Περιγραφή
The Svbony SC715C Planetary Camera, featuring the Sony IMX715 CMOS sensor with 8.46 MP resolution and 1.45μm pixels, delivers high-speed imaging at 45.5 FPS via USB 3.0, utilizes STARVIS II technology for enhanced low-light performance, offers low read noise as low as 0.8 e⁻, supports exposures from 32μs to 900s, includes an ST4 guide port for autoguiding, provides compatibility with FireCapture, SharpCap, and ASCOM software, and features a compact, durable aluminum housing with passive cooling.
Priced at $299, this camera offers exceptional performance for planetary imaging and astrophotography enthusiasts.
The SC715C supports both 10-bit and 12-bit imaging modes, maximizing frame rates for planetary imaging while preserving dynamic range for deep-sky objects, offers quantum efficiency of approximately 80% for optimal light sensitivity, includes region of interest (ROI) modes to boost frame rates up to 200 FPS, ensures stable performance with low power consumption at just 2.0W, is designed with a C-mount, CS-mount, and 1.25-inch adapter for telescope compatibility, and features a sturdy, lightweight aluminum housing for heat dissipation.
SC715C Planetary Camera sensor and image quality
The Sony IMX715 sensor at the core of the SC715C is a 1/2.8-inch back-illuminated CMOS sensor with an 8.46-megapixel resolution (3856 × 2178 pixels). This sensor is known for its low read noise and high sensitivity, making it ideal for capturing fine planetary details.
SC715C specifications
- Sensor: Sony IMX715 CMOS (back-illuminated)
- Resolution: 3856 × 2178 (8.46 MP)
- Pixel Size: 1.45μm × 1.45μm
- Sensor Size: 0.22 × 0.13 inches (5.6mm × 3.2mm)
- Quantum Efficiency (QE): ~80% peak in visible spectrum
- Full-Well Capacity: ~12,000e⁻ per pixel
Pixel size and resolution
- Pixel size: 1.45μm × 1.45μm
- Sensor size: 0.22 × 0.13 inches (5.6mm × 3.2mm)
- Resolution: 3856 × 2178 (8.46 MP)
With 1.45μm pixels, the SC715C offers a balance between high resolution and sensitivity, allowing for detailed imaging of planets while keeping noise to a minimum.
Quantum efficiency and sensitivity
- Peak quantum efficiency (QE): Approximately 80% in visible wavelengths
- Low read noise: Below 1 electron in high-gain mode
- Full-well capacity: Around 12,000e⁻ per pixel, allowing a wider dynamic range
This combination ensures that the SC715C captures fine planetary details, reduces sensor noise, and handles high-contrast situations like the Moon’s terminator or Jupiter’s cloud bands without losing highlights or shadows.
Data transfer and frame rates
The SC715C features a USB 3.0 interface that provides high-speed data transfer, crucial for planetary imaging where high frame rates are needed to capture moments of good seeing.
Supported frame rates (FPS) at different resolutions
- 3856 × 2178 (Full resolution): 45.5 FPS
- 1920 × 1080 (ROI mode): 90 FPS
- 1280 × 720 (ROI mode): 135 FPS
- 640 × 480 (ROI mode): 200 FPS
With 45.5 FPS at full resolution, the SC715C captures rapid sequences, reducing the effects of atmospheric turbulence. Smaller Region of Interest (ROI) settings allow frame rates up to 200 FPS, which is crucial for high-speed planetary imaging techniques like lucky imaging.
Bit depth and dynamic range
- 10-bit mode: Maximizes frame rates for fast planetary imaging
- 12-bit mode: Preserves more dynamic range for deep-sky or high-contrast lunar imaging
The 12-bit ADC (Analog-to-Digital Converter) provides better tonal transitions and more data depth in stacked images.
Noise performance and gain settings
The SC715C’s read noise and gain settings are tuned for planetary imaging.
