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Quick Overview
The Vision Z-Wave Deadbolt Keypad Lock is an intelligent lock capable of remote operation with compatible controllers.
- Open and close doors remotely with your Z-Wave control panel, PC, tablet or smartphone.
- Up to 13 different access codes.
- Access codes can be programmed to only operate at specific times.
- Uses 128 bit AES encryption for security.
- Designed for doors with a thickness of 35-45mm .
The Vision Z-Wave Deadbolt Keypad Lock is an advanced Z-Wave lock based on Z-Wave technology and has a range of intelligent features. The lock is designed for use in commercial and residential buildings.
In addition to the increased level of security, the Deadbolt's firmware has easy configuration options. These include the ability to install temporary access codes which only function during your desired times. It is also possible to open and close the Deadbolt remotely using a Z-Wave compatible device such as a Z-Wave control panel, PC, tablet or smartphone
It is possible to configure up to 13 access codes for different occasions. Each number combination can be between 4 and 10 digits. Successful and unsuccessful attempts to open the door will be recorded and sent to an associated computer or smartphone.
Installers do not have to make any extra effort to modify existing doors to install the Z-Wave Deadbolt. This Deadbolt is designed for doors with a thickness of 35 mm to 45mm, and can be installed in doors opening to the right or left. Please see all details in the installation manual.
This device is only compatible with Vera 3/Lite Home controllers.
Please Note: Access codes for this device can only be managed via a compatible Z-Wave controller. It is not possible to set up access codes manually without a compatible controller.
Product Support
⇒ Vision Z-Wave Deadbolt Lock Installation Manual (Size: 1.07 MB)
⇒ Vision Z-Wave Deadbolt Lock Operation Manual (Size: 235 KB)
Technical Specifications
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RF Protocol
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Z‐Wave
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RF Frequency
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921.42Mhz ‐ AU/NZ approved RF for Z‐wave
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Z‐wave device type
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Z-Wave Lock
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Z‐wave Version
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Z-Wave 4.51 SDK
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Manual Compatibility
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Key
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Operating Voltage
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6V, 4 AA batteries
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Operation Range
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Up to 30m with no obstacles
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Application
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Indoor/Outdoor use
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Operation temperature
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-10 ~ 50 °C
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Storage temperature
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-10 ~ 50 °C
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Weight
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1050g
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Housing
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Aluminium
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Regulatory Compliance Mark
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N5496
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Dimensions
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(LxWxH) 150mm x 70mm x 57 mm
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The Z-WAVE.ME Z-Uno is the first (and only) easy to use developer board that allows you to create your own Z-Wave device!
- Compatible with many Arduino peripherals
- Z-Wave plus certified
- Programmable with simplified C language
- Supports 1-Wire and I2C (Software)
Product Details
The Z-WAVE.ME Z-Uno is the perfect solution for DIY home automation systems. It is made for those who are limited by the existing choice of Z-Wave products and want to extend their smart homes with more sensors and actuators; connect LEDs, buttons, switches, motors or any low voltage sensor (including most compatible Arduino sensors) and write your own code (or sketch) in simplified C language to create your personalized Z-Wave device.
