Andor Technology Zyla 5.5 USB 3.0 sCMOS Microscope Camera, Andor (CAT#: STEM-M-0513-LGZ)

The manufacturer of Andor Technology Zyla 5.5 USB 3.0 sCMOS Microscope Camera is Andor. Model is Zyla 5.5 USB3. Andor's Zyla sCMOS camera platform provides high-speed, high-sensitivity, and high-resolution imaging performance. Very light, compact, thermoelectrically cooled design for perfect integration into laboratory and OEM applications. Zyla is ideal for many cutting-edge experiments that push the boundaries of speed and sensitivity. The Zyla's unprecedented value and flexibility means it also redefines the concept of a "workhorse" camera, quickly replacing nterline CCDs as the gold standard for microscope detectors. The cost-effective USB 3.0 represents the ideal performance upgrade for any laboratory.

Condition: used
Sensor Type: Front Illuminated Scientific CMOS
Active Pixels: 2560 x 2160 (5.5 Megapixel)
Sensor Size: 16.6 x 14.0 mm (21.8 mm diagonal)
Pixel Readout Rate (MHz): 200 (100 MHz x 2 sensor halves). 560 (280 MHz x 2 sensor halves)
Read Noise (e-):
Rolling Shutter: 200 MHz 0.9 [1.2], 560 MHz 1.2[1.6]
Global Shutter: 200 MHz 2.3[2.5], 560 MHz 2.4[2.6]
Maximum Quantum Efficiency •3: 60%
Sensor Operating Temperature:
Air Cooled: 0°C (up to 30°C ambient)
Dark Current, e-/pixel/sec @ min temp •4:
Air Cooled: 0.10
Readout Modes: Rolling Shutter and Global Shutter (Snapshot)
Maximum Dynamic Range: 33,000: 1
Photon Response Non-Uniformity (PRNU):
Half-light Range: < 0.01%
Low-light Range: <0.1%
Pre-defined Region of Interest: 2048 x 2048, 1920 x 1080, 1392 x 1040, 512 x 512, 128 x 128
User Defined ROI (Granularity): Yes (1 pixel) **
Pixel Size (W x H): 6.5 μm
Pixel Well Depth (e-): 30,000
Linearity (%, maximum) •5
Full-light Range: Better than 99.8%
Low-light Range (< 1000 electrons signal): Better than 99.9%
MTF (Nyquist @ 555 nm): 45%
Anti-blooming Factor: x 10,000
Hardware Timestamp Accuracy: 25 ns
Internal Memory: 1 GB
Data Range: 12-bit (fastest USB 3.0 speeds) and 16-bit (maximum dynamic range)
Interface Options: USB 3.0 •9 Camera Link 10-tap

1. 0.9 e-read noise with lower detection limit than any CCD.
2. Rolling and Global (Snapshot) shutter: Maximum exposure and readout flexibility across all applications. Snapshot in "interline CCD mode" captures fast moving/changing events.
3. Sub-microsecond inter-frame gap: Global Shutter provides an inter-frame gap of less than 100ns, which satisfies PIV applications.
4. The fastest frame rate in the industry: 100 fps (full frame) sustained through the camera link. Industry's fastest USB 3.0 frame rate, 40 fps (full frame) - faster speed and ROI.
55.5 megapixel sensor format and 6.5 μm pixels: provides extremely sharp resolution over a 22 mm diagonal field of view; ideal for cell microscopy, astronomy and area scanning applications such as digital pathology and high content screening.
6. Dual Gain Amplifier: Maximum well depth and lowest noise in one frame, providing extended dynamic range of 25,000:1.
7. 12-bit and 16-bit modes: 12-bit for smaller file sizes and the absolute fastest frame rate over USB 3.0; 16-bit full dynamic range.
8. Low dark current: 0.10 e-/pix/s: very competitive optimized dark current. Maintain low noise advantages under various exposure conditions.
9. TE cooled to 0 °C in a 35 °C environment: ideal for OEM integration into closed systems.
10. GPU Express: Simplifies and optimizes the data transfer from the camera to the GPU (graphic Processing Unit) card, making GPU processing acceleration part of the capture process.
11. Compact and Light: Ideal for integration into space-constrained settings. Suitable for OEM.
12. Hardware Timestamp: The timestamp generated by the FPGA with an accuracy of 25ns.
13. Dynamic Baseline Clamp: Key to ensuring quantitative accuracy between the entire image area and consecutive motion series images.
14. Spurious Noise Filter: Real-time FPGA filter to identify and compensate for spurious high-noise pixels.
15. Single Window Design: Single input window, double AR coating to ensure maximum photon throughput.
16. Comprehensive trigger modes and I/O: Communication and synchronization within complex experimental setups.

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