bike - Bicycle lighting
Photograph by Velo Steveon Flickr.
Good dynamos can achieve efficiencies of bike Leicester Bike Park up to 70% (i.e., under 5 W of the rider s output is diverted to produce 3 W of electricity) and provide full output at surprisingly low speeds, often 4 to 6 mph (6 to 10 km/h) is sufficient for full brightness. To compensate for their limited output, dynamo headlights have good optics which focus the limited amount of light in a narrow beam that lights up the road directly in front of the bicycle; this can be seen in Andreas Oehler s side-by side comparison of beam patterns. To produce light when the bike is stationary, some dynamo lights have a stand light facility, usually a single blue-white LED powered by a capacitor, which runs for around five minutes. In the UK the law requiring use of rear lights was resisted by cyclists groups on the grounds that it downplayed motorists obligation to be able to stop well within the distance they can see to be clear. Replaceable-cell battery lights had a renaissance on the invention of the alkaline battery, with a much higher storage density.
Most good dynamo rear lights now use LEDs instead of incandescent lamps. A more expensive, but brighter and more efficient alternative is the halogen lamp.
Importantly, they do nothing to light up the road. Studies show a correlation between collisions and failure to use lights It is generally believed that reflectors alone are inadequate for night riding (almost all cycling organisations unconditionally advocate using a headlight at night), but the Consumer Product Safety Commission and other regulatory agencies have declined to mandate the inclusion of active headlamps with new bicycles, citing increased costs compared to benefits and the fact that most bicycles are not ridden at night. It has been estimated that 75% of bicycles used in the United States at night do not meet the legal requirements for lighting Cyclists who only occasionally ride at night may opt for an inexpensive LED front light and rear LED flasher.
However not all countries impose this requirement on their domestic cyclists. Many jurisdictions require bicycles to be fitted with reflectors at point of sale. HID lights put out large amounts of light and are often quoted in terms like 80 W halogen equivalent . The candela (cd) is the SI unit of luminous intensity, that is power per unit solid angle, weighted according to the sensitivity of the human eye to various colours of light.
An electroluminescent helmet has been patented. Three units are used to measure light output. The best LED systems may soon make even HID systems obsolete. Red tail lights have traditionally combined a white light source with a red filter, which wastes power creating light that will not be transmitted.
Vests with both yellow and orange fluorescent plus wide strips of reflective may be the best solution. In recent times electroluminescent clothing has become available to add to the existing array of LED-illuminated armbands and helmet blinkies. CPSC compliant reflectors (also commonly fitted in other markets) have three retro-reflective panels positioned at 30° angles.
But it has been found that people tend to underestimate the distance to flashing lights and that drunken drivers are attracted by them, and there is evidence that they are harder to place than a steady light. Most systems allow simultaneous connection of different lamps - for example, a wide and a narrow beam for off-road riding, or a high- and a low-power beam for road riding. Advantages of rechargeable halogen systems Disadvantages High-intensity discharge (HID) lights are the brightest lights currently available for bikes., very bright, but expensive.
A typical candle produces light with about 1 candela of luminous intensity. Both reflectors and active lights are used to make the rider more visible, and many jurisdictions require one or more types of light to be fitted to bikes ridden at night.
The situation for lights is more complicated: The majority of LED lights available are not approved for UK use since they have steady modes that do not conform to BS 6102/3. Despite its complexity, it is a more useful measure than watts, because it defines how much usable light is shed in a given place: a dynamo headlight designed for road use and focused for seeing the road makes more efficient use of the power of the lamp than lights using rotationally symmetrical optics. The lumen (lm) is the SI unit for luminous flux, the total amount of light emitted by a source, weighted according to the sensitivity of the human eye to various colours of light.
It is, however, legal to fit additional lights providing that they are of the correct colour, they do not dazzle other road users and that if they flash, they do so at a constant rate of between 60 and 240 flashes per minute. National cyclists organisations such as LAB (US) or CTC Lighting Regulations (UK) are a source of lighting information. The use of lights for night riding is generally recommended or required by authorities as a basic safety precaution, even in a well-lit urban context. These lights can flash in a variety of patterns, sometimes supplemented with a siren, to help the officer make his or her way through crowded streets or sidewalks in case of emergency.
