LoRa Wireless Irrigation Valve Controller | PKYDrip
LoRa wireless irrigation valve controller
Control irrigation valves remotely using LoRa. Suitable for farms where wiring is difficult or expensive—remote fields, large systems, and expansion without trenching.
B2B farm irrigation. Not a home garden timer. Built for remote farms, contractors, and system integrators.
Common use cases
Remote farm irrigation zones
Valves far from the pump house or control room—wireless links replace long cable runs.
Fields without power or cable access
Solar-powered field nodes avoid trenching power and signal cables to every zone.
Irrigation system expansion
Add zones by deploying more LoRa valve controllers without redesigning the whole cable plant.
Retrofit projects
Upgrade existing systems where new buried cable is costly or impractical.
What this controller does
Open and close irrigation valves remotely
Each unit acts as a field actuator: execute open/close commands from your system platform or schedule.
Long-distance wireless (LoRa)
Low-power LoRa suits wide, open farm layouts; range depends on terrain, antenna height, and gateway placement—share your map for planning.
Lower installation cost
Avoid trenching and long multi-core cable runs between headworks and valve manifolds.
Drip and sprinkler
Valve control is independent of emitter type; hydraulic design and valve choice stay on the project side.
Typical system
Main Controller → LoRa Gateway → LoRa Valve Controller → Valves
The main controller (or platform) sends commands to the gateway. The gateway relays them over LoRa to each valve controller, which drives the valve. No continuous copper path is required from the control room to every valve.
Suitable projects
- Long-distance irrigation zones where cable runs are long or cross obstacles
- Projects where cable installation is too expensive compared with wireless field nodes
- Upgrading existing irrigation to add zones or remote control without full rewiring
Not for consumer garden timers
Small home garden kits and single-tap timers are outside scope—this product is for commercial farm and contractor-scale irrigation.
Consultation
LoRa coverage, valve count, and power at each site point determine gateway placement and how many nodes you need. A short WhatsApp thread with your layout avoids under- or over-specifying the wireless layer.
Send these details on WhatsApp
- Farm size (area or rough sketch)
- Number of valves (now and planned expansion)
- Distance between zones or rough field dimensions
- Power availability at valve locations (AC nearby, solar-only, etc.)
PKYDrip will recommend
- Gateway placement and approximate LoRa coverage considerations
- Node quantity and valve compatibility notes (project-dependent)
- How this fits with PKYDrip main controllers and existing systems
Get a suitable controller configuration
Send your project details on WhatsApp → we recommend a suitable LoRa valve controller and gateway approach for your farm layout.
Send project details on WhatsAppReference code: PC-0801-2-02-PROD-LORA-VALVE-01
FAQ
LoRa range is site-specific: open terrain and good antenna height typically achieve longer reach than dense crops or deep valleys. We recommend sharing field layout and zone locations so gateway placement can be planned realistically.
Each valve controller needs a power source at the field—commonly integrated solar + battery on suitable models, or local power where available. Tell us what you have at each valve location.
Yes. It is often added as a wireless actuator layer: your central irrigation logic or main controller coordinates schedules; the LoRa gateway distributes commands to valve nodes.
Yes—solar-powered LoRa valve controllers are intended for off-grid or unelectrified valve positions. Confirm valve duty and local sun exposure for sizing.
No. It is aimed at farm-scale irrigation, contractors, and integrators deploying multiple zones in the field.
Send your project details on WhatsApp—we recommend a suitable LoRa valve and gateway layout.
Chat on WhatsApp