Megger MFT1700, MFT1710, MFT1720, MFT1730, MFT1800 User Manual

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M

MFT1700 series

Multifunction testers

User manual

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Contents

SAFETY WARNINGS .................................................................................................................................................................3

1. Introduction .............................................................................................................................................................................4

2. Overview .................................................................................................................................................................................4

2.1 Front panel and controls .................................................................................................................................................6

2.2 Waste electrical and electronic equipment .......................................................................................................................6

2.3 Battery and Fuse Location, fitting and replacement .........................................................................................................6

3. Operation .......................................................................................................................................................................7

3.1 General operation – all models ........................................................................................................................................7

3.2 Mode button functions ...................................................................................................................................................7

3.3 Test inhibit ......................................................................................................................................................................7

4. Voltage, frequency, Current and temperature measurement .........................................................................................................8

4.1 Making a voltage measurement ......................................................................................................................................8

5. Continuity / resistance measurement ............................................................................................................................................10

5.1 Nulling test lead resistance (up to 9.99ohms) ................................................................................................................10

5.2 Making a CONTINUITY measurement ..............................................................................................................................11

5.3 Storing / downloading results (MFT1730 only) .................................................................................................................11

5.4 Continuity Buzzer ON/OFF ...............................................................................................................................................11

5.5 Switch probe (SP5) ..........................................................................................................................................................11

5.6 Buzzer threshold .............................................................................................................................................................12

5.7 Measurement methods and sources of error ...................................................................................................................12

6. Insulation resistance ...............................................................................................................................................................12

6.1 Making an INSULATION measurement.............................................................................................................................12

6.2 Insulation test lock ..........................................................................................................................................................13

6.3 Measurement methods and sources of error ...................................................................................................................13

7. Loop Impedance testing ...........................................................................................................................................................13

7.1 Range selection and test leads ........................................................................................................................................14

7.2 Making a loop impedance measurement .........................................................................................................................15

7.3 Phase to Neutral (or Phase to Phase) testing ....................................................................................................................19

7.4 Prospective Fault Current and Short Circuit calculation (PFC & PSCC) ..............................................................................20

7.5 Zmax test mode (MFT1720 and 1730 only) .....................................................................................................................20

7.6 MAKING A Zmax LOOP IMPEDANCE MEASUREMENT .....................................................................................................20

7.7 MAKING AN R1+R2 LOOP IMPEDANCE MEASUREMENT .................................................................................................21

7.8 Measurement methods and sources of error ...................................................................................................................22

8. Residual Current Device testing ................................................................................................................................................22

8.1 Making an rcd measurement...........................................................................................................................................23

8.2 Selecting RCD type .........................................................................................................................................................23

8.3 ½ x I RCD Current Rating (No-trip test) .........................................................................................................................23

8.4 1 x I RCD Current Rating (Tripping test on 30mA RCD) ..................................................................................................24

8.5 5 x I RCD Current Rating (Tripping test on 30mA RCD) ..................................................................................................25

8.6 RampTest .......................................................................................................................................................................25

8.7 Type A (DC Sensitive) RCD test ......................................................................................................................................26

8.8 Type B (Pure DC) RCD test ...............................................................................................................................................26

8.9 Variable RCDs (not MFT1710) .........................................................................................................................................27

8.10 AUTO RCD testing ..........................................................................................................................................................27

8.11 3 Phase RCD testing ........................................................................................................................................................27

8.12 Touch voltage display ......................................................................................................................................................29

8.13 Measurement methods and sources of error ...................................................................................................................29

8.14 Useful information ..........................................................................................................................................................29

9. Earth resistance measurement..................................................................................................................................................29

9.1 Connection terminals ......................................................................................................................................................29

9.2 Touch voltage limit ..........................................................................................................................................................29

9.4 Making a measurement – Three terminal resistance measurement ..................................................................................30

10. SETUP OPTIONS .......................................................................................................................................................................31

11. Warning messages ...................................................................................................................................................................32

11.1 Startup warnings ............................................................................................................................................................32

11.2 Battery ............................................................................................................................................................................32

11.3 Battery charger ...............................................................................................................................................................32

11.4 Fuse warning ..................................................................................................................................................................32

11.5 Invalid rotary switch setting .............................................................................................................................................32

11.6 Continuity test ................................................................................................................................................................32

11.7 Insulation test .................................................................................................................................................................32

