The datasheet states that VCC should be between 25VDC and 60VDC.
However from looking at various implemtentations, lower supply voltages should be usable as well. VCC as low as 12VAC(16VDC after rectificatiion and diode drop) is used in various implementations.
Should I expect it to work at VCC of 15VDC or are the designs with VCC of 12VAC(16VDC) flawed?
However from looking at various implemtentations, lower supply voltages should be usable as well. VCC as low as 12VAC(16VDC after rectificatiion and diode drop) is used in various implementations.
Should I expect it to work at VCC of 15VDC or are the designs with VCC of 12VAC(16VDC) flawed?
You sure about that? The datasheet states VCC from 25V to 60V. Sure, you can calculate the resistance of R8 when using lower than 25V VCC values, but nowhere in the datasheet is mentioned if the chip will work below 25V VCC.
Do you have any practical experience with supplying the Upc1237 with VCC values below 25V?
Well, the maximum voltage on pin 8 is 8V anyway, they recommend 3.4V. All you need is to pick the right resistor. I see no reason for the graph to become non-linear below 25V as long as the current is 2.8mA
Hmm, at 60V VCC R8 should be around 20K according to the graph. That means that at 15V VCC, R8 should be around 5K.
I have found the uPC1237 datasheet to be quite confusing and I have read it many times.
Sorry to tag onto your thread but if you have generated a bit of interest someone may be able to help me.
http://www.diyaudio.com/forums/soli...filter-upc1237-pin-2-a.html?highlight=upc1237
Sorry to tag onto your thread but if you have generated a bit of interest someone may be able to help me.
http://www.diyaudio.com/forums/soli...filter-upc1237-pin-2-a.html?highlight=upc1237
I determined the formula to calculate R8 from the original graph: R8=(Vcc-3.4)/2.8 ; R8(kohm). Here is the same graph extrapolated.
To Greg: their formulas apply to a stereo amp, personally I think there's a caveat with this approach in the (unlikely, but still possible) event that one channel has a positive offset and the other a negative one. Pin 2 might see a voltage still within it's thresholds and do...nothing. I would use one per channel and readapt those formulas...
300uF seems large but only has to charge to +0.6V or -0.2V through ~28k. In my amps I have 100u and 120k//120k (and a 100k to gnd)
My experience with this circuit: more than 10 years ago,, I modified my old pair of Rotel 'monoblocks'...higher rail voltage meant new value for 'my R8'. The amps are still working today, never had the chance to trip the protection though.
BTW there is/was a replacement in case you come across the NTE7100.
To Greg: their formulas apply to a stereo amp, personally I think there's a caveat with this approach in the (unlikely, but still possible) event that one channel has a positive offset and the other a negative one. Pin 2 might see a voltage still within it's thresholds and do...nothing. I would use one per channel and readapt those formulas...
300uF seems large but only has to charge to +0.6V or -0.2V through ~28k. In my amps I have 100u and 120k//120k (and a 100k to gnd)
My experience with this circuit: more than 10 years ago,
, I modified my old pair of Rotel 'monoblocks'...higher rail voltage meant new value for 'my R8'. The amps are still working today, never had the chance to trip the protection though.BTW there is/was a replacement in case you come across the NTE7100.
OK, so have you changed R8 to suit either voltage as detailed in the previous posts and the data sheet? What do you measure at pin 8 with either an 18 or 30V supply?
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