----- Original Message ----- From: "Luc Leblanc" lucleblanc6@videotron.ca To: amsat-bb@amsat.org Sent: Sunday, September 14, 2008 9:18 PM Subject: [amsat-bb] Re: elevation rotor
On 14 Sep 2008 at 20:57, i8cvs wrote:
----- Original Message ----- From: "Gerry" ve4gtb@mts.net To: amsat-bb@amsat.org Sent: Saturday, September 13, 2008 11:48 PM Subject: [amsat-bb] elevation rotor
My Kenpro KR-500 elevation rotor has quit working. Has anyone the voltage outputs on the wiring terminals to the rotor. Like to check the controller before taking the rotor down.
73
Gerry VE4GTB / KD7MDB
Hi Gerry, VE4GTB / KD7MDB
In a separate message I have sent to you the schematic diagram of the KR-500 so that you will be able to check the controller with easy.
73" de
i8CVS Domenico
HI Domenico
It will be his second copy...HI next time i will copy the message to the BB!
"-" Luc Leblanc VE2DWE Skype VE2DWE www.qsl.net/ve2dwe WAC BASIC CW PHONE SATELLITE
Hi Luc, VE2DWE
Since Gerry is requesting to know the voltage outputs on the wiring terminals to the rotor it follows that in addition to the schematic diagram it is necessary to add to him the following informations:
With all 6 wires of the control box connected to the rotor the voltage measured at the rotor between 1 and 3 must be > 6 volt DC By the way if the rotor is stuck and cannot rotate but the DC voltage measured between 2 and 3 is ranging betwen 0 and 6 volt depending on the actual elevation position it is a good indication that probably the 500 ohm potentiometer inside the rotator has not an open circuit in some place of it.
While running UP the voltage measured between the common of the motor numbar 6 and numbar 5 must be about 24 Volt AC and if the voltage measured between 4 and 5 is about 24 volt AC it indicates that the electrolitic capacitor C3 is not short circuited and both windings of the motor are OK
While running DOWN the voltage measured between the common of the motor numbar 6 and numbar 4 must be about 24 Volt AC and if the voltage measured between 4 and 5 is about 24 volt AC it indicates that the AC electrolitic capacitor C3 is not short circuited and both windings of the motor are OK
If the motor don't runs in any of both direction UP and DOWN disconnect the wires of the control box from terminals 4-5-6 of the motor and measure the ohmic resistance of the motor windings as follows: Between terminals 4 and 6 the value of the ohmic resistance must be 5 ohm Between terminals 5 and 6 the value of the ohmic resistance must be 5 ohm Between terminals 4 and 5 the value of the ohmic resistance must be 10 ohm
If the motor still don't run check the unpolarized electrolitic capacitor C3 70uF 50VAC located inside the control box and measure it's capacity in uF because even if the voltage across it as measured between terminals 4 and 5 is 24 volt AC it can be an open capacitor.
If C3 is OK put an AC ammeter in series to terminal 5 and measure the current flowing into the motor while running UP and do the same with the ammeter in series to terminal 4 while running DOWN
In both situations UP and DOWN the AC current must be about the same.
The AC motor has a disc brake (27) and a disk pad ( 28) acting as a friction-clutch but with time the wear of the disc make the friction of the disc very weak so that the motor runs but the rotator has not the torque necessary to rotate the antennas.
I hope this helps
73" de
i8CVS Domenico