{"id":101581,"date":"2026-05-30T21:41:00","date_gmt":"2026-05-30T21:41:00","guid":{"rendered":"https:\/\/vibromera.eu\/?page_id=101581"},"modified":"2026-07-02T19:11:15","modified_gmt":"2026-07-02T19:11:15","slug":"vibration-analyzer","status":"publish","type":"page","link":"https:\/\/vibromera.eu\/ta\/balancing-catalog\/vibration-analyzer\/","title":{"rendered":"Vibration Analyzer &#038; FFT Spectrum &#8211; Balanset-1A"},"content":{"rendered":"<div class=\"vbm-cat\">\n<style>\n.vbm-cat .vbm-answer{background:#eaf1ec;border-left:4px solid #2f6e46;border-radius:4px;padding:16px 20px;margin:0 0 24px;font-size:16px;line-height:1.65;color:#16202b}\n.vbm-cat .vbm-toc{display:flex;flex-wrap:wrap;gap:8px;margin:0 0 32px;padding:0}\n.vbm-cat .vbm-toc a{background:#f1f5f9;border:1px solid #cbd5e1;border-radius:999px;padding:5.6px 13.6px;font-size:13.6px;color:#1f3a5f;text-decoration:none;white-space:nowrap;transition:background .18s,color .18s}\n.vbm-cat .vbm-toc a:hover{background:#1f3a5f;color:#fff}\n.vbm-cat .vbm-kit{display:grid;grid-template-columns:1fr 1fr;gap:32px;align-items:start;margin:24px 0}\n@media(max-width:700px){.vbm-cat .vbm-kit{grid-template-columns:1fr}}\n.vbm-cat .vbm-kit .media{margin:0}\n.vbm-cat .vbm-kit .media img{width:100%;border-radius:6px;display:block}\n.vbm-cat .vbm-kit .price{font-size:21.6px;font-weight:700;color:#b9542d;margin:8px 0 16px}\n.vbm-cat .vbm-kit .price span{font-size:13.6px;font-weight:400;color:#555}\n.vbm-cat ul.vbm-kit-list{list-style:none;margin:8px 0 20px;padding:0}\n.vbm-cat ul.vbm-kit-list li{padding:4.8px 0 4.8px 25.6px;position:relative;font-size:15.2px}\n.vbm-cat ul.vbm-kit-list li::before{content:\"\u2713\";position:absolute;left:0;color:#2f6e46;font-weight:700}\n.vbm-cat .vbm-variants{display:grid;grid-template-columns:1fr 1fr;gap:20px;margin:24px 0}\n@media(max-width:600px){.vbm-cat .vbm-variants{grid-template-columns:1fr}}\n.vbm-cat .vbm-variant{border:2px solid #cbd5e1;border-radius:8px;padding:17.6px 20px}\n.vbm-cat .vbm-variant.is-primary{border-color:#b9542d;background:#faf4ef}\n.vbm-cat .vbm-variant .tag{display:inline-block;font-size:11.52px;font-weight:700;text-transform:uppercase;letter-spacing:.06em;background:#b9542d;color:#fff;border-radius:3px;padding:.15em .55em;margin-bottom:8px}\n.vbm-cat .vbm-variant:not(.is-primary) .tag{background:#1f3a5f}\n.vbm-cat .vbm-variant h3{margin:4.8px 0 8px;font-size:16.8px}\n.vbm-cat .vbm-variant p{margin:0;font-size:14.4px;color:#444}\n.vbm-cat table.vbm-table{width:100%;border-collapse:collapse;margin:20px 0;font-size:14.4px}\n.vbm-cat table.vbm-table caption{text-align:left;font-weight:700;margin-bottom:6.4px;color:#1f3a5f}\n.vbm-cat table.vbm-table th{background:#1f3a5f;color:#fff;padding:8.8px 12px;text-align:left}\n.vbm-cat table.vbm-table td{padding:8px 12px;border-bottom:1px solid #e2e8f0;vertical-align:top}\n.vbm-cat table.vbm-table tr:nth-child(even) td{background:#f8fafc}\n.vbm-cat table.vbm-table td.yes{color:#2f6e46;font-weight:700}\n.vbm-cat table.vbm-table td.no{color:#a32a22;font-weight:700}\n.vbm-cat .vbm-trust{display:flex;flex-wrap:wrap;gap:9.6px;margin-top:20px}\n.vbm-cat .vbm-trust span{background:#f1f5f9;border:1px solid #cbd5e1;border-radius:4px;padding:4.8px 12px;font-size:13.44px;color:#333}\n<\/style>\n<p class=\"vbm-cat-bc\"><a href=\"https:\/\/vibromera.eu\/ta\/balancing-catalog\/\">\u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0baa\u0bcd\u0baa\u0b9f\u0bc1\u0ba4\u0bcd\u0ba4\u0bb2\u0bcd \u0b9a\u0bc7\u0bb5\u0bc8\u0b95\u0bb3\u0bcd<\/a> &rsaquo; Vibration Analyzer<\/p>\n<div class=\"vbm-hero2\">\n<div>\n<h1>Vibration Analyzer &mdash; Two-Channel FFT Spectrum, Phase &amp; Fault Diagnostics<\/h1>\n<p class=\"lede\">The Balanset-1A is a two-channel vibration analyzer that plots real-time FFT spectra, measures amplitude and phase at 1&times; RPM, and maps fault signatures to distinguish unbalance, misalignment, looseness and bearing damage &mdash; then balances in the same session. One portable kit for &euro;1,975 covers diagnosis, correction and verification without switching instruments.<\/p>\n<div class=\"vbm-cta-row\" style=\"justify-content:flex-start\">\n<a class=\"vbm-btn vbm-btn-primary\" href=\"https:\/\/vibromera.eu\/ta\/balanset-1a\/\">Balanset-1A \u0baa\u0bc6\u0bb1\u0bc1\u0b99\u0bcd\u0b95\u0bb3\u0bcd<\/a><br \/>\n<a class=\"vbm-btn vbm-btn-ghost\" href=\"https:\/\/vibromera.eu\/ta\/community\/\">\u0b8e\u0b99\u0bcd\u0b95\u0bb3\u0bcd \u0baa\u0bca\u0bb1\u0bbf\u0baf\u0bbe\u0bb3\u0bb0\u0bbf\u0b9f\u0bae\u0bcd \u0b95\u0bc7\u0bb3\u0bc1\u0b99\u0bcd\u0b95\u0bb3\u0bcd<\/a>\n<\/div>\n<\/div>\n<figure class=\"media\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2018\/02\/interface-1-e1518391488191.webp\" alt=\"Balanset-1A \u0b85\u0ba4\u0bbf\u0bb0\u0bcd\u0bb5 \u0baa\u0b95\u0bc1\u0baa\u0bcd\u0baa\u0bbe\u0baf\u0bcd\u0b95\u0bcd\u0b95\u0bbf