Understanding Motor Bar Pass Frequency
Definition: What is Motor Bar Pass Frequency?
Motor bar pass frequency (also called rotor bar pass frequency, rotor slot frequency, or simply bar pass) is the frequency at which the rotor bars in a squirrel cage induction motor pass by the stator slots or stator windings. It is calculated as the number of rotor bars multiplied by the rotor rotational frequency (Bar Pass Frequency = Number of Rotor Bars × RPM / 60). This frequency is typically in the range of 200-2000 Hz depending on motor size and speed.
While normally a low-amplitude component in motor vibration spectra, elevated bar pass frequency can indicate rotor-to-stator eccentricity, air gap problems, or electromagnetic irregularities. It is distinct from but related to rotor bar defects, which produce sidebands at slip frequency rather than at the bar pass frequency itself.
Calculation
Formula
- RBPF = Nb × N / 60
- Where RBPF = Rotor Bar Pass Frequency (Hz)
- Nb = Number of rotor bars
- N = Rotor speed (RPM)
Typical Values
Small Motor Example
- Number of rotor bars: 28
- Speed: 1750 RPM
- RBPF = 28 × 1750 / 60 = 817 Hz
Large Motor Example
- Number of rotor bars: 56
- Speed: 3550 RPM
- RBPF = 56 × 3550 / 60 = 3313 Hz
Finding Number of Bars
- Consult motor nameplate or manufacturer data
- Visual count (if rotor accessible)
- Identify from vibration spectrum peak
- Typical range: 16-80 bars depending on motor size and poles
Physical Mechanism
Rotor-Stator Interaction
Bar pass frequency arises from magnetic interaction:
- Rotor bars carrying current create local magnetic field perturbations
- As rotor rotates, each bar passes by stator slots in sequence
- Magnetic reluctance varies as bars align with or pass between stator teeth
- Creates small pulsating electromagnetic force
- Force pulsation frequency = rotor bar passage rate
Uniform vs. Non-Uniform Air Gap
- Uniform Air Gap: Effects largely cancel, low RBPF amplitude
- Eccentric Rotor: Interaction asymmetric, RBPF amplitude elevated
- Diagnostic Value: RBPF amplitude indicates air gap uniformity
Diagnostic Significance
Normal Condition
- RBPF peak present but very low amplitude (< 0.5 mm/s)
- May be barely visible above noise floor
- No sidebands around RBPF
- Indicates uniform air gap and good rotor-stator concentricity
Elevated RBPF Indicates
Air Gap Eccentricity
- Rotor off-center in stator bore
- RBPF amplitude increases
- May have sidebands at ±1× running speed
- Similar to pole pass frequency elevation
Rotor-Stator Misalignment
- Rotor axis not parallel to stator axis
- Air gap varies along axial length
- RBPF and harmonics elevated
Broken or Damaged Rotor Bars
- Different diagnostic pattern than RBPF itself
- Creates sidebands around 1× at slip frequency spacing
- See rotor bar defects for details
Differentiation from Other Frequencies
RBPF vs. Bearing Frequencies
- RBPF: Typically 200-3000 Hz, depends on motor design
- Bearing Frequencies: Typically 50-500 Hz for motor bearings
- Distinction: Calculate both and compare to observed peaks
- Possible Overlap: Large motors may have RBPF overlapping bearing frequency range
RBPF vs. Stator Slot Frequency
- Stator Slot Pass: Number of stator slots × running speed (rarely significant)
- RBPF: Number of rotor bars × running speed (more commonly observed)
- Both Present: In some motors, both may be visible
Practical Application
When to Monitor RBPF
- Suspected air gap problems
- After bearing replacement (verify proper rotor centering)
- Elevated 2× line frequency (may be related to eccentricity)
- Baseline establishment for new or rewound motors
- Quality verification after motor repair
Measurement Considerations
- Requires adequate frequency range (Fmax > 2× RBPF)
- May need accelerometers rather than velocity sensors for high frequencies
- Measurement on motor frame or bearing housing
- Compare to baseline or similar motors
Relationship to Broken Bar Detection
While RBPF itself indicates air gap issues, rotor bar defects create a different signature:
- Rotor Bar Defects: Sidebands around 1× running speed at ±slip frequency
- RBPF Issues: Elevated amplitude at RBPF itself (number of bars × speed)
- Both Can Coexist: Eccentricity AND broken bars possible simultaneously
- Comprehensive Analysis: Check both patterns for complete motor diagnosis
Motor bar pass frequency, while less commonly monitored than bearing frequencies or rotor bar defect signatures, provides valuable diagnostic information about air gap uniformity and rotor-stator concentricity. Understanding RBPF calculation and recognition in vibration spectra completes the diagnostic picture for induction motor condition assessment.
EN 
AR 
AZ 
BG 
ZH 
HR 
CS 
DA 
NL 
ET 
FI 
FR 
DE 
KA 
EL 
HE 
HI 
HU 
ID 
IT 
JA 
KO 
LV 
LT 
MS 
NB 
FA 
PL 
PT_BR 
PT 
RO 
SR 
SK 
SL 
ES 
SV 
TH 
TR 
UR 
UK 
VI 