Product Introduction

The KH.YP Leaf Temperature and Humidity Sensor is a high-precision agricultural sensor designed for real-time leaf surface temperature and leaf humidity monitoring. Equipped with a high-sensitivity thermistor and dielectric humidity sensor, it provides accurate and stable data for crop growth analysis, microclimate monitoring, precision irrigation management, and plant stress assessment.

Its leaf-mimicking design closely simulates natural foliage, ensuring measurements reflect actual plant microclimate conditions. The sensor supports RS485 Modbus output, enabling integration with smart farm IoT platforms, agricultural monitoring systems, data loggers, and environmental telemetry networks.

Designed for long-term outdoor deployment, the KH.YP features maintenance-free operation, IP67 protection, and high environmental interference resistance, making it ideal for precision agriculture, greenhouse monitoring, ecological research, and meteorological observation.

Key Features

• High-Precision Leaf Monitoring

Accurate measurements of leaf temperature and leaf humidity for crop health analysis and microclimate assessment.

• Leaf-Mimicking Design

Realistic foliage shape ensures data reflects true plant surface conditions for precise agricultural decisions.

• Compact and Integrated

Minimal field footprint, easy installation, and stable long-term operation for smart farming and environmental monitoring.

• Maintenance-Free Operation

Reliable sensor performance with low power consumption and extended service life.

• Environmental Resistance

IP67-rated, weatherproof, and durable for harsh outdoor agricultural environments.

RS485 Modbus Communication

Seamless integration with IoT telemetry platforms, farm monitoring systems, and data collection networks.

• Low Interference

Strong anti-noise and anti-interference capabilities for reliable field data acquisition.

Application Scenarios

• Precision Agriculture and Smart Farming

Real-time monitoring of crop growth and leaf health for optimized production.

• Plant Stress Analysis and Irrigation Optimization

Supports water management, nutrient scheduling, and microclimate-based decisions.

• Greenhouse and Open-Field Monitoring

Continuous microclimate data collection for controlled and open-field agriculture.

• Agricultural Meteorology

Provides leaf-level environmental observation for improved weather and climate assessment.

• Ecological and Environmental Research

Suitable for field experiments, environmental monitoring, and agricultural research studies.

Humidity Parameters

Temperature Parameters