The fish-finder and how to catch fish with it!
AN INTRODUCTION TO SONAR
The fish-finder started off as a submarine finder. The recent developments in computing power and
microelectronics have resulted in major advances in SONAR development. I spent a couple of years on
new submarine SONAR systems, and this defense level capability has now entered the fishing world. The
term SONAR is derived from the words SOund NAvigation Ranging. Cabela's Holiday '04 GIFTS UNDER $50
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HOW DOES SONAR WORK?
An fish-finder electrical signal is sent to the transducer. The electrical signal to energize the transducer
crystal is generated by an amplifier. The energized crystal reverberates at a particular frequency, to convert
the electrical signal into mechanical acoustic or sound energy. The acoustic energy or sound waves causes
oscillation of the water molecules through which the sound travels. The sound is pulsed out in a defined
beam. These do not travel out in a straight line but in a wave pattern. The acoustic pulse travels through the
water at a rate of approximately 4800 ft (1500m) per second in saltwater and 4920 ft/sec in fresh water.
When the energy strikes an object within that beam such as fish, the sea bottom, or a structure then some of
the energy is reflected, or echoed back to the transducer. The transducer collects this return, passes it back
to the fish-finder and this processes it into display data. As the processor is programmed with the rate of
sound transmission in the water it calculates the time difference between the transmission and reception of
the returned signal to give a range or depth figure. This result is then displayed as a number or as an image
on a screen. Freshwater and saltwater tends to absorb and scatter sound signals, and the higher frequencies
are more susceptible than lower frequencies. Water is frequently being mixed due to environmental factors
such as wind and wave actions. The water has air bubbles, suspended materials such as silt, minerals and
salts that vary in quantity. There are also micro-organisms that include plankton and algae, all which scatter,
absorb and reflect fish-finder sonar signals. Win Free Fishing Tackle Click here
WHAT ARE YOU LOOKING FOR?
The depth determines the fishing technique, and what type of lure or bait. The fish-finder lets you see who
may be at home down there, but it will not guarantee a catch. That part is up to your skills. In most fishing
you will use your fish-finder to look for underwater structure, such as tree stumps, ledges and significant
bottom changes. Cover consists of underwater object such as tree stumps, weed beds, logs etc. You may
also be looking for drop-offs which are gullies and channels or break-lines, which is a sharp bottom drop
off point. You may just be looking for fish activity. If you locate a tight ball of baitfish then they are
probably being chased by a predator. A loose school indicates no activity. A fish-finder is not necessarily
going to tell you what the fish is. Fish-finder interpretation involves understanding both the underwater
features and fish behaviour to distinguish between bait fish and the target fish. Distinguishing between the
bass and the shad or other species is the angling part. Win Free Fishing Tackle Click here
FISH-FINDER FREQUENCIES EXPLAINED
The fish-finder acoustic transmission frequency affects both the water depth range and the cone angle. The
lower frequencies are used in deeper waters and have lower power losses. They also tend to have wider
beam angles and cover wider viewing areas. There are many frequencies used in fish-finder sonar systems.
Typical are 38, 40, 50, 75, 107, 120, 150, 192, 200, 400, and 455 kHz. Lowrance have a frequency of 192
kHz transducers with either a wide (20°) or narrow (8°) cone angle, and a deepwater one of 50kHz with a
35° cone angle. Simrad units have a user selectable tri-frequency capability of 38/50, 38/200 or 50/200kHz
with depth range up to 1800 meters, and have a maximum ping rate of 15 per second. Shallow waters less
than 300 feet give the best results with high frequency transducers of 200kHz and wide cone angles up to
20 degrees. In depths greater than 300 feet low frequency transducers of 50kHz with small cone angles of 8
degrees are the best option. Look at the fishfinder options at Westmarine. West Marine- America's Favorite Boating Supply Source
WHAT ARE THE FISH-FINDER SCREEN CHOICES?
Fish-finder displays must be both high resolution and good contrast and are typically in the range of 240
and 320 vertical pixels. Fish-finer displays are also sometimes quoted in pixels per square inch, i.e. 15,170,
and the more pixels the better the resolution. Many are happy to have a 160 x 160 pixel unit, however the
image is a lot sharper with a 240 x 240 pixel screen, and some Grayscale screens have 480 x 350 pixels.
