Which CCS is to prefer?
There is an article which compares different ways to make a constant current source.
But I can't find this article.
I need help to find it.
Thank you!
There is an article which compares different ways to make a constant current source.
But I can't find this article.
I need help to find it.
Thank you!
https://nathaliebeimler.com/tech/audio_amplifier_current_source_comparison.html
Among them, this is the best.
Among them, this is the best.
Here is a simulation I did.
The two first use LT1004 reference diode. First is not cascoded. The second is cascoded.
The cascoded with LT1004 has the lowest impact from the signal at supply 1kHz.
TLV431 has also rather good result.
Two diodes 1N4148 has the poorest result.
One LED and the two transistors are not good either.
The two first use LT1004 reference diode. First is not cascoded. The second is cascoded.
The cascoded with LT1004 has the lowest impact from the signal at supply 1kHz.
TLV431 has also rather good result.
Two diodes 1N4148 has the poorest result.
One LED and the two transistors are not good either.
Split each 6.8K resistor into two 3.3K resistors in series. Then attach a 47uF electrolytic cap between (the middle node where the 3.3K resistors connect) and (ground), for every current source.
Or, install a LM7809 voltage regulator. +15V input, +9V output. Bypass the 9V rail to ground with 100uF. Then attach each of the 6.8K resistors to +9V instead of +15V. Perhaps think about whether you wish to change those resistors to 6800 * 9 / 15 = 3.9K instead of 6.8K. "Mountain View" does this except the voltage regulator isn't an IC, it's just a resistor and a zener diode.
Or, install a LM7809 voltage regulator. +15V input, +9V output. Bypass the 9V rail to ground with 100uF. Then attach each of the 6.8K resistors to +9V instead of +15V. Perhaps think about whether you wish to change those resistors to 6800 * 9 / 15 = 3.9K instead of 6.8K. "Mountain View" does this except the voltage regulator isn't an IC, it's just a resistor and a zener diode.
Here is the current generator i use to test VAS stages. It has really high output impedance even without the fet but it gives zero blocking time at overload.
It is an ideal simulated OP so dont expect it to work in the real world.
The output impedance is way over 100 Megaohms but limited by the output capacitance of the 2N7002.
It is an ideal simulated OP so dont expect it to work in the real world.
The output impedance is way over 100 Megaohms but limited by the output capacitance of the 2N7002.
I was looking into the "Best" VAS when I was developing an amp with folded cascoded VAS. The open loop voltage gain of those folded cascoded VAS is gm*Rout, where gm is transconductance of the input stage, and the Rout is the output impedance of the VAS. Assuming the gm is 1/100, to get 100dB open loop gain, the Rout has to be greater than 10MOhm. Nothing is better than the "NFB assistanted CCS", shown in #5.
When using no cascode the one in post #5 is clearly the best.
When using one BJT as cascode, most any method is very good.
Look here:
