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Photron | FASTCAM Mini W5 High Speed Camera

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At the heart of the Photron Fastcam W5 high-speed camera sits a 2-megapixel CMOS sensor with global shutter technology. Unlike rolling shutters found in consumer cameras, this global shutter captures the entire frame simultaneously, eliminating distortion when filming rapidly moving objects. This be ...Read more
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At the heart of the Photron Fastcam W5 high-speed camera sits a 2-megapixel CMOS sensor with global shutter technology. Unlike rolling shutters found in consumer cameras, this global shutter captures the entire frame simultaneously, eliminating distortion when filming rapidly moving objects. This becomes particularly crucial when recording events at extreme speeds, as even microseconds of difference between scan lines would render footage scientifically unusable. The sensor's 2MP resolution allows for impressive detail even when shooting at moderate frame rates, making this camera equally capable for both analysis and presentation-quality footage.

The Photron W5 high speed camera takes slow motion to an entirely new level. Acquisition rates of 5,000 frames per second at full 2 megapixel resolution.  At reduced resolution, your can achieve 5,280 fps at 1920 x 1080, 8,000 fps at 1280 x 720, up to a maximum frame rate of 200,000 fps at 2048 x 8 resolution.

The W5 utilizes high-speed internal memory of either 16, 32, or 64 GB; that acts as a buffer for HD high speed recording. Since no current storage medium could write data fast enough at peak frame rates, the camera records to this buffer before transferring to permanent storage for analysis. Additionally, PFV4 assists with managing the massive datasets generated during recording sessions with PFA2 the ability to analyze the data in post.

Photron's PFV4 proprietary software suite handles the specialized file formats generated by the W5. Playback tools offer frame-by-frame scrubbing with microsecond precision, allowing me to identify exact moments of interest. The export functionality supports scientific formats alongside standard video formats. Color correction works remarkably well even with the challenging lighting conditions typical of high-speed videography. As an added benefit, batch processing capabilities streamline workflow when handling multiple test sequences.

Perhaps most impressive are the precision timing features. The W5 offers microsecond-accurate trigger response, which proves crucial when capturing fleeting events. Notably, the camera supports various triggering methods:

  • External hardware triggers
  • Software-based triggering
  • Pre/post trigger buffering

The Photron W5 includes several professional connectivity options:

  • Gigabit/10G Ethernet for control and data transfer
  • External trigger ports for synchronizing with events
  • Multiple camera sync capabilities for multi-angle capture

Multiple W5 units can be synchronized perfectly, allowing for multi-angle capture of high-speed phenomena without temporal discrepancies.

The Photron W5 now offers remotely controlled RF mount lenses. Using PFV4 software allows you to remotely control the lens aperture and focus from a PC. Some lenses also support zoom control, giving you greater flexibility. This is useful when access to the camera installation location is restricted or when the camera and control PC are located far apart.  Other lens mounting options: G-type F-mount, C mount, EF mount, or M42 mount.

Photron provides a comprehensive 2-year standard warranty covering manufacturing defects. Extended warranty options stretch to 5 years. Technical support includes 24/7 emergency assistance and annual calibration services. Above all, Photron's reputation for reliable after-sale support enhances the overall value proposition.

Target applications include:

  • Onboard and offboard automotive safety testing
  • Biomechanics
  • Life sciences
  • Defence and aerospace research
  • Material sciences
  • Fluid dynamics / PIV
2,048 x 1,152 @ 5,000 FPS
64 GB

2.35-megapixel CMOS Image Sensor:

  • 5,000 fps at 2048 x 1152 pixel resolution
  • 5,280 fps at 1920 x 1280 pixel resolution
  • 8,000 fps at 1280 x 720 pixel resolution
  • 11,250 fps at 1024 x 512 pixel resolution
  • 12,500 fps at 640 x 256 pixel resolution
  • 200,000 fps at 2048 x 8 pixel resolution 

 

  • Self-contained, compact and lightweight camera makes positioning your camera easy regardless of where you need it.
  • Available with four on board memory options (16GB, 32GB, 64GB)
  • Fast acting image trigger allows automated camera trigger operation
64GB
200,000fps
2μs
1Gb/10Gb Ethernet
12-bit
Yes
10,000
2,000
Global Electronic Shutter
13μm

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How To Choose Your MWIR Infrared Camera

When it comes to selecting the right mid-wave infrared (MWIR) camera for your specific needs, understanding the technology and its applications is crucial. MWIR cameras are powerful tools that capture thermal images in the 3 to 5 micrometer wavelength range, making them ideal for various applications, including industrial inspections, scientific research, and defense surveillance. This guide will walk you through the essential factors to consider when choosing an MWIR camera, ensuring you make an informed decision.

What is MWIR?

Mid-wave infrared technology refers to the imaging capabilities that operate within the 3 to 5 micrometer range of the infrared spectrum. This range is particularly effective for detecting thermal radiation emitted by objects at moderate temperatures. MWIR cameras are designed to capture this thermal energy, converting it into visual images that can be analyzed for various applications.