FFT \u0bb8\u0bcd\u0baa\u0bc6\u0b95\u0bcd\u0b9f\u0bcd\u0bb0\u0bae\u0bcd \u0b87\u0b9f\u0bc8\u0bae\u0bc1\u0b95\u0bae\u0bcd \u0bae\u0b9f\u0bbf\u0b95\u0bcd\u0b95\u0ba3\u0bbf\u0ba9\u0bbf\u0baf\u0bbf\u0bb2\u0bcd\" loading=\"lazy\"><\/figure>\n<\/div>\n<p class=\"vbm-answer\"><b>In short:<\/b> The Balanset-1A vibration analyzer captures simultaneous two-channel signals from its two vibration sensors (analog MEMS accelerometers), computes a real-time FFT spectrum, and displays amplitude and phase at every shaft-order harmonic. Unbalance appears as a dominant 1&times; RPM peak; misalignment as elevated 2&times; and 3&times; components; developed bearing defects as BPFO\/BPFI peaks and sidebands; looseness as sub-harmonics. Because the same hardware and sensors are used for field balancing, you diagnose the fault, correct it, and verify the result in a single site visit &mdash; measuring vibration velocity from 0.2 to 80&nbsp;mm\/s across 5 to 1000&nbsp;Hz.<\/p>\n<nav class=\"vbm-toc\">\n<a href=\"#when\">When to analyze<\/a><br \/>\n<a href=\"#measures\">What it measures<\/a><br \/>\n<a href=\"#faults\">Fault diagnostics<\/a><br \/>\n<a href=\"#how\">How to use it<\/a><br \/>\n<a href=\"#standards\">Standards<\/a><br \/>\n<a href=\"#device\">Balanset-1A<\/a><br \/>\n<a href=\"#screenshots\">Screenshots<\/a><br \/>\n<a href=\"#cases\">Real cases<\/a><br \/>\n<a href=\"#calc\">Calculators<\/a><br \/>\n<a href=\"#faq\">FAQ<\/a><br \/>\n<\/nav>\n<div class=\"vbm-sec\" id=\"when\">\n<h2>Signs your machine needs vibration analysis, not just a meter reading<\/h2>\n<p>A single overall vibration number tells you that something is wrong. An FFT spectrum tells you what and why. These situations call for a proper analyzer:<\/p>\n<div class=\"vbm-signs\">\n<div><b>Unknown vibration cause<\/b> Overall level is elevated but you cannot tell whether the culprit is unbalance, misalignment, looseness or bearing damage &mdash; FFT separates each signature.<\/div>\n<div><b>Strong 1&times; RPM component<\/b> A dominant first-order peak is the textbook signature of residual rotor unbalance and the trigger to proceed with balancing.<\/div>\n<div><b>Elevated 2&times; or 3&times; harmonics<\/b> A pronounced second-order or third-order component typically indicates angular or parallel misalignment of couplings or shafts.<\/div>\n<div><b>Sub-harmonics or broadband noise<\/b> Low-order bearing defect frequencies (BPFO, BPFI, BSF, FTF) and their harmonics appear in the velocity spectrum as a defect develops &mdash; a warning worth trending before a breakdown, though the very earliest damage stage needs high-frequency envelope analysis.<\/div>\n<div><b>Post-repair acceptance check<\/b> After balancing, alignment or a bearing change you need measured proof that levels have dropped below the ISO 20816 acceptance boundary.<\/div>\n<div><b>Periodic condition-monitoring survey<\/b> Recording baseline spectra at regular intervals lets you trend rising amplitudes and plan maintenance before an unplanned shutdown.<\/div>\n<\/div>\n<\/div>\n<div class=\"vbm-sec\" id=\"measures\">\n<h2>What the Balanset-1A analyzer measures<\/h2>\n<p>The analyzer captures simultaneous signals from the two supplied vibration sensors (analog MEMS accelerometers) referenced to the laser tachometer. Every parameter listed below is available in a single acquisition run:<\/p>\n<ul class=\"vbm-list\">\n<li>Overall vibration velocity (mm\/s RMS) and acceleration (m\/s&sup2; or g)<\/li>\n<li>Real-time FFT frequency spectrum with user-selectable resolution<\/li>\n<li>Vibration waveform (time-domain signal) on both channels simultaneously<\/li>\n<li>Phase angle at 1&times; RPM relative to the shaft tachometer reference<\/li>\n<li>1&times;, 2&times;, 3&times; and higher shaft-order amplitudes extracted from the FFT<\/li>\n<li>Simultaneous two-channel acquisition (both bearing planes at once)<\/li>\n<li>Running speed (RPM) from optical laser tachometer &mdash; no nameplate needed<\/li>\n<li>Vibration trend log across successive measurements<\/li>\n<li>Printable report: waveform, spectrum and numeric summary<\/li>\n<\/ul>\n<\/div>\n<div class=\"vbm-band\">\n<div class=\"vbm-stats\">\n<div class=\"vbm-stat\"><b>up to &times;10<\/b><span>bearing life when the unbalance load is halved (ISO 281)<\/span><\/div>\n<div class=\"vbm-stat\"><b>&minus;70%<\/b><span>typical vibration drop after one balancing session<\/span><\/div>\n<div class=\"vbm-stat\"><b>2<\/b><span>channels, simultaneous acquisition<\/span><\/div>\n<div class=\"vbm-stat\"><b>5&ndash;1000&nbsp;Hz<\/b><span>analyzer frequency range<\/span><\/div>\n<\/div>\n<\/div>\n<div class=\"vbm-sec\" id=\"faults\">\n<h2>Fault diagnostics &mdash; reading the FFT spectrum<\/h2>\n<p>Each mechanical fault leaves a distinct spectral fingerprint. The table below maps the most common faults to their spectral signatures so you can read the machine&rsquo;s condition directly from the Balanset-1A display.