Triplett 310-TEL User Manual

TRIPLETT

Model
310-TEL

Hand-Sized VOM

Instruction Manual

TRIPLETT

Type 3

TABLE OF CONTENTS

SAFETY RULES ............................................... 3

INTRODUCTION .............................................. 9

SPECIFICATIONS ........................................... 10

GENERAL INSTRUCTIONS ................................ 12

Test Leads ............................................. 12

Range Selection ...................................... 12

Scale Selection ....................................... 13

Polarity Selection .................................... 13

Changing Settings .................................... 13

Zero Adjustment ...................................... 13

Other Considerations ................................ 14

Care .................................................... 14

CONTROL LOCATION DIAGRAM ......................... 15

DC VOLTAGE MEASUREMENTS .......................... 16

AC VOLTAGE MEASUREMENTS .......................... 18

RESISTANCE MEASUREMENTS .......................... 20

DC CURRENT MEASUREMENTS ......................... 22

MEASURING OUTPUT VOLTS (dB) ...................... 24

OPERATION CHART ........................................ 26

ACCESSORIES .............................................. 27

MAINTENANCE ............................................. 28

TRIPLETT LIMITED WARRANTY ....................... 30

84-871 11/06

2

SAFETY RULES • WARNING

This tester has been designed with your safety in mind.
However, no design can completely protect against in­correct use. Electrical circuits can be dangerous and/
or lethal when lack of caution or poor safety practices
are used.

WARNING

This meter is NOT to be used to measure High Energy

circuits (power circuitry fused at greater than 4KW, such

as distribution circuits, power entrance circuits, etc.) or

circuits classified by CE as CATEGORY III (CAT III).

SAFETY RULES AND WARNINGS

• Read all instructions in this manual before using this meter.

• Prior to using this meter in any situation which could result
in injury to the user, in order to verify that the meter is
functional and producing a valid reading, test the meter on
a circuit(s) known to have potentials equivalent to the
potential that is to be measured. For example, before using
the meter to determine if an AC power line is energized with
120VAC, test the meter on a line known to be energized
with 120VAC.

• Do not exceed the maximum voltage limitations of this
meter (see product specifications). Doing so may damage
the meter and/or injure the user.

• When using this meter in schools and workshops,
responsible teachers or skilled personnel must control the
usage of this meter.

• Follow the recommendations of any Trade Organizations or
Regulatory Agencies whose scope encompasses the use
of this meter.

3

• Do not use this meter with its battery cover open, its rear
case open, or with parts removed.

• Do not open this meter for maintenance without first
disconnecting the test leads from all external circuitry.

• Repairs and maintenance must only be carried out by
qualified service personnel or qualified electricians /
technicians who know the dangers of, and the safety rules
applicable to this type of equipment.

• Use caution when measuring circuits containing capacitors.
Capacitors can store dangerous levels of electricity, even
when the circuitry which they are in has been disconnected
from its power source.

• Use caution when working with voltages above 25 volts AC
or 35 volts DC. Such voltages may cause a life threatening

electrical shock.

• This meter is not for use by children.

• Always set the meter to the appropriate range, mode or
polarity before connecting it to the circuitry to be tested.

• Never attempt to make voltage measurements with the
Function switch set to any of the OHMS or MA ranges.
Doing so may damage the meter and/or injure the user.

• Do not rotate the Range switch or move the Polarity switch
with the test leads connected to the circuitry to be tested.
Doing so may damage the meter and/or injure the user.

• Before using the meter, examine both the meter and the
test leads for damage. Do not use the meter if damage
(damaged insulation, exposed metal, cracked case, burnt
smell, etc.) is evident.

• Do not use this meter to make measurements in adverse
environments such as rain, snow, fog, or locations with
steam, explosive gases or dusts. Doing so may damage the
meter and/or injure the user.

4

• Make sure both test leads are fully inserted into their respec­ tive input jacks (Black lead into COM and Red lead into
V•O•M). A loose test lead may cause the user to misinter­ pret the dangers present (the meter may read Zero when
dangerous voltage is present) or the loose lead may
accidentally short to other circuitry or shock the user.

• Do not use the meter if either the meter or the test leads are
wet, either from exposure to the weather, or after cleaning
the case of the meter. Doing so may cause injur y to the user.

