What's a Good FTP (and Watts per Kilogram)?

Sven Ahrens2026년 6월 13일

FTPwatts per kgpowercyclingpower-to-weight

A "good" FTP is relative, but the honest, useful answer is in watts per kilogram. As rough guideposts at FTP, around 2.5 to 3.0 W/kg is a typical recreational rider, 3.5 to 4.0 W/kg is a strong club racer, and 4.5 W/kg and up puts you in the top few percent of cyclists. Women's bands sit a little lower at each level, mostly because of body composition. The single most important point: raw FTP in watts alone means almost nothing without your body weight. A 300-watt FTP is elite for a 60 kg rider and merely solid for a 95 kg rider. With that out of the way, here is what these numbers actually mean and how to find yours.

What is FTP?

FTP stands for Functional Threshold Power. It is, roughly, the highest steady power output you can sustain for about an hour without fading. Think of it as the ceiling on your sustainable effort: ride below it and you can hold on for a long time, push above it and fatigue accumulates fast. FTP is the anchor most power-based training is built on, because your training cycling power zones are calculated as percentages of it. If your FTP is wrong, every zone above and below it is wrong too.

FTP is closely related to, but not identical to, Critical Power. Critical Power comes from testing several maximal efforts of different durations and fitting a curve, which makes it more physiologically precise but more work to measure. FTP is the practical, widely used shorthand.

What is watts per kilogram, and why does it matter more than raw watts?

Watts per kilogram (W/kg) is simply your FTP divided by your body weight in kilograms. A rider with a 280-watt FTP weighing 70 kg has a power-to-weight ratio of 4.0 W/kg.

W/kg matters because most of the moments that decide a ride are about moving your body mass, not just spinning the cranks. On a climb, gravity is the main thing you fight, and gravity scales with weight. Two riders with identical 300-watt FTPs will climb at very different speeds if one weighs 65 kg and the other 90 kg. That is why W/kg predicts climbing and sustained performance far better than raw watts do. On a flat time trial, where aerodynamic drag dominates, raw watts matter more, which is why heavier, powerful riders often excel there. But for general fitness comparison and for climbing, W/kg is the number that travels. You can work out yours with the watts-per-kilogram calculator.

What are the approximate category ranges?

These ranges are approximate and population-dependent, drawn from the widely cited Coggan power profile. Treat them as a map, not a verdict.

For men, at FTP:

Around 2.0 to 2.5 W/kg: untrained or new to structured riding
Around 2.5 to 3.0 W/kg: typical recreational rider
Around 3.0 to 3.5 W/kg: fit enthusiast, regular training
Around 3.5 to 4.0 W/kg: strong club racer
Around 4.0 to 4.5 W/kg: competitive amateur racer
4.5 W/kg and up: the top few percent; the pro peloton lives well above 5.5 W/kg

For women, the same descriptions apply with the bands shifted down by roughly 0.3 to 0.5 W/kg, so a strong female club racer might sit around 3.2 to 3.7 W/kg. These are not hard lines. They overlap, they vary by testing method, and they say nothing about how much you enjoy riding or how much you can improve.

How do I find my FTP?

You have a few practical options, from most demanding to easiest:

The 20-minute test. After a thorough warm-up, ride as hard as you can sustain for 20 minutes, take your average power, and multiply by 0.95. The 0.95 factor estimates the slightly lower number you could hold for a full hour. This is the classic field test and the one most training plans assume.
The ramp test. You ride a steadily increasing power until you cannot continue, and software estimates FTP from your final minute. It is shorter and less pacing-dependent, which makes it friendlier for beginners, though it can read a little high or low depending on your physiology.
A smart-trainer estimate. Many smart trainers and platforms estimate FTP automatically from your ride data over time. It is the lowest-effort option and a fine starting point, but it is an estimate, so confirm it with a real test before you trust your zones to it.

Whichever you choose, retest every 6 to 8 weeks rather than chasing a number every week. Plug your result into the calculator below to turn it into W/kg and training zones.

FTP

250W

스위트 스팟

220–235W

88–94% FTP

존	범위	무엇을 단련하는가
Z1	능동적 회복 ≤ 138 W	회복; 부하를 더하지 않고 다리를 풀어줍니다. RPE 1–2, 매우 쉬움.
Z2	지구력 140–188 W	유산소 기초, 지방 산화, 하루 종일 갈 수 있는 페이스. RPE 3–4, 대화 가능.
Z3	템포 190–225 W	유산소 지구력과 근육 효율성. RPE 5–6, 편안하게 힘듦.
Z4	역치 228–263 W	젖산 역치, FTP 운동, 지속 가능한 상한선. RPE 7–8, 10–30분 반복.
Z5	VO₂max 265–300 W	최대 유산소 파워; 3–8분 인터벌. RPE 9, 매우 힘듦.
Z6	무산소 능력 303–375 W	무산소 능력; 30초–3분 노력. RPE 9–10, 최대에 가까움.
Z7	신경근 파워 ≥ 378 W	스프린트와 신경근 파워. RPE 10, 전력 스프린트.

능동적 회복

≤ 138 W

지구력

140–188 W

템포

190–225 W

역치

228–263 W

VO₂max

265–300 W

무산소 능력

303–375 W

신경근 파워

≥ 378 W

Z1 · 능동적 회복. 회복; 부하를 더하지 않고 다리를 풀어줍니다. RPE 1–2, 매우 쉬움.

Z2 · 지구력. 유산소 기초, 지방 산화, 하루 종일 갈 수 있는 페이스. RPE 3–4, 대화 가능.

Z3 · 템포. 유산소 지구력과 근육 효율성. RPE 5–6, 편안하게 힘듦.

Z4 · 역치. 젖산 역치, FTP 운동, 지속 가능한 상한선. RPE 7–8, 10–30분 반복.

Z5 · VO₂max. 최대 유산소 파워; 3–8분 인터벌. RPE 9, 매우 힘듦.

Z6 · 무산소 능력. 무산소 능력; 30초–3분 노력. RPE 9–10, 최대에 가까움.

Z7 · 신경근 파워. 스프린트와 신경근 파워. RPE 10, 전력 스프린트.

Andrew Coggan의 7존 모델은 모든 존을 기능적 역치 파워(FTP)의 백분율로 표현합니다. 스위트 스팟(220–235 W, 88–94% FTP)은 템포와 역치 사이에 위치하며 적당한 피로로 높은 훈련 자극을 줍니다.
FTP는 이론상 약 1시간 동안 유지할 수 있는 파워입니다. 4–6주마다 재측정하세요. 오래된 FTP는 모든 존을 잘못되게 만듭니다.

당신의 개인 맞춤 결과가 담긴 PDF와, 언제든 다시 열 수 있는 QR 코드.

You can also return to the FTP calculator any time to recalculate after a new test.

How do I improve my watts per kilogram?

There are exactly two levers, and they work on the same fraction. You can raise the top number (FTP) or lower the bottom number (body weight).

Raising FTP means building the engine: consistent volume, well-structured threshold and tempo work, and enough recovery to absorb it. Lowering weight raises W/kg only if the weight you lose is genuinely excess and you keep your power intact. The honest caveat: for most riders, building the engine beats cutting weight. Aggressive dieting tends to cost you power, energy, and health, which can drag FTP down faster than the weight comes off, leaving your ratio flat or worse. Chasing a low number on the scale can also tip into disordered eating. If you have excess weight to lose, gradual, well-fueled fat loss can help, but train first and let body composition follow.

Sources

The definitions of FTP and the power profile categories used in this article come from Allen and Coggan, Training and Racing with a Power Meter.