PWM for the trolling motor?

TinBoats.net

Help Support TinBoats.net:

This site may earn a commission from merchant affiliate links, including eBay, Amazon, and others.

gotmuddy

Well-known member
Joined
Nov 21, 2008
Messages
280
Reaction score
0
Location
Viola, AR
I am wanting a variable speed trolling motor but I dont have the cash for one. what I do have is a 67lb thrust 24v and I found a Pwm on ebay:

https://www.ebay.com/itm/160736035041?ssPageName=STRK:MEWAX:IT&_trksid=p3984.m1423.l2649

it may be overkill but I would rather have too much than not enough.
 
I think this one would be better:
https://www.ebay.com/itm/24V-60A-DC-Motor-Speed-Control-PWM-HHO-RC-Controller-/140729258379?pt=US_Power_Inverters_&hash=item20c41e118b
 
a pwm has no effect on amperage. it creates pulses that make DC act like AC, like a dimmer switch. I am wanting to use one to match the speed of my trolling motor to the current.
 
It is my understanding that both a regular (speed coil) and a digital trolling motor constantly use the same amount of amperage when electric current is being sent to the motor. The difference is that a regular trolling motor draws the full amperage constantly and allows you to run at different speeds by reducing the voltage going to the motor using a speed coil that acts as a big resistor and wastes part of the power as heat.

A digital trolling motor has an electronic switch that turns on and off rapidly sending a pulse of power to the motor. The faster the switch opens and closes, the faster the speed of the motor. So less amperage is used at slower speeds because the current to the motor is being switched on and off and the amount of time electricity is turned on is reduced. At full speed, a battery charge would probably last the same amount of time for both a regular and a digital trolling motor. The slower you go, the longer the battery charge will last on a digital trolling motor vs a regular (speed coil) trolling motor.

You will get more distance out of a battery charge on a regular trolling motor if you only run it at the top speed. With a digital trolling motor you probably get about the same distance at any speed but you can use the trolling motor for a longer period of time by running it a a slow speed. There are other variables, wind, water current, etc but the amount of time you are sending electicity to the motor is the main thing that determines how long your battery charge lasts. With a regular tolling motor you are constantly sending electric current to the motor, with a digital, you are sending short bursts of electric current to the motor.

I know it is harder on my trolling motor, but I leave my trolling motor on speed 5, 4, or 3 and use a Big Foot switch to control my speed by manually turning it on and off with my foot. It lets me use my trolling motor for a longer period of time from one battery charge. It also probably scares the fish because my foot is not as smooth as a digital trolling motor or even using the speed handle on a regular trolling motor. Not a good idea for crappie but white bass and cat fish don't seem to mind.

After look at the Internet, I think my basic concept about how the digit speed control works is right but in reality it has a lot more happening to make it practical.
 
it creates pulses that make DC act like AC

This is not quite correct. The current in a pulse width modulator only flows in one direction, not two like AC.
 
That's my understanding also, a polarity reversal never occurs but PWMs are available for AC uses also. Two common uses are light dimers and electric stove tops. We have some huge PWMs to dim the lights in our church.

How do you wire in the PWM devices that you are looking at?

Is any special filtering used so that they would not interfer with the sonar unit?

How did you determine what type of unit would fit your needs?
 
so far I am flying by the seat of my pants. I dont have a sonar unit yet, mainly as I fish small rivers.
 
Keep us uptodate. I'd like to see how this works out and how you make your decisions. I am lost even thinking about it. If it works, it gives us some options. Thanks
 
I've used nearly the identical PWM controller as the OP on two of my motors now for about 2 years. I've actually listed one on the Sell it/swap it page:

https://www.tinboats.net/forum/viewtopic.php?f=9&t=26421

I've found that it works WONDERFULLY!

The installation on my cable steer motor was simple. Just put the PWM controller in line with the power feed and then place the speed switch on "5". Never had a problem. I even extended the wire for the potentiometer (control dial) with an old PS/2 mouse cord.

Only thing that I found was that if the mouse cord wasn't attached when the PWM controller has power, the propeller will spin up to full speed on it's own.

I also took the time to pull apart the housing and sealed the ends and openings to prevent any water from getting in.

I love fishing with it because I can set the speed down to an extremely slow crawl, with the propeller turning one rev every two seconds and just point it in the direction I want to go. The original "1" speed was always too fast to fish on constantly.

The installation on the Electric steer Power drive motor was a little more difficult, as I didn't want the PWM controller slowing down the turning speed of the steering motor. So for this, I had to open the unit up and only add the PWM controller after the power split to the head unit. Again, it worked very well.

ONE CAUTION: these units don't have polarity protection, and it takes less than a second to fry one if you hook it up wrong. I found out the hard way.

Good luck with it and let me know if you have any questions!
 
Here are some pictures of the setup.

Here's the whole setup with the PWM controller on my older Powerdrive motor. The original speed switch didn't work well, so I replaced it with the new controller:
2012-06-27 20.34.19-a.jpg

And here's a picture of the modified controller with the PS/2 cord. I used a waterproof box and a couple of panel mount PS/2 connectors:
2012-06-27 20.35.12-a.jpg


You can see the Mouse cord (along with my sailing buddy) attached to the side of the Powerdrive unit, as well as the controller hanging off.
IMAG0384.jpg
 
Nice setup Kofkorn! Could you please share with us how to you run the motor in reverse as I don't see any reverse switch on your controller. Can you also have some diagram that show the interconnection between the motor/controller and batter? Thanks.
 
