Modding the Canon 1100D T3 X50 To Astro for Jaime скачать в хорошем качестве

Modding the Canon 1100D T3 X50 To Astro for Jaime

Free image processing tool for creating pink foliage from 590 nm infrared images: https://fullspectrumuk.com/apps/590pink/ Download the free Infrared Photography eBook here: https://www.fullspectrumuk.com/infrar... If you are in the EU or UK, we can convert your camera. Digital Camera Conversions to IR, Full Spectrum, or Astro: https://www.fullspectrumuk.com/shop1/... Converted Infrared Cameras for Sale: https://www.fullspectrumuk.com/shop1/... Converted Astro Cameras for Sale: https://www.fullspectrumuk.com/shop1/... Full Spectrum Converted Cameras: https://www.fullspectrumuk.com/shop1/... If you live in the USA, KolariVision is your local camera conversion service: https://kolarivision.com/product-cate... KolariVision Converted Cameras: https://kolarivision.com/product-cate... Infrared Photography Tools CLiR Infrared Photography Mastery – Complete IR Course and Software: https://kolarivision.com/product/clir... KolariVision IR Chrome Lens Filter: https://kolarivision.com/product/kola... Getting Started with Your Converted Infrared or Full-Spectrum Camera by Rob Shea: https://www.fullspectrumuk.com/gettin... Our Blog: https://www.fullspectrumuk.com Our Shop: https://www.fullspectrumuk.com/shop1 Our Instagram:   / fullspectrumuk.com_   Our Facebook:   / fullspectrumuk   Modding the Canon 1100D To Astro for Jaime In this video we will convert this Canon into an astro camera that will take images like this one. This camera is easy to convert. However, we need to align the sensor precisely, as astro images require the sensor to be properly aligned. If not, some corners may not be in focus and the image will be ruined. This Canon model has two filters in front of the sensor. We will remove the second filter so the sensor can see more Hydrogen Alpha light. This part of the light spectrum is important for astro images. This model does not have any sensor springs, and the sensor sits on simple shims. The later model, the 1200D, already has a sensor fitted on springs and needs a little bit more work. There are a few ways to make any camera into an astro camera. If we want a very simple astro camera that can take images straight out of the box, we go with second sensor filter removal. In this case, we only need a lens to take astro images with the camera. Additional astro filters can also be used on the modified camera. If we want to do some custom setups, we go with a full spectrum conversion. In this case, the camera needs an astro filter fitted on the lens or between the telescope and the camera, for example a clip-in astro filter. Astrophotography with a camera modified for infrared, using a 720 nm long-pass infrared filter or higher, reveals a side of the night sky that is largely invisible in normal visible-light imaging. At these wavelengths, interstellar dust becomes more transparent, allowing stars and structures in the Milky Way to appear with increased contrast, especially toward dense regions like the galactic core. Star colors shift toward deeper reds, and many hot, blue stars become less prominent, changing the visual balance of star fields. While emission nebulae dominated by hydrogen-alpha can still be recorded near the lower end of the infrared range, true deep-infrared targets remain out of reach due to atmospheric absorption and sensor limitations. Overall, 720 nm+ infrared astrophotography is less about dramatic nebula detail and more about subtle structural contrast and reduced sky glow. Lets now convert the camera. Make sure there is no battery and memory card in the camera. Unscrew all exterior screws. Carefully separate the back panel, disconnect its two ribbon cables, and remove it. Disconnect all the cables from the main board. Remove the front panel. Insulate the flash capacitor. Be very careful here, as the capacitor still holds a high-voltage charge. Separate the top part. It is ok to have it still attached to the camera. Unscrew the main board screws, disconnect a thick cable, and remove the main board. Unscrew the sensor screws and take out the sensor. Separate the black plastic frame from the sensor.