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Qubino Flush Shutter DC

ZMNHOD1

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Micromódulo Qubino Flush Shutter DC para control de persianas, cortinas, venecianas,toldos, puertas de garaje, etc. con capacidad de invertir la polaridad para manejar motores de 12-24VDC (corriente continua) para este tipo de aplicaciones de domótica de persianas para, su "obturación" u otras ocultaciones para puerta/ventana basadas en motores con inversión de polaridad.

Más detalles

En Stock - Envío inmediato

59,90 €

Características técnicas

Tecnología Z-Wave Plus
Característica Medición de Consumo

Descripción

El único controlador de persianas Z-Wave del mundo, para motores de corriente continua (DC)

El micromódulo Qubino Flush Shutter DC para "obturación"/ocultación de Qubino, resulta ideal para controlar los motores de 12-24V DC de persianas, rodillos, cortinas y estores de ocultación, persianas venecianas, toldos y protectores solares similares, así como puertas de garaje. Puede controlarlo de forma remota a través de la red Z-Wave o a través de interruptores de pared. También mide el consumo de energía del motor o dispositivo de giro conectado y soporta la conexión de un sensor de temperatura digital.

El módulo para control de persianas Z-Wave más pequeño de todos

El micromódulo o "pastilla" para el control de persianas Qubino Flush Shutter DC es el módulo de Z-Wave más pequeño del mundo porque ocupa un volumen menor que los módulos comparables de cualquier otra marca y se ajustará fácilmente en cualquier caja de mecanismos empotrada.

Qubino Flush Shutter DC corriente continua

¿Para qué se utiliza?

El micromódulo Qubino Flush Shutter DC  para control de persianas Z-Wave, es ideal para controlar remotamente los motores de 12-24V DC de persianas, poleas, estores, toldos, puertas de garaje, persianas venecianas y protectores solares similares.

Nueva funcionalidad para lamas basculantes de persianas venecianas 

Video para verlo en acción:

Control energético

El micromódulo Z-Wave Qubino Flush Shutter DC, para el control de persianas y cortinas venecianes, entre otros sistemas de ocultacion, hace medición de consumo eléctrico del aparato eléctrico o motor de giro/desplazamiento conectado y de por sí, cuando está en "standby" tan sólo consume 0.3 W.

Muy versátil

El Qubino Flush Shutter DC, puede operar a través de un extenso rango de temperaturas desde los fríos -10˚C a los sofocantes 40˚C (14˚–104˚F). Soporta la conexión de un sensor de temperatura digital, que también es útil para crear escenarios complejos. Cada módulo también actúa como un repetidor con el fin de mejorar el alcance y la estabilidad de la red Z-Wave.

La instalación más sencilla.

El tamaño extremadamente pequeño y una carcasa especialmente diseñada significan que la conexión del módulo dentro de una caja de montaje empotrada es sencillo. El proceso de instalación, probado y aprobado por electricistas profesionales, consta de sólo tres sencillos pasos:

1 - Retire los interruptores de la caja y desconecte los cables.
2 - Conecte los cables al módulo Qubino e insértelos en la caja.
3 - Fije los interruptores a la caja.

Los módulos Z-Wave más probados y más fiables

Los módulos Z-Wave de Qubino son productos de “instalar-y-olvidarte”. Los productos Qubino que te ofrecemos, están fabricados para durar, por lo que sólo utilizan componentes electrónicos que cumplan los más exigentes niveles de calidad. Nuestros módulos además son los micromodulos Z-Wave más testeados del mercado. El Instituto Esloveno de Calidad y Medición (The Slovenian Institute of Quality and Metrology (SIQ)), una entidad europea independiente, comprueba la calidad de los parámetros reales de nuestros productos, incluyendo el aumentos de temperatura, fabricación, resistencia del aislamiento, consumo eléctrico y sobrecargas de acuerdo las normas europeas de la máxima calidad conforme a la especificación del estándar EN 60669-2-1.

Parámetros adicionales para profesionales.

El micromódulo Qubino Flush Shutter DC dispone de 14 parámetros adicionales para su uso por expertos. Algunos de los más útiles son:

  • Activar / desactivar funciones ALL ON / ALL OFF
  • Definir la selección entre dos modos de funcionamiento disponibles
  • Defina el tiempo necesario para que las lamas realicen giro completo (180 grados)

Especificaciones Técnicas y esquemas eléctricos:

Qubino Flush Shutter DC esquema de conexion

Alimentación: 12 – 24 VDC ±10%

Corriente de carga nominal

2 A
Protección contra sobrecarga 5 A
Potencia del circuito de salida de la salida de CC (carga resistiva) 48 W (24 VDC)
Output circuit power of DC output (resistive load): 5 A
Precisión de la medición de potencia: +/- 5%
Rango del sensor digital de temperatura: -50° ~ +125°C, resolucion 0.1°C
Longitud del cable del sensor digital de temperatura: 1000 mm
Temperatura de Operacion: -10° ~ +40°C
Distancia hasta 30 m en interior (dependiendo de materiales)
Dimensiones (WxHxD) 41.8 x 36.8 x 15.4 mm
(packaging) (115 x 96 x 22)
Peso (incluyendo packaging) 28 g (34 g)
Consumo electrico en standby 0.3 W
Para instalación en cajas de mecanismo Ø ≥ 60 mm or 2 M
Conmutación mediante: "H bridge"

