Knowing the changes in the contour of the lake bottom can greatly enhance your chances of catching fish. It takes a lot of hours on a specific lake to learn all the good fishing locations by trial and error. Reading the lake contours with a fish finder can minimize the time required to find the best fishing locations. Mounting a fish finder close to the trolling motor enables you to watch your graph as you troll without straining you neck back to the console and gives you the ability to make adjustments to sensitivity, etc without haveing to move about the boat.  The only drawback to a trolling motor mounted transducer is that you can now not use it as a depthfinder while the trolling motor is stowed and the boat is moving.

Lowrance and Humminbird offer a transducer for trolling motor attachment and generally include all that is required for installation. If you already have an extra  puck or skimmer transducer then it is a very simple procedure for installing those to your trolling motor.

First, locate the transducer directly behind the fin on the bottom of the trolling motor. Clamp the transducer to the trolling motor with a stainless steel hose clamp. These hose clamps can be purchased from any automotive supply house. Be sure t measure the circumference of your trolling motor housing so you can determine the proper size of the clamp required.

Puck transducers have a slot for the hose clamp, while skimmer transducer will require the clamp to be placed around the bracket that comes with the skimmer that is used for mounting to the transom. Make certain the transducer points straight down without tilting to either side before tightening your clamp.

Then route the transducer cable around the trolling motor housing and fasten it to the bottom of the trolling motor shaft with a nylon wire tie. Continue clamping the transducer cable up the trolling motor shaft by attaching a nylon wire tie every four to six inches stopping just under the indicator head at the top.  If the trolling motor is a bow mount be sure to allow enough slack in the cable to allow depth adjustment. With transom mount motors no slack is needed.

Once that is completed go back and trim the excess length from the wire ties to make it neat and tidy in appearance. Hopefully you have a fishfinder mounted close to the trolling motor to which you have just installed your transducer. If not, don't freak out!  Most transducer manufacturers or fish finder makers also offer an 10' - 20' extension cable for the transducer. Attach the transducer cable to the fish finder using the plug on the cable end.

You are done with the installation and ready to go catch some fish!  let us know if we can help with any of your marine electronic needs at DJs Marine Electronics.

  The information about fish finder transducers can be both overwhelming and difficult to understand. This article lays out the different aspects of transducers and offers some suggestions on the type of model you may need. These guidelines can be used for both fixed mount and portable fish finders.

Frequency (LOW frequency vs. HIGH frequency)

Transducers come in Low and High frequencies. Low frequencies generally range from 50 to 100 kHz. High frequency models generally range from 180 to 200 kHz. Lower frequency sound waves can travel greater distances. They penetrate further in the water.  Lower Frequency = Greater Depth 

Whether you are using a portable or a mounted model fishfinder, you need to also keep in mind that fish finders are generally designed to work with specific frequencies (or a couple of frequencies). The frequency (or frequencies) your particular model is designed to work with should be found in the owners manual.

Cone Angle

A transducer works by concentrating a sound wave into a beam and emitting this beam into the water. This beam is emitted in a small arc (measured in degrees) from the transducer. As the beam travels deeper into the water, the arc covers a wider area. If you plot the area the beam covers on graph paper it will look like a cone, thus the term "cone angle". If you draw a line from the very tip of the cone down to the cone bottom you have identified the center line of the cone. The emitted sound wave is strongest close to this center line and diminishes as the distance from center line increases.

Cone Angle becomes important because the greater the angle the bigger the coverage area and therefore the bigger the area that the fish finder can "see". As you move further away from the center line, the clarity of the image decreases. 

Frequency and Cone Angle Working Together

High Frequency transducers come with either a narrow or wide cone angle. 

For shallow water fishing, a high frequency (180 - 200 kHz), narrow cone angle (20 degree - 30 degree) model may be a good choice. You will not be able to see great depths, but you're in shallow water. The narrow cone angle will allow you to see things more crisply than a wide cone and will allow you to be able to distinguish the objects you see on the display easier. If you really want to see a large area, then think about a wide cone angle instead.

For deep water fishing you will most likely want to search the highest volume of water possible in the shortest amount of time. Consider fish finders that have a low frequency (50 - 100 kHz) for greater depths, and a wide cone angle (40o - 60o) for greater horizontal distances from the cone center line. This combination will allow you to see at greater depths, but the definition (how crisp the image is on the fish finder's display) will not be as good. You can increase the definition by buying a fish finder with a higher sensitivity display.

Here's a quick summary:

High Frequency/Narrow Cone Angle

Shallower depths

Better definition (crispness) and object separation on the display

Less susceptible to outside interference


 Low Frequency/Wide Cone Angle 

Deeper depths.

Less definition (crispness) and object separation on the display.

More susceptible to outside interference


Dual Frequency Transducers 

Low frequency, wide cone angle setups do have some limitations. For example, you can cover a wide area and a greater depth which gets you into the "general" area of where the fish are, but we don't want to fish in the general area, we want to put our lines directly in front of the fish.

To do that, fish finder manufacturers developed Dual Frequency Transducers. (Humminbird Fish Finders refer to these models as dual beam rather than dual frequency.) Dual frequency models, as the name implies, have two different beams that project at different frequencies. One is set to a low frequency and the other to a high frequency. Many fish finders will allow the fisherman to switch between the two beams on the display. There are also models that have a split screen display that allow the angler to see images from both beams separately at the same time. Some manufacturers even have displays that combine the imagines from the two beams into one image. The display essentially combines the high-frequency detail with the wider beam and deeper search capabilities of low frequency.

For deep water fishing, dual frequency transducers are a great option. They let you find the general area of the fish over a large volume of water using a low frequency-wide beam setting, and then, for greater accuracy, pinpoint the depth and location using a high beam-narrow cone setting for greater clarity. 

For shallow water fishing, a dual frequency transducer may be overkill. There is little need to see fish at a depth greater than a hundred feet so a single beam, high frequency model may a better option.

Overall, there are a lot of choices in fish finders. The transducer is one of the key components of fish finders, whether they are fixed mount of portable fish finders. Make sure you know what type of fishing you are planning and then select a fish finder based on your specific fishing needs.