ANALOG AMMETER READING HELP

Goodmorning, everyone.
Please can anyone help with how to read this analog ammeter? Have being trying to see if I could use it as an ammeter during my battery rebuild processes, and I'm kinda getting frustrated not able to read it. It sure works, but how can it be read?

If you look down beyond the 50 graduation, you'd see an approximate something like a 2.5 with a T inverted. What does that mean?

Is it possible to use it as an instrument to measure the capacity of my modules, for instance? How should it be connected to a circuit during the discharge/charge cycles?

Can I use a battery % monitor along side the ammeter to determine SOC?

The battery % monitor is for 12-24V batteries, that are used for home solar inverters.
Appreciate your responses

PS: Please correct me if I'm wrong.

This is how I get it connected when I'm reconditioning:

One of the leads on the ammeter goes to the positive battery charger alligator clips, and the other ammeter lead goes to the negative of the battery charger alligator clip, before I connect to the battery poles of the batteries I'm charging.

Do I need some sites of 1Kohm resistors in series to make the ammeter read the capacities of batteries while charging?

This is what I find amazing: each time the leads are connected to commence charging a module, I usually noticed that the ammeter reading would be 12.0A(I don't know whether that's the reading), if the module voltage has a OCV of 6.50V. But as the module cells pick up some juice, you see the ammeter reading begins to rise to about 15.0A. It stabilizes to 16.0A, as the module voltage stabilizes at 8.50V.

The question now is, does it mean the 16.0A is the actual capacity of the module, or its just that I'm not getting the readings correct(I don't know what the 2.5 with an inverted T meant)?

Does it mean the 16.0A*2.5
=40.0A would be the actual capacity of the modules?

Dxta

 

OK, would do that.

 

I'm not using a DVM ammeter.
If you carefully look at the picture I sent, its an analog ammeter.
Are you saying a fuse must be used on that ammeter in the picture to get the setup working?

 

" without an eye, and...?" Heheheheh! Got you right and clear. That was what I really needed to know.

Thanks Chap!


Dxta

 

I think I'd consider the capacity tester thing.

Dxta

 

I have never said I wanted to connect it in parallel.
Glad I did some few googling today, and got some of the information I had wanted.

My initial question was is it possible to use an analog ammeter to measure battery capacity, and if possible, how do you read such a value on the graduated scale of an analog ammeter?

Here's what have learnt so far today, finding out (1), hiw to read an analog ammeter connected serially in a circuit; (2), ammeters are pretty sensitive, and they kinda act as non load when connected in series in a circuit having a load.


PS: I have a PEAKTECH DVM already.
I just wanted to know how to make use of an analog ammeter, that's all.


Dxta

 

You

You're probably right, but I clearly understand the dangers you're talking about.
This was carried out on some of my test modules, and won't expose me to what you might be insinuating.
In essence, what I wanted to jnderst was to see if one can use that analog ammeter for capacity test, and whether if the connections I did would do that. Someone here already said wasn't supposed to be parallel to even measure current, and that can't be used.

So, right, have done some research about ammeters some few days ago.


PS: I also asked whether the way I read the analog ammeter was correct.
Appreciate your concerns.

Dxta.

 

@MTL_hihy . GREAT!!! This has being what I was looking for.
Youve cleared ALL the assumptions I was having about the analog ammeter thing, and whether it could be used for capacity testing.
Thanks a thousand!

Dxta

 

Heheheheh!

 

That was the kind of response I was expecting initially, but you know how it is....