Related Manuals for QUBINO FLUSH SHUTTER DC
Summary of Contents for QUBINO FLUSH SHUTTER DC
- Page 1 USER MANUAL EN. QUBINO FLUSH SHUTTER DC The Qubino Flush Shutter DC device is ideal for remotely controlling 12–24 Vdc motors of blinds, rollers, shades, venetian blinds, and similar sunscreens.
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Page 2: Table Of Contents
1. Introduction ..........................8 2. Use Cases ..........................10 2.1. Installation examples where Flush Shutter DC is installed behind a wall switch ....10 2.2. Additional features of Flush Shutter DC which can make your life easier ......11 3. Qubino Flush Shutter DC Advantages and Highlights ............... 12 3.1. - Page 3 18. Warning ........................... 58 19. Regulations..........................58...
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Page 4: About Qubino
About Qubino Qubino is a family of innovative Z-Wave devices, many of them the smallest of their kind. Numerous breakthrough innovations, 100% quality control, and responsive customer service make Qubino the number one choice for making your life more comfortable. - Page 5 About Z-Wave: The Z-Wave protocol is an interoperable, wireless, RF-based communications technology designed specifically for control, monitoring, and status reading applications in residential and light commercial environments. Mature, proven, and broadly deployed (with over 50 million products sold worldwide), Z-Wave is by far the world market leader in wireless control, bringing affordable, reliable, and easy-to-use 'smart' products to millions of people in every aspect of daily life.
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Page 6: Safety Information
Safety Information For Qubino, safety is first, so we have prepared lots of safety tips and information that can be found throughout this manual. To ensure your safety, please read this manual carefully before installing the device; follow the instructions exactly. The manufacturer (GOAP d.o.o. Nova Gorica) shall not be legally responsible for any equipment damage or personal injury caused by incorrect installation or operation other than that covered in this manual. -
Page 7: Flush Shutter Dc - Available Frequencies
Flush Shutter DC - Available Frequencies ORDERING CODE Z-WAVE FREQUENCY* (MODEL NUMBER) ZMNHOD1 868,4 MHz ZMNHOD2 921,4 MHz ZMNHOD3 908,4 MHz ZMNHOD4 869,0 MHz ZMNHOD5 916,0 MHz ZMNHOD7 919,8 MHz ZMNHOD8 865,2 MHz ZMNHOD9 922,5 MHz ZMNHODA 920,9 MHz *You can check the Z-Wave frequency in your country here: https://www.silabs.com/products/wireless/mesh-networking/z-... -
Page 8: Where To Buy
The connection of a digital temperature sensor means you can create complex scenes and control any device relative to a set temperature range. The Qubino Flush Shutter DC also acts as a Z- Wave repeater to improve the range and stability of the Z-Wave network. - Page 9 Flush Shutter DC supported functions: Controls position of Controls tilt Temperature Associations Z-Wave Auto-inclusion blinds, rollers, shades, position of the slats Sensor Measurement Measurement Repeater venetian blinds, etc. of venetian blinds. ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓...
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Page 10: Use Cases
2. Use Cases The Flush Shutter DC can be used in many different scenes, which can help make your life more comfortable. We have prepared a few of them for you so you can get an idea for your next smart home project. -
Page 11: Additional Features Of Flush Shutter Dc Which Can Make Your Life Easier
2.2. Additional features of Flush Shutter DC which can make your life easier • Do you know how much energy you • Want to control other devices in your consume? Z-Wave network with the Flush Shutter DC? • The Flush Shutter DC monitors and reports •... -
Page 12: Qubino Flush Shutter Dc Advantages And Highlights
All this is possible because the Qubino Flush Shutter DC is the smallest Z-Wave shutter in the world. • The Qubino Flush Shutter DC has the option to connect a temperature sensor*, through which users can monitor the ambient air or water temperature. It’s the only Z-Wave shutter in the world which offers this option. - Page 13 • By scanning the QR code on the back of your Qubino device, the serial and part numbers will be automatically copied on your mobile phone; they also provide direct access to Qubino’s technical support team.
- Page 14 • The Qubino Flush Shutter DC is engineered and manufactured in the EU, and contains only the highest quality components. • The Qubino Flush Shutter DC is certified by an independent European Institute and has CE, FCC, LVD and EMC certificates to ensure the highest safety standards.