<\/p>\n<table class=\"vbm-table\">\n<caption>Vibration fault diagnostic guide &mdash; spectral signatures<\/caption>\n<thead>\n<tr>\n<th>Fault<\/th>\n<th>Dominant spectral components<\/th>\n<th>Other indicators<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td><b>Rotor unbalance<\/b><\/td>\n<td>Strong 1&times; RPM; all other orders low<\/td>\n<td>Phase stable; amplitude rises with speed squared; confirmed by trial-weight test<\/td>\n<\/tr>\n<tr>\n<td><b>\u0b95\u0bcb\u0ba3\u0bc0\u09af\u09bc \u0b85\u0b9a\u0bc8\u0baf\u0bbe\u0bae\u0bc8<\/b><\/td>\n<td>Elevated 1&times; and 2&times;; sometimes 3&times;<\/td>\n<td>Axial vibration often equals or exceeds radial; phase difference across coupling &asymp;180&deg;<\/td>\n<\/tr>\n<tr>\n<td><b>\u0b9a\u0bae\u0bbe\u0ba8\u0bcd\u0ba4\u0bb0 \u0b85\u0b9a\u0bc8\u0baf\u0bbe\u0bae\u0bc8<\/b><\/td>\n<td>Strong 2&times; RPM; 1&times; may also be present<\/td>\n<td>High radial vibration; 180&deg; phase shift measured across coupling in radial direction<\/td>\n<\/tr>\n<tr>\n<td><b>\u0b87\u0baf\u0ba8\u0bcd\u0ba4\u0bbf\u0bb0 \u0ba4\u0bb3\u0bb0\u0bcd\u0bb5\u0bc1<\/b><\/td>\n<td>Sub-harmonics (0.5&times;, 0.33&times;) and multiple harmonics up to 10&times;<\/td>\n<td>Broadband noise floor elevated; symptoms worsen with load<\/td>\n<\/tr>\n<tr>\n<td><b>Rolling-element bearing wear<\/b><\/td>\n<td>BPFO, BPFI, BSF or FTF defect frequencies and their harmonics<\/td>\n<td>May appear before overall level rises; sidebands around defect frequencies confirm progression<\/td>\n<\/tr>\n<tr>\n<td><b>Resonance<\/b><\/td>\n<td>Large amplitude near a natural frequency, often not synchronous with RPM<\/td>\n<td>Amplitude peaks at a specific speed; phase shifts by ~180&deg; through resonance<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p>When the 1&times; component dominates, switch directly to balancing mode &mdash; the Balanset-1A uses the same measurement run as the baseline for the influence-coefficient calculation, so no time is lost.<\/p>\n<\/div>\n<div class=\"vbm-sec\">\n<h2>Why a single overall number misses the fault<\/h2>\n<p>A vibration pen or simple RMS meter sums all frequency components into one number. Two machines can show identical overall levels yet have completely different faults &mdash; one dominated by 1&times; unbalance, the other by bearing defect sidebands. Without frequency resolution you are guessing at the cause and risk applying the wrong remedy. The FFT decomposes the signal so that each fault type appears as a labelled peak at its own characteristic frequency, giving you both a diagnosis and a prescription in the same measurement.<\/p>\n<div class=\"vbm-callout\"><b>ISO 281<\/b> shows why the diagnosis matters financially. Rolling-bearing basic rating life is <b>L<sub>10<\/sub> = (C\/P)<sup>p<\/sup><\/b> (in millions of revolutions), where P is the equivalent dynamic bearing load and p = 3 for ball bearings (10\/3 for roller bearings). Residual unbalance adds a rotating component to that load, so halving the 1&times; vibration amplitude roughly halves the unbalance load; where this rotating load dominates P, bearing life multiplies by up to 2<sup>p<\/sup>: about <b>8&times; \u0baa\u0ba8\u0bcd\u0ba4\u0bc1 \u0ba4\u0bbe\u0b99\u0bcd\u0b95\u0bb2\u0bcd\u0b95\u0bb3\u0bc1\u0b95\u0bcd\u0b95\u0bc1 \u0bae\u0bb1\u0bcd\u0bb1\u0bc1\u0bae\u0bcd ~10&times; \u0b89\u0bb0\u0bc1\u0bb3\u0bc8 \u0ba4\u0bbe\u0b99\u0bcd\u0b95\u0bb2\u0bcd\u0b95\u0bb3\u0bc1\u0b95\u0bcd\u0b95\u0bc1<\/b>. The estimate holds only when the measured 1&times; vibration is a reasonable proxy for the rotating dynamic bearing load. Use the <a href=\"https:\/\/vibromera.eu\/ta\/calculators\/bearing-load\/\">\u0ba4\u0bbe\u0b99\u0bcd\u0b95\u0bc1-\u0b86\u0baf\u0bc1\u0b9f\u0bcd\u0b95\u0bbe\u0bb2\u0bae\u0bcd \u0b95\u0ba3\u0b95\u0bcd\u0b95\u0bc0\u0b9f\u0bcd\u0b9f\u0bbf<\/a> to quantify the saving for your machine.<\/div>\n<\/div>\n<div class=\"vbm-sec\" id=\"how\">\n<h2>How to use the Balanset-1A as a vibration analyzer &mdash; step by step<\/h2>\n<ol class=\"vbm-steps\">\n<li><b>\u0b9a\u0bc6\u0ba9\u0bcd\u0b9a\u0bbe\u0bb0\u0bcd\u0b95\u0bb3\u0bc8 \u0ba8\u0bbf\u0bb1\u0bc1\u0bb5 \u0bb5\u0bc7\u0ba3\u0bcd\u0b9f\u0bc1\u0bae\u0bcd.<\/b> Attach one or both vibration sensors to the bearing housings using the magnetic mounts. For phase-referenced analysis, clip the laser tachometer reflective strip to the rotating shaft and aim the sensor at it (50&ndash;500&nbsp;mm working range). Both channels record simultaneously.<\/li>\n<li><b>Start the rotor and acquire.<\/b> Open the Balanset software, select <em>Analyzer<\/em> mode, and begin acquisition. The software shows live waveform, FFT spectrum and overall RMS vibration level in mm\/s in real time on a standard Windows laptop.