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A general system error occurred: Not supported version: Unsupported version URI "urn:converter/7.0" while parsing SOAP body at line 6, column 0 while parsing SOAP envelope at line 2, column 0 while parsing HTTP request before method was determined at line 1, column 0.

Is it possible that an older version of the converter or its agent is installed inside the VM? If yes, uninstall it. The VMware Converter installs its own agent automatically if you connect to the machine with administrator credentials.

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But if you prefer converter approach I would strongly recommend you using a 3rd party V2V converter by StarWind instead of VMwares. It's free and helped me a lot of times working with all the most commonly used VM formats: VMDK, VHD/VHDX, StarWind native IMG, QCOW. It works both ways, converting from and to any selected format, thus having better functionality than similar converters.

I am attempting to generate a CAP file and an export file from the Wallet.java which comes standard in the Java Card SDK under the samples directory. I compile the class, use the converter and encounter the following:

The Java Card 2.2.2 converter supports at most the Java 5 class file format (hence it tells you that Java 6/version 50.0 is not supported). Thus, you need to specify the source compatibility/class file version when compiling the source code using newer JDK versions:

To make the conversion process easier, you can use a free standalone MagicDraw Project Converter. This converter is specifically designed to convert MagicDraw 9.x or earlier version projects to MagicDraw 17.0 projects.

Autodesk FBX SDK is a free* C++ software development kit (SDK) that lets you create plug-ins, converters, and other applications that use Autodesk FBX technology. With FBX you can translate and exchange 3D assets and media from a variety of sources quickly and easily. The SDK is available for Windows, OSX, iOS, and Linux operating systems, which enables software and hardware vendors to add support for the FBX format.

If you need to communicate with an API that uses a content-format that Retrofit does not support out of the box (e.g. YAML, txt, custom format) or you wish to use a different library to implement an existing format, you can easily create your own converter. Create a class that extends the Converter.Factory class and pass in an instance when building your adapter.

The IFC 300 is a 4-wire electromagnetic signal converter. Combined with the flow sensors of the OPTIFLUX and WATERFLUX series it forms the OPTIFLUX 1300, OPTIFLUX 2300, OPTIFLUX 4300, OPTIFLUX 5300, OPTIFLUX 6300, OPTIFLUX 7300 and WATERFLUX 3300 electromagnetic flowmeters for advanced applications with conductive liquids.

Trying to convert an old server. I have downloaded the latest 6.1 converter and it installed smoothly. When I go to submit the conversion job everything looks good until the final screen where the job is submitted. After a few seconds of spinning an error is displayed :

Sadly there are quite a few hits on the web and none seem to cover the issue. I am logged in as local administrator, tried running the converter as administrator user, tried switching from local machine to remote and specifying the loopback address. Checked the disk for errors, nothing meaningful in the event logs. Eventually looked at the requirements of 6.1 converter and noticed that Windows 2003 does not appear to feature. I have tried in vain to locate a copy of converter 5.0.1 since it appears to be the last version to support 2003 SE but none of the links on vmWare site appear to work.

It is now sorted, the fatal I/O appears to have been [in my case] the issue that the server that is running the vconverter software that I was attempting to P2V could only communicate directly to the vCenter. After looking at firewalls it was clear the after chatting to vCenter on 443 it then opens a port to the target ESXi host on 902.

Hi, actually I used Vmware converter 6.1.1 and were able convert Windows Server 2003 with SP2 although it was not in the compatible Guest Operating System list. I succeeded through vcenter (VCSA 6.5) also directly to standalone ESXi 6.5 host. All of them (source, destination and converter) were in the same VLAN.

This logic level converter comes with 2 x 6 pin DIY terminal strips to solder. The are pointing downwards and invisible when used on a breadboard. So I have made the part with terminals only. I can change that, if it is the best way.

Logic Level Converter.fzpz (9.2 KB)

I have an ARM platform with a 1.8v UART and I want to connect my Arduino to it, but I'm afraid of ruining it. I heard about using logic level converters but surprisingly many of the sources recommending this don't have a particular model to recommend, and I can't find any that work at a 1.8v to 5v range.

