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25,000fps High-Sensitivity Ultra High Speed Camera
Super High Speed Camera 25000FPS
Super High Speed Camera 25000FPS
25000FPS High Sensitivity Ultra High Speed Camera
25000FPS High-sensitivity Fastest High-speed Camera for sale

25,000fps High-Sensitivity Ultra High Speed Camera

The Revealer 25,000fps High-Sensitivity Ultra High Speed Camera NEO 25M/C, recognized as one of the fastest high speed camera available, is engineered for extreme high-speed imaging applications. Its back-illuminated (BSI) sensor enhances photon capture efficiency, enabling instantaneous image acquisition with ultra-short exposure times. It is ideal for research in fields such as extreme mechanics, impact analysis, high-frequency vibration analysis, hypersonic aerodynamics, and more.


Sensitivity: 85% Peak QE (Back-Illuminated)

Pixel Size: 20μm × 20μm (Maximum Light Capture)

Speed: 25,000 fps (Full Resolution) | 1,000,000 fps (Max)

Storage: 15TB HyperStor (Record more, wait less)


Features
Specifications
Applications
Cases
FAQ

Features of 25,000fps High-Sensitivity Ultra High Speed Camera

  • 20 μm Large Pixels & 85% QE BSI Sensor: Features a state-of-the-art backside-illuminated (BSI) sensor, enabling high-speed imaging under low-light conditions (~10 lux), without the need for complex supplemental lighting. Ideal for combustion diagnostics, bioluminescence imaging, underwater high-speed capture, and photosensitive material testing.

  • 25,000 fps @1280×1024 Full Resolution: Up to 48,000 fps in BOOST mode and 1,000,000 fps with region-of-interest (ROI) readout. Enables microsecond-level temporal resolution for studies in crack propagation, arc discharge, explosion debris tracking, and shockwave dynamics.

  • 160GB High-Speed RAM + 2/8/15 TB HyperStor Flash Storage: Enables concurrent recording and data offloading, allowing immediate post-experiment access without download delays. 64 isolated partitions ensure secure, segmented storage for multi-run experimental workflows.

  • 200-1100 nm Spectral Response: Covers UV (QE ≈ 60%), visible (QE ≈ 85%), and NIR (QE ≈ 40%) regions. Suitable for OH* radical imaging, NO fluorescence, laser-induced breakdown spectroscopy (LIBS), and other UV-NIR emission studies.


25,000 fps Meets 85% QE: The Ultimate Imaging Combo

The Revealer NEO 25M/C integrates two frontier technologies into a single, definitive tool for extreme science.

1. The Benchmark for Speed: Redefining the Fastest High-Speed Camera

Achieving 25,000 fps at full 1.3MP resolution (and up to 1,000,000 fps in ROI mode) transforms microseconds into analyzable data sequences. This capability is not about high frame rates alone; it is about acquiring the temporal resolution necessary to definitively study shockwave propagation, dynamic fracture, and hypersonic events.

2. The Pinnacle of Sensitivity: Capturing the Unseen

Equipped with a back-illuminated (BSI) sensor featuring 20μm large pixels and 85% QE, this high-sensitivity camera captures photons others miss. It operates effectively in near darkness (~10 lux), enabling critical research in low-light combustion, bioluminescence, and photosensitive material testing without intrusive artificial lighting that can alter the phenomenon itself.


Specialized Applications for High-Sensitivity Imaging

UV & Combustion Diagnostics: With a spectral response from 200-1100nm and 60% QE in the UV range, the NEO 25M/C is the premier choice for OH* radical imaging and NO fluorescence without an external image intensifier.

Hypersonic & Shockwave Research: Capture microsecond-level temporal resolution in low-pressure wind tunnels where supplemental lighting is restricted. The 20μm pixels ensure clear shockwave visualization at 1,000,000 fps.

UV & High-Frequency Combustion Diagnostics

The advanced sensor geometry on the NEO series provides an expansive, high-sensitivity spectral grid. It maintains a 60% QE natively within the Ultraviolet (UV) range, making this camera 25000 array the premier choice for OH* radical imaging, NO fluorescence, and plasma arc discharge visualization without the spatial noise introduced by external image intensifiers.


Researchers can execute complex chemical emission analysis across UV, visible, and Near-Infrared (NIR) bandwidths (200 nm – 1100 nm) simultaneously.


Optical Metrology Cross-Reference: If your combustion or aerodynamic research requires larger field-of-view structural metrics rather than extreme UV quantum efficiency, explore our high-density 21 megapixel camera framework engineered for 3D DIC and high-resolution tracking.

Comparison: Why the NEO 25M/C Rules Extreme Science Applications

When assessing systems positioned as the fastest high speed camera for extreme mechanics, identifying sensor structural limitations prevents severe laboratory bottlenecks.


Standard architectures often force researchers to sacrifice resolution or endure massive data offloading delays. The Revealer NEO 25M/C breaks through these limits by pairing high-throughput frame rates with a highly light-sensitive backside sensor matrix.

Core SpecificationsRevealer NEO 25M/CTraditional Scientific CamerasExtreme Research Advantage
Full Resolution Frame Rate25,000 fps @ 1280×10245,000 - 10,000 fpsCaptures 2.5x to 5x more frames per transient sequence at a full 1.3MP matrix without vertical spatial cropping.
Sensor Processing DesignBack-Illuminated (BSI)Front-Illuminated (FSI)Positions the light-sensitive layer directly on top; achieves an 85% Peak QE vs. the standard 45% QE.
Pixel Architecture Dimensions20 μm × 20 μm10 μm - 14 μmMaximizes absolute photon capture capacity per pixel, significantly lowering laboratory illumination budgets.
Flash Caching Subsystem15TB HyperStor SSDExternal Network OffloadingFeatures 64 isolated data partitions; logs and stores multi-run tests consecutively without download delays.

