Benutzer:Siro/modularprojectconcept: Unterschied zwischen den Versionen

Aus LaborWiki
Wechseln zu: Navigation, Suche
K (concept idea modular i2c project)
 
KKeine Bearbeitungszusammenfassung
 
Zeile 1: Zeile 1:
== Problem ==
== Problem ==
You got a brilliant idea and want to create a new project.
You got a brilliant idea and want to create a new project.<br>
For example an Ethernet mp3 player.
For example an Ethernet mp3 player.<br>
You need:  
You need: <br>
a touchscreen
<li>a touchscreen
a keyboard
<li>a keyboard
an amplifier
<li>an amplifier
flash storage
<li>flash storage
mp3 decoder
<li>mp3 decoder
network card
<li>network card
 
<br>
For each hardware, you have to know the bus specification (bus width, controller, timings, commands, ...).
For each hardware, you have to know the bus specification (bus width, controller, timings, commands, ...).
If you need the hardware for another project you have to create a new layout, that cost time and money.
If you need the hardware for another project you have to create a new layout, that cost time and money.<br>


== Idea ==
== Idea ==


Using a modular PC like environment.
Using a modular PC like environment.<br>
Instead of using a single controller chip, I'm gonna use multiple small "slave"-chips that are connected to a "master"-chip.
Instead of using a single controller chip, I'm gonna use multiple small "slave"-chips that are connected to a "master"-chip.<br>
 
<b>Pro:</b><br>
<li>modular
<li>easy: no need to know what hardware, interface, controller, timings are connected to the slave, just give it the orders
<li>fast project setup
<br>
<b>Contra:</b><br>
<li>limited by busspeed (possible up to 1Mbit/s)
<li>multiple devices, multiple errorsources


Pro:
== Concept ==
modular
easy: no need to know what hardware, interface, controller, timings are connected to the slave, just give it the orders
fast project setup


Contra:
Using the TWI-Interface (i2c) to connect all chips.<br>
limited by busspeed
Every chip reports the master it abilities.<br>
multiple devices, multiple errorsources
Multiple layers for maximum overview and compatibility. <br>


== Concept ==


Using the TWI-Interface (i2c) to connect all chips.
Master<br>
Every chip reports the master it abilities.
|<br>
Multiple layers for maximum overview and compatibility.
|--Slave 1<br>
|&nbsp;&nbsp;&nbsp;&nbsp;|--LCD<br>
|&nbsp;&nbsp;&nbsp;&nbsp;|--keyboard<br>
|--Slave 2<br>
|&nbsp;&nbsp;&nbsp;&nbsp;|--mouse<br>
|--Slave 3<br>
|&nbsp;&nbsp;&nbsp;&nbsp;|--network interface<br>
...<br>
|--Slave n<br>
&nbsp;&nbsp;&nbsp;&nbsp;|--hardware x<br>
<br>

Aktuelle Version vom 2. Februar 2010, 13:23 Uhr

Problem[Bearbeiten | Quelltext bearbeiten]

You got a brilliant idea and want to create a new project.
For example an Ethernet mp3 player.
You need:

  • a touchscreen
  • a keyboard
  • an amplifier
  • flash storage
  • mp3 decoder
  • network card
    For each hardware, you have to know the bus specification (bus width, controller, timings, commands, ...). If you need the hardware for another project you have to create a new layout, that cost time and money.

    Idea[Bearbeiten | Quelltext bearbeiten]

    Using a modular PC like environment.
    Instead of using a single controller chip, I'm gonna use multiple small "slave"-chips that are connected to a "master"-chip.

    Pro:

  • modular
  • easy: no need to know what hardware, interface, controller, timings are connected to the slave, just give it the orders
  • fast project setup
    Contra:
  • limited by busspeed (possible up to 1Mbit/s)
  • multiple devices, multiple errorsources

    Concept[Bearbeiten | Quelltext bearbeiten]

    Using the TWI-Interface (i2c) to connect all chips.
    Every chip reports the master it abilities.
    Multiple layers for maximum overview and compatibility.


    Master
    |
    |--Slave 1
    |    |--LCD
    |    |--keyboard
    |--Slave 2
    |    |--mouse
    |--Slave 3
    |    |--network interface
    ...
    |--Slave n
        |--hardware x