Cumple Certificaciones CE y ROHS

Información Ampliada Z-Wave (Inglés)

Nombre: Flush Shutter DC
Fabricante:QUBINO
Identificador:ZMNHOD1
Número de Certificación Z-Wave:ZC10-17085744
Plataforma Hardware:ZM5202
FLiRS:NO
Tipo de Role:Always On Slave
Descripción Corta:The Qubino Flush Shutter DC is ideal for controlling the 12–24V DC motors of blinds, rollers, shades, venetian blinds and similar sunscreens.
Descripción:The Qubino Flush Shutter DC is ideal for controlling the 12–24V DC motors of blinds, rollers, shades, venetian blinds and similar sunscreens. You can control it either remotely through the Z-Wave network or through wall switches. It also measures power consumption and supports the connection of a digital temperature sensor.

Descargue el manual desde aquí.

Grupo
Max Nodos
Descripción
1
5
Z-Wave Plus Lifeline
2
15
Basic on/off (triggered at change of the input I1 state and reflecting its state)
3
16
Basic on/off (triggered at change of the input I2 state and reflecting its state)
4
16
Basic on/off (triggered at sensing moving direction of roller: up=FF, down=0)
5
16
Basic on/off (triggered at reaching roller position: bottom=FF, top=0)
6
16
Basic on/off (triggered at reaching roller position: bottom=FF, not bottom=0)
7
16
Multilevel set (triggered at changes of value of the Flush Shutter DC position)
8
16
Multilevel set (triggered at changes of value of slats tilting position)
9
16
Multilevel sensor report (triggered at change of temperature sensor
Número
Tamaño (Bytes)
Valor por Defecto
Nombre
Descripción
10
2
255
Activate/deactivate functions ALL ON / ALL OFF
Flush Shutter DCs module responds to commands ALL ON / ALL OFF that may be sent by the primary or secondary controller within the Z-Wave network.
110
2
32536
Temperature sensor offset settings
Set value is added to or subtracted from the actually measured value to adjust the temperature report sent by an external sensor (sold separately). This parameter only applies to the degrees temperature unit (the Fahrenheit unit is currently not supported).
120
1
5
Temperature sensor reporting
If an external digital temperature sensor (sold separately) is connected to the module, it reports temperature readings based on the threshold defined in this parameter. This parameter only applies to the degrees temperature unit (the Fahrenheit unit is currently not supported).
250
1
0
Unsecure / Secure Inclusion
A Flush Shutter DC supports secure and unsecure inclusion. Even if the controller does not support security command classes, a dimmer could be included as unsecure and keep all the functionality. In case of an overload, the device will send an overload notification(COMMAND_CLASS_NOTIFICATION_V5) towards the controller with the "Notification type" field set to 0x08 (POWER MANAGEMENT) and the "Event" field set to 0x08 ("Over load detected").
40
1
10
Power reporting in Watts on power change for Q1 or Q2
Choose by how much power consumption needs to increase or decrease to be reported. Values correspond to percentages so if 10 is set (by default), the module will report any power consumption changes of 10% or more compared to the last reading. NOTE: Power consumption needs to increase or decrease by at least 1 Watt to be reported, REGARDLESS of percentage set in this parameter.
42
2
0
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 – 32767 seconds). If 0 is entered (by default), energy consumption reports will not be sent to the controller.
71
1
0
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. NOTE1: After the value of this parameter is changed, first exclude module (without setting parameters to their default values), wait at least 30s and then reinclude the module!
72
2
150
Slats tilting full turn time
Set the time, required by the slats, to make a full turn (180 degrees). NOTE: If the set time is too long and a full turn was already performed, the device will start to move up or down for the remaining time.
73
1
1
Slats position
Choose the position of the slats after up/down movement (activated through the Z-Wave controller or the push-buttons) is completed.
74
2
0
Motor moving up/down time
This parameter defines the time, required by the Shutter DC motor, to completely open or completely close the attached shutters. After the set time passes, the motor stops (relay goes to the off state). NOTE: It is important that the reference position, for setting the moving time, is always when the Shutter is at its lowest position! Set parameter 74 to 0 and move the Shutter (using the up/down push-buttons or the main controller UI) to the lowest desired position. When the Shutter reaches this position, set the parameter 74 to the duration, required by the Shutter, to completely open or completely close 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. In case the Shutter operates using limit switches, but the user still wants to control the opening/closing position with time, this is still possible. If a time duration, which is longer than the opening/closing time of the shutters in real time (limited by the limit switches), is set, the Shutter will stop at the limit switches, but the module relay will switch it off after a defined time, not by the limit switch of the Shutter. Take into consideration that in this condition, positioning the shutters with the slider (through the UI) will not display the correct position of the Shutter.
76
1
6
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.
78
1
0
Forced Shutter DC calibration
By changing the value of this parameter from 0 to 1, the Shutter enters the calibration mode. For further information about the calibration process, please see section 9.
85
1
8
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. This time is defined by entering it manually.
86
1
8
Power consumption at limit switch delay time
This parameter defines the maximum time after which the active output will switch off, due to reaching a limit switch. When power consumption is below the specified power threshold, defined in the parameter no. 76, the set time duration will have to pass in order for the output to turn off.
90
1
5
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).
Basic
COMMAND_CLASS_BASIC
Notification V5
COMMAND_CLASS_NOTIFICATION_V5
Switch Multilevel V3
COMMAND_CLASS_SWITCH_MULTILEVEL_V3
Association Group Information V2
COMMAND_CLASS_ASSOCIATION_GRP_INFO_V2
Association V2
COMMAND_CLASS_ASSOCIATION_V2
Basic
COMMAND_CLASS_BASIC
Configuration
COMMAND_CLASS_CONFIGURATION
Device Reset Locally
COMMAND_CLASS_DEVICE_RESET_LOCALLY
Manufacturer Specific V2
COMMAND_CLASS_MANUFACTURER_SPECIFIC_V2
Meter V4
COMMAND_CLASS_METER_V4
Multi-Channel Association V3
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3
Multi-Channel V4
COMMAND_CLASS_MULTI_CHANNEL_V4
Notification V5
COMMAND_CLASS_NOTIFICATION_V5
Powerlevel
COMMAND_CLASS_POWERLEVEL
Security S0
COMMAND_CLASS_SECURITY
Sensor Multilevel V7
COMMAND_CLASS_SENSOR_MULTILEVEL_V7
Switch All
COMMAND_CLASS_SWITCH_ALL
Switch Binary
COMMAND_CLASS_SWITCH_BINARY
Switch Multilevel V3
COMMAND_CLASS_SWITCH_MULTILEVEL_V3
Version V2
COMMAND_CLASS_VERSION_V2
Z-Wave Plus Info V2
COMMAND_CLASS_ZWAVEPLUS_INFO_V2
Inclusion
• Connect module to power supply (with

