On Sale 
ZWO ASI664MC Colour Astronomy Camera
The ZWO ASI664MC Colour Camera features 4.15MP resolution, 2.9µm pixels, 95 FPS, and 91% QE, making it perfect for capturing detailed planetary and lunar images.
Shipping Calculator
The ZWO ASI664MC Colour Astronomy Camera offers a compact and efficient solution for astrophotography enthusiasts, equipped with advanced sensor technology and excellent performance features. It utilises the Sony IMX664 sensor, which provides a resolution of 4.15 megapixels (2704 x 1536) with a 7.84 x 4.45mm sensor size and 2.9µm pixel size, delivering sharp and vibrant captures of celestial objects.
This camera supports a maximum frame rate of 95 FPS, making it ideal for capturing fast-moving objects such as planets and the Moon. With a high quantum efficiency (QE) peak of 91%, zero amp glow, and a full well capacity of 36,500e, the ASI664MC excels in producing detailed, low-noise images. Its rolling shutter ensures smooth and consistent exposures.
Full Specifications
| Type | Colour |
| Sensor Type | IMX664 |
| Sensor Format | 1/1.8" |
| Diagonal | 9.02mm |
| Sensor Size | 7.84 x 4.45mm |
| Pixel Size | 2.9 μm |
| Read Noise | 0.46-5.8e |
| Resolution | 4.15MP (2704x1536) |
| Max Framerate | 95 FPS |
| Memory Buffer | 256MB DDR3 |
| Zero Amp Glow | Yes |
| Shutter | Rolling Shutter |
| QE Peak | 91% |
| Full Well | 36,500e |
| Back Focus | 12.5mm |
| ADC | 12-bit |
| USB | 3.0 |
| Adapter | M42 X 0.75 |
| Protec window | AR-coated ⌀21mm, 1.1mm |
| Weight | 126g |
The ASI664MC includes a USB 3.0 interface for fast data transfer and a built-in 256MB DDR3 memory buffer to prevent frame loss. Its AR-coated protective window reduces reflections and improves light transmission. With a back focus distance of 12.5mm, it integrates seamlessly with a wide range of telescope setups.
ZWO ASI664MC vs ZWO ASI662MC
Zero Amp Glow
The ZWO ASI664MC features a hardware-level no-glow design that eliminates amp glow, even during long exposures or when using high-gain settings. This ensures consistently clean, high-quality images—no software intervention required.
Optimised Camera Performance
With low readout noise and a wide dynamic range, the ASI664MC delivers exceptional image quality. Its built-in HCG (High Conversion Gain) mode automatically activates at gain settings of 252 and above, reducing readout noise to below 1.0e while maintaining a dynamic range close to 11 bits. This allows you to capture faint details without sacrificing tonal depth.
Quantum Efficiency
Quantum efficiency (QE) and readout noise are key indicators of a camera’s performance. A higher QE and lower readout noise significantly improve the signal-to-noise ratio, resulting in cleaner, more detailed images. Based on our estimates, the ZWO ASI664MC achieves a QE peak of approximately 91%, making it highly efficient at capturing faint light.
Protective Window
The ASI664MC uses an AR-coated (anti-reflection) protective window with a 21mm diameter and 1.1mm thickness.
This coating enhances the camera’s sensitivity and performance across both ultraviolet (UV) and near-infrared (NIR) wavelengths.
About ZWO Optical
Astrophotography has never been easier.
Established in 2011, ZWO Optical is a fast-growing global astroimaging camera powerhouse based in Suzhou China. They focus on building and innovating ground-breaking CMOS cameras such as the iconic ZWO ASI120MM Monochrome CMOS camera (the first-ever planetary CMOS camera to beat a CCD in the early 2010s). ZWO continues to pioneer new astrophotography technology with revolutionary features to capture exceptional quality of images of space that will last you a lifetime. Today, ZWO cameras are recognised by every passionate astrophotographer and are available in over 25 countries internationally.
Product Code: ASI-664MC
| Colour / Monochrome | Monochrome |
|---|---|
| Sensor Type | IMX664 |
| Sensor Size | 1/1.8" 7.8x4.5mm |
| Resolution | 2704x1536 |
| Pixel Size | 2.9um |
| ADC | 12bit |
| Read Noise | 0.46e- |
| USB | 3.0 |
| FPS | 95fps |
| Shutter | Rolling Shutter |
| QE Peak | 91% |
| Full Well | 36.5Ke- |
| Back Focus | 12.5mm |
| Operating System Compatibility | Windows, Mac OSX, Linux |
| Cooled? | No |
| Usage | Planetary Imaging |
| Camera Weight | 126g |
| Warranty Information | 2 years |
| Image | Item | Qty |
 |
ZWO ASI664MC USB3.0 Colour Astronomy Camera | 1 |
 |
ST4 Cable | 1 |
 |
USB3.0 Cable (2m) | 1 |
 |
1.25" Cover | 1 |
 |
1.25" Nosepiece | 1 |
 |
Quick Guide | 1 |
Q1. What is the standard backfocus distance for ZWO cameras?