Some new fish-finder units come up to 400 x 400 pixels. If you have a 240 pixel unit set at 240 feet then
each foot of depth will equal one pixel. Strong returns will also switch on the adjacent pixels to give a
larger image. You may get small images all the way up the column which can be caused by small fish,
debris and noise. The full color VGA TFT screens from Lowrance have pixel resolutions of 640 x 480.
Humminbird have what they call a high resolution Grayscale Liquid Paper Graph (LPG). Some units have
high-resolution displays in 8 or 16 colors on a 10.4-inch TFT LCD display. Color displays use up to 16
colors for different signal strengths. The stronger ones are displayed in red, and weaker signals as green or
blue, for example baitfish schools are generally in blue or green, with larger game fish being yellow,
orange or red. The seabed and wrecks are usually displayed as dark orange or red.
READ THE INSTRUCTION AND OPERATION MANUALS!
Many fish-finder problems are simply incorrect operation. Read the manual and practice using the fish-
finder. Understand how to navigate through the various menus and options. If you have lost the fish-finder
manuals you can get most off websites. Lowrance, Eagle, Raymarine, Garmin, Simrad and Humminbird
have most available for free download.
Have You Lost Your Lowrance Fish-finder Operations Manual? Bought a unit without
one? Click on the manufacturers' links below to access download pages for their manuals.
Lowrance
CLICK HERE FOR FREE MANUAL DOWNLOADS FROM LOWRANCE
Have You Lost Your Humminbird Fish-finder Operations Manual? Bought a unit without
one? Click on the manufacturers' links below to access download pages for their manuals
CLICK HERE FOR FREE MANUAL DOWNLOADS FROM HUMMINBIRD
Have You Lost Your Raymarine Fish-finder Operations Manual? Bought a unit without
one? Click on the manufacturers' links below to access download pages for their manuals.
Raymarine
CLICK HERE FOR FREE MANUAL DOWNLOADS FROM RAYMARINE
Have You Lost Your Simrad Fish-finder Operations Manual? Bought a unit without one? Click on the manufacturers' links below to access download pages for their manuals.
CLICK HERE FOR FREE MANUAL DOWNLOADS FROM SIMRAD
Have You Lost Your Garmin Fish-finder Operations Manual? Bought a unit without one?
Click on the manufacturers' links below to access download pages for their manuals.
Garmin
CLICK HERE FOR FREE MANUAL DOWNLOADS FROM GARMIN
Have You Lost Your Eagle Fish-finder Operations Manual? Bought a unit without one?
Click on the manufacturers' links below to access download pages for their manuals.
Eagle Electronics
CLICK HERE FOR FREE MANUAL DOWNLOADS FROM EAGLE
TROUBLESHOOTING FISH-FINDERS
Troubleshooting entails reading the manual and determining whether settings are correct and
operating procedures are also correct. Go into the settings or options menu and ensure settings are on auto
or defaulting to the factory settings.
The fish-finder will not start up
1. This is generally caused by loss of supply so check supply switches and fuses. Check any supply circuit
connections. Check for any corrosion at the in-line fuse which causes high resistance and at the power connection plug pins.
It may show okay when testing but when on load and fish-finder is on, the high resistance creates a voltage drop
2. Check that plug is properly inserted, and also check that pins are not damaged or broken.
3. Check supply cables are not damaged. Look for cable nicks or cuts. If all is found to be okay with power
checked at plug then the sounder switch is faulty. Use caution when straightening bent pins, they break
easily. Check all connectors and connector pins for damage, and that they are straight and not bent. If
straightening the pins there is a risk of breakage as they are brittle. Connectors not properly inserted or
tightened up are prone to saltwater ingress and corrosion
The fish-finder has poor resolution or range
If bottom images are poorly defined or performance has degraded, or fish do not appear to be detected
check the transducer. If the transducer is not directed straight down and is angled this can reduce
performance. Make an interference check. Check that the water depth you are fishing in is within the
sounders nominal depth range. Check the power supply is correct, lower voltages due to poor connections
or low battery can affect the unit. If the transducer is the inboard type, check that this has not deteriorated.
Make some water surrounds the transducer to displaced any air bubbles that may have formed.
DO YOU WANT TO KNOW MORE ABOUT TROLLING_MOTORS and FISH-FINDERS? CLICK HERE FOR ALL YOU NEED TO KNOW