Meteor Inkjet Ltd’s newly launched DropWatcher optics enable more precise visualisation and measurement of ink droplets, enabling users to analyse and improve print quality with greater confidence and control. Previous generations of Meteor DropWatchers is operated by synchronising the strobe with the printhead firing frequency, using a long exposure. This technique produced high-contrast images representing the average drop position and velocity, but any variation (jitter) in drop velocity or trajectory would blur droplet edges, making it difficult to accurately calculate drop volume or analyse dynamic behaviours such as ligament breakup, meniscus oscillation, and mist generation. As a result, measurement precision relied heavily on consistent drop behaviour.
The new DropWatcher optics overcome these limitations. Featuring a high-intensity strobe with addressable pulse outputs and a fixed objective camera lens, the system dramatically improves image quality and resolution. It offers precise control over both strobe and camera exposure timings, enabling the user to observe the formation of an inkjet drop and elements of its creation that affect print quality. Single-event frame capture shows how each nozzle and each firing cycle can result in dynamic differences in drop and satellite formation. These differences depend on the print frequency, nozzle duty and the chemical composition of the formulation. The enhanced optics enable users to visualise the tiniest femtolitre (fL) drop sizes, making it possible to observe and reduce misting through waveform optimisation. By minimising mist formation, users can prevent nozzle plate wetting and obscuration, reducing print deviations and missing nozzle artefact. (PHOTO: WTT)