11.8 RCD Test .........................................................................................................................................................................32

11.9 RCD range selection errors ..............................................................................................................................................32

11.10 Loop Test ......................................................................................................................................................................32

11.11Earth test ........................................................................................................................................................................32

11.12 Test will not start ..........................................................................................................................................................32

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Appendix A – Sending, Storing, Deleting and Recalling Test Results .....................................................................................................33

Appendix B – Downloading data using Bluetooth® .............................................................................................................................35

Appendix C – Installation category definitions .....................................................................................................................................36

Appendix D – Safe working practice ....................................................................................................................................................36

Appendix E – Cleaning and maintenance ............................................................................................................................................37

Appendix F – Earth resistance testing – Basic principles .......................................................................................................................37

General Specification ..........................................................................................................................................................................38

Repair and Warranty ...........................................................................................................................................................................41

G SAFETY WARNINGS

Safety warnings and precautions must be read and understood before the instrument is used. They must be observed during use.

n The circuit under test must be switched off, de-energised and isolated before test connections are made when carrying out insulation

and continuity tests.

n Continuity of protective conductors and earthed equipotential bonding of new or modified installations must be verified before

carrying out an earth fault loop impedance test, RCD or earth testing

n Do not touch circuit connections and exposed metalwork of an installation or equipment under test. Under fault conditions the

system earth could become hazardous live.

n Do not touch the earth stakes, test leads and their terminations (including connections to the earthing system under test) if an

installation earth fault can arise unless adequate precautions are taken.

n The ‘live circuit warning’ and ‘automatic discharge’ functions are additional safety features and should not be regarded as a

substitute for normal safe working practices.

n Do not move the rotary switch positions while a test is in progress.
n Do not operate the instrument or connect it to any external system if it shows any visible signs of damage or if it has been stored

for prolonged periods in unfavourable conditions.

n Do not operate the instrument or connect it to any external system if the battery compartment or casing is open or any parts of

the case (including keypad, selector switch, display window, etc.) are missing.

n Always disconnect the instrument from all systems while batteries are being changed or the fuse replaced
n Do notreplace the rechargeable cells in the MFT1730 with non-rechargeable “dry” cells and attempt to charge the cells.

This can cause explosion or fire.

n Do not operate the charging equipment supplied with the MFT1730 in damp or wet environments or outside. All test

leads must be removed from the instrument while charging.

n After insulation tests, capacitive circuits must be allowed to discharge before disconnecting test leads. Locking the insulation test

ON should only be used where there is no risk of a circuit holding a charge.

n The instrument should not be used if any part of it is damaged.
n Test leads, probes and crocodile clips must be in good order, clean and with no broken or cracked insulation.
n All test leads supplied with the instrument form part of the measuring circuit of the instrument. They must not be modified or

changed in any way, or be used with any other electrical instrument or appliance.

n A plug severed from the power cord MUST be destroyed, as a plug with bare conductors is hazardous in a live socket outlet.
n Ensure that hands remain behind guards of probes/clips when testing.
n U.K. Safety Authorities recommend the use of fused test leads when measuring voltage on high energy systems.
n Replacement fuses must be of the correct type and rating.
n Failure to fit the correctly rated fuse will result in damage to the instrument in the event of an overload.
n Special precautions are necessary when operating in situations where “live” earths may be encountered: isolation switches and

fuses (not supplied with this instrument) must be used.

n Special precautions are necessary when working near high tension systems (MV and HV): rubber gloves and shoes (not supplied

with this instrument) should be worn.

n Special precautions are necessary when working in wet conditions or in agricultural areas: observe the local safety standards and

take all necessary special precautions applicable to the particular location and do not touch the test leads with bare hands.

LIVE EARTH SAFETY PRECAUTIONS

A ‘Live’ earth is one that carries current from the mains supply, or could do so under fault conditions. The following warnings apply in
addition to those listed previously.

n All persons involved must be trained and competent in isolation and safety procedures for the system to be worked on. They

must be clearly instructed not to touch the earth electrode, test stakes, test leads, or their terminations if any ‘Live’ earths may be

encountered. It is recommended that they wear appropriate rubber gloves, rubber soled shoes, and stand on a rubber mat.

n The earth electrode under test should be isolated from the circuit it is protecting before testing commences. If this is not possible,

ART (attached Rod Technique) may be used to measure electrode resistance.

n The instrument terminals should be connected to the system under test through isolation switches that are rated to handle the

likely maximum fault voltages and currents that could be encountered at the installation. The isolation switch must be open
whilst any personal contact is made with the remote test stakes, or the connecting leads, e.g. when changing their position.

n The instrument terminals should be connected to the system under test through fuses that are rated to handle the likely maximum

fault voltages and currents that could be encountered at the installation.

