Adding USB-C To The TS100, But Not How You Think

December 26, 2019 by Lewin Day 11 Comments

USB-C has its special Power Delivery standard, and is capable of delivering plenty of juice to attached hardware. This has led many to modify their TS-100 soldering irons to accept the connector. [Jana Marie] is the latest, though she’s taken rather a different tack than you might expect.

[Jana] didn’t want to modify the original hardware or hack in an adapter. Instead, she struck out on her own, developing an entire replacement PCB for the TS-100 iron. The firmware is rough and ready, and minimal work has been done on the GUI and temperature regulation. However, reports are that functionality is good, and [Jana]’s demonstration shows it handling a proper desoldering task with ease.

Files are on Github for those that wish to spin their own. The PCB is designed to snap neatly inside the original case for a nice fit and finish. Power is plentiful too, as the hardware supports USB Power Delivery 2.0, which is capable of running at up to 100 W. On the other hand, the stock TS-80 iron, which natively supports USB-C, only works with Quick Charge 3.0, and thus is limited to a comparatively meager 36 W.

We’ve seen plenty of TS-100 hacks over 2019. Some have removed the standard barrel jack and replaced it with a USB-PD board. Meanwhile, others have created adapters that plug in to the back of the iron. However, [Jana] is dictating her own terms by recreating the entire PCB. Sometimes it pays to go your own way!

[Thanks to elad for the tip!]

3D Printing New Cases For The TS100 Soldering Iron

October 28, 2019 by Tom Nardi 9 Comments

About a year back, [BogdanTheGeek] found himself in need of a new case for this TS100 soldering iron. Unfortunately, while the product is often billed as being open source friendly (at least in the firmware sense), he was surprised to discover that he couldn’t find the detailed dimensions required to 3D print his own replacement case. So he took it upon himself to document the case design and try to kick off a community around custom enclosures for the popular portable iron.

The main goals while designing the replacement case was to make it printable without support, and usable without additional hardware. He also wanted it to be stronger than the original version, and feature a somewhat blockier design that he personally finds more comfortable. The case was designed with PLA in mind, and he says he’s had no problems with the lower-temperature plastic. But if you’re still concerned about the heat, PETG would be an ideal material to print yours in.

It took him many attempts to get the design to where it is today, and still, there are improvements he’d like to make. For one, there’s no protective cover over the iron’s OLED screen. He’d also like to make the switch from SolidWorks over to FreeCAD so the project is a bit more accessible, and says he’d appreciate anyone who wants to chip in. We’re excited to see what develops once the hacking world realizes that there are accurate open source CAD files for the TS100 floating around out there.

Our very own [Jenny List] put the TS100 through its paces not so long ago, and found a decidedly solid little tool. While it won’t replace your high-end soldering station, it’s very convenient for quick repairs and simple tasks, especially if you find yourself away from the workbench proper.

Soldering Your Own Soldering Iron

October 6, 2019 by Sharon Lin 14 Comments

A device that even DIY enthusiasts don’t usually think to DIY is the humble soldering iron. Yet, that’s exactly what one Hackaday.io user did by building a USB-powered soldering pen with better performance than a $5 Chinese soldering pen.

The project draws inspiration from another Weller RT tip-based soldering pen by [vlk], although this project has a simpler display than an OLED. Slovakia-based maker [bobricius] was inspired by the DiXi ATSAMD11C14-based development board. The project uses the same 32-bit ATMEL ARM microcontroller with a USB bootloader, which makes updating the firmware a lot easier.

Two buttons control the heat (+/-) and the jack for the Weller RT soldering tip controls the power out with PWM. For the display, 20 Charlieplexed 3014 LEDs are used to show the temperature from 0-399. The last missing LED is left out since 5 GPIO pins can only drive 20 LEDs.

Assuming that the main heating controls stay the same as [vlk]’s project, the pen uses a current sensor and heating controller for PID control of a heating module, which connects to the SMT connector for the Weller RT soldering iron tip. The temperature sensor uses a an op-amp for amplification of the signal from a type K thermocouple.

While there aren’t currently GERBER files for the PCB yet, the project is based on the open-source OLED display soldering pen project by [vlk], whose schematic for the device is published.

