Thomas Knast scite author profile

Non-intrusive temporally and spatially resolved measurements of dynamic phenomena are heavily reliant on high-speed (>1 kHz) digital scientific cameras. The cost of these cameras is a major constraint on the operation of many experimental and educational research facilities. In this paper we present a performance analysis of a low-cost high-speed CMOS camera, the Chronos 1.4. Developed for consumer use, we investigate its potential as a scientific camera. It uses a 12 bit Luxima LUX1310 CMOS sensor with 1280 × 1024 px at 6.6 µm pitch and 1 µs minimum global shutter. It is capable of recording at 1057 Hz at full frame and up to 38 kHz with a reduced field of view. It provides a number of features not typically found in low-cost consumer cameras, such as external triggering and shutter gating control, clock outputs, and raw binary data output. We test the linearity of the sensor response using a pulsed LED source and analyse the sensor performance in terms of noise, jitter and intensity lag. A quantitative demonstration of the camera's performance under realistic experimental conditions is demonstrated with an image correlation velocimetry measurement in a high-speed propellant spray. The camera compares favourably against several scientific high speed cameras from major manufacturers. The camera is well suited for high resolution forward-scattering and in-line imaging techniques such as schlieren, shadowgraphy, holography and bright-field microscopy. Spatial bias in the dark field noise floor makes it generally unsuitable for lowlight measurement conditions. However, the small footprint and low cost make it ideal as an educational tool and for multi-camera experiments. These tests were conducted independently of the manufacturer and the authors have no conflicts of interest to disclose.

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The Effect of Underexpansion on a Jet in Cross Flow

Knast

Mears

Arora

et al. 2018

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The Effect of Jet Exit Pressure on Jets in Supersonic Crossflow

Knast¹

2020

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Thomas Knast

Coupling Modes of an Underexpanded Twin Axisymmetric Jet

A low-cost high-speed CMOS camera for scientific imaging

The Effect of Underexpansion on a Jet in Cross Flow

The Effect of Jet Exit Pressure on Jets in Supersonic Crossflow

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