Instruction Sheet
80PK-1
WARNING
TO AVOID ELECTRICAL SHOCK, DO NOT USE THIS PROBE
WHEN VOLTAGES EXCEEDING 24V AC RMS OR 60V DC ARE
PRESENT. THE PROBE TIP IS ELECTRICALLY CONNECTED
TO THE OUTPUT TERMINALS.
INTRODUCTION
The 80PK-1 is a Type K Bead Thermocouple designed for
general purpose temperature measuring applications. It has an
extremely fast response time, due to the low thermal mass of the
exposed tip. The 40-inch (1-meter) Teflon cable is terminated with
a Type K miniature thermocouple connector with 0.312-inch
(0.792-mm) pin spacing. The 80PK-1 can be used with any
temperature measuring instrument that is designed to accept
Type K thermocouples and that has a miniature connector input.
The 80PK-1 must be used in Teflon-compatible environments and
is not suitable for liquid immersion. Above 260°C (500°F), Teflon
will emit toxic fumes.
SPECIFICATIONS
Type: K Special Grade (Chromel vs Alumel)
Measurment Range: -40°C to 260°C (-40°F to 500°F)
continuous
Accuracy (with respect to NBS tables for Special Grade): ±1.1°C
(2.0°F) over the range of 0°C to 260°C (32°F to 500°F) Typically
within 1.1°C (2.0°F) of NBS Tables over the range of -40°C to
0°C (-40°F to 32°F)
March, 1985 Rev.3, 4/02
©1989-2002 Fluke Corporation. All Rights Reserved. Printed in U.S.A.
All product names are trademarks of their respective companies
junction compensation. Accuracy of the temperature measuring
instrument must be considered along with the 80PK-1 accuracy
specification in order to determine the overall accuracy of the
combination.
Temperature Limitations
The 260°C continuos temperature rating of the 80PK-1 is
primarily determined by the Teflon insulation. The bead alone
may be momentarily subjected to higher temperatures without
damage.
Media Limitations
Type K Chromel-Alumel thermocouple wires are compatible with
clean oxidizing atmospheres.
OPERATION
Caution
Repeated sharp bending can break the 80PK-1 lead.
To protect the lead, avoid sharp bends, especially
near the connector.
Use the 80PK-1 as follows:
1. Connect the 80PK-1 to a compatible Type K
temperature measuring instrument using the miniature
(0.312-inch pin spacing) thermocouple connector.
2. Turn on the measuring instrument and select the
appropriate range and scale.
3. Check the readout on the measuring instrument. With
no heat or cold source applied to the bead, it should
display the ambient (room) temperature. If the
instrument does not readout properly, refer to the
TROUBLESHOOTING section below.
MEASURING TECHNIQUE
Here are some suggestions for improving the accuracy of your
temperature measurements:
1. Make sure that there is a good connection between the
probe and the surface you are measuring by doing any
of the following:
a. Increase the mounting pressure.
b. Use an interface agent (such as silicone grease)
between the thermocouple probe and the surface
you are measuring.
c. Use a thermal epoxy to attach the thermocouple.
2. When measuring higher than ambient temperatures,
adjust the connection between the probe and the
surface until you obtain the highest temperature
reading. To ensure a good connection, see the
suggestions above.
3. When measuring lower than ambient temperatures,
adjust the connection between the probe and the
surface until you get the lowest temperature reading.
To ensure a good connection, see the suggestions
above.
4. When measuring near ambient temperatures, make the
reading when the multimeter readout is most stable.
TROUBLESHOOTING
With no heat or cold applied to the bead, the measuring
instrument should display the ambient temperature. If the
measuring instrument does not readout properly, try the following:
1. Verify that the temperature measuring instrument is
designed to be used with Type K thermocouples. It
should have a yellow input connector and / or be
marked with a “K”.
2. Check for an open circuit indicator on the measuring
instrument. Some temperature measuring instruments
have a built-in circuit to indicate if the connected probe
is open. (All Fluke instruments have this feature.) Refer
to the measuring instrument’s owner’s manual to see if
this feature is available.
If you suspect a broken connection, use an ordinary
ohmmeter to check its continuity from pin to pin. The
ohmmeter should read 10 Ω or less if there is
continuity.
3. Short the two input pins of the measuring instrument
with a piece of wire. If the instrument is functioning, it
should indicate the ambient temperature.
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