File:Lettre F.jpg | Fixme Display - lettre F - Orcad
File:Lettre_I.jpg | Fixme Display - lettre I - Orcad
File:Lettre X.jpg | Fixme Display - lettre X - Orcad
File:Lettre M.jpg | Fixme Display - lettre M - Orcad
File:Lettre E.jpg | Fixme Display - lettre E - Orcad
</gallery>
R_{LED_R}=\frac{U_r}{I}=\frac{V_{DD}-U_{LR}}{I}=\frac{3.3V-1.8V}{10mA}
</math>
= ''' 150 ohm Ω '''
* power dispersed by the resistance P_R_LED_R :
<math>
R_{LED_O}=\frac{U_r}{I}=\frac{V_{DD}-U_{LO}}{I}=\frac{3.3V-1.9V}{10mA}
</math>
= ''' 140 ohm Ω'''
* power dispersed by the resistance P_R_LED_O :
<math>
R_{LED_G}=\frac{U_r}{I}=\frac{V_{DD} - U_{LG}}{I}=\frac{3.3V-2.2V}{10mA}
</math>
= ''' 110 ohm Ω '''
* power dispersed by the resistance P_R_LED_G :
<math>
RIN_{low} = \frac{VDD_{low}}{I_L} = \frac{0.66}{2u}
</math>
= ''' 330 kohmskΩ'''
* Resitor Pull-Up MAX :
R_{Pull-Up_{max}} = \frac{VDD - VDD_{low}}{I_L} = \frac{3.3 - 0.66}{2u}
</math>
= ''' 1.32 MohmsMΩ'''
''Remark'' : the resistor must be more less that the R_PULL-UP_max - usually, the value of 10kohm is using for the resistor pull-up.
=== Datas ===
* U_POW = Vcc = 12V DC --> choice concerning the power supply of LED segments* U_LED = 2V DC --> voltage on once leds * U_SEG = 5*U_LED = 5*2V = 10V --> voltage on once segment * I_LED = 20mA --> current use by once led
=== Calculation ===
==== Resistor in end line for vertical sgement ====
if the segment is alone, the end line resistor is of (example each element of the X letter) :
<math>R_{1Seg} = \frac{Vcc - U_{seg}}{I_{LED}} = \frac{12V - 10V}{20mA}</math>= '''100 Ω''' Power dissipated by the resistor Rseg: <math>P_{R_{1Seg}} = R_{1Seg} \cdot I_{Led}^2 = 100 \cdot (20mA)^2 </math>= '''40 mW''' The choice for the resistor(s) value is : '''100 Ω 1/4W''' if the segments are linked by two, the end line resistor is of (example for the F, I, M, E letters) : <math>R_{1Seg} = \frac{Vcc - U_{seg}}{I_{LED_{Seg1}} + I_{LED_{Seg2}}} = \frac{12V - 10V}{20mA + 20mA}</math>= '''50 Ω''' Power dissipated by the resistor Rseg: <math>P_{R_{1Seg}} = R_{1Seg} \cdot (2*I_{Led})^2 = 100 \cdot (40mA)^2 </math>= '''80 mW''' The choice for the resistor(s) value is : '''51 Ω 1/4W''' ==== Resistor in end line for horizontal sgement ====if the segment is alone , the end line resistor is of (example each element of the M letter) : <math>R_{1LED} = \frac{Vcc - U_{seg_{LED}}}{I_{LED}} = \frac{12V - 2V}{20mA}</math>= '''500 Ω''' Power dissipated by the resistor R_LED: <math>P_{R_{1LED}} = R_{1LED} \cdot I_{Led}^2 = 500 \cdot (20mA)^2 </math>= '''200 mW''' The choice for the resistor(s) value is : '''510 Ω 1/4W''' if the segments are linked