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enter image description hereenter image description hereI wanted to make an comparator with cascade of amplifiers of equal gain, output impedance etc. We know that we can approximate it as single pole system , thus a resistor and a capacitor in the output will do the approximation. I was able to calculate the gain for first stage i.e $$-g_m * R_o * \frac{t }{R_o C_o} $$

This is when t<< time constant. Now as stages increases , I want to derive the speed and delay. Can someone help me or share materials that contain this derivation?

enter image description hereI wanted to make an comparator with cascade of amplifiers of equal gain, output impedance etc. We know that we can approximate it as single pole system , thus a resistor and a capacitor in the output will do the approximation. I was able to calculate the gain for first stage i.e $$-g_m * R_o * \frac{t }{R_o C_o} $$

This is when t<< time constant. Now as stages increases , I want to derive the speed and delay. Can someone help me or share materials that contain this derivation?

enter image description hereenter image description hereI wanted to make an comparator with cascade of amplifiers of equal gain, output impedance etc. We know that we can approximate it as single pole system , thus a resistor and a capacitor in the output will do the approximation. I was able to calculate the gain for first stage i.e $$-g_m * R_o * \frac{t }{R_o C_o} $$

This is when t<< time constant. Now as stages increases , I want to derive the speed and delay. Can someone help me or share materials that contain this derivation?

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Ienter image description hereI wanted to make an comparator with cascade of amplifiers of equal gain, output impedance etc. We know that we can approximate it as single pole system , thus a resistor and a capacitor in the output will do the approximation. I was able to calculate the gain for first stage i.e $$-g_m * R_o * \frac{t }{R_o C_o} $$

This is when t<< time constant. Now as stages increases , I want to derive the speed and delay. Can someone help me or share materials that contain this derivation?

I wanted to make an comparator with cascade of amplifiers of equal gain, output impedance etc. We know that we can approximate it as single pole system , thus a resistor and a capacitor in the output will do the approximation. I was able to calculate the gain for first stage i.e $$-g_m * R_o * \frac{t }{R_o C_o} $$

This is when t<< time constant. Now as stages increases , I want to derive the speed and delay. Can someone help me or share materials that contain this derivation?

enter image description hereI wanted to make an comparator with cascade of amplifiers of equal gain, output impedance etc. We know that we can approximate it as single pole system , thus a resistor and a capacitor in the output will do the approximation. I was able to calculate the gain for first stage i.e $$-g_m * R_o * \frac{t }{R_o C_o} $$

This is when t<< time constant. Now as stages increases , I want to derive the speed and delay. Can someone help me or share materials that contain this derivation?

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What is the output of a cascaded amplifier?

I wanted to make an comparator with cascade of amplifiers of equal gain, output impedance etc. We know that we can approximate it as single pole system , thus a resistor and a capacitor in the output will do the approximation. I was able to calculate the gain for first stage i.e $$-g_m * R_o * \frac{t }{R_o C_o} $$

This is when t<< time constant. Now as stages increases , I want to derive the speed and delay. Can someone help me or share materials that contain this derivation?