NOTE

THE INSTRUMENT MUST ONLY BE USED BY SUITABLY TRAINED AND COMPETENT PERSONS

Users of this equipment and/or their employers are reminded that Health and Safety Legislation requires them to carry out valid risk
assessments of all electrical work so as to identify potential sources of electrical danger and risk of electrical injury such as inadvertent
short circuits. Where the assessments show that the risk is significant then the use of fused test leads constructed in accordance with
the HSE guidance not GS38 ‘Electrical Test Equipment for use by Electricians’ should be used .

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This instrument is internally protected against electrical damage when used for the purposes of testing low voltage electrical installations as
defined herein. If used in a manor other than those defined in this user guide the protection capabilities could be impaired with poten­tial risk to the operator and the instrument.

Symbols used on the instrument are:

G Caution: Refer to accompanying notes

Maximum 300 V a.c. CAT IV to earth

Maximum nominal system voltage of 600 V

Instrument protected by 2 x F2A 600 V 50 kA fuses

c Equipment complies with current EU Directives

This equipment should be recycled as electronic waste

Equipment complies with ‘C tick’ requirements

12 Vdc charger socket

1. Introduction

Congratulations on your purchase of a genuine Megger Multifunction tester. The MFT1700 series Multi-function tester is a compact
instrument designed to perform all of the functions required by the electrical contractor to fully test domestic, commercial and
industrial wiring. Specially designed to comply with U.K., European and other International wiring regulations and standards, the
MFT1700 may be used on all single and three phase systems with rated voltages up to 300 V a.c. rms to earth (ground).

2. Overview

2.1 Front panel and controls









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2.1.1 Display

Display symbols

Symbol Meaning Symbol Meaning

Test function locked on (also
used to indicate a change is
saved in setup)

G

Warning triangle – instruction to
refer to this user guide

Test lead null active



Fuse blown

Battery indicator

Touch voltage limit (and Earth
test voltage) set to 50 V
(change setup)

NiMH

Battery type set to rechargeable
NiMH - Change in setup section
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Buzzer enabled

>100 V

Indicates that the ground noise
voltage exceeds the instrument
measurement capability (test is
inhibited)

RCD test in AUTO mode

Rp (Rs)

Potential stake (P stake)
resistance exceeds range for
accurate measurement

Type AC RCD selected

Rc (RH)

Current stake (C Stake)
resistance exceeds range for
accurate measurement

Type A RCD selected

V



Ground noise voltage exceeds
range for accurate
measurement of resistance



Type S RCD (Type AC)

V

VCLAMP error



Type S RCD (Type A)

I

ICLAMP error

Type B RCD selected

Bluetooth enabled

Fast or Full RAMP test selected

T

Instrument is too hot, allow to
cool



Instrument is running a test

Earth loop noise detected.

N<->L

Live and netural connections
reversed

Reference loop measurement

Loop measurement with Zref
value automatically deducted

ZMAX

Loop maximum measurement

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2.2 Waste electrical and electronic equipment

WEEE

The crossed out wheeled bin placed on Megger products is a reminder not to dispose of the product at the end of its life with general
waste.

Megger is registered in the UK as a producer of electrical and electronic equipment. The Registration No is WEE/HE0146QT

2.3 Battery and Fuse Location, fitting and replacement

Battery type: 6 x 1.5 V Alkaline LR6 (AA) or NiMH HR6 rechargeable
Fuse type: 2 x 2 A (F) HBC 50 kA 600 V

Battery condition is shown by the following display symbols:

Where NiMH rechargeable batteries are fitted, the battery condition display can be adjusted accordingly. Refer to section 10 SETUP OP­TIONS to change between alkaline and rechargeable batteries.

When set to NiMH batteries, the battery indicator in the display wil show NiMH under the battery status symbol as below: (Feature avail­able on all models).

To replace batteries or fuse:

Switch off the instrument.
Disconnect the instrument from any electrical circuits.
Remove the battery cover from the base.

