Installation Manual
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug 'Battery'
def linkText = getLinkText(device)
def result = [:]
def volts = rawValue / 10
if (!(rawValue == 0 || rawValue == 255)) {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.descriptionText = "${linkText} battery was ${result.value}%"
result.name = 'battery'
}
return result
}
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText,
unit: temperatureScale
]
}
private String parseValue(String description) {
return zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x001, 0x0020) // Read the Battery Level
}
def refresh() {
log.debug "refresh called"
def refreshCmds = [
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20", "delay 200"
]
return refreshCmds + enrollResponse()
}