Wire Wisdom Wire and Cable Cold Weather Temperature Ratings
Introduction

A thermocouple is composed of two wires made from dissimilar metals. These two wires are joined to form a temperature measurement junction. Each wire is made of a specific metal or metal alloy. For example, the positive (+) conductor of a type K thermocouple is made of a chromium/nickel alloy called chromel and the negative (-) conductor is made of an aluminum/nickel alloy called alumel. Wire used to make a thermocouple junction is called thermocouple wire.

Thermoelectricity

As shown, when the measuring (hot) junction is at a different temperature than the reference (cold) junction, a voltage is produced in a thermocouple circuit due to the so-called Seebeck, or thermoelectric effect. This effect can be thought of as a small battery whose output voltage is proportional to the temperature of the measuring junction.

Thermoelectricity image

The voltage produced is in the millivolt (mV) range and is different for each thermocouple type. This voltage is measured by electronic equipment that converts it to a temperature reading.

Measuring Junctions

There are three main types of measuring junctions. An exposed junction has no protective sheath. A grounded junction has a protective metallic sheath such as stainless steel, which encloses the conductors and insulation. This junction type is more physically durable and more resistant to corrosion than an exposed junction. An ungrounded junction is similar to a grounded junction except the thermocouple wires do not connect electrically to the metallic sheath. This junction type is better protected from electromagnetic interference.

Reference Junctions

As noted earlier, a reference (cold) junction is also required in a thermocouple circuit. Because the voltage read by the instrumentation is actually proportional to the difference in temperature between the measuring junction and the reference junction, it is necessary to know the temperature of the reference junction to determine the temperature at the measuring junction. In practice, the reference junction is frequently built into the temperature recording or process control instrumentation.

Reference Junctions image

As a result, the reference junction is often “invisible” to the user. The thermocouple is connected to the extension wire and the extension wire is connected to the process control instrumentation.

Thermocouple Types

Industry specifications recognize different types of thermocouples and thermocouple wires with a letter designating each type. Some common types are K, J, T and E. Different thermocouple types have different temperature ranges over which they can be used successfully. The chemical make-up of each thermocouple alloy, the temperature error limits allowed, and the color codes for each thermocouple type are specified in ISA/ANSI standard MC96.1. The important thing to remember from an application standpoint is that the thermocouple wire type must match the thermocouple type.

Extension Wire

Thermocouple extension wire types such as KX, JX, TX and EX are used to connect the measuring junction to the temperature recording or process control instrumentation. This can be hundreds or even thousands of feet away. Extension wire is normally exposed to temperatures and other environmental conditions that are less extreme than those encountered by the measuring junction. As a result, “extension” grade wire is not calibrated above 400° F (204° C) and is typically insulated and jacketed with materials with lower temperature ratings. Since low voltage instrumentation signals are being carried thermocouple extension wire is often shielded.

Resistance Temperature Detectors (RTDs)

There are other temperature measurement technologies than the thermocouple such as RTDs (resistance temperature detector). In applications with temperatures above 1,200° F (650° C) thermocouple is used. At lower temperatures RTDs are used for their simpler operation and greater sensitivity and stability. Thermocouples have a better response time. RTDs are special resistors whose resistance value changes with temperature in a known way. RTDs are connected to the temperature recording or process control instrumentation using ordinary copper instrumentation cable. Thermocouple wire is not required to connect an RTD.

 

Typical RTD cable is standard instrumentation cable in two, three, or four conductors or possibly groups of pairs/triads/quads depending on the type of RTD being used and number of devices being monitored. Individual or overall shielding is often used for noise immunity.

Thermocouple    Grade Extension   Grade Conductor
Colors
Alloys
ANSI Code
Jacket
Color
Jacket Color Positive Negative Positive Negative Temperature Range
J
Brown Black White Red Iron Constantan Copper-Nickel -210° to 1,200° C
-346° to 2,193° F
K Brown Yellow Yellow Red Nickel- Chromium Nickel-Aluminum –270° to 1,372°C
–454° to 2,501°F
T Brown Blue Blue Red Copper Constantan Copper-Nickel –270° to 400° C
–454° to 752° F
E Brown Purple Purple Red Nickel-Chromium Constantan Copper-Nickel –270° to 1,000° C
–454° to 1,832° F

Table 1: Thermocouple Wire and Thermocouple Extension Wire Types




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