|
|
|
Thread Tools | Display Modes |
#1
|
|||
|
|||
Brief note: modification to create super-bright tail light
I just modified my King Sword KS-303F stock 3 LED flasher into what may
be one of the brightest LED taillights around, and would like to share how I did it with the group to see if others would be interested in doing the same/similar stuff. The idea of doing the modification came about from trying to salvage an old KS light that had a bad switch; it then dawned on me that the light can be greatly enhanced with the latest LEDs. Basically, the King Sword KS-303F is a very simple light. It comes with 3 standard 5 mm deep red LEDs, and is a flash only device. All the LEDs are connected in parallel, and the switch apparently contains a built-in flasher. No obvious dropping resistors were noted, and I believe none are built in (more on this later). With a soldering gun, I removed the three stock LEDs, and replaced them with 3 5 mm red THC (High Current, High Candela, High Capability) LEDs from lsdiodes.com (Note: US postal mail is for some reason extra slow these days, and the LEDs took 9 days to arrive). For the two additional positions at the ends of the board, I added 2 3 mm LEDs from lsdiodes.com as well. One should note that those positions will take 5 mm LEDs; however, 5 mm LEDs will prevent one from replacing the lens cap. All in all, the upgrade gave me a whopping 51000 mcd of light; presumably the lens spreads enough light at the edges so that the light is visible from the side as well. It should be noted that the batteries used to power the lights need to have a combined voltage of 2.4V, not 3 V. LEDs are very voltage sensitive, and one cannot safely overvolt a LED and expect much additional output. Rather overvolting an LED by a little bit causes a HUGE increase in current, and burns the LED out. My guess is that the light as shipped has the flasher set up in such a way that the momentary overvoltage doesn't hurt the stock LEDs. Anyhow, 2.4 V total is readily obtained with a set of rechargeable NiMH AA cells (AA NiCads would work nicely too), and the additional 3 mm LEDs are rated at 2.4V max for the 5500 mcd variety (the 6000 mcd ones have a reg rating of 1.7 V, which is far too low). After closing up the lens and attaching the light to my bike (the screw and the tab nicely fit the standard rear reflector bracket), I found that the light is very bright as expected. Somewhat surprisingly, the light went from a deep red to a orangeish-red. Though initially a bit annoyed, since the LEDs were sold as "red," I soon found myself liking the tinge of orange. Aren't red traffic lights tinged orange to enable color-blind people to see them anyhow? It seems the light is now comparable in brightness to some car taillights, at a cost of US$8.12 including shipping and handling for the LEDs, and another $8 or so for the original light. Current draw is presumably greatly increased (if it weren't, then the new LEDs probably wouldn't of all lit up as they did with a limited current, though I didn't rigorously measure the currents), so I estimate the run time is now 12 hrs or so vs the standard 200, but that's plenty for me. This makes me wonder how it seems most taillight manufacturers are reluctant to share specs about their lights besides offering useless adjectives such as "3 super-bright LEDs" and the like making it impossible to objectively compare models. Would anybody have comments on this or similar taillight modifications, and/or know how close I am to some "ultimate" taillight? What about numerical brightness specifications for taillights on the road? Thanks. Later, Nelson Chen |
Ads |
#2
|
|||
|
|||
Jan 21, 8:48 pm show options Newsgroups: rec.bicycles.tech From: - Find messages by this author Date: 21 Jan 2005 20:48:52 -0800 Local: Fri, Jan 21 2005 8:48 pm Subject: Brief note: modification to create super-bright tail light Reply | Reply to Author | Forward | Print | Individual Message | Show original | Report Abuse I just modified my King Sword KS-303F stock 3 LED flasher into what may be one of the brightest LED taillights around, and would like to share how I did it with the group SNIP Hi, Nelson, it sounds like you may have a good idea, here. I am _NO_ kind of electronics person but I did stumble into this website the other day:- http://www.superbrightleds.com/led_info.htm There is a link on there, 'Why do I need a resistor with an LED?' Their explanation goes way over my head but I thought it might be relevant to your project. Lewis. ****** |
#3
|
|||
|
|||
Hi,
