QHYCCD MiniCAM8C (Color) Deep Sky Combo Cooled Camera and Filter Wheel (QHY-MINICAM8C-COMBO)
QHY-MINICAM8C-COMBO
QHYCCD MiniCAM8C (Color) Deep Sky Combo Cooled Camera and Filter Wheel (QHY-MINICAM8C-COMBO)
QHY-MINICAM8C-COMBO
Produits de la même famille
Why Purchase from All-Star Telescope?
Free Expert Support
Whether you are a first timer needing help with setting up or an enthusiast that can't quite make that one thing work, our expert staff are ready to support your needs. With decades of knowledge and first hand experience we've been there and we can help you through it!
Stress Free, Secure Transactions
You can trust purchasing and delivery with All-Star Telescope. All of our transactions are 100% secure and Level 1 PCI DSS compliant thanks to Shopify's ShopPay platform. For additional protection, we insure 100% of the value of every shipment we make. If it get's lost during shipment, we replace it. If it gets damaged during shipment, we replace it. We make sure your product arrives exactly as you would expect it to; we promise.
We also ensure privacy protection. We never keep any of your credit card information on file and any of your personal data is stored according to our policies.
30 Day Return Policy
Buy with confidence knowing that we accept returns up to 30 days after purchase. We want you to have something you will actually use and we are confident that we keep good quality products in our store with No Junk.
Price Match Promise
Shipping around for the best price is tough, we make it easier by offering the best pricing in the market. But if you find a better price on an in-store item somewhere else we will match it!
Description du produit
At just over 4 inches in diameter and a few inches thick (IMX585), the new MiniCAM8 is a compact, high-resolution, high-performance, cooled imaging system capable of exceptional, high-quality deep space images as well as high-quality, high-resolution planetary images.
So often, compactness in astroimaging is achieved at the expense of some other critical feature found in multi-component cooled systems, such as sensor quality or thermoelectric cooling, etc. Such is not the case with the new miniCAM8. Based on Sony’s IMX585 8 MP sensor, the MiniCAM8 includes full TE cooling capable of reaching a delta of -45°C from ambient along with a built-in 8-position filter wheel for complete LRGB and narrowband imaging.
The Deep Sky Combo option also includes custom filters, purpose-built to match the specific characteristics of the cameras.
MiniCAM8 Features
High Near-Infrared Sensitivity
The IMX585 is a Sony Starvis II processor that enables high sensitivity and high dynamic range (HDR). It also improves sensitivity in the near-infrared range by approximately 1.7 times compared to the IMX485. The new camera MiniCAM8 has a maximum quantum efficiency of 60% in the near-infrared band and 92% in the visible wavelength band.
BSI
One benefit of the back-illuminated CMOS structure is improved full-well capacity. This is particularly helpful for sensors with small pixels. In a typical front-illuminated sensor, photons from the target entering the photosensitive layer of the sensor must first pass through the metal wiring that is embedded just above the photosensitive layer. The wiring structure reflects some of the photons and reduces the efficiency of the sensor.
In the back-illuminated sensor, the light is allowed to enter the photosensitive surface from the reverse side. In this case, the sensor’s embedded wiring structure is below the photosensitive layer. As a result, more incoming photons strike the photosensitive layer, and more electrons are generated and captured in the pixel well. This ratio of photon to electron production is called quantum efficiency. The higher the quantum efficiency, the more efficient the sensor is at converting photons to electrons, and hence the more sensitive the sensor is to capturing an image of something dim.
Zero Amp Glow
MiniCAM8 is also a zero amplifer glow camera.
Anti-Dew Technology
Based on almost 20-year cooled camera design experience, the QHY cooled camera has implemented the fully dew control solutions. The optic window has a built-in dew heater, and the chamber is protected from internal humidity condensation. An electric heating board for the chamber window can prevent the formation of dew, and the sensor itself is kept dry with our silicon gel tube socket design for control of humidity within the sensor chamber.
Cooling
In addition to dual-stage TE cooling, QHYCCD implements proprietary technology in hardware to control the dark current noise.
