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相关概念视频

Non-ohmic Devices00:51

Non-ohmic Devices

In most substances, the current flow is proportional to the voltage applied to it. A simple relationship between the values of current, voltage, and resistance is known as Ohm's law. Nonohmic devices do not exhibit a linear relationship between voltage and current. One such device is the semiconducting circuit element known as a diode. A diode is a circuit device that allows current flow in only one direction.
Consider a simple circuit consisting of a battery, a diode, and a resistor. A diode...
Operational Amplifiers01:17

Operational Amplifiers

The operational amplifier, often referred to as an op-amp, is a multifaceted building block of a circuit. This electronic component functions like a voltage-controlled voltage source and can also be used to create a voltage- or current-controlled current source. The design of an operational amplifier enables it to execute mathematical operations when external components like resistors and capacitors are linked to its terminals. An op-amp has the capacity to sum signals, amplify a signal,...
Inverting and Non-inverting OpAmps01:20

Inverting and Non-inverting OpAmps

In an inverting amplifier, the input voltage is connected through a resistor to the inverting terminal. Meanwhile, the non-inverting terminal is grounded and a feedback resistor is established between the inverting and output terminal, as depicted in Figure 1.
Node Analysis for AC Circuits01:14

Node Analysis for AC Circuits

Consider an angioplasty system featuring a catheter equipped with a turbine, a critical tool for removing plaque deposits from coronary arteries. This intricate medical device operates using a circuit model reminiscent of a dual-node RLC circuit powered by a current-controlled voltage source.
To unravel the complexities of this system, nodal analysis is employed, a powerful technique founded on Kirchhoff's current law (KCL), which remains valid for phasors. AC circuits can effectively be...
Norton Equivalent Circuits01:16

Norton Equivalent Circuits

Norton's theorem is a fundamental concept in the field of electrical engineering that allows for the simplification of complex AC circuits. The theorem states that any two-terminal linear network can be replaced with an equivalent circuit that consists of an impedance, which is parallel with a constant current source. Figure 1 shows the AC circuit portioned into two parts: Circuit A and Circuit B, while Figure 2 depicts the circuit obtained by replacing Circuit A by its Norton equivalent...
Network Function of a Circuit01:25

Network Function of a Circuit

Frequency response analysis in electrical circuits provides vital insights into a circuit's behavior as the frequency of the input signal changes. The transfer function, a mathematical tool, is instrumental in understanding this behavior. It defines the relationship between phasor output and input and comes in four types: voltage gain, current gain, transfer impedance, and transfer admittance. The critical components of the transfer function are the poles and zeros.

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相关实验视频

Updated: Jul 15, 2026

Plasmid-derived DNA Strand Displacement Gates for Implementing Chemical Reaction Networks
07:50

Plasmid-derived DNA Strand Displacement Gates for Implementing Chemical Reaction Networks

Published on: November 25, 2015

无酶核酸逻辑电路的无酶核酸逻辑电路

Georg Seelig1, David Soloveichik, David Yu Zhang

  • 1Department of Applied Physics, California Institute of Technology, Pasadena, CA 91125, USA.

Science (New York, N.Y.)
|December 13, 2006
PubMed
概括

科学家们设计了DNA数字逻辑电路,模仿生物应用的电子系统. 这一突破使得复杂的生物化学电路的模块化设计能够使用DNA链位移进行可靠的信息处理.

科学领域:

  • 生物技术是生物技术.
  • 合成生物学 合成生物学
  • 分子工程分子工程分子工程

背景情况:

  • 生物系统通过生物化学电路展示复杂的信息处理,但与电子相比,它们的工程具有挑战性.
  • 电子中的数字逻辑使模块化设计和信号恢复成为可靠的电路构造.

研究的目的:

  • 设计和实验实施基于DNA的数字逻辑电路.
  • 实现可靠的生物化学电路的模块化构建,用于信息处理.

主要方法:

  • 利用DNA链位移和序列识别来进行门操作.
  • 开发了基于DNA的模块化AND,OR和NOT逻辑门.
  • 证明了信号恢复,放大,反和级联功能.

主要成果:

  • 成功实现了基于DNA的功能数字逻辑门 (AND,OR,NOT).
  • 证明了关键电路属性,包括信号恢复,放大,反和级联.
  • 使用单链核酸实现了模块化门设计和电路构造.

结论:

  • DNA 数字逻辑电路为生物信息处理提供了一个模块化和可靠的平台.

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DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation

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Gene Digital Circuits Based on CRISPR-Cas Systems and Anti-CRISPR Proteins
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Gene Digital Circuits Based on CRISPR-Cas Systems and Anti-CRISPR Proteins

Published on: October 18, 2022

相关实验视频

Last Updated: Jul 15, 2026

Plasmid-derived DNA Strand Displacement Gates for Implementing Chemical Reaction Networks
07:50

Plasmid-derived DNA Strand Displacement Gates for Implementing Chemical Reaction Networks

Published on: November 25, 2015

DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation
09:26

DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation

Published on: December 29, 2021

Gene Digital Circuits Based on CRISPR-Cas Systems and Anti-CRISPR Proteins
10:46

Gene Digital Circuits Based on CRISPR-Cas Systems and Anti-CRISPR Proteins

Published on: October 18, 2022

  • 该系统对序列识别和链位移的依赖是强大的.
  • 在生物技术和生物工程中的潜在应用,利用生物核酸,如微RNA作为输入.