Megger-DLRO-600-High-Current-Low-Resistance-Ohmmeter-LOGO

Megger DLRO 600 High Current Low Resistance Ohmmeter

Megger-DLRO-600-High-Current-Low-Resistance-Ohmmeter-PRODUCT

Amụma Nchekwa

THESE SAFETY WARNINGS MUST BE READ AND UNDERSTOOD BEFORE THE INSTRUMENT IS USED. 

DLRO200 is supplied without a plug terminating the supply lead.
An appropriate plug must be fitted prior to use.
The DLRO200 must be grounded (earthed) when in use.
The instruments need a ground connection for two reasons. As a safety ground. To provide the internal voltmeter with a ground reference, so that it can alert the user if a dangerous voltage is connected to the terminals. At switch on, an interanl test circuit checks that the ground wire is connected. A single-phase supply normally has one live wire one neutral wire and a ground. The neutral
is connected to ground at some point, so that neutral and ground are both at approximately the same voltage. At switch-on there is a continuity check from ground to
neutral. (There is also a check from ground to live in case the power leads are reversed). If there is no continuity the instrument will refuse to start and the screen will remain blank. This system works well when power is taken from a supply where there is one live phase wire and a neutral which is at ground potential. A problem arises when power is
obtained from a portable generator where the two supply wires are floating. Connecting the DLRO ground to real ground makes it safe but the internal test circuit does not work because there is no connection between ground and the power wires. The solution to the problem: Connect the ground terminal to real ground (for safety). Connect one of the power wires to ground (to enable the ground test circuit). It is a good idea to also connect the generator chassis to ground (for safety)

  • Circuits must be de-energised before testing.
  • The DLRO200 must only be used on dead systems. If the item under test has a voltage upon it greater than 10 volts ac peak or dc with reference to ground the DLRO200 will indicate the presence of the voltage and prevent any tests being carried out.
  • Testing inductive circuits can be hazardous:
  • The DLRO200 is a high power instrument, designed for testing resistive loads. It must NOT be used to test inductive loads.
  • During use the DLRO200, its current leads and the sample being tested can become hot.
  • This is normal and is caused by the passage of high currents. Take care when touching the instrument, current leads, clips and the test sample.
  • This product is not intrinsically safe. Do not use in an explosive atmosphere.
  • Ensure that the power switch is always accessible so that power can be disconnected in an emergency.
  • Ọ bụrụ na ejiri akụrụngwa a n'ụzọ ndị nrụpụta na-akọwaghị, enwere ike ịmebe nchebe nke akụrụngwa ahụ nyere.

NKWAZI NKE MBỤ

The Megger® DLRO® 200 is an a.c. powered low resistance ohmmeter deigned to measure d.c. resistances in the low milliohms or microhms using a maximum test current of 200 Amps d.c. The maximum test current available is dependent upon the power supply, the resistance of the test leads and the resistance of the item being tested. Full details are available in the SPECIFICATIONS section later in this book. The power lead entry is located on the left-hand side panel and marked “100-265 V a.c., 10 A max., 50/60Hz” for the DLRO200, or ‘115 V a.c. 10 A max. 50/60Hz’ for the DLRO200-115. The main On/Off switch is located next to the power lead entry. All other controls are mounted on the front panel. Should the supply earth be inadequate the instrument will refuse to switch on, the display will remain blank. An additional earth terminal is provided on the left ahd side of the instrument.Megger-DLRO-600-High-Current-Low-Resistance-Ohmmeter- (1)

Kpụrụ ọrụ
The required current is set before the test starts. When the TEST button is pressed, after a short delay the current increases to the set current, the voltage detected across the “P” leads is measured, and the current then reduces to zero.
Operation is controlled using the two-axis paddle and the menu system, which appears on the backlit liquid crystal display. The keyboard is used to set the desired test current and to add notes, which may be stored with test results in on board memory for later download via the RS232 socket provided. The measured resistance, the actual test current and measured voltage are clearly presented on the display after the test is complete. The use of a four terminal measurement technique removes the test lead resistance from the measured value although the use of lightweight current leads may prevent the DLRO200 from producing the full requested current. In this case the instrument will produce the highest current possible taking into account the resistance of the current leads and the item being tested. Before a test may be started the potential test lead contact is monitored to ensure good contact is present. This reduces the chance of erroneous readings and prevents arcing at the contact point, which would otherwise damage the item under test and the test lead contacts. A resistance measurement takes approximately 10 seconds. DLRO200 is supplied complete with a pair of 5 metre (16 feet) current leads terminated with large clamps, and smaller, lighter potential leads. Other lengths and terminations are available if required. The large terminals C1 and C2 supply a low voltage (from zero to 5 volts) which is adjusted automatically to produce the desired current (from 10 A to 200 A). C1 is the positive terminal. This d.c. voltage is half wave rectified and unsmoothed in the DLRO200, the inductance of the test leads providing sufficient smoothing for the current. The DLRO200-115 has additional smoothing within the instrument. P1 and P2 are voltage measuring terminals. P1 is nominally positive, but connections can be reversed without affecting the measurement. All four terminals are floating. A warning will be given if dangerous voltages are connected to any terminal (C or P) with respect to ground.

Ọrụ

Terminate the supply lead with a plug suitable for your circumstances. Plug the instrument supply lead into a socket outlet and switch the instrument on using the On/Off switch situated on the left side of the instrument. The POWER lamp will illuminate, the instrument will display the firmware version number and perform a calibration check. If this is successful the display will show “CALIBRATED”. If the check fails the display will show “NOT CALIBRATED”.Megger-DLRO-600-High-Current-Low-Resistance-Ohmmeter- (2)

After a slight pause the display will change to the Main Menu screen.

Ihuenyo isi menu 

This screen provides access to the menuing system, through which you set up your instrument and choose the desired test parameters. Navigation of this menuing system is by means of the cursor control and Enter key. At the top of the screen are the three main menu choices; “TEST”, “OPTIONS” and “CURRENT”. Below this are details of the test current selected (SET CURRENT), maximum current to be allowed (CURRENT LIMIT), the number of stored tests and the current date and time.

To perform a measurement is straightforward.

  1.  Use the Left and Right arrows of the two-axis cursor control to highlight the TEST menu. Use the down arrow to select the required test type. Press Enter.
  2.  Use the Left and Right arrows of the two-axis cursor control to highlight the CURRENT menu. Use the down arrow to select SET and press Enter. Type in the desired current using the numeric keys on the keypad. When finished press Enter. If the current you have set is greater than the current limit, DLRO200 will beep and clear the SET CURRENT field. Re-enter the desired current, if necessary increasing the current limit to a value equal to or greater than the desired level. (See separate topic for setting the current limit).
  3.  Jikọọ sample to be tested to the instrument terminals and press the TEST button. The different test types have slightly different connection requirements, which are detailed, in the sections below.

TEST Menu
The TEST menu allows the selection of one of three test modes – Normal,
Automatic or Continuous. Only one mode can be active at a time and the
active mode is displayed below the heading TEST when you return to the
MAIN MENU screen.
Ọnọdụ nkịtị
Normal mode makes a single measurement of the resistance of the sample under test. Please note that in this mode both the current and voltage leads must be connected across the test sample before the Test button is pressed. When the TEST button is pressed DLRO200 will check for good contact in the P circuit. If the P circuit continuity is faulty the display will show “POTENTIAL FAIL”. Press the ENTER key to remove this message and adjust the contact of the P probes to ensure good contact is achieved. Press the TEST button again. P circuit continuity will be checked and if satisfactory DLRO200 will proceed to carry out a test. After a short period of time, if there is inadequate contact in the C circuit the instrument will display “CURRENT LOOP FAIL”. Press Enter to remove this message, make good the connection and press the TEST button to start the test. A sequence of bars will appear across the display while the test is being completed. To make another measurement, ensure the test leads are connected and press the Test button. NORMAL mode is abbreviated to NORM under the TEST heading in the main menu screen.

Na-aga n'ihu Mode
Continuous mode requires the current leads and the voltage leads to be securely connected to the item under test before pressing the Test button. The DLRO200 checks voltage and current loop continuity as in Normal Mode and, if adequate, passes a continuous d.c. current, repeating resistance measurements at approximately 2-second intervals until the test is terminated by pressing the Test button (or until the DLRO200 overheats if particularly high currents are used). CONTINUOUS mode is abbreviated to CONT under the TEST heading in the main menu screen.

Okpo oke
When operating continuously at 200 A, overheating will occur after approximately 15 minutes (assuming a starting temperature of 20ºC). A message ‘HOT’ will then appear on the display until the internal parts have cooled. When the ‘HOT’ message is on the screen, test current is turned off and all front panel controls are disabled. Operating at reduced current will considerably extend the operating time.

Ọnọdụ akpaaka
In Automatic mode, only connect the current leads to the sample to be measured. Press the TEST button. The red status lamp next to the TEST button will flash signifying that DLRO200 is armed and will remain in a state of readiness until the P circuit is completed. At this time the light will illuminate continuously and the test will be carried out. The progress of the test is shown by a series of bars progressing across the display. To make another measurement it is necessary to break P probe contact with the test sample and remake contact. For example, if measuring joints in a long bus bar, you may leave the current circuit connected at opposite ends of the bus bar knowing that current will only flow during a measurement i.e. when the P probes are connected. Simply making contact with voltage probes across the joint(s) you wish to measure will then activate the measurement. AUTOMATIC mode is abbreviated to AUTO under the TEST heading in the main menu screen. AUTO mode may be exited by pressing the TEST button while the status light is flashing.
NchNhr nhọrọ
The Options menu has five selections, which control various ancillary functions and which are selected using the two-axis cursor control and the Enter key. These are Retrieve, Passbands, Set Clock, Delete Data and Storage.
Weghachite
allows the recall of results which have been stored within the DLRO200’s internal memory. There are two choices, Display or Download.
Display
recalls each test, in sequence, to the instrument display starting with the most recently stored result. Use the cursor control Up and Down controls to step later or earlier respectively through the stored results. If you know the number of the test that you wish to display simply type in the number and press Enter. An asterisk (*) next to the word “MEMO” at the bottom of the screen means that there are notes attached to this result. Press the right cursor control to view ndetu.
Budata site na ntaneetị
causes the entire contents of the data store to be output to the RS232 port above the display. A null modem RS232 lead is supplied with the instrument. Any communications package may be used to download the data although a copy of Download Manager, which facilitates downloading and formats the data, is also supplied. If using another package please note the settings should be 9600 baud, 8 data bits, 1 stop bit, and no parity. Downloading data does not cause the stored data to be erased from memory. To clear data from memory see “Delete Data” below. Please note – DLRO200 also makes data available via the RS232 Port in real time and is suitable for printing on a self-powered serial printer. (See later for details.)

The output has the following form:

  • Ụdị Ule
  • Test Number
  • Bọchị
  • Ụbọchị
  • Time
  • Selected Current
  • eguzogide
  • Measured Current
  • Echere Voltage
  • Upper Limit *
  • Lower Limit *
  • Pass Or Fail *

* The last three lines will only appear if passbands have been set.

