Power Meter Handbook

power-meter-handbook.md

Power Meter Handbook

Power meter measures force and velocity

Power (watts) = Force * velocity

Force - torque (force applied to pedals)

Velocity - cadence and RPM, pedaling fast

More power - use a higher gear and maintain the same cadence, or just increase the cadence

Aerobic capacity (Vo2max)

• how much oxygen your body is capable of using when producing high levels of power
• when more oxygen is used at a maximal endurance workload, more fat is burned

Anaerobic Threshold (AT)

• you start to close in on your limit, % of Vo2max, closer AT/Vo2max, fitter you are and faster you can ride

Economy

• meters per millilitre of oxygen, less oxygen you spent turning the pedals, more economical you are

Power meter ANT+ technology

• Power
• Heart rate
• Duration
• Cadence
• Altitude
• Speed
• Temperature
• Other (W/KG, ZONE, NORM PWR, TSS, IF, VAM, KJ/HR, L-R)

Kilojoules

• power is also an indicator of how much energy you’re expending during a ride, the mechanical energy is expressed in kiloJoules
• 1 kiloCalorie equals about 4 kiloJoules, 25% is generated to mechanical energy the rest is lost to the heat your body gives off

Average Power

• average power during the ride (time)

Normalised Power

• expression of average power adjusted for the range of variability during a ride more closely reflects the effort or metabolic cost of a ride
• power / weight (rider)
• what the workout felt like, energy cost of a ride

Power and Time

• power and time are inversely related

Power and Heart Rate

• heart rate zones are quite constant, power zones varies a lot during a season

FTP

• Highest mean maximal power an athlete can hold for 60min
• Represent athlete fitness and can change during time
• Most important objective is to keep FTP high as possible

Power zones

• Each zone is % of the Functional Threshold Power (FTP)
• Active Recovery (zone 1) %FTP < 55, RPE < 2
• Aerobic Endurance (zone 2) %FTP 56-75, RPE 2-3
• Tempo (zone 3) %FTP 76-90, RPE 4-5
• Lactate Threshold (zone 4) %FTP 91-105, RPE 6-7
• Vo2max (zone 5) %FTP 106-120, RPE 7-8
• Anaerobic Capacity (zone 6) %FTP 121-150, RPE > 8
• Sprint Power (zone 7) %FTP > 150, RPE Maximal

Workouts

• Aerobic endurance (zone 2 and zone 3)
• Muscular force (some zone 7 and longs zone 1)
• Speed skills
• Muscular endurance (zone 3 and zone 4)
• Anaerobic endurance (zone 5 and zone 6 and zone 1)
• Sprint power (some zone 7)
• Recovery (zone 1)

Intensity

• Focus of training
• 60% of training accounts on intensity, 40% on ride length
• Relates with Power: Intensity Factor, Peak Power profiling, Pacing, Matches

Intensity Factor (%) = Normalised Power / FTP

Peak Power profiling

• Best power athlete can generate for a given amount of time
• Depends on type of rider (sprinter, road cyclist, endurance)
• Power profile shows Peak Power during time
• Logarithmic scale

Pace

• Glycogen is the storage form of carbohydrate
• More power output, body produces more acid
• Variability Index (VI) = Normalised Power / average power
  • more power spikes, more NP, the VI will change
  • VI of 1.0 would mean perfect pacing

Burning Matches

• Athlete has several matches to burn during a race, it depends on VI
• He needs to spent them wisely and at the right moments

Efficiency Factor

• Relationship between heart rate and power
• Heart rate is input and power is output
• Analogy: how many miles (output) it gets per gallon of fas (input)

Power-Training Components

• Frequency, duration and intensity

Workload

• Sum of frequency, duration and intensity
• Hard training causes stress and body responds with fatigue
• Body begins to adapt to the new level of stress (fitness)
• Workload increase means an increase in fitness
• Training Stress Score (TSS) - combination of duration and intensity for a single workout
• TSS = (workout duration in seconds * NP * IF) / (FTP * 3600) * 100