Reflow oven: Difference between revisions

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* Design case for controller
* Design case for controller
* Print case
* Print case
* Create manual
* <s>Create manual<s/>
* Design proper probe
* Design proper probe
* Build proper probe
* Build proper probe
* Include stuff from [[Reflowoven]] and throw that page away
* Include stuff from [[Reflowoven]] and throw that page away

Revision as of 17:19, 29 March 2015

Reflow oven
Reflowoven.jpg
Participants
Skills
Status Active
Niche Electronics
Purpose Infrastructure
Tool Yes
Location Soldering Table
Cost
Tool category Electronics

Reflow oven

reflowoven.jpg {{#if:Yes | [[Tool Owner::{{{ProjectParticipants}}} | }} {{#if:Yes | [[Tool Cost::{{{Cost}}} | }}


DIN 4844-2 Warnung vor heisser Oberflaeche D-W026.svg Hot surface
  • NL: Heet oppervlak


DIN 4844-2 Warnung vor gef el Spannung D-W008.svg Danger! Danger! High Voltage!
  • NL: Hoogspanning


Description

In order to assemble our own SMD boards, we need something to solder SMD. What is commonly used is a technique called reflowing. With reflowing, solder paste is applied to the to be soldered pads, the devices are mounted and the board is placed inside an oven.

The general idea is to heat the board up to a point where the solder paste liquifies, and forms a metallurgical bond between the pads and the pins of the devices. When the oven reaches 250 degrees, the oven shuts off and the solder becomes solid again, fixating the devices to the board.

The reflow process goes through a heating profile that consists of 4 stages.

  1. Pre-heat until 150 deg/c. The oven warms up
  2. Soak until 200 deg/c. The heat is allowed time to soak into the board and the devices.
  3. Reflow until 250 deg/c. In this stage the solder melts and does what it needs to do to make a bond.
  4. Cooldown. At 250 deg/c the reflow process stops and the board is allowed to cool down. At a certain point the solder becomes solid and the process is complete.

How to use

  1. Make sure the tip of the probe is lodged within one of the holes of the supplied Protoboard. The reason for this is that it'll measure the temperature of the copper rather than the temperature of the air.
  2. Hook the device up to the power supply.
  3. Turn it on by pressing the button left of the screen.
  4. Open door
  5. Place your object into to the oven.
  6. Place probe next to oven
  7. Close door
  8. Start reflow process by pressing one of the bottom buttons (not sure which one of two)



Parts

  • Tiny oven
  • K-type thermocouple
  • Arduino UNO
  • Reflow controller shield [1]
  • Header pins
  • Solid State Relais (SSR)


TODO

  • Order parts
  • Assemble SSR
  • Solder headers to reflow shield
  • Assemble controller
  • Test. Works!
  • Design case for controller
  • Print case
  • Create manual
  • Design proper probe
  • Build proper probe
  • Include stuff from Reflowoven and throw that page away