Why is a transfer function denoted by 'H'?

AI Thread Summary
The letter 'H' is commonly used to denote transfer functions in system design, primarily because it follows the letters F and G, which are often used for other functions, helping to avoid ambiguity. The notation H(s) represents the Laplace transform of the impulse response h(t), but the origin of 'h' remains unclear. Some speculate that 'H' may relate to Hilbert Transforms or simply be a whimsical choice reflecting the shape of simple electronic circuit filters. The discussion highlights the lack of a definitive historical explanation for the use of 'H' in this context. Overall, the choice appears to be a practical decision to maintain clarity in mathematical notation.
Gonzo17
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During a basic lecture about system design the transfer function H(s) was discussed. The question was raised why the letter 'H' is used for this...

Sounds weird, but I did start to think about it... Indeed in many books and publications the letter H (besides sometimes G(ain)) is used to describe the transfer function.

I googled around but I didn't come further than the fact that H(s) is the Laplace transform of the impulse response, denoted by h(t). Lovely explanation, but of course it moves the problem to where 'h' comes from in the impulse response...

Maybe I am looking over something extremely trivial, but I can't seem to get around it. Anybody any idea what the (historical) reason for this mysterious 'H' is?
 
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Might have something to do with Hilbert Transforms.
 
Just a wild guess.

The transform tables are typically based on F and G.
H is the next letter in the alphabet that has no other significant meaning.
So I suspect H was chosen to avoid ambiguity with F and G (and other symbols).

An alternative interpretation is that a typical simple electronic circuit filter looks like an H on its side.
 
That's probably right ^
Just a whimsical notation that stuck
 
Thanks for the suggestions...

It is possible that it's just the boring F-G-H-thing mentioned above. But if anybody knows of another story, I'll be more than happy to hear it! :-)
 
Once upon a time I googled why U is sometimes used for voltage instead of V.
The only thing I could find, is to distinguish the unit volt from the quantity voltage.
I'd still be interested in a better explanation. ;)
 
Also T wouldn't work because transfer functions are often functions of time, you can have H(t), and h(t), but it's confusing to have T(t) and t(t)
 

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