SevenSwitch 1.0

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This page describes something which is no longer the most recent version. For the replacement version see: SevenSwitch 1.1


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SevenSwitch

Release status: working

SevenSwitch 1.0 Assembled KK156.jpeg
Description
General MOSFET switch
License
Author
Contributors
Based-on
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Categories
CAD Models
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The SevenSwitch is a general MOSFET switch, useful for operating heated beds, heaters, fans and similar devices by 5 V operated electronics, like Generation 6 Electronics, RAMPS, Sanguinololu, Generation 7 Electronics and similars. The only input needed is a 5V signal. It's fast enough to run at 80 kHz PWM and strong enough to switch up to 15  Ampéres at 12 Volts.

The design follows that of the Gen7 Board, so it's easily do-it-yourselfable.


Variants

Depending on your requirements you can equip the SevenSwitch with a Molex KK156 (picture to the left) or a screw terminal device connctor (picture to the right):

SevenSwitch 1.0 Assembled KK156.jpeg SevenSwitch 1.0 Assembled ST.jpeg


How to get it

PCBs

Get SevenSwitch PCBs from RepRap DIY (Traumflug's outlet).

As the SevenSwitch, like Gen7, is designed to be manufactured on a RepRap, you can make PCBs yourself, of course. How to do this on a RepRap or a general milling machine is described on the Gen7 main page.

Yet another way is to purchase from one of the many houses specialized in manufacturing prototype PCBs. The SevenSwitch is single sided, so this won't cost a fortune. If you want to sell excess copies, plase ask Traumflug for a commercial license.

Components

Get SevenSwitch Parts Kits from RepRap DIY (Traumflug's outlet).

If you want to assemble the collection yourself, see the #Parts Lists section.

Parts Lists

To assemble or verify these lists, open the layout with gEDA/PCB and export a "BOM". This will give you a list of all required components.

Special considerations:

  • The device is connected via an Molex KK156 2-pin header or by a 2-way screw terminal. Screw terminals of that size are typically specified for 15 A. While the Molex KK156 is specified for only 4.5 A, it's often used to drive up to 12 A in the RepRap community regardless.
  • For switching loads above 5 A, a heatsink is required.
  • A funny thing is, if one asks 5 electronics engineers on what's the best MOSFET for the task, one typically gets about 10 different answers. There might be better MOSFETs, but this one is affordable and verified to work within the limits described here.

Electronic Components & Connectors

This list is ordered to match the recommended order of assembly.

Name Count Designations Vendors Remarks
Resistor 10 Ohms 1 R1 Reichelt RS
Resistor 560 Ohms 1 R2 Reichelt Völkner Farnell RS Digi-Key Mouser
Diode 1N4004 1 D1 Reichelt Völkner Farnell Digi-Key Mouser
LED 3 mm Green 1 LED1 Reichelt Völkner Farnell Digi-Key Mouser
Electrolytic Capacitor 100 uF 1 C1 Reichelt Völkner Farnell Digi-Key Mouser
Device Header Molex 26-48-1045 (2 Pin) 1 HEATER RS DigiKey Mouser
Cable Connector for the above 1 RS DigiKey Mouser
Crimp Contact for the above 2 RS DigiKey Mouser same as the one for the motor headers
Alternative to Device Header: 2 Pin Screw Terminal 1 HEATER Reichelt DigiKey Mouser
Disk Power Header 1 CONN1 Reichelt RS DigiKey Mouser also see DIY 4 pin molex connector
Molex KK100 2 Pin Header 1 CONN2 Reichelt RS DigiKey Mouser
Cable Connector for the above 1 Reichelt RS DigiKey Mouser
Crimp Contact for the above 2 Reichelt RS DigiKey Mouser
MOSFET IRFZ 44N 1 Q1 Reichelt Völkner Farnell RS Digi-Key Mouser
Heatsink for the MOSFETs 1 Reichelt RS DigiKey Mouser Please note that Reichelt ones are quite wide (18mm). Two of them won't fit.
Bolt M3 x 8 mm for mounting the MOSFET heatsink 1
Washer M3 for mounting the MOSFET heatsink 1
Nut M3 for mounting the MOSFET heatsink 1 Not needed for the Reichelt heatsinks, they come with an M3 tap already.


