you could probably use a power supply unit in dc and turn the dial to find the voltage ranges without having to rely on stacking different batteries together.
Don't know why they couldn't have included circuitry to apply a nominal load to give an indication of battery condition. As the open circuit voltage is no real indication.
If you open the case and do a bit of butchery with a pair of snips you can make it so the red slide half comes out of the end of the case, you can then measure 18650s. I would also replace the cheap poorly soldered wire with a more flexible silicon coated wire. Edit: Mine reads 10% high so not much point.
I find that BT-168 (analog) is much more useful and accurate because it tests battery under load. Although BT-168 Pro has voltage table (good/bad) range printed on back side, the voltage it displays is not under real load, so it does not give accurate representation of battery condition. Only use I see for BT-168 Pro is for raw voltage checks in place of digital multimeter, not as battery go/no go tester.
the good/bad indications are very arbitrary as different devices will likely work down to different minimum voltage levels, 2 of my digital cameras need pretty much new batteries or they wont power up
I don't know much about a lot but the battery tester not being used under load would this be the same as a multimeter then which is typically how I test my batteries or would the multimeter be better? Just curious it's not something I've considered but does make sense. Would testing the battery under load be more of a capacity type test? Sorry to bother you
@@blakey271able Measuring small 1.5 volt or 9 volt battery voltage with a multimeter AND a 100 Ohm resistor across the battery terminals (both multimeter and resistor are across the battery terminals) gives a much, much better indication of battery health than just measuring voltage without the resistor.
I have the 168 PRo, does go to 4.8V accurately, I did change the wire to the slide to a Silicone wire as the pvc wire kept breaking from the slide works great for a quick check 🙂
Does it max out at 4.8V? Cos the 168D tops out at 8V. Oddly, the analog 168 opens wide enough to take an 18650. But 4V across 3.9 ohms would mean 1amp so 4 Watts. I don't think that tiny resistor would be too happy.
@@JulianIlett On my 168 Pro, the slider input (labeled "1.2V-4.8V") reads a 9V battery at 9.12V when the 9V input reads the same battery as 8.83V. The board is superficially similar to your 168D's, with some shifted component placement and tracks on the boost side, and more passive components (SMD resistor networks!) on the 9V/measurement side of the IC. The board is labeled "TLX-02", no mention of a 168 model anywhere, and dated earlier than your 168D board (2020-3-16 vs. 210310). The case is identical, except that the slider hooks onto the track with a riser in the center of the slider, instead of at the far end, letting it slide out just that bit further to fit an 18650. You could probably swap the slider from the analog version over to the 168D to let it measure 18650s. (And the table on the back of my case is typo-free :D )
So many commentors dont know what they are talking about. The 168D display puts a load on a battery so if the battery is bad it WILL show. A weak 1.3v battery by meter will drop below 1.0v with this tester. There is a video by a bloke on youtube that shows this in a breakdown of the unit. I suspected it when I kept getting drastically different readings on weak batteries from this tester and a meter, yet good batteries were very close. A meters display is run by an internal battery whereas this tester draws from the battery being tested to run the display, thus a small load. Which is all that is needed to show weak batteries.
The "load" BT168D Pro puts on the battery is so small that it hardly matters to the reading. I have had almost dead batteries show as fresh on BT-168D Pro which would show as dead on analog meter.
If you have dead batteries showing voltage then you have a broken meter! To make an unsupported statement that the draw is negligible is like spitting into the wind. Not only did I clearly explain why there is a draw(no battery) , but gave not only my supporting evidence but also another youtubers evidence. A properly operating meter will definitely show a weak battery due to the draw, that a multimeter will show as still good.
@@andygozzo72 No, It's a long semi-circular tube with the meter at the top. You put the battery in the half tube and push up the base to get a reading.
@@andygozzo72 Yeah it's great. It goes from AAA to D size and has 2 prongs just below the meter for 9V batteries. The meter has red (bad), yellow (weak), green (good).
I have the 168Pro but find it quite useless since it doesn't put a load on the battery. I had a CR123 battery that measured over 3V but when I put it in my camera it wouldnt work at all.
You should try the Amprobe if they are available where you're at. If nothing else, it has much better usability due to a V notch to hold batteries. I just threw away one of these BT because I hated using it and mmy slide was really rough. 1st world problem, I know.
I much prefer the analogue meter type, there is no good/bad indication on the digital and the accuracy of a digital display is somewhat irrelevant without a suitable load resistor, giving misleading results as shown. I wonder what voltage the chip is receiving by feeding 8V or more through the boost converter, could be over-volting it, or does it go through the 3V reg too?
@@JulianIlett It would be possible to calibrate the analog scale to read internal resistance. (Especially if you aren't using the 9V side, which would have a different scale). Sharpie away!
i have 2 plasplugs branded things like the analogue one, had them many years(20+) , it has a label on the back to tell what voltage level the meter indications correspond to, and the load currents, batteries should always be tested with a 'reasonable' load
you can work it out with a calculator for the analogue one , or on my plasplugs branded one, it tells you the load current on the rear label, 375mA for 1.5v, 40mA for 9v,, the 375 is probably reasonable for 1.5v but i think 40ma too much really for 9v PP3s, as most devices using them will draw 10mA or much less ... also tells the voltage levels of the coloured areas on the meter
RE: the differing voltage I would not be surprised if precision is affected by low voltage if the power for the meter is derived from the cell under test.
For voltage monitoring of multiple batteries, an Arduino and digital display would allow simultaneous monitoring and comparison of all cells. These quick test meters are not suitable for long term monitoring and the drain they put on a battery is unacceptable except for the briefest period.
I Would go For Open Source "LongMons" on a 2 wire TTL Serial Daisy Network ELERIX Cell / 123ELECTRIC BMS123 Smart Gen3 - Single Cell Module / Batrium LongMons
Think I prefer the analogue meter. Instant results when you're just checking if your battery is good. If I need an absolute voltage, I'll use a multimeter. Edit: ah... you have a project in mind for them. :)
Those digital ones draw 20mA, but remember you need 4.000v display for Lithium cells . you only get 3digs ie 4.15 from the end pp9 contact, not very useful, better dvm available 5digs for precision and adjustable , but you power up with a pp9, much more useful
The load on the analog one for the 1.5 V input is way to high with that 3R9 resistor. A 10R or 15R would be much more reasonable for a typical AA cell load. And of course the virtually unloaded digital one is not very useful.
