Palta Circuits Wiki - User contributions [en]

JTAG2UPDI

2024-10-30T03:04:59Z

WikiAdmin: /* What is this for? */

==Intro==
[[File:AVR_HV_UPDI_TINY_UP.png|800px]]

This project is based on the project of
https://github.com/Dlloydev/jtag2updi

In this board, I include the 12V boost converter to enable the High Voltage programming mode.

==What is this for?==

This programmer is use for programming tinyAVR 0-Series, 1-Series, 2-Series which using UPDI pin for the programming. 
To program those ICs using Arduino IDE, you will need to add megaTinyCore board at the board manager. Add this url to your "Additional Board Url" at your Arduino IDE. 
https://drazzy.com/package_drazzy.com_index.json 
Search for "megaTinyCore by Spence Konde" to add the boards. 

And to use this programmer to upload your code to the IC, select jtag2updi from the programmer menu. 

==Schematic==
This is the schematic for my board.

[[File:AVR_HVUPDI_TINY_sch.png|600px]]

==How to Get==
This board is offered at marketplace below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)

==Video==
As of now, there is no video for this product yet.
Will update when there is one.

----
[{{Server}}/index.php/JTAG2UPDI Bahasa Indonesia]

JTAG2UPDI

2024-10-30T03:04:25Z

WikiAdmin:

==Intro==
[[File:AVR_HV_UPDI_TINY_UP.png|800px]]

This project is based on the project of
https://github.com/Dlloydev/jtag2updi

In this board, I include the 12V boost converter to enable the High Voltage programming mode.

==What is this for?==

This programmer is use for programming tinyAVR 0-Series, 1-Series, 2-Series which using UPDI pin for the programming.
To program those ICs using Arduino IDE, you will need to add megaTinyCore board at the board manager. Add this url to your "Additional Board Url" at your Arduino IDE.
https://drazzy.com/package_drazzy.com_index.json
Search for "megaTinyCore by Spence Konde" to add the boards.

And to use this programmer to upload your code to the IC, select jtag2updi from the programmer menu.

==Schematic==
This is the schematic for my board.

[[File:AVR_HVUPDI_TINY_sch.png|600px]]

==How to Get==
This board is offered at marketplace below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)

==Video==
As of now, there is no video for this product yet.
Will update when there is one.

----
[{{Server}}/index.php/JTAG2UPDI Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-10-08T06:05:57Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
Also, you will need to solder the male headers first before soldering all the LEDs to the board. Not the way around. Because after the LEDs soldered to the board, you will not able to reach the center.
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
But later I change to 100 Ohm. So the LEDs hopefully will a bit brighter.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|450px|left]] [[File:RGB888_Controller.png|450px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|525px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
One is the reset button.
And the second labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 

==Showcase==
<youtube>qCOdKuBK_zI</youtube>
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 4x4x4

2024-10-08T06:02:17Z

WikiAdmin:

==Intro==
This LED Cube RGB 4x4x4 is actually based on Charliecube designed by Asher Glick, which all the informations are available at
https://aglick.com/charliecube.html

What I made here is a PCB version, which all the circuitry were made into 2 separated boards, which then will be connected using headers.
And these are the 2 boards.
 
[[File:Boards.JPG|600px]]
 The left one is for LED Pillars. And the right one is for the controller board.
 

==Making==
First thing to start when making this LED Cube is to prepare the LED.
At this project, we will use the RGB LED, with Common Cathode type.
 
[[File:01_RGB_LEDs_Legs-172x300.jpg]]
 
And using a jig, we will bend the LED's legs to our need.
 
[[File:02_RGB_LEDs_and_Jig-768x697.jpg]]
 
As you can see at the picture above, I left the Cathode leg half bend, to differentiate it from the others. This will come handy when we want to solder it to the wire.
 
The target is to make the LED like picture below
 
[[File:04_RGB_LED_closeup-768x578.jpg]]
 
And below is the led pillar soldering process. As seen below, the Cathode position of each LED (the one without loop) is rotated clockwise for each LED.
 
[[File:LED Pillar Soldering02.jpg|600px]]
 
And for another tips, after soldering to the wire, I will cut the 3 wires that connected to Anode (R G B) of the last (bottom) LED, shorter. And left the wire that connected to the last LED's Cathode the only one longer. This will become our position marker when placing it into the PCB.
 
And here are the circuit boards with all the LED Pillars soldered, and the controller board assembled with all the components.
 
[[File:2modules apart.jpg|600px]]
 

And here is the picture of the LED Cube RGB 4x4x4 in complete form.
 
[[File:Assembled.jpg|600px]]
 

As references, here are the schematic of the 2 boards above.

LED board 
[[File:CubeRGB444 LEDs.png|800px]] 

Controller board 
[[File:CubeRGB444 Minsys.png|800px]] 

==Komponen==

[[File:Components.JPG|800px]]

Here are the list of all the components needed for these boards.

* RGB LED 5mm Common Cathode : 64pcs
* Wire : 64pcs
* IC ATMega328P-PU : 1pcs
* IC Socket 28pin : 1pcs
* Crystal 16Mhz : 1pcs
* Capacitor 22pF : 2pcs
* Capacitor 0.1uF : 6pcs
* Capacitor El 10uF : 2pcs
* Resistor 10k : 1pcs
* Resistor 1K : 1pcs
* Pin Header Female 1x6 Right Angle : 1pcs
* Pin Header Female 1x8 Straight : 2pcs
* Pin Header Male 1x8 Straight : 2pcs
* Diode 1n4001 : 1pcs
* Tactile Button 6x6x5 Right Angle : 2pcs
* Mini Slide Switch : 1pcs
* Socket DC PCB Mount : 1pcs
* M3x6 Black Pan Padded Screw : 4pcs
* M3x5 Male-Female Nylon Spacer : 4pcs
* M3x10 Female-Female Nylon Spacer : 4pcs
* M3x7x1 Nylon Flat Washer : 4pcs
* RGB444 Base Board : 1pcs
* RGB444 MinSys Board : 1pcs
* Kabel DC Adaptor Charger USB Male to DC 5.5mm : 1pcs

