Model 2700 Multimeter/Switch System User’s Manual Basic DMM Operation 3-35
External reference junction
For switching modules that do not have built-in sensors to measure temperature, each
module can use a thermistor or 4-wire RTD to acquire the reference temperature. Connect
a thermistor to channel 1 or connect a 4-wire RTD to channel 1 and its paired channel.
Position the temperature transducer near the terminals for the channel(s) being used to
measure temperature. Be sure to electrically insulate the transducer leads to keep them
from making contact with other conductors.
When you close channel 1 to measure the cold junction temperature, that temperature
reading will be used to calculate the temperature when you close a thermocouple channel.
Open thermocouple detection
Long lengths of thermocouple wire can have a large amount of capacitance that is seen at
the input of the DMM. If an intermittent open occurs in the thermocouple circuit, the
capacitance could cause an erroneous on-scale reading.
The Model 2700 has an open thermocouple detection circuit. When enabled, a 10µA pulse
of current is applied to the thermocouple before the start of each temperature
measurement. If >12kΩ is detected (open thermocouple), the OVRFLW message will be
displayed. If <12kΩ is detected, the current is turned off and a normal thermocouple
temperature measurement is performed.
NOTE Channel average cannot be used with thermocouple temperature measurements
if open thermocouple detection is enabled.
Thermistors
For thermistors, the temperature measurement range is -80°C to 150°C (0.01°C
resolution). Thermistor types that are supported include the 2.2kΩ, 5kΩ
, and 10kΩ types.
The thermistor is a temperature sensitive resistor. Its resistance changes non-linearly with
changes in temperature. Most thermistors have a negative temperature coefficient. As
temperature increases, the resistance decreases. The Model 2700 measures the resistance
of the thermistor and calculates the temperature reading.
Of all the temperature transducers, the thermistor is the most sensitive. It can quickly
detect minute changes in temperature. It is a good choice when measuring very small
changes in temperature. The downside for this increased sensitivity is the loss of linearity.
Since they are especially non-linear at high temperatures, it is best to use them for
measurements below 100°C.
NOTE Curve fitting constants are used in the equation to calculate thermistor
temperature. The thermistor manufacturer’s specified curve fitting constants
may not be exactly the same as the ones used by the Model 2700.
“Thermistor
equation,” page F-6, provides the equation and the constants used by the
Model 2700. It also explains how to select a thermistor when the manufacturer’s
constants and the ones used by the Model 2700 do not match.
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