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Related Concept Videos

Equivalent Capacitance01:19

Equivalent Capacitance

723
From the study of resistive circuits, it is understood that employing a series-parallel combination serves as an effective strategy for simplifying circuits. Capacitors can be arranged within a circuit in one of two ways: a series configuration or a parallel configuration. The way these capacitors are connected to a battery will influence both the potential drop across each individual capacitor and the size of the charge that each capacitor can store. This is determined by the specific type of...
723
Equivalent Capacitance01:19

Equivalent Capacitance

2.2K
Multiple capacitors can be connected in a circuit in series or parallel configuration. When the capacitor combination is connected to a battery, the potential drop across each capacitor and the magnitude of charge stored in the individual capacitor depends on the type of the connection. The capacitor combination is replaced by a single equivalent capacitor that stores the same amount of charge as the combination for a given potential difference.
The following strategies are adopted to calculate...
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Capacitors and Capacitance01:18

Capacitors and Capacitance

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A device consisting of two electrical conductors that are separated by a distance and used to store electrical charges is called a capacitor. The space between the conductors is either a vacuum or an insulating material, called a dielectric. Capacitors have many applications, ranging from filtering static from radio reception to energy storage in heart defibrillators.
When the conductors are two identical parallel plates, it is called a parallel plate capacitor. When battery terminals are...
9.6K
Line Loss01:10

Line Loss

548
The different configurations of source-load connections include wye (star) and delta connections. The relationship between line and phase voltages and currents varies depending on the configuration. When the source is supplying power, it is transmitted through the wires to the load, and during this transmission, some power is absorbed by the wires, leading to line loss.
Line loss impacts power delivery efficiency in a balanced three-phase circuit. The symmetry in such a circuit simplifies the...
548
Reducing Line Loss01:18

Reducing Line Loss

395
In a three-phase circuit, line loss is an indicator of energy dissipated as heat due to the resistance of transmission lines. To address this, incorporating transformers into the system—a step-up transformer at the source and a step-down transformer at the load—is a strategic solution. Two three-phase transformers are introduced to improve this.
With a step-up transformer at the source, the voltage is increased, thereby reducing the current in the transmission lines since power loss in...
395
Design Example: Capacitance Multiplier Circuit01:20

Design Example: Capacitance Multiplier Circuit

1.6K
In integrated circuit technology, a capacitance multiplier is often utilized to produce a larger capacitance value when a small physical capacitance falls short. This is achieved by a circuit that multiplies capacitance values by a factor of up to 1000, such that a 10-pF capacitor can replicate the performance of a 100-nF capacitor.
The circuit illustrated in Figure 1 below incorporates two op-amps, with the first operating as a voltage follower and the second acting as an inverting amplifier.
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Low loss poly-silicon for high performance capacitive silicon modulators.

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    Polycrystalline silicon offers promising optical properties for silicon photonics. Optimized fabrication achieved low propagation losses in silicon rib waveguides, crucial for advanced photonic devices.

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    Area of Science:

    • Materials Science
    • Photonics Engineering
    • Semiconductor Physics

    Background:

    • Silicon photonics is a rapidly growing field for integrated optical circuits.
    • Polycrystalline silicon (polysilicon) is being explored as a cost-effective alternative to crystalline silicon for photonic applications.
    • Capacitive modulators and other silicon photonic devices require materials with well-defined optical properties.

    Purpose of the Study:

    • To investigate the optical properties of polycrystalline silicon for silicon photonics.
    • To optimize the fabrication process for polysilicon rib waveguides.
    • To characterize optical propagation losses and identify their origins.

    Main Methods:

    • Deposition of amorphous silicon layers using Low-Pressure Chemical Vapor Deposition (LPCVD) on a 300 mm wafer.
    • Solid phase crystallization annealing to convert amorphous silicon to polycrystalline silicon.
    • Fabrication of rib waveguides and measurement of optical propagation losses at 1.31 µm.
    • Physical analysis using Transmission Electron Microscopy with Astigmatism Correction (TEM ASTAR), Atomic Force Microscopy (AFM), and Secondary Ion Mass Spectrometry (SIMS).

    Main Results:

    • Optimal deposition and annealing conditions were determined for polysilicon fabrication.
    • Fabricated 400 nm-wide rib waveguides exhibited low optical propagation losses.
    • Losses were measured to be in the range of 9.2–10 dB/cm at 1.31 µm.
    • Physical analysis provided insights into the sources of optical losses.

    Conclusions:

    • Polycrystalline silicon is a viable material for silicon photonics applications.
    • The optimized fabrication process yields high-quality rib waveguides with low optical losses.
    • Further integration of polysilicon into devices like capacitive modulators is feasible.