==Code==
Source code for this LED Cube RGB 4x4x4 also based on Asher Glick's and modified to work with the schematic used here.
Source code are available at :
https://github.com/paulustanuri/PT018_RGB_LED_Cube_V3.1

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
[[File:Kit single.JPG|800px]] 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-4x4x4-kit-charliecube-palta-style.html (Elecrow)

==Tutorial==
The tutorial to assemble and make this LED Cube can be watch at the video below :

<youtube>6L-2932VH88</youtube>

or you can also check the post here :
 
https://www.paulustanuri.com/rgb-led-cube-4x4x4-aka-charliecube-pembuatan/

==Showcase==
<youtube>og4EE3k7bYI</youtube>
----
[{{Server}}/index.php/LED_Cube_RGB_4x4x4 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-10-03T14:32:37Z

WikiAdmin: /* Column Controller Board */

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
Also, you will need to solder the male headers first before soldering all the LEDs to the board. Not the way around. Because after the LEDs soldered to the board, you will not able to reach the center.
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
But later I change to 100 Ohm. So the LEDs hopefully will a bit brighter.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|450px|left]] [[File:RGB888_Controller.png|450px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|525px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
One is the reset button.
And the second labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-10-03T14:16:21Z

WikiAdmin: /* LED Board */

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
Also, you will need to solder the male headers first before soldering all the LEDs to the board. Not the way around. Because after the LEDs soldered to the board, you will not able to reach the center.
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|450px|left]] [[File:RGB888_Controller.png|450px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|525px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
One is the reset button.
And the second labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-10-03T13:46:29Z

WikiAdmin: /* Controller Board */

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|450px|left]] [[File:RGB888_Controller.png|450px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|525px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
One is the reset button.
And the second labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-10-03T13:45:54Z

WikiAdmin: /* Controller Board */

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|450px|left]] [[File:RGB888_Controller.png|450px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|525px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

File:Contrl 01.JPG

2024-10-03T13:45:30Z

WikiAdmin: WikiAdmin uploaded a new version of File:Contrl 01.JPG

LED Cube RGB 8x8x8

2024-10-03T13:41:40Z

WikiAdmin: /* Controller Board */

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|450px|left]] [[File:RGB888_Controller.png|450px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|550px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-10-03T13:41:24Z

WikiAdmin: /* Controller Board */

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|450px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|550px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

File:RGB888 Controller.png

2024-10-03T13:34:48Z

WikiAdmin: WikiAdmin uploaded a new version of File:RGB888 Controller.png

File:RGB888 Controller sch.png

2024-10-03T13:34:21Z

WikiAdmin: WikiAdmin uploaded a new version of File:RGB888 Controller sch.png

LED Cube RGB 8x8x8

2024-09-13T10:14:35Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia - Indonesia only)
* https://bit.ly/SP-PALTA (Shopee - Indonesia only)
* https://bit.ly/Tindie-PALTA (Tindie - International)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow - International)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-08-31T16:50:23Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[Media:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-08-31T16:47:18Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[File:LED_Mount8RGB_all.pdf]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-08-31T16:45:34Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
If you need to create the jig on your own, you can use this file for laser cutting. [[File:LED_Mount8RGB_all.pdf]]
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

File:LED Mount8RGB all.pdf

2024-08-31T16:43:03Z

WikiAdmin:

LED Cube RGB 8x8x8

2024-08-29T08:06:06Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:Led_Layer_01.jpg|500px]] 
[[File:LED_Slices_01.JPG|500px]] 
 
As for the bigest jig, will be use to help when we will placing all the layers to the PCB. 
And when do that, we will need to dissambled the layer jig, and take the lower part and use it with the bigest jig. As shown below 
[[File:Base_jig_usage.jpg|500px]] 
----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

File:Base jig usage.jpg

2024-08-29T08:05:01Z

WikiAdmin:

File:Led Layer 01.jpg

2024-08-29T08:03:24Z

WikiAdmin:

LED Cube RGB 8x8x8

2024-08-29T07:56:57Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs. 
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:LED_Slices_01.JPG|500px]]

----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-08-29T07:55:39Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs. 
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. 
Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs.
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:LED_Slices_01.jpg|500px]]

----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2024-08-29T07:54:22Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>
 
==The Jigs==
Recently in 2024, I created a new set of Jig for this project. Because the process of bending the LEDs leg is taking quite a lot of time, I tried to make it simpler, but still easy to assembled together. 
So here are the new Jigs.
[[File:All_Jigs_RGB888.jpg|500px]] 
 
Now, let take more closely look for how to use each of them. 
[[File:Jig_Led_01_RGB888.jpg|500px]] 
This little one is used to replace the wooden Jig. So with this little Jig, we can bend the LED Legs to the marking positions for each side. Like the sample shown at the picture below. 
[[File:LED_Bends.jpg|500px]] 
So, now we only have to bend 1 Leg, the Anode. And for the other 3 Legs, we can just cut it accordingly. This will save quite some times. 