By eliminating the need for bulky, high-heat external lighting rigs and skipping the hours spent waiting for standard network offloads, this integrated camera 25000 platform delivers unmatched data integrity for ballistics, hypersonics, and destructive material mechanics.

Specifications of 25,000fps High-Sensitivity Ultra High Speed Camera

SKUNEO 25M/CNEO 20M/CNEO 16M/C
SensorBSI CMOSBSI CMOSBSI CMOS
Resolution1280 × 10241280 × 10241280 × 1024
Frame25 000 fps20 000 fps16 000 fps
ShutterGlobal shutterGlobal shutterGlobal shutter
Min. exposure time150 ns150 ns150 ns
Pixel Size20 μm x 20 μm 20 μm x 20 μm 20 μm x 20 μm 
PIV250 ns250 ns250 ns
ADC
10 bit10 bit10 bit
AEAvailableAvailableAvailable
EDRAvailableAvailableAvailable
Data interface10 Gb / Gb Ethernet10 Gb / Gb Ethernet10 Gb / Gb Ethernet
Video interfaceSDI / HDMISDI / HDMISDI / HDMI
Sync input interface3.3 / 5V TTL3.3 / 5V TTL3.3 / 5V TTL
Sync output interface5V TTL5V TTL5V TTL
TimingDC IRIG_B inDC IRIG_B inDC IRIG_B in
Control interfaceReserved RS422Reserved RS422Reserved RS422
Trigger inputPulse trigger signalPulse trigger signalPulse trigger signal
Lens mountEF, F, CEF, F, CEF, F, C
Internal RAM160 / 320GB160 / 320GB160 / 320GB
Size W×H×D125 × 125 × 210 mm125×125×210 mm125×125×210 mm
Weight4500 g4500 g4500 g
Operating temperature-10 ~ 50 °C-10 ~ 50 °C-10 ~ 50 °C
Power Consumption200 W200 W200 W
Operating temperature optionalAvailableAvailableAvailable
Operating humidity0 ~ 95%0 ~ 95%0 ~ 95%
Protection levelIP64IP64IP64
Shock30Grms @ 11mSec 3 axes 6way 60 pulses30Grms @ 11mSec 3 axes 6way 60 pulses30Grms @ 11mSec 3 axes 6way 60 pulses
VibrationResistant to transportation vibrationResistant to transportation vibrationResistant to transportation vibration
EMCAvailableAvailableAvailable

Specifications will be updated. For details, please contact with us.

FAQ: Revealer NEO 25M/C High-Sensitivity Camera

Why is BSI (Back-Illuminated) sensor critical for ultra-high-speed imaging?

At 25,000 fps, the exposure time is extremely short. Standard sensors (FSI) lose photons to metallic wiring layers. Our BSI sensor places the light-sensitive layer on top, achieving 85% QE, allowing for clear images in low-light conditions (~10 lux) where other cameras see only black.

What is the benefit of the 20μm large pixel size?

Larger pixels (20μm) act like larger "buckets" to catch photons. This significantly improves the Signal-to-Noise Ratio (SNR), making the NEO 25M/C ideal for photosensitive material testing and bioluminescence.

How does the HyperStor Flash storage speed up my experiment?

Traditional cameras require long download times over Ethernet. The NEO 25M/C’s 15TB HyperStor allows you to offload data from RAM to flash almost instantly, enabling you to start the next experimental run in seconds rather than minutes.

How do I choose between an ultra-high-sensitivity BSI camera and a large-format 21MP camera for fluid diagnostics?

The choice depends entirely on your primary measurement bottleneck. If your research focuses on micro-level tracers or low-light combustion reactions where illumination is severely limited, the NEO 25M/C's 85% QE backside-illuminated sensor is required. However, if your experiment involves large-scale structural metrics or wide-area wind tunnels that demand massive spatial detail across a wide field of view, deploying a dedicated 21 megapixel camera framework engineered for 3D DIC and high-density tracking is the more effective choice.

Can this 25,000 fps camera be configured for lower-speed, longer-duration industrial troubleshooting?

Yes, the system offers complete framing flexibility. While engineered as our flagship fastest high speed camera configuration, the native software allows researchers to step down the frame rate as needed. If your laboratory runs secondary tests that only require mid-tier temporal tracking, the camera can easily operate as a high speed camera 500 fps to 5,000 fps system, drastically extending your uncompressed recording window within the internal high-speed RAM.

How does a 25,000 fps back-illuminated sensor compare to a standard 10,000 fps front-illuminated sensor in low-light environments?

A standard front-illuminated (FSI) sensor positions its metallic circuitry layers above the photodiode matrix, reflecting away up to 55% of incoming light. When exposure speeds approach microsecond margins, an FSI system requires intense, high-heat external lamps to avoid black frames. In contrast, our BSI architecture flips the sensor to achieve an 85% Peak QE. If your lab budget cannot accommodate high-power specialized lighting rigs, choosing a high-sensitivity BSI platform or a dedicated, large-pixel 10 000 fps camera is essential to maintain data integrity.

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