By contrast, halving the brightness of a halogen bulb only slightly increases battery life. Efficiency is set to increase, as LED technology continues to follow a Moore s Law pattern of exponential efficiency and cost improvements. Candelas, measuring the intensity of a beam, are more appropriate when the aim is to illuminate brightly a small spot, while lumens, measuring the entire production of light, are more relevant to the purposes of broad beams or non-directional running lights. The watt (W) is the unit of power, and is usually quoted for the electrical power input, not the light power output.
White light in the front, red lights in the back, with orange reflectors on the side is the most common setup. Some interpret this as an endorsement of reflector-only night cycling. Many jurisdictions require the use of a headlight and a rear light or reflector after dark.
In others such as Germany flashing lights are forbidden by law. It is now possible to buy LED equivalents for halogen rechargeable systems (including drop-in replacement bulbs), and LED lights for dynamos.
These were more practical, as storage density in batteries was at this time very low. Not all jurisdictions required use of lights after dark. In the United States this is regulated by the Consumer Product Safety Commission.
Pedal reflectors in particular are very visible to following traffic as they move up and down; unfortunately they are not compatible with most clipless pedal systems, although adaptors are available for some, mainly older SPD models, and a few single-sided designs are available with built-in reflectors. In some jurisdictions, some safe and practical systems (usually involving LED based flashers) are illegal because blinking lights are only allowed on emergency vehicles, but those rules are rarely enforced. In the UK, the regulations governing bicycle lights are set out in the Road Vehicles Lighting Regulations 1989 and their subsequent amendments.
In these newer lamps, the dynamo output requires substantial cleaning up and rectification by electronics before it can be used to drive an LED, whereas a conventional filament lamp will run happily on the raw AC from the dynamo. Hub dynamos are generally considered the best but require a wheel to be rebuilt if retrofitted (the existing rim can usually be reused). Most European countries and some US states require front and rear lights at night, while others allow reflectors only at the rear.
Although not specifically designed for bicycle use, these are a viable alternative to rechargeable halogen lights, though they are still expensive. A fourth type is a spoke-mounted electromagnetic system. Dynamos are generally limited to 0.5 A output, nominally 3 W at 6 V, although 12 V dynamos are available and the best nominal 6 V hub dynamos can produce 6 W at speed, as detailed here (a bottle dynamo is likely to slip if run at twice the nominal power, a hub dynamo does not have this problem).
A dynamo behaves as a constant-current device, not constant voltage, so additional lamps added in series will draw the same current. This is why rechargeable halogen lights do not meet legal requirements in some jurisdictions. Many systems use standard commercial prefocused optics, making a wide range of power and beam width combinations available.
A single solid colour can disappear under artificial light, particularly yellow sodium vapour lighting, and colour blindness is common; red/green colourblindness can make yellow fluorescent vanish against a green background (hedges or grass), although people with red/green colourblindness dispute this. Reflectors must conform to BS 6102/2 or an equivalent European standard.
In both cases the battery tends to fail quickly when it goes; it is widely considered good practice to have two rear lights in case a battery fails en route. Advantages of LED rear lights An innovation in bicycle lighting, though common in industrial applications, xenon strobes are brighter than LEDs and are used by some as rear lights. Advantages of xenon strobes Disadvantages Bicycles intended for police bicycle patrol are outfitted with special colored lighting, generally blue and red, to alert the surrounding public of the officer s presence. Historically this was a nuisance, but modern lamps and dynamos often incorporate zener diodes to prevent it, and dynamos can be designed to saturate beyond a certain voltage to protect the lamp (saturation is a feature of all permanent magnet generators).
Some bikes are available with hub dynamo lighting systems as a factory option; this can be very cost-effective. Some riders consider the output of dynamo lighting insufficient. But the longer battery life than halogens tends to negate these problems, as many riders simply switch the light on and leave it running throughout the ride. Advantages of rechargeable HID systems Disadvantages If using a HID lighting system on the road, lights should be adjusted to avoid dazzling oncoming traffic. The only real advantage to these is that they are often omnidirectional, a quality useful in running lights which must be visible through a very wide arc.
