Avalanche photodiode spice model

- Y
- Yannick
  
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posted
17 years ago

Mon, May 22, 2006 9:25 AM

Hi,

I am looking for a spice model for an avalanche photodiode , if possible the C39021E. its for simulating optoelectronic mixing.

thanks for any info

Yannick

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- engineer
  
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posted
17 years ago

Mon, May 22, 2006 7:21 PM

Since when do spice programs allow optical signals other than internal to the device?

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- engineer
  
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posted
17 years ago

Mon, May 22, 2006 7:21 PM

Since when do spice programs allow optical signals other than internal to the device?

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- Jim Thompson
  
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posted
17 years ago

Mon, May 22, 2006 7:27 PM

Behaviorally.

...Jim Thompson

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| 1962 | I love to cook with wine. Sometimes I even put it in the food.

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- Marc Popek
  
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posted
17 years ago

Mon, May 29, 2006 11:11 PM

Yannick,

If you want to take red light and say red light shfited by 420Mc and then have both light sources fall onto an APD and then you like to see how much

430 MC you can extract for varying:

light levels (re and red shifted by 420mc) and the bias and the apd devcie.. no can do in spice.... Your best bet for an answer is to use a pencil and paper and come close to the answer, assume an exponential transfer function and exime the mixing prodcut's ampltiudes.....

Marc

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- colin
  
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posted
17 years ago

Mon, May 29, 2006 11:49 PM

devcie..

I think hes using the technique I sugested for hetrodyne LIDAR some time ago, The light is modulated with one frequency and the bias to the APD is modulated with another frequency, the resulting electrical output of the APD is the product of the two frequeuncies, the mixing being done at the opto-electronic level not the optical or electronic level, the advantage is that the high frequency light modulation frequency is not converted directly to an electronic signal therefore the APD capacitance does not have any effect on this wich would severly limit the acheivable SNR for low light, only on the beat frequency wich as it is much lower frquency is much less affected by it.

It relies on the multiplication effect of the bias voltage, the gain of the device rises with voltage very sharply at voltages just below vbr.

In a simple demonstration of this I used gain=1+(v/250)^k with k 20~200 wich gives an arbitraraly sharp curve just over 250v. I dont know how steep the curve is as it isnt ploted on the data sheet very far but at some point just above vbr it tends to infinity as it latches on.

There seems to be no information on the frequency response of the gain to the bias voltage, although the gain bandwidth product is given but this is the response to the light signal, but my gues they are closely related, but I had it working some time ago at 10mhz and just recently at 100mhz, im looking to get try it up to 2ghz.

Colin =^.^=