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Wireless Smart Valve Control Unit - Solenoid Valve Compatible
Developed by Esular, this wireless smart valve control unit eliminates energy and wiring challenges in agricultural fields. With its fully wireless structure and self-solar powered charging feature, it ensures your irrigation system offers practical use. Valve controls and sensor data collection...
Technical Specifications
| Size | 157.5 x 90 x 58.5 mm |
|---|---|
| Document | Technical Documentation Available |
Product description
Developed by Esular, this wireless smart valve control unit eliminates energy and wiring challenges in agricultural fields. With its fully wireless structure and self-solar powered charging feature, it ensures your irrigation system offers practical use. Valve controls and sensor data collection are performed entirely through wireless control, making it ideal especially for solenoid valve systems.
Wireless Self-Solar Powered Smart Valve Control Unit - Solenoid Valve Solution
Specially designed for agricultural and landscape irrigation systems, the Esular Wireless Smart Valve Control Unit allows you to easily manage your solenoid valves through a centralized system.
Wireless Installation and Practical Use
There is no need for complex wiring, external energy, or additional automation infrastructure during installation. This provides extremely practical use. Simply connecting it directly to the solenoid valve is sufficient.
Operation with Self-Solar Powered Rechargeable Battery
Thanks to its integrated self-solar powered design and high-capacity rechargeable battery, the device does not require any external power source. This feature makes the unit practical to use even in areas where energy infrastructure is difficult, such as fields and gardens.
Wireless Control Range up to 10 KM
Thanks to powerful LoRa/LoRaWAN technology, you can read the status information of your solenoid valves from a distance of approximately 10 km and perform wireless control.
Easy Rescaling
The plug-and-play feature allows you to add a new solenoid valve control unit to the system in just minutes. The ability to easily add and remove units without needing to reconfigure your system offers flexibility and practical use in your projects.
General Features
- Connection capability for up to 4 hydraulic solenoid valves.
- Fully compatible with 9V hydraulic latch solenoid valves.
- No additional energy required thanks to wireless control, self-solar powered, and rechargeable battery structure, ensuring practical use.
- No data loss in case of shutdown and restart.
- The device communicates with LoRa modulation and LoRaWAN protocol.
- Features EU-868 MHz frequency band and 14dB output power.
- 8-channel standard LoRa/LoRaWAN transceiver.
- Fully compatible with LoRaWAN networks.
- Equipped with external and internal antenna connections.
- Configuration processes can be performed via wireless control through the system.
- Operates in Ultra Low Power mode to avoid unnecessary energy consumption.
- Wireless communication up to 5 km point-to-point (up to 10 km LoRaWAN network to the main station).
- Operating temperature is -40°C~+85°C.
- IP68 waterproof structure.
Application Areas
- Smart Agriculture Applications (Wireless Valve Control)
- Smart Greenhouse Applications (Solenoid Valve Management)
- Smart Landscape Applications (Practical Irrigation Control)
- Vertical Farming Applications
- Smart Irrigation Systems (Wireless and Self-Solar Powered)
- Soilless Farming Applications
- SCADA Systems
- IoT (Internet of Things)
- Park and Garden Smart Irrigation Solutions (Practical Installation)
- LoRa / LoRaWAN Sensor Applications
- Germination and Rooting Automation
Models
Challenges of Wired Systems and Practicality of Wireless Solutions
Challenges of Wired Systems
- High Installation Cost: Especially in agricultural areas, extensive excavation may be required to lay cables. This is costly in terms of both labor and materials. Cable pulling can take a long time.
- Difficult Fault Detection: Detecting damage to cables can be time-consuming, especially for underground cables.
- Sensitivity to External Factors: Agricultural equipment, animals, or weather conditions can damage cables. Broken or worn cables can disable the system. Additionally, humidity, chemicals, and soil structure can cause cables to deteriorate over time.
- Fixed Infrastructure: Wired systems are fixed; therefore, when a change is made in the agricultural or greenhouse area, cables may need to be re-laid.
Solutions like Esular's wireless smart valve control unit provide practical use and flexibility against these challenges. It is more advantageous to use wireless systems in large fields. Turning to wireless control technologies in agricultural and greenhouse areas generally offers a more efficient and sustainable solution. It especially brings great convenience in the control of solenoid valves.
Advantages of Wireless Systems and Practical Use
Advantages of Wireless Systems
Wireless systems offer many advantages compared to wired systems. Here are the main advantages and practical use details of the Esular Wireless Smart Valve Control Unit:
Ease of Installation and Low Cost: No cabling required. Labor and costs are reduced since there is no need for physical wiring. Thanks to the plug-and-play structure, sensors and devices can be placed and commissioned in a short time. This is a major practical use advantage in installation.
Flexibility and Mobility: Devices can be easily moved when the field or greenhouse layout changes. New sensors or devices can be added as needed. This flexibility increases the practical use of the system.
Wide Coverage Area and Wireless Control: Provides remote access and wireless control possibilities. Wireless sensor networks can be established over large areas. Data can be monitored and controlled remotely via the internet. Especially the remote wireless control of solenoid valves reduces the workload. It provides efficiency by working integrated with IoT devices in smart agriculture and greenhouse applications.
Ease of Maintenance: Maintenance costs decrease as there is no physical damage such as breakage or wear in the cables. Wireless systems can be easily updated with software updates, which is part of practical use.
Reduced Labor Requirement: It does not require excavation, cable laying, and maintenance work throughout the field as in wired systems. This means less need for personnel and equipment. Solenoid valves, sensors, irrigation, and fertilization systems can be monitored and controlled wirelessly from a distance. This reduces the need to be physically present in agricultural and greenhouse areas and maximizes practical use.
Esular's self-solar powered and wireless systems increase agricultural production efficiency while reducing operational costs, enabling farmers and producers to switch to more sustainable and smart farming methods. It is entirely focused on practical use.
Technical Documents
Download the documents for detailed product information