Open-Field Irrigation Intelligence

Know when to irrigate. Detect failures before they become losses.

A plug-and-play field system that pairs local soil and pressure sensing with satellite intelligence to automate irrigation, catch leaks and faults early, and cut water use without guesswork.

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Problem

Most irrigation teams still operate with blind spots.

Without reliable field visibility, teams react late, lose efficiency, and struggle to make consistent irrigation decisions.

Irrigation stress and uncertainty in the field: alerts, hotspots, and limited visibility

Irregular irrigation decisions across zones

Water waste from poor timing and over-irrigation

Undetected leaks or pressure failures

Lack of real operational visibility in the field

Delayed response to critical irrigation issues

Why It Matters

The cost is not only water, it is operational reliability.

When irrigation issues are detected too late, the business absorbs the impact through inefficiency, risk, and avoidable manual effort.

Higher water losses and avoidable waste

Lower operational efficiency across teams

Increased production and yield risks

Late decisions with higher field impact

More manual work and less real visibility

Operational impact of irrigation problems: waste, inefficiency, yield risk, and manual overload

Solution

Bloomiot connects hardware and software into one irrigation intelligence layer.

A modern platform for monitoring zones, detecting failures earlier, and giving operations teams the visibility they need to act on time.

Bloomiot solution: edge controller at the valve with live dashboard, pressure, flow, and leak detection in the field

Hardware in the field

IoT sensor nodes and edge control points deployed by zone.

Continuous monitoring

Live visibility of irrigation behavior, pressure, flow, and status.

Early fault detection

Anomaly alerts for leaks, pressure drops, and operational failures.

Operational clarity

One platform to monitor, decide, and respond faster with confidence.

How It Works

Seven clear steps from field sensing to confident decisions.

A complete operational flow from data capture to irrigation control and decision support.

Bloomiot system architecture diagram showing soil sensor node, edge controller, LoRaWAN gateway and cloud platform — System architecture

01
Field sensors measure soil moisture data and transmit it via LoRaWAN in real time.
02
The Edge Controller receives sensor data and analyzes conditions.
03
Irrigation valves are switched on or off based on operational logic.
04
The Edge Controller measures pressure and verifies that no water leaks are present.
05
The Edge Controller exchanges information with a gateway.
06
The gateway sends data to a server where it is processed.
07
Data is displayed in a user interface to support decisions and continuous improvement.

Product Overview

A complete irrigation operations platform.

Bloomiot connects field sensors, irrigation controllers, connectivity, and software into one system to help growers irrigate better and detect failures before they become costly.

IoT sensor nodes

Soil Sensor Node

Remote sensing node for agro-industrial applications.

Field-grade IoT device designed for ultra-low power and remote operation. It integrates Li-SOCl2 cell power with a pulse energy reservoir, LoRaWAN connectivity and full compatibility with industrial signals over RS-485 / Modbus RTU and 4-20 mA, bringing reliable field data to the irrigation platform.

LoRaWANUltra-low powerRS-485 / Modbus RTU4-20 mA inputLi-SOCl2 3.6 VIP field connectors

Usage advantages

Brings measurement close to the plot or hydraulic point without long data wiring.
Eases integration with existing industrial sensors via 4-20 mA and RS-485 / Modbus RTU.
Architecture aligned with low-maintenance, long-life remote nodes.
LoRaWAN connectivity for distributed deployments across open fields.

Technical features

Power

Li-SOCl2 3.6 V non-rechargeable cell with pulse energy reservoir.

Battery life

Long service life thanks to ultra-low power draw — approximately 3 years.

Wireless

Pre-certified LoRaWAN module over SPI with controlled 3V3_LORA rail.

Inputs

1x 4-20 mA, 1x RS-485 / Modbus RTU and battery measurement via ADC.

Outputs

1x RS-485 / Modbus RTU and SPI interface to the LoRa module.

Field

IP waterproof connectors for reliable in-field wiring.

Edge controller

Edge Controller

Local industrial controller for agricultural irrigation.

Local decision and actuation unit for irrigation systems. It receives data from LoRaWAN nodes, reads industrial sensors on-site, executes control logic, detects abnormal hydraulic conditions through pressure sensing, and reports telemetry, alarms and events to the cloud platform.

9-30 VDC inputLocal decisionValve controlTelemetry & alarmsRS-485 / 4-20 mARTC + non-volatile memory

Usage advantages

Runs irrigation decisions locally even when cloud connectivity is lost.
Integrates industrial sensors, digital inputs and actuators in a single unit.
Helps supervise hydraulic behavior through pressure sensing.
Scales to telemetry, alarms and dashboards through a LoRaWAN gateway.

Technical features

Power

Industrial 9-30 VDC input, typical 24 VDC operation.

Protection

Reverse polarity, fuse / PTC and TVS input protection at the front-end.

Control

Main MCU running the local irrigation control logic.

Interfaces

RS-485, 4-20 mA analog inputs and digital inputs.

Wireless

Pre-certified LoRaWAN subsystem for node and gateway communication.

Memory / Time

Non-volatile memory and RTC for persistence, timestamps and scheduling.

Actuation

24 V relay outputs and DC latching valve outputs.

Field connectivity layer

LoRaWAN gateway and link orchestration between remote nodes and the cloud.

Monitoring dashboard

Unified view for telemetry, alarms and operational control across every site.

Hardware Showcase

Industrial-grade hardware built for open-field conditions.

Field-deployed sensor nodes capture soil and line data; the edge controller runs local logic, drives valves, checks pressure for leaks, and keeps the system connected to your operations stack.

Sensor Node

Soil and line metrics capture, zone-level visibility, low-power deployment.

Edge Controller

Local logic, control actions, and connectivity orchestration.

Software Platform

A clear operational dashboard for smart irrigation monitoring.

Monitor soil moisture, total flow, pressure, leak risk, sensor status, and main valve control from one clear irrigation dashboard.

Field overview, zone moisture, flow trends, alerts, and valve status in one screen built for daily irrigation operations.

Soil moisture

Zone-level moisture maps and averages to see dry, optimal, and wet areas at a glance.

Total flow

Track daily water use and live flow trends across the main line in one view.

Pressure

Monitor main-line pressure stability and catch drops before they affect irrigation.

Leak risk

Surface leak-risk status alongside flow and pressure signals for faster triage.

Sensor status

Alerts for dry soil, low battery, and offline nodes so field issues stay visible.

Main valve control

Open/close visibility and valve health from the same operational dashboard.

Pricing

Flexible plans for pilot programs and scaled operations.

Commercial structure adapted to operation size, deployment complexity, and support requirements.

Pilot

Custom pilot scope

For field validation and first deployment cycles.

Scale

Hardware + platform subscription

For multi-zone operations that need ongoing visibility.

Enterprise

Tailored commercial agreement

For large operations, integrations, and strategic rollout.

Waiting List

Join early access and pilot opportunities.

Built for the next era of irrigation

Bloomiot brings clarity, control, and confidence to open-field irrigation operations.

Join the waitlist