Difference between revisions of "Soldering Irons"

"PCB Lab and The Hub" is not in the list (Computer Lab, Finishing Room, Machine Shop, Meeting Rooms, PCB Lab, Prototype Lab, The Hub, The Vault, Tool Room, Welding Shop, ...) of allowed values for the "Is located in facility" property.

Make: Weller

Model: WES51

Ace: Karson Rhoads (krhoads20@georgefox.edu).

Location: PCB Lab, The Hub

Description

Soldering is a process in which two or more items (usually metal) are joined together by melting and putting a filler metal (solder) into the joint, the filler metal having a lower melting point than the adjoining metal. Soldering differs from welding in that soldering does not involve melting the work pieces. In brazing, the filler metal melts at a higher temperature, but the work piece metal does not melt. In the past, nearly all solders contained lead, but environmental and health concerns have increasingly dictated use of lead-free solder for electronics and plumbing purposes.

Here is an example of this piece of equipment being used.

Insert video media here.

Documentation

Terminology

• 

  Soldering Tip

• 

  Solder

• 

  Flux

User Manual

Training

Overview

The Soldering Iron is an amazing tool that allows us to construct circuits with sturdy connections between components. The detailed steps to do this can be found in videos on the Description section.

Demonstration

Before using a Soldering Station, students will need to read some documentation, watch some videos, and pass a quiz on Foxtale. Upon completion, students will be given the following PCB and components to assemble the circuit below. Upon completion, they will have the PCB Lab volunteers assess their work and confirm operation. The deliverable will include a video of the working device and a crisp "Thumbs Up" from the PCB Lab Volunteer to assure that the student successfully completed the task.

• 

  PCB

• 

  555 timer

• 

  1 KΩ resistor

• 

  470 KΩ resistor

• 

  1 μF capacitor

• 

  red LED

• 

  9V Battery connector

• 

  Completed PCB

General Procedure

1. First things first, you need to learn how to use the soldering irons! Soldering is not difficult, but understanding some basic concepts will go a long way toward a successful experience. As part of your training, you will need to read some documentation and watch some videos.
2. After scouring the web for examples of soldering training, we really liked the lessons captured in the PACE series, despite the fact that they were filmed in the 80's. These videos are well produced (for something possibly older than your parents) and have a lot of good information. The quizzable information is in the very first, fifth, and sixth videos, but the other videos have great examples of good and bad soldering joints. <!== Another more modern video from Beauty and the Bolt is also insightful. TThis video is a little more modern, and a good resource, but not as technically interesting. It talks a bit about desoldering as well as soldering wires together and how to use heat shrink and electrical tape. A more modern series is available from Howcast. It wouldn't hurt at all to watch this series, but we will just focus on a couple for the quiz. Finally, there is an official training video from the Maker Hub that is tailored to our specific space and equipment. This video will give you the information you need to perform the live solder demonstration required for your soldering certification.
3. This nostalgic set of videos from PACE are quite old, but surprisingly still quite relevant. The style makes you think that you will be getting ready to watch an old Disney cartoon - you aren't. Don't get disappointed.
4. Basic Soldering Lesson 1: This is by far the longest of the videos at (20:44), but also packed with the most pertinent information. It provides great background on solder, flux, wetting, and then mechanics of the iron and the joint. We do not have the student handbook that is mentioned. We suspect that you can manage without that. Here are some key ideas that you should watch for:
   1. What is solder? What temperatures do the different solders melt at?
   2. What is flux?
   3. What is wetting?
   4. What are the different aspects of a soldering iron?
5. Basic Soldering Lesson 2-5: These videos are worth watching, but they are not essential for this training.
   1. Basic Soldering Lesson 2 - "Soldering To PCB Terminals" (6:50)
   2. Basic Soldering Lesson 3 - "Cup Terminals" (4:19)
   3. Basic Soldering Lesson 4 - "Bifurcated Terminals" (2:45)
   4. Basic Soldering Lesson 5 - "Hook and Pierced Terminals" (1:19)
6. Basic Soldering Lesson 6: Good explanation of a "semi-clenched" method for soldering an axial-lead component. This technique allows the component to be held in place for soldering without any extra tape or glue (or a potentially burnt finger).
7. Basic Soldering Lesson 7: Applying the "clenching" idea to an IC. Typically, we will not use this technique, but will instead hold the part and "tack" these same leads with solder - just to hold it. The rest of the video has great examples of IC's being soldered.
8. Basic Soldering Lesson 8-9: We don't normally see too many of these any more, but again, nice examples of good joints that are similar to components we still use. Rather than flatpack or planar components, we generally use "surface-mount" now. But, the soldering part is still useful to watch. The techniques are similar. Our PCB's will generally come "pre-tined" and the component leads are already bent, but the rest of the soldering is the same.
   1. Basic Soldering Lesson 8 - "Integrated Circuits" (1:16)
   2. Basic Soldering Lesson 9 - "Integrated Circuits: The Flatpack & Other Planar-mounted Components" (6:20)
9. Howcast How to Solder: This set of videos from Howcast is worth watching, but we will only highlight a couple of them here that talk about removing solder.
10. How to Remove Solder
11. How to Remove Through-Hole Components
12. Maker Hub Video: This video contains specific information for soldering in the Maker Hub as well as a basic overview of what will be expected in your live demonstration.
14. Acquire a soldering station. For this procedure, this particular station will be referenced, the Weller WES51.
    