This product integrates with all Australian certified (921.42MHz) Z-Wave controllers including:
- Vera Edge - most popular sensors scales, switches, and dimmers are supported
- Fibaro Home Center 2/Lite - full support from 4.070 (some scales might not be supported)
- Z-Way / RaZberry - full support
SPECS
RF Protocol
- Z‐Wave Plus (500 series chip)
RF Frequency
- 921.42Mhz ‐ AU/NZ approved RF for Z‐wave
Z-Wave Device Type
- Binary/Multilevel switch,
- Binary/Multilevel sensor, meter
Power
- USB 5V, external 3V, external 7-18V or battery
Hardware
- 28kB Flash memory for sketches
- 2 kB RAM
- 26 GPIO
- 1 USB (serial port)
- 64 kB EEPROM
Operation Range
- Up to 30m indoors (with no obstacles)
Z-Wave Channel Types
- Binary/Multilevel switch,
- Binary/Multilevel sensor, meter
Operation Temperature
- 10 ~ 40 °C
Storage Temperature
- ‐10 ~ 60 °C
Weight
- 10g
Board Dimensions
- 39mm x 20mm x 16mm
Antenna Length
- 86mm
Unveil your imagination to create
- battery powered in-wall remote switch
- rotary dimmer control
- temperature/soil humidity/luminosity/voltage/distance or any other sensors as well as dry contact sensor or tick counter
- low voltage switch
- IR blaster
- LED driver
- motor driver
- battery powered keypad
- converter from any protocol to Z-Wave (using SPI/UART/I2C/1-wire bus)
Make your own Z-Wave Device
- control any Arduino compatible peripherals
- define your own logic by modifying your sketch
- use Arduino IDE and language to write and upload sketches
- easy to use
- requires no knowledge of Z-Wave protocol
- complete DIY solution
Hardware SPECS
- 28 kB Flash memory for your sketches
- 2 kB RAM available
- Z-Wave RF transmitter at 9.6/40/100 kbps
- 26 GPIO (overlaps with special hardware controllers)
- 4 ADC
- 5 PWM
- 2 UART
- 1 USB (srial port)
- 16 kB EEPROM
- 1 SPI (master or salve)
- 4 IR Controllers, 1 IR learn capability
- 1 TRIAC/ZEROX to control dimer
- 3 Interrupts
- 1 Timer 4 MHz
- I2C (Software)
- 1-Wire (Software)
- 8x6 keypad Scanner (Software)
- 2 service LED, 1 service button
- 1 user test LED
Power Modes
- USB 5 V, external 5 or 3 V, external 7-18 V or battery (via MU-2F connector, included)
- always on, sleeping or FLiRS (Frequently Listening)
Z-Wave Supported features
- Z-Wave Plus compliant
- all Z-Wave frequencies (check availability)
- out of the box support of AES 128 bit Security
- upgrade via USB or radio (Z-Wave OTA)
- Multichannel (10 channels)
- 5 Association groups
- controls switches, dimmers, door locks and scenes
- orks with gateways and/or directly with other Z-Wave devices
Channel Types
- Binary Switch
- Multilevel Switch
- Color Switch
- Binary Sensor
- Multilevel Sensor
- Meter
Antenna
- Antenna type: wire antenna 86 mm for 865-870 MhZ
- Alternative antenna: optional u.fl connector can be soldered (to RF2 pads)
Electrical characteristics
- Digital pin in logical 1: > 2.1 V, leakage current 10 μA
- Digital pin in logical 0: < 0.9 V, leakage current 10 μA or 40–120 μA (with internal pull-up enabled)
- Internal pullup resistor: 15–20 kΩ (at +25°C)
- Digital pin out logical 1: > 2.4 V, max current sourcing 8 mA (16 mA for digital pins 3-6)
- Digital pin out logical 0: < 0.4 V, max current sinking 8 mA (16 mA for digital pins 3-6)
- Total max current sourcing from GPIO pins: 120 mA
- Power consumption on 3.3 V:
- in always listening mode 50 mA
- in sleep mode 1 mA (about 7 μA if DC-DC is turned off by unsoldering R12)
- in FLiRS mode 1 mA (about 70 μA if DC-DC is turned off by unsoldering R12)
- Power consumption on 5 V: in always listening mode ∼ 30 mA (can be lowered by using external switching DC-DC)
- Power consumption on 7–18 V: in always listening mode ∼ 35 mA (can be lowered by using external switching DC-DC)
- DC-DC installed:
- 7–18 V → 5 V: NCP1117ST50T3G, max current sourcing from 5V pin 900 mA
- 5 V → 3 V: MCP1700, max current sourcing from 3V pin 200 mA
Z-Uno power supply
Z-Uno can be powered from 3V (pin 3V3), 5V (pin 5V or USB) or external 7-18V (pin Vin).
Below is the schematics of Z-Uno power supply: