Discontinued
BITE3 battery impedance tester
On-line testing requiring no downtime
No need to take the battery system offline or bring in an extra battery bank, making testing less disruptive and quicker, with less risk to the battery compared to load testing and other techniques.
Onboard analysis
With a quick on-site review, you can check to make sure the test was performed correctly and carry out corrective maintenance while in the field as necessary, reducing multiple trips to test and maintain the battery bank.
Stores more than 1 million cells of data
In any string configuration, therefore you won’t need to stop, download, delete, and continue, allowing a continuous work flow without interruption.
No programming skills required
The PowerDB software is an easy to use, fully functional battery software allowing you to view and trend multiple battery parameters to assess different aspects of battery health.
Measures float and ripple current of charger
Tests the health of the battery charger to make sure it is not damaging the entire string.
About the product
Suggested replacements for this discontinued product are the BITE5 and the BITE2/2P.
The BITE3 battery impedance tester determines the health of lead-acid cells up to 2000 Ah by taking measurements of the most important battery parameters. The BITE3 measures cell impedance (an internal ohmic test) as well as cell voltage, intercell connection resistance, and ripple current. What's more, for the first time in a battery instrument, the BITE3 measures float current and the harmonic content of the ripple current. There is even a built-in spectrum analyser to show the harmonic content of the ripple current.
The BITE3 is one of the easiest instruments to use. Its measurements, along with temperature, specific gravity and other battery data, can provide the best basis for evaluating the overall health of batteries from terminal plate to terminal plate and, to a lesser extent, the charger (from ripple current and its harmonic content). Megger recommends that the BITE3 be made part of a comprehensive battery maintenance program with readings taken and recorded semi-annually for flooded lead-acid cells, and quarterly for VRLA.
The BITE3 is also quick and reliable. With a rapid test time, one person can efficiently and precisely measure cell and string parameters without taking the system off-line.
Technical specifications
- Data storage and communication
- RS-232 port
- Power source
- Battery
- Power source
- Optional mains adapter
FAQ / Frequently Asked Questions
The best frequency for impedance testing depends on the battery type, the site conditions, and previous maintenance practices. The IEEE 11888 standard for VRLA batteries recommends, for example, that a baseline impedance measurement is made six months after the battery has been put into service, and that further impedance measurements are made at quarterly intervals thereafter. For flooded lead-acid batteries, Megger recommends impedance testing at six monthly intervals. Impedance measurements should also be made immediately before carrying out every capacity test.
Further reading and webinars
Related products
Troubleshooting
This means that the battery system has internal noise.
What you can do:
The system can still be tested with the BITE3 using the optional CT. In the BITE3 settings menu, set the CT for “Impedance” mode. Connect the CT to the BITE3 and around any suitable location within the string being tested. The BITE3 will use the measured current through the CT and the voltage drop caused by the system noise, measured via the BITE3 probes, to calculate the correct impedance.
This is what is expected. This message indicates the ripple current is low and the batteries are in float mode. If this is the case, click YES to proceed with the impedance testing.
Note: If the ripple current exceeds 5 A per 100 Ah battery capacity, then you have found a problem that needs to be corrected.
Note: If the float current reads high then stop the testing; the batteries are not fully charged and the readings you get will be misleading.
The BITE3 can automatically detect the difference between a cell and a strap. If the unit displays “Confirm Strap”, this means the unit does not recognise a cell or a strap. If you are measuring a strap then just pull the trigger. If you are measuring a cell, you do not have a good connection.
This can be an indication of a fundamental current on the battery string. The BITE3 automatically detects cells and straps by measuring the floating voltage on the BITE probes. If the voltage goes high, this indicates the probes are across a cell. If the voltage goes low, this indicates the probes are across a strap. If enough noise or fundamental current is on the string, then the unit may not be able to identify if the probes are across anything.
What you can do:
Place the unit in the “spectrum analyser” mode and place the probes across a strap (you may need to place the probes close to one another on very noisy systems). If the spectrum analyser indicates fundamental current is present on the string, stop. Turn the charger off and see if the problem clears up. If it does, then the charger has an open rectifier and needs repair. If it does not, there is a short that is allowing fundamental current to get on the string. This must be corrected as it will lead to overheating of the batteries.
The unit automatically detects the type of lead set connected. If this message appears, first check the lead connection to the unit. If this is good, then try a different set of leads, if available. If this does not work, contact customer service.
The Reverse Polarity message indicates that the probes are backwards.
What you must do:
Reverse the probes! DO NOT PULL THE TRIGGER until you have reversed the probes. Pulling the trigger will blow the fuse in the unit.
This is usually the result of a blown 1 A (Slo Blo) fuse in the side panel. To test for a blown fuse, place both BITE probes on the same terminal of a battery. This will act as close as possible as a zero ohm connection and should yield a very low impedance measurement. If the measurement indicates out of range impedance values, it is very likely that the protective fuse has been blown.
There could be two causes for this:
- the leads got across >19 V
- the two field-effect transistors (FETs) on the power board have shorted.
What you can do:
It may be possible to replace the fuse, but if the FETs are shorted, the unit will need to come in for repair. If FETs are shorted, it’s more likely that you just won’t be able to read battery impedance.
There may be several reasons why you’re not receiving a reading or the reading is erratic:
- the impedance value you are trying to measure is too high
- the fuse in the unit is blown
- there is damage to the lead tips
What you can do:
- Check the fuse and replace it if it is blown
- If the fuse is ok, clip the leads of the unit together and take a measurement. If the “out of range” error is displayed, there is a problem with the BITE3 and you will need to contact the authorised repair centre. If the unit does take a measurement, the impedance of the cell you were originally trying to measure is too high.
- Finally, lead tips can break off inside shafts on the 36616 lead set, and often remain stuck in the shaft and not visible as damage. If this is suspected, please return the instrument to the Megger Repair Department.
If you see a “system error” when powering up, it’s likely that there is damage to the processor.
What you can do:
The PC104 module, where the firmware is located, has probably been damaged, likely by heat. The unit must be sent to an authorised repair centre for repair.
Interpreting test results
The real value in battery testing lies in the trending of data to determine if problems are imminent or farther out. The following table offers general guidelines to evaluate impedance and strap resistance measurements. Over time, BITE3 users will establish their own percentage deviation warning and alarm values. It’s strongly recommended to use the software provided with your equipment to keep all the historical data for each of the strings under test. The software includes several charts - including warning and alarm criteria - that will facilitate the trending and analysis of the data.
Percent variation from string average | Percent variation from string average | Percent deviation from baseline | Percent deviation from baseline | |
---|---|---|---|---|
Warning | Alarm | Warning | Alarm | |
Lead-acid, Flooded | 15 | 30 | 30 | 50 |
Lead-acid, VRLA, AGM | 10 | 30 | 20 | 50 |
Lead-acid, VRLA, Gel | 20 | 30 | 30 | 50 |
NiCd, Flooded | 10 | 20 | 15 | 30 |
NiCd, Sealed | 10 | 20 | 15 | 30 |
Inter-cell Connections (Straps) | 15 | 20 | - | - |
User guides and documents
Software and firmware updates
Firmware
Since it's original release, the BITE 3 has seen 3 different variations of processor board. This complicates the update process just a bit. Before downloading an update, please turn on your instrument and navigate the menus to "System", "About". The first entry is Version. The First field of the Version of you instrument must agree with first field of the download version. i.e. Your instrument currently is at Version 3.0.1.1 then you would use update "Firmware 3.0.1.2". The download file will have the name "BITE3.3.0.1.2.update". Each update begins with "BITE3" a period and the update version number in this case "3.0.1.2" a final period and the word "update".
Save the download to a place that you will be able to easily navigate to. Then use PowerDB to update the BITE3.
For more information, please contact Andy Sagl ([email protected]) at Megger Valley Forge at 610-676-8528. PowerDB software for the PC now supports BITE 3.
Utilities
BITE3 Excel Upload Utility
latest version
The BITE3 is fully supported by the PowerDB Software. The PowerDB Lite software is provided at no charge and can be downloaded from this web site. However, if you choose not to utilise PowerDB Lite for your data maintenance and analysis needs, a Microsoft Excel template file is provided that will allow you to upload test data in the BITE3 to the spreadsheet. Once the data is uploaded to the spreadsheet, you are free to use any tool in the Microsoft Office suite to analyze, archive, and/or export your data.
We have noted that some versions of Microsoft Internet Explorer rename the update file to a dot zip file extension (.zip). Mozzila FireFox works correctly leaving the file extension as "dot update" (.update). If this happens to you, please modify the file extension from (.zip) back to (.update) before saving. Thank you for your understanding.