Passbands
The passband option allows you to set upper and lower limits between which the test result must lie if it is to be assigned a Pass. Readings that fall above the upper limit or below the lower limit will be assigned a Fail. The upper and lower limits are entered via the keyboard complete with decimal points, where applicable, and including the m or µ symbol as appropriate. It is not necessary to enter the Ω symbol. Entering the m or µ symbol tells DLRO200 that the entry in that particular field is complete and the cursor will therefore move to the next field. The upper limit must be less than or equal to 999.9 mΩ and the lower limit must be less than the upper limit.
After completing the upper and lower limits the cursor will move to the ENABLE or DISABLE options. Highlight your choice using the right and left controls and press Enter. You will return to the Main Menu screen. Note: Passbands will remain enabled or disabled until you re-enter this screen and change the selection. If all that is required is to change Passbands from ENABLED to DISABLE or vice versa, enter the PASSBAND screen and press Enter until the ENABLED / DISABLED choice is shown at which time you may change the selection. Pressing Enter will skip over the limit values without changing them if none of the numeric keys has been pressed.
If passbands have been set and enabled, at the end of a test the display will show the results and will show the word PASS or FAIL as appropriate. A PASS will also be signified by a short beep from the instrument, while a FAIL will be signified by a long beep.
Tọọ Elekere
This option sets the date and time as well as setting the date format. When you enter this screen the current date, time and date format will be displayed.
Use the cursor control Up and Down arrows to adjust the highlighted data. Step to the next item by using the Right cursor control arrow. The row below DD MM YY HH MM contains respectively the date, the month, the two-digit year (21st century is assumed), the hour of the day in 24-hour notation and the minute. These must be entered in this sequence regardless of the date format you wish to use.
The lower DD/MM/YY shows the current date format. Pressing the cursor control Up arrow will cycle through the available options DD/MM/YY, MM/DD/YY or YY/MM/DD. This is updated when you press Enter to exit the Set Clock function. However, tests already stored prior to changing the date format will retain the old format.
Hichapụ data
Select Delete Data if you wish to clear DLRO200’s memory of stored data. In case you have selected this Option by accident you will be asked to confirm that you wish to delete the data. The default is NO. Change this to YES and press Enter if you wish to delete all data. Please note – ALL stored data will be deleted.
nchekwa
The Storage option sets the instrument to Store or No Store. At the end of each test you will be offered the opportunity to change this setting for the test just completed and subsequent tests. At the end of each test you may enter notes into the MEMO screen, which is accessed by pressing any key on the alphanumeric keyboard. This will also cause the test to be automatically stored regardless of other settings. If all memory has been filled, a message MEMORY FULL will appear and no more tests results will be stored although testing may continue without storing results. The main menu screen will also display “300 MEMORY FULL” instead of the number of stored tests. Data is stored for up to 10 years in battery backed RAM.
CURRENT Menu
There are two options, SET, and LIMIT
Nịm
This option allows you to set the desired test current. Simply enter the desired value using the numeric keys on the keyboard and press Enter. If the current selected is greater than the limit that has been set, DLRO200 will beep, cancel your entry in the Set Current field and wait for you to enter a valid current.
ịgba
Ụfọdụ samples to be tested may not be able to withstand the passing of heavy currents. In this case set a maximum level of test current to prevent the accidental entry of an excessive test current. This level defaults to 200A. If a lower limit is required enter it using the keyboard and press Enter. If the LIMIT current selected is lower than the SET current, the SET current will be reduced to the same value as the LIMIT. The Main Menu screen will show the active Current Limit beneath the Set Current.
Ozi Ntuziaka
The display will, from time to time, display certain warning messages, which may affect measurement accuracy or operator safety.
Test Circuit Continuity
A good measurement requires both the current carrying circuit and the voltage detection circuit to be completed by the item under test. The DLRO200 checks for this continuity after the TEST button has been pressed. Initially the Potential circuit is checked. If there is poor continuity in this circuit a message will appear on the display stating “POTENTIAL FAIL”. Press Enter to clear this message and correct the discontinuity in the P circuit. Press TEST again. If the P circuit is complete DLRO200 will attempt to pass the test current. If the C circuit continuity is inadequate, after a little while, DLRO200 will display the message “CURRENT LOOP FAIL”. Press Enter to clear the message. Correct the fault and start the test again.|
Mpụga Voltagịdọ aka na ntị
The item being tested must be voltage free. If, at any time while DLRO200 is connected, the item being tested has a voltage in excess of 10 volts ac peak or dc with respect to the instrument ground potential, a message “EXTERNAL VOLTAGE ON TERMINALS” will appear on the display. This is a warning that the item under test is live and might be dangerous. A test cannot be performed in this condition. Remove the external voltage. The display will revert to the main menu screen.
Ọ bụrụ na voltage was detected at the start of a test you may now start the test. If the voltage was detected during or at the end of a test, the results will be invalid, will not be stored and the test will need to be repeated after removing the source of voltage.
Discharge Current Warning
A message CURRENT FLOW will appear if a current greater than approximately 10 mA is still flowing after a test is completed. This suggests that an inductive load has been accidentally tested and is still discharging. Do not disconnect the current loop while the discharge warning is showing.
ENTERING NOTES IN THE MEMO SCREEN
At the end of each test you may add comments to the test results. Instead of pressing Enter to return to the Main Menu screen, briefly press any alphanumeric key. You will enter a MEMO screen that allows you to enter up to 160 characters of alphanumeric information concerning the test. When you have entered all information press Enter and the measurement and memo will be stored in memory. If you do not wish to add notes press the Test button and a new test will be started, or the Enter button to return to the Main Screen.
TEST RESULT STORAGE
Each test is numbered sequentially, dated and timed. The test result memory can store a maximum of 300 tests, each being identified by its test number, date and time. When memory is full the message “MEMORY FULL” will be shown. Testing may continue but no more results will be stored. See Options Menu – Storage for more information.
REAL TIME DOWNLOADING OF TEST DATA.
DLRO200 will output data to the RS232 port every second. The data is in ASCII format at 9600 baud, 8 bits with 1 stop bit. Connecting an appropriately configured PC to the RS232 port will enable data to be captured in real time. The information output is as follows: If the output is being monitored when the DLRO200 is switched on you will capture the instrument type (DLRO200) and the version of firmware being run in the instrument.

