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I'm trying to send and receive data through a serial port using simulink (matlab 7.1) and d-space. The values I want to send and receive are doubles. Unfortunately for me the send and receive blocks use uint8 values. My question is how can I convert doubles into an array of uint8 values and vice versa? Are there simulink blocks for this or should I use embedded matlab functions?

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Use the aptly named Data Type Conversion block, which does just that.

EDIT following discussion in the comments

Regarding scaling, here's a snapshot of something I did a long time ago. It's using CAN rather than serial, but the principle is the same. Here, it's slightly easier in that the signals are always positive, so I don't have to worry about scaling a negative number. 65535 is the max value for a `uint16`, and I would do the reverse scaling on the receiving end. When converting to `uint16` (or `uint8` as in your case, it automatically rounds the value, and you can specify that behaviour in the block mask).

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How would this work in my case? Whenever I give a double as input and I set the output to uint(8), it only gives me a single uint(8) and not an array. I guess this is what I should expect, but how would I make sure it gives me an array of uint(8) representing the double? – Frank Oct 28 '13 at 12:24
Why should a "single" double be converted into an array of `uint8`, as opposed to a "single" `uint8`? What's the logic behind your desired conversion output? – am304 Oct 28 '13 at 12:28
OK, then do some scaling on your `double`, break it down into several doubles if need be, or do whatever you need to do, and then convert each double into `uint8`. Do the reverse on the receiving end. It's standard packing/unpacking. – am304 Oct 28 '13 at 13:14
Take your double (scalar) data, normalize it by its maximum value (e.g. `realmax` or your own choice), add an offset so that it's always positive, multiply by the max `unit8` value (2e8 - 1), round and convert to `uint8`. On the other side, convert from `uint8` to double, divide by the max `uint8` value, remove the offset, multiply by the max `double` value. Use standard mathematical blocks for the scaling, then the data type conversion to go from `uint8` to `double` and vice-versa. – am304 Oct 28 '13 at 14:10
Assume your input can vary between say -1000 and +1000. Divide it by 1001, it's now strictly between -1 and +1. Add 1, it's now between 0 and 2. Multiply by 2^7, your number is now between 0 and 2^8. Round it and convert it to `uint8`, do the reverse on the receiving end. The reason you get 0 is because of rounding errors. To avoid that, use a different scaling. Multiply (instead of dividing) your 1.21 by say 1,000 or an even larger number to retain the decimal places, and divide at the other end, still making sure you have a >0 nb. – am304 Oct 28 '13 at 21:08

There are pack and unpack blocks in simulink, search for them in simulink library browser. You could need som additional product, not sure which.

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