Monitor Your Critical Assets With Precision Temperature Sensors
Ensure precise temperature monitoring and mapping with our reliable temperature sensors and probes. Compatible with our temperature data loggers and monitoring software, they deliver accurate and reliable measurements to ensure compliance for critical applications in Pharmaceuticals, Hospital and Healthcare facilities, Third-Party Logistics and Supply Chain Management operations, and Manufacturing, Aerospace and Food and Beverage industries.
Temperature, Humidity, and CO2 Smart-Sensor™
Dickson’s triple Smart-Sensor is an innovative and convenient solution for monitoring CO2 incubators with Cobalt X data loggers.
Pt100 Smart-Sensor -100°C to +200°C
Pt100 Smart-Sensor (-100°C to +200°C) for many applications, such as -80°C freezers. The Smart-Sensor technology allows for on-board calibration details and features analog/digital converter to simplify calibration.
Temperature and Relative Humidity Smart-Sensor
Pt100 sensor (-50°C to +200°C) for monitoring high temperatures, such as incubators and ovens, as well as transport scenarios, offering a high-accuracy solution for Emerald data loggers.
Digital Temperature Insertion (DS18B20) probe -40°C to +120°C
DS18B20 digital temperature sensor (-40°C to +120°C) – Insertion probe designed for temperature monitoring directly at the core of food products.
Pt100 Temperature Sensor -200°C to +50°C for Emerald
Pt100 sensor (-200°C to +50°C) for monitoring cryogenic freezers, liquid Nitrogen tanks, and transport scenarios, offering a high-accuracy solution for Emerald data loggers.
Smart DS – Temperature Sensor
Dickson’s temperature Smart-DS Sensor offers an innovative and convenient solution for monitoring temperature in a wide variety of applications where accuracy is critical. This robust metal-tipped sensor
continually measures temperature so you can keep a close eye on the environmental conditions affecting your valuable assets.
Digital Temperature Sensor -40°C to +80°C DS18B20
Digital temperature sensor (-40°C to +80°C) for refrigerators, cold rooms, freezers, drying ovens, incubators, Legionella detection
Pt100 Smart-Sensor -200°C to +50°C
Pt100 Smart-Sensor (-200°C to +50°C) for cryogenic freezers, Nitrogen tanks. The Smart-Sensor technology allows for on-board calibration details and features analog/digital converter to simplify calibration.
Digital Temperature Sensor -40°C/+120°C DS18B20
Digital temperature sensor (-40°C to +120°C, standard or submersible), for higher temperatures found in ovens, incubators, water baths
Pt100 sensor -50°C to +200°C for Emerald
Pt100 sensor (-50°C to +200°C) for monitoring high temperatures, such as incubators and ovens, as well as transport scenarios, offering a high-accuracy solution for Emerald data loggers.
Universal Smart-Sensor
The Universal Smart-Sensor measures electrical current from industry standard equipment with 4-20 mA, 0-5 V, or 0-10 V output. Features Smart-Sensor technology, with on-board calibration details and for easy calibration.
Temperature, Humidity, CO2 Smart-Sensor
Temperature, humidity, CO2 Smart-Sensor (0°C to +50°C, 0 to 99.9% RH, 0 to 9.99% CO2), for incubators. Features Smart-Sensor technology, with on-board calibration details and analog/digital converter for easy calibration.
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The Dickson Difference: Why Quality Temperature Sensors Matter
Accurate environmental monitoring is essential for protecting temperature-sensitive items and staying compliant in many regulated industries. Dickson temperature probes and sensors play an important role in ensuring that temperature remains within required parameters so you can prevent product loss, equipment failure, regulatory violations—and damage to your company’s hard-earned reputation.
Pharmaceutical Manufacturing: Temperature sensors monitor and record temperatures throughout production, storage and testing and are crucial for meeting regulatory requirements and ensuring drug quality, safety and efficacy.
Healthcare: Temperature sensors are essential for maintaining temperature-sensitive vaccines and medications, and critical blood and tissue samples.
Research: Temperature sensors are used to ensure accurate data collection and maintain optimal temperatures for cell cultures.
When combined with Dickson data loggers and monitoring software, our smart sensors and probes detect temperature changes and record data that can be retrieved via USB, Wi-Fi, Bluetooth or cloud-based platforms. Should a temperature deviation or excursion occur, our technology alerts users so they can respond quickly and ensure compliance.
Sensor Calibration That Meets the Highest Industry Standards
Dickson’s calibration lab and services give you added peace of mind that your sensors are calibrated with needlepoint precision.
- Decades of experience in temperature mapping, sensor installation and validation across highly regulated industries
- ISO 17025 accredited by the Comité Français d’Accréditation (COFRAC)
- Engineers and metrology professionals with years of calibration expertise
It’s best practice to calibrate your temperature sensors annually, however the frequency varies greatly depending on the application. Our calibration experts can provide you with guidance for your specific needs.
Avoid Downtime with Replaceable Plug-and-Play Sensors
Want to speed up re-calibrating your equipment? Order Dickson Smart Sensors and you can receive a calibrated sensor fast and easy. Simply pop the old sensor out and plug the new one in to complete your recalibration.
4 Keys to Choosing Temperature Sensors for Your Application
1. Sensor Type
The type of temperature sensor or probe you select depends on the precision and range required for your application. Common types include RTDs, thermocouples, thermistors and digital. Thermocouples are ideal for high temperatures, while RTDs offer better accuracy in more stable environments. Thermistors are perfect for precise low-temperature measurements and temperature-sensitive equipment.
2. Temperature Range
Different sensors are designed for different temperature ranges.
Some thermistors can measure a range from -50.0°C to 70.0°C with an accuracy of +/-0.5°C from -50.0°C to 20.0°C. Others can measure from -200°C to 600°C with Class B accuracy.
Thermocouples cover a broader range, extending from -185.0°C to 1,093.0°C, with accuracy varying from +/- 1.0°C in low-range measurements to +/- 2.11°C in high-range measurements.
Digital temperature sensors cover ranges from -55 °C to + 125°C with an accuracy of +/-0.5 °C.
3. Response Time
Response time determines how quickly a temperature sensor reacts to temperature changes. Sensors for dynamic environments, such as refrigeration systems, require faster response times, while slower responses are acceptable for more stable, controlled settings.
4. Environmental Conditions
Consider the environment in which the temperature sensor will operate. Factors like humidity, chemical exposure and extreme temperatures can affect sensor performance. Ensure the sensor is rated for your environment’s conditions to avoid failure.
If you have any questions about finding the right temperature sensor for your application, please contact an expert at Dickson.
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