  • TEST NUMBER 1
  • START DATE 21/06/02
  • START TIME 10:23
  • DATE FORMAT DD/MM/YY
  • SET CURRENT 50
  • UPPER LIMIT 0.9990000
  • LOWER LIMIT 0.0000000
  • TEST TYPE NORMAL
  • MEASURED RESISTANCE, CURRENT, VOLTAGE
  • MEASURED RESISTANCE, CURRENT, VOLTAGE
  • MEASURED RESISTANCE, CURRENT, VOLTAGE
  • MEASURED RESISTANCE, CURRENT, VOLTAGE
  • MEASURED RESISTANCE, CURRENT, VOLTAGE
  • PASS or FAIL

The Upper and Lower limits are always shown in ohms

TEST TECHNIQUES & APPLICATIONS

nhicha
The DLRO200 may be cleaned using a damp cloth and soap solution. When using DLRO200 to measure low resistances at high currents, the heavy current leads should be securely connected to the item under test using heavy-duty clips or clamps. The use of Duplex handspikes is not recommended. Connect the four leads as shown.Megger-DLRO-600-High-Current-Low-Resistance-Ohmmeter- (3)

It is important that the potential probes are positioned on the test sample inside the current probes.

Usoro ule
Pressing the TEST button or selecting AUTOMATIC mode starts the test sequence. Continuity of the P1-P2 loop is checked by passing an ac current (approximately 100 mA @10 KHz) through the test leads and measuring the ac voltage. Continuity of the C1-C2 loop is not checked until the test is started; the criteria for continuity is that a current of at least 2 A must be flowing. If this current cannot be established the instrument will display “CURRENT LOOP FAIL”.

Lead Resistance
The use of a four terminal measuring technique means that the resistance of the leads is not included in the measurement. Furthermore, since the potential leads do not carry any current the type of wire used is not important from the measurement point of view. However, these leads should be adequately insulated and sufficiently strong mechanically to support their own weight if long leads are being used. The size of the current leads will limit the maximum resistance which may be measured at full current or may limit the maximum current output to a level somewhat less than 200 A. The DLRO200 can generate 200 Amps into a total current loop resistance of 19 mΩ if the supply voltage is greater than 208 V r.m.s., or 11 mΩ for a supply voltage of 115 V r.m.s. The 50 mm2 leads supplied as standard with the DLRO200 (DLRO200- 115 is supplied with 25 mm2 leads (4 mΩ each) have a resistance of 2 mΩ each at 20οC, and so the DLRO200 will be able to measure up to 15 mΩ (supply >207 V r.m.s.), or 7 mΩ (115 V r.m.s.), in the item under test at 200 A with leads at 20οC. As you pass 200 A the leads will warm up and their ability to pass current will decrease as their resistance increases. Thicker or shorter current leads increase these limits. Longer current leads are available if required.