<\/li>\n<li><b>Read the spectrum.<\/b> Identify the dominant frequency peaks. First-order amplitude and phase are displayed automatically against the tacho pulse. Consult the fault table above to match the spectral pattern to the most probable fault type.<\/li>\n<li><b>Compare to acceptance limits.<\/b> Check the overall velocity reading against the relevant <b>ISO 20816<\/b> zone boundary (A\/B\/C\/D) for your machine class and power rating. Export the spectrum plot and numeric values for the maintenance report.<\/li>\n<li><b>If unbalance is confirmed, balance in the same session.<\/b> The baseline measurement already captured serves as the first run in the influence-coefficient sequence. Add a trial weight, run again, and let the software calculate the correction &mdash; no additional instruments, no second visit.<\/li>\n<\/ol>\n<\/div>\n<div class=\"vbm-sec\" id=\"standards\">\n<h2>Vibration measurement standards<\/h2>\n<div class=\"vbm-callout\">\n<p><b>ISO 20816<\/b> defines evaluation zones for vibration velocity (mm\/s RMS) on non-rotating parts: Zone A (newly commissioned), B (acceptable for long-term operation), C (alarm &mdash; immediate investigation), D (danger &mdash; risk of damage). Limits vary by machine class and shaft-centre height. The Balanset-1A reports overall velocity in mm\/s RMS so you can compare directly to the relevant ISO 20816 part for your machine type.<\/p>\n<p>Once unbalance is identified, residual unbalance after balancing is evaluated against <b>ISO 21940-11<\/b> G-grades (G0.4 to G40). The Balanset-1A documents the achieved residual unbalance in its printable report, giving you a verifiable record against the applicable standard. Use the <a href=\"https:\/\/vibromera.eu\/ta\/calculators\/residual-unbalance-iso1940\/\">\u0b8e\u0b9e\u0bcd\u0b9a\u0bbf\u0baf-\u0b86\u0b9f\u0bcd\u0b9a\u0bc7\u0baa\u0ba9\u0bc8 \u0b95\u0ba3\u0b95\u0bcd\u0b95\u0bc0\u0b9f\u0bcd\u0b9f\u0bbf<\/a> \u0ba8\u0bc0\u0b99\u0bcd\u0b95\u0bb3\u0bcd \u0ba4\u0bca\u0b9f\u0b99\u0bcd\u0b95\u0bc1\u0bb5\u0ba4\u0bb1\u0bcd\u0b95\u0bc1 \u0bae\u0bc1\u0ba9\u0bcd \u0b85\u0ba9\u0bc1\u0bae\u0ba4\u0bbf\u0b95\u0bcd\u0b95\u0baa\u0bcd\u0baa\u0b9f\u0bcd\u0b9f \u0b9a\u0b95\u0bbf\u0baa\u0bcd\u0baa\u0bc1\u0ba4\u0bcd\u0ba4\u0ba9\u0bcd\u0bae\u0bc8\u0baf\u0bc8\u0b95\u0bcd \u0b95\u0ba3\u0bcd\u0b9f\u0bc1\u0baa\u0bbf\u0b9f\u0bbf\u0b95\u0bcd\u0b95.<\/p>\n<\/div>\n<\/div>\n<div class=\"vbm-sec\" id=\"device\">\n<h2>The Balanset-1A &mdash; your complete field analyzer and balancing kit<\/h2>\n<p>\u0b87\u0ba8\u0bcd\u0ba4\u0baa\u0bcd \u0baa\u0b95\u0bcd\u0b95\u0ba4\u0bcd\u0ba4\u0bbf\u0bb2\u0bcd \u0b89\u0bb3\u0bcd\u0bb3 \u0b85\u0ba9\u0bc8\u0ba4\u0bcd\u0ba4\u0bc1\u0bae\u0bcd \u0b92\u0bb0\u0bc1 \u0b9a\u0bbf\u0bb1\u0bbf\u0baf \u0b95\u0bb0\u0bc1\u0bb5\u0bbf \u0bae\u0bc2\u0bb2\u0bae\u0bcd \u0b9a\u0bc6\u0baf\u0bcd\u0baf\u0baa\u0bcd\u0baa\u0b9f\u0bc1\u0b95\u0bbf\u0bb1\u0ba4\u0bc1: <a href=\"https:\/\/vibromera.eu\/ta\/balanset-1a\/\">Balanset-1A<\/a>. It is a two-channel dynamic balancer and vibration analyzer that diagnoses faults from the FFT spectrum and, when unbalance is confirmed, balances rigid rotors <strong>\u0ba4\u0b99\u0bcd\u0b95\u0bb3\u0bcd \u0b9a\u0bca\u0ba8\u0bcd\u0ba4 \u0ba4\u0bbe\u0b99\u0bcd\u0b95\u0bc1\u0bae\u0bc1\u0ba9\u0bc8\u0b95\u0bb3\u0bbf\u0bb2\u0bcd, \u0b87\u0baf\u0b95\u0bcd\u0b95 \u0bb5\u0bc7\u0b95\u0ba4\u0bcd\u0ba4\u0bbf\u0bb2\u0bcd<\/strong>, 3-\u0b87\u0baf\u0b95\u0bcd\u0b95\u0bae\u0bcd \u0ba4\u0bbe\u0b95\u0bcd\u0b95-\u0b95\u0bc1\u0ba3\u0b95 \u0bae\u0bc1\u0bb1\u0bc8\u0baf\u0bc8\u0baa\u0bcd \u0baa\u0baf\u0ba9\u0bcd\u0baa\u0b9f\u0bc1\u0ba4\u0bcd\u0ba4\u0bbf &mdash; \u0bae\u0bc6\u0ba9\u0bcd\u0baa\u0bca\u0bb0\u0bc1\u0bb3\u0bcd \u0b9a\u0bb0\u0bbf\u0baf\u0bbe\u0ba9 \u0ba4\u0bbf\u0bb0\u0bc1\u0ba4\u0bcd\u0ba4 \u0ba8\u0bbf\u0bb1\u0bc8 \u0bae\u0bb1\u0bcd\u0bb1\u0bc1\u0bae\u0bcd \u0b95\u0bcb\u0ba3\u0ba4\u0bcd\u0ba4\u0bc8\u0b95\u0bcd \u0b95\u0ba3\u0b95\u0bcd\u0b95\u0bbf\u0b9f\u0bcd\u0b9f\u0bc1 \u0b85\u0bb1\u0bbf\u0b95\u0bcd\u0b95\u0bc8\u0baf\u0bc8\u0b9a\u0bcd \u0b9a\u0bc7\u0bae\u0bbf\u0b95\u0bcd\u0b95\u0bbf\u0bb1\u0ba4\u0bc1.