Q Factor: Measurement, Determination, and Adjustment | (2024)

What is the Q Factor?

The Q factor refers to “the distance between the pedal attachment points on the left and right cranks.

The distance between the pedals depends on the length of the BB shaft and how bent the crank arms are, so basically the BB and crank you choose will determine the Q Factor.

If it is a Shimano crank, the Q factor is listed in the crank specs.

How does the Q factor affect the ride?

Basically, a wider Q-factor results in a more gangly pedaling style, while a narrower Q-factor results in a more inward pedaling style.

In bicycling, pedaling efficiency is higher when the inner thighs are inward, because the body’s center of gravity can be properly applied to the pedals. Conversely, the more you have your legs spread apart, the wider your center of gravity is, the more stable you are, and the easier it is to keep your feet on the bike.

Therefore, the Q factor is narrower for road bikes that require a constant pace and high cadence, and wider for MTBs and other bicycles that require standing pedaling to increase stability.

Also, the appropriate Q factor for the same road bike will vary depending on the person riding. A person with a wider pelvis will have a wider Q-factor, which is why a petite woman will end up with a gangly leg if she uses the cranks of a standard road bike.

Benefits of Choosing the Right Q Factor

The greatest benefit of choosing the proper Q-factor is that pedaling fits the body.

For example, if you are on a road bike, you pedal at regular intervals on the saddle, so that the pedals are directly under you with your legs straight, you can transmit the force of your steps to the pedals without leaks. It is the sensation of lifting your knees straight up and down. The center of gravity of the bicycle is in the middle, which makes pedaling more stable.

Also, since aerodynamic drag is an important factor in road biking, a narrower Q-factor will allow you to fold your body into a riding position, which will also have a positive effect in terms of aerodynamic drag.

On the other hand, on MTBs, where there are many dancing scenes and one-footed movements, it is easier to lose balance if the center of gravity of the bicycle is closer to the center of the frame. For this reason, MTBs are set with a wider Q factor to emphasize stability on rough roads.

In this way, the choice of Q-factor differs depending on the intended use.

How is the Q Factor measured? What is the optimal size?

To measure the Q factor, simply measure the distance between the pedals. However, since the cranks are alternating, you should measure the distance by rotating the crank on the bicycle while applying a measuring tape.

Once you have measured the Q-factor of your current crank, compare it to your optimal position to see if it is too far out or too far in.

Try pedaling with your shoes unfastened on the bindings and shift them inward or outward by 1 cm to find the most natural pedaling position. Once the natural position is found, determine the difference from the current Q-factor.

If the correct position is inside, double the distance shifted and subtract, if outside, double the distance shifted and add.

How to Adjust Q Factor

Change the crank

The quickest way to change the Q factor is to replace the crank. In many cases, changing cranks can significantly change the Q-factor, so this is the method to try when the Q-factor of the current crank does not fit well.

Since the Q factor is determined for each crank, find out the Q factor of the current crank and the appropriate Q factor for you, and then find a crank that is close to that specification.

If you are replacing a crank with a shorter Q-factor, you should also measure how much Q-factor your bicycle can tolerate. The measurement is simple: just parallel your current cranks and measure the gap between the seat stays.

If you do not choose a crank with a good measurement here, you will not be able to turn the crank due to interference with the chainstay when you replace the crank. It is advisable to allow at least 5mm of clearance to allow for the risk of interference.

In addition, if you change cranks, the crank length is also important, so do not forget to choose the crank length that suits you.

Shimano Crank Length Lineup and How to Find the Best Crank Length

Crank length is a small difference, but it makes a big difference in riding style. In this article, we summarize Shimano's crank length lineup for road cranks and how to find the best crank length.

Adjustment by BB

This is not possible with Shimano’s Hollowtech II cranks, but with common square BB cranks, the Q-factor can be tightened simply by changing the BB, since various shaft lengths are available for the BB.

For example, Shimano’s square type BB, BB-UN300, has a lineup from 107mm to 127mm, so the Q factor can be changed by as much as 2cm.

Adjustment with pedals and cleats

Even without changing the Q factor of the cranks, the Q factor can be adjusted with cleats within a range of a few mm.

The procedure is simple: simply move the position of the cleat attached to the shoe laterally. If the position of the cleat is shifted too far, the center of gravity when stepping on the shoe will be shifted, so the cleat should only be used to adjust the Q factor by a few millimeters.

Note that Time’s binding pedals do not allow lateral adjustment of the cleat position, but instead allow Q-factor adjustment by swapping the left and right cleats.

Let’s also adjust the saddle!

When the Q-factor is tightened, the inner thighs may rub against the saddle as the rider naturally pedals with the inner thighs.

If the Q-factor is too tight and the saddle starts to hit the rider, try moving the saddle back. This will bring the nose of the saddle next to the inner thighs and reduce friction.

If you still experience rubbing, consider replacing the saddle. One option is to choose a saddle with a narrow nose section or a short nose saddle for women.

If the saddle no longer fits you due to a wider Q-factor, replace it with a saddle with a wider tail section to stabilize your pedaling.

Summary of Q-factors for Shimano cranks for road bikes

Finally, let’s look at the Q-factors of Shimano’s cranks for road bikes.

