again.",
eventType: "ALERT",
name: "secureInclusion",
value: "failed",
displayed: true,
)
} else if (description == "updated") {
return null
} else {
def cmd = zwave.parse(description, cmdVersions())
if (cmd) {
logging("${device.displayName} - Parsed: ${cmd}")
zwaveEvent(cmd)
}
}
}
def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) {
def encapsulatedCommand = cmd.encapsulatedCommand(cmdVersions())
if (encapsulatedCommand) {
logging("${device.displayName} - Parsed SecurityMessageEncapsulation into: ${encapsulatedCommand}")
zwaveEvent(encapsulatedCommand)
} else {
log.warn "Unable to extract Secure command from $cmd"
}
}
def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd) {
def version = cmdVersions()[cmd.commandClass as Integer]
def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
if (encapsulatedCommand) {
logging("${device.displayName} - Parsed Crc16Encap into: ${encapsulatedCommand}")
zwaveEvent(encapsulatedCommand)
} else {
log.warn "Unable to extract CRC16 command from $cmd"
}
}
def zwaveEvent(physicalgraph.zwave.commands.multichannelv3.MultiChannelCmdEncap cmd) {
def encapsulatedCommand = cmd.encapsulatedCommand(cmdVersions())
if (encapsulatedCommand) {
logging("${device.displayName} - Parsed MultiChannelCmdEncap ${encapsulatedCommand}")
zwaveEvent(encapsulatedCommand, cmd.sourceEndPoint as Integer)
} else {
log.warn "Unable to extract MultiChannel command from $cmd"
}
}
private logging(text, type = "debug") {
if (settings.logging == "true") {
log."$type" text
}
}
private secEncap(physicalgraph.zwave.Command cmd) {
logging("${device.displayName} - encapsulating command using Secure Encapsulation, command: $cmd","info")
zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
}
private crcEncap(physicalgraph.zwave.Command cmd) {
logging("${device.displayName} - encapsulating command using CRC16 Encapsulation, command: $cmd","info")
zwave.crc16EncapV1.crc16Encap().encapsulate(cmd).format()
}
private multiEncap(physicalgraph.zwave.Command cmd, Integer ep) {
logging("${device.displayName} - encapsulating command using MultiChannel Encapsulation, ep: $ep command: $cmd","info")
zwave.multiChannelV3.multiChannelCmdEncap(destinationEndPoint:ep).encapsulate(cmd)
}
private encap(physicalgraph.zwave.Command cmd, Integer ep) {
encap(multiEncap(cmd, ep))
}
private encap(List encapList) {
encap(encapList[0], encapList[1])
}
private encap(Map encapMap) {
encap(encapMap.cmd, encapMap.ep)
}
private encap(physicalgraph.zwave.Command cmd) {
if (zwaveInfo.zw.contains("s")) {
secEncap(cmd)
} else if (zwaveInfo.cc.contains("56")){
crcEncap(cmd)
} else {
logging("${device.displayName} - no encapsulation supported for command: $cmd","info")
cmd.format()
}
}
private encapSequence(cmds, Integer delay=250) {
delayBetween(cmds.collect{ encap(it) }, delay)
}
private encapSequence(cmds, Integer delay, Integer ep) {
delayBetween(cmds.collect{ encap(it, ep) }, delay)
}
private List intToParam(Long value, Integer size = 1) {
def result = []
size.times {
result = result.plus(0, (value & 0xFF) as Short)
value = (value >> 8)
}
return result
}
/*
##########################
## Device Configuration ##
##########################
*/
private Map cmdVersions() {
[0x5E: 1, 0x86: 1, 0x72: 1, 0x59: 1, 0x73: 1, 0x22: 1, 0x56: 1, 0x32: 3, 0x71: 1, 0x98: 1, 0x7A: 1, 0x25: 1, 0x5A: 1, 0x85: 2, 0x70: 2, 0x8E: 2, 0x60: 3, 0x75: 1, 0x5B: 1] //Fibaro Double Switch 2
}
private parameterMap() {[
[key: "restoreState", num: 9, size: 1, type: "enum", options: [
0: "power off after power failure",
1: "restore state"
], def: "1", title: "Restore state after power failure",
descr: "This parameter determines if the device will return to state prior to the power failure after power is restored"],
[key: "ch1operatingMode", num: 10, size: 1, type: "enum", options: [
0: "standard operation",
1: "delay ON",
2: "delay OFF",
3: "auto ON",
4: "auto OFF",
5: "flashing mode"
], def: "0", title: "First channel - Operating mode",
descr: "This parameter allows to choose operating for the 1st channel controlled by the S1 switch."],
[key: "ch1reactionToSwitch", num: 11, size: 1, type: "enum", options: [
0: "cancel and set target state",
1: "no reaction",
2: "reset timer"
], def: "0", title: "Reaction to switch for delay/auto ON/OFF modes",
descr: "This parameter determines how the device in timed mode reacts to pushing the switch connected to the S1 terminal."],
[key: "ch1timeParameter", num: 12, size: 2, type: "number", def: 50, min: 0, max: 32000, title: "First channel - Time parameter for delay/auto ON/OFF modes",
descr: "This parameter allows to set time parameter used in timed modes. (1-32000s)"],
[key: "ch1pulseTime", num: 13, size: 2, type: "enum", options: [
1: "0.1 s",
5: "0.5 s",
10: "1 s",
20: "2 s",
30: "3 s",
40: "4 s",
50: "5 s",
60: "6 s",
70: "7 s",
80: "8 s",
90: "9 s",
100: "10 s",
300: "30 s",
600: "60 s",
6000: "600 s"