<\/p>\n<div class=\"vbm-kit\">\n<figure class=\"media\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2021\/11\/%D0%91%D0%B0%D0%BB%D0%BA%D0%BE%D0%BC%D0%9A%D0%B8%D1%82-scaled-1024x683.jpg\" alt=\"Balanset-1A \u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0bae\u0bc8 \u0bae\u0bc1\u0bb4\u0bc1\u0bae\u0bc8\u0baf\u0bbe\u0ba9 \u0b95\u0b9f\u0bcd\u0b9f\u0bae\u0bcd \u0b89\u0ba3\u0bb0\u0bbf\u0b95\u0bb3\u0bcd, \u0bb2\u0bc7\u0b9a\u0bb0\u0bcd \u0b9f\u0bbe\u0b95\u0bcd\u0b95\u0bcb\u0bae\u0bc0\u0b9f\u0bcd\u0b9f\u0bb0\u0bcd, \u0b85\u0bb3\u0bb5\u0bc1 \u0bae\u0bb1\u0bcd\u0bb1\u0bc1\u0bae\u0bcd \u0bb5\u0bb4\u0b95\u0bcd\u0b95\u0bc1\u0b9f\u0ba9\u0bcd\" loading=\"lazy\"><\/figure>\n<div>\n<h3>\u0bae\u0bc1\u0bb4\u0bc1 \u0b9a\u0bc7\u0b9f\u0bcd\u0b9f\u0bbf\u0bb2\u0bcd \u0b8e\u0ba9\u0bcd\u0ba9 \u0b89\u0bb3\u0bcd\u0bb3\u0ba4\u0bc1<\/h3>\n<p class=\"price\">&euro;1,975 <span>&middot; \u0bae\u0bc1\u0bb4\u0bc1 \u0b9a\u0bc7\u0b9f\u0bcd, \u0baa\u0b99\u0bcd\u0b95\u0bc1, VAT \u0bb0\u0b9a\u0bc0\u0ba4\u0bc1<\/span><\/p>\n<ul class=\"vbm-kit-list\">\n<li>\u0b87\u0ba3\u0bc8\u0baf\u0bae\u0bc1\u0b95\u0bae\u0bcd \u0b85\u0bb3\u0bb5\u0bc0\u0b9f\u0bcd\u0b9f\u0bc1 \u0b85\u0bb2\u0b95\u0bc1 (USB, 2 \u0b9a\u0bc7\u0ba9\u0bb2\u0bcd\u0b95\u0bb3\u0bcd)<\/li>\n<li>\u0b87\u0bb0\u0ba3\u0bcd\u0b9f\u0bc1 \u0b85\u0ba4\u0bbf\u0bb0\u0bcd\u0bb5 \u0bae\u0bc1\u0b9f\u0bc1\u0b95\u0bcd\u0b95\u0ba4\u0bbf\u0bb0\u0bcd (4&nbsp;m \u0b95\u0bc7\u0baa\u0bb2\u0bcd, 10&nbsp;m \u0bb5\u0bbf\u0bb0\u0bc1\u0bae\u0bcd\u0baa\u0b95\u0bcd\u0b95\u0bc2\u0b9f\u0bbf\u0baf\u0ba4\u0bc1)<\/li>\n<li>\u0bb2\u0bc7\u0b9a\u0bb0\u0bcd \u0b9f\u0bbe\u0b95\u0bcd\u0b95\u0bcb\u0bae\u0bc0\u0b9f\u0bcd\u0b9f\u0bb0\u0bcd \/ \u0b92\u0bb3\u0bbf\u0baf\u0bbf\u0baf\u0bb2\u0bcd \u0b95\u0b9f\u0bcd\u0b9f \u0b9a\u0bc6\u0ba9\u0bcd\u0b9a\u0bbe\u0bb0\u0bcd (50&ndash;500&nbsp;mm)<\/li>\n<li>\u0b9a\u0bc6\u0ba9\u0bcd\u0b9a\u0bbe\u0bb0\u0bc1\u0b95\u0bcd\u0b95\u0bbe\u0ba9 \u0b95\u0bbe\u0ba8\u0bcd\u0ba4 \u0bb8\u0bcd\u099f\u0bcd\u09af\u09be\u09a8\u0bcd\u09a1\u0bcd<\/li>\n<li>\u0b9a\u0bcb\u0ba4\u0ba9\u0bc8 \u0bae\u0bb1\u0bcd\u0bb1\u0bc1\u0bae\u0bcd \u0ba4\u0bbf\u0bb0\u0bc1\u0ba4\u0bcd\u0ba4\u0b95\u0bcd \u0b95\u0bca\u0bb3\u0bcd\u0bb3\u0bb3\u0bc1\u0b95\u0bcd\u0b95\u0bbe\u0ba9 \u0b9f\u0bbf\u0b9c\u0bbf\u0b9f\u0bcd\u0b9f\u0bb2\u0bcd \u0ba8\u0bbf\u0bb1\u0bc8 \u0bae\u0bbe\u09aa\u0b95\u0bae\u0bcd<\/li>\n<li>\u0bb5\u0bbf\u0ba3\u0bcd\u0b9f\u0bcb\u0bb8\u0bcd \u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0baa\u0bcd\u0baa\u0b9f\u0bc1\u0ba4\u0bcd\u0ba4\u0bb2\u0bcd \u0bae\u0bb1\u0bcd\u0bb1\u0bc1\u0bae\u0bcd \u0baa\u0b95\u0bc1\u0baa\u0bcd\u0baa\u0bbe\u0baf\u0bcd\u0bb5\u0bc1 \u0bae\u0bc6\u0ba9\u0bcd\u0baa\u0bca\u0bb0\u0bc1\u0bb3\u0bcd<\/li>\n<li>\u0baa\u0bbf\u0bb3\u0bbe\u0bb8\u0bcd\u0b9f\u0bbf\u0b95\u0bcd \u0baa\u0bcb\u0b95\u0bcd\u0b95\u0bc1\u0bb5\u0bb0\u0ba4\u0bcd\u0ba4\u0bc1 \u0baa\u0bc6\u0b9f\u0bcd\u0b9f\u0bbf<\/li>\n<\/ul>\n<div class=\"vbm-cta-row\" style=\"justify-content:flex-start\">\n<a class=\"vbm-btn vbm-btn-primary\" href=\"https:\/\/vibromera.eu\/ta\/balanset-1a\/\">Balanset-1A \u0b90 \u0baa\u0bbe\u0bb0\u0bcd\u0b95\u0bcd\u0b95\u0bb5\u0bc1\u0bae\u0bcd<\/a><br \/>\n<a class=\"vbm-btn vbm-btn-ghost\" href=\"https:\/\/vibromera.eu\/ta\/community\/\">\u0b8e\u0b99\u0bcd\u0b95\u0bb3\u0bcd \u0baa\u0bca\u0bb1\u0bbf\u0baf\u0bbe\u0bb3\u0bb0\u0bbf\u0b9f\u0bae\u0bcd \u0b95\u0bc7\u0bb3\u0bc1\u0b99\u0bcd\u0b95\u0bb3\u0bcd<\/a>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"vbm-variants\">\n<div class=\"vbm-variant is-primary\"><span class=\"tag\">Recommended<\/span><\/p>\n<h3>Full Kit<\/h3>\n<p>Unit &middot; 2 sensors &middot; laser tachometer &middot; magnetic stand &middot; digital scale &middot; software &middot; transport case. Everything needed to start analyzing and balancing out of the box.<\/p>\n<\/div>\n<div class=\"vbm-variant\"><span class=\"tag\">OEM<\/span><\/p>\n<h3>OEM set<\/h3>\n<p>\u0b85\u0bb2\u0b95\u0bc1 &middot; 2 \u0b9a\u0bc6\u0ba9\u0bcd\u0b9a\u0bbe\u0bb0\u0bcd\u0b95\u0bb3\u0bcd &middot; \u0bb2\u0bc7\u0b9a\u0bb0\u0bcd \u0b9f\u0bbe\u0b95\u0bcd\u0b95\u0bcb\u0bae\u0bc0\u0b9f\u0bcd\u0b9f\u0bb0\u0bcd &middot; \u0bae\u0bc6\u0ba9\u0bcd\u0baa\u0bca\u0bb0\u0bc1\u0bb3\u0bcd. \u0bb8\u0bcd\u0b9f\u0bcd\u09af\u0bbe\u0ba9\u0bcd\u0b9f\u0bcd, \u0ba8\u0bbf\u0bb1\u0bc8 \u0bae\u0bbe\u0baa\u0b95\u0bae\u0bcd \u0bae\u0bb1\u0bcd\u0bb1\u0bc1\u0bae\u0bcd \u0baa\u0bc6\u0b9f\u0bcd\u0b9f\u0bbf \u0b8f\u0bb1\u0bcd\u0b95\u0ba9\u0bb5\u0bc7 \u0b89\u0bb3\u0bcd\u0bb3\u0bb5\u0bb0\u0bcd\u0b95\u0bb3\u0bc1\u0b95\u0bcd\u0b95\u0bc1 \u0b85\u0bb2\u0bcd\u0bb2\u0ba4\u0bc1 \u0b85\u0bb2\u0b95\u0bc8 \u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0baa\u0bcd\u0baa\u0b9f\u0bc1\u0ba4\u0bcd\u0ba4\u0bc1\u0bae\u0bcd \u0b87\u0baf\u0ba8\u0bcd\u0ba4\u0bbf\u0bb0\u0ba4\u0bcd\u0ba4\u0bbf\u0bb2\u0bcd \u0b89\u0b9f\u0bcd\u0baa\u0bca\u0ba4\u0bbf\u0baa\u0bcd\u0baa\u0bb5\u0bb0\u0bcd\u0b95\u0bb3\u0bc1\u0b95\u0bcd\u0b95\u0bc1.