Ultra-High Resolution – Offers resolutions from 4.2MP to 251MP, from 1.2″ to 4.2″ sensor size, and from 2.81um to 11um pixel size, for capturing the finest details.
Superior Cooling System – Reduces sensor temperature up to 40°C below ambient for low-noise imaging.
Multiple High-Speed Interfaces – Supports USB 3.0, 10 Gigabit Ethernet (10 GigE), CoaXPress (CXP), and Camera Link.
Exceptional Spectral Response – Covers visible, near-infrared (NIR), and ultraviolet (UV) light for diverse applications.
Advanced Sensor Technology – Equipped with Sony Exmor CMOS & GSENSE full-frame and large-pixel sensors.
Precision Imaging Control – Features hardware & software triggering, ROI selection, image flipping, and bit-depth switching.
Optimized for Scientific & Industrial Use – Ideal for biomedical research, material science, semiconductor inspection, and fluorescence microscopy.
BIC-SHR Series Ultra-High-Resolution Scientific Microscopy Cameras Introduction
The BIC-SHR series scientific cameras feature high-performance large-pixel or full-frame image sensors from the Sony Exmor CMOS and GSENSE series. To minimize thermal noise, an advanced cooling module has been engineered to reduce the sensor’s operating temperature by up to 40°C below ambient, ensuring optimal imaging performance. Additionally, an anti-fog structure is incorporated to prevent condensation on the sensor surface at low temperatures.
The sensor temperature in the BIC-SHR cameras can be precisely controlled via software, maintaining maximum quantum efficiency for photoelectric conversion under low-noise conditions. Since the quantum efficiency of high-performance sensors such as Sony Exmor CMOS or GSENSE can degrade at extremely low temperatures, precise temperature regulation is essential for consistent performance.
Designed for versatility, the BIC-SHR series supports both free-run and trigger modes, enabling the capture of single or multiple images per trigger. The cameras integrate highly stable, industrial-grade I/O modules that allow synchronization with multiple external devices or simultaneous operation of multiple cameras.
The BIC-SHR cameras come bundled with BioView/BioLite, an advanced image processing software suite that provides comprehensive control over camera settings and image enhancement.
Key Features of the BIX-SHR Series Scientific Camera:
Equipped with high-performance large-pixel or full-frame image sensors from the Sony Exmor CMOS or GSENSE series.
Supports multiple high-speed data interfaces, including USB 3.0, CoaXPress (CXP), and 10-Gigabit Ethernet.
Offers resolutions ranging from 4.2 MP to 251 MP, with sensor sizes from 1.2″ to 4.2″.
Provides a broad spectral response covering visible, near-infrared (NIR), and ultraviolet (UV) light.
Advanced cooling system reduces sensor temperature by up to 40°C below ambient for enhanced stability and reduced noise.
Incorporates premium imaging sensors from Sony, Gpixel, ONSEMI, and other industry-leading manufacturers.
Supports multiple interface options, including USB 3.0, GigE, Camera Link, and CoaXPress, for seamless integration.
Features an integrated hardware image processing engine for precise image reproduction and high-speed performance.
Offers versatile operation modes, including hardware triggering, software triggering, and free-run mode.
Includes advanced functions such as region of interest (ROI), image flipping, and bit-depth switching for flexible imaging applications.
Designed for reliability with a wide operating temperature range, low power consumption, and stable long-term performance.
Supports on-site firmware upgrades for continuous optimization and enhanced functionality.
Bundled with ToupView advanced video and image processing software, along with multi-platform SDKs for Windows, Linux, and macOS. Supports native C/C++, C#/VB.Net, DirectShow, and Twain API for seamless integration into various applications.
Meets international standards with CE, FCC, and RoHS certifications for quality and safety compliance.
This version improves readability, enhances clarity, and refines technical descriptions for a more professional and polished presentation.
BIC-SHR Series Microscopy Cameras – Ultra-High-Resolution Imaging for Cutting-Edge Research & Industry
The BIC-SHR series microscopy cameras are engineered for academic research, industrial applications, and high-precision imaging in cutting-edge scientific fields. Designed for professionals who demand super high-resolution microscopy imaging, these cameras deliver unparalleled clarity, sensitivity, and performance.
