HELTUN HE-HLS01 High Load Switch with Thermostat Functions User Manual
- June 7, 2024
- HELTUN
Table of Contents
- Overview
- Technical Specifications
- Functions & Features
- Installation
- Disassembly
- Factory Reset (RES)
- Z-Wave Network
- Adding to Z-Wave network
- Removing from Z-Wave network
- Security
- SmartStart
- Firmware OTA Update
- Z-Wave Plus V2 Specifications
- Supported Command Classes
- Associations
- Settings (available through Z-Wave network)
- Device type“Binary Switch”
- Z-Wave Frequency
- Hardware & Software Versions
- Input & Output Configurations
- Auto On/Off function
- External Input Configuration
- Scenarios
- Energy and Sensor Report Interval
- Protections and Notifications
- Device type “Thermostat”
- DRY – Fast Floor Drying Mode
- Energy Saving Mode
- Z-Wave Frequency
- Hardware & Software Versions
- Power and Energy Consumption
- Input & Output Configurations
- Temperature Configurations
- Time Configurations
- Energy and Sensor Report Interval
- Protections and Notifications
- Basic Set Command
- Limited Warranty
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
HIGH LOAD SWITCH
HE-HLS01 USER MANUAL
for Hardware v.84 & Firmware v.1.2
Overview
The HELTUN HE-HLS01 High Load Switch with Thermostat Functions brings
incredible capabilities to any connected device: saving energy, wireless
control of connected devices, and absolute comfort and convenience for your
home. It fits easily behind outlets or switches in standard electrical
junction boxes or in a circuit breaker panel connected to entire banks of
lights or outlets making them ‘Impossibly Smart’ with over-the-internet
monitoring, control, and advanced programmability.
Full thermostat functions
The High Load Switch provides Internet-connected thermostat functions where a
local display and controls are not needed such as roof or driveway de-icing
systems. An included NTC temperature sensor can be installed on the wall,
under floorboards, on the roof, or under decking allowing accurate monitoring
of ambient or radiant floor/roof system temperatures.
Inputs & outputs
It can also be connecting to external switches or systems—such as a light
switch or alarm system, etc.— through a pilot wire to allow direct or pre-
programmed control of connected devices using eight different modes.
Know how much energy you use
Determine how much energy is used by major appliances, entertainment systems,
computers, small appliances, or entire lighting systems by monitoring how much
energy has passed through the HE-HLS01 during any particular day, week, or
month.
Makes circuit breakers ‘Impossibly Smart’
Since the High Load Switch can handle up to 16 Amp loads, it is a perfect
addition to your circuit breaker panel for monitoring and controlling groups
of devices from the Internet through a Z-Wave™ gateway.
Safety
The High Load Switch adds safety to your home by protecting against overloads,
overheat, sparks conditions, and it can even be configured to turn off an
outlet if a family member leaves a high load device turned on for a long
period of time, possibly preventing a fire.
Enables scenarios triggered by time
The High Load Switch has an onboard Real Time Clock (RTC) that enables
scenarios where connected devices can be triggered on a schedule.
Based on the latest Z-Wave platform
The HE-HLS01 integrates a Z-Wave Plus™ v2 700 platform module allowing it to
be used with Z-Wave home automation systems. The HE-HLS01 supports Z-Wave ‘S0’
and ‘S2’ security protocols, SmartStart technology, and can be connected
(associated) to other Z-Wave devices, such as relays, motor controllers,
dimmers, etc.
Technical Specifications
-
Dimensions: 50mm (H) х 50mm (W) х 26mm (D)
-
Materials: Flame retardant plastic
-
LED indicator for device status
-
Operating temperature: 0°C (32°F) to +50°C (122°F)
-
Power supply: 85-265VAC 50Hz/60Hz, 24-48VDC
-
Power consumption: 1W
-
Active elements: Electromagnetic Relay Switch
-
Maximum resistive load: 16А, 4000W @ 250VAC
-
HELTON Advanced Zero-Cross relay switching technology
-
Relay lifetime: 100.000 switches
-
External floor temperature sensor
o NTC 10kΩ
o Measurement range: -30°C (-22°F) to +120°C (248°F)
o Accuracy: ±0.5°C(±1°F) -
Device control
o Through Z-Wave network
o Directly with pilot wire -
Real-time energy consumption meter
-
IP class: IP21
-
Z-Wave Plus V2 SDK: V7.11
-
Z-Wave module: ZGM130S
-
Requires mounting to flush electrical junction box: round, square or rectangular type – min. depth 40mm
Functions & Features
The functions and features of HE-HLS01 could be different depending on how the
device is included in the Z-Wave network. Depending on the number of button
presses (two or four) during the inclusion process HE-HLS01 could function as
either “Binary Switch “or “Thermostat “.
In case if the device is already included in the Z-Wave network and there is a
need to change the device type, it should be removed from the network and re-
included with the corresponding type.
Common for “Binary Switch“ and “Thermostat“ device types
-
Options for Inclusion/Exclusion to/from Z-Wave network
o Non-Secure
o S0 Secure
o S2 Unauthorized, S2 Authorized with Key -
Association control of devices in z-wave network
-
8 safety functions:
o Overheat protection & notification
o Temperature Rise protection & notification
o Over-current protection & notification
o Over-load protection & notification
o Over-voltage protection & notification
o Voltage drop protection & notification
o Spark & Surge protection & notification
o Device Failure notification -
External control input
-
Periodic measurements from:
o External temperature sensor
o Energy consumption meter -
Can be used with different NTC-sensors (range: 1kΩ to 100kΩ)
-
Calibration of External NTC Temperature Sensor
-
Zero-cross relay switching
-
NO/NC relay mode
-
LED indicator blinking function (for easy identification among other Z-Wave devices)
-
Real-time and cumulative energy usage to 0.1kW accuracy
-
Factory reset function
-
SmartStart technology for quick addition to Z-Wave networks
-
Encrypted OTA (Over The Air) firmware update feature
-
Z-Wave Frequency change
“Binary Switch“ device type
-
Auto On/Off function
o Switch output Off if there is no consumption
o Switch output On when the load is reconnected -
Time limit for high load
-
Timer mode for relay control
-
10 scenarios for relay control
“Thermostat“ device type
-
6 operational modes with individual temperature set points:
o Heat – Most comfort mode
o Auto – Time schedule mode
o Dry – Fast floor drying mode
o Energy Saving – Power efficient mode
o Away – Vacation mode
o Off – Thermostat Off (IDLE) mode -
4-time schedules for 7 days of the week:o Morning
o Day
o Evening
o Night -
Additional safety function:
o Load Failure notification -
Can be used with different NTC-sensors (range: 1kΩ to 100kΩ)
-
Temperature set intervals: 1.0°C (34°F) to 110.0°C (230°F)
-
Temperature scale selection (Celsius or Fahrenheit)
-
Temperature hysteresis selection range: 0.2°C (1°F) to 10.0°C (18°F)
Installation
The HELTUN HE-HLS01 High Load Switch must be installed by a licensed
electrician in a manner that conforms to local regulations and building codes.
Provide these instructions to the licensed electrician who is installing the
HE-HLS01.
WARNING: Electrical power must be switched off during installation.
- FIRST ENSURE THE POWER IS OFF at the main circuit breaker, and then test the wires with a probe or multimeter to verify.
- Insert the power and load wires to the correct HE-HLS01 terminals by inserting a small Phillips-head screwdriver in the slot beneath each terminal and unscrew to open.
Follow connection diagrams (Figure 2, 3, 4, 5) and the instructions below:
- Power wires: for AC power (85-265VAC) connect Line & Neutral lead wires to L & N terminals labeled “IN”. For DC power (24-48VDC) connect “+” wire to terminal N and “–” wire to terminal L.
- Load wires: connect Line & Neutral wires to L & N terminals labeled with “heating element” graphic
Note: it is possible to connect Neutral wire from load directly to your neutral line (Figure 3 or 5).
Note: HELTUN recommends installing cord terminals (electric wire ferrules) on the ends of wires before connecting them to the HE-HLS01 outputs (various colors terminals are included).
Note: Zero-Cross technology is unavailable if the device is DC (24-48VDC) powered.
Tighten wires using Phillips screwdriver in slot beneath each wire.
3. If using the HE-HLS01 for radiant floor heating, connect the NTC
temperature sensor wire to the terminals labeled “NTC.” A 10 kΩ NTC sensor is
included inside the HE-HLS01 packaging, but any NTC sensor can be used.
Note: If an NTC sensor other than 10 kΩ is used, you must change the sensor
resistance value in Parameter 10.
4. If you will be using an external device to select modes for the HE-HLS01
(such as a security system or wall switch), connect wires from the external
device’s dry contacts to the two HE-HLS01 terminals labeled “S1” & “Sx”.
Two different connection methods for external control are possible:
- Connect S1 to Sx through dry contact switch (as in Figures 2 & 3)
- Connect S1 to electric network Line through dry contact switch (as in Figures 4 & 5)
Note: In the case of connecting S1 to the electric network Line, it is MANDATORY to connect the S1 terminal to the same wire connected to terminal L on the device (labeled as “IN”).
5. Switch On the main power at the circuit breaker. The HE-HLS01 will start up with the original default factory settings and the LED indicator will blink red slowly meaning the device is excluded from a Z-Wave network.