Interference And Grounding The Sample
Ideally the test specimen should be grounded during the test. If it is not grounded, noise pickup (50/60 Hz etc.) can affect accuracy and increase measurement errors by up to 1% typically. Excessive noise will cause the “EXTERNAL VOLTAGE” warning to be shown.

nkọwa

Megger-DLRO-600-High-Current-Low-Resistance-Ohmmeter- (4)Megger-DLRO-600-High-Current-Low-Resistance-Ohmmeter- (5)

REPAIR AND WARRANTY

The instrument contains static sensitive devices, and care must be taken in handling the printed circuit board. If an instrument’s protection has been impaired it should not be used, but sent for repair by suitably trained and qualified personnel. The protection is likely to be impaired if for example; it shows visible damage; fails to perform the intended measurements; has been subjected to prolonged storage under unfavourable conditions, or has been subjected to severe transport stresses.

NEW INSTRUMENTS ARE GUARANTEED FOR 1 YEAR FROM THE DATE OF PURCHASE BY THE USER.

IHE: Any unauthorized prior repair or adjustment will automatically invalidate the Warranty

INSTRUMENT REPAIR AND SPARE PARTS
For service requirements for Megger Instruments contact:

  • Megger Limited or Megger
  • Archcliffe Road Valley Forge Corporate Centre
  • Dover 2621 Van Buren Avenue
  • Kent CT17 9EN Norristown PA 19403
  • England. U.S.A.
  • Tel: +44 (0) 1304 502 243 Tel: +1 610 676 8579
  • Fax: +44 (0) 1304 207 342 Fax: +1 610 676 8625

Approved Repair Companies
A number of independent instrument repair companies have been authorised for repair work on most Megger instruments, using genuine Megger spare parts. Consult the Appointed Distributor/Agent regarding spare parts, repair facilities, and advice on the best course of action to take.

Returning an Instrument for Repair
If returning an instrument to the manufacturer for repair, it should be sent freight pre-paid to the appropriate address. A copy of the invoice and of the packing note should be sent simultaneously by airmail to expedite clearance through Customs. A repair estimate showing freight return and other charges will be submitted to the sender, if required, before work on the instrument commences.

Ọgwụgwụ nke mkpofu ndụ

WEE
The crossed out wheeled bin placed on the Megger products is a reminder not to dispose of the product at the end of it’s product life with general waste. Megger is registered in the UK as a Producer of Electrical and Electronic Equipment. The Registration No is WEE/HE0146QT
batrị
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. This product contains a lithium backup cell built into a DIL-32 IC package. Battery replacement should only be performed by a Megger authorised repair agent, who will correctly dispose of the spent battery. For the purpose of end of life disposal only, the battery is located on the micro pcb, and is marked DS1556W-120
These batteries are classified as Industrial Batteries. For disposal in the UK contact Megger Limited.
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

DECELERATION OF CONFORMITY

Hereby, Megger Instruments Limited declares that radio equipment manufactured by Megger Instruments Limited described in this user guide is in compliance with Directive 2014/53/EU. Other equipment manufactured by Megger Instruments Limited described in this user guide is in compliance with Directives 2014/30/EU and 2014/35/EU where they apply. The full text of Megger Instruments EU declarations of conformity are available at the following internet address:

Ụgwọ nke ụlọ ọrụ Megger Limited
Archcliffe Road, Dover
Kent CT17 9EN England
T +44 (0) 1 304 502101
F +44 (0)1 304 207342
E uksales@megger.com

Megger
4271 Bronze Way, Dallas,
Texas 75237-1019 USA
T +1 800 723 2861 (USA ONLY)
T + 1 214 333 3201
F +1 214 331 7399
E ussales@megger.com

Ụgwọ nke ụlọ ọrụ Megger Pty Limited
Nkeji 26 9 Hudson Avenue
Castle Hill
Sydney NSW 2125 Australia
T +61 (0) 2 9659 2005
F +61 (0)2 9659 2201
E ausales@megger.com

Ụgwọ nke ụlọ ọrụ Megger Limited
110 Milner Avenue Unit 1
Scarborough Ontario M1S 3R2
Canada
T +1 416 298 9688 (Canada naanị)
T + 1 416 298 6770
F +1 416 298 0848
E casales@megger.com

Akwụkwọ / akụrụngwa

Megger DLRO 600 High Current Low Resistance Ohmmeter [pdf] Akwụkwọ ntuziaka onye ọrụ
DLRO 600, High Current Low Resistance Ohmmeter, DLRO 600 High Current Low Resistance Ohmmeter, Low Resistance Ohmmeter, Ohmmeter

References

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