Assembly

  • To find out which components to put where, have the layout on your PC screen available.
  • PCBs fabricated with Voronoi paths need more heat, so raise your soldering iron's temperature by about 20 deg Celsius.
  • Start with the flattest parts, usually the resistors. This way, components won't fall out when you lay the PCB on it's front for soldering. Then continue with parts of raising height, connectors are usually among the last ones.
  • The parts lists are sorted with that in mind, simply start at the top and assemble towards the bottom.
  • To ease soldering of headers or similar components, put a small drop of cyanacrylate glue onto the component side before inserting them. As the PCB is single-sided, this won't hurt the solder point.

Caution: Don't solder MOSFETs until after the Power Supply Checks.

Assembly in Pictures

Click on the pictures to view them bigger.

As you can see, the MOSFET isn't inserted yet. We'll come back to that later.

Setup

These steps show how to get from a soldered mainboard to a working one.

Power Source

The SevenSwitch is powered by a Molex 4-pin connector, like it's found in PCs. If you use a PC power supply, simply insert a connector that fits. It can be the same supply you use for your remaining electronics or a separate one.

SevenSwitch 1.0 Power Options.jpeg
  • It's sufficient to connect one of the GND pins.
  • It doesn't matter what's on the fourth pin.

Power Supply Checks

With the power connector inserted, you can take a few measurements to make sure everything is allright.

SevenSwitch 1.0 Power Checks.jpeg

Checks:

  • No smoke? Great.
  • If you have a voltage meter, measure the voltages shown in the picture.
  • The LED should stay dark.

Insert the MOSFET

Now, with some safety tests done, it's a good time to insert the semiconductor.

  • Disconnect the power supply.
  • Solder the MOSFET with the flat side towards the outside of the board into its place. Use sufficient solder, as high currents are flowing here.
  • Mount the heatsink. The picture shows the recommended placement. The washer goes under the head of the bolt, not between MOSFET and heatsink.
  • Optionally, put some thermal paste between the MOSFET and the heatsink.
SevenSwitch 1.0 Heatsink.jpeg

Signal Source

The picture shows where to connect the GND and the signal pin. The grounds on the signal and the Molex 4-pin power connector are connected together on the board. However you can use an independant power supply different from your main system as long as the two grounds are tied together or the supply ground can float to your main system ground. There is no optical or other isolation. Remember that the fan or heater is driven in a low side switch configuration so it will have the 12V supply connected even if it is not switched on.

SevenSwitch 1.0 Signal Pins.jpeg

Prepare your Controller Firmware

How to prepare your controller electronics obviously heavily depends on your type of electronics (Gen7, Gen6, RAMPS, Sanguinololu, ...), your type of firmware (Teacup, Marlin, Sprinter, Repetier, ...) and the pin you've choosen to fetch the signal from, so I can't give detailed instructions here. Generally, the signal pin for the SevenSwitch is handled like any other pin, no special treatment needed.

The signal pin should be a digital I/O pin, preferably a PWM-able one. If you use an analog pin, make sure the firmware configures it as a digital pin.

If you've figured out how to connect your combination of electronics, firmware and signal pin, please insert your description as an example here.

A Word of Caution

If you bring the SevenSwitch to it's edge, the heatsink will become hot. Hot, like 60° C or more. The MOSFET will survive more than your fingers, in tests the heatsink got up to 110° C without blowing anything.

Circumstances rasing heatsink temperature:

  • More current.
  • Higher PWM frequency.
  • PWM loads of closer to 80%.

Countermeasures:

  • Lower PWM frequency. For example, comment out FAST_PWM in Teacup's config.h.
  • Direct a fan towards the heatsink.
  • Use a bang bang temperature control. For Teacup, also use BANG_BANG_ON = 255.

For diagrams, see Gen7 Research. SevenSwitch 1.0 uses a 10 Ω signal resistor.


Specials

Non-12-V-Voltages

The SevenSwitch will happily switch voltages below 12 Volts, even below 5 Volts. If you want to switch higher voltages, please contact the author. It likely works without modification, but I'd check this for your case, then.