Disassembly
- ENSURE POWER IS SWITCHED OFF at the main circuit breaker AND THE LED INDICATOR IS OFF.
- Disconnect the wires by inserting a small Phillips-head screwdriver into the slot beneath each wire and unscrewing to release.
Factory Reset (RES)
To reset the HE-HLS01 to factory defaults, press and hold the service button
for six seconds. If successful, the LED indicator will blink white for two
seconds then the device will reboot.
The factory reset will change all the Parameters to their original factory
default values and will also Exclude the device from any Z-Wave network.
Note: Please use this procedure only when the network primary controller is
missing or otherwise inoperable.
Z-Wave Network
The HE-HLS01 may be operated in any Z-Wave network with other Z-Wave-certified
devices from other manufacturers.
The HELTUN HE-HLS01 will act as a ‘repeater’ (i.e. ‘range extender’) for other
devices regardless of manufacturer or brand to increase the reliability of the
overall network.
Adding to Z-Wave network
To add the HE-HLS01 to an existing Z-Wave network (i.e. “inclusion”), do the following:
-
Ensure the HE-HLS01 is Powered On and the LED indicator blinks red slowly (i.e. it is excluded).
-
Start the Inclusion Mode from the gateway/controller.
-
To start the inclusion process on the HE-HLS01:
a) if you want to use the device as a “Binary Switch”, double-press the service button on the device (with no more than a one-second interval between presses).
b) if you want to use the device as a “Thermostat”, press four times the service button on the device (with no more than a one-second interval between presses). -
The LED indicator will blink green quickly.
-
If the inclusion has been successful, the LED indicator will turn green for three seconds then continue slowly blinking green continuously while the HE-HLS01 is Powered On.
-
If the inclusion was not successful, the LED indicator will turn red for three seconds then continue slowly blinking red continuously while the HE-HLS01 is Powered On. In that case, repeat the inclusion process (2-5) above.
Removing from Z-Wave network
To remove the HE-HLS01 from a Z-Wave network (i.e. “Exclusion”), do the following:
- Ensure the HE-HLS01 is Powered On and the LED indicator blinks green slowly (i.e. it is included in a Z-Wave network).
- Start the Exclusion Mode from the gateway/controller.
- To start the exclusion process on the HE-HLS01, double-press the service button on the device (with no more than a one-second interval between presses).
- The LED indicator will blink red quickly.
- If the exclusion has been successful, LED indicator will turn red for three seconds then continue slowly blinking red continuously while the HE-HLS01 is Powered On.
- If the exclusion was not successful, the LED indicator will turn green for three seconds then continue slowly blinking green continuously while the HE-HLS01 is Powered On. In that case repeat the exclusion process (2-5) above.
Note: If the HE-HLS01 has previously been part of a Z-Wave network and
not Excluded since (the LED indicator blinks
green slowly), Inclusion is not possible without first performing an Exclusion
or Factory Reset procedure.
Security
S0, S2 unauthorized, and S2 authorized Inclusion Modes are supported. If you
use the S2 authorized Inclusion Mode, the security key should be used during
the inclusion process. The security key is the first 5 digits of DSK (device
DSK is printed on the rear of the device plus on the Security Card included in
the packaging).
Note: Be sure to save this key. Without the key, it is impossible to perform
an inclusion in S2 authorized mode.
SmartStart
SmartStart-enabled products can be added to a Z-Wave network by scanning the
Z-Wave QR Code shown on the product with gateways/controllers that provide for
SmartStart inclusion. In this case, no further action will be required and the
SmartStart product will be added automatically within ten minutes of being
turned on in the vicinity of a network.
To add the HE-HLS01 to the Z-Wave network using SmartStart:
- Input the High Load Switch DSK to the controller’s Node Provisioning List (or scan the QR code)
- Power on the device.
- Wait for the adding process to complete.
- Successful adding will be confirmed by a message on the Z-Wave controller and the LED indicator on HE-HLS01 will turn green for three seconds then continue to slowly blink green continuously while the device is Powered On.
Note: The device QR code and DSK are printed on the front and rear of the
HE-HLS01 plus on the additional Security Card included in the packaging (see
Figure 6).
Note: During SmartStart inclusion the device will be included to the
gateway as a binary switch. If you want to use the device as a thermostat, use
a manual inclusion process.
Firmware OTA Update
To wirelessly update the HE-RS01 firmware, follow these steps:
- Check the device’s current firmware version in the gateway/controller.
- Start the process from the Z-Wave gateway/controller.
- Download the latest firmware that corresponds to the HE-RS01 (see https://support.heltun.com/ )
- Set the main controller in Firmware OTA (“over-the-air”) Update Mode (see the gateway/controller manual).
- As soon as the Firmware update begins, the LED indicator will sequentially blink red→green→blue (this will take a few minutes).
- When the Firmware has updated, the LED will turn blue for two seconds, and then the HE-RS01 will reboot.
- When the update has been completed, the HE-RS01 will return to normal operation.
- If desired, verify the update was successful by checking the firmware version from the gateway/controller.
Z-Wave Plus V2 Specifications
Thermostat Generic Device Class: GENERIC_TYPE_THERMOSTAT
Thermostat Specific Device Class: SPECIFIC_TYPE_THERMOSTAT_GENERAL_V2
Binary Switch Generic Device Class: GENERIC_TYPE_SWITCH_BINARY
Binary Switch Specific Device Class: SPECIFIC_TYPE_NOT_USED
Supported Command Classes
Command Class| Version| Required Security Class| Binary
Switch| Thanos
---|---|---|---|---
Z-Wave Plus Info| V2| none| V| V
Association| V2| highest granted (S2 Authenticated, S2 Unauthenticated or SO)|
V| V
Association Group Info| V3| highest granted (S2 Authenticated, S2
Unauthenticated or SO)| V| V
Multi-Channel Association| V3| highest granted (S2 Authenticated, S2
Unauthenticated or SO)| V| V
Thermostat Operating State| V1| highest granted (S2 Authenticated, S2
Unauthenticated or SO)| X| V
Thermostat Mode| V3| highest granted (S2 Authenticated, S2 Unauthenticated or
SO)| X| V
Thermostat Setpoint| V3| highest granted (S2 Authenticated, S2 Unauthenticated
or SO)| X| V
Switch Binary| V2| highest granted (S2 Authenticated, S2 Unauthenticated or
SO)| V| X
Sensor Multilevel| V11| highest granted (S2 Authenticated, S2 Unauthenticated
or SO)| V| V
Meter| V5| highest granted (S2 Authenticated, S2 Unauthenticated or SO)| V| V
Clock| V1| highest granted (S2 Authenticated, S2 Unauthenticated or SO)| V| V
Transport Service| V2| none| V| V
Security 0| V1| none| V| V
Security 2| V1| none| V| V
Version| V3| highest granted (S2 Authenticated, S2 Unauthenticated or SO)| V|
V
Manufacturer Specific| V2| highest granted (S2 Authenticated, S2
Unauthenticated or SO)| V| V
Device Reset Locally| V1| highest granted (S2 Authenticated, S2
Unauthenticated or SO)| V| V
Powerlevel| V1| highest granted (S2 Authenticated, S2 Unauthenticated or SO)|
V| V
Supervision| V*1| none| V| V
Indicator| V3| highest granted (S2 Authenticated, S2 Unauthenticated or SO)|
V| V
Configuration| V4| highest granted (S2 Authenticated, S2 Unauthenticated or
SO)| V| V
Application Status| V1| none| V| V
Firmware Update Meta Data| V5| highest granted (S2 Authenticated, S2
Unauthenticated or SO)| V| V
Basic| V2| highest granted (S2 Authenticated, S2 Unauthenticated or SO)| V| V
Notification| V8| highest granted (S2 Authenticated, S2 Unauthenticated or
SO)| V| V
Meter Command Class
Meter Type | Scale | Rate Type | Precision | Size |
---|---|---|---|---|
Electric [0x01] | Electric kWh [0x00] | Import [0x01] | 2 | 4 |
Electric [0x01] | Electric_W 10×02] | Import [0x01] | 0 | 2 |
Electric [0x01] | Electric V [0x04] | Import 10×011 | 0 | 2 |
Notification Types
Notification Type | Event/State | Mary Switch | Thermostat |
---|---|---|---|
Heat Alarm | Overheat detected | V | V |
Rapid temperature rise | V | V | |
System | System hardware failure (manufacturer proprietary failure code | ||
provided) | V | V | |
Power Management | AC mains disconnected | V | X |
AC mains re-connected | V | X | |
Over-current detected | V | V | |
Over-voltage detected | V | V | |
Over-load detected | V | V | |
Surge detected | V | V | |
Voltage drop/drift | V | V | |
Load error | X | V |
Associations
Association enables the HE-HLS01 to control other Z-Wave devices over the
network. An Association Group may include up to five other devices from
different brands and/or manufacturers. The HE-HLS01 has four association
groups:
Group 1 – “Lifeline”: reports state of the device and used to communicate
with the Z-Wave gateway. The group supports one Node.
Note: It is not recommended to modify this group.
Group 2 – “Relay Basic Set”: is assigned to the HE-HLS01 relay state. It
sends a Basic Set command with value 255
(On) when relay goes to On state and sends 0 (Off) when relay goes to Off
state. The group supports five Nodes.
