Hi Charlie,
I've seen a lot of obscure 87A problems, including with my own amp, but this
one takes the cake!
>From your description, I think it's almost a certainty that the owner
damaged the wiring harness when replacing the blower, and that some of the
wires were sliced open and others were shorted. Having never replaced the
blower, and there being no photos or diagrams online showing where the
wiring harness runs, I can't offer an opinion on exactly how this might have
happened -- i.e., whether the harness is trapped under the blower or the T/R
module housing, but it must be something like that.
In case you haven't seen it, here's a link to Alpha's instructions for
replacing the blower:
http://www.rkrdesignsllc.com/static/media/documents/87a_Blower_Replacement_1
.pdf
Pretty sure that you're going to have to go through the replacement steps to
expose the damaged portion of the wiring harness.
Given the problem with the wiring harness, and the warning in the
instructions, I would also carefully check the horizontal portion of the RF
choke to make sure the owner didn't nick the enamel when removing or
replacing the T/R module. A short there would likely cause a fault as well,
though I think that would have happened even with the relays not operating.
Hope this helps, and let us know how it goes.
73, Dick WC1M
-----Original Message-----
From: Charlie Young [mailto:weeksmgr@hotmail.com]
Sent: Friday, January 6, 2017 10:52 AM
To: amps@contesting.com
Subject: Re: [Amps] Alpha 87A Fault 17
Several folks have responded to my thread about the Alpha 87A fault 17. In
particular Bruce W2SE has taken an interest in this problem, even though he
has no 87A and we have exchanged several email messages. Thanks to all who
responded. Here is an update for those interested.
Summarizing, this amp came to me after a blower change by the owner. The
amp was not working prior to the change and it was giving several faults
which are not known to me. After the blower change, the amp remained
inoperable. My friend asked for help.
I fixed a couple of minor issues in the RF output compartment which could be
seen with a visual inspection. After checking and double checking all the
circuit board plug connections and doing ohmmeter tests for faults, I
attempted to power the amp with the HV disconnected from the tube plates.
It blew the step start fuse but this problem was simple to correct.
The amp would power and go into the 3 minute warm up sequence. HV was
normal. After the warm up, the amp went into standby state. When the
operate switch was pushed, the amp kicked off and generated a hard fault 1.
The issue causing fault 1 was an open wire in the harness between the
microprocessor board and the output T/R module.
The 87A monitors various voltages such as Rbias, HV, filament current, etc.,
and kicks offline if a key monitored parameter is off or missing. In this
case, it was Rbias monitor. The problem was not in the plug connections, it
was the actual wire open.
Not only was this wire open between the cpu board and the output t/r module
but it was also shorted to ground on one side of the cut wire. I removed
the AC module and the output TR module to look at the cable harness and
could see no place where it was obviously pinched. Finding nothing obvious,
I replaced the wire. The existing plugs were used; the new wire was spliced
to the old wire about 1.5" behind each plug. This repair allowed the amp to
go into operate mode.
Finding the defective Rbias monitor wire was a harbinger of things to come.
An attempt to drive the amp with 10W of RF resulted in fault 17. No IP
flicker could be seen, it tripped offline so fast.
Considerable time was spent studying the amp bias circuits to confirm
everything was working. I tested the voltage drop across the pins and even
the current flow through the TX pins. The rig received when hooked to the
amp, so I thought the rx pin diodes were OK. The input and output wattmeters
had a difference when driven with the amp in standby. This is where we were
when the Amps Reflector message was posted.
This brings us to the present situation. I have another wiring harness
problem. This time, it is an open wire in the operate line which activates
the input and output relays. The input and output relays are wired in
series. The source voltage is a about 34VDC from a driver on the
microprocessor board. This circuit goes first to the tube deck compartment
where the little input relay is located, then goes from the tube deck up to
the output t/r board where the larger output relay resides. The connecting
wire between the tube deck and output t/r board is open. I suppose having
the relay coils in series provided an interlock function, so that one relay
would not be open and the other closed. Theoretically both relays would
have to be in the same state.
Not only is the connecting wire between the two relays open, the associated
wire that interconnects the chassis ground on both boards is shorted to the
chassis, with both plugs disconnected from their respective boards. The
wire should be floating, but it is grounded. I discovered this when
considering stealing this ground wire to replace the other broken wire.
Both boards have local chassis ground. It is a simple DC relay circuit.
The interconnecting ground wire would be redundant. Good thing I tested it
first! This grounding and opening of the wires in the harness is consistent
with what happened with the Rbias monitor wire. There is a serious problem
in the wiring harness that must be found.
My next efforts will focus on this issue, even if I have to completely
reverse the blower change procedures.
Here is the kicker. I think these relays were operating during my first
tests, but have convinced myself this might be wrong. My short term memory
is not the best. I have to move my medicine bottles around when taking
pills, because I will forget if a pill was just taken or not. I take the
pill, move the bottle to a completed area. As each pill is taken, the
bottle is moved to the completed area. Sad, but this is the only foolproof
way. One of the benefits of aging. I can live with it, just need to make
adjustments. Better than the alternative.
Why am I uncertain about the relays? Well, the relays being open fooled the
CPU and the terminal monitoring program as well. The amp will go into
operate mode on the front panel, the operate led will light, and the monitor
program shows the amp moves to operate from standby. If you key the amp
with a footswitch, the pin diode bias will change state from receive to
transmit. The tube will draw idle current. The input and output wattmeters
are in the circuit all the time. On the input wattmeter, a tap feeds RF
into the frequency counter, which can detect RF drive even if the input and
output relays remain open. If the amp is on a different band from the
transmit RF, the amp band segment will change and the presets will move;
the input/output relays are open during the retuning process anyway. Only
after the amp resets the band info will the relays close.
If the relays were open and the amp were driven with RF, the thing should
immediately fault. There is at least an even chance this was the problem
after we fixed the fault 1/open Rbias monitor line issue. I have convinced
myself it is at least possible these relays were not closing but I just
assumed they were; the amp and computer said it was in operate mode. When I
drove it with RF it looked like it was in operate mode.
If I missed this relay problem, it was a fundamental oversight. On a
conventional amp, the relays would be the first thing I check, after
confirming filament voltage and HV. The time was not wasted though, because
the process of troubleshooting was educational about pin diodes and the amp
control circuits in general.
Now we will check the wiring harness again, run a new relay wire, and see
just how bad my short term memory is! I actually hope the amp works after
this wire repair. If it is still inoperable, we will keep digging!
Regarding this wire problem, I can envision a scenario where this open
operate wire became grounded by whatever cut it. If this occurred, the
circuit to ground for the input relay would have been completed, and it
would have energized with the full 34VDC across it. The output relay would
have remained open. The amp if driven could have made power into an open
circuit on the output side. Fault time again. We are not going to borrow
trouble!
73 Charlie N8RR
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