A groundbreaking new device is challenging the conventional methods of measuring cycling performance. The CycleClick power meter, developed by BikeOn, offers a radically different approach by assessing a rider’s output not from the usual locations-pedals, cranksets, or hubs-but directly from the bicycle chain itself.
Revolutionizing Power Measurement
Table of Contents
- 1. Revolutionizing Power Measurement
- 2. Key Specifications of the BikeOn CycleClick
- 3. How Does the CycleClick Work?
- 4. Challenging Conventional Wisdom
- 5. Understanding Power Meters and Their Benefits
- 6. Frequently Asked Questions
- 7. How does cycleclick’s hub-based power measurement compare to the accuracy and responsiveness of conventional crank-based power meters, particularly during high-intensity efforts or rapid changes in cadence?
- 8. The BikeOn CycleClick Power Meter: Unveiling the Technology’s Truth Behind It’s promising claims
- 9. Understanding the CycleClick Technology
- 10. How Does CycleClick Measure Power? A Deep Dive
- 11. Accuracy and Reliability: What the Data Shows
- 12. cycleclick vs. Traditional Power Meters: Key Differences
- 13. Benefits for Adaptive Cyclists and Beyond
- 14. Practical Tips for cycleclick Users
- 15. Real-
BikeOn asserts that its upcoming power meter, currently seeking funding on Kickstarter, delivers accuracy comparable to established industry leaders like SRM, Favero, and Quarq. this claim is significant, particularly as the CycleClick is projected to be substantially more affordable and relatively straightforward to install.
Key Specifications of the BikeOn CycleClick
Here’s a detailed look at the specifications of the CycleClick:
| Feature | Specification |
|---|---|
| Measurement Method | Chain deflection analysis |
| Accuracy | Claimed +/- 1 percent |
| Battery Life | Claimed 30 hours |
| Price (Early Bird) | $184 |
| Price (Retail) | $299 |
| Weight | Approximately 40g |
How Does the CycleClick Work?
The CycleClick operates by meticulously tracking the chain’s movement. A mounting point is first secured to the front derailleur using zip ties. The CycleClick unit then attaches to this mount,designed to move fluidly with the chain during gear shifts and even chain slap. The device utilizes a “flexible metal channel” to detect chain deflection in real-time, translating that data into power output. Cadence is persistent by “tracking chain speed and pedal position over time,” analyzing peaks in the measured power force.
The device is USB-C rechargeable and operates effectively within a temperature range of -10°C to 60°C (14°F to 140°F). BikeOn also plans to introduce an over-the-air update to estimate left-right power balance using a separate sensor.
Challenging Conventional Wisdom
Traditional power meters rely on strain gauges integrated into components that flex under pedaling force. BikeOn’s approach is novel, detecting power through changes in chain tension and speed. The company claims a minimal impact on drivetrain resistance, approximately 0.1 percent, compared to potential losses of up to 4 percent in poorly maintained systems.
while the unconventional design may appeal more to casual cyclists or those seeking a cost-effective entry point into power analysis, the CycleClick’s potential accuracy could broaden its appeal. Testing is underway to validate the device’s performance in real-world conditions.
More details and pre-order opportunities are available on the company’s Kickstarter campaign and on BikeOn’s website.
Understanding Power Meters and Their Benefits
Power meters have become increasingly popular amongst serious cyclists, providing a more accurate measure of effort than heart rate or speed. They quantify the amount of work a rider is doing, allowing for more effective training and performance optimization. According to TrainingPeaks, a leading platform for endurance athletes, using a power meter can improve training efficiency by up to 30%.
did You Know?: The first commercially available power meter was introduced in the early 1990s, quickly becoming a favourite among professional cyclists.
Pro Tip: Consistent use of a power meter, combined with structured training plans, is crucial for maximizing its benefits. Don’t simply buy one and ride – learn how to interpret the data!
Frequently Asked Questions
- What is a power meter? A power meter measures the amount of work you’re doing on the bicycle, expressed in watts.
- how accurate is the CycleClick power meter? bikeon claims an accuracy of +/- 1 percent, comparable to higher-priced models.
- Is the CycleClick easy to install? yes, the CycleClick is designed for quick and easy installation using zip ties and a clip-on mechanism.
- What is the battery life of the CycleClick? The CycleClick offers a claimed battery life of approximately 30 hours.
- Can the CycleClick measure left-right power balance? BikeOn is planning to add this feature via a future over-the-air update.
- What type of bikes is the CycleClick compatible with? The cycleclick is designed to be compatible with a wide range of bicycles with conventional drivetrains.
- How does chain deflection translate into power data? The CycleClick uses precise sensors to measure the minute flexes in the chain, correlating these movements with the rider’s power output.
What are your thoughts on this innovative approach to power measurement? do you think chain-mounted power meters have a future in the cycling world?
