SmartThings multipurpose sensor reporting frequency too high?

I’ve recently deployed an older multi purpose sensor from my collection in the closet. This is the older style (pre 2016). I’m not sure why it’s reporting so often, maybe temperature delta threshold? I see the frequency as low as every 3 minutes! I’m worried that these frequent reports will burn through it’s tiny little battery…any advice?

Oh, and by the way, I am using a modified DTH that I shared on another thread. Link:

I’ve only been casually trying to learn this stuff, but is there a complete handler? It looked like there were just pieces of it in that thread

I’d guess it has to do with the refresh capability and a value associated to that.

Excellent question. I think the copy-paste from my iPad failed me!

/*
 *  Edited by InsaneOctane 2021-02-10
 *  Copyright 2016 SmartThings
 *
 *  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.
 */
 //definition(name: "SmartSense Multi Sensor Spa", namespace: "insaneoctane", author: "insaneoctane", runLocally: false, minHubCoreVersion: '000.017.0012', executeCommandsLocally: false)
//this one shows partial open:
//definition(name: "SmartSense Multi Sensor Spa", namespace: "insaneoctane", author: "insaneoctane", runLocally: false, minHubCoreVersion: '000.017.0012', executeCommandsLocally: false, mnmn: "SmartThings", vid: "SmartThings-smartthings-Lutron_Caseta_Shade")
//last
//definition(name: "SmartSense Multi Sensor Spa", namespace: "insaneoctane", author: "insaneoctane", mnmn: "SmartThings", vid: "SmartThings-smartthings-SmartSense_Multi_Sensor")
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
import physicalgraph.zigbee.zcl.DataType

metadata {
	definition(name: "SmartSense Multi Sensor Spa", namespace: "insaneoctane", author: "insaneoctane", mnmn: "SmartThingsCommunity", vid: "2aa8ce91-ebd7-3ba2-a60c-c97ecfddbe55") {

		capability "Three Axis"
		capability "Battery"
		capability "Configuration"
		capability "Sensor"
		capability "Contact Sensor"
		capability "Acceleration Sensor"
		capability "Refresh"
		capability "Temperature Measurement"
		capability "Health Check"
		capability "Window Shade"

		fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3320", deviceJoinName: "Multipurpose Sensor Spa"
		fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3321", deviceJoinName: "Multipurpose Sensor Spa"
		fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3321-S", deviceJoinName: "Multipurpose Sensor Spa"
		fingerprint inClusters: "0000,0001,0003,000F,0020,0402,0500,FC02", outClusters: "0019", manufacturer: "SmartThings", model: "multiv4", deviceJoinName: "Multipurpose Sensor Spa"
		fingerprint inClusters: "0000,0001,0003,0020,0402,0500,FC02", outClusters: "0019", manufacturer: "Samjin", model: "multi", deviceJoinName: "Multipurpose Sensor Spa"

	}

	simulator {
		status "open": "zone report :: type: 19 value: 0031"
		status "closed": "zone report :: type: 19 value: 0030"

		status "acceleration": "acceleration: 1"
		status "no acceleration": "acceleration: 0"

		for (int i = 10; i <= 50; i += 10) {
			status "temp ${i}C": "contactState: 0, accelerationState: 0, temp: $i C, battery: 100"
		}

		// kinda hacky because it depends on how it is installed
		status "x,y,z: 0,0,0": "x: 0, y: 0, z: 0"
		status "x,y,z: 1000,0,0": "x: 1000, y: 0, z: 0"
		status "x,y,z: 0,1000,0": "x: 0, y: 1000, z: 0"
		status "x,y,z: 0,0,1000": "x: 0, y: 0, z: 1000"
	}
	preferences {
		section {
			image(name: 'educationalcontent', multiple: true, images: [
					"http://cdn.device-gse.smartthings.com/Multi/Multi1.jpg",
					"http://cdn.device-gse.smartthings.com/Multi/Multi2.jpg",
					"http://cdn.device-gse.smartthings.com/Multi/Multi3.jpg",
					"http://cdn.device-gse.smartthings.com/Multi/Multi4.jpg"
			])
		}
		section {
			input "tempOffset", "number", title: "Temperature offset", description: "Select how many degrees to adjust the temperature.", range: "-100..100", displayDuringSetup: false
		}
		section {
			input("garageSensor", "enum", title: "Use on garage door", description: "", options: ["Yes", "No"], defaultValue: "No", required: false, displayDuringSetup: false)
		}
		section {
			input("SpaCoverSensor", "enum", title: "Use as Spa Cover Sensor", description: "", options: ["Yes", "No"], defaultValue: "No", required: false, displayDuringSetup: false)
		}
		section {
			input "Close-HalfOpen", "number", title: "Angle Definition", description: "Select angle in degrees when changes from closed to half open.", range: "0..359", displayDuringSetup: false
		}
	}

