Aah, mystery meters...
Well, when I get some unknown meters I usually set up a little jig. The chances are they are "straight" DC meters. These can come in any range from 100uA to 1mA. These are the basic "movement" sensitivities- any higher and you can bet that they're a basic 100uA/500uA/1mA movement with a "shunt" resistor added in parallel with the movement...
To test for the sensitivity, it's always safest to assume it's a 100uA meter. Things you need for testing: DMM set to 2000uA range, 1M LIN pot (or a fixed resistor), 1.5V battery, other value fixed resistors.
Connect the +Ve wire from the battery to the +Ve lead of the DMM. Then connect the -Ve lead of the DMM to the end-track terminal of the 1M variable resistor. Then connect a 1M fixed resistor to the wiper of the 1M pot. Connect the other end of this 1M fixed resistor to the "+Ve" terminal of the unknown-meter to be tested. Finally, connect the -Ve terminal of the meter to the -Ve terminal of the 1.5V battery.
Okay, before connecting the battery, make sure the wiper of the pot is hard-against the end of the track not connected. The pot is being used as a series resistor, and setting it here means that the full 1M of resistance is in the circuit. Connect the battery, and then slowly rotate the 1M pot. You'll see the needle of the meter move. If it appears to "peg" backwards- swap the connections to the meter- it's polarity is reversed, and the meter could be damaged by applying more current!
There will be a setting of the pot where the needle will point to the max. position on the scale- this is the Full Scale Deflection, or FSD. The value of the current flowing through the meter will be the current registered on the DMM. If this setup doesn't move the needle much, it obvioulsy has a higher FSD than 100uA. Swap out the 1M fixed resistor for 470k, 100k, 50k, 10k, 4k7, 1k etc and adjust the pot until you get the FSD. The series resistor helps to protect the meter in case you go "too far" with the pot!