5.0 EVA Rigging System (cont’)

5.3 Assembling and Flying an EVA Array

On each end of an EVA module are a pair of upper and lower connection points that accept the supplied M10 flathead bolts to either (1) attach the side arms of an EVA-SG standard grid or an EVA-EG extended grid to the top of the upper array module (or bottom of the lower array module as well) or (2) attach the tie plates supplied with each module so that the modules can be attached to each other. Figure 14 identifies these parts.

The first step in assembling an array is to attach the two side arms of the grid to the upper array module. Attach the side arms with the M10 bolts supplied and tighten securely. A single spreader bar is then at- tached to the side-arm holes shown in EVADA that provide the desired array aiming angle. See section

3.0Designing an EVA Array, above. When two spreader bars are used they should be attached to the extreme front and back positions on the side arms, for maximum control over the array’s vertical aiming angle.

Attach a chain hoist(s) or other lifting device(s) to the assembled grid and the upper EVA module. Then take the following steps:

1.Lift the assembly to the point where the second EVA module can just be slipped under the suspended partial array.

2.Using four M10 flathead screws (provided) attach a tie plate (flat end to the rear) to each end of the suspended module but do not fully tighten screws.

3.Move the second module into place under the suspended module between the tie plates.

4.Align the holes in the tie plates with the corresponding holes in the lower module and as- semble to the one above with four M10 flathead screws (provided).

5.Fully tighten all eight M10 screws.

6.Connect the input terminals of the lowest module in parallel with the EVA modules above it.

Repeat the five steps above for attachment of additional EVA modules.

After the last module is attached, even though a tie plate will not be attached to its bottom end panels, install a pair of M10 screws per end panel where the tie plate would have attached in order to prevent audible air leaks.

Complete the array by attaching the cosmetic end panels, using the six M5 screws supplied for each panel. Tighten the screws by hand or use a power drill with a moderate torque setting. Over tightening will drive the screws through the wood of the end panels!

An array will typically be fed from the top down and it is recommended that as each module is added to the array it should be wired to the one above and the shading selector position set and verified per EVADA. Attenuation modules (if needed) may also be installed at this time. Note that shading and/or at- tenuation in the wrong place will seriously detract from the performance of the completed array!

The completed array may now be hoisted into position and secured in the final way intended.

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Garmin EVA-2082S/906, EVA-2082S/126, EVA-2082S/920 user manual Assembling and Flying an EVA Array
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EVA-2082S/920, EVA-2082S/126, EVA-2082S/906 specifications

Garmin has once again solidified its reputation for innovation and quality with the release of the EVA-2082 series, specifically the EVA-2082S/126, EVA-2082S/920, and EVA-2082S/906 models. These advanced devices blend cutting-edge technology with user-friendly features, catering to both novice and experienced users alike.

At the core of the EVA-2082 series is the integration of Garmin's proprietary GPS technology. Each model offers enhanced accuracy and reliability for navigation, ensuring that users have access to precise location tracking and real-time updates. The built-in multi-band GNSS capabilities allow for improved satellite reception and performance even in challenging environments, such as urban canyons or dense forests.

One of the standout features of the EVA-2082 series is the vibrant display, which delivers crisp visuals and easy readability in various lighting conditions. With customizable interfaces, users can tailor the information displayed to suit their specific needs, showcasing vital statistics such as speed, distance, and elevation.

The EVA-2082 series also emphasizes connectivity with Bluetooth and Wi-Fi capabilities, enabling seamless integration with smartphones and smartwatches. This connectivity allows users to receive notifications, sync data, and even share routes with other devices, enhancing the overall experience.

In terms of durability, the EVA-2082 models are designed to withstand the rigors of outdoor activities. They are water-resistant and built from high-quality materials that can endure harsh weather conditions, making them ideal companions for hiking, cycling, or other adventures.

A notable addition is the comprehensive navigation features that include preloaded topographic maps, which are essential for off-road exploration. Each device supports route planning and provides turn-by-turn directional prompts, making it easier than ever to explore new terrains confidently.

Battery life is another critical aspect where the EVA-2082 series excels. With an extended battery life, users can enjoy long hours of uninterrupted navigation without the worry of their device dying mid-journey.

In conclusion, the Garmin EVA-2082S/126, EVA-2082S/920, and EVA-2082S/906 models showcase the brand's commitment to excellence in GPS technology. With a robust set of features, superior navigation capabilities, and user-friendly interfaces, these devices are poised to become indispensable tools for outdoor enthusiasts and adventurers around the globe. Whether you're hiking through rugged trails or navigating city streets, the EVA-2082 series ensures you stay on track and ready for your next journey.
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