Introduction: SpokePOV: LED Bike Wheel Images

Picture of SpokePOV: LED Bike Wheel Images
Spoke POV is an easy-to-make electronic kit toy that turns your bicycle wheel into a customized display! The project includes a free schematic design, open source software for uploading and editing stored bitmap images, and a high-quality kit with all the parts necessary to build your own.

Tired: A red blinker on your seatpost
Wired: Programmable full-wheel images in any color

Specifications and Features:
  • Can be used with road, mountain or BMX wheels!
  • 30 LEDs on each side (22 for BMX) x 256 radial pixels
  • Runs on 2-3 AA batteries for 10 hours or more, assuming 3000mAh alkalines and 50% image coverage.
  • Can run on rechargable NiMH AA's
  • Comes with high-brightness red/yellow/green or blue LEDs
  • Automatically shuts off after 3 minutes
  • wxPython based software runs on any Linux or Windows or Mac with Parallel port or serial port
  • Design is all through-hole parts, perfect for a first time kit builder.
  • With one spoke, total persistence at 15mph. Two spokes, 10mph. Three spokes, 7mph. (Assuming a mountain bike wheel). Looks cool even if not completely persistant.
  • Great for safe riding at night, provides excellent side visibility.
  • Playa-tested!

Kits & PCBs available for purchase at
For more information, like how to use the software to update images, visit

& check out more cool projects at

Step 1: Intro

Picture of Intro

These instruction assume you purchased the kit or at least the PCB. All parts are through-hole and this should be a very easy project, even for a beginner. Still, if you've never soldered before, this tutorial is really awesome. If you're part of the new streaming-video-generation, this set of soldering mpegs may do you right:

Step 2: Tools

Picture of Tools

There are a few tools that are required for assembly. None of these tools are included in the kit. If you don't have them, now would be a good time to borrow or purchase them. They are very very handy whenever assembling/fixing/modifying electronic devices! I provide links to buy them, but of course, you should get them whereever is most convenient/inexpensive. Many of these parts are available in a place like Radio Shack or other (higher quality) DIY electronics stores.

Step 3: Parts

Picture of Parts

All these parts are included in the kit:

1 IC1 ATtiny2323 microcontroller
1 IC1* generic 20 pin socket
1 IC2 25LC080 1kbyte EEPROM
1 IC2* generic 8 pin socket
8 IC3-IC10 74HC595 serial to parallel latch
1 X1 DN6852 hall effect sensor
1 S1 SKQBAKA010 waterproof switch
1 J2 30310-6002HB programming header
4 n/a 12BH092 AA battery clips
1 R1 generic 1/4W 10Kohm 5% resistor
8 RN1-RN8 266-xxx 10-pin bussed resistor network
60 LED1-LED60 high brightness LED's
1 PCB custom silkscreened printed circuit board (PCB)

Step 4: Lets Get Ready to Solder!

Picture of Lets Get Ready to Solder!

Get your bench set up for soldering, and place the PCB in a good board holder

Step 5: Attach Battery Clips - Part 1

Picture of Attach Battery Clips - Part 1

Place the 4 battery clips in the top two battery positions, as shown. Tack them in place with solder so that when you turn the board over they wont fall out!

Step 6: Attach Battery Clips - Part 2

Picture of Attach Battery Clips - Part 2

Now turn the board over and solder the outer tabs of the clips first and then resolder the inner tabs. Make sure theres plenty of solder: these connections are not just electrical, they're mechanical too!

Step 7: Attach Programming Socket

Picture of Attach Programming Socket

Put in the programming socket, make sure to align the notch with the picture on the PCB. Now turn the PCB over and hold the socket in place while you solder it in.

Step 8: Attach Microcontroller Socket

Picture of Attach Microcontroller Socket

Place the large socket as shown. There's a notch in the socket which should line up with the notch in the image of the socket. The notch will help you align the microcontroller chip in properly. Turn the board over and hold the socket in with a finger, tack two corners pins to keep it in place then solder the rest of the pins.

Step 9: Attach Small Socket

Picture of Attach Small Socket

Solder in the smaller socket just like the larger one. make sure to orient the notch as shown

Step 10: Attach Latch Chips

Picture of Attach Latch Chips

Place the 6 top 74HC595 latch chips in the proper spots, making sure to align the notches on the chip with the notches in the pictures. Tack them in place by soldering two corner pins of each one from the top. Then turn the board over and solder all the pins.

Next, do the same with the 2 latches on the reverse side.

Step 11: Attach the LED's

Picture of Attach the LED's

Cut the LEDs from the tape and place the first 30 into the front row. Make sure that the flat side of the LED is aligned with the flat side of the LED shown on the board. Otherwise the LED will not light up. This is a pretty common mistake so work slowly and carefully.

When you place each LED, bend the leads out so that it wont fall out when you turn the board over.

Solder the LEDs and clip the leads, either one at a time or all at once, whichever is easiest for you.

