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  • AC condensor fan motor

    Hello all. New to the forum and need some help with a AC condensor fan issue.

    Today I came home and heard some weird noise coming from the side of the house and when I checked I noticed the AC condensor fan was not spinning but everything else sounded as if it was working. It was not that hot at the fan plus when I went in the house to turn the unit off it was pretty cool in the house. So it appears to maybe just happened or at least stop running for a short period of time. The unit was working perfectly fine this morning before I left for work.

    What should I do to determine if the fan is the only problem? If it's the motor are there any special steps needed to be taken to replace the motor? It doesn't look to be too daunting of a task plus I am mechanically inclined. HELP!!!

    Note: I did a search and noticed that some responses stated to maybe replace the capacitor along with the motor. Should the capacitor be replaced also.


    Spec info: Comfortmaker condensor (just over 10yrs old) ; Model No. K55HXPSS7299 Motor PN: HQ1082641EM (1.3 amp, 208-230v, rpm 1075); Maker of motor IEmerson.

    I did some research and got this info. The unit is a Permanent split capacitor (K), stator lamination is 5.5" (55), motor includes an integral thermal protector of the automatic reset type and motor protector combination (HX) that is recognized for locked-rotor and no load no-air-over running-heating protection. Don't know what all this really means but some added info that may help.


    I appreciate any help.
    Last edited by Methodical; 08-04-2008, 06:32 PM.

  • #2
    the motor is internally protected against overloads by an integral thermal protector. this is a thermal overload device that is embedded within the windings. stator laminations means how the iron punchings are arranged that make up the motor stator, this is what the windings are wound upon. the motor is of the induction type. its rotor is one piece made up of iron punchings laminated together with aluminum shorting bars on each end. locked rotor means the current that the motor is exposed to when the rotor is not turning as in frozen bearings. for troubleshooting a motor you'll need an analog meter and a clamp around ammeter. use the meter on its highest voltage adjustment and read the voltage on the line side of its contactor. when its running or trying to run use the ammeter around one conductor to direct read its current. compare that to its nameplate reading. the control circuit is probably 24 volt, so all the coils in the motor circuit will be running at 24 volts. there may be a control fuse on the secondary of the control transformer, this steps down the 120 volt to 24 volt for control.

    Comment


    • #3
      update

      Update: I turned the motor a little and turned the AC on and the fan worked all day (8/5) but stopped working again tonight (8/5).

      How does the capacitor affect the fan motors operation? I'm thinking that maybe the capacitor is acting up.

      Also, would it help to put oil in the motor? If so what kind of oil?

      I'm leaning towards just replacing the motor. Where is the capacitor located? There's a box near the condensor that has markings that say "not a fuse box" if I recall correctly. Is this the location of the capacitor?

      Does anyone have a link that shows how the system works so that I can better understand.

      Again thanks
      Last edited by Methodical; 08-06-2008, 01:03 AM.

      Comment


      • #4
        a permanent split phase motor has a capacitor mounted outside the motor in an oval cylindrical metal housing with a cap on it. a capacitor is used to offset one winding to get the magnetic field to lag the starting current. a motor functions - the rotor is trying to chase the revolving magnetic field - playing a sort of "catch-up." there are two types of capacitor motors. one is capacitor start, the other is capacitor run. in the case of capacitor start there is a centrifugal start switch underneath one end bell of the motor. a system of flyballs spin outwards when the motor is up to speed. it opens a contact in series with the start capacitor. capacitor run, the cap is in the circuit all the time. the thing you noticed "not a fuse box" may be the motor overcurrent relay box. it is a current sensitive relay that cuts out the motor if an overload is present. if there are motor lubrication holes, look for yellow or red plastic caps on each end bell, apply a light machine oil. don't use wd-40 - it has a solvent -
        Last edited by HayZee518; 08-06-2008, 05:30 AM.

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        • #5
          Cool. Thanks for the info. Will be hard at work starting this evening

          Comment


          • #6
            Another update: Yesterday I open up the outside unit and checked the fan. The fan spins freely with no noticable wobble. I did not have a analog meter to test the capacitor. But I believe it's still good because the compressor kicks on just the fan is not spinning (or it barely spins). I determined that it is a dual capacitor and is rated as follows: 35+3/440v.

            Now I ordered (no one locally seems to have this motor or if they do have they are not willing to sell to me - only contractors) the motor that Emerson crossreference to the OEM part number but the new motor is to be used with a single capacitor rated at 5mfd/370v but the sytem currently runs with a dual capacitor.

            What do I do now?

            Will I have to get another smaller capacitor just for the compressor or can I use the dual capacitor in the unit now?

            If I use the existing dual capacitor how will that affect the new motor?


            Oh and I determined that the box outside the house is a breaker. I just pulled the jumper out.

            Please help.

            Thanks

            Comment


            • #7
              if the oem company sent you a single cap motor as a replacement use it! you don't have to "re-invent the wheel" so to speak. you don't use a meter for testing the capacitor. you use a well insulated screwdriver. use this procedure and don't vary from it. with power on start the unit, then shut it off. remove ALL power to the unit. MAKE SURE YOU DON'T HAVE ANY POWER GOING TO THE UNIT! IF YOU DON'T YOU KIN GET KILLED! Remove the metal cap on the capacitor and short out from the common terminal to either or both other terminals. If the capacitor is good you're gonna get a nice fat spark! If you get a spark on both terminals to the common terminal the cap is assumed to be good. no spark the cap is shot.

              Comment


              • #8
                Your condensing unit has two capacitors because both the fan motor and the compressor motor are PSC motors.