	tiles(scale: 2) {
		multiAttributeTile(name:"contact", type: "generic", width: 6, height: 4) {
			tileAttribute("device.contact", key: "PRIMARY_CONTROL") {
				attributeState("open", label: 'Open', icon: "st.contact.contact.open", backgroundColor: "#e86d13")
				attributeState("closed", label: 'Closed', icon: "st.contact.contact.closed", backgroundColor: "#00a0dc")
			}
		}
		standardTile("SpaCover", "device.windowShade", width: 2, height: 2) {
            state("unknown", label:'${name}', icon:"st.doors.garage.garage-open", backgroundColor:"#ffa81e")
            state("closed",  label:'${name}', icon:"st.doors.garage.garage-closed", backgroundColor:"#bbbbdd", nextState: "opening")
            state("open",    label:'up', icon:"st.doors.garage.garage-open", backgroundColor:"#ffcc33", nextState: "closing")
            state("partially open", label:'preset', icon:"st.Transportation.transportation13", backgroundColor:"#ffcc33")
            state("closing", label:'${name}', icon:"st.doors.garage.garage-closing", backgroundColor:"#bbbbdd")
            state("opening", label:'${name}', icon:"st.doors.garage.garage-opening", backgroundColor:"#ffcc33")
        }
			
		standardTile("acceleration", "device.acceleration", width: 2, height: 2) {
			state("active", label: 'Active', icon: "st.motion.acceleration.active", backgroundColor: "#00a0dc")
			state("inactive", label: 'Inactive', icon: "st.motion.acceleration.inactive", backgroundColor: "#cccccc")
		}
		valueTile("temperature", "device.temperature", width: 2, height: 2) {
			state("temperature", label: '${currentValue}°',
					backgroundColors: [
							[value: 31, color: "#153591"],
							[value: 44, color: "#1e9cbb"],
							[value: 59, color: "#90d2a7"],
							[value: 74, color: "#44b621"],
							[value: 84, color: "#f1d801"],
							[value: 95, color: "#d04e00"],
							[value: 96, color: "#bc2323"]
					]
			)
		}
		valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
			state "battery", label: '${currentValue}% battery', unit: ""
		}
		standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
			state "default", action: "refresh.refresh", icon: "st.secondary.refresh"
		}


		main(["contact", "SpaCover", "acceleration", "temperature"])
		details(["contact", "SpaCover", "acceleration", "temperature", "battery", "refresh"])
	}
}

private List<Map> collectAttributes(Map descMap) {
	List<Map> descMaps = new ArrayList<Map>()

	descMaps.add(descMap)

	if (descMap.additionalAttrs) {
		descMaps.addAll(descMap.additionalAttrs)
	}

	return  descMaps
}

def parse(String description) {
	def maps = []
	maps << zigbee.getEvent(description)
	if (!maps[0]) {
		maps = []
		if (description?.startsWith('zone status')) {
			maps += parseIasMessage(description)
		} else {
			Map descMap = zigbee.parseDescriptionAsMap(description)

			if (descMap?.clusterInt == zigbee.POWER_CONFIGURATION_CLUSTER && descMap.commandInt != 0x07 && descMap.value) {
				List<Map> descMaps = collectAttributes(descMap)

				if (device.getDataValue("manufacturer") == "Samjin") {
					def battMap = descMaps.find { it.attrInt == 0x0021 }

					if (battMap) {
						maps += getBatteryPercentageResult(Integer.parseInt(battMap.value, 16))
					}
				} else {
					def battMap = descMaps.find { it.attrInt == 0x0020 }