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Page 15: Highlights
3.2. Highlights • Remote (via smartphone or PC) and local control of 12-24 Vdc venetian blinds (indoor), screens (indoor), integral venetian blinds etc. • Allows control of venetian blinds and changing vertical position and angle of the shades • Works with push-button (momentary switch) and toggle switch •... -
Page 16: Package Contents
4. Package Contents • Flush Shutter DC Device • Installation Manual... -
Page 17: Technical Terms For Switches
5. Technical Terms for Switches Symbol Switch example images Definition Qubino Other names Single pole, single throw Two-way (SPST) - One Switch; One-way switch Toggle switch Bi-stable switch (regular switch controlling one switch switch) light / circuit of lights Single pole,... - Page 18 Qubino devices are installed into flush mounting boxes behind the switches. You can see some examples below: For more information on how to install your device, please refer to the Installation chapter.
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Page 19: Compatibility With Z-Wave Gateways (Hubs)
6. Compatibility with Z-Wave Gateways (hubs) Please check compatibility with your Z-Wave gateway (hub) before you purchase this device. The compatibility table is available online. https://qubino.com/manuals/Compatibility_with_gateways/Compatibility_manual_Flush_Shutt er_DC_02092019.pdf... -
Page 20: Installation
7. Installation Before installing the device, please read the following carefully and follow the instructions exactly: ⓘ Danger of electrocution! Installation of this device requires a great degree of skill and may be performed only by a licensed and qualified electrician. Please keep in mind that even when the device is turned off, voltage may still be present in the device’s terminals. -
Page 21: Installing The Device Behind A Light Switch
7.1. Installing the device behind a light switch The installation process, tested and approved by professional electricians, consists of the following simple steps: Step 1 – Turn the fuse OFF • To prevent electrical shock and/or equipment damage, disconnect electrical power at the main fuse or circuit breaker before installation and maintenance. - Page 22 Step 2 – Installing the device: • Connect the device exactly according to the diagrams shown below Installation example...
- Page 23 After Qubino installation...
- Page 24 ⓘ Note! • Place the antenna as far as possible from metal elements as they may cause signal interference. • Do not shorten the antenna. The device’s antenna should be as upright as possible. This ensures the device’s operational range is maximized (up to 131 feet (40 m) line of sight).
- Page 25 Step 4 – Add the device to your Z-Wave network • For more details on how to include the device, please refer to the Z-Wave Inclusion chapter.
- Page 26 Step 5 – The Installation is now complete. It’s time to make your life more comfortable with the help of the Qubino Flush Shutter DC...
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Page 27: Installing The Qubino Temperature Sensor
7.2. Installing the Qubino Temperature Sensor The temperature sensor is a Qubino accessory and is sold separately - for more info, please see the Qubino product catalogue or website: http://qubino.com/products/accessories/ Product ordering code: ZMNHEA1 Qubino Z-Wave devices have the option to connect a temperature sensor (sold separately), which allows you to remotely monitor ambient or water temperature. - Page 28 Temperature sensor installation example: Step 1 – Exclude the device (if it is already connected to your Z-Wave system)
- Page 29 Step 2 – Turn the fuse OFF Step 3 – Connect the temperature sensor as shown below...
- Page 30 Step 4: Place the temperature sensor in the switch box Step 5 – Turn the fuse ON...
- Page 31 Step 6 – Re-include the device to your network...
- Page 32 Step 7 – Start using the temperature sensor in connection with your device...
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Page 33: Device Information And Support
By scanning the QR code on the back of your Qubino, its device title, serial number, and part number are automatically copied to your mobile phone. You can also use the code for direct access to the device page for more information. -
Page 34: Electrical Diagram (12-24 Vdc)
9. Electrical Diagram (12-24 Vdc) Notes for diagram: +Vdc (12-24 Vdc) -Vdc (0 Vdc) Output for motor UP (open) ⬆ Output for motor DOWN (close) ⬆ Input for switch/push button DOWN (close) Input for switch/push button UP (open) Temperature sensor terminal Service button (used to add or remove device from the Z-Wave network) Overload Max Power Limit is automatically set by a software. -
Page 35: Adding The Device To A Z-Wave Network (Inclusion)
10. Adding the device to a Z-Wave network (Inclusion) AUTOMATICALLY ADDING THE DEVICE TO A Z-WAVE NETWORK (AUTO INCLUSION) 1. Enable add/remove mode on your Z-Wave gateway (hub) 2. Automatic selection of secure/unsecure inclusion 3. Connect the device to the power supply (with the temperature sensor already connected – sold separately*). -
Page 36: Removing The Device From A Z-Wave Network (Exclusion)
11. Removing the device from a Z-Wave network (Exclusion) REMOVAL FROM A ZWAVE NETWORK (Z-WAVE EXCLUSION) 1. Connect the device to the power supply 2. Make sure the device is within direct range of your Z-Wave gateway (hub) or use a hand-held Z-Wave remote to perform exclusion 3. -
Page 37: Associations
• Group 2: Basic on/off (Triggered at change of input I1) up to 16 nodes. When switch wired to input I1 is pressed Flush Shutter DC will send Basic set ON command to associated device and this device will turn ON, when it is released Flush shutter DC sends Basic set OFF command to associated device and this device will turn OFF. - Page 38 ON. When blinds are in any position which is not down (0 %) Flush Shutter DC will send Basic set OFF to associated device and the device will turn OFF. • Group 7: Multilevel set (Triggered at change of value of the Flush Shutter DC position), up to 16 nodes.
