Below are Images produced in AutoCAD LT 2011. There is a coordinate plane in the upper right hand corner of the screen in order to label which orientation of the control box. Images may be clicked to be enlarged to native resolution if the desire arises to see higher definition.
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| Above: This is the Top View of my Control Box that I will be creating for the Underwater ROV. You are able to see the top of the Playstation port, Rocker Switch, LED, Side of the 9 Pin D Sub Connector, and the Reset button. Due to the construction being made out of acrylic, the components underneath the lid of the finished product will be visible. |
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| Above: Front View: This is an example of the elevated Arduino Microcontroller and a side profile of most of the components in order to see how flush I would like the design to be. |
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| Above: Left View: Easily Visible 9-Pin D Sub Connector and side profile of individual components. |
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| Above: Right View - Visible RJ-45 connector for the exported data and power connectors. |
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| Above: Isometric view of the controller box. Ability to see things in 3D with depth is crucial to completely understanding the cohesiveness of the components and their layout respectively in the Controller box. |
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| Above: This is the same isometric view with the Breadboard I have installed on the upper side of the project box. This is required for it to work but in the views, there would be an obstruction of view which takes away from the depth and the 2D Conversion analysis of the control box. |
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Above: Isometric Bottom View: This is crucial to see the breadboard standoff's to understand how it is going to be mounted within the control box and to see the perforations in the Breadboard for electrical components.
Above is a dimensional analysis of the on-land circuit control box that will be used for complete operation and movement of the underwater remote operated vehicle.
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