Unmatched Imaging Performance for Scientific Excellence
The BIC-SHR series features high-performance large-pixel and full-frame image sensors sourced from leading manufacturers such as Sony Exmor CMOS and GSENSE, ensuring superior image quality with exceptional dynamic range. With resolutions ranging from 4.2MP to an industry-leading 251MP, researchers can capture the finest details, making these cameras ideal for biomedical research, semiconductor inspection, material analysis, and fluorescence microscopy.
Advanced Cooling Technology for Low-Noise Imaging
Thermal noise is a critical challenge in ultra-high-resolution imaging. The BIC-SHR series addresses this with a cutting-edge cooling module that reduces sensor temperature by up to 40°C below ambient, ensuring stable performance with minimal noise. An anti-fog structure prevents condensation, maintaining crystal-clear image acquisition even under extreme conditions.
Versatile Connectivity & Seamless Integration
Designed for flexibility and high-speed data transfer, the BIC-SHR series supports multiple interfaces, including:
✅ USB 3.0, 10 Gigabit Ethernet (10 GigE), CoaXPress (CXP), and Camera Link for rapid data transmission
✅ Real-time triggering options: Hardware trigger, software trigger, and free-run mode
✅ Seamless synchronization with external devices and multiple-camera setups
Precision Features for Customizable Imaging
Tailored for advanced microscopy and industrial inspection, the BIC-SHR series includes powerful features such as:
🔬 Region of Interest (ROI) for targeted imaging
📸 Image flipping & bit-depth switching for flexible analysis
🌡️ Wide operating temperature range & low power consumption for reliable performance
🚀 Integrated hardware image processing engine for high-speed, high-accuracy imaging
From life sciences and materials science to semiconductor R&D and nanotechnology, the BIC-SHR series meets the rigorous demands of high-precision imaging. Fully compliant with CE, FCC, and RoHS standards, these cameras ensure quality, reliability, and long-term performance in academic and industrial settings.
🔍 Discover the Future of Ultra-High-Resolution Microscopy Imaging with the BIC-SHR Series!
High Resolution Cameras Specification:
Model Number
Image Sensor
(Resolution, Name & Size)*
Pixel Size (μm)
G Sensitivity
Dark Signal
Dynamic range /SNR
FPS/Resolution
Bit depth
Binning
Exposure Time
Interface
BIC-SHR-251M
251MP
IMX811ALR (M, RS)
4.1” (66.24×44.16)
2.81×2.81
TBD
1.5@19200×12800
1×1
15us -3600s
M72x0.75
USB 3.0
GigE
BIC-SHR-251C
251MP
IMX811AQR (C,RS)
4.1” (66.24×44.16)
2.81×2.81
TBD
1.5@19200×12800
1×1
15us -3600s
M72x0.75
USB3.0
GigE
BIC-SHR-151M
151MP
IMX411ALR (M, RS)
4.2” (53.30×40.01)
3.76×3.76
871mV with 1/30s
0.04mV with 1/30s
2.4@14176×10640
6.9@7072×5320
20.8@4704×3546
61.9@1568×1178
1×1
2×2
3×3
