Author Topic: 3-phase inverter using Infineon CIPOS module?  (Read 1063 times)

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Offline mrflibbleTopic starter

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3-phase inverter using Infineon CIPOS module?
« on: August 29, 2019, 01:26:25 pm »
While browsing Mouser for some other stuff, I came across some interesting 3-phase inverter modules from Infineon. A single package containing all the major components for driving a 3-phase motor looks pretty nifty. Does anyone have any experience with these Infineon CIPOS IPM thingies? I did a search, but could not find any previous posts on the forum about it. So, thoughts / comments / experiences?

Related links:
* https://www.infineon.com/cms/en/product/power/intelligent-power-modules-ipm/
* https://eu.mouser.com/new/infineon/infineon-cipos-tiny-inverter-modules/
* https://eu.mouser.com/new/infineon/infineon-cipos/
 

Offline T3sl4co1l

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #1 on: August 29, 2019, 01:31:44 pm »
Haven't had a need for one yet, myself, but IPMs have been around for years, in various ratings.  Typically a bit on the slow side, but quite adequate for motor control applications, say.

Tim
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Offline mrflibbleTopic starter

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #2 on: August 29, 2019, 01:47:37 pm »
A use case I was looking at was as a simplified substitute for something like a Siemens Micromaster inverter of up to a couple of kW. Lets say in the 1.0-3.0 kW range. To bring that under MCU control the inverter is connected through RS485. But a relatively low cost module + MCU on one PCB would be preferable, if for no other reason that I could make a couple of those, so no need to swap the inverter around.

No doubt one can make more performant solutions using discretes, but there is something to be said for getting a working solution without the traditional learning curve punctuated by puffs of magic smoke. So far my H-bridge mucking about has been limited to 60 Volt supply, not 400 Volt...

When you say a bit on the slow side, in what way? Slow rampup/rampdown? Slow reaction to overcurrent?
 

Offline Yansi

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #3 on: August 29, 2019, 05:45:31 pm »
you will be surprised, when you find there are even whole microcontrollers with integrated power transistors in one package, or even microcontrollers with integrated high voltage FET/IGBT drivers in the package.

IPMs on the other hand are really nothing new and were used for quite some time already. No problems should be to find an IPM for a couple of kW power. (There are way bigger ones than this available).
 

Offline T3sl4co1l

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #4 on: August 29, 2019, 05:47:14 pm »
When you say a bit on the slow side, in what way? Slow rampup/rampdown? Slow reaction to overcurrent?

Switching speed.

Overcurrent may be internal, or it may be up to you.  Depends how integrated of a module you're looking at.

Tim
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Offline Le_Bassiste

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #5 on: August 30, 2019, 07:26:10 am »
you will be surprised, when you find there are even whole microcontrollers with integrated power transistors in one package, or even microcontrollers with integrated high voltage FET/IGBT drivers in the package.

mind to share a source?
An assertion ending with a question mark is a brain fart.
 

Offline mrflibbleTopic starter

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #6 on: August 30, 2019, 04:58:38 pm »
you will be surprised, when you find there are even whole microcontrollers with integrated power transistors in one package, or even microcontrollers with integrated high voltage FET/IGBT drivers in the package.
Yeah, I noticed Infineon had several arm cores, but couldn't really find what I was looking for. Then again, I did not spend hours with parametric search, so entirely possible I overlooked something. Do you have a suggestion for "jelly beans" components in this segment? You can assume I am not looking for esoteric performance. Three phase motors, 1-3 kW range, rampup, ramp down, control speed, have things not go *boom*.

Switching speed.

Overcurrent may be internal, or it may be up to you.  Depends how integrated of a module you're looking at.
Slower switching speed would be acceptable, within reason of course. I'm not looking for bleeding edge performance, mostly I'm looking for convenience in the form of lots of small subproblems already being solved.

Ideally I'd like something that handles:
* synchronous rectification, or basically single phase or 3 phase in, DC bus voltage out. 1 or 3 phase depending on use case.
* variable speed.
* overcurrent protection
* dynamic braking
* resistive braking (using external dump resistor)
* easy MCU control, primarily to be able to change speed. Think lathe variable spindle speed based on work piece diameter, that sort of thing.

That's about it really. Obviously there are the "Oh it would be nice if..." items, but lets keep it simple. In that regard, if it supports only 1 braking mode then that would still be doable. I realize that it would probably be cheaper to buy 3 chinese inverters, but where's the fun in that.  ;D
 

Offline Yansi

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #7 on: August 30, 2019, 05:00:50 pm »
For example STMicro has a lot of such MCUs: probably some of the Powerstep, STSpin32 series, ... etc

But for a 1-3kW VFD where circuit and layout simplicity is concerned, I'd opt for any of the standard off-the-shelf IPM (such as STMicro SLLIMM module) and any suitable mcu (probably STM32F3 series, which has more than enough computational grunt and very good analog peripherals) located directly on the mains side (only isolating the necessary control interfaces - isolating digital IOs is way cheaper and simpler, than many analog signals from the power stage).

Please be aware that most IPMs with integrated boot-strapped IGBT drivers are mostly 500-700V only, so suitable only for a rectified single phase DClink supply below 400V. When large power outputs (more than 500W) are required (from a single phase mains), using an active power factor correction will become more than necessary (in EU probably even mandatory, above 100W or so).

Also it is interesting to note, that by using discrete power transistors and driver ICs, one may typically achieve more impressive results for less price (but not in more compact form factor, IPMs take little space).

Three phase rectified mains (DClink voltages well above 500V) require typically 1200V rated IPMs, which are quite more costly and usually require external signal isolation for the high side. Resulting circuitry is not that simple.

//EDIT: Synchronous rectification on a VFD input is quite useless, considering the voltages involved. You can not spare much power dissipation there, not for cheap for very sure!
 

Offline T3sl4co1l

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #8 on: August 31, 2019, 02:58:47 am »
Note that you get the effect of synchronous rectification from the co-pack diodes, but don't count on saving diode drops, not at high voltages.  You need very expensive MOSFETs for that (~$20/ea at this power level).

Tim
Seven Transistor Labs, LLC
Electronic design, from concept to prototype.
Bringing a project to life?  Send me a message!
 

Offline mrflibbleTopic starter

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Re: 3-phase inverter using Infineon CIPOS module?
« Reply #9 on: September 16, 2019, 02:51:02 pm »
Good points about the sense and nonsense of synchronous rectification. A bit of envelopeless back of the envelope calculations showed that, indeed, for my use case synchronous rectification makes no economical sense. So regular diode drop it is!

After completing some background thought processes I suspect that the best way to get into this would be to get a dev board. The idea being that a known-to-work situation should get me up to speed quicker than doing everything from scratch. There's only so much time in the day... So I guess that results in a new question....

Can anyone recommend a good devkit for this?
 


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