On 2002-04-02 04:25, IndiJones wrote:
I need to build a circuit using Photodiode that will receive light from ultraviolet incandescent lamp (50/60 Hz line voltage), amplify and filter the signal and give dc output depending on the amplitude of the light. I'll be using an ultraviolet Photodiode for this purpose. Any help would be highly appreciated. Thanks in advance!
As helping of the fellow EE is the point,
not the points, here we go :
1. Former Burr-Brown, now TI subsidiary, has
some NICE app-notes and op-amps and even
specific photodiode amps suitable for variety
of UV-photodiode amplification, which usually
need quite high-gain.
2. Infineon, former Siemens, has some cheap ( $10 ) UV-photodiodes that are quite sensitive, that they at least use to sampled for free as Eng. samples.
3. Boston Electronics have some "kick-ass"
sensitive UV-photodiodes based on Silicon
Carbide and other technologies, expensive,
yes, but have some of the best performance,
and bandwidth in some cases down to upper
end of X-rays, below UV even, and visible
bandwidth autolimited, so, may not even
have to buy that expensive narrow-passband
UV filter depending what you want. They
also have parts with hybrid amps on the
same photodiode die.
4. With UV-photodiodes, as there is giant
current amplification, similar in design
to pH amps in many ways, one needs really
high-gain, high-CMRR low input noise FET
amps, AD and BB have some of the best amps
for this application, both have the app
notes, this is related to earlier 1. The
boards need high di-electric constant, no
dirty fingerprints, special materials may
help, and teflon stands or air-wiring may
be of high performance boost.
5. If you need bass-pand filters, OptoSigma
does have such.
6. If you are into the very expensive but
good, hamamatsu has some good products also,
but cost like hell, for low end apps the
Infineon UV diode is just good. Hamamatsu
has some nice app-notes, too, in addition
to TI-BB and AD and Boston Electronics.
7. As your app is that low in requirements,
you only need a $10 Infineon cheapest UV
photodiode, and some decent amp from BB or
AD be done with it. The BB nunmber was something like 201 or 202 or 203 or that
direction.
What I wrote on 2. - 6. apply to more
demanding scientific UV-applications in
scientific instruments, that require
higher dynamic range, performance, accuracy,
resolution, etc. Forget 2. - 6. until you
have gotten your simple UV lamp intensity-
photodiode-amp-a/d converter-micro deal
working first.
I know arrays of more high-end UV photodiode
manufacturers,but they are all overkills for
what you want, and also costwise, so, no
reason to list those right now.
Hope this helped you some,
trademill, the vintage UV/VIS science
instru freak ... Labx is great place
for scoring used sciencee instruments
for decent price from on-line auctions.
https://www.labx.com, if they are still going
as strong as they used to.