And now for this other Jig, will be use to arranged 8 individual LEDs in place, and soldered as a pillar. 
[[File:Jig_Pilar_01_RGB888.jpg|500px]] 
[[File:Jig_Pilar_02_RGB888.jpg|500px]] 
Below is the sample on how to place the LEDs and solder the wire on it. 
[[File:Led_Pilar_02.jpg|500px]] 
The Anode leg which are bended will at the bottom, and not soldered here. Using this jig, we will only soldered the other 3 legs. 
After soldered, we can slide it downward to take it out of the jig. 
[[File:Led_Pilar_03.jpg|500px]] 
 
For the other shape, beside the bigest one, will assembled like below. And this jig will be used to combine 8 of the Pillars we have created before, and soldered into 1 layer. Using this Jig, we will solder the wire to the Anode of the LEDs.
[[File:Jig_Layer_01_RGB888.jpg|500px]] 
Like this picture below 
[[File:LED_Slices_01.jpg|500px]]

----
[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

File:Jig Layer 01 RGB888.jpg

2024-08-29T07:50:37Z

WikiAdmin:

File:Led Pilar 03.jpg

2024-08-29T07:49:41Z

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File:Led Pilar 02.jpg

2024-08-29T07:46:17Z

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File:Jig Pilar 02 RGB888.jpg

2024-08-29T07:45:17Z

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File:Jig Pilar 01 RGB888.jpg

2024-08-29T07:44:30Z

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File:LED Bends.jpg

2024-08-29T07:41:14Z

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File:Jig Led 01 RGB888.jpg

2024-08-29T07:39:11Z

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File:All Jigs RGB888.jpg

2024-08-29T07:36:05Z

WikiAdmin:

LED Cube RGB 4x4x4

2024-07-29T13:48:00Z

WikiAdmin:

==Intro==
This LED Cube RGB 4x4x4 is actually based on Charliecube designed by Asher Glick, which all the informations are available at
https://aglick.com/charliecube.html

What I made here is a PCB version, which all the circuitry were made into 2 separated boards, which then will be connected using headers.
And these are the 2 boards.
 
[[File:Boards.JPG|600px]]
 The left one is for LED Pillars. And the right one is for the controller board.
 

==Making==
First thing to start when making this LED Cube is to prepare the LED.
At this project, we will use the RGB LED, with Common Cathode type.
 
[[File:01_RGB_LEDs_Legs-172x300.jpg]]
 
And using a jig, we will bend the LED's legs to our need.
 
[[File:02_RGB_LEDs_and_Jig-768x697.jpg]]
 
As you can see at the picture above, I left the Cathode leg half bend, to differentiate it from the others. This will come handy when we want to solder it to the wire.
 
The target is to make the LED like picture below
 
[[File:04_RGB_LED_closeup-768x578.jpg]]
 
And below is the led pillar soldering process. As seen below, the Cathode position of each LED (the one without loop) is rotated clockwise for each LED.
 
[[File:LED Pillar Soldering02.jpg|600px]]
 
And for another tips, after soldering to the wire, I will cut the 3 wires that connected to Anode (R G B) of the last (bottom) LED, shorter. And left the wire that connected to the last LED's Cathode the only one longer. This will become our position marker when placing it into the PCB.
 
And here are the circuit boards with all the LED Pillars soldered, and the controller board assembled with all the components.
 
[[File:2modules apart.jpg|600px]]
 

And here is the picture of the LED Cube RGB 4x4x4 in complete form.
 
[[File:Assembled.jpg|600px]]
 

As references, here are the schematic of the 2 boards above.

LED board 
[[File:CubeRGB444 LEDs.png|800px]] 

Controller board 
[[File:CubeRGB444 Minsys.png|800px]] 

==Komponen==

[[File:Components.JPG|800px]]

Here are the list of all the components needed for these boards.

* RGB LED 5mm Common Cathode : 64pcs
* Wire : 64pcs
* IC ATMega328P-PU : 1pcs
* IC Socket 28pin : 1pcs
* Crystal 16Mhz : 1pcs
* Capacitor 22pF : 2pcs
* Capacitor 0.1uF : 6pcs
* Capacitor El 10uF : 2pcs
* Resistor 10k : 1pcs
* Resistor 1K : 1pcs
* Pin Header Female 1x6 Right Angle : 1pcs
* Pin Header Female 1x8 Straight : 2pcs
* Pin Header Male 1x8 Straight : 2pcs
* Diode 1n4001 : 1pcs
* Tactile Button 6x6x5 Right Angle : 2pcs
* Mini Slide Switch : 1pcs
* Socket DC PCB Mount : 1pcs
* M3x6 Black Pan Padded Screw : 4pcs
* M3x5 Male-Female Nylon Spacer : 4pcs
* M3x10 Female-Female Nylon Spacer : 4pcs
* M3x7x1 Nylon Flat Washer : 4pcs
* RGB444 Base Board : 1pcs
* RGB444 MinSys Board : 1pcs
* Kabel DC Adaptor Charger USB Male to DC 5.5mm : 1pcs

==Code==
Source code for this LED Cube RGB 4x4x4 also based on Asher Glick's and modified to work with the schematic used here.
Source code are available at :
https://github.com/paulustanuri/PT018_RGB_LED_Cube_V3.1

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
[[File:Kit single.JPG|800px]] 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-4x4x4-kit-charliecube-palta-style.html (Elecrow)

==Tutorial==
The tutorial to assemble and make this LED Cube can be watch at the video below :

<youtube>6L-2932VH88</youtube>

or you can also check the post here :
 
https://www.paulustanuri.com/rgb-led-cube-4x4x4-aka-charliecube-pembuatan/
----
[{{Server}}/index.php/LED_Cube_RGB_4x4x4 Bahasa Indonesia]

LED Cube RGB 4x4x4

2024-07-29T13:44:42Z

WikiAdmin:

==Intro==
This LED Cube RGB 4x4x4 is actually based on Charliecube designed by Asher Glick, which all the informations are available at
https://aglick.com/charliecube.html

What I made here is a PCB version, which all the circuitry were made into 2 separated boards, which then will be connected using headers.
And these are the 2 boards.
 
