Orion #52099 instruction manual Luminance Menu Figure

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Figure 13. Presets.

Presets (Figure 13)

Quick Button Shortcuts

Five preset button icons are available as shortcuts to setting multiple parameters at the same time.

Pressing the icon button will set multiple parameters to enable quick setup times and helps tailor camera settings to best match user’s telescope configuration.

Users can modify settings within the submenus and then press the save button for the software to assign current settings to that particular Preset button.

The settings that are saved and can be recalled via preset buttons are:

ALC

Fixed Shutter

AES

Slow Shutter

AGC

Peak Control

Priority

Luminance Menu (Figure 14)

ALC – Auto Luminance Control

Auto Luminance Control (ALC) indicates the image sensor’s ability to automati- cally adjust in diverse lighting conditions to yield the most vivid video image possible.

When ALC is active AES will be turned off automatically.

Fixed Shutter

When Fixed Shutter is active AES will be turned off automatically.

Figure 14. Luminance submenu.

When Fixed Shutter is active the following shutter speeds are available.

NTSC: (1/30s ~ 1/1000s)

1/30, 1/50, 1/60, 1/100, 1/120, 1/180, 1/350, 1/500, 1/750, 1/1000, 1/2000, 1/4000, 1/10000

PAL: (1/30s ~ 1/1000s)

1/25, 1/50, 1/60, 1/100, 1/120, 1/180, 1/350, 1/500, 1/750, 1/1000, 1/2000, 1/4000, 1/10000

Shutter speed should be selected to best suit the object being observed and the telescope being used.

For low light objects Fixed Shutter should be turned OFF.

AES – Auto Electronic Shutter (Rolling shutter)

AES is used when a manual or fixed iris lens is fitted and the shutter speed will respond to the amount of light to keep the signal at optimum level.

AES allows changing the iris level automatically without using the auto iris lens. Note: AES is not normally used for astronomy.

Slow Shutter (Sense Up)

Sense-Up: An image processing technology which allows user selectable digital slow shutter speeds in order to allow extra light into a camera thereby providing higher sensitivity in low light conditions.

The minimum frame integration is 1/15 second for NTSC (1/12 for PAL). The maximum frame integration is 8 seconds (NTSC and PAL).

Set Fixed Shutter SPEED (ALC) to OFF for sense-up frame integration.

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Contents Orion StarShoot HD Video/ Web Broadcasting Camera Parts List Video ResolutionViewing on Computer or Laptop in HD Viewing on TVViewing on Computer or Laptop in SD Order to view on a standard TV SDNTSC/PAL TV System Selection Selecting Video Format for Your Country SD TV SignalOperating Without a Computer Enabling or Disabling SD and HD Video OutputHDV Display Mode Setup Menu Display Control FigureSDV Display Mode Computer Control SoftwareLuminance Menu Figure Color Menu Figure Using the Camera for the First Time Utility Menu FigurePlanetary Imaging Recording VideoView and Stack Lunar Imaging Tips FocusingTerrestrial Imaging Internet Broadcasting Connections And CablesChoosing a Site for Astro-imaging Care and MaintenanceUsing Focal Reducers and Barlow Lenses Solar FilterSshd Manual Menu AGC AUTO/FIXSpecifications One-Year Limited Warranty

52099, #52099 specifications

Orion #52099,52099 is a remarkable specimen in the world of aerospace technology. This cutting-edge spacecraft reflects a leap in design and engineering, making it a significant player in the ongoing exploration of our solar system. This article delves into the main features, technologies, and characteristics that define the Orion #52099,52099.

At the heart of the Orion #52099,52099's design is its advanced crew module, which is engineered to support long-duration missions beyond low Earth orbit. This module can accommodate up to four astronauts, providing them with the necessary life support systems and living accommodations. The cabin is equipped with state-of-the-art environmental control systems, ensuring that crew members can operate in a safe and comfortable environment, even in the extreme conditions of space.

One of the defining features of the Orion #52099,52099 is its robust avionics suite. The spacecraft is outfitted with highly sophisticated navigation and communication systems, allowing for precise positioning and data transfer. The onboard computer systems are designed to handle a wide range of operational tasks, from autopilot functions to complex rendezvous maneuvers with other spacecraft or space stations.

In terms of propulsion, the Orion #52099,52099 utilizes a powerful combination of launch and in-space engines. The spacecraft is equipped with an exploration-class propulsion system that provides the ability to perform deep-space maneuvers. This system not only enhances the spacecraft's range but also enables it to execute critical orbital insertion and departure maneuvers safely.

Another key characteristic of the Orion #52099,52099 is its modular design, which allows for easy upgrades and adaptability. This modularity means that as technology advances, the spacecraft can be modified or enhanced without requiring a complete redesign. This characteristic is crucial for ensuring the longevity and relevance of the Orion exploration missions.

Furthermore, the Orion #52099,52099 is built with durability in mind. Its thermal protection system can withstand the intense heat generated during re-entry into Earth's atmosphere, ensuring the safe return of the crew. The spacecraft's structure is designed to endure the rigors of launch and deep space travel, providing peace of mind for both astronauts and mission control.

In conclusion, the Orion #52099,52099 stands as a testament to human ingenuity and the relentless pursuit of exploration. Combining advanced technologies with a focus on safety and adaptability, this spacecraft is poised to play a pivotal role in future missions to the Moon, Mars, and beyond. As we continue to push the boundaries of space exploration, the Orion #52099,52099 embodies the spirit of discovery that drives humanity to explore the cosmos.