After one side of the board is done, repeat for the other row of LEDs

Step 12: Attach the Resistor Networks

Picture of Attach the Resistor Networks

Solder in the 8 9-SIP resistor networks. Make sure you align them correctly: one side of the resistor pack has a dot which corresponds to pin 1 which is marked with an X in the picture on the circuit board.

Step 13: Attach the 10k-ohm Resistor

Picture of Attach the 10k-ohm Resistor

Place the one 10K resistor. Bend the leads like with the LEDs and solder it in, then clip the leads off.

Step 14: Attach Button

Picture of Attach Button

Place the button, which will snap into place. Solder it in.

Step 15: Attach the Sensor

Picture of Attach the Sensor

Bend the sensor so that the face points out as shown. Since the sensor has to stick out but has short leads, solder it from the top, making sure that the leads don't stick too far through on the other side. See the picture to the left.

Step 16: Plug in Microcontroller Chip and EEPROM Chip

Picture of Plug in Microcontroller Chip and EEPROM Chip

Put the microcontroller in the large socket so that the notches match up. The sensor can 'lean' on the microcontroller. If you want, you can use a bit of glue to support it.

Flip the board over and place the EEPROM in the smaller socket so that the notches line up. You're done!

Step 17: Test

Now that you're done assembling it, you can test the board to make sure its functioning. Put two good AA batteries into the clips. Whenever the microcontroller gets notice of a 'hard reset' it goes through a little test routine where it lights up all the LEDs in order. If none of the LEDs are lighting up, go back and check to see if you put in any latches, batteries or the microcontroller in backwards. If just a few LEDs arent lighting up, check if they're in backwards.

Step 18: Hacking - Animations

Animations! Have a pacmac chomp while you ride...Download the animation-supported software, and make sure you have upgraded the EEPROM to hold more images. I suggest either a 2K EEPROM (25C16P-1.8) for 2 images, or 4K (25C32P-1.8) for 4 images. You can buy these from Mouser for a few dollars a piece. You can't use just 3 frames (well, you could but the code doesnt support it). Then upload the images to seperate banks. Note that the software can't (yet) tell how big the EEPROM is so if you only have 2 image banks, bank #3 will be the same as #1 and #4 is really #2. Then set the number of rotations to display each image, just like any other variable. OK you're ready to rock.

Step 19: Hacking - More Colors

Picture of Hacking - More Colors

Wow look at all the pretty colors! The standard kit uses 2 batteries, which will work with red, orange and yellow LED's. If you want to use green, blue, white or purple LED's you will need to add a third battery. To do that, purchase 2 more battery clips from Mouser. Before you solder them in, you have to cut a trace. I thought I'd be all smart and put a note on the PCB about which trace to cut but I put it on the wrong side of the board. If you hold it up to a bright light you'll see the trace, or use this handy guide:

Step 20: Install

Picture of Install

Attach the spokepov to your bike wheel with zipties as shown.

After it is attached, place the magnet on the frame as shown. The magnet must line up with the sensor on the PCB, it may take some fiddling with the sensor and magnet to get them in range. The range on the sensor is 1-2 centimeters.

If you are attaching more than one SpokePOV on your wheel, make sure they are lined up at an equal distance from the rim, use a ruler.

Step 21: Build and Connect the Programming Dongle

Picture of Build and Connect the Programming Dongle

Instructions for building the programming dongle are at
it should be a breeze in comparison. (Note that in this image, R1 and R4 are swapped, don't make that mistake!)
Now connect it up!

Step 22: Run the Image Design & Download Software

Picture of Run the Image Design & Download Software

You can import images as .bmp files, then do a little touchup before writing the image to the spokepov. For more detailed instructions on how to run the software visit


jcbfrikee (author)2017-02-17

this would be cool but kit is discontinued

JahangeerK (author)2016-10-24

Very nice....

PèveV1 (author)2016-05-23


secuest (author)2016-03-27

I'm afraid 2 strips needs 15km/h and 4 strips about 8km/h. look at this

awang8 (author)2009-03-26

What is the minimum speed required by this to produce a clear image?

darthneo (author)awang82009-09-09

i think i read on her site: if you have 1 SpokePOV you need to be going (i think) around 14 MPH to see a clear image, i think 2 SpokePOVs you need to be going about 10 MPH and 3 8MPH (i could be wrong)

JolanR1 (author)darthneo2016-01-22

And is it a problem for installing more SpokePOVs when going faster. So when you install 3 sets and will still go about 14 mph?

JolanR1 (author)darthneo2016-01-22

And is it a problem for installing more SpokePOVs when going faster. So when you install 3 sets and will still go about 14 mph?

GEEKLEDs (author)2015-12-19

I'm afraid 2 strips needs 15km/h and 4 strips about 8km/h. look at this

Gairuntee (author)2015-12-07

I actually just checked their website. You have to ride 15mph to see the design if you only use one kit on 1 wheel. If you use 3 kits on 1 wheel, you see the design at 7mph.

Gairuntee (author)2015-12-07

how fast do you have to ride to see the design?! Looks like super fast.

