Tuya Smart ZigBee Φ35mm 100~240V/AC Roller Blind Shutter Motor Awning Tubular Motor

SIXINSMART Smart Curtain Work with Tuya ZigBee Google Assistant Amazon alexa

  • Working voltage: 100V ~ 240V/AC @ 50/60Hz
  • Working current: 0.62A
  • Rated power: 62W
  • Rated torque: 4.2N.m
  • Rated speed: 22rpm/min
  • Support App: Tuya Smart or Smart Life
  • Support voice devices: Google Assistant, Amazon Alexa
  • Network protocol: ZigBee 3.0
  • Maximum load: 25kg
  • Protection level: IP44
  • Control method: Remote Control, App Control, Voice Control, Timing Control
  • Application areas: Roller blinds, Zebra blinds, Rolling Shutters, Awnings, Projector Screens, etc.


The Evolution of ZigBee Protocol: A Comprehensive Development History (2002-2024)

The Development History of ZigBee Protocol (2002-2024)

ZigBee is a prominent wireless communication protocol that has significantly impacted the smart home and IoT sectors. Developed by the ZigBee Alliance (now the Connectivity Standards Alliance), the protocol has undergone extensive evolution since its inception. This detailed history traces ZigBee’s development from its early days to the latest advancements in 2024.

Early Years (2002-2006)
Formation and Initial Standards:
  • 2002: The ZigBee Alliance was established, bringing together a consortium of technology companies with the goal of developing a reliable, low-power wireless communication protocol. The focus was on creating a standard that would facilitate low-data-rate, low-cost, and low-power communication for various applications.
  • 2004: The first ZigBee specification was released. This version was based on the IEEE 802.15.4 standard, emphasizing energy efficiency, reliability, and cost-effectiveness for short-range wireless communication.
Initial Implementations:
  • ZigBee 1.0: The initial version was designed for simple, low-power, and low-cost wireless devices. Its primary applications included industrial automation, home control, and building management systems.
Growth and Standardization (2006-2012)

Enhanced Specifications:

  • 2006: The ZigBee 2006 specification introduced several improvements, including enhanced security features and better interoperability. The introduction of the ZigBee Cluster Library (ZCL) standardized device functions and interactions, providing a common language for ZigBee devices.
  • ZigBee PRO (2007): This version aimed to support larger networks with enhanced features such as mesh networking, which allowed devices to relay data through intermediate nodes, increasing the network’s range and reliability. Other improvements included frequency agility for interference avoidance, improved security protocols, and better scalability.

Specialized Profiles:

  • ZigBee RF4CE (2010): Targeted at consumer electronics, RF4CE (Radio Frequency for Consumer Electronics) was designed to provide a simpler and more responsive communication protocol for remote controls and entertainment systems.
  • ZigBee Light Link (2011): This profile focused on lighting control, making it easier to set up and control LED fixtures, light bulbs, timers, and remotes. It promoted interoperability and ease of use for lighting solutions.
  • ZigBee Home Automation 1.2 (2012): Enhanced with additional security features, simplified installation processes, and improved device compatibility, this profile expanded the applications of ZigBee in home automation, including HVAC control, security systems, and energy management.
Unification and Modernization (2013-2024)
Towards a Unified Standard:
  • 2015: The introduction of ZigBee 3.0 marked a significant milestone in the protocol’s evolution. ZigBee 3.0 unified all previous application profiles (e.g., ZigBee Light Link, ZigBee Home Automation, ZigBee Building Automation) into a single, comprehensive standard. This unification aimed to simplify development, enhance interoperability, and expand the range of supported devices and applications.
Continuous Enhancements:
  • 2017-2024: ZigBee 3.0 has seen continuous improvements focusing on security, scalability, and power efficiency. Innovations like Green Power for ultra-low-power devices, better support for complex smart home ecosystems, and enhanced network management tools have kept ZigBee relevant in an evolving market.

What is ZigBee 3.0 Protocol?

ZigBee 3.0 is the latest iteration of the ZigBee protocol, designed to unify various ZigBee application profiles into a single, cohesive standard. This protocol simplifies the development process for manufacturers and ensures seamless interoperability among different devices, enhancing the user experience in smart home and IoT applications.

Key Features of ZigBee 3.0:

  • Unified Application Layer: By merging all previous profiles (e.g., ZigBee Light Link, ZigBee Home Automation), ZigBee 3.0 simplifies integration and ensures better interoperability across devices from different manufacturers.
  • Enhanced Security: ZigBee 3.0 includes advanced security features such as AES-128 encryption, secure key exchange, and robust device authentication mechanisms, providing strong protection against unauthorized access and data breaches.
  • Mesh Networking: The protocol supports mesh networking, where each device can act as a repeater to extend network range and improve reliability. This feature ensures robust communication even in complex environments.
  • Green Power: This feature supports ultra-low-power devices that can operate without batteries, using energy harvesting techniques to power themselves.

Advantages of ZigBee 3.0 Protocol

ZigBee 3.0 offers several enhancements over its predecessors, making it a robust and versatile choice for smart home and IoT applications.

1. Enhanced Interoperability:

  • Seamless Integration: By unifying all ZigBee profiles, ZigBee 3.0 ensures that devices from different manufacturers can work together seamlessly. This interoperability reduces compatibility issues and simplifies the user experience.
  • Standardized Clusters: The use of the ZigBee Cluster Library (ZCL) standardizes how devices communicate, ensuring consistency and reliability in interactions.

2. Improved Security:

  • AES-128 Encryption: ZigBee 3.0 employs Advanced Encryption Standard (AES-128) to secure data transmission, protecting user data from eavesdropping and tampering.
  • Secure Key Exchange: It uses robust mechanisms for key exchange and device authentication, ensuring that only authorized devices can join the network.