• Avoid usage near strong magnetic fields (magnets,
loudspeakers, transformers, motors, coils, relays,
contactors, electromagnets, etc.). The meter may display
readings that are in error, causing the user to misinterpret
the hazards present. For example, the meter may indicate a
low voltage when high voltages are actually present.

• Avoid usage near strong electrostatic fields (high voltage
power lines, televisions, computer monitors, etc.). The
meter may display readings that are in error, causing the
user to misinterpret the hazards present. For example, the
meter may indicate a low voltage when high voltages are
actually present.

• Avoid usage near strong RF fields (radio or television trans­ mitters, etc.). The meter may display readings that are in
error, causing the user to misinterpret the hazards present.
For example, the meter may indicate a low voltage when
high voltages are actually present.

• Do not touch the tips of the test leads when making a meas­ urement. Do not touch live circuitry when making a
measurement.

• Do not apply more than 1200 volts DC/AC rms sine between
the test leads and the earth ground. Doing so may damage
the meter and/or injure the user.

• If there is any doubt about the condition of the meter (i.e.
safe vs unsafe), remove the meter from service and secure
it in a location that will prevent its unintentional use.

5

• Do not use the meter if it does not appear to work correctly
on all ranges and in all modes.

• Do not use the meter if it has undergone long-term storage
under unfavorable conditions.

• Do not use the meter if it may have been damaged in
transport.

• Do not attempt immediate use of the meter when bringing
if from a cold environment to a warm environment.
Condensation of water, inside and outside of the meter, may
produce dangerous measuring conditions. Allow the meter
to warm to room temperature before using.

• Do not use meter in condensing atmospheres. That is, do
not use meter in conditions where ambient temperature and
humidity could cause condensation of water inside of meter.
Doing so may cause injury to the user.

• Use caution when attempting to evaluate if a dangerous
voltage is present. The meter will not read AC voltage if it is
set to DC. For example, if the meter is set to 300VDC, it will
not measure a dangerous AC voltage, even if the probes are
inserted into a household AC wall outlet.

• Do not touch the metallic portion of one test lead if the
other test lead is connected to a live circuit. The current
from the live circuit may pass through the meter and appear
on the unconnected test lead. Failure to observe this
warning may result in user injury.

• Remove the battery when the meter may be left unused for
longer than 1 month. Chemical leakage from the battery
could damage the meter, leading to user injury.

• Do not use the meter if there is evidence of chemical
leakage from the battery. Leakage could damage meter and
lead to injury of user.

• Do not modify the meter. Changing the design may make
the meter unsafe and may result in injury to the user.

6

• Do not mistake a downscale reading as an indication that no
potential is present. Dangerous potentials may be present
that may result in user injury.

• When replacing the battery, dispose of the depleted battery
in accordance with any prevailing safety or environmental
regulations.

• A static charge on the face of the meter may cause the
meter to produce inaccurate readings, which could lead to
user injury. This condition is usually observed in dry
climates, when the face of the meter is rubbed with a cloth.
Apply Antistat solution, or mild detergent, to the face of the

meter to dissipate the static charge.

READ THE MANUAL

Read this Instruction Manual carefully and completely.

Voltages and currents within the capability of this test
equipment can be hazardous. Follow the instructions
in this manual for every measurement. Read and un­derstand the general instructions before attempting to
use this tester. Do not exceed the limits of the tester.

SAFETY CHECK

Double check the switch setting and lead connections
before making measurements. Are you following all of
the instructions?

Disconnect the tester or turn off the power before
changing switch positions. Do not connect to circuits
with voltage present when switch is in any ohms or
current position.

When replacing fuses, use only specified type fuses
and insert in correct fuse holder.

7

DO NOT TOUCH

Do not touch exposed wiring, connections or other
“live” parts of an electrical circuit. If in doubt, check
the circuit first for voltage before touching it.

Turn off the power to a circuit before connecting test
probes to it. Be sure there is no voltage present be­fore you touch the circuit. Do not use cracked or bro­ken test leads.

HIGH VOLTAGE IS DANGEROUS

Always start with the power off. Be sure there is no
voltage present before making connections to the cir­cuit.

Don’t touch the tester, its test leads, or any part of the
circuit while it is on.

Before disconnecting the tester, turn the circuit off and
wait for the meter to return to “zero.”

