Use the AVO (Voltage Output) and GND terminals.
This manual serves as the definitive resource for developers, data scientists, and systems integrators looking to deploy, customize, and troubleshoot the JS-VISG-M-S framework. Whether you are visualizing LIDAR point clouds, real-time telemetry, or molecular structures, this guide will walk you through every operational phase.
const myChart = new visg.Chart( container: '#chart1', type: 'bar', // 'line', 'bar', 'scatter' margin: top: 20, right: 30, bottom: 40, left: 50 , data: dataset, xKey: 'date', yKey: 'value' );
Transforms (static)
visg-m-s benchmark --runs 5 --output report.json
const comp = createComponent(container, width: 600, height: 320 ); const src = new Source( type: 'audioworklet', node: audioNode, sampleRate: 48000 ); comp.addLayer('spectrogram', source: src, pipeline: [Transforms.window('hanning', 1024), Transforms.fft(1024), Transforms.magnitude(), Transforms.toDb()], colormap: 'inferno' ); comp.start();
Follow these steps to use the JS-VISG-M-S for routine testing and calibration. js-visg-m-s manual
comp.start(); // uses default frame policy
// Apply a shader that composites all three streams visgScene.getActiveShader().setUniform('uStreamMix', [0.33, 0.33, 0.34]);
JS-VISG-M-S allows vertex and fragment shader injection for specialized effects. Use the AVO (Voltage Output) and GND terminals
<script src="https://unpkg.com/js-visg-m-s@2.4.0/dist/visgms.min.js"></script>
: Rotate clockwise to increase values ( + ); rotate counter-clockwise to decrease values ( - ).
: Common signal ground (Internally tied to Pin 1). 1. Voltage Output Configuration const myChart = new visg
Press the knob down ( OK ). If entered right, the screen will switch to F002 . If incorrect, it flags Err and kicks you out to active output mode. Parameter Map Table Parameter Name Options & Value Settings Fine / Coarse Adjustment 0 : Coarse Tuning Mode 1 : Fine Tuning Mode 0 F002 Hardware Output Range