Group 3 – “S1 Basic Set”: is assigned to the HE-HLS01 external input
state. It sends a Basic Set command with a value
255 (On) when the external input is shorted and sends 0 (Off) when input is
open. The group supports five Nodes.
Group 4 – “Temperature Sensor”: is assigned to the HE-HLS01 external
temperature sensor and sends the sensor value when it changes. The group
supports five Nodes.
The device also can receive the Basic Set command via associations. In the
“Binary Switch” mode the device will change the relay state according to the
value in the Basic Set command. In the “Thermostat” mode the device will
change the operating more according to the Parameter 171 value from the
Thermostat parameters list.
Settings (available through Z-Wave network)
All configuration parameters are accessed through Z-Wave COMMAND_CLASS_CONFIGURATION
Device type“Binary Switch”
Parameters List & Factory Defaults
These parameters will take effect only in case if the device is included in the Binary Switch mode. For more information about the different inclusion, modes see the section Z-Wave Network.
Number| Size| Description| Default
Value| Available Values
---|---|---|---|---
1| 1 byte| Frequency Region| Read Only| 0 … 9
2| 1 byte| Inclusion / Exclusion Mode| Read Only| 0, 1
3| 4 bytes| Hardware and Software Versions| Read Only| XXYYZZ
4| 4 bytes| Energy Consumption. kW| Read Only| Total consumption
5-6| Reserved by the manufacturer
7| 1 byte| Relay output NO or NC mode| 0| 0, 1
8-9| Reserved by the manufacturer
10| 1 byte Floor Sensor Resistance. kt, 10 1 … 100
---|---
11-15| Reserved by the manufacturer
16| 1 byte| TEMPERATURE SCALE MODE| 0| 0.1
17| 1 byte| Temperature Sensor Calibration in °C. value X 10. e.g. 1.5°C=15|
0| -100 … 100 ‘IC
-18 18 ‘F
18| Reserved by the manufacturer
19| 1 byte| Time correction by controller 1 0. 1
20| Reserved by the manufacture’
21| 1 byte| Week Day| 1| 1. 2, 3.4. 5. 6. 7
22| 2 bytes| Time: Hour and Minutes| 0| 0 … 2359
23| 1 byte| LOAD AUTO ON/OFF| 0| 0.1
24| 1 byte| AUTO-OFF TIMEOUT| 5| 0 … 120
25| 1 byte| AUTO ON RECONNECT TIMEOUT| 0| 0… 120
26| 2 bytes| TIME LIMITED LOAD| 0| 0. 100 … 3500
27| 2 bytes| HIGH LOAD ON TIME LIMIT| 0| 0…. 1440
28-40| Reserved by the manufacturer
41| 1 byte 51 INPUT HOLD CONTROL MODE 2| 0. 1. 2. 3
42-50| Reserved by the manufacturer
51| 1 byte 151 INPUT CLICK CONTROL MODE I I| 0. 1. 2. 3. 4. 5
52-70| Reserved by the manufacturer
71| 2 bytes RELAY TIMER DURATION C| 43200
72-110| Reserved by the manufacturer
111| 4 bytes| Relay control scenario 1| 0| 0.1912359._
1912359
112| 4 bytes| Relay control scenario 2| 0| .
0. 1912359
2359
113| 4 bytes| Relay control scenario 3| 0| 0. 1000000 …
1912359
110| 4 bytes| Relay control scenario 4| 0| 0. 1000000 …
1912359
115| 4 bytes| Relay control scenario 5| 0| 0. 1000000 …
1912359
116| 4 bytes| Relay control scenario 6| 0| 0. 1911000000 ..2359
117| 4 bytes| Relay control scenario 7| 0| 0. 1000000 …
1912359
118| 4 bytes| Relay control scenario 8| 0| 0. 1000000 …
1912359
119| 4 bytes| Relay control scenario 9| 0| 0. 1000000 …
1912359
120| 4 bytes| Relay control scenario 10| 0| 0. 1000000 ..
1912359
121-140| Reserved by the manufacturer
141| 1 byte| Consumption meter consecutive reporting interval, minutes| 10| 1
… 120
142| 1 byte| Consumption difference to send to the controller. %| 25|
143| 1 byte| Sensors consecutive reporting interval, minutes| 10| 1 … 120
104| 1 byte| Temperature difference to send to the controller, value X 10| 2|
0. 1 … 100 for t
0 … 18 for “F
145-150| Reserved by the manufacturer
---|---
151| 1 byte| SYSTEM ERROR NOTIFICATION| 1| 0.1
152| 2 bytes| TEMPERATURE RISE NOTIFICATION| 50 for °C
122 for `F| 0 1 . 120 for “C
0. 34 … 248 for °F
153| 2 bytes| OVERHEAT PROTECTION LEVEL| 60 for °C
140 for 4-F
O. 1 … 120 for °C| 0. 34 … 248 for “F
154| 1 byte| OVERCURRENT NOTIFICATION| 1| 0.1
155| 2 bytes| OVERLOAD PROTECTION LEVEL| 3500| 0. 100 …. 4000
156| 2 bytes| OVERVOLTAGE PROTECTION LEVEL| 240| 0. 120 … 280
157| 2 bytes| VOLTAGE DROP PROTECTION LEVEL| 200| 0. 80 … 240
158| 1 byte| SPARK PROTECTION| 1| 0.1
159-200| Reserved by the manufacturer
Z-Wave Frequency
Parameter 01 – Frequency Region
The HE-HLS01 has Z-Wave 700 series chip inside which allows using the device
in different Z-Wave frequencies. If there is a need to use the device in a
frequency different from the factory default, change the value of this
Parameter according to the frequency list below. Modification is possible only
while the HE-HLS01 is not included to Z-Wave
network.
Note: The factory default frequency differs depending on which region the
device was intended for sale in. Check the factory default frequency on the
device plate or on the packaging.
Note: Do not change this Parameter value if there is no special need.
Note: If change the value of this Parameter, the frequency change will be
applied only after removing the device from the Z-Wave network (the device
will automatically reboot).
Note: The change of this parameter will result in an inability to control
the device if the device was included to the controller/gateway which supports
only one frequency.
Note: Resetting the device to factory default settings will revert the
frequency to the factory default value.
Note: In most of the countries it is not allowed to use a frequency
different from the frequency intended for that country.
Frequency list for different regions:
0: EU (868.4 MHz, 869.85 MHz)
1: US (908.4 MHz, 916.0 MHz)
2: ANZ (919.8 MHz, 921.4 MHz)
3: HK (919.8 MHz)
4: IN (865.2 MHz)| 5: IL (916.0 MHz)
6: RU (869.0 MHz)
7: CN (868.4 MHz)
8: JP (922.5 MHz, 923.9 MHz, 926.3 MHz)
9: KR (920.9 MHz, 921.7 MHz, 923.1 MHz)
---|---
The full list of Z-Wave global regions where Z-Wave works is available on the Z-Wave Global Regions SiLabs page.
Hardware & Software Versions
Parameter 03 – Hardware and Software Versions
This Parameter allows checking the hardware and firmware versions of the
device. The Parameter returns the value in the format XXYYZZ, where XX is
Hardware Version, YY is Firmware Major Version and ZZ is Firmware Minor
Version.
Note: This Parameter is read-only.
Power and Energy Consumption
HE-HLS01 monitors Real-Time and Cumulative power Energy Consumption and
Voltage using an advanced microcontroller technology which assures maximum
accuracy (±1% for loads greater than 1000W). Real-Time Consumption,Cumulative
Consumption, and network Voltage are periodically reported to the Z-Wave
controller (according to parameters 141 and 142):
Parameter 04 – Energy Consumption
This Parameter allows you to check the Cumulative and Real-Time Energy
Consumption of the connected load. Through the Z-Wave network, this Parameter
returns the Total Cumulative Consumption value in kW.
Note: This Parameter is read-only.
Resetting Cumulative Consumption memory:
The HE-HLS01 allows erasing stored Consumption Data through the Z-Wave
network.
The HE-HLS01 enables you to erase stored Consumption Data through the Z-Wave
network as follows:
- Make sure the HE-HLS01 is powered.
- If not already done so, include the device into the Z-Wave Gateway network.
- Reset memory consumption data using the Reset Command in COMMAND_CLASS_METER (see the Gateway owner’s manual).
Note: Turning the device’s main power off/on will not erase the consumption data as it is stored in nonvolatile memory.
Input & Output Configurations
Parameter 07 – Relay output mode (NO / NC)
This Parameter determines the type of load connected to the device relay
output. The output type can be NO – normally open (no contact/voltage switch
the load OFF) or NC – normal close (output is contacted / there is a voltage
to switch the load OFF). Choose the value 0 if NO contact type is required or
value 1 if NC type is required.
The factory default value is 0.
Parameter 10 – Floor Sensor Resistance
If the external floor NTC temperature sensor is used it is necessary to select
the correct resistance value in Ohms (Ω) of the sensor. The selection range is
1 to 100 kiloOhms (kΩ). One 10kΩ NTC floor temperature sensor is included in
the HE-HLS01 package with a 3-meter connection wire. The factory default value
is 10kΩ.
Temperature Configurations
Parameter 16 – Temperature Scale Mode
This parameter determines in which unit of measurement (degrees Celsius or
Fahrenheit) the device will report the temperature and also determines the
scale that will be interpreted by the configuration parameters. Set the value
0 for Celsius and the value 1 for Fahrenheit.