					if (battMap) {
						maps += getBatteryResult(Integer.parseInt(battMap.value, 16))
					}
				}
			} else if (descMap?.clusterInt == 0x0500 && descMap.attrInt == 0x0002) {
				def zs = new ZoneStatus(zigbee.convertToInt(descMap.value, 16))
				maps += translateZoneStatus(zs)
			} else if (descMap?.clusterInt == zigbee.TEMPERATURE_MEASUREMENT_CLUSTER && descMap.commandInt == 0x07) {
				if (descMap.data[0] == "00") {
					log.debug "TEMP REPORTING CONFIG RESPONSE: $descMap"
					sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID, offlinePingable: "1"])
				} else {
					log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
				}
			} else if (descMap?.clusterInt == zigbee.IAS_ZONE_CLUSTER && descMap.attrInt == zigbee.ATTRIBUTE_IAS_ZONE_STATUS && descMap?.value) {
				maps += translateZoneStatus(new ZoneStatus(zigbee.convertToInt(descMap?.value)))
			} else {
				maps += handleAcceleration(descMap)
			}
		}
	} else if (maps[0].name == "temperature") {
		def map = maps[0]
		if (tempOffset) {
			map.value = new BigDecimal((map.value as float) + (tempOffset as float)).setScale(1, BigDecimal.ROUND_HALF_UP)
		}
		map.descriptionText = temperatureScale == 'C' ? '{{ device.displayName }} was {{ value }}°C' : '{{ device.displayName }} was {{ value }}°F'
		map.translatable = true
	}

	def result = maps.inject([]) {acc, it ->
		if (it) {
			acc << createEvent(it)
		}
	}
	if (description?.startsWith('enroll request')) {
		List cmds = zigbee.enrollResponse()
		log.debug "enroll response: ${cmds}"
		result = cmds?.collect { new physicalgraph.device.HubAction(it) }
	}
	return result
}

private List<Map> handleAcceleration(descMap) {
	def result = []
	if (descMap.clusterInt == 0xFC02 && descMap.attrInt == 0x0010) {
		def value = descMap.value == "01" ? "active" : "inactive"
		log.debug "Acceleration $value"
		result << [
				name           : "acceleration",
				value          : value,
				descriptionText: "{{ device.displayName }} was $value",
				isStateChange  : isStateChange(device, "acceleration", value),
				translatable   : true
		]

		if (descMap.additionalAttrs) {
			result += parseAxis(descMap.additionalAttrs)
		}
	} else if (descMap.clusterInt == 0xFC02 && descMap.attrInt == 0x0012) {
		def addAttrs = descMap.additionalAttrs ?: []
		addAttrs << ["attrInt": descMap.attrInt, "value": descMap.value]
		result += parseAxis(addAttrs)
	}
	return result
}

private List<Map> parseAxis(List<Map> attrData) {
	def results = []
	def x = hexToSignedInt(attrData.find { it.attrInt == 0x0012 }?.value)
	def y = hexToSignedInt(attrData.find { it.attrInt == 0x0013 }?.value)
	def z = hexToSignedInt(attrData.find { it.attrInt == 0x0014 }?.value)

	if ([x, y ,z].any { it == null }) {
		return []
	}

	def xyzResults = [:]
	if (device.getDataValue("manufacturer") == "SmartThings") {
		// This mapping matches the current behavior of the Device Handler for the Centralite sensors
		xyzResults.x = z
		xyzResults.y = y
		xyzResults.z = -x
	} else {
		// The axises reported by the Device Handler differ from the axises reported by the sensor
		// This may change in the future
		xyzResults.x = z
		xyzResults.y = x
		xyzResults.z = y
	}

	log.debug "parseAxis -- ${xyzResults}"

	if (garageSensor == "Yes")
		results += garageEvent(xyzResults.z)

	if (SpaCoverSensor == "Yes")
		results += SpaEvent(xyzResults)


	def value = "${xyzResults.x},${xyzResults.y},${xyzResults.z}"
	results << [
			name           : "threeAxis",
			value          : value,
			linkText       : getLinkText(device),
			descriptionText: "${getLinkText(device)} was ${value}",
			handlerName    : name,
			isStateChange  : isStateChange(device, "threeAxis", value),
			displayed      : false
	]
	results
}

private List<Map> parseIasMessage(String description) {
	ZoneStatus zs = zigbee.parseZoneStatus(description)

	translateZoneStatus(zs)
}

private List<Map> translateZoneStatus(ZoneStatus zs) {
	List<Map> results = []

	if (garageSensor != "Yes"  || SpaCoverSensor != "Yes") {
		def value = zs.isAlarm1Set() ? 'open' : 'closed'
		log.debug "Contact: ${device.displayName} value = ${value}"
		def descriptionText = value == 'open' ? '{{ device.displayName }} was opened' : '{{ device.displayName }} was closed'
		results << [name: 'contact', value: value, descriptionText: descriptionText, translatable: true]
	}

	return results
}

private Map getBatteryResult(rawValue) {
	log.debug "Battery rawValue = ${rawValue}"

