TF EIM Chapt9
Operational Amplifiers (Op Amps)
The operational amplifier is monolithic (single chip) integrated circuit composed of transistors, resistors, diodes, and other components.
The small package produces a device with small capacitance and inductance which is superior to assembling the equivalent circuit with individual components.
Op-Amp
the "-" sign indicates the inverting input terminal and the "+" indicates the non-inverting input.
A positive going input voltage at the non-inverting ("+") input produces a positive going output.
A positive going input voltage at the inverting ("+") input produces a negative going output.
In other words the output is in phase when the input is non-inverting and 180 degrees out of phase when the input is inverting.
Equivalent circuit
Gain = Open loop gain = gain when there isn't anything hooked up to the op amp to draw current from it.
Common Mode
Common mode input is defined as the situation where the two inputs are equal (
. In this case is inverted and will cancel the input so the output becomes Zero in the ideal Op Amp.
Op Amps usually has two bias supplies in order to produce a high gain as determined by the difference in the input voltages. The output can't be larger than the supply bias.
Differential Op Amp
A single stage differential op Amp can be described as being composed of two bipolar transistors in a common emitter configuration as shown below.
Op Amp current and voltage rules
The simple rules used when analzing Op Amp circuits are
1.) The current into the input Op Amp terminals is Zero
2.) The voltage difference between the two input terminal is Zero.
- Note the impact of Rule 2 is that the open loop gain
Inverting Amplifier
The above circuit is called an inverting amplifier. The input signal is applied to the inverting terminal ("-", , or ) of the Op Amp through a resister R_1. The non-inverting terminal ("+", , or ) is grounded.
Applying the current junction rule at the inverting terminal one would have.
- = current through resistor =
- = current through =
- = current entering the inverting terminal (the base of the bipolar transistor)
Current conservation
or
A "perfect" Op Amp has
Using the equivalent circuit from above
Since
for the inverting amplifier circuit above
- Gain : if and
- The "-" sign means that the output is 180 degrees out of phase with the input.
This inverting amplifier has a gain which depends only on the ratio of resistors as long as the open-loop gain
is a lot larger then unity and is a lot larger than (negative feedback).NonZero input bias current I_B
Consider what happens if the terminal current is not zero (ie the Op Amp isn't perfect)
Returning back the the junction rule
assuming for a minute that V_1=V_2 = 0 (first Op AMp rule is broken but second rule holds)
then
Iff V_{in} >> I_{B1}R_2 then your Op Amp will operate close to a perfect one.
input bias offset current
The bias current
offsets the output voltageIf we can find a way to cancel out this offset then we will be essentially "nulling" the bias current
so the Op Amp is more "perfect".
You can do this by using the other half of the amplifier, the non-inverting input current I_{B2}.
If you use a pull up resister (
to raise the non-inverting input from ground then there will be a potential difference created from the current
If then
using the equivalent circuit description
So to cancel the I
offset in you supply the opposite current with a voltage offset.
Gain =
= gain for the non-inverting input (V_2)\Rightarrow
or if