[[File:Boards.JPG|600px]]
 The left one is for LED Pillars. And the right one is for the controller board.
 

==Making==
First thing to start when making this LED Cube is to prepare the LED.
At this project, we will use the RGB LED, with Common Cathode type.
 
[[File:01_RGB_LEDs_Legs-172x300.jpg]]
 
And using a jig, we will bend the LED's legs to our need.
 
[[File:02_RGB_LEDs_and_Jig-768x697.jpg]]
 
As you can see at the picture above, I left the Cathode leg half bend, to differentiate it from the others. This will come handy when we want to solder it to the wire.
 
The target is to make the LED like picture below
 
[[File:04_RGB_LED_closeup-768x578.jpg]]
 
And below is the led pillar soldering process. As seen below, the Cathode position of each LED (the one without loop) is rotated clockwise for each LED.
 
[[File:LED Pillar Soldering02.jpg|600px]]
 
And for another tips, after soldering to the wire, I will cut the 3 wires that connected to Anode (R G B) of the last (bottom) LED, shorter. And left the wire that connected to the last LED's Cathode the only one longer. This will become our position marker when placing it into the PCB.
 
And here are the circuit boards with all the LED Pillars soldered, and the controller board assembled with all the components.
 
[[File:2modules apart.jpg|600px]]
 

And here is the picture of the LED Cube RGB 4x4x4 in complete form.
 
[[File:Assembled.jpg|600px]]
 

As references, here are the schematic of the 2 boards above.

LED board 
[[File:CubeRGB444 LEDs.png|800px]] 

Controller board 
[[File:CubeRGB444 Minsys.png|800px]] 

==Komponen==

[[File:Components.JPG|800px]]

Here are the list of all the components needed for these boards.

* RGB LED 5mm Common Cathode : 64pcs
* Wire : 64pcs
* IC ATMega328P-PU : 1pcs
* IC Socket 28pin : 1pcs
* Crystal 16Mhz : 1pcs
* Capacitor 22pF : 2pcs
* Capacitor 0.1uF : 6pcs
* Capacitor El 10uF : 2pcs
* Resistor 10k : 1pcs
* Resistor 1K : 1pcs
* Pin Header Female 1x6 Right Angle : 1pcs
* Pin Header Female 1x8 Straight : 2pcs
* Pin Header Male 1x8 Straight : 2pcs
* Diode 1n4001 : 1pcs
* Tactile Button 6x6x5 Right Angle : 2pcs
* Mini Slide Switch : 1pcs
* Socket DC PCB Mount : 1pcs
* M3x6 Black Pan Padded Screw : 4pcs
* M3x5 Male-Female Nylon Spacer : 4pcs
* M3x10 Female-Female Nylon Spacer : 4pcs
* M3x7x1 Nylon Flat Washer : 4pcs
* RGB444 Base Board : 1pcs
* RGB444 MinSys Board : 1pcs
* Kabel DC Adaptor Charger USB Male to DC 5.5mm : 1pcs

==Code==
Source code for this LED Cube RGB 4x4x4 also based on Asher Glick's and modified to work with the schematic used here.
Source code are available at :
https://github.com/paulustanuri/PT018_RGB_LED_Cube_V3.1

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
[[File:Kit single.JPG|800px]] 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-4x4x4-kit-charliecube-palta-style.html (Elecrow)

==Cara Membuat==
The tutorial to assemble and make this LED Cube can be watch at the video below :

<youtube>6L-2932VH88</youtube>

----
[{{Server}}/index.php/LED_Cube_RGB_4x4x4 Bahasa Indonesia]

LED Cube RGB 4x4x4

2024-07-29T13:44:09Z

WikiAdmin:

==Intro==
This LED Cube RGB 4x4x4 is actually based on Charliecube designed by Asher Glick, which all the informations are available at
https://aglick.com/charliecube.html

What I made here is a PCB version, which all the circuitry were made into 2 separated boards, which then will be connected using headers.
And these are the 2 boards.
 
[[File:Boards.JPG|600px]]
 The left one is for LED Pillars. And the right one is for the controller board.
 

==Making==
First thing to start when making this LED Cube is to prepare the LED.
At this project, we will use the RGB LED, with Common Cathode type.
 
[[File:01_RGB_LEDs_Legs-172x300.jpg]]
 
And using a jig, we will bend the LED's legs to our need.
 
[[File:02_RGB_LEDs_and_Jig-768x697.jpg]]
 
As you can see at the picture above, I left the Cathode leg half bend, to differentiate it from the others. This will come handy when we want to solder it to the wire.
 
The target is to make the LED like picture below
 
[[File:04_RGB_LED_closeup-768x578.jpg]]
 
And below is the led pillar soldering process. As seen below, the Cathode position of each LED (the one without loop) is rotated clockwise for each LED.
 
[[File:LED Pillar Soldering02.jpg|600px]]
 
And for another tips, after soldering to the wire, I will cut all 3 wire that connected to Anode (R G B) of the last (bottom) LED, shorter. And left the wire that connected to the last LED's Cathode the only one longer. This will become our position marker when placing it into the PCB.
 
And here are the circuit boards with all the LED Pillars soldered, and the controller board assembled with all the components.
 
[[File:2modules apart.jpg|600px]]
 

And here is the picture of the LED Cube RGB 4x4x4 in complete form.
 
[[File:Assembled.jpg|600px]]
 

As references, here are the schematic of the 2 boards above.

LED board 
[[File:CubeRGB444 LEDs.png|800px]] 

Controller board 
[[File:CubeRGB444 Minsys.png|800px]] 

==Komponen==

[[File:Components.JPG|800px]]

Here are the list of all the components needed for these boards.