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The Miniware TS100 As A USB-C Soldering Iron

September 22, 2019 by Jenny List 12 Comments

Many readers will be familiar with the Miniware TS100 soldering iron, a lightweight temperature-controlled iron that is giving significantly more expensive soldering tools a run for their money. There is another model in the range, the TS80, which though it uses different tips than its sibling has the main distinguishing feature of USB-C power rather than a DC barrel jack. A cadre of users still prefer the TS100 for this reason, as an iron that can run from almost any low voltage DC power source. Any except USB-C, that is, an omission that [thinkl33t] has rectified with a USB-C adapter for the older model.

To achieve this, he’s used a readily-available ZYPDS USB-to-DC module and attached it to a barrel jack. For now, it’s simply held on by solder with a bit of heat-shrink over the top. [Thinkl33t] observes that this may not prove to be strong enough and he’ll eventually have to put it on a bit of cable. It’s a simple enough hack, but it serves as a quick introduction to these parts which perform the necessary USB-C magic to deliver a DC supply, as well as to highlight the relative scarcity of higher-power USB supplies.

At the moment there’s an inevitable move to USB-C All The Things, but it’s a trend that it seems many manufacturers of power sources have yet to catch up with. When a typical TS-80 owner finds their shiny new USB-C battery bank is, in reality, an older 5V USB bank with a USB-C connector fitted, it’s no wonder that their friends prefer the TS100. We hope that coming years will see a greater range of USB-C power options, but until then we like the versatility of the barrel jack on the TS100. Especially now that it can so readily be made to take USB-C power.

We reviewed the TS100 back in 2017, and two years of using it since then have not changed our opinion of it.

Thanks to the several tipsters including [thinkl33t] himself who sent us this.

Solder Ninja Dabbles In USB Power Arcana

September 9, 2019 by Lewin Day 22 Comments

USB first hit the scene in the 1990s, and was intended to simplify connecting peripherals to PCs and eliminate the proliferation of various legacy interfaces. Over 20 years later, it’s not only achieved its initial goals, but become a de facto standard for charging and power supply for all manner of personal electronic gadgets. If you asked someone back in 1995 whether or not you could build a USB-powered soldering iron, they’d have politely asked you to leave the USB Implementers Forum. But times change, and Solder Ninja is just that!

With a maximum power draw of 40 W, the Solder Ninja required careful design to ensure practicality. It supports a variety of USB power standards, including USB-BC 1.2, USB Quick Charge, and USB Power Delivery. This enables it to draw the large amounts of current required for the heating element. To make it easy to use with a variety of chargers out in the wild, it displays the current negotiated voltage and maximum current draw. This enables the user to understand the varying performance of the device, depending on the charger it’s plugged into.

Given the multitude of different USB power standards, we imagine [Nicolas] has the patience of a saint to perfect a project like this. We’ve seen similar builds before, too. Video after the break.

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Field Expedient Soldering Iron Will Do In A Pinch

August 8, 2019 by Al Williams 16 Comments

If you think [Dubious Engineering]’s moniker is just a name, have a look at the pretty terrible soldering iron hacked out of a lighter in the video below. No one is suggesting this is a good idea but in an emergency, maybe it would come in handy. We liked the use of a chopstick and the formation of a heat exchanger with the copper wire coil. It was a mild disappointment that you had to drill out the chopstick, but we think you could have figured out a different method with a little thought.

The use of duct tape, of course, lends it instant hacker credibility. We suppose this might be useful not just after the robot uprising, but if you had to make a few quick solder joints far away from power and you don’t have a battery-operated iron.

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A USB -C Soldering Iron For Weller Tips

April 19, 2019 by Jenny List 5 Comments

There was a time when a decent temperature controlled soldering iron took the form of the iron itself and a box of electronics, but now it’s just as likely to be a miniaturised affair with the temperature controller built into a slim and lightweight handle. Irons such as the Miniware TS series have become firm favourites, displacing a traditional soldering station for many.

[Thomas.lepi] has combined the best of both worlds, with a TS-style microprocessor-driven handle driving the familiar Weller RT elements. Its interface is very simple, but through its USB power socket a serial port provides opportunities for adjustment. Providing control is an STM32F042G6U6 ARM Cortex M0 microcontroller, with USB power control coming from an STUSB4500QTR .

If you are used to irons such as the Miniware TS100 then this one with its smartly 3D-printed case will be very straightforward to use. Whether or not the ready availability of the TS100 or its USB-C sibling would remove the need to build this iron is up to you, but then again that’s hardly the point. The Weller tips are some of the better ones of their type, so perhaps that might make this project worth a second look.

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