<\/p>\n<\/div>\n<\/div>\n<table class=\"vbm-table\">\n<caption>\u0bae\u0bc1\u0b95\u0bcd\u0b95\u0bbf\u0baf \u0ba4\u0bca\u0bb4\u0bbf\u0bb2\u0bcd\u0ba8\u0bc1\u0b9f\u0bcd\u0baa \u0bb5\u0bbf\u0bb5\u0bb0\u0ba3\u0bc8\u0b95\u0bb3\u0bcd<\/caption>\n<thead>\n<tr>\n<th>Parameter<\/th>\n<th>Value<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td>\u0b85\u0bb3\u0bb5\u0bc0\u0b9f\u0bcd\u0b9f\u0bc1 \u0b9a\u0bc7\u0ba9\u0bb2\u0bcd\u0b95\u0bb3\u0bcd<\/td>\n<td>2 (\u0b92\u0bb1\u0bcd\u0bb1\u0bc8- &amp; \u0b87\u0bb0\u0ba3\u0bcd\u0b9f\u0bc1-\u0ba4\u0bb3\u0bae\u0bcd \u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0baa\u0bcd\u0baa\u0b9f\u0bc1\u0ba4\u0bcd\u0ba4\u0bb2\u0bcd)<\/td>\n<\/tr>\n<tr>\n<td>\u0b85\u0ba4\u0bbf\u0bb0\u0bcd\u0bb5\u0928 \u0bb5\u0bc7\u0b95 \u0bb5\u0bb0\u0bae\u0bcd\u0baa\u0bc1<\/td>\n<td>0.2&ndash;80 mm\/s RMS<\/td>\n<\/tr>\n<tr>\n<td>\u0b85\u0ba4\u0bbf\u0bb0\u0bcd\u0bb5\u0bc6\u0ba3\u0bcd \u0bb5\u0bb0\u0bae\u0bcd\u0baa\u0bc1<\/td>\n<td>5&ndash;1000 Hz (&le;10% amplitude error above 550&nbsp;Hz)<\/td>\n<\/tr>\n<tr>\n<td>\u0b85\u0bb3\u0bb5\u0bc0\u0b9f\u0bcd\u0b9f\u0bc1 \u0b9a\u0bbf\u0bb1\u0bc1\u0bae\u0bc8<\/td>\n<td>&plusmn;5% \u0bae\u0bc1\u0bb4\u0bc1 \u0b85\u0bb3\u0bb5\u0bbf\u0ba9\u0bcd<\/td>\n<\/tr>\n<tr>\n<td>Method<\/td>\n<td>3-\u0bb0\u0ba9\u0bcd \u0b9a\u0bc6\u0bb2\u0bcd\u0bb5\u0bbe\u0b95\u0bcd\u0b95\u0bc1-\u0b95\u0bc1\u0ba3\u0b95\u0bae\u0bcd (1 \u0b85\u0bb2\u0bcd\u0bb2\u0ba4\u0bc1 2 \u0ba4\u0bb3\u0b99\u0bcd\u0b95\u0bb3\u0bcd)<\/td>\n<\/tr>\n<tr>\n<td>Analysis<\/td>\n<td>1&times; \u0b87\u0bb2\u0bcd \u0bb5\u0bc0\u0b9a\u0bcd\u0b9a\u0bc1 &amp; \u0b95\u0b9f\u0bcd\u0b9f\u0bae\u0bcd, FFT \u0ba8\u0bbf\u0bb1\u0bae\u0bbe\u0bb2\u0bc8 &amp; \u0b85\u0bb2\u0bc8\u0bb5\u0b9f\u0bbf\u0bb5\u0bae\u0bcd, \u0b9a\u0bc7\u0bae\u0bbf\u0b95\u0bcd\u0b95\u0baa\u0bcd\u0baa\u0b9f\u0bcd\u0b9f \u0b85\u0bb1\u0bbf\u0b95\u0bcd\u0b95\u0bc8\u0b95\u0bb3\u0bcd<\/td>\n<\/tr>\n<tr>\n<td>Laptop<\/td>\n<td>\u0b9a\u0bc7\u0bb0\u0bcd\u0b95\u0bcd\u0b95\u0baa\u0bcd\u0baa\u0b9f\u0bb5\u0bbf\u0bb2\u0bcd\u0bb2\u0bc8 (\u0bb5\u0bbf\u0ba3\u0bcd\u0b9f\u0bcb\u0bb8\u0bcd \u0baa\u0bbf\u0b9a\u0bbf, \u0b95\u0bcb\u0bb0\u0bbf\u0b95\u0bcd\u0b95\u0bc8\u0baf\u0bbf\u0ba9\u0bcd \u0baa\u0bc7\u0bb0\u0bbf\u0bb2\u0bcd \u0b95\u0bbf\u0b9f\u0bc8\u0b95\u0bcd\u0b95\u0bbf\u0bb1\u0ba4\u0bc1)<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<div class=\"vbm-trust\"><span><b>&#10003;<\/b> In stock<\/span><span><b>&#10003;<\/b> DHL Portugal &euro;35<\/span><span><b>&#10003;<\/b> DHL \u0b89\u0bb2\u0b95 \u0b9a\u0bc7\u0bb5\u0bc8 \u20ac110<\/span><span><b>&#10003;<\/b> 2-\u0b86\u0ba3\u0bcd\u0b9f\u0bc1 \u0b89\u0ba4\u0bcd\u0ba4\u0bb0\u0bb5\u0bbe\u0ba4\u0bae\u0bcd<\/span><span><b>&#10003;<\/b> VAT invoice<\/span><span><b>&#10003;<\/b> \u0baa\u0bca\u0bb1\u0bbf\u0baf\u0bbe\u0bb3\u0bb0\u0bcd \u0b86\u0ba4\u0bb0\u0bb5\u0bc1<\/span><\/div>\n<\/div>\n<div class=\"vbm-sec\" id=\"screenshots\">\n<h2>What the Balanset-1A analyzer shows<\/h2>\n<div class=\"vbm-cases\">\n<div class=\"vbm-case\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2025\/10\/ChatGPT-Image-25-%D0%B8%D1%8E%D0%BB.-2025-%D0%B3.-22_07_35.webp\" alt=\"Balanset-1A two-channel vibration analyzer overview screen\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Two-channel analyzer overview<\/h3>\n<p>Overall vibration level, FFT spectrum and phase angle from two sensors displayed simultaneously on one Windows laptop.<\/p>\n<\/div>\n<\/div>\n<div class=\"vbm-case\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2025\/09\/Screenshot-2025-07-29-165701-scaled.webp\" alt=\"Real-time FFT spectrum showing frequency peaks for fault diagnosis\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Real-time FFT spectrum<\/h3>\n<p>Frequency peaks distinguish unbalance (dominant 1&times;) from misalignment (2&times;) and bearing defect sidebands.<\/p>\n<\/div>\n<\/div>\n<div class=\"vbm-case\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2025\/10\/%D0%98%D0%B7%D0%BE%D0%B1%D1%80%D0%B0%D0%B6%D0%B5%D0%BD%D0%B8%D0%B5-WhatsApp-2025-10-03-%D0%B2-11.16.33_1bc14f9b.webp\" alt=\"Accelerometer and laser tachometer mounted on bearing housing in the field\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Measurement in the field<\/h3>\n<p>Vibration sensor and laser tachometer mounted on a running machine&rsquo;s bearing housing &mdash; no machine disassembly required.<\/p>\n<\/div>\n<\/div>\n<div class=\"vbm-case\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2024\/02\/Bs1ManualEngV156-May2023-10461221.webp\" alt=\"Amplitude and phase at 1x RPM displayed in Balanset software\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Amplitude &amp; phase at 1&times;<\/h3>\n<p>First-order amplitude and phase angle displayed against the tachometer reference &mdash; the inputs needed for influence-coefficient balancing.<\/p>\n<\/div>\n<\/div>\n<div class=\"vbm-case\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2024\/02\/Bs1ManualEngV156-May2023-10418068.webp\" alt=\"Printable Balanset-1A measurement report with waveform and spectrum\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Documented report<\/h3>\n<p>Waveform, FFT spectrum and numeric summary exported as a printable report for the maintenance record.