Read noise characteristics
- Low Gain Setting: 3.5 e⁻
- Medium Gain Setting: 2.1 e⁻
- High Gain Setting: 0.8 e⁻
At high gain settings, read noise drops below 1 e⁻, making it ideal for short-exposure planetary imaging where stacking multiple frames compensates for higher gain noise.
Exposure and control features
The SC715C supports manual and automatic exposure control, allowing fine-tuned adjustments depending on the target and imaging conditions.
Exposure range
- Shortest exposure: 32μs (microseconds) for capturing bright planets like Venus or the Moon without overexposure
- Longest exposure: 900 seconds (15 minutes), making it possible to capture bright deep-sky objects if necessary
While primarily a planetary camera, the long exposure capability allows for limited deep-sky imaging of objects such as bright nebulae, star clusters, and galaxies.
Cooling and heat management
The SC715C does not have active cooling, as it is primarily designed for short exposures where thermal noise is minimal. However, it is equipped with a heat-dissipation design to reduce sensor heating during extended captures.
- Aluminum housing for passive cooling
- Low power consumption (~2.0W at peak usage)
While dark noise increases with long exposures, the camera remains efficient at keeping temperatures stable during planetary imaging.
Optical compatibility and filters
The SC715C is compatible with a wide range of telescope systems due to its C-mount / CS-mount and 1.25-inch adapter.
Supported optical systems
- Refractors (achromatic, apochromatic, and ED refractors)
- Newtonian reflectors (Dobsonians, imaging Newtonians)
- Maksutov-Cassegrains & Schmidt-Cassegrains
Filter compatibility
- IR-cut filters to enhance contrast for planetary imaging
- UV/IR cut filters to block unwanted wavelengths
- Color filters for RGB planetary imaging
- CH4 (Methane Band) filters for capturing Jupiter’s deep atmospheric structures
Autoguiding and software support
The SC715C is ST4-compatible, meaning it can double as a guiding camera.
- ST4 guide port: Allows for direct connection to equatorial mounts
- Supported guiding software: PHD2, Metaguide, FireCapture
Supported imaging software
The camera is fully ASCOM and DirectShow compatible, allowing integration with:
- FireCapture (recommended for planetary imaging)
- SharpCap
- AstroDMx
- ASICAP
- N.I.N.A. and APT (for deep-sky imaging)
Power and connectivity
- USB 3.0 Type-B connection
- Backwards compatible with USB 2.0 (but at lower speeds)
- Power consumption: ~2.0W (low power draw)
The camera operates efficiently on standard laptop ports without requiring an external power source.
Build quality and mechanical design
The Svbony SC715C features a metal housing, ensuring durability and heat dissipation.
- Weight: 4.2 oz (120g)
- Dimensions: 2.36 × 1.10 inches (60mm × 28mm) (compact design)
- Tripod thread: Standard 1/4-20 UNC for mounting flexibility
STARVIS II technology
Comparison with other Svbony cameras
SC715C (IMX715 sensor)
- 1.45μm pixels for better resolution
- High quantum efficiency (~80%) for improved sensitivity
- Better low-light performance with STARVIS II
SV705C (IMX585 sensor)
- 2.9μm pixels (larger but lower resolution)
- Quantum efficiency around 75%
- Lower frame rate at full resolution
SV305 (IMX290 sensor)
- Older sensor with lower sensitivity
- High frame rates up to 120 FPS
- Less optimized for modern planetary imaging
IMX715 Color Sensor
The Svbony SC715C recap
The Svbony SC715C is a high-speed, high-resolution planetary camera that excels at capturing planets, the Moon, and bright deep-sky objects. With a Sony IMX715 sensor, STARVIS II technology, high frame rates, and excellent low-noise performance, it is a top choice for planetary astrophotography. Its compact design, USB 3.0 connectivity, and ST4 guiding capability make it a flexible option for both imaging and guiding applications.
What’s included with the SC715C planetary camera
