EEVblog Electronics Community Forum

Products => Other Equipment & Products => Topic started by: poorchava on September 14, 2017, 05:43:39 am

Title: Metcal / OKI / Thermaltronics power ratings
Post by: poorchava on September 14, 2017, 05:43:39 am
I am planning to buy a serious soldering station and i'm kind unsure between stuff from Thermaltronics and a JBC. What bothers me is the power ratings.

JBC can reach 130W with a T245 handpiece. Taiwanese stuff like Xytronic if often rated at 80 or 100W.

Now stuff form Metcal/Thermaltronics seems to not go above 50W or so (actually for Thermaltronics, the S2000 series, which is a 470kHz system is 50W, while a higher end, S9000 (13.56MHz system) is 40W.

Does the RF heating technology actually make that much of a difference to cover for the difference in power? I'm often working on large stuff and sometimes in larger quantities (eg. 500 joints to make) so power actually matters. Does anyone here have a direct comparison?

In TME prices are not very different between Thermaltronics 9000 series system and a JBC CD-2BE. A 2000 series system is about half the price.

JBC - 1855PLN + VAT
2000 - 830PLN + VAT
9000 - 1606PLN + VAT

1PLN  = ~0.23€. Those are regular prices. TME has sales up to -20% on most tools till the end of september.

Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: poorchava on September 14, 2017, 06:33:07 am
I do have a hotplate and an oven for preheating. Currently I'm driving a Jovy iSolder-40 (woulda been fine if it had costed 1/3rd of what it actually had - generally crap) and an old, trusty 80W Xytronic LF-1600.

Unfortunately a preheater is not an option for low volume assembly jobs, which I lately have a lot of.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: Assafl on September 14, 2017, 06:46:37 am
I've used a JBC very little (but did in fact try one) - but at home have a very old MX500 Metcal and love it.

Don't know about the watt ratings - since I can solder RF cages, ground planes, big lug capacitors, low gauge wire, even copper pennies without sticking - stuff a 40-50W iron should stick to rather than melt -  but I have two thoughts about induction vs. direct:

1. Inherently faster loop: Curie effect is a physical phenomena of the material used in the tip. Hence the tip will always be at the Curie temp. Perhaps pumping 50W RMS into a physical load that "disappears" at the correct temp is substantially better than fast looping a similarly rated heater?

2. Heat transfer. One of the nice aspects of induction is that the tip is the heater. Almost as good as a soldering gun. There is no insulation, or a low conductivity (electricity & heat) material such as ceramics or Nichrome.

I used to use a Weller W60P that used a curie slug to control temp. It was excellent and I loved it. But it had a magnet that would turn the heater element on and off. The Power was there - but nowhere as instantaneous as a Metcal. The W60P had big insulators (it used a 220v heater) and was bulky and had heavy, bulky tips.

JBC made the tips smaller and increased the wattage so seemed to compensate for the magnetic control of the Wellers. But the telltale signs of insulating materials engineering are there: https://www.eevblog.com/forum/reviews/normal-for-jbc-di-3000-to-overshoot-coming-out-of-sleep/ (https://www.eevblog.com/forum/reviews/normal-for-jbc-di-3000-to-overshoot-coming-out-of-sleep/)
While you can make it smaller and smaller the latent heat of the Mica insulator is still there. So you overpower it with a aggressive wattage and aggressive proportional band - but something gives - you get overshoot (meaningless overshoot in the example above - less than 10% is nothing). Compared to a Weller - 0 lag. But compared to a Metcal - the lag is there.

If there is any "theoretical" lag in a Metcal - it would be when a part of the tip is above say 700F and the remaining part is under 700F. At which point the size of the heater becomes smaller. If you use a power meter (I built my own with an LM3914) - you'll see that the power supply just attenuates the output. Which is really cool since it doesn't use a thermal loop. It sense the energy used by the tip by measuring the VSWR of the RF signal. As I said - cool.

I did try to acquire a JBC - but couldn't justify the price of a new one (nor a new Metcal).

Availability of used, inexpensive JBC was sporadic at best (at least at the time I looked - and those that were available looked awful). For whatever reason people are dumping Metcal stations like there is no tomorrow (probably production lines and/or rework stations closing down). Mine was scratched with the name Gennady on it - but it is made of aluminum so a little cleaning and it is like new.....
Also tips - people sell large lots of used tips rather inexpensively. Sometimes even new tips can be had inexpensively. I did not see as many JBC tips on the used market.