Yonatan24 (author)2015-09-29

Hi, I've added your project to the "Top 5 Incredible Bike Projects"

This is the link If you are interested:

TeunB (author)2015-09-10

With what software/programm was the PCB designed? Interested because of a similair school project!

Thanks in advance!

IonutN2 (author)2015-08-05

I want to make this one for my license project . If i have any questions .. who can i talk to ?

Raphango (author)2014-10-07

Pretty cool project! =D

dA SQuiD (author)2014-05-14

das bosss

ISAC CLARK (author)2014-03-25

hi. looking on the adafruit site for the kit, however im wanting to mount this on my ceiling fan, which im not sure works because of speed issues, also, the magnet that triggers it probably wouldn't work. so id like some ideas on what I should order and or do to mount this setup to my ceiling fan. thanks in advance.

wishes (author)2014-03-12

how/where can i change this to be RGB? seems limiting and silly paying so much for a kit of one colour when i would happily pay more for RGB

explosivefart (author)2010-11-23

Can you use this on car wheels?

sSkEzAfNs (author)explosivefart2014-02-13

Forward facing lights can only be withing a certain range of white or yellow in many states, and back lights are strictly red, except for when reversing. These laws are nullified, however on private roads and parking lots.

I would say that if you used thios on car wheels you are setting yourself up for a mighty big fine. Most states do not allow you to use any auxiliary lights in the colors of red, blue or white because most of the safety vehicles like police fire rescue us those colors.

how about purple?

micah1_8 (author)2014-01-15

Now, to find a way to run this off mains and motorize the wheel... cheap outdoor digital signage!

ChippMarshal (author)2014-01-13

I might give this a try. Thanks.

U.S.CouchPotato (author)2013-05-10

i was wondering if the batteries would fall out if you went too fast. Would they?

robochick (author)2013-03-05

Omg ladyada, you totally used the same terms from Wired magazine. Awesome way to make a long story short! Haha

shaadmahmud (author)2013-01-27

can I use 25LC1024 instead of this EEPROM?

GusN (author)2011-06-22

Can you replace the LEDs with Tri-Color LEDs (with red, green, and blue) to make a Spoke POV that can display all three colors? Are there RGBY LEDs that can display all three colors? And where can I buy them?

kkaryamapudi (author)GusN2012-08-27

try making three w/ one red, one blue ,and one green and burn respective color channels onto them

asofia (author)2011-12-04

are these for sale?? Like would you be willing to make them and sell them? :)

I just bought a really awesome custom bicycle I designed at: and the only thing I think could make it better and more unique than it is right now, would be this, this is great, specially for Christmas time! :)

kkaryamapudi (author)asofia2012-08-27

kits for sale again, soldering required

1 how mutch does this cost
2 can it be put on a chaos freestyle bike
3 can you make and sell them ?!?!?!?!?!?

I have the same bike ... $38
some soldering required

yanadica (author)2012-08-04

gggggggoooooooooo ccccccchhhhhhhhhhhhheeeeeeeeeelllllllllllllllssssssssssssaaaaaaaaaaa!!!!!!!

timweaver17 (author)2012-06-08

how does it handle the weather and or the elements? (author)2012-06-08

What if your computer isn't old enough to have one of those ports

aswethinkyouare (author)2012-05-03

How do these kits hold up with impact? like if you're hopping a curb or going over a speed bump? Also, can you waterproof the boards at all? maybe use scotch guard?

TSC (author)2012-04-11

Thats sick! awsome great job!

tyson.ras (author)2009-08-19

What would it take for you to just build me a pair of the pac man lights and send them to me? I really serious about this.

same here. but ill pay what you want.
(between 0.01 and 20.00 )
not like 1,000,000 $

SniperCzar (author)2010-01-24

Anybody know a way to put this on a car wheel/legality of doing so?  I would love to put this thing on the wheels of my wip EV conversion...

thoes cost a fourton to but the tires with this built in.
you should solder it in to your car tire to do that

cody777 (author)SniperCzar2011-04-18

its perfectly leagal, they even sell rims with that kind of thing built in

abadfart (author)SniperCzar2010-12-14

i would love to do a small one on a sport bike and a el wire jacket for a tron look

chucksta (author)SniperCzar2010-05-09

I'm pretty sure it depends on the state.

Frank Lampard 13 (author)2012-02-11

Love the chelsea fc one

kkhan10 (author)2011-11-16

where i can buy that all things ? an i can fix that on alloy ?

linda chen (author)2011-11-03

Aerodynamic, lightweight, durable
One year warranty and damage replacement policy.
it means you can use them with confidence – even on rough roads – without worrying about rider weight restrictions.

no matter you need one basic-level model, or middle-level model, or high-end model for your market. you can find them here.

these are all the best value for your money.
Welcome to visit our Company Website:
Anything i can do for you,pls contact me via

gener_i (author)2009-07-28

Can I replaced you AVR tiny to PIC MCU which is more widely available here in the Philippines,can you recomend what kind or part number of PIC can replaced you AVR MCU

About This Instructable




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