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fadercore_-_vlr-8x16ledmeter [2014/07/28 15:25]
novski
fadercore_-_vlr-8x16ledmeter [2014/07/30 11:58] (current)
novski
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-PCB to add 8 Meters with 16 LEDs for each.+solution ​to add 8 Meters with 16 LEDs for each Meter. 
 +It contains 2 different Types of PCBs one is the LEDmatrix and the other a slim PCB to mount 16LEDs called meterboard.
  
-{{:​fadercore_vlr-meterboard_beispiel_1_kanal_bestückt_.png?600|External Link}}+{{:​fadercore_vlr-meterboard_beispiel_1_kanal_bestueckt.png?600|}}
  
 Eagle Files: [[https://​github.com/​novski/​Midibox/​tree/​master/​VLR-8x16LEDmeter]] Eagle Files: [[https://​github.com/​novski/​Midibox/​tree/​master/​VLR-8x16LEDmeter]]
  
- +{{:​fadercore_vlr-ledmatrix_unbestueckt_top.png?​200|}} {{:​fadercore_vlr-meterboard_bestueckt_sideview.png?​200|}}\\ 
- + ​{{:​fadercore_vlr-ledmatrix_dimensions.png?​300|}} {{:​fadercore_vlr-meterboard_dimensions.png?200|}}
-{{:​fadercore_vlr-3x8but_dimensions.png?600|}}+
  
 ==== BOM ==== ==== BOM ====
Line 22: Line 22:
 And look for Local dealers preferred. [[http://​www.midibox.org/​dokuwiki/​doku.php?​id=where_to_order_components]] And look for Local dealers preferred. [[http://​www.midibox.org/​dokuwiki/​doku.php?​id=where_to_order_components]]
  
-== The Buttons ==+To make a small and easy to connect matrix over a hole Frontplatte is no fun. Thats why i made myself a better solution. Based on the common DOUT modules it can be connected to 3 SRs.
  
-I thaught a long time about how to make a Button PCB that does not explode in material cost. +== The Materials: Mouser ==
-The best solution was to buy rubberbuttons from Sparkfun and cut them because the with of Fadercore is fixed by the minimal width of 8 Oleds side by side... 220mm in width / 8 makes a 27.5mm grid. What a pity that the Sparkfun pads are premade with a 25mm grid... ​+
  
-you will need two of them: +  * 3x10pin Header, 517-30310-6002 
-[[https://​www.sparkfun.com/​products/​7835]]+  * 6x10pin Sockets, 517-D89110-0131HK 
 +  * 16x20pin Header, 517-30320-6002 
 +  * 16x20pin Sockets, 517-D89120-0131HK 
 +  * 20 Wire Ribbon Cable, 523-135-2801-020FT 
 +  * about 80 Green LEDs, 604-WP3A8GD 
 +  * about 80 Yellow LEDs, 604-WP3A8YD 
 +  * about 80 Red LEDs, 604-WP3A8HD ​                                                                                         ​
  
-== The other Materials: Mouser == 
  
-  * 2x10pin Header, 517-30310-6002 ​                                                                                                                  +Project Order Basket on Mouser: [[http://​www.mouser.com/​ProjectManager/​ProjectDetail.aspx?​AccessID=5ecf7b4949]]
-  * 5x100nF,​594-K104K15X7RF53K2  +
-  * 2x10k Network, 774-77061103P ​        +
-  * 3x220R Array, 652-4816P-T1LF-220 ​                                                                                         +
-  * 1x74HC165D, 771-HC165D652 +
-  * 4x74HC595D, 771-74HC595D ​                                                 +
-  * 24xLED RGB, 604-WP154A4SUREQBFZW +
-  * 24x1N4148, 512-1N4148TR +
- +
-Project Order Basket on Mouser: [[http://​www.mouser.com/​ProjectManager/​ProjectDetail.aspx?​AccessID=1f42b04e6d]] +
- +
-The PCB is available under: [[]]+
  
 +The PCB is available under: ​
 +[[https://​www.vlrlab.com/​home/​18-ledmatrix.html]]
 +[[https://​www.vlrlab.com/​home/​19-meterboard.html]]
  
 ==== How to get Started ==== ==== How to get Started ====
  
-If its your first SMD soldering you can follow this on t1:58 : http://www.youtube.com/​watch?​v=5uiroWBkdFY +The LEDs are mounted to the Edge of the Meterboard to get a very slim formThat makes it a bit harder to solder them but i guess that no one wont be able to do it.  
-I recommend to not buy solder ​paste, instead buy some flux-paste like this on Mouser: 590-8341-10ML+To solder ​the Header to the Edge there is a wite triangle printed to the PCB on one side. This Triange has to match with the Triangle on the Header.
  
