Product Introduction

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

Its realistic leaf-shaped design closely simulates natural foliage, ensuring precise leaf temperature and surface moisture readings for better agricultural decision-making. The sensor supports RS485 Modbus output, allowing seamless integration with smart farm IoT platforms, agricultural monitoring systems, data loggers, and environmental telemetry networks. Designed for long-term outdoor deployment, the KH.YP offers maintenance-free operation, IP67 protection, and high resistance to environmental interference, making it ideal for precision agriculture, greenhouse monitoring, ecological research, and meteorological observation.

Key Features

• High-Precision Leaf Monitoring: Provides accurate measurements of leaf temperature and humidity for crop health analysis and microclimate assessment.

• Leaf-Mimicking Design: Realistic foliage shape ensures data reflects actual plant microclimate conditions.

• Compact and Integrated: Easy installation, minimal field footprint, and stable long-term operation for smart farming and environmental monitoring.

• Maintenance-Free Operation: Reliable sensor performance with low power consumption and long service life.

• Environmental Resistance: IP67-rated, weatherproof, and durable for harsh agricultural environments.

• RS485 Modbus Communication: Enables seamless connection to IoT telemetry, farm monitoring systems, and data platforms.

• Low Interference: Strong anti-noise and anti-interference capabilities for reliable field data collection.

Application Scenarios

• Precision Agriculture and Smart Farming: Real-time crop growth and leaf health monitoring.

• Plant Stress Analysis and Irrigation Optimization: Supports water management and nutrient scheduling.

• Greenhouse and Open-Field Monitoring: Continuous microclimate data for controlled agriculture.

• Agricultural Meteorology: Microclimate observation and environmental assessment.

• Ecological and Environmental Research: Field experiments and environmental monitoring projects.

Humidity Parameters

Temperature Parameters