Model numberGradeQ-factor(mm)
FC-R9200DURA-ACE148
FC-R9100DURA-ACE146
FC-R8100ULTEGRA148
FC-R8000ULTEGRA146
FC-R7000105146
FC-5800105146
FC-4700TIAGRA150
FC-RS400TIAGRA150.3
FC-R3000SORA150
FC-R3030 (3x9)SORA158.8
FC-3550SORA150.3
FC-3503(3x9)SORA159.2
FC-R2000CLARIS150
FC-R2030 (3x8)CLARIS158.8
FC-2450CLARIS152
FC-2403(3x8)CLARIS157.5

For racing grade 105 and above, 146mm is the standard, with the latest DURA-ACE R9200 and ULTEGRA R8100 widening by 2mm to 148mm.

On the other hand, cranks for non-racing grade TIAGRA and below are based on 150mm, and front triple cranks are around 158mm, which is more than 10mm (1cm) wider than 105 grade cranks and above. This area is probably the difference between race-spec and non-race-spec cranks.

If you want to increase the Q-factor and your bike is already equipped with 105 or higher grade cranks, you cannot make any changes by changing cranks. However, if you upgrade from TIAGRA or lower cranks to 105 or higher cranks, you can tighten the Q-factor by 2 to 13mm.

Q Factor: Measurement, Determination, and Adjustment | (2024)

FAQs

How to determine the Q factor? ›

In this case, the quality factor can be determined from the Fourier transform of the field by finding the resonance frequencies of the signal and measuring the full width half maximum (FWHM) of the resonant peaks. We can then use Q = fR/f where fR is the resonant frequency and f is the FWHM.

How to adjust Q factor? ›

So in practical terms, most riders will have to take their q-factor as a given for their bike, and seek to change their stance width via their pedal system and cleat placement. The most simple way to adjust your stance width on the bike you have is to adjust your cleats on your shoes.

How do you measure the Q factor? ›

The Q Factor is the distance between the crank arms, measured from its outermost part. The point where the Q Factor is measured is right where the pedals are threaded and this measurement is what you see in the specifications of our ROTOR cranks.

What is Q factor how it is measured? ›

In physics and engineering, the quality factor or Q factor is a dimensionless parameter that describes how underdamped an oscillator or resonator is. It is defined as the ratio of the initial energy stored in the resonator to the energy lost in one radian of the cycle of oscillation.

What is the most accurate way to measure Q factor? ›

An accurate Q value can be obtained from Q-meter that utilizes precise inductance coils that correspond to a specific capacitance range.

What should my Q factor be set at? ›

For most mechanical or electrical circuits, a Q of 0.5 is considered to be optimally damped. A Q of 0.3 would be over-damped, and a Q of 0.7 would be under-damped.

What is considered a good Q factor? ›

Good high-Q capacitors can have a Q factor value of over 10,000 at 1MHz and over 1,000 at 100MHz, while standard capacitors can have a Q factor as low as 50 at 1kHz.

How do you know if your Q factor is too wide? ›

Knees kicking out during the pedal stroke can indicate a stance width that is too narrow, knees dropping in can mean the stance width is too wide. However, poor knee tracking can be due to factors other than stance width.

What does the Q factor depend on? ›

Q factor depends on L, C, R. Note::-Quality factor decreases with increasing resistance .

What is the formula for the Q factor? ›

More formally, Q is the ratio of power stored to power dissipated in the circuit reactance and resistance, respectively: Q = Pstored/Pdissipated = I2X/I2R Q = X/R where: X = Capacitive or Inductive reactance at resonance R = Series resistance.

What is the normal Q factor? ›

The limits of Q-factor

Due to bottom bracket size, minimum chainline guidelines and chainstay length, there is an acceptable range for Q-factor, which is typically between 150mm and 170mm. Road bikes tend to have a narrower Q-factor (150mm), while mountain bikes tend to have a greater Q-factor (170mm).

What is the purpose of Q factor? ›

The quality factor is often used to give an indication of its performance in an RF or other circuit. The Q indicates energy loss relative to the amount of energy stored within the system.

How to estimate Q factor? ›

The peak of the response is taken to be the resonant frequency and then two markers are placed 3 dB down from the peak value. The peak frequency divided by the 3 dB width of the peak is then equal to the Q-Factor. For example, If this circuit is swept, one will obtain the measurement shown below.

How is Q value determined? ›

To calculate the “Q” value for a mixed package, use the following formula: Q = n1/M1 + n2/M2 + n3/M3… Where “Q” is the sum of each fraction, n is the net quantity of each good packed in your package, and M is the maximum net quantity authorized per package.

What does a large Q factor indicate? ›

Q-factor is the ratio of the center frequency (f0) to the bandwidth. High Q-factor transducer indicates a narrow bandwidth and a long spatial pulse length with low damping and narrow bandwidth. This commonly used in doppler ultrasound where a narrow bandwidth is needed to accurately quantify flow rate.

How do you find the Q factor of a RLC circuit? ›

If the 𝑄 factor of a RLC circuit is calculated using the formula 𝑄 = (1/𝑅) √(𝐿/𝐶), calculate the 𝑄 factor of a circuit that contains a 555 mH inductor and a 32.4 kΩ resistor if the resonant frequency of the circuit is 247 kHz.

How do you calculate the Q factor of a coil? ›

However, although the coil is a conductor, the wire winding has certain resistance components (R). The ratio between the resistance components and the frequency-dependent inductance (R/2πf L) is called the loss factor, and its inverse number is the Q value (Q=2πf L/R).

References

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