Hi Luvxu,

No reverse. I simply spin the motor around. The newer Powerdrive motors don't have a reverse either. As to the connections, I don't have a diagram made, but it's not terribly complicated. These controllers have power and ground from battery, power and ground to motor, and then three wires for the control (5V+, gnd, Signal)

The only challenging thing on this particular motor was breaking out the wiring AFTER the power was split off to the steering motor. If I had simply placed the controller on the main power leads, the PWM would have been applied to the steering as well. That would have significantly slowed the steering function down depending on the motor speed. So I got into the wiring and spliced into the power lead that went to the propulsion motor only. It was a tight fit, but worked perfectly afterward.

I also added a PWM controller to a cable steer motor. That was much more straight forward. I simply added the controller into the boat wiring under the bow and didn't do a thing to the motor. Then all I had to do was leave the original motor switch on "5" and use the PWM to control the speed instead.

Each motor and controller would be a little different.

Good luck!
 
I may be over simplifying it but couldn't you just put in a variable ohm resistor in the circuit where the current speed setting switch is so you can change the resistance there in a linear way rather than the speed settings? I did something similar when the speed setting switch broke on my old Evinrude and I couldn't find a replacement. I forget the specs, but I was able to find a variable ohm potentiometer in the right range at radio shack and it worked great until it got wet. I then got one on eBay that was waterproof. They are used for the speed settings in wheelchairs/golf carts etc...

Here is one similar to what I got for mine, can't find the exact one. Worked great on a 24V 65lb thrust motor.
https://www.ebay.com/itm/1-X-TOCOS-Throttle-Potentiometer-RVQ24YS08-03-30S-B502-/271819951637?pt=LH_DefaultDomain_0&hash=item3f49bb4e15

Again if this isn't what you are looking for I apologize!
 
bAcKpAiN said:
I may be over simplifying it but couldn't you just put in a variable ohm resistor in the circuit where the current speed setting switch is so you can change the resistance there in a linear way rather than the speed settings? I did something similar when the speed setting switch broke on my old Evinrude and I couldn't find a replacement. I forget the specs, but I was able to find a variable ohm potentiometer in the right range at radio shack and it worked great until it got wet. I then got one on eBay that was waterproof. They are used for the speed settings in wheelchairs/golf carts etc...

Here is one similar to what I got for mine, can't find the exact one. Worked great on a 24V 65lb thrust motor.
https://www.ebay.com/itm/1-X-TOCOS-Throttle-Potentiometer-RVQ24YS08-03-30S-B502-/271819951637?pt=LH_DefaultDomain_0&hash=item3f49bb4e15

Again if this isn't what you are looking for I apologize!

This is how I understand Speed Coil vs Digital (PWD).

What you are describing is the way a traditional variable speed coil trolling motor works. The speed coil is a variable resister and it burns off part of the voltage as heat so it varies the voltage going to the motor. You get the same amount of time from the battery on the water at the highest speed as you do at the slowest seed.

A PWD switches the motor on/off at high rate of speed so very little power is wasted in heat. Digitally switching the power on/off controls the speed by sending maximum voltage in varying pulses (off/on periods). If you are running at the slowest speed with a PWD, you can get 4 to 5 times the amount of time on the water with the same battery. You are converting your motor to a digital motor similar to Minn Kotas or Motor Guides digital motor.

The more you run at a slower speed, the greater your time on the water with a digital speed controller.
At full speed there a should be little or no advantage.
 
bAcKpAiN said:
I may be over simplifying it but couldn't you just put in a variable ohm resistor in the circuit where the current speed setting switch is so you can change the resistance there in a linear way rather than the speed settings?

nlester said:
The speed coil is a variable resister and it burns off part of the voltage as heat so it varies the voltage going to the motor....

...At full speed there a should be little or no advantage.

nlester, you are partially correct. The speed coil is actually not variable. There are usually two or three different speed coils in the motor housing, each with a different set amount of windings. The windings provide the magnetic field for the motor armature, and the magnetic field controls the speed of the motor. The switch at the top usually stacks these three coils in different combinations to get varying windings, and therefore varying speeds. It's essentially having varying amounts of magnetic field based on how many times the motor is wrapped. However, you're applying a full 12V every time.

So bAcKpAiN, in theory, your idea would be OK and the simplest way to control the speed to the motor. The challenge is that a typical trolling motor draws a VERY large amount of current. @12V ~1A per lb of thrust. So a 50lb thrust motor is drawing about 50A at 12V. Putting that together means 12V x 50A = 600 watts of power. The potentiometer that you listed is for signal voltages and would fry in a matter of seconds the first time you used it if placed inline with the motor. Now if you go looking for a 1K 600W rheostat, you're going to find they are in the $200-$300 range. The rheostat would need to be able to dissipate up to 600w of power to work properly.

As nlester stated, the PWM unit does this far more efficiently so it doesn't need to dissipate nearly as much power. This means that you will get more out of your battery.

You just need to make sure that you are sizing your components properly for the application.

Good luck!
 
I understand what you are saying but aren't the speed control switches wired into a foot pedal where that kind of juice isn't flowing? I know my battery life varies greatly depending on my speed settings. Don't all trolling motors already have some sort of variability built into them?

If you were building one from scratch (plain dc motor) I would see the need, but not a comercial trolling motor with speed settings already built into the design. If i understand correctly the OP was looking to replace the canned speed settings with a variable linear speed control.

I guess they have different types of speed control all together ?
 

Latest posts

Top