The factory default value is 0 (degrees Celsius).
Note: This configuration parameter has an impact on configuration
parameters 17, 143, 152, and 153. If the scale is set to degrees Fahrenheit,
configuration values at mentioned parameters will be automatically converted
from Celsius to Fahrenheit and any change in the values will be interpreted as
Fahrenheits.
Parameter 17 – Temperature Sensor Calibration
This Parameter defines the offset value for floor temperature. If the external
floor temperature sensor is not calibrated properly, then manual calibration
can be made by djusting the values up to ±10.0°C (±18°F). This value will be
added or subtracted from the floor temperature sensor reading. Through t e
Z-Wave network the value of this Parameter should be x10 (for Celsius only),
e.g. for 1.5°C set the value 15. The factory default value is 0.
Time Configurations
Parameter 19 – Time Correction by Main Controller
If this Parameter value = 1 and the HE-HLS01 is connected to a Z-Wave gateway,
the HE-HLS01 time and day will be periodically polled and corrected from the
gateway. To witch off auto-correction set the Parameter value to 0.
The factory default value is 1.
Parameter 21 – Day of the Week Manual Adjustment
This Parameter allows manual adjustment of the day of the week in case the HE-
HLS01 is not connected to any ZWave gateway or auto-correction is disabled
(Parameter 19
value is 0). 1 = Monday, 2 = Tuesday, 3 Wednesday, 4 = Thursday, 5 = Friday,
6 = Saturday, 7 = Sunday. The factory default value is 1.
Parameter 22 – Time Manual Adjustment
This Parameter allows manual adjustment of Time. The Parameter has the
following format: HHMM, where HH is hours
and MM is minutes. E.g. for 16:08 set the value 1608 and for 1:00 set the
value 100.
Auto On/Off function
Parameter 23 – Auto On/Off
If this function is enabled the device will switch Off the relay output when
there is no consumption and switch On the output again when the load is
reconnected. It is possible to set the delay for the Auto-Off function (in
Parameter 24) and for the Auto On function (in Parameter 25). To enable Auto
On/Off function, set this Parameter value to 1 and use the value 0 if there is
a need to disable the function.
The factory default value is 0 (the function is disabled).
Note: If the output is manually switched Off (from Gateway or External
Input toggle) Auto ON function will be blocked until the output switches back
to ON manually or the load disconnected.
Note: The function works only if the device is AC powered.
Parameter 24 – Auto-Off Timeout
If the Auto On/Off function (the Parameter 23) is enabled, it is possible to
delay the Auto-Off function. The output will be switched Off when there is no
consumption for the interval defined in this parameter in minutes. The value
of this parameter can be set from 0 to 120 min. Set the parameter value to 0
if there is a need to switch Off the output
immediately when consumption drops to 0W.
The factory default value is 5 min.
Note: The function works only if the device is AC powered.
Parameter 25 – Auto On Reconnect Timeout
If the Auto On/Off function (the Parameter 23) is enabled, it is possible to
delay the Auto On function. When the load is reconnected the relay output will
be switched On after the time defined in this parameter in minutes. The value
of this parameter can be set from 0 to 120 min. Set the parameter value to 0
if there is a need to switch On the output immediately when the load is
reconnected.
The factory default value is 0 min.
Note: The function works only if the device is AC powered.
Parameter 26 – High Load Timeout Protection: Power Threshold
If the HLS01 is used to control an electric socket, you can configure the
device so that it automatically switch Off the socket if the potentially
dangerous high load is connected longer than allowable time (time to be set in
the Parameter 27), for example, if you left the iron switched On for too long.
Set in this parameter the threshold value in watts, reaching which the
connected load will be considered high. The value of this parameter can be set
from 100 to 3500 in watts. Use the value 0 if there is a need to disable this
function. The factory default value is 0 (the function is disabled).
Note: If the connected load power is less than the value of this
parameter, the protection will not be activated.
Note: If the Parameter 27 (time threshold) value is set to 0, the
protection will not be activated.
Note: The time counter is reset every time when the load consumption
drops to zero.
Note: We recommend activating the Load Switched Off notification (the
Parameter 155) to be informed when the device automatically switches Off the
socket.
Note: The protection works only if the device is AC powered.
Parameter 27 – High Load Timeout Protection: Time Threshold
If High Load Timeout Protection is activated (the Parameter 26 is set) use
this parameter to set the threshold value in minutes. If the load is connected
longer than this value, the device will automatically switch Off the socket.
The value of this parameter is in minutes and can be set from 1 to 1440. Use
the value 0 if there is a need to disable this function. The factory default
value is 0 (the function is disabled).
Note: If the value of this parameter is set 0, the protection will not be
activated.
Note: If the connected load power is less than the value of Parameter 26,
the protection will not be activated.
Note: The time counter is reset every time when the load consumption
drops to zero. If the connected load may change its consumption, make sure
that the time threshold will be reached before the load consumption drops.
Note: We recommend activating the Load Switched Off notification (the
Parameter 32) to be informed when the device automatically switches Off the
socket.
Note: The protection works only if the device is AC powered.
External Input Configuration
The HE-HLS01 can be connected to the dry output contacts of an external device (i.e. security system or wall switch) to control the Switch output state depending on the state of the external device. Two different connection diagrams are possible for external input:
- Connect S1 to Sx through dry contact switch
- Connect S1 to electric network Line through dry contact switch
Note: In the case of connecting S1 to the electric network Line, it is
MANDATORY to connect S1 terminal to the same wire connected to terminal N on
the device (labeled as “IN”).
Parameter 41 – External Input: Hold Control Mode
0 – Hold function is disabled
1 – Operate like click (the Parameter 51)
2 – Momentary Switch: When the button on switch connected to external input is
held, (key closed) the relay output
state is ON, as soon as the button is released (key opened) the relay output
state changes to OFF.
3 – Reversed Momentary Switch: When the button on switch connected to external
input is held, the relay output state is OFF, as soon as the button is
released the relay output state changes to ON.
The factory default value is 2.
Parameter 51 – External Input: Click Control Mode
0 – Click function disabled
1 – Toggle switch: relay inverts state (ON to OFF, OFF to ON).
2 – Relay switches to ON state only
3 – Relay switches to OFF state only
4 – Timer: On>Off Mode: Relay output switches to ON state (contacts are
closed) then after a specified time switches back to OFF state (contacts are
open). The time is specified in Parameter 71.
5 – Timer: OFF>ON Mode: Relay output switches to OFF state (contacts are open)
then after a specified time switches back to ON state (contacts are closed).
The time is specified in Parameter 71.
The factory default value is 1.
Parameter 71 – Relay Timer Mode Duration
These parameters specify the duration in seconds for the Timer mode (values 4
or 5 in Parameter 51). Press the
button on the switch connected to external input and the relay output goes to
ON/OFF for the specified time then
changes back to OFF/ON. The time value can be configured from 0 sec to 43200
sec (12 hours).
The factory default value is 0.
Note: If the parameter value is set to “0” the relay output will operate as a
short contact (duration is about 0.5 sec).
Scenarios
Parameters 111-120 – Relay Control by Scenario
In these parameters, the relay state changes depending on the day and time.
For these configurations, parameter values are encoded as 7-digit numbers
(ABCDEFG).
A: State. 0 = Disabled, 1 = Enabled
B: Day of week
0 = every day
1-7 = corresponding day (1 is Monday, 7 is Sunday)
8 = every weekday (Monday – Friday)
9 = every weekend (Saturday and Sunday)
C: Change state to
0 = Switch OFF
1 = Switch ON
DEFG: Time
DE represents Hour (from 0 to 23),
FG represents Minutes (from 0 to 59).
All other numbers are reserved and will not affect the operation. To disable
this option simply set this parameter to 0.
The factory default value is 0.
Example: Parameter value 1210350 means A=1 (the scenario is enabled), B=2
(Tuesday), C=1 (switch the relay On), DEFG=0350 (time 03:50). In this case
each Tuesday at 03:50 the relay output will be switched On. To disable the
scenario, change the first digit to 0. In this example, it will be 0210350.
Note: The relays still can be controlled manually using External Inputs
or via controller/gateway.
Note: The logic will implement the operation when the time crosses the
value in the Parameter. Meaning, that if the logic switches On the relay and
you manually switch it Off, the relay will switch On next time when the value
crosses the set parameter.
Note: Parameters 111-120 are representing independent scenarios.
Energy and Sensor Report Interval
Parameter 141 – Energy Consumption Meter Consecutive Report Interval
When the device is connected to the Z-Wave gateway (controller), it
periodically sends to the gateway reports from its energy consumption sensor
even if there is no change in the value. This parameter defines the interval
between consecutive reports of real-time and cumulative energy consumption
data to the gateway. The value can be adjusted
from 1 min to 120 min. The factory default value is 10 min.
Note: If the consumption changes, the device will send the report to the
gateway regardless of this Parameter value (the report will be sent according
to value in Parameter 142).
Note: It is not recommended to reduce the value of this Parameter in
order not to increase the traffic on your network.
We recommend reducing the value of this Parameter only in case of poor
connection when reports from the device do not always reach the gateway.
Parameter 142 – Control Energy Consumption Report
This Parameter determines the change in the load power resulting in the
consumption report being sent to the gateway.
From 1% to 50% can be selected. Use the value 0 if there is a need to stop
sending the reports. The factory default value is 25.