15. You can power it on using the switch on the left and control the temperature in °F using the temperature knob on the right. 650-750 °F is a good temperature range to keep it at. When the light is solid green, the iron is not heated up yet. When it is heated to the temperature you set on the temperature knob, it will start blinking green.
16. Before you begin using the soldering iron, wet the sponge! Take it to a sink and drench that boi. This is used to clean the soldering iron continually during use. If you don't make it wet, it will burn up the sponge and smell/look gross, and it won't clean the soldering iron.
17. Now you're ready to use the soldering iron! Refer to the videos in times of doubt.
18. Don't forget to complete that video checking off your board!

Safety

1. Soldering Irons can get up to 1000 °F. This is really hot, so do not touch it. Any metal thing on the iron is hot. Be sure to hold the iron like a pencil, and ONLY hold it by the handle.
2. If you get burnt, immediately place the burn under cold running cold water for a while. This keeps it from blistering.
3. When not in use, turn off the soldering iron. There's no need to have it blistering hot when it is not being used.

Certification

https://foxtale.georgefox.edu/moodle/mod/quiz/view.php?id=693215

Foxtale Quiz

Troubleshooting

There are two things in particular that could keep you from successfully soldering: an untinned tip and a loose tip. If the tip is not shiny silver, then place a little solder on the tip and wipe it on the sponge. Some soldering irons allow there tips to be replaced for the sake of having different shapes. If the iron is not heating up and you are using this type of iron, it is possible that the tip is not inserted into the iron fully. To fix this, grab some pliers, grip the shaft and push it in fully.

Maintenance

General maintenance

Insert text

Specific Maintenance Tasks

Maintenance Procedure	Frequency	Done By
Sample	Sample	Sample

Soldering is a process in which two or more items (usually metal) are joined together by melting and putting a filler metal (solder) into the joint, the filler metal having a lower melting point than the adjoining metal. Soldering differs from welding in that soldering does not involve melting the work pieces. In brazing, the filler metal melts at a higher temperature, but the work piece metal does not melt. In the past, nearly all solders contained lead, but environmental and health concerns have increasingly dictated use of lead-free solder for electronics and plumbing purposes.

The current Ace of the Soldering Irons is Karson Rhoads (krhoads20@georgefox.edu).

Maker Hub Soldering Irons

• Weller WES51

The Weller irons use a resistive tip to generate heat. By varying the power through the tip, the temperature can be controlled. The Metcal uses an inductive tip that is tuned to be at one temperature. Important Note: One should never use the abrasive tip tinner on the Metcal tips. This can damage them.

Solders

There are different types of solder available in the Maker Hub. The standard hand solder that is used is a 60/40 blend. When using solder paste, we typically use a 63/37 variety.

Documentation

• Better Soldering Booklet

Training

Soldering is not difficult, but understanding some basic concepts will go a long way toward a successful experience. As part of your training, you will need to read some documentation and watch some videos.