The CTC have suggested that the requirement could be waived if the cyclist fits an additional rear reflector and/or lighting, but this was not changed in the last revision of the UK vehicle lighting laws (which permitted flashing LEDs). to increase the rider s conspicuity and to enhance the ability of the rider to see, illuminating the way forward.
Reflective materials can be applied to bike, rider, luggage, and tyres are available with reflective sidewalls. Reflectors and reflective tape provide additional visibility (especially when applied to moving parts of the bicycle) and are mandatory in many jurisdictions. Input power is only useful when comparing lights of similar technologies.
Some LED lights have multiple banks of LEDs allowing both flashing and steady light at once. Red or yellow LEDs suitable for use as rear lights have been available for many years.
Bicycle lighting serves to increase the visibility of the bicycle rider to others in dark conditions, i.e. In the UK, where front and rear pedal reflectors are compulsory after dark, most cyclists with clipless pedals are therefore riding illegally.
Recently, white LEDs which satisfy the requirements for a front light have come on the market, and some jurisdictions have made or are considering making these legally acceptable. But the saving can often be negated by poor battery life.
They react to a change of orientation (an angle) in relation to Earth gravity; they blink only when a cyclist s hand is out-stretched to indicate a turn. Retro-reflective materials, in the form of reflectors, reflective tape, and reflective clothing, are useful in making a cyclist visible to other road users. The regulations require a white front light, a red rear light, a red rear reflector, and amber/yellow pedal reflectors on the front and rear of both pedals.
They also allow the wearer to read road and directional signs placed on high signposts. Some rechargeable systems offer a head torch option powered from the main battery pack. In recent times, automatic turn indicators became available. The standard requires a forward facing white reflector on the front of the bicycle, sideways facing white reflectors on each wheel, a red reflector mounted on the rear, and yellow reflectors mounted on the front and back of each pedal.
As of 2008, California law allows white or yellow shoe reflectors (front and back), or reflective ankle bands, in lieu of pedal reflectors. Reflectives are visible only when in the beam of a headlight, and even then only within a narrow locus. A lamp can produce higher luminous intensity either by producing more light, or by focusing it tighter.
Evidence shows that bright material on the sleeves can prompt drivers to give more passing distance. The LSD-NiMH battery greatly reduced the self-discharge effect, allowing the battery to keep its charge for a year or more. For higher-powered lights, an external battery pack is often required.
Manufacturers do not always quote the most appropriate figure—for example, watts are commonly quoted, but wattage alone is a poor measure since (a) it reports the consumption of power rather than the output of light, and (b) lamp optics will significantly impact the portion of the light which is delivered where it is needed, for example concentrated in a spot beam or dispersed as in running lights. Filament based lamps have largely been superseded by high efficiency white light-emitting diode (LED) headlights, which combine lower expense, higher light output, and longer battery life.
Very high-power LEDs are sensitive to overheating and over-driving, if the enclosure or driving electronics are poorly designed. A cable connects the battery pack to the light. Dynamo systems require no batteries to recharge or replace, and may be permanently fitted to the bike.
In the UK flashing LEDs (front and rear) are legal from October 2005. Many types of light sources are used for bicycle lights. The earliest bicycle and car lights were powered by acetylene, generated in a carbide lamp, now almost unused except by cavers.
These battery packs usually strap to one of the horizontal bars on the bike, or come in the shape of a water bottle to mount in the bike s water bottle holder. Some newer models have LEDs instead of halogen lamps, which are illegal in some jurisdictions. Advantages of low-cost battery lights Disadvantages There are some high-power flashlights with rechargeable lithium-ion batteries.
Although the optics of these flashlights are generally high quality they are still rotationally symmetrical (unlike motor vehicle lights). Advantages of rechargeable flashlights Disadvantages Although these lights were primarily designed for off-road use, where they are almost universal, many commuters and transportational cyclists now choose to use high-power halogen front lights which operate from a NiMH, lead-acid, or Li-ion rechargeable battery pack. The lights used by most halogen rechargeable systems are cheap, bright but fairly simple: they project a cone of light (wide and narrow beam options are available) which is good for off-road use but not ideal for road use as it can dazzle oncoming road users. (While dynamo generally refers to a generator that produces direct current with the use of a commutator, cycling usage normally refers to an alternating current magneto.) Unlike batteries, a dynamo has unlimited duration, but the maximum power output is relatively low.