How MWIR Cameras Work

MWIR cameras utilize a combination of lenses, thermal sensors, and processing electronics to create thermal images. The lens focuses infrared radiation onto the detector, which is typically an array of pixels. These detectors can vary in resolution, with common configurations being 320x256 and 640x512 pixels. The thermal energy absorbed by the detector is then converted into an electronic signal, which is processed to produce a visual representation of the thermal scene.

Advantages of MWIR Cameras

  • Sensitivity: MWIR cameras are known for their high sensitivity, allowing them to detect subtle temperature differences in a scene. This is particularly beneficial for applications requiring precise thermal measurements.
  • Versatility: These cameras can be used across various industries, including manufacturing, environmental monitoring, and military applications, making them a versatile choice for many users.
  • Image Quality: The ability to capture detailed thermal images enables users to identify issues that may not be visible in the visible spectrum, such as heat leaks in buildings or overheating machinery.

Key Considerations When Choosing an MWIR Camera

1. Application Requirements

Before selecting an MWIR camera, it's essential to define the specific application for which it will be used. Different applications may require different features and capabilities. For instance:

  • Industrial Inspections: If the camera will be used for detecting heat loss in buildings or monitoring machinery, high sensitivity and resolution are critical.
  • Scientific Research: Researchers may need cameras with advanced features such as multispectral imaging or high dynamic range capabilities to capture a broader range of data.
  • Defense Surveillance: In military applications, the ability to detect and identify targets at long distances is paramount, necessitating high-resolution imaging and fast frame rates.

2. Resolution and Sensitivity

The resolution of an MWIR camera determines the level of detail that can be captured in thermal images. Higher resolution cameras can provide more detailed images, which is crucial for applications requiring precise measurements. Additionally, sensitivity, often measured as Noise Equivalent Differential Temperature (NEDT), indicates the camera's ability to detect small temperature differences. A lower NEDT value signifies better performance, especially in applications where subtle temperature variations are critical.

3. Cooling Requirements

MWIR cameras can be categorized into two types based on their cooling requirements: cooled and uncooled. Cooled MWIR cameras typically require cryogenic cooling to operate effectively, which enhances their sensitivity but adds complexity and cost. Uncooled MWIR cameras, on the other hand, can operate at ambient temperatures, making them more compact and easier to use. When choosing a camera, consider the trade-offs between sensitivity and operational simplicity.

4. Environmental Conditions

The environment in which the MWIR camera will be used plays a significant role in the selection process. Factors such as temperature extremes, humidity, and exposure to dust or moisture can impact camera performance. Ensure that the chosen camera is rated for the specific environmental conditions it will encounter.

5. Budget Constraints

Cost is always a consideration when selecting any technology. MWIR cameras can vary significantly in price based on their features and capabilities. It's essential to balance your budget with the required specifications to ensure you get the best value for your investment. Consider not only the initial purchase price but also the long-term operational costs, including maintenance and potential upgrades.

Exploring Telops MWIR Camera Solutions

Overview of Telops

Telops is a recognized leader in the field of mid-wave infrared imaging technology, offering a range of innovative solutions tailored to meet diverse customer needs. Their MWIR cameras are designed with advanced features that enhance performance and usability across various applications.

Key Features of Telops MWIR Cameras

  • High-Speed Imaging: Telops cameras are equipped with advanced imaging capabilities that allow for super high-speed thermal imaging, making them ideal for dynamic environments.
  • Radiometric Calibration: Many Telops models feature proprietary radiometric calibration, enabling automatic exposure time adjustments for optimal image quality.
  • Multispectral and High Dynamic Range: Telops cameras can capture images across multiple spectral bands, providing users with a comprehensive view of thermal data.

Popular Models

  • Telops FAST Camera Series: This series is designed for high-speed applications, offering rapid frame rates and exceptional sensitivity, making it suitable for industrial and scientific research.
  • Telops Radia: The Radia series is known for its versatility and reliability, providing users with robust thermal imaging solutions for various applications.
  • Radia M100: This model is particularly well-suited for applications requiring high-resolution imaging and advanced thermal analysis capabilities.

Applications of MWIR Cameras

Industrial Applications

MWIR cameras are widely used in industrial settings for applications such as predictive maintenance, quality control, and process monitoring. By detecting temperature anomalies, these cameras can help prevent equipment failures and improve operational efficiency.

Environmental Monitoring

In environmental science, MWIR cameras play a crucial role in monitoring temperature variations in ecosystems, detecting gas leaks, and assessing the health of vegetation. Their ability to capture thermal data in real-time allows researchers to make informed decisions regarding environmental management.

Defense and Security

The military and security sectors utilize MWIR cameras for surveillance, target acquisition, and reconnaissance. Their high sensitivity and ability to operate in low-light conditions make them invaluable tools for ensuring safety and security.

Learn more on our Application Fields of Infrared Thermography for MWIR Cameras

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