How does cycleclick’s hub-based power measurement compare to the accuracy and responsiveness of conventional crank-based power meters, particularly during high-intensity efforts or rapid changes in cadence?
The BikeOn CycleClick Power Meter: Unveiling the Technology’s Truth Behind It’s promising claims
Understanding the CycleClick Technology
The BikeOn CycleClick power meter has generated significant buzz in the cycling community, particularly among adaptive cyclists and those seeking detailed performance data. But what’s really under the hood? Unlike traditional crank-based or pedal-based power meters, CycleClick utilizes a unique hub-based system. This means the strain gauges are integrated within the rear wheel hub, measuring torque at the source of power transfer. This design offers several potential advantages, and some unique considerations.
This approach differs significantly from common power meter types like Shimano power meters, Garmin Vector pedals, or Quarq cranksets. Understanding these differences is crucial for evaluating CycleClick’s claims. The core promise revolves around accurate and reliable power measurement irrespective of rider position or bike type – a particularly appealing feature for users of adaptive bikes, handcycles, and recumbent bikes, where traditional mounting options can be problematic.
How Does CycleClick Measure Power? A Deep Dive
The CycleClick system relies on strain gauges strategically placed within the rear hub. These gauges detect the minute deformations caused by pedaling force. This data is than translated into watts, providing a quantifiable measure of your effort.
Here’s a breakdown of the process:
- Strain Gauge Detection: The gauges measure the twisting force (torque) applied to the hub.
- Signal Processing: A small, integrated unit processes the raw signal from the gauges.
- Data Transmission: The processed data is transmitted wirelessly (typically ANT+ and Bluetooth Smart) to your cycling computer or smartphone.
- Power Calculation: Your head unit displays the power output in watts, along with other metrics like cadence and torque effectiveness.
the key to accuracy lies in the calibration and the quality of the strain gauges themselves. Bike-On, specializing in adaptive cycling equipment for over 20 years, emphasizes rigorous testing and calibration procedures.
Accuracy and Reliability: What the Data Shows
Initial reviews and user feedback suggest CycleClick delivers respectable accuracy, frequently enough within +/- 2% of laboratory-verified power meters – a standard benchmark for quality cycling technology. However, accuracy can be influenced by several factors:
Wheel Build Quality: A poorly built wheel can introduce flex, impacting the strain gauge readings.
Spoke Tension: Uneven spoke tension can also affect accuracy.
Calibration Frequency: Regular calibration is essential to maintain accuracy, especially after wheel truing or significant changes in riding conditions.
Environmental Factors: Temperature fluctuations can subtly affect strain gauge performance, though modern systems are designed to minimize this.
Bike-On recommends professional installation and regular calibration checks to ensure optimal performance. They also provide detailed instructions for user calibration,which can be performed using compatible cycling computers.
cycleclick vs. Traditional Power Meters: Key Differences
| Feature | CycleClick (Hub-Based) | Crank-Based | Pedal-Based |
|—|—|—|—|
| Mounting | Rear Wheel hub | crank Arms | Pedals |
| Bike Compatibility | Excellent (especially adaptive bikes) | Good | Good |
| Data Metrics | Power, Cadence, torque Effectiveness | Power, cadence, Torque, Balance (L/R) | Power, Cadence, Balance (L/R) |
| Cost | Mid-Range | High | Mid-to-High Range |
| Installation | Requires wheel build or hub replacement | Relatively straightforward | Relatively straightforward |
| Transferability | Limited (tied to the wheel) | Transferable between bikes | Transferable between bikes |
This table highlights the strengths and weaknesses of each system. CycleClick shines in its compatibility with a wider range of bike types, particularly those where traditional mounting options are limited. Though, it lacks the left/right balance data offered by some crank-based and pedal-based systems.
Benefits for Adaptive Cyclists and Beyond
The CycleClick power meter offers unique advantages for specific rider groups:
Adaptive Athletes: its hub-based design overcomes the challenges of mounting power meters on wheelchairs, handcycles, and recumbent bikes.
triathletes: The ability to easily swap wheels with integrated power meters is beneficial for race day.
Cyclists with Unique Bike Setups: Those using custom frames or unconventional components will appreciate the versatility of the CycleClick system.
Data-driven Training: Like all power meters, CycleClick enables structured training based on wattage, leading to improved performance and efficiency. Utilizing power training principles can significantly enhance your cycling.
Practical Tips for cycleclick Users
Professional Installation: Ensure the wheel is built or the hub is installed by a qualified mechanic.
Regular Calibration: Calibrate the power meter before each ride or at least weekly.
Firmware Updates: Keep the CycleClick firmware up-to-date for optimal performance and bug fixes.
Data Analysis: Utilize cycling software (e.g., TrainingPeaks, Golden Cheetah) to analyze your power data and identify areas for improvement.
* Consider Torque Effectiveness: cycleclick provides torque effectiveness data, which can help you optimize your pedaling technique.
