My background/experience has mainly been with Kleinschmidt units
where the external loop connects directly to the selector magnets,
with a switch or plug selection to choose between 20 & 60 ma.
loop. (no "Line Relay")
Up to now, all M28s I've worked with just ran when they were plugged
in.
I am trying to correct the wiring of a M28 ASR that was rewired by
"some ham", but I am getting confused by all the "flexibility" in
the ASR design.
Presently, the unit is operational in both 'Line' & 'Test'
modes, but when I plugged it into a 60 ma loop, I could only get a
maximum of about 50ma from the TU. Measuring the M28's Signal cable
(connected to the ASR's terminals 5 & 15), I found that there
was an internal 1K of resistance. Also, the Line Shunt relay was not
shorting the line with the power off. This was when I started to
think that there had been some mods made to the wiring.
Upon further investigation, I have found that the external loop
cable is connected directly to the Selector Magnets (in
series) through internal resistors of 400 + 600 ohms and the
Auxiliary Reperf, bypassing the Line Shunt Relay and the polar Line
relay.
In looking at the ASR's schematic (M28ASR W/LESU13), it looks like
the Selector Magnets are normally wired in series with 3.55K,
through the Line Relay contacts. This would give an Internal Loop
current through the SMs of about 40 ma.
1. Is this correct, that the internal loop runs at 40ma and that
is optimum for two SMs in series?
2. Is there any change/adjustment needed to the LESU for the
external loop running 20 or 60 ma? The external loop seems to run
right through the line winding of the Line Relay. Can the Line relay
take any input current? With in what range? Or is there a change to
the Line Relay bias current needed between 20 & 60 ma?
I could run this unit at 20-40 ma, but would rather get it restored
to normal wiring (I haven had a chance to ring out all the changes
yet).
Is there a good description somewhere of the options & changes
needed for different loop currents of the M28?
Thanks,
Duncan
K2OEQ