DISTRIBUTION CIRCUITS PACK A PUNCH

In high energy circuits such as distribution transform­ers and bus bars, dangerous arcs of explosive nature
can occur if the circuit is shorted. If the tester is con­nected across a high energy circuit when set to a low
resistance range, a current range, or any other low
impedance range, the circuit is virtually shorted.

Special equipment designed for use with these circuits
is available. Contact a qualified person for assistance
before attempting to make measurements on any high
energy circuit.

SAFETY IS NO ACCIDENT

8

INTRODUCTION

The Triplett Model 310-TEL is a handy hand-sized VOM
with all the versatility and performance of larger, more
expensive bench-size models. It offers diode over­load protection against damage to the meter move­ment caused by accidental overloads. A fuse is used
to protect the RX1 range. The fuse and batteries can
be easily replaced by removing the back cover.

Small enough to be carried in your tool box, glove com­partment, brief case, or shirt pocket, the Model 310­TEL allows you to have 20,000 ohms per volt DC and
5,000 ohms per volt AC sensitivity wherever you need
it.

A convenient Polarity Reversing Switch electrically
reverses the test lead connections, correcting acciden­tal downscale readings and permitting “capacitive kick”
readings on the Ohmeter ranges.

Versatility and readability have not been sacrificed in
order to provide a portable VOM. The Model 310-TEL
offers 16 different ranges that can be easily read on
only 3 clearly defined scale areas. A single selector
switch allows you to switch easily from range to range
and function to function.

9

SPECIFICATIONS

DC Volts

Ranges: 0-3, 15, 60, 300 (20,000 ohms per volt)
Accuracy:±3% of full scale value

AC Volts

Ranges: 0-3, 15, 60, 300 (5,000 ohms per volt)
Accuracy:±4% of full scale value

Ohms

Ranges: 0-20K, 200K, 2 Meg, 20 Meg

Accuracy:

Ohmmeter Specifications:

Range

Max Voltage

(Volts) 1.6 1.6 1.6 14.0

Max Current

(mA) 8.0 0.8 .08 .07

Max. Power

(mW) 3.2 .32 .032 .245

DC Milliamperes

Ranges: 0-.6, 6, 60, 600
Accuracy:
Burden Voltage (@ full scale):

(on 60Hz sine wave at 77° F)

(200, 2K, 20K, 200K @ center scale)

±

3% of DC scale length

(with fully charged battery)

X1 X10 X100 X1K

±

3% of full scale value

Approx. 330mV on 600mA range
Approx. 250mV on other ranges

10

Meter

µ

A - 250 mV (Pivot and Jewel)

50

Overload Protection

Meter movement protected by diodes.
RX1 range protected by fuse.
Voltage ranges protected by high impedance.

Polarity Reversal

The Polarity Switch reverses the polarity of the jacks
on all ranges.

Test Lead Polarity

DC Voltage: Lead connected to V•O•M jack is positive
with polarity reversal switch in + position.

DC Current: Lead connected to V•O•M jack is positive
with polarity reversal switch in + position.

Ohms: Positive battery of Ohmmeter is connected to
the V•O•M jack with polarity reversal switch in + posi­tion.

Batteries

One 1.5 volt N-cell (NEDA 910) (PN: 37-21)
One 12 volt Eveready A23 (PN: 37-60)

Fuse

1/16A (PN: 3207-112)

Weight

Approximately 14 oz.

Accessories supplied with Model 310-TEL

1. Test leads w/Screw-on Alligator clips (PN: 79-153)

2. Batteries: One 1.5V and One 12V

3. Instruction Manual (PN: 84-871)

11

GENERAL INSTRUCTIONS

Control Locations

For a diagram of the Model 310-TEL, please refer to
page 15.

Test Leads

Check the test leads periodically. Leads that are worn,
have damaged insulation, damaged plugs, damaged
probes or loose parts should be replaced.

The following section should be read carefully. It con­tains instructions and precautions to be observed in
making measurements with the tester.

The alligator clips provided with the tester fit over the
end of the test probes. When measuring high volt­age, these alligator clips allow measurement without
handling the test probes. ALWAYS SHUT OFF THE
POWER source before attempting to connect alligator
clips.