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<div class=\"vbm-sec\" id=\"cases\">\n<h2>Real measurement and analyzer cases<\/h2>\n<div class=\"vbm-cases\">\n<a class=\"vbm-case\" href=\"https:\/\/vibromera.eu\/ta\/example\/measurement-of-relative-rotor-vibration-using-non-contact-linear-displacement-sensors\/\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2023\/04\/image014.webp\" alt=\"Non-contact vibration measurement with linear displacement sensors\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Non-contact vibration measurement<\/h3>\n<p>Using linear displacement sensors to measure relative rotor vibration without shaft contact &mdash; suitable for rotors where accelerometer mounting is impractical.<\/p>\n<\/div>\n<p><\/a><br \/>\n<a class=\"vbm-case\" href=\"https:\/\/vibromera.eu\/ta\/example\/portable-balancer-vibration-analyzer-and-balancer-machine-balanset-1a\/\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2023\/04\/photo_2023-04-08_17-03-49-1024x576.webp\" alt=\"Balanset-1A used as both vibration analyzer and two-plane balancer\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Analyzer and balancer combined<\/h3>\n<p>A practical demonstration of how one device covers vibration analysis and two-plane balancing in a single job, from diagnosis to verified correction.<\/p>\n<\/div>\n<p><\/a><br \/>\n<a class=\"vbm-case\" href=\"https:\/\/vibromera.eu\/ta\/example\/why-balancing-doesnt-reduce-vibration-troubleshooting-guide-balanset-1a\/\"><img decoding=\"async\" src=\"https:\/\/vibromera.eu\/wp-content\/uploads\/2025\/06\/ChatGPT-Image-19-%D0%B8%D1%8E%D0%BD.-2025-%D0%B3.-18_31_25.webp\" alt=\"Diagnosing why balancing does not reduce vibration using the analyzer\" loading=\"lazy\"><\/p>\n<div class=\"body\">\n<h3>Diagnose before you balance<\/h3>\n<p>A troubleshooting guide for cases where balancing alone does not reduce vibration &mdash; and how the FFT spectrum reveals the actual root cause.<\/p>\n<\/div>\n<p><\/a>\n<\/div>\n<\/div>\n<div class=\"vbm-sec\" id=\"calc\">\n<h2>Free vibration calculators<\/h2>\n<div class=\"vbm-chips\">\n<a href=\"https:\/\/vibromera.eu\/ta\/calculators\/bearing-load\/\">\u0ba4\u0bbe\u0b99\u0bcd\u0b95\u0bbf-\u0bb5\u0bbe\u0bb4\u0bcd\u0b95\u0bcd\u0b95\u0bc8 \u0b95\u0ba3\u0b95\u0bcd\u0b95\u0bbf\u0b9f\u0bc1\u0baa\u0bb5\u0bbf<\/a><br \/>\n<a href=\"https:\/\/vibromera.eu\/ta\/calculators\/centrifugal-force-unbalance\/\">\u0b86\u0b9f\u0bcd\u0b9a\u0bc7\u0baa\u0ba9\u0bc8\u0baf\u0bbf\u0bb2\u0bbf\u0bb0\u0bc1\u0ba8\u0bcd\u0ba4\u0bc1 \u0bae\u0bc8\u0baf\u0bb5\u0bbf\u092e\u094b\u0915 \u0bb5\u0bbf\u0b9a\u0bc8<\/a><br \/>\n<a href=\"https:\/\/vibromera.eu\/ta\/calculators\/residual-unbalance-iso1940\/\">\u0bae\u0bc0\u0ba4\u0bae\u0bc1\u0bb3\u0bcd\u0bb3 \u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0baf\u0bb1\u0bcd\u0bb1 (ISO 1940)<\/a><br \/>\n<a href=\"https:\/\/vibromera.eu\/ta\/calculators\/trial-weight-calculator\/\">\u0b9a\u0bcb\u0ba4\u0ba9\u0bc8 \u0993\u099c\u0928 \u0b95\u0d3e\u09b2\u0995\u0bc1\u0932\u09c7\u099f\u0930<\/a>\n<\/div>\n<\/div>\n<div class=\"vbm-sec vbm-faq\" id=\"faq\">\n<h2>Vibration analyzer FAQ<\/h2>\n<details>\n<summary>How does FFT analysis distinguish unbalance from misalignment?<\/summary>\n<div class=\"ans\">Unbalance produces a single dominant peak at exactly 1&times; the running speed. Angular misalignment typically shows a strong 2&times; component and sometimes 3&times;, often with elevated axial vibration. Parallel misalignment produces a prominent 2&times; radial peak. The Balanset-1A labels these peaks automatically in the FFT display so you can identify the dominant fault before deciding on a correction. If the 1&times; component dominates, the same measurement run transfers directly into the balancing calculation.<\/div>\n<\/details>\n<details>\n<summary>Can I use the Balanset-1A as a standalone analyzer without balancing?<\/summary>\n<div class=\"ans\">Yes. The device operates in an analyzer-only mode to record vibration spectra, measure overall levels in mm\/s, and log data for condition-monitoring trends &mdash; without entering balancing mode. This is useful for incoming inspection, periodic condition surveys and post-repair acceptance measurements against ISO 20816 limits.<\/div>\n<\/details>\n<details>\n<summary>What frequency range does the FFT cover, and is it enough for bearing diagnostics?<\/summary>\n<div class=\"ans\">The Balanset-1A covers 5 to 1000&nbsp;Hz, which captures all shaft-order harmonics plus the fundamental bearing defect frequencies (BPFO, BPFI, BSF, FTF) and their lower harmonics for most industrial rolling-element bearings at typical speeds. Be aware of the limit, however: early-stage bearing damage is normally detected with high-frequency acceleration and envelope (demodulation) techniques that require bandwidth of several kHz to tens of kHz &mdash; beyond this instrument&rsquo;s range. Within 5&ndash;1000&nbsp;Hz the Balanset-1A shows bearing faults once they produce measurable velocity components at the defect frequencies, i.e. at a more developed stage; it is not a substitute for a dedicated wideband bearing-diagnostics instrument.