- Page 39 ON. When blinds are in any position which is not down (0 %) Flush Shutter DC will send Basic set OFF to associated device and the device will turn OFF. • Group 7: Multilevel set (Triggered at change of value of the Flush Shutter DC position), up to 16 nodes.
- Page 40 • Group 2: Multilevel sensor report (triggered at sensed different value – sensor sold separately), up to 16 nodes. Flush Shutter DC device will send Multilevel sensor report to associated device, this will send the information of actual temperature that was...
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Page 41: Flush Shutter Dc Calibration
13. Flush Shutter DC Calibration Automatic calibration Automatic calibration is a process during which the Flush Shutter DC learns the position of the limit switches. Shutter positioning calibration (par. 71 set to 0) • Calibration through main gateway (hub) UI 1) Include the device into the Z-wave network according to the instructions for inclusion. - Page 42 6) By default full turn movement is set to 1.5s. If this time is too long (if after slates full cycle Shutter starts moving up or down), decrease this time defined with parameter 72. If this time is to short (if slats will not turn for a full cycle), increase this time defined with parameter 72. Manual operation for Shutter (par.
- Page 43 Keeping the push-button pressed (for time > (full turn slates time) connected to I1 (up), initiates up movement, until the push-button is released. Slates on end position - 180 degree Clicking the push-button connected to I1 (up), initiates Shutter up movement, until the push- button is clicked again.
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Page 44: Configuration Parameters
Parameter no. 10 - Activate / deactivate ALL ON / ALL OFF Functionality Flush Shutter DC device responds to the commands ALL ON / ALL OFF that may be sent by the primary or secondary gateway (hub) within the Z-Wave network. - Page 45 NOTE: Power consumption needs to increase or decrease by at least 1 Watt to be reported, REGARDLESS of the percentage set in this parameter. Parameter no. 42 – Power reporting in Watts by time interval for Q1 or Q2 The set value refers to the time interval with which the power consumption in Watts is reported (0 –...
- Page 46 Parameter no. 71 – Operating modes Choose between the two operating modes. If the venetian mode is selected, an additional widget/endpoint will be displayed on the UI interface, which can be used to control the tilt position of the slats. If the Shutter mode is selected, this additional endpoint is hidden. Values (size is 1-byte dec): •...
- Page 47 Parameter no. 73 – Slats position This parameter is used to enable/disable the slats to return to the previously set position after being activated via the Z-Wave gateway(hub), push-button operation or when the lower limit switch is reached. Values (size is 1-byte dec): •...
- Page 48 the attached shutters. At this point the Shutter can be moved up (open), but can't be moved down, because this position is already set as its lowest position. To change the defined lowest position of the Shutter below the one, which is already defined (manual recalibration), the parameter 74 must be set to 0 and the procedure, which is described above, should be repeated.
- Page 49 Parameter no. 76 - Motor operation detection Define the power consumption threshold at the end positions. Based on this value, the device will know, that the shutters reached the limit switches. Values (size is 1-byte dec): • default value 10 = 1 W •...
- Page 50 Parameter no. 85 – Power consumption max delay time Define the maximum time before the power consumption of the motor, after one of the relays is switched ON, is read from the device. If there is no power consumption during the set time (motor not connected, damaged or requires longer time to start, motor at the end position), the relay will switch OFF.
- Page 51 Parameter no. 90 – Time delay for next motor movement This parameter defines the minimum time duration between successive motor movements (minimum time after which the motor is switched off and on again). Values (size is 1-byte dec): • default value 5 = 500 ms •...
- Page 52 Parameter no. 120 – Temperature Sensor Reporting Threshold If an external digital temperature sensor (sold separately) is connected to the device, it reports temperature readings based on the threshold defined in this parameter. This parameter only applies to the Celsius temperature unit (the Fahrenheit unit is currently not supported). Values (size is 1-byte dec): •...
