13.3.1 Understanding ideal op-amp characteristics

    Cards (55)

    • An Operational Amplifier (Op-Amp) is a high-gain, differential amplifier
    • The output terminal of an op-amp is located on the right
    • An ideal op-amp with infinite input impedance draws negligible current
    • What type of amplifier amplifies and inverts the input signal?
      Negative
    • Which input terminal amplifies and inverts the signal?
      Inverting input
    • An ideal op-amp has infinite open-loop gain.

      True
    • Real op-amps have finite values for their ideal properties.
      True
    • Low input impedance can cause noticeable loading effects on the input signal.

      True
    • Real op-amps have infinite open-loop gain.
      False
    • An ideal op-amp has infinite bandwidth.

      True
    • The finite bandwidth of real op-amps is a key consideration in high-frequency circuit design
    • An op-amp can be used in circuits for amplification, filtering, and signal processing
    • An ideal op-amp has infinite open-loop gain.

      True
    • What is the effect of high input impedance on circuit stability?
      High circuit stability
    • What happens to the output of an ideal op-amp in comparator mode?
      Full voltage swing
    • How does an ideal op-amp behave in comparator mode?
      Full voltage swing
    • An ideal op-amp has finite bandwidth.
      False
    • Real op-amps can amplify signals across all frequencies without attenuation.
      False
    • Real op-amps have non-zero output offset voltage due to manufacturing imperfections
    • The inverting input of an op-amp amplifies and inverts the input signal.

      True
    • Order the ideal op-amp properties from highest to lowest typical values:
      1️⃣ Open-Loop Gain
      2️⃣ Input Impedance
      3️⃣ Output Impedance
    • Op-amps are used in control systems for feedback and comparison.

      True
    • Op-amps are used in audio amplifiers to boost signal levels
    • In a simple amplifier circuit, resistors are used to set the gain and feedback characteristics
    • What is the output impedance of an ideal op-amp?
      Zero
    • What is the input impedance of an ideal op-amp?
      Infinite
    • What is the output impedance of an ideal op-amp?
      Zero
    • What is the typical bandwidth of a real op-amp?
      1 MHz
    • An op-amp amplifies the sum of the voltages at its inputs.
      False
    • The op-amp symbol is a triangle with three input terminals.
      False
    • The finite properties of real op-amps introduce practical limitations in circuit design
    • An ideal op-amp can deliver full output voltage to any load without voltage drop.

      True
    • What is the open-loop gain of an ideal op-amp?
      Infinite
    • Real op-amps have high output accuracy but are subject to gain limitations
    • An ideal op-amp has infinite bandwidth, allowing for a wide frequency response
    • Steps to consider when designing circuits requiring high-frequency operation with real op-amps
      1️⃣ Identify high-frequency requirements
      2️⃣ Select op-amp with appropriate bandwidth
      3️⃣ Test circuit for signal distortion
    • What can offset voltage in real op-amps introduce in a signal amplification circuit?
      Errors in output signal
    • Match the op-amp input terminal with its function:
      Inverting Input (-) ↔️ Amplifies and inverts signal
      Non-inverting Input (+) ↔️ Amplifies signal without inverting
    • Real op-amps have infinite input impedance.
      False
    • The non-inverting input of an op-amp amplifies the signal without inverting it.
      True