I'm looking to avoid USB, so the TTL-232RG-VREG1V8-WE won't work for me. The TXB0102 looks nice but is there a breakout board or a DIP version of it? Also, while I didn't read it very thoroughly, it the datasheet doesn't explicitly say whether you can do 1.8v to 5v. I get the impression that many of these logic converters work in increments (so for example 1.8 to 3.3, then 3.3 to 5) but like I said in my OP, I can't seem to get a complete, definite answer. Also, are the data pins bi-directional?

If you've ever tried to connect a 3.3V device to a 5V system, you know what a challenge it can be. The SparkFun bi-directional logic level converter is a small device that safely steps down 5V signals to 3.3V AND steps up 3.3V to 5V at the same time. This level converter also works with 2.8V and 1.8V devices. What really separates this Logic level converter from our previous versions is that you can successfully set your high and low voltages and step up and down between them safely on the same channel. Each level converter has the capability of converting 4 pins on the high side to 4 pins on the low side with two inputs and two outputs provided for each side.

The level converter is very easy to use. The board needs to be powered from the two voltages sources (high voltage and low voltage) that your system is using. High voltage (5V for example) to the 'HV' pin, low voltage (3.3V for example) to 'LV', and ground from the system to the 'GND' pin.

We have tested this logic level converter more for 5V logic on the high side. Looking at the datasheet, the absolute maximum rating for the drain-source voltage is 50V with 0.22A continuous drain current. It should work for higher voltages based on this fact. We just have not stress tested this setup so we are not sure about how efficient it is when using 12V and 24V on the high side and 5V on the lower side.

Doing a quick test and measuring with a multimeter, the logic level converter was able to convert logic between 12V & 5V and vice versa. The logic level converter was also tested between 15V & 5V and 15V & 3.3V without any issues. There will probably be a slightly higher latency if there is a bigger voltage difference as the transistor switches between a logic HIGH or LOW.

What is the bandwidth of the converter? I am using it to convert a 20 kHz PWM signal from 3.3 V to 5 V. On oscilloscope, from a rising edge input signal, the output signal starts with a first-order response from 3.3 to 5 V, reaching 4.98 V after 2 s, in other words, a first-order response with a time constant of 1.1 s (See an oscilloscope screenshot at ). I could not find similar numbers in the BSS138 datasheet but I am not an electronic engineer. Is that first-order time constant correct?

This is a great little board -- it fits right in where the older versions of the SFE logic level converters went and works better! So glad that Sparkfun redesigned the board for full flexibility on all channels! Thanks sparkfun -- using these things all over the place in my mixed voltage digital projects!

Small systems today often incorporate a mix of peripheral sensors or actuators which operate on different logic levels. Especially 3.3 and 5 volt. It's easy enough to lash up your own bi-directional converter with a MOSFET and a couple resistors but at the $2.95 price for this 4-channel device, why bother! An easy to use product and reasonably priced.

I needed something to translate the 3.3V GPIO control signals coming out of my Raspberry Pi to 5V in order to control a WS2812 LED controller (specifically ). The control signals for the WS2812 run at 800kHz, with an allowable delay time of +/-150ns.The data sheet for this converter says that the turn-on time, rise time, and delay time are all in the sub 40ns range--so it should work fine, right?

Wrong. The WS2812 glitches like crazy when I try to control it through this logic level converter, so for my purposes, this part is useless. On the plus side, it was only $3, so it's not like I wasted much money.

Used to talk between my 5V arduino and a 12V IC. Needed to slow down the arduino SPI bus otherwise the converter would not be able to send an adequate signal. Once the bus was slowed down however, converter worked well.

In setting up a Parallax Propeller micro-controller(3.3v) to work with a Matrix Orbital LK204-25 LCD (5v) using a I2C interface, I needed a bi-directional logic-level converter. This module/board worked out great. I needed only two channels for the SDA & SCL I/O lines, but having an additional two channels on this module/board will be useful for future expansion.

I realized that I need 6-bit converter. So I've re-designed and laid out 6-bit converter with BSS138 MOSFET. Now waiting for my board to arrive from being fabricated. That way, this board will make a nice interface board for the SparkFun Micro OLED Breakout (LCD-13003). Less wiring! ff782bc1db