	def result = [:]

	def volts = rawValue / 10

	if (!(rawValue == 0 || rawValue == 255)) {
		result.name = 'battery'
		result.translatable = true
		result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"

		if (device.getDataValue("manufacturer") == "SmartThings") {
			volts = rawValue // For the batteryMap to work the key needs to be an int
			def batteryMap = [28: 100, 27: 100, 26: 100, 25: 90, 24: 90, 23: 70,
							  22: 70, 21: 50, 20: 50, 19: 30, 18: 30, 17: 15, 16: 1, 15: 0]
			def minVolts = 15
			def maxVolts = 28

			if (volts < minVolts)
				volts = minVolts
			else if (volts > maxVolts)
				volts = maxVolts
			def pct = batteryMap[volts]
			result.value = pct
		} else {
			def useOldBatt = shouldUseOldBatteryReporting()
			def minVolts = 2.1
			def maxVolts = useOldBatt ? 3.0 : 2.7

			// Get the current battery percentage as a multiplier 0 - 1
			def curValVolts = Integer.parseInt(device.currentState("battery")?.value ?: "100") / 100.0
			// Find the corresponding voltage from our range
			curValVolts = curValVolts * (maxVolts - minVolts) + minVolts
			// Round to the nearest 10th of a volt
			curValVolts = Math.round(10 * curValVolts) / 10.0
			// Only update the battery reading if we don't have a last reading,
			// OR we have received the same reading twice in a row
			// OR we don't currently have a battery reading
			// OR the value we just received is at least 2 steps off from the last reported value
			// OR the device's firmware is older than 1.15.7
			if(useOldBatt || state?.lastVolts == null || state?.lastVolts == volts || device.currentState("battery")?.value == null || Math.abs(curValVolts - volts) > 0.1) {
				def pct = (volts - minVolts) / (maxVolts - minVolts)
				def roundedPct = Math.round(pct * 100)
				if (roundedPct <= 0)
					roundedPct = 1
				result.value = Math.min(100, roundedPct)
			} else {
				// Don't update as we want to smooth the battery values, but do report the last battery state for record keeping purposes
				result.value = device.currentState("battery").value
			}
			state.lastVolts = volts
		}
	}

	return result
}

private Map getBatteryPercentageResult(rawValue) {
	log.debug "Battery Percentage rawValue = ${rawValue} -> ${rawValue / 2}%"
	def result = [:]

	if (0 <= rawValue && rawValue <= 200) {
		result.name = 'battery'
		result.translatable = true
		result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"
		result.value = Math.round(rawValue / 2)
	}

	return result
}

List<Map> garageEvent(zValue) {
	List<Map> results = []
	def absValue = zValue.abs()
	def contactValue = null
	if (absValue > 900) {
		contactValue = 'closed'
	} else if (absValue < 100) {
		contactValue = 'open'
	}
	if (contactValue != null) {
		def descriptionText = contactValue == 'open' ? '{{ device.displayName }} was opened' : '{{ device.displayName }} was closed'
		results << [name: 'contact', value: contactValue, descriptionText: descriptionText, translatable: true]
	}
	results
}

List<Map> SpaEvent(xyzValues) {
	List<Map> results = []
	// def absValue = zValue.abs()
	def contactValue = null
    def SpaCoverValue = null
    def SpaWas = null
	if ((xyzValues.y < -742) && (xyzValues.z <= 742) && (xyzValues.z > -742))  {
		contactValue = 'closed'
		SpaCoverValue = 'closed'
		SpaWas = 'closed'
	} else if ((xyzValues.y >= -742) && (xyzValues.z >= -742)) {
		contactValue = 'open'
		SpaCoverValue = 'partially open'
		SpaWas = 'partially opened'
	} else if ((xyzValues.y > -742) && (xyzValues.y <= 742) && (xyzValues.z < -742)) {
		contactValue = 'open'
		SpaCoverValue = 'open'
		SpaWas = 'Fully opened'
	} else {
		contactValue = 'closed'
		SpaCoverValue = 'unknown'
		SpaWas = 'unknown'
	}
	if (contactValue != null) {
		def descriptionText = contactValue == 'open' ? '{{ device.displayName }} was opened' : '{{ device.displayName }} was closed'
		results << [name: 'contact', value: contactValue, descriptionText: descriptionText, translatable: true]
	}
	//log.debug "spaCoverValue= ${SpaCoverValue}"
    if (SpaCoverValue != null) {
		def SpaCoverdescriptionText = '{{ device.displayName }} was {{ SpaWas }}'
        //log.debug "spaCoverValue not null, is {{ SpaCoverValue }}"
		results << [name: 'windowShade', value: SpaCoverValue, descriptionText: SpaCoverdescriptionText, isStateChange: isStateChange(device, "windowShade", SpaCoverValue), translatable: true]
	} 
    //log.debug "windowShade: ${device.displayName} value = ${SpaCoverValue}"
    //log.debug results
	results
}