                In your case they are using a 35/3 ufd dual capacitor. When facing the label side of the capacitor the terminal on the left side is a 35ufd capacitor for the compressor and the terminal on the right side is a 3mfd cap for the fan motor. The center terminal is common for both capacitors.

                You can use a universal replacement motor.

                I am attaching an illustration on universal replacement motors and capacitors.

                When selecting a universal motor you must make sure the shaft is the same diameter and the same length or longer (you can cut some off later if necessary)

                You must have the correct rotation: check the data plate on your old motor for rotations..CW=clockwise CCW=counter clockwise REV=reversible
                (most universal replacement motors are reversible.)

                Check the horsepower..this is critical because if you new motor is undersized it will overheat from mechanical load. If its oversized it will overheat from electrical load.

                Check the rated RPM on the old motor. RPM is critical because the fan blades are HP rated to a specified RPM. If your new motor is too fast it will overload mechanically and if too slow it will overload electrically. (Most universal replacement motors are multi-speed motors. During installation you select the proper wire to line 1 on the contactor to proved the required RPM. The other RPM wires are then cut short and capped off.

                The exact capacitance requirement varies greatly from one size of motor to another but it may also vary from one motor manufacturer to another. It is always best policy to install a new capacitor matched to your new motor.

                Comment


                • #9
                  Thanks for the info. I will report back soon.

                  Update: I purchased a 5mfd/370 capacitor and connected the brown wire from the motor to one terminal and a jumper wire between the existing capacitor and the new capacitor. The fan kicked on and the AC is working fine now. So the motor side of the capacitor was bad.

                  Additional ?s:

                  Although the motor requires a 3mfd/370v capacitor will the 5fmd/370v capacitor damage the motor?

                  Should I purchase a new capacitor for the compressor since the motor side of the capacitor is bad?

                  Thanks everyone for the help and insight. Much obliged.
                  Last edited by Methodical; 08-07-2008, 07:43 PM. Reason: to provide update on AC

                  Comment


                  • #10
                    Fan stopped again

                    Another update: Well the motor stopped again this morning. As long as its running its fine but when it stops it does not come back on. What I noticed is when I initially spun the fan (thru the top vents) with a screw driver it would not spin as easy - turned ac on and nothing. But after a couple minutes of messing with it, it spun pretty easily (could get one full turn) - turned the AC on and now the fan is on again. So to me it seems to be the motor is on its way out so I will change the motor and go from there. Sigh.

                    Thanks for your ears.

                    Comment


                    • #11
                      if it does not come back on then the start capacitor and/or the start winding is shot. with the run capacitor inline and when you spin the fan blade you are in actuality "starting" the motor as the start winding and capacitor would normally do. without the proper start winding energized you could theoretically make the motor run backwards if you spin the fan in the wrong direction. no harm would come to it, it would just run backwards. as far as sizing the capacitor a larger mfd rating is ok just so long you don't pick one BELOW the original voltage rating. 370 is a bit low as the original one was 440v. try grainger supply for a replacement motor.

                      Comment


                      • #12
                        Originally posted by HayZee518 View Post
                        if it does not come back on then the start capacitor and/or the start winding is shot. with the run capacitor inline and when you spin the fan blade you are in actuality "starting" the motor as the start winding and capacitor would normally do. without the proper start winding energized you could theoretically make the motor run backwards if you spin the fan in the wrong direction. no harm would come to it, it would just run backwards. as far as sizing the capacitor a larger mfd rating is ok just so long you don't pick one BELOW the original voltage rating. 370 is a bit low as the original one was 440v. try grainger supply for a replacement motor.
                        The start winding is in the motor right?

                        A 370 capacitor is what is on the motor info tag. The 440 was for the dual capacitor that's was initially installed.

                        Thanks
                        Last edited by Methodical; 08-08-2008, 03:45 PM.

                        Comment


                        • #13
                          yeah the start winding is in the motor - it is wound right over the run winding. look on a washing machine motor [open type construction] you can see the run winding is of a different color and maybe the wire diameter is different because the start winding's current is a bit more than the run winding. basically you have two coils in series for the run and two coils in series for the start. each winding is physically opposite the other. [ in placement on the stator punchings]

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                          • #14
                            Originally posted by HayZee518 View Post
                            yeah the start winding is in the motor - it is wound right over the run winding. look on a washing machine motor [open type construction] you can see the run winding is of a different color and maybe the wire diameter is different because the start winding's current is a bit more than the run winding. basically you have two coils in series for the run and two coils in series for the start. each winding is physically opposite the other. [ in placement on the stator punchings]
                            Oooh someone's up early this morning. I received the motor yesterday. I had already ordered it but was hoping it was just a capacitor. I would've gotten it from one of the local supply house but none would sell to me and the one place that do sell to regular schmos (spelling) wanted twice as much and would take 3 times as long to get it (7-10 business days). So I ordered it online on Wed. evening and received it yesterday to my surprise. I installed it yesterday evening. Only issue was the wires were to short and it spun the wrong direction initially (flipped yellow and orange wires) and so far so good. Will keep an eye or ear on it.

                            Again thanks for all the help.
                            Last edited by Methodical; 08-09-2008, 05:50 AM.

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                            • #15
                              those two wires you swapped changes the magnetic direction on the winding - you shouldn't have any more problems. I worked for a public utility in Massachusetts for 20 years and we had to repair most of all our motors including four 4160 volt three phase induction fan motors. I was licensed in mass with a journeyman and master license for about 35 years.

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