Temperature Probes

Amphenol Advanced Sensors

One of the most comprehensive ranges of temperature sensor and probe products in the world today are offered in the category of measurement and sensing products driven by temperature technologies. These include high temperature thermistors, gauge drivers, sensors, and elements. Amphenol Advanced Sensors provides solutions to temperature sensing challenges faced by the various industry segments - such as medical, automotive, and telecommunications - across the globe.

Industrial Assemblies | Temperature Sensors & Probes

Inline Flow-Through Coolant Temperature Sensor (CTS)
The water temperature sensor monitors the temperature of the coolant that is being pumped around the engine block to cool the engine. This sensors purpose is to notify the driver of the vehicle if the engine starts to overheat. The goal is to relay an over temperature engine temperature to the driver so that the vehicle can be stopped and the engine switched off before any permanent damage to the engine is done. (Datasheets)

NTC Type CR-1 Harsh Environment Chip Thermistor
NTC Type CR-1 harsh environment chip thermistors from Thermometrics® are Sn-coated Alloy 52 leads with high performance acid and moisture resistant coating. (Datasheet)

Pipe Clip Temperature Sensors
Amphenol Advanced Sensors has a breadth of high volume core temperature sensing products for Industrial HVACR applications. Thermometrics Pipe Clip Temperature Sensors consist of a NTC thermistor on a ceramic/metal shoe assembly seated in a polymer housing with flexible twin cable connections. The housing is fitted with a spring metal clip for pipe attachment. These sensors have been used in industrial applications for decades with a proven robust quality record in the field. (Datasheet)

Self-Adhering Surface Temperature Sensors
Amphenol Advanced Sensors has a breadth of high volume core temperature sensing products for Industrial HVACR applications. Thermometrics Self-Adhering Surface Temperature Sensors are typically designed for placement on the external wall of a water tank or boiler reservoirs. They are also suitable for reservoir tanks working in conjunction with solar panel water heating systems. This range of adhesive pad sensors detect over-temperature resulting from a malfunction or a dry-fire and have been used in industrial applications for decades with a proven robust quality record in the field. (Catalog)

Cable Probe Temperature Sensors
Amphenol Advanced Sensors has a breadth of high volume core temperature sensing products for Industrial HVACR applications. Thermometrics Cable Probe Temperature Sensors consist of resin potted NTC thermistors encapsulated within metal housings, extension cables and connector systems. These sensors have been used in industrial applications for decades with a proven robust quality record in the field. (Catalog)

Type CSP NTC Temperature Standards
The Type CSP Temperature Standards are ultrastable probe thermistors which have been calibrated to an accuracy of 0.01°C. The standard unit has a thin, conformal coating of silicone rubber over the entire unit; this makes it suitable for immersion in a water bath. They are also available with stainless steel sensor housings, or they can be encapsulated into various sheaths. (Catalog)

Type S/AS/ES Precision Ultrastable NTC Temperature Standards
Thermometrics temperature standards consist of ultra-stable thermistor probes assembled into thin wall stainless steel housings with shielded extension leads. (Catalog)

NTC Type Fastip Probe
The NTC Type FP Series Fastip Thermoprobes are ideally suited for high speed measurement and control of fluid temperatures, fluid level or flow. (Datasheet)

NTC Type JM Resin-Coated Thermistor
Glass-encapsulated thermistor housed in a resin tip which is bonded to zip PVC leadout wires. (Catalog)

Meat Probe Sensor
The meat probe sensor is used to measure the temperature of cooking foods. Suitable for home appliances and microwave ovens. (Datasheet)

TYPE M6000
Rugged sensor consisting of a machine screw that can be fastened into drilled and tapped holes. (Catalog)

NTC Type JR
NTC chip thermistor with insulated flexible wires and housed in an eyelet tag. (Brochure)