 ==== Prepare the PCB ==== ==== Prepare the PCB ====
-Start with the SMD parts and then go on the the conventional parts also on the Bottom side. +Well you should now by now how to solder Headers... :-)
-Then go on with the Topside and the LEDs. +
-Check the Connections with a Lens.+
  
 ==== Prepare the Connection ==== ==== Prepare the Connection ====
  
-Connect the core on J8/9 to J1 of the VLR-3x8But board.+Connect the SEL, Row1-8 & Row9-16 with each a DOUT Header
  
 ==== Test it in MIOS ==== ==== Test it in MIOS ====
 \\ \\
-To make it work with MIOS .NGC  File we need to know how the shift-registers are connected.\\ +I use a Encoder connected directly ​to a DIN to test
-\\ +Assuming that the DOUT is the first device on the chain of J8/9 we need to configure it like this:\\
-**Inputs:​**\\ +
-1# Switch Columns ​ 1-8\\ +
-\\ +
-**Outputs:​**\\ +
-1# ROW Outputs ​    ​1-6\\ +
-2# RED LEDs        1-8\\ +
-3# GREEN LEDs      1-8\\ +
-4# BLUE LEDs       ​1-8\\ +
-\\ +
-Assuming that the VLR-3x8But ​is the first device on the chain of J8/9 we need to configure it like this:\\+
 \\ \\
 RESET_HW\\ RESET_HW\\
 \\ \\
 LCD "​%C"​\\ LCD "​%C"​\\
-\\ 
 LCD "​@(1:​1:​1)OLED1"​\\ LCD "​@(1:​1:​1)OLED1"​\\
-LCD "​@(2:​1:​1)OLED2"​\\ 
-LCD "​@(3:​1:​1)OLED3"​\\ 
-LCD "​@(4:​1:​1)OLED4"​\\ 
-LCD "​@(5:​1:​1)OLED5"​\\ 
-LCD "​@(6:​1:​1)OLED6"​\\ 
-LCD "​@(7:​1:​1)OLED7"​\\ 
-LCD "​@(8:​1:​1)OLED8"​\\ 
-\\ 
-# In this demo we configure individual brightness levels for the LEDs from EVENT_BUTTON events\\ 
-\\ 
-LCD "​@(1:​10:​1)RGB Demo #2"\\ 
 \\ \\
-DIN_MATRIX ​ n=1  rows=4 ​ sr_dout_sel1=1 ​ sr_din1=1 ​                    ​button_emu_id_offset=1001\\ +# Test D-OUT LEDmatrix board\\
-DOUT_MATRIX n=1  rows=4 ​ sr_dout_r1=2 ​   sr_dout_g1=3 sr_dout_b1=4 ​    ​led_emu_id_offset=1025\\+
 \\ \\
-# These button functions forward their value also to LEDs\\ +DOUT_MATRIX n=1  rows=8 inverted=1 sr_dout_sel1=1 sr_dout_r1=2 ​ sr_dout_r2=3\\
-# it's possible to set the rgb levels in the button event, it will be forwarded as well!\\+
 \\ \\
-EVENT_BUTTON ​ id=1001 ​ fwd_id=LED:​1025 ​ type=NoteOn key=36 chn=1  rgb=15:0:0 lcd_pos=1:​1:​2 label="​^std_btn"​\\ +# Matrix control by a Encoder connected to DIN\\ 
-EVENT_BUTTON ​ id=1002 ​ fwd_id=LED:​1026 ​ type=NoteOn key=37 chn=1  rgb=15:0:0 lcd_pos=2:1:2 label="​^std_btn"​\\ +ENC n=1 sr=1 pins=0:1 type=detented2\\
-EVENT_BUTTON ​ id=1003 ​ fwd_id=LED:​1027 ​ type=NoteOn key=38 chn=1  rgb=15:0:0 lcd_pos=3:1:2 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1004 ​ fwd_id=LED:​1028  ​type=NoteOn key=39 chn=1  rgb=15:0:0 lcd_pos=4:​1:​2 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1005 ​ fwd_id=LED:​1029 ​ type=NoteOn key=40 chn=1  rgb=15:0:0 lcd_pos=5:​1:​2 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1006 ​ fwd_id=LED:​1030 ​ type=NoteOn key=41 chn=1  rgb=15:0:0 lcd_pos=6:​1:​2 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1007 ​ fwd_id=LED:​1031 ​ type=NoteOn key=42 chn=1  rgb=15:0:0 lcd_pos=7:​1:​2 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1008 ​ fwd_id=LED:​1032 ​ type=NoteOn key=43 chn=1  rgb=15:0:0 lcd_pos=8:​1:​2 label="​^std_btn"​\\+
 \\ \\
-EVENT_BUTTON  ​id=1009  fwd_id=LED:​1033 ​ type=NoteOn key=52 chn=1  ​rgb=0:​15:​0 lcd_pos=1:​1:​3 label="​^std_btn"​\\ +EVENT_ENC ​id= 1  fwd_id=LED_MATRIX:1   ​type=CC chn= 1 cc24  ​lcd_pos=1:​1:​label="​^std_enc" ​LED_MATRIX_PATTERN=1\\
