We recently sent out a mailer to our subscribers letting them know about the portability solutions that we have come up with. Within minutes we received photos and details from many of our customers about how some they have used a little ingenuity to mount their Lowrance units on unique water craft. Below we have a photo gallery of images that could help you design your own portable setup. Of primary importance, however, is a mount that minimizes cavitation (air bubbles) directly under the transducer (e.g., surface noise) and maintaining a correct angle on the transducer. See recent blogs on this topic. The preferable solution is to permanently mount separate transducers following DIY guidance like shown here on each survey craft and just move the Lowrance Elite or HDS display from boat to boat. But if the job calls for a fully portable mount, we can help!
Producing professional-quality aquatic maps has never been easier with Lowrance and BioBase mapping technologies, but there are several strategies that can help you optimize your time on the water and produce the best possible map output:
The transducer connected to your Lowrance echosounder plays a critical role in producing quality map outputs. Fortunately, the mechanics of producing quality hydroacoustic signals has been honed by 57 years of research and development by engineers at Lowrance. Still, users play an important role in optimizing outputs by selecting the correct transducer and installing it correctly
EcoSound is a powerful and intuitive aquatic resource data processing engine that professionals across the globe are coming to recognize. However, the quality of automated outputs greatly hinge on a proper Lowrance transducer mount. If the transducer is off at an angle, the acoustic cone will intercept bottom at an angle and will falsely read depth, bottom composition/hardness, and vegetation height (Figure 1).
|Figure 1. Example sonar log from a transducer face that is not 180 degrees with bottom as seen in Lowrance’s SonarViewer|
Strategies for installing your transducer.
There are a wealth of online resources via YouTube, Google, and our own blog series (for example see our portability blog) about proper transducer mounts. Just search “Lowrance Transducer Installation” and you’ll have a wealth of self-help resources at your disposal. An output from a properly mounted transducer should look like Figures 2 and 3 where the bottom signal is clearly distinguishable from aquatic vegetation.
|Figure 2. Screen shot from a Lowrance HDS7 Gen2 Touch of a clear bottom signal and submerged aquatic vegetation from a properly mounted 200 kHz skimmer transducer.|
|Figure 3. Example of what a clear 200 kHz signal over a vegetated bottom looks like in the EcoSound Trip Replay screen.|
Often, aquatic vegetation grows to the surface of lakes and one of the unique strengths of EcoSound is that the vegetation detection algorithm recognizes conditions that appear to be surface growing vegetation and classifies the growth as such (i.e., biovolume = 100%). Still, in order for the algorithm to function in these environments, some signal must periodically pass through the vegetation canopy and get “peaks” at bottom deeper than 2.4 ft (EcoSound minimum depth for vegetation mapping; Figure 4). If you are mapping areas shallower than this depth, you can add manual vegetation coordinates to unmapped areas (see a CI YouTube video on how to do this)
Monitor SONAR screen while you map
Because having a clear transducer signal is so critical for quality EcoSound data and map products we recommend that users verify a clear Sonar signal in an open water area prior to logging. Drive your boat at different speeds and evaluate at what speed “slivers” start to appear in the bottom signal (Figure 5). These slivers represent acoustic “misses” and typically result from cavitation of water around the transducer face. Periodic slivers or misses while recording are ok, but we recommend that users monitor their SONAR page and take measures to minimize these disturbances (e.g., slow down or adjust the depth of the transducer a few inches – sometimes that’s all it takes).
|Figure 5. An example of where the acoustic signal “missed” the bottom target (white slivered areas). These misses typically result from either an improper transducer mount or excessive speed of travel that causes cavitation near the transducer face.|
A Transducer Field Checklist
- Does the bottom, fish, or plant targets appear slanted?
- Does yellow surface clutter extend a long way into the water column and might possibly obscure vegetation target separation?
- Is my depth signal flashing or am I getting no digital reading?
- Is my range window jumping around indicating it can’t find depth?
- Am I getting a lot of white slivers in my bottom reading?
If bad signal does sneak past your scrutinizing eyes, fear not, you can always edit your output with EcoSound’s Trip Replay feature as seen in our YouTube video series.