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Page 53: Technical Specifications
15. Technical Specifications Power supply 12-24 Vdc +/-10 % Rated load current Overcurrent protection Output circuit power of DC output 48 W (24 Vdc) (resistive load) Power measurement accuracy +/-5 % Digital temperature sensor range -25 ~ +80 °C (-13~ 176 °F), resolution 0.1 °C Operation temperature -10 ~ +40 °C (14 ~ 104 °F) Z-Wave operation range... -
Page 54: Z-Wave Command Classes
16. Z-Wave Command Classes Z-Wave Device Class: BASIC_TYPE_ROUTING_SLAVE GENERIC_TYPE_SWITCH_MULTILEVEL SPECIFIC_TYPE_CLASS_C_MOTOR_CONTROL Z-Wave Supported Command Classes: COMMAND_CLASS_ZWAVEPLUS_INFO_V2 COMMAND_CLASS_VERSION_V2 COMMAND_CLASS_MANUFACTURER_SPECIFIC_V2 COMMAND_CLASS_DEVICE_RESET_LOCALLY_V1 COMMAND_CLASS_POWERLEVEL_V1 COMMAND_CLASS_BASIC_V1 COMMAND_CLASS_SWITCH_ALL_V1 COMMAND_CLASS_SWITCH_BINARY_V1 COMMAND_CLASS_SWITCH_MULTILEVEL_V3 COMMAND_CLASS_METER_V4 COMMAND_CLASS_SENSOR_MULTILEVEL_V7 COMMAND_CLASS_MULTI_CHANNEL_V4 COMMAND_CLASS_ASSOCIATION_V2 COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3 COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2 COMMAND_CLASS_CONFIGURATION_V1 COMMAND_CLASS_MARK... - Page 55 COMMAND_CLASS_BASIC_V1 COMMAND_CLASS_SWITCH_MULTILEVEL_V3 Endpoint1: Device Class: BASIC_TYPE_ROUTING_SLAVE GENERIC_TYPE_SWITCH_MULTILEVEL SPECIFIC_TYPE_CLASS_C_MOTOR_CONTROL Command Classes: COMMAND_CLASS_ZWAVEPLUS_INFO_V2 COMMAND_CLASS_VERSION_V2 COMMAND_CLASS_BASIC_V1 COMMAND_CLASS_SWITCH_ALL_V1 COMMAND_CLASS_SWITCH_BINARY_V1 COMMAND_CLASS_SWITCH_MULTILEVEL_V3 COMMAND_CLASS_METER_V4 COMMAND_CLASS_ASSOCIATION_V2 COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3 COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2 COMMAND_CLASS_MARK COMMAND_CLASS_BASIC_V1 COMMAND_CLASS_SWITCH_MULTILEVEL_V3 Endpoint2: Device Class: BASIC_TYPE_ROUTING_SLAVE...
- Page 56 GENERIC_TYPE_SWITCH_MULTILEVEL SPECIFIC_TYPE_CLASS_C_MOTOR_CONTROL Command Classes: COMMAND_CLASS_ZWAVEPLUS_INFO_V2 COMMAND_CLASS_VERSION_V2 COMMAND_CLASS_BASIC_V1 COMMAND_CLASS_SWITCH_ALL COMMAND_CLASS_SWITCH_BINARY_V1 COMMAND_CLASS_SWITCH_MULTILEVEL_V3 COMMAND_CLASS_ASSOCIATION_V2 COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3 COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2 COMMAND_CLASS_MARK COMMAND_CLASS_BASIC_V1 COMMAND_CLASS_SWITCH_MULTILEVEL_V3 Endpoint 3: Device Class: GENERIC_TYPE_SENSOR_MULTILEVEL SPECIFIC_TYPE_ROUTING_SENSOR_MULTILEVEL Command Classes: COMMAND_CLASS_ZWAVEPLUS_INFO_V2 COMMAND_CLASS_VERSION_V2 COMMAND_CLASS_SENSOR_MULTILEVEL_V7 COMMAND_CLASS_ASSOCIATION_V2...
- Page 57 COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3 COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2 NOTE: The above list is valid for the product with a temperature sensor connected to TS terminal at the time of inclusion. In case the sensor is not connected then the following command class and endpoint 3 are not supported: COMMAND_CLASS_SENSOR_MULTILEVEL_V7 Endpoint 2 is supported by the module only when the parameter no.
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Page 58: Important Disclaimer
(hub) or shows up incorrectly, you may need to change the device type manually and make sure your gateway (hub) supports multi-channel devices. Contact us for help before returning the device: http://qubino.com/support/#email 18. Warning Do not dispose of electrical appliances as unsorted municipal waste, use separate collection facilities. - Page 59 Declaration of Conformity Qubino Flush Shutter DC device is in compliance with the essential requirements and other relevant provisions of the Low voltage (LVD) Directive (2014/35/EU), Electromagnetic Compatibility (EMC) Directive (2014/30/EU), Radio Equipment Directive (2014/53/EU), Directive RoHS 2 (2011/65/EU) and Directive ErP (2009/125/EC).