I saw the webpage too, and have read up on other pages about using a resistor as well. Basically, the reason people say a resistor is needed is that diodes (LEDs included) are highly non-linear in the amount of resistance offered depending on the voltage applied. So, if a LED is rated at 2.4 V for a current of say 20 mA, giving it 2.5 V would cause the current to shoot up drastically say to 50 mA or so, and may well kill it. That is why I noted that for my modified light, I make a point to use a set of AA NiMH or NiCad batteries to power the thing. Those batteries have a combined maximum voltage of 2.4 V (which does not exceed the LED ratings), therefore keeping me safe. Resistors waste energy that could be turned into light; IMO if one carefully notes the voltage source and is sure the voltage source wouldn't exceed the given values, one can safely hook up an LED that way. I guess I'll see in a little bit whether my mod lasts or not. If the LEDs die in a little bit we'll know there was a problem. Later, Nelson |
#4
|
|||
|
|||
Resistors waste energy that could be turned into light; IMO if one carefully notes the voltage source and is sure the voltage source wouldn't exceed the given values, one can safely hook up an LED that way. I guess I'll see in a little bit whether my mod lasts or not. If the LEDs die in a little bit we'll know there was a problem. Other than the diode drop, a diode is basically a short circuit. Without a resistor to limit current, what do you suppose your battery life will be? |
#6
|
|||
|
|||
Well, for a given voltage, a real diode has an actual resistance0; as
such, it's not a short circuit. Yes, for an *ideal* diode it would be a short, and would be toast in short order. In the specs, it's noted that for a given voltage, there is a finite current that flows for a real device. My LEDs are rated 80 mA each for the high-powered 5 mm ones, and 20 mA each for the 3 mm ones. Later, Nelson Chen |
#7
|
|||
|
|||
You have a good point. My voltmeter wasn't that precise in terms of
measuring the voltage to that degree. The 3 mm LEDs are rated for a maximum of 2.4 V, the 5 mm ones can take just a little bit more. FWIW, my light is a simple flasher, and the original LEDs were hooked up so that they could take even 2 regular AA batteries for a nominal total of 3V. Was the light a fundamentally flawed design, or was it designed so that with the flashing, the momentary current spikes are such that there is time for the LEDs to cool b/t flashes and thus keep things safe? Or did it use deep red LEDs *rated* for 3 V (do those even exist)? It would be interesting to see the complete circuit diagrams of the original light. However for some reason manufacturers tend to not release that information, just as they don't release information on their light brightnesses. We'll see in a few days or weeks whether my setup really works, or whether my LEDs would be toast. But anyhow, thanks for the note; if this is the case, then my scheme can only work for this flashing light, not a steady one. Later, Nelson Chen |
#8
|
|||
|
|||
While a resistor does waste some energy, it is not nearly as much as running
two or three times the current. As far as being a "dead short," since a diode is converting electric power into light, that is impossible. |
#9
|
|||
|
|||
|
#10
|
|||
|
|||
RonSonic wrote:
(snip light-building details) Nothing so technical to offer, but a comment on the color. Yes, Orange works much better for the most common color vision deficiencies and color blindness. Red may as well be brown or hunter green. Not exactly stand-out colors. Since we're talking about some 20% of the maile population and any one of them would regret inadvertently running you over, it's worthwhile to have a tail light that accomodates their perceptive limitation. Ron A couple of quibbles: color blindness is quite different from color deficiencies as the former would imply non-functioning cones in the retina, leaving only rods. True color blindness is exceedingly rare and would also involve debilitating acuity loss. It may well be that 20% of the male population has some degree of deficiency in color perception, but such defects have a wide range of severity, and it is a wild exaggeration to imply that those men cannot see red, or that red looks the same to them as brown or hunter green. Otherwise there would be carnage at every red signal light. -- Ted Bennett Portland, OR |
|
Thread Tools | |
Display Modes | |
|
|
Similar Threads | ||||
Thread | Thread Starter | Forum | Replies | Last Post |
Rec.Bicycles Frequently Asked Questions Posting Part 1/5 | Mike Iglesias | General | 4 | October 29th 04 07:11 AM |
Fun fun fun | Jon Senior | UK | 140 | May 4th 04 05:14 PM |
rear lights | Dmitri Colebatch | Australia | 11 | March 11th 04 12:03 AM |
Tail Light and Seat Pack | John Hearns | UK | 3 | September 25th 03 07:57 PM |
Daylight Bright Bicycle Tail Light | Laurence Dodd | Australia | 0 | September 17th 03 04:36 AM |