Fan Vibration Meter and Calculator

Fan Vibration Input Form

Fan Speed

RPM

Displacement Amplitude

µm

Amplitude Basis

Rotor or Fan Assembly Mass

Estimated Eccentricity

Blade Count

Bearing Span

Measured RMS Velocity

mm/s

Measured RMS Acceleration

m/s²

Natural Frequency

Sample Window

Sample Count

Reset

Formula Used

The calculator converts fan speed, displacement, mass, and eccentricity into vibration values.

Rotational frequency: f = RPM / 60
Angular speed: ω = 2πf
Peak velocity: v_peak = ωx_peak
RMS velocity: v_rms = v_peak / √2
Peak acceleration: a_peak = ω²x_peak
RMS acceleration: a_rms = a_peak / √2
Imbalance force: F = meω²
Blade pass frequency: BPF = blade count × f

Here, x is displacement in meters, m is rotor mass, and e is eccentricity in meters.

How to Use This Calculator

Enter fan speed in RPM.
Enter displacement amplitude in micrometers.
Select whether the displacement value is peak, peak to peak, or RMS.
Add rotor mass, eccentricity, blade count, and bearing span.
Enter measured velocity if you have a vibration meter reading.
Add natural frequency to check possible resonance risk.
Click calculate to view results above the form.
Use CSV or PDF buttons to save the report.

Example Data Table

Case	RPM	Amplitude	Basis	Mass	Eccentricity	Blade Count	Use Case
Small exhaust fan	960	18 µm	Peak	5 kg	0.05 mm	5	Routine check
Industrial blower	1450	25 µm	Peak	12 kg	0.08 mm	6	Maintenance review
High speed fan	2900	12 µm	RMS	8 kg	0.04 mm	7	Resonance check

Fan Vibration Meter Guide

Why fan vibration matters

Fan vibration is a signal. It shows how smoothly a fan rotates under load. A small vibration may be normal. A rising value can reveal dirt buildup, bent blades, loose mounts, bearing wear, imbalance, or resonance. This calculator helps convert simple speed and displacement data into velocity, acceleration, frequency, force, and severity values.

What the calculator measures

The tool starts with fan speed in revolutions per minute. It converts speed into hertz and angular speed. Then it uses displacement amplitude to estimate vibration velocity and acceleration. You can enter peak, peak to peak, or RMS displacement. The form also accepts rotor mass, eccentricity, blade count, bearing span, natural frequency, sample time, and sample count. These inputs make the result more useful for maintenance review.

How to read the results

RMS velocity is often the clearest general vibration value. Higher velocity usually means stronger mechanical movement. Acceleration is useful for fast faults, bearing issues, and high speed fans. Displacement is helpful when slow fans move far from center. Imbalance force estimates the rotating force caused by a small offset mass path. Blade pass frequency shows how often blades pass a fixed point. This can help compare vibration peaks with fan geometry.

Using vibration severity

The severity message is a guide, not a replacement for field inspection. Low values suggest stable operation. Medium values deserve review, trend tracking, and bolt checks. High values suggest shutdown planning, balancing, bearing checks, or alignment work. Use the measured velocity field when you have a real meter reading. Otherwise, the calculator estimates velocity from displacement.

Best practice

Measure at the same location each time. Keep sensor direction consistent. Record speed, load, temperature, and mounting condition. Compare readings over days or weeks. A steady trend is more useful than one isolated value. Clean blades before final diagnosis. Confirm foundations are tight. Inspect guards, ducts, pulleys, belts, and couplings. If resonance ratio is near one, change speed carefully. Use professional instruments for critical machines. This calculator supports screening, planning, reports, and learning. It helps turn raw readings into practical maintenance decisions.

Save report with date, location, operator, and sensor notes. Clear records make future comparisons faster, safer, and more accurate.

FAQs

What does this fan vibration calculator measure?

It estimates rotational frequency, angular speed, displacement, velocity, acceleration, imbalance force, blade pass frequency, sampling checks, resonance ratio, and a practical severity message.

Can I use a real vibration meter reading?

Yes. Enter measured RMS velocity if available. The severity guide will use that value instead of the estimated velocity from displacement.

What amplitude basis should I select?

Select peak if your reading is maximum movement from center. Select peak to peak for total movement. Select RMS when your instrument reports RMS displacement.

Why is RMS velocity important?

RMS velocity is widely used because it represents overall vibration energy. It is useful for comparing machines, tracking changes, and judging general mechanical condition.

What does imbalance force mean?

Imbalance force estimates the rotating force caused by mass and eccentricity. It rises quickly as fan speed increases, because speed is squared in the formula.

What is blade pass frequency?

Blade pass frequency is fan speed frequency multiplied by blade count. It helps identify vibration related to blades, airflow disturbance, housing issues, or obstructions.

Can this replace professional vibration analysis?

No. It supports screening and learning. Critical machines need calibrated sensors, correct mounting, trend data, spectral analysis, and qualified maintenance review.

Why check natural frequency?

Natural frequency helps detect resonance risk. If operating frequency is close to natural frequency, vibration may increase sharply and need careful investigation.