NTC Type JW, JC Waterproof Clip-On Pipe Sensor
NTC or PTC chip thermistor on a ceramic/metal shoe assembly sealed in a polymer housing and provided with flexible twin cable connections. The housing is fitted with a spring metal clip for pipe attachment. (Catalog)

NTC Type JI Double Insulated Chip Thermistor
Chip thermistor housed in a tip, which is molded onto flexible circular cable. Tip and outer cable insulation material is thermoplastic elastomer. Tinned copper conductors have individual polyolefin insulation. (Catalog)

NTC Type JB Thermometrics Oven Sensor
Glass-encapsulated thermistor housed in a stainless steel probe body with PTFE leadout wires, terminated with a connector assembly. (Catalog)

Appliance Temperature Probe (Mid-Temp Range)
This probe works in a variety of temperature applications in the appliance and industrial segment. (Datasheet)

NTC Interchangeable Type 95 Series
Epoxy-coated, NTC interchangeable thermistor chips with bare tinned-copper lead wires. (Datasheet)

NTC Type JD Fast Response Sensor
NTC thermistor assembly in a metal housing with flying wires. (Catalog)

Medical Temperature Sensors | Medical Temperature Probes

Type CSP NTC Temperature Standards
The Type CSP Temperature Standards are ultrastable probe thermistors which have been calibrated to an accuracy of 0.01°C. The standard unit has a thin, conformal coating of silicone rubber over the entire unit; this makes it suitable for immersion in a water bath. They are also available with stainless steel sensor housings, or they can be encapsulated into various sheaths. (Brochure)

NTC Type MA - Biomedical Chip Thermistors
Biomedical Chip Thermistor. Designed for use in catheter assemblies these sensors are available with nominal resistance values of 2252, 3000, 5000, and 10,000 ohms at 25. (Brochure)

MA400X Series Thermometrics Fully Autoclavable Temperature Probes
The MA400X Series has been designed for Steam Autoclave Sterilization temperatures up to 273. (Brochure)

NTC Type AB6 Series Thermometrics Thermistor Assemblies
NTC Type AB6 thermistor assemblies consist of small GC (chip-in-glass) or Thermobeads that are welded to insulated extension leads. The Thermobeads or GC (chip-in-glass) are hermetically sealed in glass and have fine diameter 0.0007 in to 0.004 in (0.01778 mm to 0.1016 mm) platinum alloy leads. The platinum leads are cut short and welded to insulated extension leads and the joints are covered in one of several insulation types, depending upon the application or environment. The assembly is then ready for insertion into hypodermic needles, catheters or other small housings that require extended leads. (Brochure)

Type S/AS/ES Precision Ultrastable NTC Temperature Standards
Thermometrics temperature standards consist of ultra-stable thermistor probes assembled into thin wall stainless steel housings with shielded extension leads. (Brochure)

Adhesive Mounted Surface Sensors M1000/1100/1200/1300/1400
Integral support barrel and epoxy encapsulation provide better bend and strain relief for extension cable. Adhesive mounted surface sensors with extension leads. Type M1000, 1100, 1300, 1400. (Brochure)

MA700 Series Thermometrics Temperature Probes
The MA700 Series of reusable temperature probes is ideally suited for the critical sensing parameters in continuous monitoring of patient’s body temperature. Interchangeable to ±0.27°F (±0.15°C) when used with an external resistor network. (Brochure)

NTC Type A990 Series Thermometrics Thermistors
The NTC Type A990 Interchangeable sub-assemblies consist of matched pairs of small, glass encapsulated thermistor beads which are connected in either series or parallel circuit configurations. These sub-assemblies are available in a variety of styles which enable them to be used in measuring the temperature of liquids or solids or to be encapsulated into larger housings such as hypodermic needles or closed end sheaths. (Brochure)

Vehicle Sensors, Automotive Sensor, Vehicle Probe, Automotive Probes

Automotive Temperature Sensors
Amphenol Advanced Sensors has high volume core products for both engine management (including battery temperature) and HVAC temperature applications for automotive and heavy duty truck applications. These sensors are also used in marine and bike applications. These sensors have been used in automotive applications for decades with a proven robust quality record in the field. (Automotive Temperature Sensors Info)