temperature sensor connected - if purchased),

• auto-inclusion (works for about 5 seconds after connected to power supply) or

• press service button S for more than 2 second or

• press push button I1 three times within 3s (3 times change switch state within 3 seconds).



NOTE1: For auto-inclusion procedure, first set main controller into inclusion mode and then connect module to power supply.



NOTE2: When connecting temperature sensor to module that has already been included, you have to exclude module first. Switch off power supply, connect the sensor and re-include the module.

Exclusion
• Connect module to power supply

• bring module within maximum 1 meter (3 feet) of the main controller,

• enable add/remove mode on main controller,

• press service button S for more than 6 second or

• press push button I1 five times within 3s (5 times change switch state within 3 seconds) in the first 60 seconds after the module is connected to the power supply.

By this function all parameters of the module are set to default values and own ID is deleted.

If service button S is pressed more than 2 and less than 6 seconds (or if push button I1 is pressed three times within 3s) module is excluded, but configuration parameters are not set to default values.



NOTE: If the module is included with parameters 71 with value different to default and module reset is done, wait at least 30s before next inclusion.



NOTE: Please use this procedure only when the network primary controller is missing or otherwise inoperable.

Factory Reset
press service button S for more than 6 second or

• press push button I1 five times within 3s (5 times change switch state within 3 seconds) in the first 60 seconds after the module is connected to the power supply.

By this function all parameters of the module are set to default values and own ID is deleted.

If service button S is pressed more than 2 and less than 6 seconds (or if push button I1 is pressed three times within 3s) module is excluded, but configuration parameters are not set to default values.



NOTE: Please use this procedure only when the network primary controller is missing or otherwise inoperable.



Sensors
Sensor types supported by the product.
Color
If the product is only available in one color, pick the color from the list.
Window Covering Control Features
Select the feature(s) supported in the Window Covering Control product.
Supported Notification Types
Select the Notification Types that the product handles (controllers), or sends (slaves).
Supported Meter Type
Indicate which type of metering is supported by the device.

 

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Qubino Flush Shutter DC

Qubino Flush Shutter DC

Micromódulo Qubino Flush Shutter DC para control de persianas, cortinas, venecianas,toldos, puertas de garaje, etc. con capacidad de invertir la polaridad para manejar motores de 12-24VDC (corriente continua) para este tipo de aplicaciones de domótica de persianas para, su "obturación" u otras ocultaciones para puerta/ventana basadas en motores con inversión de polaridad.

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