For battery replacement:

a) Remove old cells and refit new batteries following correct polarity as marked on the battery holder.
c) Replace the battery cover.

Incorrect battery cell polarity can cause electrolyte leakage, resulting in damage to the instrument.

For fuse replacement

a) Withdraw each fuse in turn and check for failure. The blown fuse must be replaced with a 2 A (F) HBC 50 kA 600 V fuse.

Rechargeable batteries and battery charging

The MFT1730 is supplied with rechargeable NiMH cells. These batteries can be charged in the instrument, using the supplied Megger
Charger.

To charge the batteries:

Ensure fitted batteries are of the rechargeable NiMH type.

Connect the 12 V DC plug of the charger to the socket on the front of the MFT marked

Warning: Whenever battery cells are being recharged, there should be no connections to the instrument terminals and the instrument
should be switched off.

Warning: Do not attempt to recharge non-rechargeable (Primary) cells in the MFT1730. Doing so may result in instrument damage and
may cause personal injury.

Ensure ambient temperatures are between 4 ºC and 40 ºC while charging the MFT.

Note: The crossed out wheeled bin placed on the batteries is a reminder not to dispose of them with general waste at the end of their
life.

Spent Alkaline and NiMH batteries are classified as portable batteries and should be disposed of in the UK in accordance with Local
Authority requirements. For disposal of batteries in other parts of the EU contact your local distributor.
Megger is registered in the UK as a producer of batteries.

The Registration number is BPRN00142



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3. Operation

3.1 General operation – all models

3.1.1 Switching on

Turn the rotary knob away from the off position.

The instrument will perform internal self tests then display the appropriate test screen, depending on the position of the
function knobs.

3.1.2 Switching off

Turn the primary function knob to the OFF position.

The instrument will automatically turn itself off after 20 minutes* of inactivity. Press any button or turn either of the rotary
knobs to turn back on.
* 2 minute option in SETUP, refer to section 10.

3.1.3 Backlight

Press the backlight button.



The backlight will operate for 20 seconds.

3.1.4 Test buttons

Test buttons are duplicated on the left and right. Both buttons perform the same function except when the



is displayed,
in this case the right hand buttons perform a scrolling function. The left RED button also performs storage and lock functions on the
MFT1730.

3.1.4 Test button lock

To lock the test button hold down either of the RED test lock buttons with the

symbol, whilst holding down the test but-

ton. If

is displayed the right hand buttons perform a scrolling function.

3.2 Mode button functions



The function of the mode button is dependent on the test function selected:

3.3 Test inhibit

Each test mode has conditions under which testing will be inhibited, as below:

3.3.1 Insulation

Detection of a circuit voltage above 50 V (a warning is displayed at 25 V)

3.3.2 Continuity

Detection of a circuit voltage above that used by the instrument will inhibit testing.

Test selected Function Options Comments

V/ºC Volts (mv model specific) Temperature requires suitable transducer

Continuity

RLO

Buzzer
ENABLE/DISABLE

Buzzer ON
Buzzer OFF

Buzzes on <2 Ω
May be changed in SETUP.
Refer to Section 10.

Insulation

RSIO

Buzzer
ENABLE/DISABLE

Buzzer ON
Buzzer OFF

Buzzes on <1 MΩ
May be changed in SETUP.
Refer to Section 10.

Loop impedance (Z)

L-PE

3Lo - 3 wire no trip
2Hi – 2 wire high current
2Lo – 2 wire no trip

3Lo
2Hi
2Lo

3Lo default measurement
2Lo not available if 3 wire connection is
detected

RCD

0º /180º selection

0º
180º

(Press and release)

RCD Type

AC
A
AC(s)
A(s)
B

(Press and HOLD)
Type B available on MFT1730 only

EARTH (RE) Touch voltage limit 50 V/ 25 V

(Press and release)
MFT1730 only

SETUP

Refer to instrument setup
section 10.

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3.3.3 Earth loop impedance

Touch voltage exceeds 50 V (or 25 V depending on instrument configuration)
Supply voltage over range or under range
Supply frequency out of specification

3.3.4 RCD testing

Touch voltage detected or predicted to exceed 50 V (or 25 V depending on instrument configuration)
Supply voltage over range or under range
Supply Frequency out of specification

3.3.5 Earth testing

External voltage greater than 25 V present
Leads not corrected connected as per the test requirements
Potential stake not within range (Rp)
Current stake not within range (Rc)

Other conditions that will inhibit testing include:

3.3.6 Battery exhausted

All testing will be inhibited in the event of a flat battery, refer to section 2.3.