* RGB LED 5mm Common Cathode : 64pcs
* Wire : 64pcs
* IC ATMega328P-PU : 1pcs
* IC Socket 28pin : 1pcs
* Crystal 16Mhz : 1pcs
* Capacitor 22pF : 2pcs
* Capacitor 0.1uF : 6pcs
* Capacitor El 10uF : 2pcs
* Resistor 10k : 1pcs
* Resistor 1K : 1pcs
* Pin Header Female 1x6 Right Angle : 1pcs
* Pin Header Female 1x8 Straight : 2pcs
* Pin Header Male 1x8 Straight : 2pcs
* Diode 1n4001 : 1pcs
* Tactile Button 6x6x5 Right Angle : 2pcs
* Mini Slide Switch : 1pcs
* Socket DC PCB Mount : 1pcs
* M3x6 Black Pan Padded Screw : 4pcs
* M3x5 Male-Female Nylon Spacer : 4pcs
* M3x10 Female-Female Nylon Spacer : 4pcs
* M3x7x1 Nylon Flat Washer : 4pcs
* RGB444 Base Board : 1pcs
* RGB444 MinSys Board : 1pcs
* Kabel DC Adaptor Charger USB Male to DC 5.5mm : 1pcs

==Code==
Source code for this LED Cube RGB 4x4x4 also based on Asher Glick's and modified to work with the schematic used here.
Source code are available at :
https://github.com/paulustanuri/PT018_RGB_LED_Cube_V3.1

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
[[File:Kit single.JPG|800px]] 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-4x4x4-kit-charliecube-palta-style.html (Elecrow)

==Cara Membuat==
The tutorial to assemble and make this LED Cube can be watch at the video below :

<youtube>6L-2932VH88</youtube>

----
[{{Server}}/index.php/LED_Cube_RGB_4x4x4 Bahasa Indonesia]

LED Cube RGB 4x4x4

2024-07-29T13:38:52Z

WikiAdmin:

==Intro==
This LED Cube RGB 4x4x4 is actually based on Charliecube designed by Asher Glick, which all the informations are available at
https://aglick.com/charliecube.html

What I made here is a PCB version, which all the circuitry were made into 2 separated boards, which then will be connected using headers.
And these are the 2 boards.
 
[[File:Boards.JPG|600px]]
 The left one is for LED Pillars. And the right one is for the controller board.
 

==Making==
First thing to start when making this LED Cube is to prepare the LED.
At this project, we will use the RGB LED, with Common Cathode type.
 
[[File:01_RGB_LEDs_Legs-172x300.jpg]]
 
And using a jig, we will bend the LED's legs to our need.
 
[[File:02_RGB_LEDs_and_Jig-768x697.jpg]]
 
The target is to make the LED like picture below
 
[[File:04_RGB_LED_closeup-768x578.jpg]]
 
And below is the led pillar soldering process. As seen below, the Cathode position of each LED (the one without loop) is rotated clockwise for each LED.
 
[[File:LED Pillar Soldering02.jpg|600px]]
 

And here are the circuit boards with all the LED Pillars soldered, and the controller board assembled with all the components.
 
[[File:2modules apart.jpg|600px]]
 

And here is the picture of the LED Cube RGB 4x4x4 in complete form.
 
[[File:Assembled.jpg|600px]]
 

As references, here are the schematic of the 2 boards above.

LED board 
[[File:CubeRGB444 LEDs.png|800px]] 

Controller board 
[[File:CubeRGB444 Minsys.png|800px]] 

==Komponen==

[[File:Components.JPG|800px]]

Here are the list of all the components needed for these boards.

* RGB LED 5mm Common Cathode : 64pcs
* Wire : 64pcs
* IC ATMega328P-PU : 1pcs
* IC Socket 28pin : 1pcs
* Crystal 16Mhz : 1pcs
* Capacitor 22pF : 2pcs
* Capacitor 0.1uF : 6pcs
* Capacitor El 10uF : 2pcs
* Resistor 10k : 1pcs
* Resistor 1K : 1pcs
* Pin Header Female 1x6 Right Angle : 1pcs
* Pin Header Female 1x8 Straight : 2pcs
* Pin Header Male 1x8 Straight : 2pcs
* Diode 1n4001 : 1pcs
* Tactile Button 6x6x5 Right Angle : 2pcs
* Mini Slide Switch : 1pcs
* Socket DC PCB Mount : 1pcs
* M3x6 Black Pan Padded Screw : 4pcs
* M3x5 Male-Female Nylon Spacer : 4pcs
* M3x10 Female-Female Nylon Spacer : 4pcs
* M3x7x1 Nylon Flat Washer : 4pcs
* RGB444 Base Board : 1pcs
* RGB444 MinSys Board : 1pcs
* Kabel DC Adaptor Charger USB Male to DC 5.5mm : 1pcs

==Code==
Source code for this LED Cube RGB 4x4x4 also based on Asher Glick's and modified to work with the schematic used here.
Source code are available at :
https://github.com/paulustanuri/PT018_RGB_LED_Cube_V3.1

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
[[File:Kit single.JPG|800px]] 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-4x4x4-kit-charliecube-palta-style.html (Elecrow)

==Cara Membuat==
The tutorial to assemble and make this LED Cube can be watch at the video below :

<youtube>6L-2932VH88</youtube>

----
[{{Server}}/index.php/LED_Cube_RGB_4x4x4 Bahasa Indonesia]

File:04 RGB LED closeup-768x578.jpg

2024-07-29T13:38:15Z

WikiAdmin:

File:02 RGB LEDs and Jig-768x697.jpg

2024-07-29T13:36:20Z

WikiAdmin:

File:01 RGB LEDs Legs-172x300.jpg

2024-07-29T13:34:17Z

WikiAdmin:

MediaWiki:Sidebar

2023-11-02T10:59:46Z

WikiAdmin:

* navigation
** mainpage|mainpage-description

* Tools
** FTDI_FT230XS|FT230 USB-UART
** JTAG2UPDI|JTAG2UPDI AVR HV Programmer

* Modules
** Digital_Isolator|Digital Isolator for FTDI Version 1.0
** Digital_Isolator_v2|Digital Isolator for FTDI Version 2.0
** I2C_Isolator|I2C Isolator
** SPI_Isolator|SPI Isolator
** Serial_Isolator|Serial Isolator

* MCU Boards
** ATMega328P-PU_Breakout_Board|ATMega328P-PU Board
** ATMega328P-AU_Mini_Board|ATMega328P-AU Mini Board
** ATTiny85_Mini_Board|ATTiny85 Mini Board
** ATTiny10_ICSP_Board|Attiny10 ICSP Board
** ATTinyX26_Mini_Board|ATTinyX26 Mini Board

* Special Purpose
** Message_Board_MAX7219_V3|Max7219 Messageboard

* Kit
** LED_Cube_4x4x4_1Color|LED Cube 4x4x4 1 Color
** LED_Cube_RGB_4x4x4|LED Cube RGB 4x4x4
** LED_Cube_RGB_8x8x8|LED Cube RGB 8x8x8

JTAG2UPDI

2023-11-02T10:53:43Z

WikiAdmin: Created page with "==Intro== 800px This project is based on the project of https://github.com/Dlloydev/jtag2updi In this board, I include the 12V boost converter to enable the High Voltage programming mode. ==Schematic== This is the schematic for my board. 600px ==How to Get== This board is offered at marketplace below : * https://bit.ly/TP-PALTA (Tokopedia) * https://bit.ly/SP-PALTA (Shopee) ==Video== As of now, th..."

==Intro==
[[File:AVR_HV_UPDI_TINY_UP.png|800px]]

This project is based on the project of
https://github.com/Dlloydev/jtag2updi

In this board, I include the 12V boost converter to enable the High Voltage programming mode.

==Schematic==
This is the schematic for my board.

[[File:AVR_HVUPDI_TINY_sch.png|600px]]

==How to Get==
This board is offered at marketplace below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)

==Video==
As of now, there is no video for this product yet.
Will update when there is one.

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[{{Server}}/index.php/JTAG2UPDI Bahasa Indonesia]

File:AVR HVUPDI TINY sch.png

2023-11-02T10:51:55Z

WikiAdmin:

File:AVR HV UPDI TINY UP.png

2023-11-02T10:44:23Z

WikiAdmin: WikiAdmin uploaded a new version of File:AVR HV UPDI TINY UP.png

File:AVR HV UPDI TINY UP.png

2023-11-02T10:35:23Z

WikiAdmin:

SPI Isolator

2023-10-20T07:23:41Z

WikiAdmin: /* Reference */

==Intro==

[[File:SPI_Isolator.jpg|800px]]

This board is a breakout board of a Digital Isolator chip from Silicon Labs. The main function of this chip is to isolate 2 circuits which each having their own voltage source, and at the same time help them to communicate.

The usage of this chip is to isolated each side so they won't affect each other with noise nor voltage surge.

[[File:SI8641_Functional_Block.jpg|400px]]

==Schematic==
Here is the schematic of the board.

[[File:SPI_Isolator_V1_sch.png|400px]]

==Reference==
Here is the component's datasheet for your reference :

https://www.skyworksinc.com/-/media/Skyworks/SL/documents/public/data-sheets/si864x-datasheet.pdf

==Where to buy==

If you are interested, this board is offered at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)

----
[{{Server}}/index.php/SPI_Isolator Bahasa Indonesia]

LED Cube RGB 8x8x8

2023-08-18T08:32:13Z

WikiAdmin:

==Intro==
LED Cube RGB 8x8x8 is a development from LED Cube RGB made by Kevin Darrah. You can search for RGB Cube at Kevin Darrah's Youtube channel if you want to see or learn about the original version of this LED Dube RGB 8x8x8.

What I made here is a version with no cables, where all components placed at 3 separate boards which then connected using pin headers.

==LED==
LED used for this project are 5mm RGB LED Diffused color, Common Anode.
 
[[File:LED_CommonAnode.JPG|200px]]
 
These LEDs need to be bend. I use a Jig to help me bend all the LEDs in the same shape, as shown below.
 
[[File:LED_inJig.JPG|300px]]
 
And the result would be like shown below
 
[[File:LED_Bended01.JPG|300px]]
 
We will need to prepare 512pcs of LED bended with the same way.
 
[[File:LED_bended.JPG|300px]]

==LED Matrix==
After all the LEDs already been bent, then need to be put together with wires. I used silver color copper wire which usually used for handicraft.
 
Those wires need to be straightened and cut for about 17cm - 18cm, as shown below.
 
[[File:Wires.JPG|300px]]
 
And LEDs were formed an 8x8 matrix like below.
 
[[File:LED_Slices_01.JPG|300px]]
 
Then we will need to prepare 8pcs of this Matrix. Then we'll able to proceed to the board.
 
[[File:LED_Slices02.JPG|300px]]
 

==Circuit Boards==
There are 3 circuit boards needed for this LED Cube.

===LED Board===
This is the top board having all the LEDs soldered onto it. 
Here are the pictures of the schematic and the board.
[[File:LEDs_Board_sch.png|300px|left]] [[File:RGB888_LEDs_Board.png|200px]]

<div style="clear:both;">
And below is the picture with the markings. 
The green boxes are the places for the Cathode wires. 
The yellow ellipse are places for the Anodes of each layer. 
And the rest are for headers to connect this board with the Column Controller board below it.
 