Range Selection

When the approximate value of the quantity being mea­sured is not known, ALWAYS START ON THE HIGH­EST RANGE. For greater accuracy, choose the range
which will allow readings to be taken in the upper (right
hand) portion of the scale. See Operation Chart on
page 26.

12

Scale Selection

Readings are taken on the scale having the appropri­ate significant figures (both 3 and 300 volts are read
on the 0-300 scale) by multiplying or dividing by a
factor of 10 or 100 as indicated by the range/scale
ratio (i.e., on the 3 volt range, divide the scale read­ings by 100). See Operation Chart on page 26.

Polarity Selection

The Polarity Reversing Switch allows the user to elec­trically reverse the test lead connections. That is, when
the user mistakenly connects the test leads to a cir­cuit and obtains a “downscale” reading, the Polarity
Reversing Switch may be operated to obtain an “up­scale” reading.

The Switch may also be operated in the Ohms ranges
to observe “forward” and “reverse” resistance of a cir­cuit, or to observe the “capacitive kick” of a circuit.

Changing Settings

The test probes should be disconnected from the volt­age source (or the source shut off) before the Range
Switch or Polarity Reversing Switch position is
changed. This practice will result in an increased life
and reliability for the tester, as well as establishing a
good safety practice.

Zero Adjustment

The Meter Zero Adjust Screw is located near the cen­ter of the tester. It should be periodically adjusted so
the meter pointer is on zero with no input into the
tester.

13

Other Considerations

Readings on the sensitive voltage, current and resis­tance ranges may sometimes be different than calcu­lated values. Thermo-electric or electro-chemical re­actions can sometimes generate voltage (and current)
in a circuit due to elevated temperatures, contact of
dissimilar metals, chemical fumes or moisture. Also,
the user’s fingers should never touch the metal parts
of the test probes since body resistance can cause
erroneous readings - particularly on the high ohmme­ter ranges.

Care

Although this instrument is portable and rugged, it
should be treated with care. Do not drop it or handle
it roughly.

Avoid placing it on a bench where machine tools are
used or severe vibration is encountered.

When possible, keep it in a place of moderate tem­perature. Avoid subjecting it to extreme temperatures
and severe temperature changes.

If the tester has not been used for a long period of
time, rotate the switch in both directions several times
to clean the switch contacts.

14

CONTROL LOCATION DIAGRAM

DIAL SCALE

POLARITY
REVERSING
SWITCH

BLACK
TEST LEAD
INPUT
JACK

OHMS
ADJUST
CONTROL

∞

COM V-O- M

DCV

300

60

OHMS

15

X

X

1

1

3

K

0

0

0

ACV

A

M

6

0

X

6

1

0

X

0

6

.6

1

VARIOUS RANGE SETTINGS

15

INDICATOR

NEEDLE

O

ZERO
ADJUSTMENT
SCREW

RED

TEST LEAD

INPUT

JACK

RANGE
SELECTOR
SWITCH

300

60

15

3

DC VOLTAGE MEASUREMENTS

0-3 through 0-300 Volts:

1. Insert the test leads into the appropriate jacks.
(Red to V•O•M, Black to COM)

2. Set Range Switch to appropriate DCV range.

3. Set the Polarity Switch to desired polarity.

4. Connect probes across circuit to be measured.

5. Energize circuit.

6. Read voltage on the black AC-DC scale.

DO NOT TOUCH THE VOM while

it is connected to high voltage!

16

DC VOLTAGE MEASUREMENTS

POLARITY
REVERSING
SWITCH

OHMS
ADJUST
CONTROL

∞

COM V-O-M

DCV

300

60

15

3

SAFETY FIRST!

17

O

+

AC VOLTAGE MEASUREMENTS

0-3 through 0-300 Volts:

1. Insert the test leads into the appropriate jacks.
(Red to V•O•M, Black to COM)

2. Set Range Switch to appropriate ACV range.

3. Connect probes across circuit to be measured.

4. Energize circuit.

5. Read voltages above 3 Volts on the Black AC-DC
Scale. Read voltages below 3 Volts on the Red
3AC Scale (with the VOM set to 3ACV).

DO NOT TOUCH THE VOM while

it is connected to high voltage!

18

AC VOLTAGE MEASUREMENTS

POLARITY
REVERSING
SWITCH

OHMS
ADJUST
CONTROL

Set Range

to

300 ACV

∞

COM

SAFETY FIRST!