4. Voltage, frequency, current and temperature measurement

4.1 Making a voltage measurement

.1 Set the Main rotary range knob to volts
(The position of the right hand rotary range knob does not matter)

.2 Using two test leads, connect test leads to the L1 (+ve) and L2 (-ve) terminals

OR if Using the Mains plug Lead SAI10:

a. For Live to Neutral measurements, connect the Red connector to the L1 terminal and the Blue connector to the L2

terminal

b. For Live to Earth measurements connect the Red test to the L1 terminal and the Green connector to the L2
terminal

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



Connection (a) Connection (b)

Note: When connecting all three test leads (eg Phase, Neutral and Earth) or the mains plug test lead, the voltage displayed is the high-

est of the three possible voltages.

On models with a dedicated mV range this is selected using the Mode button to select mV mode.

4.2 Frequency measurement

.1 Automatically displayed when connecting to a live circuit as per 4.1 above

4.3 Phase rotation (Not MFT1710)

Display of Phase rotation is Automatic when all three test leads are connected to the 3 phase supply as below:
.1 Set the main rotary range knob to volts 
(The position of the right hand rotary range knob does not matter)

.2 Using three test leads, connect test leads to the L1 to Phase1, L2 to Phase 2 and L3 to Phase 3. The MFT will
display L1 L2 L3 or L1 L3 L2 depending on the direction of phase rotation.





Normal rotation Reverse rotation

4.4 Leakage current measurement

Leakage current measurement uses the optional accessory current clamp (ICLAMP).

.1 On the MFT1720, MFT1730, set the primary range knob to clamp position



.

.2 Connect to ICLAMP (part no. ICLAMP) to the ICLAMP

socket on the MFT.

.3 Connect the clamp to the circuit conductor. The instrument will display the ac current flowing in the conductor.

4.5 Temperature measurement (not on MFT1710)

.1 Connect the thermocouple transducer to the L1 (+ve) and L2 (-ve) terminals

.2 Press the Mode button to select ºC. (Pressing the mode button will cycle round the V, mV and ºC measurement
modes)

The display will show the temperature at the tip of the temperature probe.

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4.6 Switch probe

In the V/mV/ºC mode all measurements except temperature can be made with the remote switch probe. Tests are automatic
and do not require the test button to be pressed.

.1 Connect the switch probe to the switch probe socket. The probe replaces the standard RED test lead and can now
be used as a normal test probe.

5. Continuity / resistance measurement

IMPORTANT

The continuity test will auto-range from 0.01 Ω to 99.9 kΩ. Circuits up to 2 Ω will be tested at >200 mA. To change the test current, go
to seciton 10 - Setup.

The continuity test is automatic. The test starts as soon as the leads are connected to a circuit. The TEST button is ONLY used to null the
lead set.

Warning: Prior to any continuity testing, ensure the circuits under test are isolated and not live.

SETUP allows the follow configuration options:

n Positive test current
n Bi-Directional test current

Bi-directional test current allows the automatic testing of the circuit in both directions and the highest measured value being displayed
See section 10 SETUP OPTIONS.

5.1 Nulling test lead resistance (up to 9.99 ohms)

Before starting a continuity test, the test lead resistance should be nulled such that it does not add extra resistance to the
circuit being measured. Once nulled it does not need repeating for each test. Periodically it should be checked to ensure
nothing has changed.

The “Lead Null” value is retained even when the tester is switched off.

To null test leads:

.1 Short test probes or clips together and press the TEST button. The null symbol

will be displayed to indicate

lead null is active.





Lead null OFF

This null value is stored until the TEST button is pressed again.

.2 To cancel the LEAD NULL, separate the test leads and press the TEST button.

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5.2 Making a CONTINUITY measurement

.1 Set the Primary (Left) range knob to



range. (The position of the right hand rotary range knob must not be in

the

position).

.2 Connect two test leads to the L1 (+ve) and L2 (-ve) terminals on the instrument.
A continuity measurement is made automatically.



NOTES: Measurements are prevented when:
A resistance of > 99,9 kΩ is present
Circuit voltages in excess of 4 V are detected.

