SCHNEIDER SENSORS IN INDIA
We distribute Schneider Sensors in Chennai, Bangalore, Pune, Mumbai, Ahmedabad, Hyderabad and Delhi.
Schneider Electric is a global leader in energy management and automation, offering a wide range of advanced sensors designed to optimize industrial operations and improve system efficiency. With a focus on delivering reliable, accurate, and durable sensor solutions, Schneider Electric provides sensors that support the smooth operation of manufacturing processes, building management, and energy control systems.
Schneider Electric’s sensors play a critical role in collecting data, monitoring key variables, and ensuring seamless automation across industries. From temperature and humidity sensors to pressure and proximity sensors, these devices help in real-time monitoring, predictive maintenance, and overall optimization of complex systems.
Applications of Schneider Sensors
Schneider Sensors are used in a variety of applications across multiple industries:
Healthcare
Schneider sensors ensure optimal conditions by monitoring temperature, humidity, and air quality, ensuring the comfort and safety of patients and staff.
Energy Management
Schneider sensors are crucial in monitoring energy consumption, detecting leaks, and optimizing processes in power generation, renewable energy, and energy storage systems.
Smart Cities
With sensors for air quality, noise, temperature, and humidity, Schneider Electric contributes to the development of smart cities by enabling better monitoring and management of urban infrastructure.
Industrial Automation
Schneider sensors are used to monitor and control production processes, detect faults, and improve system reliability in manufacturing, automotive, and other industrial sectors.
Key Features of Schneider Sensors
Comprehensive Range
Schneider Electric offers a broad portfolio of sensors, including temperature sensors, humidity sensors, pressure sensors, proximity sensors, motion sensors, flow sensors, level sensors, and air quality sensors.
Flexible Integration
These sensors are compatible with a wide range of systems and can be easily integrated into existing automation frameworks, thanks to their support for standard communication protocols such as Modbus, BACnet, and others.
Energy Efficient
Schneider Electric’s sensors are designed to optimize energy use by providing real-time insights that improve system performance and reduce energy waste.
Durable and Robust
Built to withstand harsh environments, Schneider sensors are designed with durability in mind, ensuring reliable performance even under extreme conditions like temperature fluctuations, humidity, and vibrations.
High Precision
Schneider sensors are engineered to provide accurate measurements across a wide range of applications, helping businesses monitor and control critical processes effectively.
SCHNEIDER SENSOR – Temperature Sensors
Schneider Electric temperature sensors incorporate state-of-the-art technology to ensure reliability and accuracy. Each temperature sensor is designed with the ability to work as part of a total control system, complimenting our building management systems and other HVAC controls. Like our other HVAC control products, Schneider Electric’s temperature sensors are engineered for fast and easy installation and operation.
Temperature Sensors solutions for all types of building management needs. Schneider Electric’s wide range of temperature sensors incorporate state-of-the-art technology ensuring quality, performance, compatibility and value. Many of our temperature sensors products are designed with the ability to work as part of a total control system, complementing our building management systems and other HVAC controls.
Application of SCHNEIDER SENSOR – Temperature Sensors
Museums, schools, printing shops, hospitals, data centers, & other locations that require temperature control
Temperature control in office buildings and schools with systems utilizing BACnet or Modbus protocol
Pipe immersion
Industrial process
Duct systems
Features
Different mounting options for different applications
Accurately Monitor Temperature in all settings & maintain a comfortable environment
Strap-On Temperature Sensors
Pipe Temperature Sensors
Immersion Temperature Sensors
Room Temperature Sensors
Outdoor Temperature Sensors
SCHNEIDER SENSOR – Humidity Sensors
Schneider Electric’s Humidity Sensors are precision instruments designed to monitor and control humidity levels across various industrial, commercial, and residential environments. These sensors are essential for applications where maintaining the right moisture levels is crucial for system performance, product quality, and occupant comfort. Schneider Electric’s humidity sensors offer reliable, real-time data that helps in optimizing energy use, improving air quality, and ensuring the safe and efficient operation of HVAC systems.
Applications of SCHNEIDER SENSOR – Humidity Sensors
Meteorology stations
Greenhouses and industrial spaces
Integrated in humidors, cars, offices, muse
Heating, Ventilating, and air conditioning systems (HVAC systems)
Outdoor air reference
Printing shops, museums, schools, and other locations requiring humidity control
Features
Humidity sensors are cost-effective and easy to maintain
Humidity sensors have a simple installation process
±2% Accuracy
Integrated temperature sensor options available
Duct and outdoor models
Field-selectable 4-20mA or 0-10VDC outputs for operation flexibility
Thin film capacitive humidity sensorl
SCHNEIDER SENSOR – Air Quality Sensors
Schneider Electric’s air quality sensors are an integral part of building management systems (BMS) and HVAC systems, helping to create healthier, more sustainable environments by providing accurate data and insights into air quality. With growing awareness of the impact of air pollution on health, Schneider’s sensors offer a reliable solution for improving air quality while reducing energy consumption and operational costs.
Application of SCHNEIDER SENSOR – Air Quality Sensors
ASHRAE 62.1 air quality standard compliance
Office buildings, hospitals, industrial facilities, schools, retail stores, etc.
Controlling ventilation in response to occupancy
Features
With modern technology, air quality monitoring is becoming more precise and faster, and the devices are becoming more affordable and smaller. The market is witnessing a surge of budget-friendly air quality sensors.
Humidity and temperature sensor options available
Automatic Baseline Calibration (ABC) maintains sensor accuracy
Non-dispersive infrared technology (NDIR) repeatable to ±20 ppm ±1% of measured value
Integrated transducer and probe – eliminates the need to install a separate pick-up tube
Field-selectable 4-20mA, 0-5VDC and 0-10VDC outputs for operation flexibility
FAQ
What are the main benefits of using Schneider Electric sensors?
Schneider Electric sensors provide several advantages:
- High accuracy and precision for reliable data.
- Energy efficiency by optimizing systems like HVAC, lighting, and production processes.
- Durability in harsh environmental conditions, ensuring long-lasting performance.
- Ease of integration with existing automation and control systems.
- Real-time monitoring, enabling proactive maintenance and operational decisions.
- Compliance with global standards, ensuring reliability and safety.
How do Schneider Electric air quality sensors improve indoor environments?
Schneider Electric’s air quality sensors monitor key indoor pollutants such as CO2, particulate matter (PM), and volatile organic compounds (VOCs). By providing real-time air quality data, these sensors help adjust ventilation systems and ensure healthier, more comfortable environments. They are especially useful in buildings, offices, healthcare facilities, and other spaces where indoor air quality is a concern.
How can Schneider Electric sensors help in energy management?
Schneider Electric sensors contribute to energy efficiency by providing real-time data on parameters like temperature, humidity, pressure, and air quality. With this data, businesses can optimize HVAC systems, lighting, and other energy-consuming equipment to reduce energy waste and lower costs. Sensors also help in automating systems, ensuring they only run when needed, further optimizing energy use.
- Detection Range: Determine how far the sensor needs to detect objects.
- Environment: Consider the conditions the sensor will be exposed to, such as dust, moisture, temperature, and vibration.
- Type of Detection: Choose between photoelectric, laser, proximity, or area sensors based on whether you need contactless detection, high precision, or large-area coverage.
- Output Requirements: Select the appropriate output signal type (analog, digital, or communication-based).