19

ACV

O

V-O-M

300

60

15

3

RESISTANCE MEASUREMENTS

X1 through X1K Ohms:

1. Insert the test leads into the appropriate jacks.
(Red to V•O•M, Black to COM)

2. Set Range Switch to appropriate OHMS range.

3. Short test probes together.

4. Adjust OHMS ADJUST CONTROL until meter reads
zero ohms.

5. Connect probes to the circuit or component to
be measured.

6. Read ohms on OHMS scale (multiply value read by
multiplier indicated by the switch).

7. Operate Polarity Switch to observe “forward” and
“reverse” resistance of the circuit or component.
If appropriate, observe the “capacitive kick” of the
circuit or component as the Polarity Switch is
operated.

A fuse protects the X1 range against accidental over­loads. If the fuse should blow, all OHMS ranges will
not operate.

DO NOT TOUCH circuitry while

making measurements.

DISCONNECT or ISOLATE the device being tested from
other circuitry.

NOTE: 1K equals 1000.

20

RESISTANCE MEASUREMENTS

POLARITY
REVERSING
SWITCH

OHMS
ADJUST
CONTROL

∞

COM V-O-M

OHMS

X

X

1

1

X

K

0

1

X

0

0

1

SAFETY FIRST!

21

O

DC CURRENT MEASUREMENTS

0-.6 through 0-600 Milliamperes:

1. Insert the test leads into the appropriate jacks.
(Red to V•O•M, Black to COM)

2. Set Range Switch to appropriate mA range.

3. Connect the probes in series with the circuit to
be measured (use alligator clips).

4. Set the Polarity Switch to desired polarity.

5. Turn circuit on.

6. Read current on appropriate black AC-DC scale.

The approximate voltage drop (burden voltage) across
the Model 310-TEL is shown in the specifications.
Generally, this drop will not affect the circuit. But, in
low voltage circuits, it may be necessary to compen­sate for this drop.

DISCONNECT POWER before connecting

the Model 310-TEL into the circuit.

22

DC CURRENT MEASUREMENTS

POLARITY
REVERSING
SWITCH

OHMS
ADJUST
CONTROL

∞

COM V-O-M

MA

.6

LOAD

SAFETY FIRST!

23

O

6

0

6

0

0

6

+

–

MEASURING OUTPUT VOLTS (dB)

POLARITY
REVERSING
SWITCH

OHMS
ADJUST
CONTROL

∞

COM V-O-M

ACV

O

300

60

15

3

AUDIO

AMPLIFIER

600Ω

SAFETY FIRST!

To read Output Voltage use the same procedure as shown on
page 18 for AC Voltage and convert readings to dB using the
chart on page 25.

24

MEASURING OUTPUT VOLTS (dB)

.775

Ω

1MW 600

Ω

Ω

6MW 500

6MW 600

1.89

L

T

V

S

O

80 8 .8

70 7 .7

60 6 .6

50 5 .5

40 4 .4

30 3 .3

90 9 .9

100 10 1

20 2 .2

25

+2

+22

+42

0

+20

+40

–2

+18

+38

–4

+16

+36

–6

+14

+34

–8

+12

+32

–10

+10

+30

+8

–12

+28

DB

+6

–14

+26

+4

–16

+24

+2

–18

1.73

–20

–22

–24

–26

10 1 .1

+22

0

+20

–2

+18

–4

+16

–6

+14

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26

ACCESSORIES

Carrying Cases:

Model 369: Model 369-S:
Cat. No. 10-1258 Cat. No. 10-1791

Model 369-T: Case w/ Belt Loop:
Cat. No. 10-1608 Cat. No. 10-1269

Model 369-V:
Cat. No. 10-2959

27

Test Leads:

79-153: 42” Test leads w/Screw-on Alligator Clips
79-206: 48” Test leads with Alligator Clips (no probes)
79-695: Test leads with Pin Cushion Clips
79-722: Test leads with Spike Clips

MAINTENANCE FOR
MODEL 310-TEL

Battery Replacement

If the pointer cannot be adjusted to full scale on the
X1, X10, or X100 OHMS ranges, replace the 1.5V bat­tery. Replace the 12V battery if the X1K OHMS range
cannot be adjusted for full scale.

