HSC2011/Hardware: Unterschied zwischen den Versionen

aus Metalab Wiki, dem offenen Zentrum für meta-disziplinäre Magier und technisch-kreative Enthusiasten.
Zur Navigation springenZur Suche springen
(→‎Implementation: clifford measured send time)
Keine Bearbeitungszusammenfassung
Zeile 1: Zeile 1:
== Part list==
{|border="1" cellpadding="5" cellspacing="0" style="text-align:left;"
! Partname !! Amount !!  Position on PCB !! [[Bauteilsortiment]] !! known bugs
|- style="background:#ccc;"
| LED 5mm BLUE || 1 || D1 || -
|-
| LED 5mm GREEN || 1 || D2 || G4
|- style="background:#ccc;"
| LED 5mm YELLOW || 1 || D3 || -
|-
| LED 5mm RED || 1 || D4 || H4
|- style="background:#ccc;"
| Pushbutton || 4 || SW1, SW2, SW3, SW4 || E9
|-
| LF50CV || 1 || VREG1 || G6
|- style="background:#ccc;"
| Piezo beeper || 1 || U3 || S7
|-
| 2x16 Pol, RM 2.00|| 1 || U1 || C5  || needs 2x6 pin socket
|-
| RFM12B Radio module || 1 || U1 || K8
|- style="background:#ccc;"
| 28 PIN DIP Socket || 1 || IC4 || D9
|-
| ATMEGA328P || 1 || IC4 || -
|- style="background:#ccc;"
| 10 uF Capacitor (elko) || 1 || C4 || E0
|- 
| 22 pF Capacitor (ceramic) || 2 || C1, C2 || A2
|- style="background:#ccc;"
| 100 nF Capacitor (ceramic) || 1 || C3 || C2 || imprint unter loch
|-
| 16 Mhz Crystal || 1|| CRYSTAL1  || L0
|- style="background:#ccc;"
| 9V battery clip || 1 || JP3 || T3 || imprint  should say +/- not J3 ;)
|-
| FTDI connector || 1 || JP4 || B6
|- style="background:#ccc;"
| Resistor  100 ohm|| 1 || R10 || N1 || nicht bestücken! (R10)
|-
| Resistor 10K ohm || 1 || R9 || P3
|- style="background:#ccc;"
| Resistor 1K ohm|| 7 || R5, R6, R7, R11, R12, R13 || O2
|-
| Resistor  680 ohm|| 4 || R1,R2,R3,R4 ||  ? || am plan noch als 1k eingezeichnet
|- style="background:#ccc;"
| Resistor 4K7 ohm || 1 || R8 || -
|-
| RGB LED 5mm || 1 || D5 || -
|- style="background:#ccc;"
| Switch MIYAMA MS 245 || 1 || SW5 || S9 || connect over cable!
|}
== Specification ==
== Specification ==



Version vom 29. April 2011, 15:28 Uhr

Part list

Partname Amount Position on PCB Bauteilsortiment known bugs
LED 5mm BLUE 1 D1 -
LED 5mm GREEN 1 D2 G4
LED 5mm YELLOW 1 D3 -
LED 5mm RED 1 D4 H4
Pushbutton 4 SW1, SW2, SW3, SW4 E9
LF50CV 1 VREG1 G6
Piezo beeper 1 U3 S7
2x16 Pol, RM 2.00 1 U1 C5 needs 2x6 pin socket
RFM12B Radio module 1 U1 K8
28 PIN DIP Socket 1 IC4 D9
ATMEGA328P 1 IC4 -
10 uF Capacitor (elko) 1 C4 E0
22 pF Capacitor (ceramic) 2 C1, C2 A2
100 nF Capacitor (ceramic) 1 C3 C2 imprint unter loch
16 Mhz Crystal 1 CRYSTAL1 L0
9V battery clip 1 JP3 T3 imprint should say +/- not J3 ;)
FTDI connector 1 JP4 B6
Resistor 100 ohm 1 R10 N1 nicht bestücken! (R10)
Resistor 10K ohm 1 R9 P3
Resistor 1K ohm 7 R5, R6, R7, R11, R12, R13 O2
Resistor 680 ohm 4 R1,R2,R3,R4 ? am plan noch als 1k eingezeichnet
Resistor 4K7 ohm 1 R8 -
RGB LED 5mm 1 D5 -
Switch MIYAMA MS 245 1 SW5 S9 connect over cable!




Specification

Nodes are supposed to be equipped with:

  • RF transceiver
  • 4 buttons, labelled with digits, letters, colours (probably red / blue / green / yelow) and symbols (playstation style?)
  • a LED for each button in matching colour
  • an RGB LED
  • a buzzer
  • a 1-wire interface for authentication buttons (iButton)

For ease of development, they also get a serial interface ("FTDI cable" -- power supply + RX/TX + reset, also for flashing using a boot loader).

Implementation

Both for development and for the final version (as far as we know now), an ATMega328 is used; for development, encased in an Arduino, which also binds the RX/TX pins to a USB serial interface.

As an RF module, RFM12B is used.

The wiring is defined in an eagle file in the project repository.

RFM12B

A little very unprofessional test showed that with the current configuration (through-hole mounted RFM12B with the wire antennae bent to the opposite direction of the pins) with a sender at the whateverlab solder stations a receiver starts losing 6-long packets some steps outside the metalab door front and in the library. Even without further optimization, that should be sufficient for typical class rooms.

Experiments showed that sending a login packet takes about 10ms.