13.3.1 Understanding ideal op-amp characteristics

    Cards (64)

    • An ideal op-amp has infinite open-loop gain
    • An ideal op-amp has infinite output impedance.

      True
    • An ideal op-amp has infinite bandwidth
    • What assumptions simplify circuit analysis when using an ideal op-amp?
      Perfect amplification
    • Why does an ideal op-amp have zero output impedance?
      To provide stable voltage
    • Open-loop gain in an ideal op-amp is theoretically infinite
    • An ideal op-amp has zero input impedance to prevent loading the source circuit.

      True
    • A real op-amp has a small but non-zero output impedance.
      True
    • An ideal op-amp has infinite open-loop gain
    • What is an ideal op-amp?
      A theoretical amplifier
    • An ideal op-amp has infinite input impedance.
      True
    • An ideal op-amp has infinite bandwidth
    • An ideal op-amp simplifies circuit analysis by assuming perfect amplification.

      True
    • Match the type of op-amp with its open-loop gain:
      Ideal ↔️ Infinity
      Real ↔️ 100,000+
    • An ideal op-amp has zero output impedance.
    • The zero output impedance of an ideal op-amp ensures a stable voltage output regardless of load resistance.

      True
    • An ideal op-amp can amplify signals of any frequency without attenuation
    • Ideal op-amps have zero input bias current due to their extremely high input impedance.

      True
    • The input impedance of a real op-amp is very high, measured in millions of ohms
    • The input bias current of a real op-amp is small but non-zero
    • An ideal op-amp has infinite input impedance
    • What is the ideal bandwidth of an ideal op-amp?
      Infinity
    • The ideal op-amp simplifies circuit analysis by assuming perfect amplification and negligible impact on the source circuit.
      True
    • An ideal op-amp has infinite open-loop gain
    • An ideal op-amp requires no current to bias its inputs.

      True
    • The open-loop gain of a real op-amp is approximately 100,000
    • Zero input impedance prevents loading the source circuit, ensuring accurate voltage sensing.
      True
    • A real op-amp has a small but non-zero output impedance
    • Real op-amps may have a small offset voltage that needs to be corrected for precise applications.
      True
    • An ideal op-amp has infinite bandwidth
    • Why is zero input bias current important in an ideal op-amp?
      Preserves input signal integrity
    • The output impedance of a real op-amp is small but non-zero.
      True
    • What is an ideal op-amp?
      A theoretical amplifier
    • What is the input impedance of an ideal op-amp?
      Zero
    • What is the offset voltage in an ideal op-amp?
      Zero
    • No current flows into the input terminals of an ideal op-amp.
      True
    • The open-loop gain of an ideal op-amp is infinite
    • An ideal op-amp requires no input bias current.

      True
    • What is the open-loop gain of a real op-amp?
      100,000+
    • What is the output impedance of an ideal op-amp?
      Zero