All ZWO cameras have a standard backfocus of 55mm. This matches the optical design of most flatteners and reducers. Always check your reducer/flattener manual to confirm the required distance.
Q2. How do I achieve 55mm backfocus with a ZWO cooled camera?
Start with the camera sensor to flange distance, typically 17.5mm, then add spacers and accessories to reach 55mm total. For example: 17.5mm (camera), 21mm (M42 extension ring) or filter drawer, 16.5mm (M42-M48 adapter or OAG). This gives a total of 55mm.
Q3. How do I calculate backfocus when using a ZWO filter wheel?
ZWO’s 5 Position 1.25"/31mm/36mm filter wheels and filter drawers add 20mm-21mm of backfocus.
For a typical setup: 17.5mm (camera), 20mm (filter wheel), 16.5mm (M42 extension or adapter) for a Total = 54–55mm.
Q4. How do I set backfocus when using a ZWO OAG (Off-Axis Guider)?
The ZWO OAG adds about 16.5mm of backfocus. A sample setup might look like: 17.5mm (camera) + 16.5mm (OAG) +21mm (extension ring) Total = 55mm.
Note: The OAG prism needs to be aligned with the sensor for proper guiding.
Q5. How do filters affect backfocus with ZWO cameras?
Filters, especially in a filter drawer or wheel, shift focus slightly—typically 1/3 the thickness of the filter. For a 2mm thick filter, this means reducing the backfocus by about 0.66mm. ZWO already accounts for this in their 55mm recommendation, assuming standard filters are used.
Q6. What if my stars look distorted at the edges—could it be a backfocus issue?
Yes, coma, elongated stars, or blurry edges are common signs of incorrect backfocus. Double-check each spacer’s thickness, make sure components are properly threaded, and measure the total optical path to ensure it equals the required backfocus.
Q7. Do ZWO planetary and guide cameras require a backfocus setup?
No, uncooled ZWO planetary or guide cameras (e.g. ASI178MM, ASI662MC, ASI174MM Mini) are usually connected directly via 1.25" nosepiece and don’t require backfocus spacing unless used with optics (e.g. OAG or Barlow). They are focused by adjusting position in the focuser or OAG helical focuser.
Q8. What software can I use with my ASI camera?
The ASI Caemra range is compatible with a wide range of astrophotography software. You can use:
ZWO ASIAIR for a mobile-friendly, all-in-one imaging solution (requires ASIAIR Plus sold separtely), ZWO’s native Windows/Mac drivers with ASIStudio, third-party software such as NINA, SharpCap, APT, Sequence Generator Pro, and FireCapture, using ZWO’s ASCOM and native SDK drivers.
Make sure your software is updated to the latest version to ensure full support for this full-frame camera.
Q9. Does the ZWO ASI Cameras work with ASIAIR?
Yes, ASI cameras is fully supported by ASIAIR. You can control cooling (for cooled cameras), gain, offset, exposures, filters (if connected via EFW), and guiding through the ASIAIR mobile app. Be sure to keep ASIAIR firmware and the app itself updated for best compatibility.
Q10. What is the recommended gain and offset setting for the ASI cooled cameras?
This varies by target and sky conditions, but ZWO recommends:
Gain 100 for optimal dynamic range and low read noise
Gain 0 for maximum dynamic range in bright targets or longer exposures
Offset typically ranges from 30–50 but should be adjusted depending on your software and histogram.
Q11. Can I use my ASI Camera with a DSLR lens?
Yes, you may be able to use your ASI Camera with DSLR lenses using appropriate ZWO lens adapters (e.g. M54 to Canon EF/Nikon F). You will need to ensure proper backfocus and may need a manual or electronic lens controller for aperture/focus adjustments.
Q12. My software doesn't recognise my camera – what should I do?
Try the following:
- Install the latest ZWO native and ASCOM drivers.
- Check your USB 3.0 cable and port; use a powered hub if needed.
- Test connectivity with an alternative app like ASIStudio.
- Update your software or firmware (e.g. ASIAIR, NINA).