They can be pointed without steering the bike, giving useful fill-in lighting especially on poor or very dark roads. Retroreflective materials can discourage some oncoming motorists from dipping their headlights, as the rider become less visible if they do. The colour of lighting should be checked in the rider s area.
Germany requires that all bikes over 11 kg are fitted with compliant dynamo lighting systems, but even lightweight bikes are required to be fitted with lights (battery powered lights allowed) except when racing. Electrical power is the product of voltage and current (watts = volts Ă— amperes).
This can be overcome by using a few very high-power LEDs - each with their own optics. During the 1980s the lighting market became more globalised: in Europe, the French Wonder Lights and Ever Ready brands gradually disappeared in favour of American, Japanese and German products. In recent times there have been many advances: exceptionally efficient dynamos; cheap high-output sealed-unit halogen lamps originally developed for decorative lighting; improved storage density in rechargeable batteries driven by the computer industry; high-output light emitting diodes (LEDs); white LEDs; high intensity discharge (HID) lights crossing over from the automotive sector. Batteries, either rechargeable or disposable, are often used to power electric bicycle lights.
Bicycle dynamos produce alternating current, so are more correctly called alternators or generators , but the word dynamo is also popular. There are three main types: hub dynamos are built into the front or rear wheel hub, and are generally the most efficient; bottle dynamos attach to the seatstay or fork and are rotated by a small wheel in contact with the tire sidewall, they are generally easiest to obtain and cheapest while European-designed tyres generally feature a raised track to run the generator s wheel; bottom bracket dynamos bolt between the chainstays behind the bottom bracket and are powered by a roller against the tyre, these are easy to fit and do not wear the tire sidewall. Luminous intensity is much more useful, but lumens per watt is a handy way to compare the output of otherwise similar lights. .
As very high power LED lights become available and start to replace halogen designs, they may replace incandescent lamps whatever the power source, and will probably challenge HID lights. Energizer once made a 2.4W halogen rear lamp, which was essentially a headlamp with a red lens, but most rear lights only need to be around 0.5W. Most LED lights will work in either flashing or steady modes.
This can also be achieved by having one flashing light and one steady one. In many countries, LED flashers are the norm for rear lights. A 3-watt LED offers similar light output to a basic 10-watt halogen bulb - compare this with current generation very high brightness LEDs at 0.05 watts. Advantages Disadvantages Low power LED lights are mainly for being seen , or as an emergency backup, and are the dominant choice for rear lights; higher power LEDs are now moving into the core market for illumination and are subject to rapid technical development. As with high-power halogen systems, high-power LED systems have attracted self-build enthusiasts, as top-end commercial products tend to be expensive due to low production volumes.
The luminous flux is of less value for bicycle lighting due to the importance of directionality. This is somewhat mitigated by good optics and slight overvolting of the lamp; a good dynamo nominally rated at 6 V is generally allowed to produce 7 V or so by its voltage limiting circuitry.
Individual jurisdictions define specific legal requirements in terms of light output and the size of lamp and reflector lenses, compliance with specified standards, or simply stipulate a minimum distance from which any lighting device should be visible. The law is rarely, if ever, enforced, but could potentially be used in court to reduce financial compensation if the cyclist was hit by another vehicle.
This has stimulated the market for high quality dynamos such as B&M or Schmidt. The simplest bicycle headlights use a tungsten filament lamp. Moulding techniques for plastics also improved, allowing lens optics to be refined at low cost thus making more efficient use of the light output.
It is now common to use all the dynamo s output to power the front light; the alternative is a 2.4 W headlight and a 0.6 W tail light. Red LEDs emit only red light in the first place, and hence consume much less energy. The type of lights used may depend on the available power sources and the amount of light required, but as often reflects personal preference or local availability.
Many vendors claim EU compliance, however this provides no consistent safety or legal value across the Union. The most common power source for rear LEDs is a set of alkaline cells and rechargeable cells. At the same time dynamos were developed which generated energy from the bicycle s own movement.