-EVENT_BUTTON ​ id=1010 ​ ​fwd_id=LED:1034  type=NoteOn key=53 chn= ​rgb=0:​15:​0 lcd_pos=2:​1:​3 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1011 ​ fwd_id=LED:​1035  ​type=NoteOn key=54 ​chn=1  rgb=0:15:0 lcd_pos=3:​1:​3 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1012 ​ fwd_id=LED:​1036 ​ type=NoteOn key=55 chn=1  rgb=0:​15:​0 ​lcd_pos=4:1:3 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1013 ​ fwd_id=LED:​1037 ​ type=NoteOn key=56 chn= rgb=0:15:0 lcd_pos=5:​1:​3 ​label="​^std_btn"\\ +
-EVENT_BUTTON ​ id=1014 ​ fwd_id=LED:​1038 ​ type=NoteOn key=57 chn=1  ​rgb=0:​15:​0 lcd_pos=6:​1:​3 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1015 ​ fwd_id=LED:​1039 ​ type=NoteOn key=58 chn=1  rgb=0:15:0 lcd_pos=7:​1:​3 label="​^std_btn"​\\ +
-EVENT_BUTTON ​ id=1016 ​ fwd_id=LED:​1040 ​ type=NoteOn key=59 chn=1  rgb=0:15:0 lcd_pos=8:​1:​3 label="​^std_btn"​\\+
 \\ \\
-EVENT_BUTTON ​ id=1017  fwd_id=LED:​1041 ​ type=NoteOn key=68 chn=1  ​rgb=0:0:15 lcd_pos=1:1:4 label="​^std_btn"​\\ +LED_MATRIX_PATTERN n pos pattern=0000000000000000\\ 
-EVENT_BUTTON ​ id=1018  fwd_id=LED:​1042 ​ type=NoteOn key=69 chn=1  ​rgb=0:0:15 lcd_pos=2:​1:​label="​^std_btn"​\\ +LED_MATRIX_PATTERN n1  pos= 1  ​pattern=1000000000000000\\ 
-EVENT_BUTTON ​ id=1019  fwd_id=LED:​1043 ​ type=NoteOn key=70 chn=1  ​rgb=0:0:15 lcd_pos=3:​1:​4 label="​^std_btn"​\\ +LED_MATRIX_PATTERN n= 1  pos= 2  pattern=1100000000000000\\ 
-EVENT_BUTTON ​ id=1020  fwd_id=LED:​1044 ​ type=NoteOn key=71 chn=1  ​rgb=0:0:15 lcd_pos=4:1:4 label="​^std_btn"​\\ +LED_MATRIX_PATTERN n pos pattern=1110000000000000\\ 
-EVENT_BUTTON ​ id=1021  fwd_id=LED:​1045 ​ type=NoteOn key=72 chn=1  ​rgb=0:0:15 lcd_pos=5:1:4 label="​^std_btn"​\\ +LED_MATRIX_PATTERN n= 1  ​pos= 4  ​pattern=1111000000000000\\ 
-EVENT_BUTTON ​ id=1022  fwd_id=LED:​1046 ​ type=NoteOn key=73 chn=1  ​rgb=0:0:15 lcd_pos=6:​1:​4 label="​^std_btn"​\\ +LED_MATRIX_PATTERN n pos pattern=1111100000000000\\ 
-EVENT_BUTTON ​ id=1023  fwd_id=LED:​1047 ​ type=NoteOn key=74 chn=1  ​rgb=0:0:15 lcd_pos=7:​1:​4 label="​^std_btn"​\\ +LED_MATRIX_PATTERN n= 1  ​pos6  pattern=1111110000000000\\ 
-EVENT_BUTTON ​ id=1024  fwd_id=LED:​1048 ​ type=NoteOn key=75 chn=1  ​rgb=0:0:15 lcd_pos=8:​1:​4 label="​^std_btn"​\\+LED_MATRIX_PATTERN n pos pattern=1111111000000000\\ 
 +LED_MATRIX_PATTERN n= 1  ​posM  pattern=1111111100000000\\ 
 +LED_MATRIX_PATTERN n pos pattern=1111111110000000\\ 
 +LED_MATRIX_PATTERN n= 1  ​pos9  pattern=1111111111000000\\ 
 +LED_MATRIX_PATTERN n pos=10  pattern=1111111111100000\\ 
 +LED_MATRIX_PATTERN n= 1  ​pos=11  pattern=1111111111110000\\ 
 +LED_MATRIX_PATTERN n pos=12  pattern=1111111111111000\\ 
 +LED_MATRIX_PATTERN n= 1  ​pos=13  pattern=1111111111111100\\ 
 +LED_MATRIX_PATTERN n pos=14  pattern=1111111111111110\\ 
 +LED_MATRIX_PATTERN n= 1  ​pos=15  ​pattern=1111111111111111\\
 \\ \\
-Im using my VLR-8oDisp board to show the Values of every item. You can change it to any other type of Display-setting... lcd_pos=6:​1:​5 {6=Display number : 1= X-axis : 5= Y-Axis (row)}+Im using my VLR-8oDisp board to show the Values of the encoder. You can change it to any other type of Display-setting... lcd_pos=6:​1:​5 {6=Display number : 1= X-axis : 5= Y-Axis (row)}
  
 For any Comment or Question: Forum Thread??? For any Comment or Question: Forum Thread???
fadercore_-_vlr-8x16ledmeter.1406561119.txt.gz · Last modified: 2014/07/28 15:25 by novski