The intent of this site is to provide a convenient means to convert between the various units of measurement within different systems, as well as to provide a basic understanding of the systems currently in use, and how they interact. Refer to the Common Unit Systems page for further information.
After doing research I realized that there is no simple way to do it with simple buck/boost converters since digital potentiometers are designed for low voltage and can't be used to control DC/DC converters.
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Using a digital POT has drawbacks related to bandwidth (due to internal stray capacitance), and also the output voltage changing non-linearly with the POT setting. Here is a method that gets around both of those problems.
A typical setup for many buck converters is to use a pair or resistors (R1, R2) connected to between the output voltage (VOUT) the feedback pin (VFB) and ground. In this case the output voltage is normally
You can add an external IC with I2C control to control the voltage feedback loop of any DC DC controller that has the loop exposed. The IC creates a current source/sink that can change the voltage operating point of the voltage feedback loop. Keep in mind that changing the operating point could drive the DC DC controller into unstable regions, I overcame that problem by simulating the DC DC controller at it's highest and lowest voltage that the IC could produce. You also have to do a bit of math with the feedback resistors to change the voltage operating range.
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A trick eBay used to use in urls, years ago, was to delimit data in the URL with QQ. A double-Q does not naturally occur in text data. If you ever get stuck for a text delimiter that will avoid encoding issues just use QQ... This will not work with split though (which requires single characters, but nice to know) :)
While the above answers may be feasible, they seem to be overly complicated. Simply use an IMultiValueConverter with an appropriate MultiBinding in the XAML code. Assuming that your ViewModel has the properties FirstValue, SecondValue, and ThirdValue, which are an int, a double, and a string, respectively, a valid multi converter might look like this:
Since it requires neither fumbling with the ProvideValue method required by MarkupExtension, nor the specification of a DependencyObject inside(!) a converter, I do believe that this is the most elegant solution.
If your input will not work with a string, and you have multiple parameters (not bindings). You can just pass an collection. Define one of whatever type is needed to avoid some UI Editor issues with arrays:
Such level converts are for bidirectional open-drain (open-collector) signals. They might provide only 0.5mA at the output. The relay module might have a transistor with a resistor to its base or a optocoupler. Maybe the transistor has enough current with 0.5mA, maybe not.
EDIT: Since I could not find this specific relay in Fritzing, I just used one with the same idea. The wiring on it's end is correct, the voltages are correct, but the LLC only seems to send half of the voltage to the relay, eg. it receives 3.3v and outputs 2.8v for some unknown reason ...
Since this relay is central to your problem, please provide us with some information about it. Sometimes even a good picture is enough to do some sleuthing, and come up with wiring guides or even schematics. It would definitely go a long way to solving your problem. Don't become fixated on the level converter.
However, the product description is so bad that I can't tell what the wiring should be, except that a logic level converter will not work. The input signal is opto-coupled and with correct wiring, will work on 3.3V. The relay coil may not work on 3.3V.
I feel that rather than there being some big problem with the relay, you have simply overlooked some minor detail. I would be ideal if you could post images of all your actual wiring, showing how the connections are made, and/or a real wiring diagram complete with pin labels made with pen and paper if necessary.
I took a new board (wemos d1 mini pro), with the same relay, connected them directly as shown below. For some reason using the D3 pin it doesn't behave properly, so I switched to pin D4 and everything works fine, the wiring is as simple as this. Jumper seems to work OK on High, switching it to LOW prevents the relay from working (even if I'm only sending 3.3v)
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The device has an integrated power-on reset with adjustable delay to monitor LDO output voltage and provide a signal that can be used to reset a DSP or microcontroller. It also includes a watchdog circuit.
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For deployment platforms with an x86-based CPU and discrete GPUs, the tao-converteris distributed within the TAO docker. Therefore, we suggest using the docker to generatethe engine. However, this requires that the user adhere to the same minor version ofTensorRT as distributed with the docker. The TAO docker includes TensorRT version 8.0.
For an x86 platform with discrete GPUs, the default TAO package includes the tao-converterbuilt for TensorRT 8.2.5.1 with CUDA 11.4 and CUDNN 8.2. However, for any other version of CUDA andTensorRT, please refer to the overview section for download. Once thetao-converter is downloaded, follow the instructions below to generate a TensorRT engine.
For the Jetson platform, the tao-converter is available to download in the NVIDIA developer zone. You may choosethe version you wish to download as listed in the overview section.Once the tao-converter is downloaded, please follow the instructions below to generate aTensorRT engine.
-p: Optimization profiles for .etlt models with dynamic shape. The argument format is a comma-separatedlist of optimization profile shapes in the format ,,,,where each shape has the format xxx. This argument can be specified multiple times if there aremultiple input tensors for the model.
See the Buck Converter example for an abstracted version of this model that uses ideal switching to give faster simulation times. The model here can be used to determine the on-resistance values required for the ideal switches, plus timing offsets if necessary. Using the ideal switching approach of the Buck Converter example can be used to simulate more complex power converters. 0852c4b9a8
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