18303502. FREQUENCY MULTIPLIER CIRCUITS HAVING CROSS-COUPLED CAPACITORS THEREIN WHICH SUPPORT FREQUENCY MULTIPLICATION simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)

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FREQUENCY MULTIPLIER CIRCUITS HAVING CROSS-COUPLED CAPACITORS THEREIN WHICH SUPPORT FREQUENCY MULTIPLICATION

Organization Name

SAMSUNG ELECTRONICS CO., LTD.

Inventor(s)

Seongsoo Park of Suwon-si (KR)

Taewook Kim of Seoul (KR)

Hyunwoong Lim of Seoul (KR)

Taewan Kim of Suwon-si (KR)

Hyungyu Kim of Suwon-si (KR)

Jooik Chung of Suwon-si (KR)

Michael Choi of Suwon-si (KR)

FREQUENCY MULTIPLIER CIRCUITS HAVING CROSS-COUPLED CAPACITORS THEREIN WHICH SUPPORT FREQUENCY MULTIPLICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18303502 titled 'FREQUENCY MULTIPLIER CIRCUITS HAVING CROSS-COUPLED CAPACITORS THEREIN WHICH SUPPORT FREQUENCY MULTIPLICATION

Simplified Explanation

The abstract describes a frequency multiplier that includes a capacitor circuit and a frequency multiplication circuit (FMC) with transistors. The FMC receives components of a differential input signal passing through the capacitors and multiplies the frequency of these components. The FMC is connected to inductor loads that convert the current signal generated by the FMC into a voltage signal.

  • The patent application describes a frequency multiplier that can increase the frequency of a differential input signal.
  • The frequency multiplication is achieved by passing the input signal through a capacitor circuit and a frequency multiplication circuit (FMC) with transistors.
  • The FMC receives the components of the input signal that have passed through the capacitors and multiplies their frequency.
  • The multiplied signal is then converted from a current signal to a voltage signal by inductor loads connected to the FMC.
  • The technology provides a simplified and efficient way to increase the frequency of a signal.

Potential applications of this technology:

  • Wireless communication systems: The frequency multiplier can be used to increase the frequency of signals in wireless communication systems, allowing for higher data transfer rates.
  • Radar systems: Higher frequency signals can improve the resolution and accuracy of radar systems.
  • Signal processing: The technology can be used in various signal processing applications where frequency multiplication is required.

Problems solved by this technology:

  • Limited frequency range: The frequency multiplier allows for the multiplication of frequencies, expanding the usable frequency range.
  • Signal quality degradation: The technology provides a way to increase the frequency of a signal without significant degradation in signal quality.

Benefits of this technology:

  • Increased data transfer rates: By multiplying the frequency of signals, higher data transfer rates can be achieved.
  • Improved system performance: Higher frequency signals can improve the performance and accuracy of various systems, such as wireless communication and radar systems.
  • Simplified circuit design: The technology provides a simplified approach to frequency multiplication, reducing the complexity of circuit design.


Original Abstract Submitted

A frequency multiplier includes a capacitor circuit having a plurality of capacitors therein, and is responsive to a differential input signal applied to an inverting input node and a non-inverting input node thereof. A frequency multiplication circuit (FMC) is provided, which has a plurality of transistors therein. The FMC is configured to receive components of the differential input signal passing through the plurality of capacitors, and multiply a frequency of the components of the differential input signal. A plurality of inductor loads are provided, which are connected to an inverting output node and a non-inverting output node of the FMC, and are configured to convert a current signal generated by the FMC into a voltage signal.