Temperature sensors provide an input to a system (indicator, controller or other device) that is used to determine the temperature of a
specific process or location. This requires that the sensor is connected to the instrument so that the signal can be received. This
connection can be made via an extended length cable from the sensor that is hard-wired directly to the instrument, an extension cable
connected to the sensor at its point of use, or by transmission via a wireless network.
Sensors with extended length cables work well unless the sensor needs to be replaced or removed for calibration or maintenance.
When this occurs, often times the cable needs to be removed from a cable tray or cable bundle for a considerable distance, resulting
in lost time, cost and aggravation. The use of extension cables connected to the sensor at their point of use eliminates
all of that lost time and aggravation since the sensor can simply be disconnected and removed. Wireless networks can be great, but
they are not always the best selection depending on the application and location.
Extension cable connected to the sensor
For many years sensors used in high reliability applications, such as those used in aerospace and military applications, relied upon connectors
such as the Mil-C-5015 or MIL-C-38999 connectors that provided high reliability and secure connections but at a high price. With the
expanded use of industrial automation systems however, the number of sensors used have increased dramatically, driving the need for a
reliable, cost effective connection system for these sensors.
The development and release of IEC Standard 61076-2-101, “Connectors for Electronic Equipment” opened the door for a connection
system that is reliable, reasonably priced, and readily available. That connector, often referred to as an “M12” connector, is
now a staple in many sensing and control applications.
Omega Engineering is leading the way in adapting this connector system to a variety of temperature sensor products including
Thermocouples, Resistance Temperature Detectors (RTDs) and Thermistor sensors. These sensors are being used in a growing number
of applications including food and dairy processing, biopharmaceuticals and industrial automation.
Standard convention is to place the connector with exposed pins (see Figure 3) on the non-powered (sensor) side of the connection so
that any unintended contact with the operating current will not occur. For this reason, Omega’s temperature sensor products all include
a “plug” style connector on the product as shown in Figure 3.
The extension cable, which connects the sensor to the system, provides the operating current and returns the sensor’s signal, has
a socket style connector (see Figure 4). This connector can be a molded connector or one that is mechanically assembled. Figure 4
shows a typical mechanically mounted socket style connector.
In addition to the ease of installation and maintenance, M12 connections provide the additional benefit of providing sealed connections
that can be used in wet or wash down environments. Processes such as those used in the food, dairy and pharmaceutical industries are
exposed to frequent wash downs where the M12 connection protects the wire connections from attack and corrosion by the chemicals used
in these processes.
M12 connectors are available in a variety of configurations. Omega has adopted the commonly used “A-coded”, 4-pin connector style
(see Figure 5) for all of our sensors. This arrangement provides the greatest flexibility for the customers since all of our M12
enabled RTD sensors are made with 4-wire construction (so they can be used with any 2, 3 or 4-wire system) and thermocouples can be
made with single or dual junctions.
Omega Engineering’s family of M12 enabled sensor products are offered with machined stainless steel or injection molded housings.
Machined stainless steel housings can be supplied with a variety of mounting threads or with non-threaded housings to suit the
application. Omega also supplies a line of 3A approved tri-grip sensors that can be used in Clean-In-Place (CIP) systems typically
used in food, dairy, fermentation and pharmaceutical industries.
Omega’s growing family of M12 enabled sensors includes all of the common styles of temperature sensors including RTDs,
Thermocouples and Thermistor sensors.
Keeping with Omega’s emphasis on providing measurement solutions to meet nearly any customer application, we offer a wide selection
of M12 extension cables and accessories. These include the typical PVC and Polyurethane cables, as well as a new line of fully compensated
thermocouple cables. A typical PVC insulated cable with over molded connectors is shown in Figure 6. In order to provide a completely
customizable line of extension cables, Omega also offers extension cables utilizing mechanically assembled connectors to which we can
attach a wide variety of cable constructions, as well as enhancements such as steel over-braid and square locked hose for improved
mechanical protection or electrical shielding (see Figure 7).
M12 Cables and Accessories for use with the above sensors include the following:
| Sensor Type || Mounting Style || Housing Style || Model Number Series |
| RTD (Pt10or Pt1000) || Non-Threaded || Machined SST || PR-21A, PR-26A |
| 1/2NPT || PR-21B, PR-26B |
| 3/8NPT || PR-21C, PR-26C |
| 1/4NPT || PR-21D, PR-26D |
| M8x1 || PR-21E, PR-26E |
| M10x1 || PR-21F, PR-26F |
| G1/2 BSPP || PR-21G, PR-26G |
| G1/4 BSPP || PR-21H, PR-26H |
| Thermocouple (Types J and K) || Non-Threaded || Machined SST || M12…-A |
| 1/2NPT || M12…-B |
| 3/8NPT || M12…-C |
| 1/4NPT || M12…-D |
| M8x1 || M12…-E |
| M10x1 || M12…-F |
| G1/2 || M12…-G |
| G1/4 || M12…-H |
| RTD (Pt100 or Pt1000) || Non-Threaded || Molded Nylon || PR-22, PR-31 |
| Thermocouple (Type J or K) || Non-Threaded || Molded Nylon || M12M… |
| RTD (Pt100) || Tri-Clamp || Machined SST || PRS-S-M12 |
| Thermocouple (Types J and K) || Tri-Clamp || Machined SST || TCS-S-M12 |
| Thermistor || Tri-Clamp || Machined SST || THS-S-M12 |
| Accessory || Model Number || Description |
| Extension Cable || M12CM-EXTP-… || Fully Compensated M12 Thermocouple cables with PVC insulated cables and TPU over molded connectors (85°C Max) |
| Extension Cable || M12CM-EXTT-… || Fully Compensated M12 Thermocouple cables with Teflon insulated cables and LCP over molded connectors (250°C Max) |
| Extension Cable || M12CM-EXTT-4-… || 4-Wire M12 Teflon extension cable with LCP over molded connectors for RTDs and other process sensors |
| Extension Cable || M12C-PUR || Polyurethane cable with Molded M12 connector one end or both ends |
| Extension Cable || M12C-PVC || PVC cable with molded M12 connector one or both ends |
| Special Extension Cable || M12CFM- || Extension cables with mechanically assembled M12 connector one or both ends, variety of cable materials as well as steel braiding or hose options |
| Field Mountable Connectors || M12- || Field installable connectors, straight or right angled, plug or socket style |
| Spring Loading Kit for Thermowells || ¼-SLK || Allows ¼” probes to be spring loaded into .260 bore, ½” NPT or NPSM threaded thermowells |
| Spring Loaded 1/2x1/2 || SLF-1/2-1/2-1/4 || Allows ¼” probes to be spring loaded into .260 bore, 1/2NPT or NPSM threaded thermowells with 1/2NPT thread for attaching enclosure |
| Stainless Steel Compression Fitting || SSLK || Stainless Steel fixed location compression fitting |
| Brass Compression Fitting || BRLK || Brass fixed location compression fitting |