The luminous intensity of a light depends on many factors, including the colour of the light and the eye s sensitivity to that colour, the optics involved, reflector and lens. Reflectors are not a substitute for lights. On dark roads reflective materials such as 3M s Scotchlite will show up boldly in car headlights.
This was particularly a problem for low powered LED lights, and for users who only used their bicycle lights occasionally. Others report that it is adequate to see on dark roads at speeds up to about 20 mph (32.19 km/h), (single 3 W) or more if a 12 V system is used.
Riders of recumbent bicycles have pointed out that the pedal reflector requirement is nonsensical for them, since the reflectors point straight up and down in use, and are invisible from other vehicles. On a dynamo, LEDs produce more light than halogen lights at very low speeds (down to 3 km/h according to one manufacturer). High-power LED systems often include an option to dim the LEDs.
These lights are low-power but compensate this to some extent with good optics. In Germany, it is illegal to use bicycles without a dynamo-based lighting system except on racing bicycles below 11 kg.
LED headlights typically give 2-3 times the light output of a halogen lamp for the same power, due to their greater efficiency. Headtorches are a useful adjunct to bicycle lights. Increasingly, dynamo headlights use LED light sources for the main beam as well as the standlight; some manufacturers include B&M, Supernova (both German) and Solidlights (British).
A 3 W halogen dynamo headlight will light the road up about the same as a rechargeable light of around 7–10 W, but the rechargeable usually outputs much more light to the sides, which is useful on trails (although wide and narrow beam versions are available). They also tend to have high power consumption (although they use less power than halogens for higher output), so a relatively limited burn time.
They were dim and temperamental, and the arrival of battery lamps was welcomed. Early battery lamps generally used a lead-acid battery, but these were replaced by self-contained dry cells; lamps became smaller and more reliable. They can be fastened to the bicycle handlebars with a device called a Lock Block. Look for a flashlight that has an adjustable spot to flood beam.
A popular method of supplying power to police bicycle lights is to encase the battery in a bottle-shaped container which can fit into the bicycle s water bottle holder. The introduction of the Low self-discharge NiMH battery (LSD-NiMH) in 2005 made rechargeable AA and AAA sized batteries more viable for powering LED bicycle lights. Flashing lights have been shown to be three to five times more visible than a steady light of equivalent brightness.
LEDs are well-suited to dimming, as halving the brightness usually more than doubles the battery life. Likewise, should the battery level fall too low, the lamp will shut down rather than dimming.
Article 44 of the Convention stipulates that: Cycles without an engine in international traffic shall: (c) Be equipped with a red reflecting device at the rear and with devices such that the cycle can show a white or selective-yellow light to the front and a red light to the rear. In some countries, for example France, it may be an offence to even sell a bicycle not fitted with legally compliant lighting system. A low power headlight and a rear red LED suffice for cycling at low speeds in familiar areas with street lights.
An additional disadvantage compared with halogen or LED lights is that the HID lamp does not tolerate repeated strikes, and in many cases does not relight immediately after shutting down. Lumens per watt is a common measure of the efficiency of a light source.
Newer LED lights have this feature, removing even this final advantage. However, this is only approximate, and the voltage can exceed the capacity of a single lamp at speed, causing failure.
Home brewers can incorporate state of the art technology months or years before it reaches the marketplace in retail products. Low-cost battery lights can be a good choice for occasional use, and usually meet legislative requirements. A 3 W LED is somewhat brighter than a halogen lamp but generally less well focused.
Otherwise they have the same advantages and disadvantages as rechargeable halogen systems, and like halogen systems they are designed primarily for off-road use, having rotationally symmetrical beams which cast as much light up as down. For bicycle touring, commuting or if battery operation is otherwise unwanted an electrical generator, or dynamo, may be used.
Previously, the self-discharge effect of NiCAD and NiMH batteries caused the battery to run down over a period of weeks or a few months, even when not in use. A high intensity discharge (HID) light provides greater light intensity, but requires special circuitry and a powerful battery.
Most LEDs have a higher luminous efficacy than halogen lights, but poorly designed driving electronics can negate the advantage. Low-power LEDs are adequate for riding on well-lit streets, but do not generally project a very bright beam as it is difficult to collimate the output from multiple LEDs into a single usable beam.