[[File:RGB888_LEDs_Board_Cathodes.png|500px]]
 
After all the LEDs already soldered, it will looks like the picture below.
 
[[File:RGB888_LEDs_Board_Populated.jpg|500px]]
 
[[File:LedCube_Base01.JPG|500px]]
 
And below is the close up picture for how to connect the Anode wires to the board 
[[File:LedCube_Anode01.JPG|500px]]
 

===Column Controller Board===
Is the middle board, mostly consist of SN74HC595 shift register and ULN2803A Transistor Array.
 
[[File:RGB888_Col_Controller_sch.png|200px|left]] [[File:RGB888_Col_Controller.png|200px]]

<div style="clear:both;">
 
And below is the part of the Column Controller Board.
The parts with the yellow box with code RNx are for Resistor Network 1K Ohm, 9 pins. The first pin pad is the rectangle one.
And the parts with cyan color with code "200" are for 200 Ohm Resistor as much as 8pcs for each Shift Register, place vertically for space.
And parts with the green box, with code JRx will be the Header, which will be connected to the LED Board above it.
 
[[File:RGB888_Col_Controller_pins01.png|400px]]
 
 
Besides that, there are also 3 headers at the right, left, and top as marked at the picture below, which will connect to Controller Board below it.
The header at the left side will be the shift register control and data pins.
The header at the right side will control the Anode of each layer.
And header at the top will provide connection to VCC and GND to help spread the current.
 
[[File:RGB888_Col_Controller_pins.png|500px]]
 
Below are the pictures of the populated Column Controller Board, and the closed up position for better understanding on how the components placed.
 
[[File:ColCtrl_01.JPG|500px]]
 
[[File:ColCtrl_03.JPG|500px]]
 

===Controller Board===
This is the main Controller board, consist of 8 MOSFETs, with a shift register with the transistor array and the necessary components to control the power for each layer.
And the main controller of the whole thing, which is the minimum system of ATMega328P-PU, Arduino Compatible.
 
And here is the schematic and the picture of the main Controller board.
 
[[File:RGB888_Controller_sch.png|400px|left]] [[File:RGB888_Controller.png|400px]]

<div style="clear:both;">
 
And below is the picture of the populated control board..
 
[[File:Contrl_01.JPG|500px]]
 
As can be seen at the picture, also from the schematic, there are 2 momentary button at the board. 
The first one near the power jack, is the reset button.
And the second on the left side, labeled "Action" is connected to INT0 pin, which can be programmed for special needs. 
But for now, at the current code, it still doesn't have any line for that purpose. 

==Components List==
This is the list of all the components needed for this project 
 - IC ATMega328P-PU : 1pcs
 - IC Socket 28pin : 1pcs
 - Crystal 16Mhz : 1pcs
 - Capacitor 22pF : 2pcs
 - Capacitor 0.1uF : 31pcs
 - Capacitor El 100uF : 13pcs
 - Resistor 1k : 1pcs
 - Resistor 10k : 2pcs
 - Resistor 100R : 8pcs
 - Resistor 200R : 192pcs
 - IRF9540N : 8pcs
 - Resistor Network 1K 9pin : 25pcs
 - ULN2803A : 25pcs
 - SN74HC595 : 25pcs
 - Female Header 1x6 Right Angle : 1pcs
 - Male Header 1x8 : 19pcs
 - Female Header 1x8 : 19pcs
 - Female Header 1x9 : 8pcs
 - Male Header 1x9 : 8pcs
 - Tactile Button 6x6x5 Right Angle : 2pcs
 - SS-12D11G5R SPDT : 1pcs
 - Socket DC PCB Mount : 1pcs
 - LED 5mm Diffused Color : 512pcs
 - M3x6 Black Pan Padded Screw : 4pcs
 - M3x5 Male-Female Nylon Spacer : 4pcs
 - M3x10 Female-Female Nylon Spacer : 4pcs
 - M3x10 Male-Female Nylon Spacer : 4pcs
 - M3x7x1 Nylon Flat Washer : 8pcs
 - Copper Wire 18cm/pcs : 280pcs
 

==Code==
The source code for this LED Cube RGB 8x8x8 also using Kevin Darrah's code, which modified a little to match the schematic I made here.
The source code I used can be downloaded from :
https://github.com/paulustanuri/PT019_RGB_Cube_888

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-8x8x8-kit-arduino-compatible.html (Elecrow)

==The Making Process==
For the making process of this cube. Although the video is in Bahasa (Indonesian Language), the English CC is available.

<youtube>fsItpQrHHS0</youtube>

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[{{Server}}/index.php/LED_Cube_RGB_8x8x8 Bahasa Indonesia]

LED Cube RGB 8x8x8

2023-08-18T08:28:22Z

WikiAdmin: /* Components List */

LED Cube RGB 4x4x4

2023-06-28T05:44:49Z

WikiAdmin: /* Tersedia di */

==Intro==
This LED Cube RGB 4x4x4 is actually based on Charliecube designed by Asher Glick, which all the informations are available at
https://aglick.com/charliecube.html

What I made here is a PCB version, which all the circuitry were made into 2 separated boards, which then will be connected using headers.
And these are the 2 boards.
 
[[File:Boards.JPG|600px]]
 The left one is for LED Pillars. And the right one is for the controller board.
 

And below is the led pillar soldering process. As seen below, the Cathode position of each LED (the one without loop) is rotated clockwise for each LED.
 
[[File:LED Pillar Soldering02.jpg|600px]]
 

And here are the circuit boards with all the LED Pillars soldered, and the controller board assembled with all the components.
 
[[File:2modules apart.jpg|600px]]
 

And here is the picture of the LED Cube RGB 4x4x4 in complete form.
 
[[File:Assembled.jpg|600px]]
 

As references, here are the schematic of the 2 boards above.