Note: When the HE-HLS01 is turning ON, the consumption data will be sent to
the gateway once, even if the value of this parameter is 0.
Parameter 143 – Sensors Consecutive Report Interval
When the device is connected to the Z-Wave gateway (controller), it
periodically sends to the gateway reports from its floor temperature sensor
even if there are not changes in the values. This parameter defines the
interval between consecutive reports. The value can be adjusted from 1 min to
120 min. The factory default value is 10 min.
Note: If the sensor readings change, the device will send the report to the
gateway regardless of this Parameter value (the report will be sent according
to values in Parameter 144).
Note: It is not recommended to reduce the value of this Parameter in order not
to increase the traffic on your network. We recommend reducing the value of
this Parameter only in case of poor connection when reports from the device do
not always reach the gateway.
Parameter 144 – Floor Temperature Sensor Report Threshold
This Parameter determines the change in temperature level (in °C or °F)
resulting in temperature sensors report being sent to the gateway. The value
of this Parameter should be x10 (for °C only), e.g. for 0.4°C use value 4.
From 0.1°C (value 1) to 10°C (value 100) and for °F from 1°F -18°F can be
selected. Use the value 0 if there is a need to stop
sending the reports. The factory default value is 2 (0.2°C).
Note: When the thermostat is turning ON, the sensor data will be sent to
the gateway once, even if the value of this
The parameter is 0.
Note: It is not recommended to decrease the value of this Parameter, in
order not to increase the load on your Z-Wave network traffic.
Protections and Notifications
Parameter 151 – Device Failure Notifications
If the HLS01 does not work properly it sends a “System Failure” notification
to the gateway with the error code. Set the value 1 to enable “System Failure”
notification or the value 0 to disable.
The factory default value is 1 (the notification is enabled).
Errors code list (sent with the notification):
0 – No Error (no issue is detected)
1 – Relay Off Error (when unable to switch Off the relay output).
2 – Relay On Error (when unable to switch On the relay output).
3 – Relay On & Off Error (when unable to switch On and Off the relay output).
4 – NTC Error (when no NTC sensor is detected or when it is damaged).
5 – NTC and Relay Off Error (when no NTC sensor is detected or when it is
damaged and unable to switch Off the relay output).
6 – NTC and Relay On Error (when no NTC sensor is detected or when it is
damaged and unable to switch On the relay output).
7 – NTC and Relay On & Off Error (when no NTC sensor is detected or when it is
damaged and unable to switch On and Off the relay output).
Parameter 152– Temperature Rise Notification
Use this parameter if you want to know about temperature rise before it
reaches the critical value, defined in the “Overheat Protection” parameter.
The device will send a “Rapid Temperature Rise” notification to the gateway if
the temperature sensor reading reaches the value defined in this parameter.
The value can be set from 1 to 120 in °C scale
mode or from 34 to 248 in °F scale mode. To disable the notification, set the
value of this parameter to 0.
The factory default value is 50 in °C scale and 122 in °F scale.
Note: We recommend setting the value of this Parameter lower than value of
Parameter 153 (Overheat Protection).
Parameter 153 – Overheat Protection & Notification
You can define the maximum limit of temperature, reaching which the device
will automatically switch Off the load and send “Overheat Detected”
notification to the gateway. The value of this parameter can be set from 1 to
120 in °C scale mode or from 34 to 248 in °F scale mode. Use the value 0 if
there is a need to disable this function.
The factory default value is 60 in °C scale and 140 in °F scale.
Parameter 154 – Over-Current Protection & Notification
The maximum load for the device is 16A. If the connected load current exceeds
16A the device will automatically switch Off the output and send the “Over-
Current Detected” notification to the gateway. To disable sending the
notification, set the value of this parameter to 0.
The factory default value is 1 (the notification is enabled).
Note: Even if you turn off the notification, the device will switch Off
the load when the current reaches 16A.
Note: The protection works only if the device is AC powered.
Parameter 155 – Over-Load Protection & Notification
You can define the maximum power in Watt for the connected load. The device
will automatically switch off the output and send an “Over-Load Detected”
notification to the gateway if power consumed by the connected load exceeds
this limit. The value of this parameter can be set from 100 to 4000 watts. Use
the value 0 if there is a need to disable this function. The factory default
value is 3500W.
Note: The protection works only if the device is AC powered.
Parameter 156 – Over-Voltage Protection & Notification
The device constantly monitors the voltage of your electricity network. You
can define the maximum voltage of the network exceeding which the device will
automatically switch off the output and send an “Over-Voltage Detected”
notification to the gateway. The value of this parameter can be set from 120
to 280 in volts. Use the value 0 if there is a need to disable this function.
The factory default value is 240V.
Note: The protection works only if the device is AC powered.
Parameter 157 – Voltage Drop Protection & Notification
You can define the minimum voltage of your electricity network. If the voltage
of the network drops determined level the device will automatically switch off
the output and send a “Voltage Drop Detected” notification to the gateway. The
value of this parameter can be set from 80 to 240 in volts. Use the value 0 if
there is a need to disable this function. The factory default value is 200V.
Note: The protection works only if the device is AC powered.
Parameter 158 – Sparks Protection & Notification
If the connected load fails it can create sparks that may cause a fire. The
device constantly monitors the power consumption of connected load and can
detect even a small surge in consumption and automatically switch off the
output and send “Surge Detected” notification to the gateway. Set the value 1
to enable this function or the value 0 to disable.
The factory default value is 1 (the protection is enabled).
Note: The protection works only if the device is AC powered.
Device type “Thermostat”
Operation Modes
When the HE-HLS01 is included as Thermostat it has 6 Operating Modes:
- Heat – Comfort Mode
- Auto Change Over–Time Mode (schedule different Set Point per time and day)
- Dry – Floor Fast Drying Mode
- Energy-saving – Power Efficient Mode
- Away – Vacation Mode
- Off – Thermostat IDLE Mode
Each operating mode has individual temperature Set Points. The HE-HLS01 will
operate automatically depending on the current SetPoint. You may control Set
Points through your Z-Wave gateway software.
Note: The minimum SetPoint is 1.0°C (or 34°F) and the maximum SetPoint is
110.0°C (or 230°F).
Heat Mode
This mode is recommended for normal comfort. The factory default setpoint is
25.0°C (77°F).
Auto Changeover Mode – Temperature Schedule Mode
The Temperature Schedule Auto Mode can adjust home temperatures automatically
to align with your personal habits, saving energy while you are away, and
maintaining a comfortable temperature while you are active at home.
The HE-HLS01 can have different Schedules for Morning, Daytime, Evening, and
Night. For example, the “Morning” Schedule could be set to 25.0°C (77°F)
starting at 7:00. The “Day” Schedule could then be set to 11.0°C (or 52°F) at
9:00 when everyone has gone to work or school, and so on. Here are recommended
Scheduled Set Points for heating during the work week – you may wish to change
these on weekends depending on your family’s schedule (see example below):
Schedule Mode | Set Time | Set Point Temperature |
---|---|---|
Morning | 6:00 (6:00am) | 24°C (75°F) |
Day | 9:00 (9:00am) | 20°C (68°F) |
Evening | 18:00 (6:00pm) | 23°C (73°F) |
Night | 23:00 (11:00pm) | 18°C (64°F) |
Note: All four Schedules (Morning, Day, Evening, & Night) are the same
for all seven days of the week.
Note: Auto mode will only work properly if the correct current time and
date have been set. The time can be automatically corrected from your Z-Wave
gateway if the Parameter 19 value is set to 1. Or it can be set manually in
Parameters 21 and 22.
Note: In Auto Mode, the temperature SetPoint will be automatically
changed depending on the Schedule. At any time, the Set Point can be adjusted
but it will be effective only until the next Schedule.
DRY – Fast Floor Drying Mode
This mode is recommended for use if a high floor temperature is required for a
limited period of time. For example, after washing the floor. By choosing DRY
Mode, the HE-HLS01 will increase the temperature to the selected Set Point for
the time specified in the “Dry Time” parameter (Parameter 25). A time range
from 1 to 720 minutes (12 hours) can be set. As the Dry Time passes, the HE-
HLS01 will automatically change to the Mode set in Parameter 26.
Note: Factory defaults for Dry Time are: 30 minutes at 30.0°C (86°F).
Energy Saving Mode
This Mode can be used if lower temperature and energy consumption is desired.
It can also be used at night or when the property is not occupied for a
prolonged period of time. The factory default SetPoint is 20.0°C (68°F).
Away Mode
Use Vacation Mode when you are planning to be away from home for some period.
The factory default temperature Set The point is 15.0°C (59°F).
Note: The minimum set point for each mode is 1.0°C (34°F) and the maximum
set point is 110.0°C (230°F).
Parameters List & Factory Defaults
These parameters will take effect only in case if the device is included in
the Thermostat mode. For more information about the different inclusion,
process sees the section Z-Wave Network.