by two, the end line resistor is of (example for the F letter) : <math>R_{LEDs} = \frac{Vcc - U_{LED}}{I_{LED1} + I_{LED2}} = \frac{12V - 2V}{20mA + 20mA}</math>= '''250 Ω''' Power dissipated by the resistor RLED_2: <math>P_{R_{LEDs}} = R_{LEDs} \cdot (2*I_{Led})^2 = 250 \cdot (40mA)^2 </math>= '''400 mW''' The choice for the resistor(s) value is : '''270 Ω 1/2W''' if the segments are linked by three, the end line resistor is of (example for the E letter) : <math>R_{LEDs} = \frac{Vcc - U_{LED}}{I_{LED1} + I_{LED2} + I_{LED3}} = \frac{12V - 2V}{20mA + 20mA +20mA}</math>= '''167 Ω''' Power dissipated by the resistor RLED_3: <math>P_{R_{LEDs}} = R_{LEDs} \cdot (3*I_{Led})^2 = 250 \cdot (60mA)^2 </math>= '''601,2 mW'''
<math> R_{1Seg} = \frac{U}{I} </math>The choice for the resistor(s) value is : '''180 Ω 1W'''
= Layout =
== Cross Fire Part ==
{| class="BOM wikitable" style="text- Feux tricolor Partalign:center;"
|+ BOM for the Feux Tricolor
|-
== LED DISPLAY FIXME ==
{| class="BOM wikitable" style="text- Feux tricolor Partalign:center;" |+ BOM for the Feux Tricolor FIXME Display
|-
! scope="col" | Designation
! scope="col" | Type de boitier
! scope="col" | Nb de composants
! scope="col" | Fournisseur
|-
| MULTI LEDS (5 led par boitier) L-132CB
| 35mm x 6.1mm
| 21
| Farnell
| 3.75 CHF/pieces
|-
|DEMULTIPLEXEUR SIMPLE - CBT3251PW | TSSOP-16 | 4 | Farnell | 2445292 | 0.2 CHF/pieces
|-
| Transistor MOSFET - FDD3N40TM | TO-252AA | 29 | Farnell | 2453399 | 0.6 CHF/pieces
|-
| Connecteur BASSE TENSION - MJ-179PH | - | 1 | Farnell | 1737246 | 1.2 CHF/pieces
|-
| Condensateur SMD 100nF/16V - CC0805KRX7R7BB104 | 0805 | 4 | Farnell | 644160 | 0.45 CHF/10x pieces min
|-
| Resistance SMD 51o/1/4W - WR12X51R0FTL | 1206 | 5 | Farnell | 2502655 | 0.25 CHF/50x pieces min
|-
| Resistance SMD 270o/1/2W - ERJP6WF2700V | 0805 | 5 | Farnell | 2253894 | 0.70 CHF/5x pieces min
|-
| Resistance SMD 100o/1/4W - ERJP6WF2700V | 0805 | 4 | Farnell | 2502669 | 0.30 CHF/100x pieces min
|-
| Resistance SMD 510o/1/4W - WR08X5100FTL | 0805 | 10 | Farnell | 2502738 | 0.30 CHF/100x pieces min
|-
| Resistance SMD 180o/1W - ERJB1AF181U | 2010 | 5 | Farnell | 2293954RL | 0.45 CHF/150x pieces min
|-
| Diode 20V/2A - PMEG2010EA |SOD- 323 | 1 | Farnell | 2319120 | 0.2 CHF
|}
A venir
= Assembly =
* datasheet on DEMUX 1:8 -> NXP -> CBT3251 [[File:CBT3251.pdf]]
* datasheet on MOSFET Canal P -> Faishild -> FDD3N40 [[File:MOSFET_P_FDD3N40.pdf]]
* datasheet on MOSFET Canal P the LED Barre -> OPTO IMAGE -> L-132CB ou BA0520HR5A [[File:LED L-132CB.pdf]]* datasheet on Diode -> NXP -> PMEG2010EA,115 [[File:Diode.pdf]]
== required links ==