3. Advanced Scalability and Flexibility:

  • Mesh Networking: ZigBee 3.0 supports mesh networking, allowing devices to relay data to each other and extend network coverage without the need for a central hub. This feature enhances network reliability and scalability, making it suitable for large installations.
  • Green Power: This feature enables the use of energy-harvesting devices, which can operate without traditional batteries, reducing maintenance and environmental impact.

4. Low Power Consumption:

  • Energy Efficiency: ZigBee 3.0 is designed for low-power operation, making it ideal for battery-operated devices such as sensors and remote controls. This efficiency helps extend the battery life of devices, reducing the need for frequent replacements.
  • Sleep Modes: Devices can enter low-power sleep modes when not in use, further conserving energy and extending battery life.

5. Robust Network Performance:

  • Frequency Agility: ZigBee 3.0 can switch frequencies to avoid interference, ensuring reliable communication even in environments with high wireless traffic.
  • Large Network Support: It can support networks with thousands of devices, making it suitable for complex smart home and industrial IoT deployments.

6. Backward Compatibility:

  • Legacy Support: ZigBee 3.0 maintains backward compatibility with earlier versions of ZigBee, allowing existing devices to operate within a ZigBee 3.0 network. This ensures a smooth transition for users upgrading their systems.

The ZigBee protocol has evolved significantly since its inception in 2002, culminating in the comprehensive and robust ZigBee 3.0 standard. ZigBee 3.0’s unified application layer, enhanced security, advanced scalability, and low power consumption make it an ideal choice for smart home and IoT applications. As the smart home industry continues to grow, ZigBee 3.0 stands out as a versatile, reliable, and secure protocol, enabling seamless integration and superior performance across a wide range of devices and applications.

Tuya Smart ZigBee Φ35mm 100~240V/AC Roller Blind Shutter Motor Awning Tubular Motor: Advanced Automation for Smart Homes

Introducing the Tuya Smart ZigBee Φ35mm 100~240V/AC Roller Blind Shutter Motor Awning Tubular Motor, an innovative solution designed to enhance the functionality and convenience of your smart home. Engineered for optimal performance, this motor leverages Tuya ZigBee technology to provide seamless integration, robust control, and exceptional versatility. Ideal for residential and commercial applications, this tubular motor is the epitome of modern smart home automation.

Comprehensive Product Features and Technical Specifications

1. App Control:

Through the Tuya ZigBee gateway, users can control and monitor their smart curtains from anywhere, at any time, using the Tuya Smart or Smart Life App. This feature eliminates geographical restrictions, providing real-time management and flexibility for your roller blinds.

2. Intelligent Voice Control Integration:

The Tuya Smart ZigBee Φ35mm 100~240V/AC Roller Blind Shutter Motor Awning Tubular Motor is compatible with Google Assistant and Amazon Alexa, enabling voice control for hands-free operation. This integration allows users to open or close their curtains using simple voice commands, enhancing convenience and user experience.

3. 433.92MHz RF Remote Control:

For traditional control methods, the motor includes a 433.92MHz RF remote control. This remote can simultaneously manage up to 20 smart motors, and multi-channel remote controls are available for more complex installations. This dual-control capability ensures versatile and comprehensive control options.

4. Advanced Timing Control:

The motor features sophisticated timing control capabilities, allowing users to create precise schedules for the automated opening and closing of their roller shutters. Users can set specific times or synchronize operations with sunrise and sunset, promoting energy efficiency and enhancing home automation.

5. Precision Travel Limit Settings:

Travel limit settings provide precise control over the opening and closing positions of the blinds, preventing overextension and ensuring optimal performance. This feature helps maintain the durability and reliability of both the motor and the blinds, ensuring smooth operation over extended periods.

6. Silent Operation:

The motor is designed to operate quietly, with noise levels below 38dB. This ultra-quiet performance makes it ideal for noise-sensitive environments such as bedrooms, offices, and libraries, ensuring that the motor operates discreetly without causing disturbances.

7. High Torque Performance:

Featuring a robust 4.2N.m torque, this motor can handle a maximum load of 25kg. It is suitable for roller shutters with a maximum width of 19.7ft and a maximum height of 9.85ft, providing reliable performance for various applications.

8. Wide Voltage Range Input:

The motor supports a wide voltage range of 100~240V/AC, making it compatible with global voltage standards. This feature ensures that the motor can be used in different regions without compatibility issues.

9. Group Control Functionality:

The smart home app allows users to group multiple blinds across different rooms, enabling one-click control. This feature streamlines the management of extensive smart home setups, enhancing user convenience and operational efficiency. Group control is particularly useful for large homes and commercial spaces.

10. Shared Control Permissions:

Control permissions can be shared with family members or colleagues via the app, ensuring that multiple users can manage the blinds. This collaborative control capability promotes ease of access and enhances the user experience, making it suitable for both residential and commercial applications.

11. Versatile Tube Compatibility:

The motor is compatible with Φ40mm and Φ50mm roller blind tubes, ensuring flexibility in installation and integration with different types of blinds and window coverings. This adaptability allows for seamless retrofitting and new installations, catering to diverse application requirements.

The Tuya Smart ZigBee Φ35mm 100~240V/AC Roller Blind Shutter Motor Awning Tubular Motor represents the pinnacle of smart home automation technology. With its advanced features, seamless integration, and user-centric design, it offers unparalleled convenience and performance. Whether enhancing residential living spaces or upgrading commercial environments, this motor provides a reliable, efficient, and sophisticated solution.

For detailed specifications, pricing, and ordering information, please contact our sales team. Elevate your smart home or business with the Tuya Smart ZigBee Φ35mm 100~240V/AC Roller Blind Shutter Motor Awning Tubular Motor and experience the future of automation today.