Number| Size| Description| Default
Value| Available Values
---|---|---|---|---
1| 1 byte| Frequency Region| Read Only|
2| 1 byte| Inclusion r Exclusion Mode| Read Only| 0,1
3| 4 bytes| Hardware and Software Versions| Read Only| XXYVZZ
4| 4 bytes Energy Consumption. kW Read-Only Total consumption
---|---
6.| Reserved by the manufacturer
7| 1 byte| Relay output NO or NC mode| 0| 0, 1
8| 1 byte| S1 INPUT MODE| 0| 0, 1, Z 3
9| 1 byte| S1 INPUT ACTION| 1| 1. Z 3, 4, 5
10| 1 byte| Floor Sensor Resistance. kfl| 10| 1 … 100
11.| Reserved by the manufacturer
16| 1 byte| TEMPERATURE SCALE MODE| 0| 0, 1
17| 1 b yte| Temperature Sensor Calibration in °C. value X 10. e.g. 1.54C=15|
0| -100 … 100 •C
-18 … 18•F
18| 1 byte| Temperature Hysteresis, value X 10, e.g. 0.5•C=5| 5| •C 2 … 100 in
1…18 in t
19| 1 byte| Time correction by controller| 1| 0, 1
20| Reserved by the manufacturer
21| 1 byte| Week Day| 1| i.2.3.4,5,6,7
22| 2 bytes| Time: Hour and Minutes| 0| 0 … 2359
23.| Reserved by manufacturer
25| 2 bytes| DRY TIME| 30| 1 … 720
26| 1 byte| DRY MODE SWITCH| 1| 1, 2, 4, 5, 8
27-40| Reserved by manufacturer
41| 2 bytes| Morning start time. Format:
HHMM. e.g.08:00 should be sent as 0800| 600| 0000 … 2359
42| 2 bytes| Day start time. Format: HHMM.| 900| 0000 … 2359
43| 2 bytes| Evening start time. Format: HHMM.| 1800| 0000 … 2359
44| 2 bytes| Night start time. Format: HHMM.| 2300| 0000 … 2359
45| 2 bytes| Monday Morning temperature. valueX10| 240 for °C
75 for •F| 10 … 1100 for °C
34… 230 for •F
46| 2 bytes| Monday Day temperature. valueX10| 200for
68 °C
for •F| 10 … 1100 for °C
34… 230 for t
47| 2 bytes| Monday Evening temperature. valueX10| for
230 °C
73 for •F
10 … 1100 for °C| 34… 230 for ‘F
48| 2 bytes| Monday Night temperature. valueX10| 180 for °C
84 for ‘F| 10 … 1100
34 … 230 for °C
for t
49| 2 bytes| Tuesday Morning temperature. valueX10| 240 for °C
75 for ‘F| 10 … 1100
34 … 230 for °C
for t
50| 2 bytes| Tuesday Day temperature, valueX10| 200
68 for t for °C| 10
34 … 230 … 1100 for °C
for t
51| 2 bytes| Tuesday Evening temperature. valueX10| 230°C
73 fforor ‘F| 34 … 230 10 … 1100 for °C
for t
52| 2 bytes| Tuesday Night temperature. valueX10| 180 for °C
84 for ‘F| 10 … 1100 kr °C
34 … 230 for t
53| 2 bytes| Wednesday Morning temperature. valueX10| °C
240 f75 foror ‘F| kr
34 … 230 10 … 1100 for °C
t
54| 2 bytes| Wednesday Day temperature. valueX10| 200°C
68 fforor t| 34 … 230 10 … 1100 for °C
for t
55| 2 bytes| Wednesday Evening temperature. valueX10| 230°C
73 for t| 10 … 1100
34 … 230 for °C
for t
56| 2 bytes| Wednesday Night temperature, valueX10| 180 for °C
84 for ‘F| 10 … 1100
34 … 230 for °C
for t
57| 2 bytes| Thursday Morning temperature. valueX10| 240°C
75 for for ‘F| 10 … 1100
34 … 230 for °C
for t
58| 2 bytes| Thursday Day temperature. valueX10| 200 for °C
68 for ‘F| 10 … 1100 for °C
34 … 230 for ‘F
59| 2 bytes| Thursday Evening temperature. valueX10| 230 for °C
73 for “F| 10 … 1100 for °C
34 … 230 for “F
---|---|---|---|---
60| 2 bytes| Thursday Night temperature. valueX10| 180 for °C
64 for ‘F| 10 … 1100 for °C
34 … 230 for ‘F
61| 2 bytes| Friday Morning temperature. valueX10| 240 for °C
75 for ‘F| 10 … 1100 for °C
34 … 230 for “F
62| 2 bytes| Friday Day temperature. valueX10| 200 for °C
68 for ‘F| 10 … 1100 for °C
34 … 230 for ‘F
63| 2 bytes| Friday Evening temperature. valueX10| 230 for °C
73 for ‘F| 10 … 1100 for °C
34 … 230 for “F
64| 2 bytes| Friday Night temperature. valueX10| 180 for °C
64 for ‘F| 10 … 1100 for °C
34 … 230 for ‘F
65| 2 bytes| Saturday Morning temperature, valueX10| 240 for °C
75 for ‘F| 10 … 1100 for °C
34 … 230 for “F
66| 2 bytes| Saturday Day temperature. valueX10| 200 for
68 for °C
‘F| 10 … 1100 for °C
34 … 230 for ‘F
67| 2 bytes| Saturday Evening temperature, valueX10| 230 for °C
73 for ‘F| 10 … 1100 for °C
34 … 230 for “F
68| 2 bytes| Saturday Night temperature, valueX10| 180 for °C
64 for ‘F| 10 … 1100 for °C
34 … 230 for ‘F
69| 2 bytes| Sunday Morning temperature. valueX10| 240 for °C
75 for ‘F| 10 … 1100 for °C
34 … 230 for ‘F
70| 2 bytes| Sunday Day temperature. valueX10| 200 for °C
68 for F| 10 … 1100 for °C 34 … 230 for ‘F 71| 2 bytes| Sunday Evening temperature, valueX10| °C 230 for 73 for
F| 10 … 1 100 for °C
34 … 230 for ‘F
72| 2 bytes| Sunday Night temperature. valueX10| 180
64 for °C
for ‘F| 10 … 1 100
34 … 230 for °C
for “F
73-140| Reserved by the manufacturer
141| 1 byte| Consumption meter consecutive reporting interval. minutes| 10|
1120
142| 1 byte| Consumption difference to send to the controller. %| 25|
143| 1 byte| Sensors consecutive reporting interval, minutes| 10| 1 … 120
144| 1 byte| Temperature difference to send to the controller. value X 10| 2|
0, 1 … 100 in “C
0… 18 in°F
145-150| Reserved by the manufacturer
151| 1 byte| SYSTEM ERROR NOTIFICATION| 1| 0.1
152| 2 bytes| TEMPERATURE RISE NOTIFICATION| 50 for °C
122 for °F| 0. 1 … 120 for °C
0. 34 248 for °F
153| 2 bytes| OVERHEAT PROTECTION LEVEL| 60 for “C
140 for °F| 0. 1 … 120 for °C
0. 34 248 for °F
154| 1 byte| OVERCURRENT NOTIFICATION| 1| 0.1
155| 2 bytes| OVERLOAD PROTECTION LEVEL| 3500| 0. 100 …. 4000
156| 2 bytes| OVERVOLTAGE PROTECTION LEVEL| 240| 0. 120 … 280
157| 2 bytes| VOLTAGE DROP PROTECTION LEVEL| 200| 0. 80 … 240
158| 1 byte| SPARK PROTECTION| 1| 0.1
159| 1 byte| LOAD ERROR NOTIFICATION| 0| 0.1
160-170| Reserved by the manufacturer
171| 1 byte BASIC SET MODE 1 1. 2. 3. 4. 5
172-200| Reserved by the manufacturer
Z-Wave Frequency
Parameter 01 – Frequency Region
The HE-HLS01 has a Z-Wave 700 series chip inside which allows to use of the
device in different Z-Wave frequencies. If there is a need to use the device
in a frequency different from the factory default, change the value of this
Parameter according to the frequency list below. Modification is possible only
while the HE-HLS01 is not included in Z-Wave
network.
Note: The factory default frequency differs depending on which region the
device was intended for sale in. Check the factory default frequency on the
device plate or on the packaging.
Note: Do not change this Parameter value if there is no special need.
Note: If change the value of this Parameter, the frequency change will be
applied only after removing the device from the Z-Wave network (the device
will automatically reboot).
Note: The change of this parameter will result in an inability to control the
device if the device was included to the controller/gateway which supports
only one frequency.
Note: Resetting the device to factory default settings will revert the
frequency to the factory default value.
Note: In most countries, it is not allowed to use a frequency different from
the frequency intended for that country.
Frequency list for different regions:
0: EU (868.4 MHz, 869.85 MHz)
1: US (908.4 MHz, 916.0 MHz)
2: ANZ (919.8 MHz, 921.4 MHz)
3: HK (919.8 MHz)
4: IN (865.2 MHz)| 5: IL (916.0 MHz)
6: RU (869.0 MHz)
7: CN (868.4 MHz)
8: JP (922.5 MHz, 923.9 MHz, 926.3 MHz)
9: KR (920.9 MHz, 921.7 MHz, 923.1 MHz)
---|---
The full list of Z-Wave global regions where Z-Wave works is available on the Z-Wave Global Regions SiLabs page.
Hardware & Software Versions
Parameter 03 – Hardware and Software Versions
This Parameter allows checking the hardware and firmware versions of the
device. The Parameter returns the value in the format XXYYZZ, where XX is
Hardware Version, YY is Firmware Major Version and ZZ is Firmware Minor
Version.
Note: This Parameter is read-only.