Duct Temperature Sensor
The Duct Temperature Sensor indicates the ambient temperature of the automatic air conditioner system in the passenger car. It provides high sensitivity and delivers a more accurate signal to the automatic air conditioner system, which allows for better temperature control of the HVAC system. (Datasheet)

E-stat Controller
The E-stat controller is used to prevent the evaporator core from freezing. The NTC probe senses the temperature of the air as it passes through the evaporator core. An electronic control circuit interprets the change in resistance of the thermistor to indicate when the evaporator core is near freezing. The control circuit then provides an output to disengage the compressor clutch, allowing the evaporator core to warm. When the air temperature of the evaporator core warms up, the circuit reactivates the clutch allowing the evaporator to cool. (Brochure)

Ambient Sensor
This sensor measures the temperature outside the passenger compartment and is usually mounted inside or near the front bumper. The sensor provides input to automatic HVAC systems to help control the interior temperature of the automobile. The sensor also provides the vehicle occupants with temperature readings from outside the car. This information is particularly useful when driving under near freezing or freezing conditions. (Datasheet)

Thermometrics Duct Sensor
This sensor measures the temperature inside the air duct of air conditioner systems. (Datasheet)

Oil Pressure Switch Thermometrics Switch
The Oil pressure switch monitors the engine oil flow when the engine starts. It can detect oil pressure and enables the EMS ECU to check for the lack of oil. It can also send an alarm signal to the driver, helping to avoid engine damage due to overheating. (Datasheet)

Dual Solar Sensor
The dual solar sensor uses two photo diode cells inside of it to measure the intensity of the light that enters into the cabin of the vehicle. It then takes this information and feeds it back to the automatic temperature control (ATC) unit of the vehicle's air conditioning system. The air temperatures of the driver's side and passenger side are then automatically adjusted up or down depending upon the amount of light entering both sides of the vehicle. (Datasheet)

Air Quality Sensor
The Air Quality Sensor (AQS) monitors the air coming into the vehicle for exhaust gas and sends a signal to open or close the damper to help maintain good air quality inside the vehicle.

NTC Thermistors: TYPE KU/UD20 Unleaded Disc
A range of unleaded disc thermistors. (Brochure)

Active In Car Sensor
This sensor indicates the cabin temperature of the fully automated temperature control system in a passenger car. It provides steady air flow through the hose, high sensitivity and delivers more accurate signal to the fully automated temperature control system, which can make the driver feel more comfortable. (Catalog)

Active Incar and Humidity Sensor
This sensor from Thermometrics® indicates temperature and humidity in the cabin of passenger cars. It provides input to the HVAC system to control the damper and air recirculation mode. The sensor also incorporates a brushless motor for low noise and long life. Since the fan draws air over the sensors, no venturi tube is needed. (Datasheet)

NTC Thermistors - Type KY2, KY3
Composite thermistor types KY2 and KY3 contain one PTC and two NTC thermistor elements connected inside a plastic sleeve and encapsulated in a brass probe housing. Primarily intended for automotive applications, where a constant sensor resistance is required over a “normal” range of engine temperatures to give a fixed temperature gauge reading. (Brochure)

Single Solar Sensor Thermometrics Sensor
Single solar sensors are mounted on the IP panel near the front window. The single solar sensor has one photo diode cell inside and is used in the independent type ATC, by sensing the amount of light left to right, using angle light activating filters. (Datasheet)

Turbidity

Turbidity and Temperature Sensor for Appliance Applications
The TST-10 module measures the turbidity (amount of suspended particles) of the wash water in washing machines and dishwashers. (Datasheet)

Turbidity Sensor - TSD-10
The TSD-10 module measures the turbidity (amount of suspended particles) of the wash water in washing machines and dishwashers. (Brochure)

