The sonar diagrams indicate the returned signal of each sonar pulse transmission. By analyzing these diagrams, the user can gain additional insight into the performance of the unit.

The diagrams show time delay (distance) on the vertical axis, and amplitude or strength of return on the horizontal axis. An "amplitude" number shows the relative strength of each return signal. The depth number shows the depth of water beneath the boat as measured by each of the six beams.

With the boat stationary over a flat, consistent bottom, the sonar returns from the left and right beams should be similar. Any discrepancy between these signals may indicate a problem with the location of the transducer. (Often voids or irregularities in the laminated hull of a fiberglass boat will block or degrade one or more of the sonar signals.)

By referring to this screen prior to permanently mounting a through-the-hull transducer, the location can be adjusted until no visible loss is observed.

The depth of the water beneath the boat is shown for each of the six beams. In operation, only the two center beams are used to display this depth, however, the depth number is another means of comparison.

When in diagnostic, two menus are available to the user: Depth Range, and Diagnostic. The Depth Range menu can be used normally to control the range of information displayed in the Diagnostic diagrams. The Diagnostic menu is used to exit the Diagnostic function and return to the Start-Up screen.

USING ALTERNATIVE TRANSDUCERS

The Wide 3D Paramount is designed to operate with the Six-Beam transducer included standard with the product. The standard transducer can be mounted on the transom of the boat, or bonded to the inside of most fiberglass hulls. Six-beam transducers are also available in trolling motor mounts, and bronze thru-hull type mounts.

The Wide 3D Paramount has the ability to use the standard Six-beam transducer simultaneously with a secondary Single beam transducer. In the 2D view, the depth capability will increase to 1000'. The Wide 3D Paramount also has the ability to work with the Wide Side transducer. See Available Accessories for selection of these transducers.

Extended Operation

The Extended transducer is a specialized "downlooking" transducer which is extremely useful for deep water fishing. The Deep transducer uses a single sonar element which transmit signals straight down from your boat. The beam is 200 kHz with a 16 degree area of coverage. This beam maintains a continuous digital depth readout from the bottom directly beneath your boat.

The Extended transducer works in conjunction with the standard 3D transducer, giving the user expanded depth capability yet still retaining all the benefits of 3D usage.

The following figure shows a typical view you might see when using the deep transducer. Although all of the functions are the same, you will have the added benefits of seeing the bottom terrain, determining structure and locating fish at a depth of up to 1000'.

The Wide 3D Paramount in conjunction with the Deep transducer provides the user with a 16° single beam transducer for bottom determination while retaining 53° of coverage for fish location. This is a powerful tool that provides a great range of total coverage.

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Humminbird 3D manual Using Alternative Transducers

3D specifications

Humminbird 3D is a groundbreaking sonar technology that has revolutionized the way anglers and marine enthusiasts navigate and fish under the surface of water. Utilizing advanced imaging techniques, this system provides an unparalleled view of underwater structures, fish, and other elements, making it a vital tool for any serious angler.

At its core, Humminbird 3D employs a proprietary sonar technology that combines traditional 2D sonar with sophisticated 3D mapping capabilities. This dual functionality allows users to visualize underwater environments in a way that was previously unimaginable. The 3D views offer depth perception, enabling anglers to identify ledges, drop-offs, and other crucial fishing spots with precision. Instead of just a flat representation, users can see the terrain's contours, making it easier to understand the underwater landscape.

One of the standout features of Humminbird 3D is its ability to create real-time three-dimensional maps. This allows users to dynamically adjust their strategies while fishing, as they can continually monitor how fish are interacting with their surroundings. Furthermore, the system boasts enhanced target separation capabilities, making it easier to distinguish between individual fish and structures.

Another key technology utilized in Humminbird 3D is its integration with the CHIRP (Compressed High-Intensity Radiated Pulse) sonar technology. This allows for clearer images and improved target resolution, providing comprehensive details about various underwater elements. The result is greater accuracy in identifying fish species and understanding their behavior in relation to underwater structures.

Humminbird 3D also features an easy-to-use interface, designed to be intuitive for users of all experience levels. The system can be seamlessly integrated into existing Humminbird products, enhancing the functionality of existing setups without requiring a complete overhaul. Additionally, it supports connectivity with other devices, allowing for the sharing of data and enhancing the overall fishing experience.

Durability and reliability are also characteristics inherent to the Humminbird 3D system. Designed for the harsh environments of marine use, it can withstand the rigors of fishing and boating, ensuring that users have a dependable tool at their disposal.

In summary, Humminbird 3D is a game-changer in the realm of sonar technology, providing anglers with unprecedented insights into underwater environments. Its combination of 3D mapping, CHIRP sonar, real-time monitoring, and user-friendly interface makes it a valuable asset for anyone looking to enhance their fishing experience and gain an edge on the water.