Power and Energy Consumption
HE-HLS01 monitors Real-Time and Cumulative power Energy Consumption and
Voltage using an advanced microcontroller technology which assures maximum
accuracy (±1% for loads greater than 1000W). Real-Time Consumption, Cumulative
Consumption, and network Voltage are periodically reported to the Z-Wave
controller (according to he Parameters 141 and 142):
Parameter 04 – Energy Consumption
This Parameter allows you to check the Cumulative and Real-Time Energy
Consumption of the connected load. Through the Z-Wave network, this Parameter
returns the Total Cumulative Consumption value in kW.
Note: This Parameter is read-only.
Resetting Cumulative Consumption memory:
The HE-HLS01 allows erasing of stored Consumption Data through the Z-Wave
network.
The HE-HLS01 enables you to erase stored Consumption Data through the Z-Wave
network as follows:
- Make sure the HE-HLS01 is powered.
- If not already done so, include the device into the Z-Wave Gateway network.
- Reset memory consumption data using the Reset Command in COMMAND_CLASS_METER (see the Gateway owner’s manual).
Note: Turning the device’s main power off/on will not erase the consumption data as it is stored in nonvolatile memory.
Input & Output Configurations
Parameter 07 – Relay output mode (NO / NC)
This Parameter determines the type of load connected to the device relay
output. The output type can be NO – normally open (no contact/voltage switch
the load OFF) or NC – normal close (output is contacted / there is a voltage
to switch the load OFF). Choose the value 0 if NO contact type is required or
value 1 if NC type is required.
The factory default value is 0.
Parameter 08 – External Input Mode
0 – the input state changes will be ignored by the Thermostat logic.
1 – the external input will operate in “Toggle Switch” mode: if the external
input is shorted (with Sx or Line) the Thermostat switches to the operating
mode selected in Parameter 09 and switches to OFF mode when the external input
is open.
2 – the external input will operate in “Toggle Switch Reverse” mode: if the
external input is shorted the Thermostat switches to OFF mode and switches to
the operating mode selected in Parameter 09 when the input is open.
3 – the external input will operate in “Push Button (Momentary Switch)” mode:
each press of a button (shorten of input) will consistently change the mode to
the operating mode selected in Parameter 09.
The factory default value is 0.
Parameter 09 – External Input Action
This Parameter allows selection of which Operating Mode the HE-HLS01 should
revert to when the external input is shorted. 1 = Heat, 2 = Auto, 3 = Dry, 4 =
Energy Saving, 5 = Away.
The factory default value is 1.
Parameter 10 – Floor Sensor Resistance
If the external floor NTC temperature sensor is used it is necessary to select
the correct resistance value in Ohms (Ω) of the sensor. The selection range is
1 to 100 kiloOhms (kΩ). One 10kΩ NTC floor temperature sensor is included in
the HE-HLS01 package with a 3-meter connection wire. The factory default value
is 10kΩ.
Temperature Configurations
Parameter 16 – Temperature Scale Mode
This parameter determines in which unit of measurement (degrees Celsius or
Fahrenheit) the device will report the temperature and also determines the
scale that will be interpreted by the configuration parameters. Set the value
0 for Celsius and the value 1 for Fahrenheit.
The factory default value is 0 (degrees Celsius).
Note: This configuration parameter has an impact on configuration parameters
17, 143, 152, and 153. If the scale is set to degrees Fahrenheit,
configuration values at mentioned parameters will be automatically converted
from Celsius to Fahrenheit and any change in the values will be interpreted as
Fahrenheits.
Parameter 17 – Temperature Sensor Calibration
This Parameter defines the offset value for floor temperature. If the external
floor temperature sensor is not calibrated properly, then manual calibration
can be made by adjusting the values up to ±10.0°C (±18°F). This value will be
added or subtracted from the floor temperature sensor reading. Through the
Z-Wave network, the value of this Parameter should be x10 (for Celsius only),
e.g. for 1.5°C sets the value 15. The factory default value is 0.
Parameter 18 – Temperature Hysteresis
This parameter defines the hysteresis value for temperature control. The HE-
HLS01 will stabilize the temperature with selected hysteresis. For example, if
the SET POINT is et for 25°C and HYSTERESIS is set for 0.5°C the HE-HLS01 will
change the state to IDLE when the temperature reaches 25.0°C, but it will
change the state to HEATING if he
temperature drops lower than 24.5°C. The hysteresis can be changed from 0.2°C
to 10.0°C range in Celsius mode, and from 1°F to 18.0°F in Fahrenheit mode.
The factory default value is 0.5°C and 1°F.
Time Configurations
Parameter 19 – Time Correction by Main Controller
If this Parameter value = 1 and the HE-HLS01 is connected to a Z-Wave gateway,
the HE-HLS01 time and day will be periodically polled and corrected from the
gateway. To switch off auto-correction set the Parameter value to 0. The
factory default value is 1.
Parameter 21 – Day of the Week Manual Adjustment
This Parameter allows manual adjustment of the day of the week in case the HE-
HLS01 is not connected to any ZWave gateway or auto-correction is disabled
(Parameter 19 value is 0). 1 = Monday, 2 = Tuesday,3 = Wednesday, 4
=Thursday, 5 = Friday, 6 = Saturday, 7 = Sunday. The factory default value is
- Parameter 22 – Time Manual Adjustment
This Parameter allows manual adjustment of Time. The Parameter has the following format: HHMM, where HH is hours
and MM is minutes. E.g. for 16:08 set the value 1608 and for 1:00 set the value 100.
Parameter 25 – Dry Mode Timeout
By choosing Dry Mode, the device will increase the temperature to the selected Set Point and keep it for the time specified in this parameter. A time range of 1 to 720 minutes (12 hours) can be set. As the Dry Time passes, the thermostat will automatically change to the Mode set in Parameter 37.
The factory default value is 30 minutes.
Parameter 26 – Mode to Switch After Dry Mode Operation Complete
This Parameter indicates the mode that will be set after Dry Time: 1 = Heat, 2 = Auto, 4 = Energy Saving, 5 = Away, 6 = Off.
The factory default value is 1.
Note: The value 3 (Dry mode) will be ignored for this parameter.
Time Mode Schedule
Parameters 41-44 – Schedule Time
Use these Parameters to set the Morning, Day, Evening, and Night times manually for the Temperature Schedule.
The value of these Parameters has format HHMM, e.g. for 08:00 use value 0800 (time without a colon). From 00:00 to 23:59 can be selected.
The factory default value for Morning (Parameter 41) is 0600.
The factory default value for Day (Parameter 42) is 0900.
The factory default value for Evening (Parameter 43) is 1800.
The factory default value for Night (Parameter 44) is 2300.
Parameters 45-72 – Schedule Temperature
Use these Parameters to set the temperature for each day Schedule manually (see the Parameters table on the page
18 of this manual). The value of this Parameter should be x10, e.g. for 22.5°C set value 225. From 1°C (value 10) to110°C (value 1100) can be selected.
The factory default Morning temperature for all 7 days (Parameters 45, 49, 53, 57, 61, 65, 69) is 24.0°C (value 240).
The factory default Day temperature for all 7 days (Parameters 46, 50, 54, 58, 62, 66, 70) is 20.0°C (value 200).
The factory default Evening temperature for all 7 days (Parameters 47, 51, 55, 59, 63, 67, 71) is 23.0°C (value 230).
The factory default Nigh temperature for all 7 days (Parameters 48, 52, 56, 60, 64, 68, 72) is 18.0°C (value 180).
Energy and Sensor Report Interval
Parameter 141 – Energy Consumption Meter Consecutive Report Interval
When the device is connected to the Z-Wave gateway (controller), it
periodically sends to the gateway reports from its energy consumption sensor
even if there is no change in the value. This parameter defines the interval
between consecutive reports of real-time and cumulative energy consumption
data to the gateway. The value can be adjusted
from 1 min to 120 min. The factory default value is 10 min.
Note: If the consumption changes, the device will send the report to the
gateway regardless of this Parameter value (the report will be sent according
to the value in Parameter 142).
Note: It is not recommended to reduce the value of this Parameter in order not
to increase the traffic on your network.
We recommend reducing the value of this Parameter only in case of poor
connection when reports from the device do not always reach the gateway.
Parameter 142 – Energy Consumption Report Threshold
This Parameter determines the change in the load power resulting in the
consumption report being sent to the gateway.
From 1% to 50% can be selected. Use the value 0 if there is a need to stop
sending the reports. The factory default value is 25.
Note: When the HE-HLS01 is turning ON, the consumption data will be sent
to the gateway once, even if the value of this parameter is 0.
Parameter 143 – Sensors Consecutive Report Interval
When the device is connected to the Z-Wave gateway (controller), it
periodically sends to the gateway reports from its floor temperature sensor
even if there are no changes in the values. This parameter defines the
interval between consecutive reports. The value can be adjusted from 1 min to
120 min. The factory default value is 10 min.
Note: If the sensor readings change, the device will send the report to
the gateway regardless of this Parameter value (the report will be sent
according to values in Parameter 144).
Note: It is not recommended to reduce the value of this Parameter in
order not to increase the traffic on your network. We recommend reducing the
value of this Parameter only in case of poor connection when reports from the
device do not always reach the gateway.
