ECN Electrical Forum - Discussion Forums for Electricians, Inspectors and Related Professionals
ECN Shout Chat
ShoutChat
Recent Posts
Increasing demand factors in residential
by gfretwell - 03/28/24 12:43 AM
Portable generator question
by Steve Miller - 03/19/24 08:50 PM
Do we need grounding?
by NORCAL - 03/19/24 05:11 PM
240V only in a home and NEC?
by dsk - 03/19/24 06:33 AM
Cordless Tools: The Obvious Question
by renosteinke - 03/14/24 08:05 PM
New in the Gallery:
This is a new one
This is a new one
by timmp, September 24
Few pics I found
Few pics I found
by timmp, August 15
Who's Online Now
0 members (), 260 guests, and 20 robots.
Key: Admin, Global Mod, Mod
Previous Thread
Next Thread
Print Thread
Rate Thread
Page 1 of 3 1 2 3
#203852 10/28/11 01:34 PM
Joined: Jul 2004
Posts: 9,923
Likes: 32
G
Member
I helped my neighbor replace a motor on his boat lift. Usually these are the typical 6 wire motor on a drum switch. (4 wires to the motor) This one was still the 6 wire motor but there were only 3 wires to the motor. After a lot of head scratching and looking into the controller, this is what I figured out. Does this look normal? It does work.

[Linked Image from gfretwell.com]



Greg Fretwell
Joined: Mar 2004
Posts: 947
T
twh Offline
Member
It's new to me but I can't see why it wouldn't work.

Joined: Nov 2007
Posts: 764
K
Member
I found this boat lift motor diagram that looks like it may similar be what you have.

Lift Motor Wiring

Joined: Apr 2002
Posts: 7,381
Likes: 7
Member
Greg:
I had one for a 'friend' on the bay side of the barrier island. He took it apart, & tried really hard to see how bad he could screw it up. Wound up exactly as your diagram & works well.



John
Joined: Jul 2004
Posts: 9,923
Likes: 32
G
Member
Originally Posted by KJay
I found this boat lift motor diagram that looks like it may similar be what you have.

Lift Motor Wiring


That is the normal 4 wire thing you see on the Furnas site for a drum switch.

They are doing this with 3 wires. The difference is the start winding is in series with one of the run windings.
I haven't noticed any loss of starting power but it has to be getting less "kick".


Greg Fretwell
Joined: Jul 2004
Posts: 9,923
Likes: 32
G
Member
John, let me guess, this was a remote control lift?

I drew the controller as a DPDT switch just to show how the logic works. It is really done with a box full of relays. I am still not sure why it is done this way. They still have 2 relays per direction. My guess is the original design was one relay each way but that would have left one side energized. (as my picture is drawn)

Last edited by gfretwell; 10/28/11 09:02 PM. Reason: add a thought

Greg Fretwell
Joined: Apr 2002
Posts: 7,381
Likes: 7
Member
Greg:
You got it! A strange setup, but it works!

He was an office guy, that likes to think that ECs make to much $$. He changed his outlook when I lifted his week old Pursuit up & down! He was playing with the wiring for two days before the 911 call.



John
Joined: Oct 2000
Posts: 2,723
Likes: 1
Broom Pusher and
Member
Looks good to me.

Windings #1-#2 + #3-#4 are the Split Coil Main (Run) Windings.
The Winding at Terminal #8 is the Auxiliary (Start) Winding, which is in Series with the Start Capacitor and the Start Switch. Start Switch Terminal is #5

Appears to be a Dual Voltage ("Low Volts" = 120V, "High Volts" = 240V) 1 Phase Capacitor Start Induction Motor, setup for "High Volts" (240V) Input.

The Auxiliary "Start" Circuit (Winding, Capacitor & Start Switch) connects to the "Center Tap" point of the Main "Run" Windings. This results in 1/2 the Motor Terminal Voltage across the Start Circuit - or 120V.
Look sort of familiar??? Works the same as the 120/240V 1 Phase 3 Wire Transformer feeding it!

With the Start Circuit connected via the Center Tap, the Capacitor may be rated for 120V, even though the Run Windings may be connected across 120V or 240V.

As to the Connections Scheme, the "Key" to proper connections (per "Forward" and "Reverse"), is to "Make" the Start Winding reduce the Mag. Field Strength on One "Side" of the Run Winding.
This is what determines the Startup Rotation.

Using Greg's Schematic example above, Connecting the Start Circuit Terminal #5 to "L2" will start the Rotor in the Counter-Clockwise Direction (normal "Forward" direction).
The Start Winding reduces the Field on the "Lower" Winding Section (#3-#4), causing the Rotor to "Fall" in that direction.

Connecting the Start Circuit Terminal #8 to "L2" will start the rotor in the Clockwise Direction ("Reverse" direction).
The Start Winding reduces the Field on the "Upper" Winding section (#1-#2), causing the Rotor to seek that direction.

BTW, if this Motor is a PSC (Permanent Split Capacitor) type, no Centrifugal Start Switch will be included in the Auxiliary Circuit, and the Auxiliary Circuit is always connected to the AC Input during Motor Operation.

-- Scott


Scott " 35 " Thompson
Just Say NO To Green Eggs And Ham!
Joined: Jul 2004
Posts: 9,923
Likes: 32
G
Member
This is what the manufacture has in his instructions so you can see it was hard to make the leap to what they had.

[Linked Image from gfretwell.com]


Greg Fretwell
Joined: Mar 2004
Posts: 947
T
twh Offline
Member
A+ to the guy who figured out the wiring the way you found it. I wonder about the instant reverse switch, though.

Page 1 of 3 1 2 3

Link Copied to Clipboard
Powered by UBB.threads™ PHP Forum Software 7.7.5