TSW-10 Turbidity Sensor
The TSW-10 module measures the turbidity (amount of suspended particles) of the wash water in washing machines and dishwashers. An optical sensor for washing machines is a measuring product for a turbid water density or an extraneous matter concentration using the refraction of wavelength between photo transistor and diode. By using an optical transistor and optical diodes, an optical washing machine sensor measures the amount of light coming from the source of the light to the light receiver, in order to calculate water turbidity. (Brochure)

Turbidity and Temperature Sensor
This module measures the turbidity (amount of suspended particles) and temperature of the wash water in washing machines and dishwashers. An optical sensor for washing machines is a measuring product for a turbid water density or an extraneous matter concentration using the refraction of wavelength between photo transistor and diode. duct for a turbid water density or an extraneous matter concentration using the refraction of wavelength between photo transistor and diode. (Datasheet)

Infrared Temperature Sensors | IR Sensors

ZTP-315 IR Sensor
The ZTP-315 thermopile IR sensor is used for noncontact surface temperature monitoring. The ZTP-315 model consists of thermoelements, a flat IR filter, a thermistor for temperature compensation and a hermetically-sealed small-size package. (Brochure)

ZTP-315MIH
This IR module is used for non-contact surface temperature measuring. The ZTP-315MIH presents the temperature compensated single outputs via voltage output with optics (glass lens for high temperature detection). It can also provide compatibility with the customer’s device without the need for recalibration. The ZTP-315MIH uses 3-wire connections: one for output signal, single power supply and ground. (Brochure)

ZTP-188ML
The ZTP-188ML 1 x 8 IR module is used for noncontact surface temperature monitoring. This thermopile IR module presents the temperature compensated 8 linear array outputs via I2C with optics (Silicon Lens). It can also provide compatibility with the customer’s device without the need for recalibration. The ZTP-188ML uses 4-wire connections: two signals for I2C output, single power supply and ground. The sensor is fully calibrated with a wide object and ambient temperature range. (Brochure)

ZTP-115ML
The ZTP-115ML infrared module is used for noncontact surface temperature monitoring. This thermopile IR module presents the temperature compensated single outputs via I2C with optics (Silicon Lens). It can also provide compatibility with the customer’s device without the need for recalibration. The ZTP-115ML uses 4-wire connections: two signals for I2C output, single power supply and ground. (Brochure)

ZTP-135BS
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP-135BS model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation in a hermetically-sealed TO-46(18) package. (Brochure)

ZTP-188MA
The ZTP-188MA 1 x 8 IR module is used for noncontact surface temperature monitoring. This thermopile IR module presents the temperature compensated 8 linear array outputs via I2C with optics (Silicon Lens). It can also provide compatibility with the customer’s device without the need for recalibration. The ZTP-188MA uses 4-wire connections: two signals for I2C output, single power supply and ground. The sensor is fully calibrated with a wide object and ambient temperature range. (Datasheet)

ZTP-135H
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP-135H model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation and a hermetically-sealed small-size package. (Brochure)

ZTP-135
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP-135 model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation and a hermetically-sealed small-size package. (Brochure)

ZTP-115M
The ZTP-115M is a single IR module used for noncontact surface temperature measuring. It consists of a thermopile, IR sensor, signal conditioning and voltage output. (Brochure)

ZTP-115
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP-115 model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation and a hermetically-sealed small-size package. (Brochure)

ZTP-101T
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP -101T model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation and a hermetically-sealed small-size package. (Brochure)

ZTP-135L
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP-135L model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation and a hermetically-sealed small-size package. (Brochure)

ZTP-015
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP-015 model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation and a hermetically-sealed TO-41 (small-size) package. (Brochure)

ZTP-135SR
This thermopile sensor is used for non-contact surface temperature measuring. The ZTP-135SR model consists of thermo-elements, flat IR filter, a thermistor for temperature compensation in a hermetically-sealed TO-46(18) package. (Brochure)