Linearity HDR Mode
The native ADC of the IMX585 sensor is 12-bit. Compared to 16-bit, the 12-bit depth offers fewer bits, resulting in a relatively narrower dynamic range, which may lead to issues such as insufficient color gradation and potential information loss. During the product development of MiniCAM8, QHYCCD merged high and low gain to extend the data to 16-bit. However, since this 16-bit depth is not native, a sudden shift in linearity might occur, affecting the smooth transition in images. To address this, QHYCCD developed the "Linearity HDR" mode, which uses an algorithm-based approach to correct image linearity through software, ensuring smoother transitions and richer color representation.
In the "Linearity HDR" mode, the full well is 46 ke-, while the read noise is only 1.0e-; the dynamic range reaches up to 46,300:1, equivalent to 93 dB or 15.5 stops.
Deep Sky Combo Filters
The astronomical filters included with the miniCAM8 deepsky combos are custom-designed to match the specific characteristics of the cameras. The size is 19mm * 12mm * 1.1mm. The filters provided with the MiniCAM8C deepsky combo are customized by Optolong Optics. These include a light pollution filter, a heavy light pollution filter, a four-channel enhancement filter, and a UV/IR cut filter.
Qu'y a-t-il dans la boite
Specifications
Model | MiniCAM8 |
CMOS Sensor | Sony IMX585 |
Mono/Color | Both Available |
BSI/FSI | BSI |
Sensor Size | 1/1.2inch |
Pixel Size | 2.9μm*2.9μm |
Total Pixel Area | 3856*2180 |
Effective Pixels | 8MP |
Full Well Capacity | 54ke- Linearity HDR Mode: 46ke- |
Readout Noise | 0.76 - 7.8 e- Linearity HDR Mode: 1.0e- |
Peak QE | Mono: 92% Color: R: 82%; G: 87%; B: 75% |
Dynamic Range | Linearity HDR mode: The dynamic range reaches up to 46,300:1, equivalent to 93 dB or 15.5 stops. |
A/D | Dual 12-bit (output as 16-bit) |
Full Frame Rates | Full Resolution: 41.5FPS@8bit@23.5FPS @16bit |
ROI Frame Rates | Full Resolution 1080Lines, 82FPS@8bit, 47FPS@16bit@640Lines, 177FPS@8bit, 105FPS@16bit |
Exposure Time Range | 11μs-900sec |
Shutter Type | Electronic Rolling Shutter |
Built-in Image Buffer | 512MB DDR3 |
Computer Interface | USB3.0 |
Telescope Interface | 1.25 inch |
Optic Window Type | AR+AR |
Filter Wheel | Built-in 8-Position Carousel |
Back Focal Length | 17.5mm |
Cooling System | Dual Stage TEC cooler: Long exposures (> 1 second) typically -45°C below ambient |
Weight | 480g |
Dimensions
Camera Sensor Curves
QE Curves (Mono/Color)
Articles, vidéos et liens supplémentaires
Astrophotographie pour les débutants Étape 4 : Prendre des images du ciel profond
Prendre des photos du ciel profond peut être intimidant, heureusement, il existe un processus simple à suivre pour vous permettre d'obtenir de superbes photos ! Voici le processus typique pour pren...
Astrophotographie pour les débutants Étape 3 : Choisir l'équipement pour l'imagerie du ciel profond
L'utilisation d'un capteur d'étoiles vous permet d'acquérir de l'expérience avec les principes fondamentaux de l'imagerie du ciel profond. Tirer sur la Lune vous permet d'acquérir de l'expérience ...
Astrophotographie pour les débutants - Commencer ici : Entrer dans l'astrophotographie étape par étape
Photographier le ciel nocturne n'a jamais été aussi populaire, ni aussi facile. Le choix d'équipement n'a jamais été aussi meilleur, ni plus abordable. Cependant, selon les conseils donnés par Dick...
Astrophotographie pour les débutants Étape 1 : Utilisation du Star Adventurer Tracker
Le moyen de loin le plus économique et le plus simple de capturer de belles images de la Voie lactée et de grands objets du ciel profond comme la galaxie d'Andromède (illustré ici) est d'utiliser u...
Astrophotographie pour les débutants Étape 2 : Comment photographier la Lune
Les gros plans de la Lune sont gratifiants et constituent un moyen facile d'apprendre à photographier à travers votre télescope. Bien que de bons résultats soient possibles avec un appareil photo d...