9×9
15us -3600s
M72x0.75
USB3.0
GigE
BIC-SHR-151C
151MP
IMX411AQR (C, RS)
4.2” (53.30×40.01)
3.76×3.76
485mV with 1/30s
0.04mV with 1/30s
2.4@14176×10640
6.9@7072×5320
20.8@4704×3546
61.9@1568×1178
1×1
2×2
3×3
9×9
15us -3600s
M72x0.75
USB3.0
GigE
BIC-SHR-102M
102MP
IMX461ALR (M, RS)
3.4” (43.80×32.87)
3.76×3.76
871mV with 1/30s
0.04mV with 1/30s
3.5@11648×8742
8.7@5824×4370
27.8@3872×2912
82.5@1280×970
1×1
2×2 3×3 9×9
15us – 3600s
M72x0.75
USB3.0
GigE
BIC-SHR-102C
102MP
IMX461AQR (C, RS)
3.4” (43.80×32.87)
3.76×3.76
485mV with 1/30s
0.04mV with 1/30s
3.5@11648×8742
8.7@5824×4370
27.8@3872×2912
82.5@1280×970
1×1
2×2 3×3 9×9
15us – 3600s
M72x0.75
USB3.0
GigE
BIC-SHR-61M
61MP
IMX455 (M, RS)
2.7″ (35.98×23.99)
Full Frame
3.76×3.76
871mv with 1/30s
0.039mv with 1/30s
88.3dB/47.1dB
6.1@9568×6380(16bit)
19.1@4784×3190
55.6@3184×2124
191@1040×706
8 Bit / 16 Bit
1×1
2×2
3×3
9×9
0.1ms -1000s
M52x0.75
USB3.0
BIC-SHR-61C
61MP
IMX455(C, RS)
2.7″ (35.98×23.99)
Full Frame
3.76×3.76
485mv with 1/30s
0.04mv with 1/30s
85.8dB/47.0dB
6.1@9568×6380(16bit)
19.1@4784×3190
55.6@3184×2124
191@1040×706
8 Bit / 16 Bit
1×1
2×2
3×3
9×9
0.1ms- 1000s
M52x0.75
USB3.0
BIC-SHR-24C
24MP
IMX410 (C, RS)
2.7″ (36.02×24.00)
Full Frame
5.94×5.94
573mv with 1/30s
0.04mv with 1/30s
87.3dB/50.2dB
15.3@6064×4040(14bit)
41@3024×2012
114@2016×1342
8 Bit / 14 Bit
1×1
2×2
3×3
0.1ms- 1000s
M52x0.75
USB3.0
BIC-SHR-4.2AM
4.2MP
GSENSE2020e (M, NIR, RS)
1.2” (13.31×13.31)
6.5×6.5
8.1×107 (e-/((W/m2).s))
Peak QE 64.2% @595nm
0.12(e-/s/pix) @-10C°
81.6dB/46.5dB
45@2048×2048
45@1024 x 1024
8 Bit / HDR 16 Bit
1×1
2×2
0.1ms- 1000s
M42x0.75
USB3.0
BIC-SHR-4.2BM
4.2MP
GSENSE2020BSI (M,UV,RS)
1.2” (13.31×13.31)
6.5×6.5
1.1×108 (e-/((W/m2).s))
Peak QE 93.7% @550nm
0.15(e-/s/pix) @-15C°
79.1dB/47dB
45@2048 x2048
45@1024 x1024
8 Bit / HDR 16 Bit
1×1
2×2
0.1ms- 1000s
M42x0.75
USB3.0
BIC-SHR-4.2CM
4.2MP
GSENSE400BSI (M,UV,RS)
2.0“ (22.53×22.53)
11×11
3.25×108 (e-/((W/m2).s))
Peak QE 95.3% @560nm
1.5(e-/s/pix) @-10C°
93.9dB/48.8dB
44@2048 x2048
44@1024 x1024
8 Bit / HDR 16 Bit
1×1
2×2
0.1ms- 1000s
M42x0.75
USB3.0
*C: Color; M: Monochrome; UV: Ultraviolet; NIR: Enhanced Near Infrared; RS: Rolling Shutter; GS: Global Shutter; U3: USB3 Interface
Comprehensive Software & Multi-Platform SDK Support
The BIC-SHR microscopy cameras are delivered with BioView and BioLite, advanced imaging software designed for intuitive control and powerful image processing. Additionally, developers benefit from a multi-platform SDK (Windows/Linux/macOS), with support for:
C/C++, C#/VB.Net, DirectShow, and TWAIN API
On-site firmware upgrades for continuous enhancements
Trusted for Research, Innovation & Industrial Applications
Reviews
There are no reviews yet.
Only logged in customers who have purchased this product may leave a review.
Reviews
There are no reviews yet.