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Integrated electronics, also known as integrated circuits (ICs), have revolutionized the field of electronics. By integrating multiple electronic components onto a single chip of semiconductor material, ICs have enabled the development of smaller, faster, and more efficient electronic systems. From smartphones and laptops to medical devices and automotive systems, integrated electronics play a vital role in modern technology. By integrating multiple electronic components onto a single
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| Step | Action | Reason | |------|--------|--------| | 1 | Convert gain from dB → linear: 20 dB = 10^(20/20) = 10 | Provides the target voltage gain. | | 2 | Choose feedback resistor ratio: 1 + Rf/Rg = 10 → Rf = 9·Rg | Simplifies selection of standard resistor values. | | 3 | Select Rg = 1 kΩ → Rf = 9 kΩ (use 9.1 kΩ for standard value). | Keeps input impedance reasonable and uses E‑series components. | | 4 | Verify gain tolerance: ΔG = (ΔRf/Rf) – (ΔRg/Rg) → with ±1 % resistor tolerance, gain variation < ±5 % | Confirms spec satisfaction. | | 5 | Estimate unity‑gain bandwidth of 741 (~1 MHz). Closed‑loop BW ≈ f_T / Gain = 1 MHz / 10 = 100 kHz . Since required BW = 1 MHz, the 741 meet spec. | | 6 | Choose a higher‑speed op‑amp (e.g., OPA1612, f_T ≈ 40 MHz). Re‑calculate BW: 40 MHz / 10 = 4 MHz → meets spec. | Demonstrates design iteration. | | 7 | Provide SPICE netlist for final design and simulate AC response. | Confirms gain and bandwidth. |