Difference between revisions of "PracticalTheExpandedToolbox/Lab2"

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File:One half atari punk console panel.pdf|Panel with 6 boards for printing (100x160 PDF)
 
File:One half atari punk console panel.pdf|Panel with 6 boards for printing (100x160 PDF)
 
</gallery>
 
</gallery>
 +
 +
== Components ==
 +
You will find the following components in the circuit:
 +
 +
There are two main types of component mounting: DIP<ref>https://en.wikipedia.org/wiki/Dual_in-line_package</ref> (also known as through hole) and SMD<ref>https://en.wikipedia.org/wiki/Surface-mount_technology</ref>.
 +
 +
* DIP or through hole components have ''legs'' you stick through holes in the PCB. You solder the legs to the bottom side of the PCB.
 +
* SMD components have legs you solder on the component side of the PCB. Hence you do not need to drill any holes. This method of mounting components is the standard way these days as components can be much smaller and fabrication is cheaper (less drilling and plating of holes). Many more advanced components only come in SMD packages so it is a valuable skill to be able to work with and solder these components. However, as SMD components are usually meant to be mounted by machines some are difficult or too small to do by hand, so when looking for components be sure to carefully check which package you select. A good overview of package types, sizes and names can be found on Wikipedia: https://en.wikipedia.org/wiki/Surface-mount_technology#Packages
 +
<br/>
 +
 +
=== 555 Timer ===
 +
The 555 timer is a very versatile chip. It can be used to create sound (like in this Lab), blink lights, fade lights, turn things on for a short or long time many more. Many things you would want to use e.g. an Arduino for can be solved by this little chip alone or in combination some other circuits resulting in a much smaller and cheaper solution!
 +
 +
The 555 timer chip, like many other chips come in a variety of packages. The most common for this chip are DIP and SOIC. We will use the SOIC version in this lab.
 +
 +
<gallery>
 +
Image:Signetics NE555N.JPG|DIP
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Image:555.jpg|SOIC8 (we will use this one)
 +
</gallery>
 +
<br/>
 +
=== Resistor ===
 +
The resistors we will use are 3216 (1206 imperial) size resistors. This means these are 3.2mm long and 1.6mm wide. There are a variety of sizes available<ref>https://en.wikipedia.org/wiki/Surface-mount_technology#Rectangular_passive_components</ref>. For hand soldering I would not recommend to smaller than 1608 (0603 imperial) although 1005 (0402 imperial) is still possible with some practice. Anything smaller is only practical for machine assembled boards.
 +
 +
<gallery>
 +
Image:330px-SMT_sizes,_based_on_original_by_Zureks.svg.png|resistor and capacitor sizes
 +
Image:1206 resistor.jpg|A 3216 size resistor as we used in the lab
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</gallery>
 +
 +
The resistors have a marking on them indicating the resistance value in Ohms<ref>https://en.wikipedia.org/wiki/Surface-mount_technology#Resistors</ref>. The resistors we use have a 3 digit marking: two significant digits and a multiplier. This means you can read the first two digits as you would normaly, the last digit tells you how many zeros to add:
 +
 +
* 220 would mean a 22 and 0 zeros or 22 Ohm
 +
* 221 would mean a 22 and 1 zeros or 220 Ohm
 +
* 222 would mean a 22 and 2 zoros or 2200 Ohm or 2.2 kilo Ohm or 2.2k
 +
* 223 would mean a 22 and 3 zeros or 22000 or 22 kilo Ohm or 22k
 +
* 224 would mean a 22 and 4 zeros or 220000 or 220 kilo Ohm or 220k
 +
* etc.
 +
 +
There is also a special type which is indicated as '''0R''', this is a zero ohm resistor. It is often used as wire bridge or as ''placeholder'' if there may be the possibility a real resistor is needed at some point.
  
 
= References =
 
= References =
 
<references />
 
<references />

Revision as of 22:31, 30 May 2016

Lab2: Making a circuit

Introduction

Circuits can be made in many different ways. During class we've seen:

  • breadboard[1]
  • dead bug style[2]
  • wire wrapping[3]
  • prototype board (e.g. perfboard or stripboard)[4]
  • volumetric circuits[5][6]
  • Etching a Printed Circuit Board (PCB)[7][8].

There are still other ways of making circuits, for example using the vinyl cutter to cut copper traces, using conductive fabric, etc. A nice overview of other alternative methods you can find at the great website of KobaKant: How To Get What You Want. Besides a lot of other interesting stuff (browse through it!!) the traces making sections you can find here: Kobakant section on Traces.

It is even possible to (almost) entirely knit your circuit: The Knitted Radio, Drapery FM.

In this lab you will be making a circuit with your preferred method with exception of the breadboard.

The circuit

Components

You will find the following components in the circuit:

There are two main types of component mounting: DIP[9] (also known as through hole) and SMD[10].

  • DIP or through hole components have legs you stick through holes in the PCB. You solder the legs to the bottom side of the PCB.
  • SMD components have legs you solder on the component side of the PCB. Hence you do not need to drill any holes. This method of mounting components is the standard way these days as components can be much smaller and fabrication is cheaper (less drilling and plating of holes). Many more advanced components only come in SMD packages so it is a valuable skill to be able to work with and solder these components. However, as SMD components are usually meant to be mounted by machines some are difficult or too small to do by hand, so when looking for components be sure to carefully check which package you select. A good overview of package types, sizes and names can be found on Wikipedia: https://en.wikipedia.org/wiki/Surface-mount_technology#Packages


555 Timer

The 555 timer is a very versatile chip. It can be used to create sound (like in this Lab), blink lights, fade lights, turn things on for a short or long time many more. Many things you would want to use e.g. an Arduino for can be solved by this little chip alone or in combination some other circuits resulting in a much smaller and cheaper solution!

The 555 timer chip, like many other chips come in a variety of packages. The most common for this chip are DIP and SOIC. We will use the SOIC version in this lab.


Resistor

The resistors we will use are 3216 (1206 imperial) size resistors. This means these are 3.2mm long and 1.6mm wide. There are a variety of sizes available[11]. For hand soldering I would not recommend to smaller than 1608 (0603 imperial) although 1005 (0402 imperial) is still possible with some practice. Anything smaller is only practical for machine assembled boards.

The resistors have a marking on them indicating the resistance value in Ohms[12]. The resistors we use have a 3 digit marking: two significant digits and a multiplier. This means you can read the first two digits as you would normaly, the last digit tells you how many zeros to add:

  • 220 would mean a 22 and 0 zeros or 22 Ohm
  • 221 would mean a 22 and 1 zeros or 220 Ohm
  • 222 would mean a 22 and 2 zoros or 2200 Ohm or 2.2 kilo Ohm or 2.2k
  • 223 would mean a 22 and 3 zeros or 22000 or 22 kilo Ohm or 22k
  • 224 would mean a 22 and 4 zeros or 220000 or 220 kilo Ohm or 220k
  • etc.

There is also a special type which is indicated as 0R, this is a zero ohm resistor. It is often used as wire bridge or as placeholder if there may be the possibility a real resistor is needed at some point.

References