5.3 Storing / downloading results (MFT1730 only)

For full details see Appedix A and B.
Once the display shows a value it will automatically be logged into temporary memory. Unless stored, this will be over
written by the next measurement.
To store this result or to send it to a PowerSuite compatible device, refer to Appedix A and B.

5.4 Continuity Buzzer ON/OFF

Whilst in the continuity range, press the MODE button



. This will toggle the buzzer ON and OFF.



Buzzer ON =
Buzzer OFF = No symbol

5.5 Switch probe (SP5)

In the CONTUNUITY/RESISTANCE mode all measurements can be made with the remote switch probe (SP5). Tests are
automatic and do not require the TEST button to be pressed.

.1 Connect the switch probe to the switch probe socket L1 (+ve). The switch probe replaces the standard RED test
lead. Test as in 5.2 above.

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

5.6 Buzzer threshold

If the measured resistance is less than the buzzer threshold, the buzzer will sound. The resistance at which the buzzer stops
sounding can be changed to meet individual test requirements. Refer to the SETUP section 10 of this guide.

Selectable limits of 0.5 Ω, 1 Ω, 2 Ω, 5 Ω, 10 Ω, 20 Ω, 50 Ω, 100 Ω. (depending on model) are available.
This setting is stored even when the instrument is switched off.

5.7 Measurement methods and sources of error

Method of measurement

The 2-wire lead set must be used for this measurement. A d.c voltage of nominally 4,4 V with a current limit of >200 mA is
used to measure resistance less than 2 Ω.

Possible sources of error

Measurement results can be affected by the following:

n The presence of circuits connected in parallel.
n Presence of AC voltages on the circuit being measured
n A poor connection to the circuit under test
n Incorrectly nulled test leads
n Use of fused leads

6. Insulation resistance

IMPORTANT:

The insulation test is protected by a live circuit warning. Detection of a voltage over 50 V will inhibit testing. This applies
whether or not the insulation test is locked on.

6.1 Making an INSULATION measurement

.1 Set the left hand rotary range knob to the

insulation test voltage required:

.2 Connect two test leads to the L1 (+ve ) and L2 (-ve) terminals on the instrument.

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.3 To start test, press and hold either of the TEST buttons,



or  , on the instrument.

Release the test button after the displayed reading has settled. Circuit will now discharge safely.

Note: A 1000 V warning is displayed whenever the 1000 V range is selected for the first time and the TEST button is pressed.

6.2 Insulation test lock

To lock an insulation test ON, hold down either of the TEST buttons followed by either of the RED LOCK buttons.

To release the “Locked on” insulation test, press the TEST button.

Warning: The test voltage will be permanently present on the test probes or crocodile clips when in the locked position.

Warning: Auto discharge - Auto discharge facility automatically and safely discharges the circuit at the completion of an

insulation test.

Live circuit warning - operates when connected to Live circuits > 25 V. Testing is still permitted.

Test inhibited - Live circuits greater than 50 V will inhibit testing.

6.3 Measurement methods and sources of error

Method of measurement

The selected dc test voltage (current limited to less than 2 mA d.c).is applied to the circuit under test and the resistance is
calculated from measurements of the resulting voltage and current.

Capacitive circuits can take some time to charge. This is displayed as an increasing voltage that takes longer to reach its
maximum than normal.

The reading is stable with a circuit capacitance less than 5 µF.

7. Loop impedance testing

IMPORTANT

This measurement requires both selector knobs to be set to the Loop testing mode (GREEN RANGES) on the MFT1720 and 1730 or just
the left knob on the 1710.

This is a live circuit test. All precautions relevant to working on live circuits, to ensure the safety of the operator and any
other personnel should be in place.

Overview of the LOOP IMPEDANCE test

A Loop impedance test is the measurement of the impedance of a circuit whilst the circuit is electrically live.
Unlike a continuity test, a loop impedance test applies a load to the circuit and measures the change in the circuit voltage, from which
the loop “resistance” is calculated.

For those circuits protected by an RCD the load that is connected Phase to Earth must be small enough not to trip the RCD.
Consequently there must be many tests performed to establish the loop impedance of the circuit. These are automatically performed
and the end result is displayed.

Test Lead Null:

The MFT does not need the resistance of the test leads to be nulled for this test. They are already calibrated into the measurement
circuit at 0.07 Ω.
However if using fused leads or 3rd party test leads, the resistance of these leads may be different. In this case they can be measured
using the continuity test and the resistance can be compensated for in the SETUP options, see section 10.