Transmitter: | 1,500 watts |
| 188 watts RMS power (typical). |
Sonar sounding |
|
depth capability: | 1,000 feet (305 meters). Actual capability de- |
| pends on transducer configuration and in- |
| stallation, bottom composition and water con- |
| ditions. All sonar units typically read deeper |
| in fresh water than in salt water. |
Depth display: | Continuous digital readout. |
Audible alarms: | Deep/shallow/fish. |
Automatic ranging: | Yes, with instant screen updates. |
Auto bottom track: | Yes. |
Zoom bottom track: | Yes. |
No. | |
Surface water temp: | Yes, built into transducer. Optional external |
| temperature sensor or combo speed/temp |
| sensor available. |
NOTICE! |
|
The storage temperature for your unit is from
How Sonar Works
Sonar has been around since the 1940s, so if you already know how it works, skip ahead to the next segment on the typographical conventions used in this manual. But, if you've never owned a sonar fish finder, this segment will tell you the underwater basics.
Sonar is an abbreviation for SOund NAvigation and Ranging, a technol- ogy developed during World War II for tracking enemy submarines. A sonar consists of a transmitter, transducer, receiver and display. In simple terms, here's how it finds the bottom, or the fish:
The transmitter emits an electrical impulse, which the transducer con- verts into a sound wave and sends into the water. (The sound frequency can't be heard by humans or fish.) The sound wave strikes an object (fish, structure, bottom) and bounces back to the transducer, which converts the sound back into an electrical signal.
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