Choosing the Right Temperature Sensor

Temperature management is critical in many industries, from medical and aerospace to semiconductor and industrial manufacturing. Selecting the right temperature sensor can significantly impact accuracy, efficiency, system performance, and safety while also protecting assets. Birk Manufacturing offers various types of thermal sensors—RTDs, thermocouples, thermistors, and thermostats—each used for different applications and environments.

In this blog, we’ll outline these sensors so you know a bit more about the options available to you. Luckily, you don’t need to be an expert because our engineers are! The information below is a guide to understanding some basics of thermal management.

RTD Sensors: Precision and Stability for High-Accuracy Applications

How They Work:
Resistance Temperature Detectors (RTDs) operate based on the principle that a metal’s electrical resistance changes with temperature. The resistance vs temperature relationship is well known and repeatable over time. RTD’s provide accurate and repeatable measurements across a broad temperature range (-150°C to 300°C)*. Birk RTD sensors are thin-film and made by depositing a thin layer of metal—platinum, nickel or copper— onto a ceramic substrate into a known resistance pattern.

*For temperatures outside of this range, please consult with a Birk Engineer about other options.

Key Benefits: High accuracy & stability: Excellent for applications requiring precise, repeatable temperature readings. Low drift: Precise temperature control and consistent measurement over long periods of time. EMI and vibration resistant: Ideal for environments with electrical noise or movement. Common Applications: Medical devices: In-vitro diagnostics, incubators, dialysis machines. Semiconductor manufacturing: Temperature control in wafer fabrication. Aerospace & Defense: Monitoring aircraft engines and environmental control systems for aircraft and spacecraft. Industrial & Laboratory: Control systems, battery packs and immersion applications.

Learn more about Birk’s RTD sensors here.

Thermocouple Sensors: Durable and Quick-Responding for Extreme Temperatures

How They Work:
A thermocouple consists of two wires made from different metals joined at both ends. When the junction of the two metals is heated or cooled, a voltage is produced that can be correlated back to the temperature.

Key Benefits: Wide temperature range: Type J (-95°C to 400°C) and Type K (-95°C to 400°C). Fast response time: Excellent for processes where temperature changes rapidly. Robust for harsh environments: Resistant to shock, vibration, and extreme conditions. Common Applications: Industrial processes: Monitoring plastic extrusion and molten metal processing. Pharmaceutical packaging: Sterilization and temperature control in manufacturing. Food processing: Precise temperature regulation for ovens and hot plates​. Data Centers: monitoring critical components in high-volume data centers.

Learn more about Birk’s Thermocouple sensors here.

Thermistors: High-Sensitivity Sensors for Narrow Temperature Ranges

How They Work:
Thermistors are highly sensitive temperature sensors made of materials whose resistance changes with temperature. This resistance variation is measured to determine temperature.

Birk offers two types:

• Negative Temperature Coefficient (NTC): Resistance decreases as temperature increases.
• Positive Temperature Coefficient (PTC): Resistance increases as temperature increases.

Key Benefits: Faster response than an RTD: Lower mass allows them to detect small temperature changes quickly. High precision within tight tolerances: Can detect very small temperature changes within a narrow temperature range Customizable resistance curves (beta values): Tailored for specific application needs. Common Applications: Medical devices: Blood analyzers, diagnostic equipment. Avionics: Temperature monitoring in critical aircraft instrumentation. Semiconductor manufacturing: Laser metrology for high-precision temperature control​.

Thermostats: Cost-Effective, On/Off Temperature Control

How They Work:
Thermostats use a bimetallic disc that bends as temperature changes, triggering a switch to turn a heater on or off at a predetermined set point. They are commonly used as fail-safes for temperature-sensitive applications.

Key Benefits: Simple and cost-effective: Ideal for applications that don’t require tight temperature tolerances. Reliable protection: Can prevent overheating or freezing by automatically switching systems on or off. Multiple configurations: Available in snap action (fast switching) and creep action (gradual adjustments). Common Applications: Battery packs: Provides temperature control in cold conditions. Anti-freeze systems: Prevents freezing in sensitive environments. Fail-safe protection: Acts as a backup sensor in critical systems​.

The expertise you need

We hope you learned a little from the information above, but navigating the complexities of thermal management doesn’t have to be overwhelming. That’s what Birk Manufacturing is here for.

Our team of engineers specializes in designing and integrating the right thermal solutions for your specific application, ensuring optimal performance, reliability, and efficiency. Whether you need precision, speed, durability, cost-effective control or a combination of them all, Birk has the expertise to guide you to the best solution for your project.

What truly sets Birk apart from the rest is our ability to offer all these sensor types in a variety of packaging options, such as small polyimide tubes, probes, bolts, ring terminals and more. Birk can also incorporate all sensor types into any heater assembly via surface mount, wiring harness, under the cover, in epoxy, etc.

Contact us today to discuss your needs!