/**
 * PING is used by Device-Watch in attempt to reach the Device
 * */
def ping() {
	zigbee.readAttribute(zigbee.IAS_ZONE_CLUSTER, zigbee.ATTRIBUTE_IAS_ZONE_STATUS)
}

def refresh() {
	log.debug "Refreshing Values "
	def refreshCmds = []

	if (device.getDataValue("manufacturer") == "Samjin") {
		refreshCmds += zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0021)
	} else {
		refreshCmds += zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020)
	}
	refreshCmds += zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
		zigbee.readAttribute(0xFC02, 0x0010, [mfgCode: manufacturerCode]) +
		zigbee.readAttribute(zigbee.IAS_ZONE_CLUSTER, zigbee.ATTRIBUTE_IAS_ZONE_STATUS) +
		zigbee.enrollResponse()

	return refreshCmds
}

def configure() {
	// Device-Watch allows 2 check-in misses from device + ping (plus 1 min lag time)
	// enrolls with default periodic reporting until newer 5 min interval is confirmed
	// Sets up low battery threshold reporting
	sendEvent(name: "DeviceWatch-Enroll", displayed: false, value: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID, scheme: "TRACKED", checkInterval: 2 * 60 * 60 + 1 * 60, lowBatteryThresholds: [15, 7, 3], offlinePingable: "1"].encodeAsJSON())
	sendEvent(name: "acceleration", value: "inactive", descriptionText: "{{ device.displayName }} was $value", displayed: false)

	log.debug "Configuring Reporting"
	def configCmds = [zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000), zigbee.readAttribute(0xFC02, 0x0010, [mfgCode: manufacturerCode])]
	def batteryAttr = device.getDataValue("manufacturer") == "Samjin" ? 0x0021 : 0x0020
	configCmds += zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, batteryAttr)
	configCmds += zigbee.enrollResponse()
	configCmds += zigbee.readAttribute(zigbee.IAS_ZONE_CLUSTER, zigbee.ATTRIBUTE_IAS_ZONE_STATUS)

	if (device.getDataValue("manufacturer") == "SmartThings") {
		log.debug "Refreshing Values for manufacturer: SmartThings "
		/* These values of Motion Threshold Multiplier(0x01) and Motion Threshold (0x0276)
		 seem to be giving pretty accurate results for the XYZ co-ordinates for this manufacturer.
		 Separating these out in a separate if-else because I do not want to touch Centralite part
		 as of now.
		*/
		configCmds += zigbee.writeAttribute(0xFC02, 0x0000, 0x20, 0x01, [mfgCode: manufacturerCode])
		// passed as little-endian as a bug-workaround
		configCmds += zigbee.writeAttribute(0xFC02, 0x0002, 0x21, "7602", [mfgCode: manufacturerCode])
	} else if (device.getDataValue("manufacturer") == "Samjin") {
		log.debug "Refreshing Values for manufacturer: Samjin "
		configCmds += zigbee.writeAttribute(0xFC02, 0x0000, 0x20, 0x14, [mfgCode: manufacturerCode])
	} else {
		// Write a motion threshold of 2 * .063g = .126g
		// Currently due to a Centralite firmware issue, this will cause a read attribute response that
		// indicates acceleration even when there isn't.
		configCmds += zigbee.writeAttribute(0xFC02, 0x0000, 0x20, 0x02, [mfgCode: manufacturerCode])
	}