LED board 
[[File:CubeRGB444 LEDs.png|800px]] 

Controller board 
[[File:CubeRGB444 Minsys.png|800px]] 

==Komponen==

[[File:Components.JPG|800px]]

Here are the list of all the components needed for these boards.

* RGB LED 5mm Common Cathode : 64pcs
* Wire : 64pcs
* IC ATMega328P-PU : 1pcs
* IC Socket 28pin : 1pcs
* Crystal 16Mhz : 1pcs
* Capacitor 22pF : 2pcs
* Capacitor 0.1uF : 6pcs
* Capacitor El 10uF : 2pcs
* Resistor 10k : 1pcs
* Resistor 1K : 1pcs
* Pin Header Female 1x6 Right Angle : 1pcs
* Pin Header Female 1x8 Straight : 2pcs
* Pin Header Male 1x8 Straight : 2pcs
* Diode 1n4001 : 1pcs
* Tactile Button 6x6x5 Right Angle : 2pcs
* Mini Slide Switch : 1pcs
* Socket DC PCB Mount : 1pcs
* M3x6 Black Pan Padded Screw : 4pcs
* M3x5 Male-Female Nylon Spacer : 4pcs
* M3x10 Female-Female Nylon Spacer : 4pcs
* M3x7x1 Nylon Flat Washer : 4pcs
* RGB444 Base Board : 1pcs
* RGB444 MinSys Board : 1pcs
* Kabel DC Adaptor Charger USB Male to DC 5.5mm : 1pcs

==Code==
Source code for this LED Cube RGB 4x4x4 also based on Asher Glick's and modified to work with the schematic used here.
Source code are available at :
https://github.com/paulustanuri/PT018_RGB_LED_Cube_V3.1

==Available At==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
[[File:Kit single.JPG|800px]] 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-4x4x4-kit-charliecube-palta-style.html (Elecrow)

==Cara Membuat==
The tutorial to assemble and make this LED Cube can be watch at the video below :

<youtube>6L-2932VH88</youtube>

----
[{{Server}}/index.php/LED_Cube_RGB_4x4x4 Bahasa Indonesia]

LED Cube RGB 4x4x4

2023-06-27T18:57:33Z

WikiAdmin:

==Intro==
This LED Cube RGB 4x4x4 is actually based on Charliecube designed by Asher Glick, which all the informations are available at
https://aglick.com/charliecube.html

What I made here is a PCB version, which all the circuitry were made into 2 separated boards, which then will be connected using headers.
And these are the 2 boards.
 
[[File:Boards.JPG|600px]]
 The left one is for LED Pillars. And the right one is for the controller board.
 

And below is the led pillar soldering process. As seen below, the Cathode position of each LED (the one without loop) is rotated clockwise for each LED.
 
[[File:LED Pillar Soldering02.jpg|600px]]
 

And here are the circuit boards with all the LED Pillars soldered, and the controller board assembled with all the components.
 
[[File:2modules apart.jpg|600px]]
 

And here is the picture of the LED Cube RGB 4x4x4 in complete form.
 
[[File:Assembled.jpg|600px]]
 

As references, here are the schematic of the 2 boards above.

LED board 
[[File:CubeRGB444 LEDs.png|800px]] 

Controller board 
[[File:CubeRGB444 Minsys.png|800px]] 

==Komponen==

[[File:Components.JPG|800px]]

Here are the list of all the components needed for these boards.

* RGB LED 5mm Common Cathode : 64pcs
* Wire : 64pcs
* IC ATMega328P-PU : 1pcs
* IC Socket 28pin : 1pcs
* Crystal 16Mhz : 1pcs
* Capacitor 22pF : 2pcs
* Capacitor 0.1uF : 6pcs
* Capacitor El 10uF : 2pcs
* Resistor 10k : 1pcs
* Resistor 1K : 1pcs
* Pin Header Female 1x6 Right Angle : 1pcs
* Pin Header Female 1x8 Straight : 2pcs
* Pin Header Male 1x8 Straight : 2pcs
* Diode 1n4001 : 1pcs
* Tactile Button 6x6x5 Right Angle : 2pcs
* Mini Slide Switch : 1pcs
* Socket DC PCB Mount : 1pcs
* M3x6 Black Pan Padded Screw : 4pcs
* M3x5 Male-Female Nylon Spacer : 4pcs
* M3x10 Female-Female Nylon Spacer : 4pcs
* M3x7x1 Nylon Flat Washer : 4pcs
* RGB444 Base Board : 1pcs
* RGB444 MinSys Board : 1pcs
* Kabel DC Adaptor Charger USB Male to DC 5.5mm : 1pcs

==Code==
Source code for this LED Cube RGB 4x4x4 also based on Asher Glick's and modified to work with the schematic used here.
Source code are available at :
https://github.com/paulustanuri/PT018_RGB_LED_Cube_V3.1

==Tersedia di==
The circuit boards with all the components needed are available in a form of a Kit, complete with the jigs needed.
[[File:Kit single.JPG|800px]] 
Available at marketplaces below :
* https://bit.ly/TP-PALTA (Tokopedia)
* https://bit.ly/SP-PALTA (Shopee)
* https://bit.ly/Tindie-PALTA (Tindie)
* https://www.elecrow.com/led-cube-rgb-4x4x4-kit-charliecube-palta-style.html (Elecrow)

==Cara Membuat==
The tutorial to assemble and make this LED Cube can be watch at the video below :

<youtube>6L-2932VH88</youtube>

----
[{{Server}}/index.php/LED_Cube_RGB_4x4x4 Bahasa Indonesia]

File:ATTiny10 board Pinout.png

2022-06-27T04:23:24Z

WikiAdmin: WikiAdmin uploaded a new version of File:ATTiny10 board Pinout.png