I am not in any way disappointed in the decision I made but would have probably been just as happy with a JBC, a Pace or an Ersa (except for the part where I am able to say VSWR for a soldering iron - that is some major cool! Imagine a Smith chart for a soldering iron - stuff should be on America's Got Talent)....
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: poorchava on September 14, 2017, 06:57:07 am
How are 470kHz systems different from 13.56MHz ones? I mean from useability standpoint. Is the power transfer more efficient (I'd actually expect it to be the other way around, as at 470kHz reflections and such matter much less than at 13.56Mhz)? How about tip availability and popularity?

I'm also gonna have a hard time justifying a 400€ spent on a soldering station. I mean this is for the 1-person company I have on the side, but the woman acceptance factor is still there and seems to be rather low lately  since we are furnishing a new house  8)
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: Assafl on September 14, 2017, 07:16:11 am
This guy sells them for 60$ or so. So not 400E...

http://www.ebay.com/itm/Metcal-Smartheat-Rework-System-MX-500P-11-Power-Supply-Works-with-Flaky-Conn-/282621141465?hash=item41cd8861d9:g:OVUAAOSwFqNZStRh (http://www.ebay.com/itm/Metcal-Smartheat-Rework-System-MX-500P-11-Power-Supply-Works-with-Flaky-Conn-/282621141465?hash=item41cd8861d9:g:OVUAAOSwFqNZStRh)

Oddly enough he claims the F connectors (threads) are flaky. But the Metcal connector doesn't really screw in; it has a lock clamp that "grasps" the threads. So I don't think he knows what he is doing.... They are dirty and crummy looking but are powder coated aluminum so a bit of IPA will make them new again.

Also, the F connectors are the standard ones Cables companies love so much. So easy to replace (assuming you have another soldering iron on the side...).

You will probably want a stand and handpiece and tips so overall you could (waiting long enough) get it for $200-250 depending on how long you are willing to wait.

Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: poorchava on September 14, 2017, 07:42:42 am
Yeah, but there is a $45 shipping fee + import tax. VAT I can write off so no problem there. Adding the stand and handpieces means more money, and of course returning those in case something is really wrong is not an option because of shipping cost. Plus I'd have to convert those to 230VAC mains.

If those were from anywhere in the EU, I could take the ristk, but all things considered buying used stuff in dubious condition from US doesn;t seem to make much sense.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: Someone on September 14, 2017, 08:19:07 am
How are 470kHz systems different from 13.56MHz ones? I mean from useability standpoint. Is the power transfer more efficient (I'd actually expect it to be the other way around, as at 470kHz reflections and such matter much less than at 13.56Mhz)? How about tip availability and popularity?
The big difference is the size of the tips and hand piece, only the high end (13.56MHz) stations have the really small tips with a smaller barrel and shorter reach. For anything down to 0.5mm pitch you can do ok with the 470kHz systems and a selection of tips, but thats the size where it gets a lot easier to use a smaller hand piece and barrel even if the tip is the same dimension. I've not seen any noticeable difference between the two frequencies when it comes to thermal performance.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: poorchava on September 14, 2017, 10:39:44 am
This makes me consider 470kHz more than 13.56M. The Jovy station that I have does a pretty decent job when it comes to very fine soldering.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: Assafl on September 15, 2017, 01:14:01 pm
There was a guy in Israel selling one a fortnight ago for 50$. I don't know about shipping though.

I was tempted but it is such a reliable beast I passed on it.

Perhaps put a search on it and wait a bit. The prices can be really low. The pricing depends on the junkyard needing the cash.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: mikeselectricstuff on September 15, 2017, 01:35:02 pm
With a big tip on the Metcal you'd be hard pressed to find something that it won't handle. I've never used  JBC but never come across anything that made the Metcal seem underpowered.
It doesn't break a sweat with things like like soldering TO220 tabs to solid groundplanes, or splicing 4mm2 wires. 
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: TD-Linux on September 18, 2017, 05:44:50 am
I've used both the PS2E (13.57MHz) and a lot of SP200's (470kHz). The 13.57Mhz tips and handle are narrower, and an auto-off stand is available. But I also agree, other than maybe looking cooler, there's no real difference between them. When I bought one for myself, I got a PS2E simply because it was basically the same price on eBay.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: connectionvalidationman on October 07, 2017, 02:49:30 pm
Metcal power ratings are the power delivered to the heater in the tip of the cartridge. Most other systems are the total power of the input of the station or the heater rating of the heater that is part of their soldering handle.
The power ratings are as follows:
CV-5200 80 watts
MX-5200 80 watts
MX-5000 80 watts but only one handpiece at a time
MX-500 40 watts
MFR-2000 60 watts
MFR-1100 60 watts
PS-900 60 Watts
PS-800 50 watts
All older Metcal systems prior to 1996 are 37-40 watts.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: cdev on October 12, 2017, 01:41:12 am
I do have a hotplate and an oven for preheating. Currently I'm driving a Jovy iSolder-40 (woulda been fine if it had costed 1/3rd of what it actually had - generally crap) and an old, trusty 80W Xytronic LF-1600.