], def: 5, min: 1, max: 32000, title: "First channel - Pulse time for flashing mode",
descr: "This parameter allows to set time of switching to opposite state in flashing mode."],
[key: "ch2operatingMode", num: 15, size: 1, type: "enum", options: [
0: "standard operation",
1: "delay ON",
2: "delay OFF",
3: "auto ON",
4: "auto OFF",
5: "flashing mode"
], def: "0", title: "Second channel - Operating mode",
descr: "This parameter allows to choose operating for the 1st channel controlled by the S2 switch."],
[key: "ch2reactionToSwitch", num: 16, size: 1, type: "enum", options: [
0: "cancel and set target state",
1: "no reaction",
2: "reset timer"
], def: "0", title: "Second channel - Restore state after power failure",
descr: "This parameter determines how the device in timed mode reacts to pushing the switch connected to the S2 terminal."],
[key: "ch2timeParameter", num: 17, size: 2, type: "number", def: 50, min: 0, max: 32000, title: "Second channel - Time parameter for delay/auto ON/OFF modes",
descr: "This parameter allows to set time parameter used in timed modes."],
[key: "ch2pulseTime", num: 18, size: 2, type: "enum", options: [
1: "0.1 s",
5: "0.5 s",
10: "1 s",
20: "2 s",
30: "3 s",
40: "4 s",
50: "5 s",
60: "6 s",
70: "7 s",
80: "8 s",
90: "9 s",
100: "10 s",
300: "30 s",
600: "60 s",
6000: "600 s"
], def: 5, min: 1, max: 32000, title: "Second channel - Pulse time for flashing mode",
descr: "This parameter allows to set time of switching to opposite state in flashing mode."],
[key: "switchType", num: 20, size: 1, type: "enum", options: [
0: "momentary switch",
1: "toggle switch (contact closed - ON, contact opened - OFF)",
2: "toggle switch (device changes status when switch changes status)"
], def: "2", title: "Switch type",
descr: "Parameter defines as what type the device should treat the switch connected to the S1 and S2 terminals"],
[key: "flashingReports", num: 21, size: 1, type: "enum", options: [
0: "do not send reports",
1: "sends reports"
], def: "0", title: "Flashing mode - reports",
descr: "This parameter allows to define if the device sends reports during the flashing mode."],
[key: "s1scenesSent", num: 28, size: 1, type: "enum", options: [
0: "do not send scenes",
1: "key pressed 1 time",
2: "key pressed 2 times",
3: "key pressed 1 & 2 times",
4: "key pressed 3 times",
5: "key pressed 1 & 3 times",
6: "key pressed 2 & 3 times",
7: "key pressed 1, 2 & 3 times",
8: "key held & released",
9: "key Pressed 1 time & held",
10: "key pressed 2 times & held",
11: "key pressed 1, 2 times & held",
12: "key pressed 3 times & held",
13: "key pressed 1, 3 times & held",
14: "key pressed 2, 3 times & held",
15: "key pressed 1, 2, 3 times & held"
], def: "0", title: "Switch 1 - scenes sent",
descr: "This parameter determines which actions result in sending scene IDs assigned to them."],
[key: "s2scenesSent", num: 29, size: 1, type: "enum", options: [
0: "do not send scenes",
1: "key pressed 1 time",
2: "key pressed 2 times",
3: "key pressed 1 & 2 times",
4: "key pressed 3 times",
5: "key pressed 1 & 3 times",
6: "key pressed 2 & 3 times",
7: "key pressed 1, 2 & 3 times",
8: "key held & released",
9: "key Pressed 1 time & held",
10: "key pressed 2 times & held",
11: "key pressed 1, 2 times & held",
12: "key pressed 3 times & held",
13: "key pressed 1, 3 times & held",
14: "key pressed 2, 3 times & held",
15: "key pressed 1, 2, 3 times & held"
], def: "0", title: "Switch 2 - scenes sent",
descr: "This parameter determines which actions result in sending scene IDs assigned to them."],
[key: "ch1energyReports", num: 53, size: 2, type: "enum", options: [
1: "0.01 kWh",
10: "0.1 kWh",
50: "0.5 kWh",
100: "1 kWh",
500: "5 kWh",
1000: "10 kWh"
], def: 100, min: 0, max: 32000, title: "First channel - energy reports",
descr: "This parameter determines the min. change in consumed power that will result in sending power report"],
[key: "ch2energyReports", num: 57, size: 2, type: "enum", options: [
1: "0.01 kWh",
10: "0.1 kWh",
50: "0.5 kWh",
100: "1 kWh",
500: "5 kWh",
1000: "10 kWh"
], def: 100, min: 0, max: 32000, title: "Second channel - energy reports",
descr: "This parameter determines the min. change in consumed power that will result in sending power report"],
[key: "periodicPowerReports", num: 58, size: 2, type: "enum", options: [
1: "1 s",
5: "5 s",
10: "10 s",
600: "600 s",
3600: "3600 s",
32000: "32000 s"
], def: 3600, min: 0, max: 32000, title: "Periodic power reports",
descr: "This parameter defines in what time interval the periodic power reports are sent"],
[key: "periodicEnergyReports", num: 59, size: 2, type: "enum", options: [
1: "1 s",
5: "5 s",
10: "10 s",
600: "600 s",
3600: "3600 s",
32000: "32000 s"
], def: 3600, min: 0, max: 32000, title: "Periodic energy reports",
descr: "This parameter determines in what time interval the periodic Energy reports are sent"]
]}