Videos

After scouring the web for examples of soldering training, we really liked the lessons captured in the PACE series, despite the fact that they were filmed in the 80's. These videos are well produced (for something possibly older than your parents) and have a lot of good information. The quizzable information is in the very first, fifth, and sixth videos, but the other videos have great examples of good and bad soldering joints. <!== Another more modern video from Beauty and the Bolt is also insightful. TThis video is a little more modern, and a good resource, but not as technically interesting. It talks a bit about desoldering as well as soldering wires together and how to use heat shrink and electrical tape. ==>

A more modern series is available from Howcast. It wouldn't hurt at all to watch this series, but we will just focus on a couple for the quiz.

Finally, there is an official training video from the Maker Hub that is tailored to our specific space and equipment. This video will give you the information you need to perform the live solder demonstration required for your soldering certification.

PACE Basic Soldering Series

This nostalgic set of videos from PACE are quite old, but surprisingly still quite relevant. The style makes you think that you will be getting ready to watch an old Disney cartoon - you aren't. Don't get disappointed.

Basic Soldering Lesson 1

This is by far the longest of the videos at (20:44), but also packed with the most pertinent information. It provides great background on solder, flux, wetting, and then mechanics of the iron and the joint. We do not have the student handbook that is mentioned. We suspect that you can manage without that. Here are some key ideas that you should watch for:

• What is solder?
  • What temperatures do the different solders melt at?
• What is flux?
• What is wetting?
• What are the different aspects of a soldering iron?

Basic Soldering Lesson 2-5

These videos are worth watching, but they are not essential for this training.

• Basic Soldering Lesson 2 - "Soldering To PCB Terminals" (6:50)
• Basic Soldering Lesson 3 - "Cup Terminals" (4:19)
• Basic Soldering Lesson 4 - "Bifurcated Terminals" (2:45)
• Basic Soldering Lesson 5 - "Hook and Pierced Terminals" (1:19)

Basic Soldering Lesson 6

Good explanation of a "semi-clenched" method for soldering an axial-lead component. This technique allows the component to be held in place for soldering without any extra tape or glue (or a potentially burnt finger).

Basic Soldering Lesson 7

Applying the "clenching" idea to an IC. Typically, we will not use this technique, but will instead hold the part and "tack" these same leads with solder - just to hold it. The rest of the video has great examples of IC's being soldered.

Basic Soldering Lesson 8-9

We don't normally see too many of these any more, but again, nice examples of good joints that are similar to components we still use. Rather than flatpack or planar components, we generally use "surface-mount" now. But, the soldering part is still useful to watch. The techniques are similar. Our PCB's will generally come "pre-tined" and the component leads are already bent, but the rest of the soldering is the same.

• Basic Soldering Lesson 8 - "Integrated Circuits" (1:16)
• Basic Soldering Lesson 9 - "Integrated Circuits: The Flatpack & Other Planar-mounted Components" (6:20)

Howcast How to Solder

This set of videos from Howcast is worth watching, but we will only highlight a couple of them here that talk about removing solder.

How to Remove Solder

How to Remove Through-Hole Components

Maker Hub Video

This video contains specific information for soldering in the Maker Hub as well as a basic overview of what will be expected in your live demonstration.

Certification

FoxTale Course

To obtain certification for using the soldering irons in the Maker Hub, you will need to complete the Foxtale course: Maker Hub - Soldering Iron. This course contains a quiz with questions from the videos. When the quiz has been completed, you can sign up to perform the soldering demonstration.

Demonstration

For the live demonstration you will receive a small PCB and a few components and will be required to solder the components to the circuit board. The circuit kit contains a 555 timer IC, 3 resistors, a capacitor, and LED, and a 9V battery connector. When completed, the system will slowly blink the LED. The schematic of the circuit is shown below. To find pin 1 of an IC, reference the internet.

Components

• 

  PCB

• 

  555 timer

• 

  1 KΩ resistor

• 

  470 KΩ resistor

• 

  1 μF capacitor

• 

  red LED

• 

  9V Battery connector

• 

  Completed PCB

Schematic

.