Unfortunately a preheater is not an option for low volume assembly jobs, which I lately have a lot of.

I got this a few weeks back and its working out okay, only $43 , brand new. Looks fairly well built. (although have not opened it up, I should) Works.. doesn't smell bad when it gets hot..

http://www.ebay.com/itm/946-Precision-Electric-Heating-Preheating-Plate-Station-for-BGA-SMD-PCB-110V-New-/332193225962 (http://www.ebay.com/itm/946-Precision-Electric-Heating-Preheating-Plate-Station-for-BGA-SMD-PCB-110V-New-/332193225962)
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: Jamieson on October 23, 2017, 01:49:24 pm
If there is any "theoretical" lag in a Metcal - it would be when a part of the tip is above say 700F and the remaining part is under 700F. At which point the size of the heater becomes smaller. If you use a power meter (I built my own with an LM3914) - you'll see that the power supply just attenuates the output. Which is really cool since it doesn't use a thermal loop. It sense the energy used by the tip by measuring the VSWR of the RF signal. As I said - cool.

Could you post the schematic for that custom power meter design -- sounds like a great addition to a Metcal/Thermaltronics system.  Those Metcal in-line analog power meters are pretty pricey and hard to find.
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: Jamieson on October 23, 2017, 02:02:36 pm
I just picked up a complete Easy Braid EB2000S station on ebay for $50 shipped. This is just a rebranded Thermaltronics TMT-2000S station.

The one I got uses the SHP-SM handle and takes the SSC cartridge tips. The seller included a new Metcal SSC tip and I've purchased a few more Thermaltronics S75-series tips from Amazon.  Overall I'm very impressed with the power and build quality on this entry level Thermaltronics station.  It performs just like a Metcal SP200, MX500, and older STSS-001/002 units we have at work.  The TMT-2000S power unit is rated for 50W.  Love the immediate power of these induction/curie-point systems.

My soldering iron history is: cheap radio shack mains powered garbage iron -> Weller WTCTPCPTP -> Hakko FX-888D ->  Thermaltronics TMT-2000S
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: macboy on October 23, 2017, 04:40:00 pm
If there is any "theoretical" lag in a Metcal - it would be when a part of the tip is above say 700F and the remaining part is under 700F. At which point the size of the heater becomes smaller. If you use a power meter (I built my own with an LM3914) - you'll see that the power supply just attenuates the output. Which is really cool since it doesn't use a thermal loop. It sense the energy used by the tip by measuring the VSWR of the RF signal. As I said - cool.

Could you post the schematic for that custom power meter design -- sounds like a great addition to a Metcal/Thermaltronics system.  Those Metcal in-line analog power meters are pretty pricey and hard to find.
+1
Very interested in this
Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: likesoldering on February 04, 2019, 04:40:42 am
From RF power supply design  point of view, all of 13.56Mhz Metcal unit have RF output power = 40 watts/port/heater.
new designed  units have two RF power supply to drive two ports (handpiece) so it is still 40 Watts RF output per port/per heater.

80 watts unit are 40 + 40 watts for the system.
for example:
CV-5200 80 watts = each port has 40 Watts  (the unit has two ports working Simultaneous) so it is 40+40 watts, it is not one port (oine heater) can deliver 80 watts
MX-5200 80 watts =each port has 40 watts) same as CV-5200
MX-5000 80 watts but only one handpiece at a time = each port has 40 watts the same as MX-5200
MX-500 40 watts (yes this is the basic one port FR poutput)
MFR-2000 60 watts
MFR-1100 60 watts
PS-900 60 Watts
PS-800 50 watts
All older Metcal systems prior to 1996 are 37-40 watts.

Basically all of units are designed based on MX-5200 in RF power supply.

Title: Re: Metcal / OKI / Thermaltronics power ratings
Post by: likesoldering on February 04, 2019, 04:43:18 am
Design was Based on MX500's RF power supply  (correction, not MX5200 which is type error)