<\/div>\n<\/details>\n<details>\n<summary>Does ISO 20816 apply to my machine?<\/summary>\n<div class=\"ans\">ISO 20816 covers a wide range of rotating machines across its multiple parts: pumps, compressors, fans, turbines, motors and generators are all addressed. The specific zone boundary depends on the machine power class and shaft-centre height. The Balanset-1A reports overall velocity in mm\/s RMS so you apply whichever part of ISO 20816 covers your machine type directly to the reading.<\/div>\n<\/details>\n<details>\n<summary>Is the phase measurement accurate enough for two-plane balancing?<\/summary>\n<div class=\"ans\">Yes. Phase is measured relative to the optical tachometer pulse, providing a repeatable angular reference. The two-channel simultaneous acquisition ensures both bearing planes are sampled at the same shaft position, which is critical for accurate cross-effect (influence-coefficient) calculations in two-plane dynamic balancing jobs.<\/div>\n<\/details>\n<details>\n<summary>How does the analyzer help when balancing alone did not fix the vibration?<\/summary>\n<div class=\"ans\">When balancing reduces the 1&times; component but overall vibration remains high, the FFT immediately shows which other frequency component has become dominant &mdash; whether a 2&times; misalignment harmonic, a bearing defect frequency or sub-harmonic looseness signature. This directs the next corrective step precisely rather than leaving the technician guessing. See our case study on diagnosing persistent vibration for practical examples.<\/div>\n<\/details>\n<\/div>\n<div class=\"vbm-sec\">\n<h2>\u0b95\u0bcb\u0b9f\u0bcd\u0baa\u0bbe\u0b9f\u0bcd\u0b9f\u0bc8 \u0b95\u0bb1\u0bcd\u0bb1\u0bc1\u0b95\u0bcd \u0b95\u0bca\u0bb3\u0bcd\u0bb3\u0bc1\u0b99\u0bcd\u0b95\u0bb3\u0bcd<\/h2>\n<div class=\"vbm-chips blue\">\n<a href=\"https:\/\/vibromera.eu\/ta\/glossary\/field-balancing\/\">\u0b95\u0bb3 \u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8<\/a><br \/>\n<a href=\"https:\/\/vibromera.eu\/ta\/glossary\/residual-unbalance\/\">\u0b8e\u0b9e\u0d4d\u0d1c\u0d3f\u0d28\u0d40\u0baf\u0bb0\u0bbf\u0b99\u0bcd \u0b85\u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8<\/a><br \/>\n<a href=\"https:\/\/vibromera.eu\/ta\/glossary\/balance-quality\/\">\u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0baa\u0bcd\u0baa\u0b9f\u0bc1\u0ba4\u0bcd\u0ba4\u0bb2\u0bcd \u0ba4\u0bb0 \u0ba4\u0bb0\u0b99\u0bcd\u0b95\u0bb3\u0bcd<\/a><br \/>\n<a href=\"https:\/\/vibromera.eu\/ta\/glossary\/dynamic-balancing\/\">\u0b87\u0baf\u0b99\u0bcd\u0b95\u0bc1\u0bae\u0bcd \u0b9a\u0bae\u0ba8\u0bbf\u0bb2\u0bc8\u0baa\u0bcd\u0baa\u0b9f\u0bc1\u0ba4\u0bcd\u0ba4\u0bb2\u0bcd<\/a>\n<\/div>\n<\/div>\n<div class=\"vbm-band\">\n<h2>Diagnose first &mdash; then balance with confidence<\/h2>\n<p>The Balanset-1A gives you a two-channel FFT analyzer and a two-plane balancer in one portable kit. Read the fault from the spectrum, correct it at source, and verify to ISO 20816 &mdash; all in a single site visit for &euro;1,975.<\/p>\n<div class=\"vbm-cta-row\">\n<a class=\"vbm-btn vbm-btn-primary\" href=\"https:\/\/vibromera.eu\/ta\/balanset-1a\/\">Balanset-1A \u0b90 \u0baa\u0bbe\u0bb0\u0bcd\u0b95\u0bcd\u0b95\u0bb5\u0bc1\u0bae\u0bcd<\/a><br \/>\n<a class=\"vbm-btn vbm-btn-ghost\" href=\"https:\/\/vibromera.eu\/ta\/community\/\">\u0bae\u0ba9\u0bcd\u0bb1\u0ba4\u0bcd\u0ba4\u0bbf\u0bb2\u0bcd \u0b95\u0bc7\u0bb3\u0bcd\u0bb5\u0bbf \u0b95\u0bc7\u0b9f\u0bcd\u0b95\u0bb5\u0bc1\u0bae\u0bcd<\/a>\n<\/div>\n<\/div>\n<\/div>","protected":false},"excerpt":{"rendered":"<p>Balancing services &rsaquo; Vibration Analyzer Vibration Analyzer &mdash; Two-Channel FFT Spectrum, Phase &amp; Fault Diagnostics The Balanset-1A is a two-channel vibration analyzer that plots real-time FFT spectra, measures amplitude and phase at 1&times; RPM, and maps fault signatures to distinguish unbalance, misalignment, looseness and bearing damage &mdash; then balances in [&hellip;]<\/p>\n","protected":false},"author":0,"featured_media":0,"parent":101558,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"ai_generated_summary":"","footnotes":""},"class_list":["post-101581","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/pages\/101581","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/types\/page"}],"replies":[{"embeddable":true,"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/comments?post=101581"}],"version-history":[{"count":6,"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/pages\/101581\/revisions"}],"predecessor-version":[{"id":102102,"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/pages\/101581\/revisions\/102102"}],"up":[{"embeddable":true,"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/pages\/101558"}],"wp:attachment":[{"href":"https:\/\/vibromera.eu\/ta\/wp-json\/wp\/v2\/media?parent=101581"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}