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on video The operational amplifier and its applications

 


An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.
An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.


 


An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.
An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.


 


An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.
An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.


 


An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.
An operational amplifier is made from a differential amplifier having
 a very large differential mode voltage gain

 a very high common mode rejection factor

 a very high input impedance in both modes
 very low output impedance in both modes
 a very high bandwidth.

We owe the term Operational Amplifier to John R.
Ragazzini in 1947. Operational amplifiers were initially developed in the era of electronic tubes, they were then used in analog computers.

The first integrated AO available in large quantities, at the end of the 1960s, was the bipolar μA709 AOP. In 1968, the μA709 was replaced by the μA741 which offered better performance while being more stable and easier to implement.


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