	// temperature minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
	// battery minReport 30 seconds, maxReportTime 6 hrs by default
	if (device.getDataValue("manufacturer") == "Samjin") {
		configCmds += zigbee.configureReporting(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0021, DataType.UINT8, 30, 21600, 0x10) +
				zigbee.temperatureConfig(30, 300) +
				zigbee.configureReporting(0xFC02, 0x0010, DataType.BITMAP8, 0, 3600, 0x01, [mfgCode: manufacturerCode]) +
				zigbee.configureReporting(0xFC02, 0x0012, DataType.INT16, 0, 3600, 0x0001, [mfgCode: manufacturerCode]) +
				zigbee.configureReporting(0xFC02, 0x0013, DataType.INT16, 0, 3600, 0x0001, [mfgCode: manufacturerCode]) +
				zigbee.configureReporting(0xFC02, 0x0014, DataType.INT16, 0, 3600, 0x0001, [mfgCode: manufacturerCode])
	} else {
		configCmds += zigbee.batteryConfig() +
				zigbee.temperatureConfig(30, 300) +
				zigbee.configureReporting(0xFC02, 0x0010, DataType.BITMAP8, 10, 3600, 0x01, [mfgCode: manufacturerCode]) +
				zigbee.configureReporting(0xFC02, 0x0012, DataType.INT16, 1, 3600, 0x0001, [mfgCode: manufacturerCode]) +
				zigbee.configureReporting(0xFC02, 0x0013, DataType.INT16, 1, 3600, 0x0001, [mfgCode: manufacturerCode]) +
				zigbee.configureReporting(0xFC02, 0x0014, DataType.INT16, 1, 3600, 0x0001, [mfgCode: manufacturerCode])
	}

	configCmds += zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, batteryAttr)

	return configCmds
}

private hexToSignedInt(hexVal) {
	if (!hexVal) {
		return null
	}

	def unsignedVal = hexToInt(hexVal)
	unsignedVal > 32767 ? unsignedVal - 65536 : unsignedVal
}

private getManufacturerCode() {
	if (device.getDataValue("manufacturer") == "SmartThings") {
		return "0x110A"
	} else if (device.getDataValue("manufacturer") == "Samjin") {
		return "0x1241"
	} else {
		return "0x104E"
	}
}

private shouldUseOldBatteryReporting() {
	def isFwVersionLess = true // By default use the old battery reporting
	def deviceFwVer = "${device.getFirmwareVersion()}"
	def deviceVersion = deviceFwVer.tokenize('.')  // We expect the format ###.###.### where ### is some integer

	if (deviceVersion.size() == 3) {
		def targetVersion = [1, 15, 7] // Centralite Firmware 1.15.7 contains battery smoothing fixes, so versions before that should NOT be smoothed
		def devMajor = deviceVersion[0] as int
		def devMinor = deviceVersion[1] as int
		def devBuild = deviceVersion[2] as int

		isFwVersionLess = ((devMajor < targetVersion[0]) ||
			(devMajor == targetVersion[0] && devMinor < targetVersion[1]) ||
			(devMajor == targetVersion[0] && devMinor == targetVersion[1] && devBuild < targetVersion[2]))
	}

	return isFwVersionLess // If f/w version is less than 1.15.7 then do NOT smooth battery reports and use the old reporting
}

private hexToInt(value) {
	new BigInteger(value, 16)
}

I think the refresh intervals are in the two places with.
zigbee.temperatureConfig(30, 300)

the 30 being a minimum and 300 being a maximum, in seconds.

I’d just search the forum for that bit of code, until someone else who knows exactly the changes needed comes along, but I think there is another value that needs to be changed, when adjusting the minimum and maximum

@Mariano_Colmenarejo has a very neat dth for these that you can easily adjust reporting frequency and still have local execution…

It’s not local. Any custom DTH will run in the cloud.
I still don’t understand why Zigbee or Zwave devices run in the cloud at all, the hub is more than capable of processing the groovy code locally.
I think the original CEO of SmartThings just didn’t understand the technical side of what he was doing and ended up leaving us with a bit of a mess, that’s why Samsung has been trying to burn it all to the ground and start from scratch.

Well, in IDE it puts local and also if you look at the live log in IDE you will not see anything, because it does not go through the cloud. you only see acceleration data.
You will also see that if you put the draf version, that if it is cloud, the live log is complete.
It behaves just like the original, from what I see.
and in smartlighting automations it also puts local for those dth, for others not.

It should not allow local control for a modified DTH. Does it show local in the device list?

Yes, appears as local and see It in live logging, do not see the open, close events, because do no go to the cloud

Confirmed, with the hub disconnected from the router, the local automations in smart lighting of the devices with modified Smartsense DTHs work perfectly

@Insaneoctane ,If You need the links

@mvevitsis there are also moded dth’s for the Samsung leak, motion and button sensors too. You’ve become very sheepish all of a sudden. Try yourself, with a smartlighting rule, turn off the internet and see if they still run.

it seems to work, my guess is only because the developer and namespace have not been changed from the original dth.