1.5V Battery - NEDA 910F or 910M (PN: 37-21)
12V Battery - A23 (PN: 37-60)

Fuse Replacement

If none of the OHMS ranges work, replace the fuse.
Use a 1/16 AMP, 5 mm x 20 mm fuse. (PN: 3207-112)

Cleaning Plastic Window

The plastic window has been treated at the factory to
dissipate static charges. If cleaning is necessary use
cotton dipped in a solution of common household
detergent and water. After cleaning, allow the solu­tion to dry without rubbing; the resultant detergent
film will effectively dissipate static charges.

CAUTION:

Solvents and liquids used in radio and TV shop work
may craze or scar the plastic window if applied to it.

28

Calibration

With normal use, readjustment of this VOM should
not be necessary. An occasional check of the VOM
against a known reference voltage or another VOM is
good practice. If there is a question about the accu­racy of the VOM, it should be returned to the factory
or an authorized service center for a calibration check.

TRIPLETT PRODUCT RETURN INSTRUCTIONS

In the unlikely event that you must return your
Triplett equipment for repair, the following
steps must be taken.

1) Call 1-800-TRIPLETT to obtain a Return Material

Authorization (RMA) number from Customer Service.

2) Enclose a copy of the original sales receipt
showing date of purchase.

3) Clearly print the RMA number on the outside of the
shipping container.

4) Return to: Triplett Corporation

Be sure to include a full description of the problem, and a tele­phone number, street address, or email address, where you
can be contacted, and a return address where the meter can be
shipped to upon repair.

One Triplett Drive
Bluffton, OH 45817
ATTN: Repair Dept.

29

TRIPLETT LIMITED WARRANTY

The Triplett Corporation warrants instruments and test equipment manufactured by it to be
free from defective material or workmanship and agrees to repair or replace such products
which, under normal use and service, disclose the defect to be the fault of our manufactur­ing, with no charge within three years of the date of original purchase for parts and labor. If
we are unable to repair or replace the product, we will make a refund of the purchase price.
Consult the Instruction Manual for instructions regarding the proper use and servicing of
instruments and test equipment. Our obligation under this warranty is limited to repairing,
replacing, or making refund on any instrument or test equipment which proves to be defec­tive within three years (one year on calibration) from the date of original purchase.

This warranty does not apply to any of our products which have been repaired or altered by
unauthorized persons in any way so as, in our sole judgment, to injure their stability or
reliability, or which have been subject to misuse, abuse, misapplication, negligence, acci­dent or which have had the serial numbers altered, defaced, or removed. Accessories,
including batteries and fuses, not of our manufacture used with this product are not covered
by this warranty.

To register a claim under the provisions of this warranty, return the instrument or test equip­ment to Triplett Corporation, Bluffton, Ohio 45817, transportation prepaid. Upon our inspec­tion of the product, we will advise you as to the disposition of your claim.

ALL WARRANTIES IMPLIED BY LAW ARE HEREBY LIMITED TO A PERIOD OF ONE YEAR
AND THE PROVISIONS OF THE WARRANTY ARE EXPRESSLY IN LIEU OF ANY OTHER
WARRANTIES EXPRESSED OR IMPLIED.

The purchaser agrees to assume all liability for any damages and bodily injury which may
result from the use or misuse of the product by the purchaser, his employees, or others, and
the remedies provided for in this warranty are expressly in lieu of any other liability Triplett
Corporation may have, including incidental or consequential damages.

Some states (USA ONLY) do not allow the exclusion or limitation of incidental or conse­quential damages, so the above limitation or exclusion may not apply to you. No represen­tative of Triplett Corporation or any other person is authorized to extend the liability of Trip­lett Corporation in connection with the sale of its products beyond the terms hereof.

Triplett Corporation reserves the right to discontinue models at any time, or change specifi­cations, price or design, without notice and without incurring any obligation.

This warranty gives you specific legal rights, and you may have other rights which vary from
state to state.

TRIPLETT CORPORATION

BLUFFTON, OHIO

1-800-874-7538

www.triplett.com

30

31

Triplett Corporation One Triplett Drive Bluffton, OH 45817
800-TRIPLETT FAX: 419-358-7956 www.triplett.com

© Triplett Corporation All Rights Reserved