Parameter 144 – Floor Temperature Sensor Report Threshold
This Parameter determines the change in temperature level (in °C or °F)
resulting in temperature sensors report being sent to the gateway. The value
of this Parameter should be x10 (for °C only), e.g. for 0.4°C use value 4.
From 0.1°C (value 1) to 10°C (value 100) and for °F from 1°F -18°F can be
selected. Use the value 0 if there is a need to stop
sending the reports. The factory default value is 2 (0.2°C).
Note: When the thermostat is turning ON, the sensor data will be sent to the
gateway once, even if the value of this parameter is 0.
Note: It is not recommended to decrease the value of this Parameter, in order
not to increase the load on your ZWave network traffic.
Protections and Notifications
Parameter 151 – Device Failure Notifications
If the HLS01 does not work properly it sends a “System Failure” notification
to the gateway with the error code. Set the value 1 to enable “System Failure”
notification or the value 0 to disable.
The factory default value is 1 (the notification is enabled).
Errors code list (sent with the notification):
0 – No Error (no issue is detected)
1 – Relay Off Error (when unable to switch Off the relay output).
2 – Relay On Error (when unable to switch On the relay output).
3 – Relay On & Off Error (when unable to switch On and Off the relay output).
4 – NTC Error (when no NTC sensor is detected or when it is damaged).
5 – NTC and Relay Off Error (when no NTC sensor is detected or when it is
damaged and unable to switch Off the relay output).
6 – NTC and Relay On Error (when no NTC sensor is detected or when it is
damaged and unable to switch On the relay output).
7 – NTC and Relay On & Off Error (when no NTC sensor is detected or when it is
damaged and unable to switch On and Off the relay output).
Parameter 152– Temperature Rise Notification
Use this parameter if you want to know about temperature rise before it
reaches the critical value, defined in the
“Overheat Protection” parameter. The device will send “Rapid Temperature Rise”
notification to the gateway if the
temperature sensor reading reaches the value defined in this parameter. The
value can be set from 1 to 120 in °C scale
mode or from 34 to 248 in °F scale mode. To disable the notification, set the
value of this parameter to 0.
The factory default value is 50 in °C scale and 122 in °F scale.
Note: We recommend setting the value of this Parameter lower than the value of
Parameter 153 (Overheat Protection).
Parameter 153 – Overheat Protection & Notification
You can define the maximum limit of temperature, reaching which the device
will automatically switch Off the load and send an “Overheat Detected”
notification to the gateway. The value of this parameter can be set from 1 to
120 in °C scale mode or from 34 to 248 in °F scale mode. Use the value 0 if
there is a need to disable this function.
The factory default value is 60 on °C scale and 140 on °F scale.
Parameter 154 – Over-Current Protection & Notification
The maximum load for the device is 16A. If the connected load current exceeds
16A the device will automatically switch Off the output and send the “Over-
Current Detected” notification to the gateway. To disable sending the
notification, set the value of this parameter to 0.
The factory default value is 1 (the notification is enabled).
Note: Even if you turn off the notification, the device will switch Off
the load when the current reaches 16A.
Note: The protection works only if the device is AC powered.
Parameter 155 – Over-Load Protection & Notification
You can define the maximum power in Watt for the connected load. The device
will automatically switch off the output and send an “Over-Load Detected”
notification to the gateway if power consumed by the connected load exceeds
this limit. The value of this parameter can be set from 100 to 4000 in watts.
Use the value 0 if there is a need to disable this function.
The factory default value is 3500W.
Note: The protection works only if the device is AC powered.
Parameter 156 – Over-Voltage Protection & Notification
The device constantly monitors the voltage of your electricity network. You
can define the maximum voltage of the network exceeding which the device will
automatically switch off the output and send an “Over-Voltage Detected”
notification to the gateway. The value of this parameter can be set from 120
to 280 in volts. Use the value 0 if there is a need to disable this function.
The factory default value is 240V.
Note: The protection works only if the device is AC powered.
Parameter 157 – Voltage Drop Protection & Notification
You can define the minimum voltage of your electricity network. If the voltage
of the network drops determined to level the device will automatically switch
off the output and send a “Voltage Drop Detected” notification to the gateway.
The value of this parameter can be set from 80 to 240 in volts. Use the value
0 if there is a need to disable this function.
The factory default value is 200V.
Note: The protection works only if the device is AC powered.
Parameter 158 – Sparks Protection & Notification
If the connected load fails it can create sparks that may cause a fire. The
device constantly monitors the power consumption of connected load and can
detect even a small surge in consumption and automatically switch off the
output and send “Surge Detected” notification to the gateway. Set the value 1
to enable this function or the value 0 to disable. The factory default value
is 1 (the protection is enabled).
Note: The protection works only if the device is AC powered.
Parameter 159 – Load Error Notification
The device can send the “Load Error” notification to the gateway when the
relay is On but there is no power consumption (meaning possible problems with
the heating system). Set the value 1 to enable “Load Error” notification or
the value 0 to disable.
The factory default value is 1 (the notification is enabled).
Note: The function works only if the device is AC powered.
Basic Set Command
Parameter 171 – Basic Set Action
This Parameter defines which Operating Mode the HE-HLS01 reverts to if the
Basic Set command is received. If the Basic Set command value is 0 (OFF state)
the HE-HLS01 will go to Manual mode and switch Off the heating element (IDLE
mode). If the Basic Set command values is 0xFF (ON state) the HE-HLS01 will
change the Mode to the corresponding Parameter value as follows.
1: Heat Mode
2: Auto Mode
3: Dry Mode
4: Energy Saving Mode
5: Away Mode
The factory default value is 1.
Limited Warranty
HELTON warrants this product to be free from defects in workmanship or
materials, under normal use and service, for a period of one (1) year from the
date of purchase by the consumer (“Warranty Period”). HELTON will extend this
Warranty Period to three (3) years from the date of consumer purchase for any
consumer who registers his/her product with HELTUN at this website page:
bonus.heltun.com. This Limited Warranty applies only to the first end-user of
the product and is not transferable.
If during the Warranty Period the product is determined to be defective or
malfunctions due to workmanship or materials, HELTON, at HELTUN’s option,
shall either repair or replace the defective product. If the product is
defective, (i) return it with dated proof of purchase to the place it was
purchased; or (ii) contact HELTUN Customer Care by email at
support@heltun.com. HELTON Customer Care will
make the determination whether the product should be returned or whether a
replacement product will be sent to you.
EXCEPT AS MAY BE OTHERWISE PROVIDED BY APPLICABLE LAW, THIS LIMITED WARRANTY
IS IN LIEU OF ALL OTHER COVENANTS AND WARRANTIES, EITHER EXPRESS OR IMPLIED,
INCLUDING WITHOUT LIMITATION, ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR
FITNESS FOR A PARTICULAR PURPOSE, OR NON-INFRINGEMENT. HILTON MAKES NO OTHER
WARRANTIES, EXPRESS OR IMPLIED.
THIS LIMITED WARRANTY DOES NOT COVER REMOVAL OR REINSTALLATION COSTS. THIS LIMITED WARRANTY SHALL NOT APPLY IF IT IS SHOWN BY HELTON THAT THE DEFECT OR MALFUNCTION WAS CAUSED BY DAMAGE DONE BY A CONSUMER INCLUDING DURING INSTALLATION. THIS LIMITED WARRANTY IS VOID IF DEFECT(S) RESULT FROM A FAILURE TO HAVE THIS PRODUCT INSTALLED PROPERLY.
HELTON’S SOLE RESPONSIBILITY AND THE CONSUMER’S SOLE REMEDY UNDER THIS LIMITED
WARRANTY SHALL BE TO REPAIR OR REPLACE THE PRODUCT WITHIN THE TERMS STATED
ABOVE. HILTON SHALL NOT BE LIABLE FOR ANY LOSS OR DAMAGE OF ANY KIND,
INCLUDING ANY INCIDENTAL OR CONSEQUENTIAL DAMAGES RESULTING, DIRECTLY OR
INDIRECTLY, FROM ANY BREACH OF ANY WARRANTY, EXPRESS OR
IMPLIED, OR ANY OTHER FAILURE OF THIS PRODUCT. IN NO EVENT SHALL HELTUN’S
LIABILITY EXCEED THE AMOUNT ACTUALLY PAID FOR THE PRODUCT WHETHER SUCH
LIABILITY ARISES FROM A CLAIM BASED ON WARRANTY, TORT, OR CONTRACT. THESE
LIMITATIONS ON LIABILITY SHALL REMAIN IN EFFECT EVEN IF HELTON WAS ADVISED OF
THE POSSIBILITY OF SUCH INJURIES, LOSSES, OR DAMAGES.
SOME JURISDICTIONS DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR
CONSEQUENTIAL DAMAGES, SO THIS LIMITATION MAY NOT APPLY TO YOU. THIS LIMITED
WARRANTY IS THE ONLY EXPRESS WARRANTY HELTUN MAKES ON THIS PRODUCT.
If you have any questions concerning this limited warranty, please write
HELTUN Customer Care at support@heltun.com.
HELTON, INC. USA DELAWARE CORPORATION.
2/5 ARMENAKYAN STR., YEREVAN, 0047, ARMENIA
WWW.HELTUN.COM
SUPPORT@HELTUN.COM
References
- Heltun Bonus Program
- HELTUN | Z-Wave 700 Smart Home products | Armenia
- support.heltun.com/
- Z-Wave Global Regions - Silicon Labs
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