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电磁波传输方程(类比传输线)#

麦克斯韦方程组#

\[ \nabla \cdot E = \frac{\rho}{\varepsilon_0} = 0 \]
\[ \nabla \cdot B = 0 \]
\[ \nabla \times E = -\frac{\partial B}{\partial t} \]
\[ \nabla \times B = \mu_0 \varepsilon_0 \frac{\partial E}{\partial t} \]

推导:

\[ \nabla \times (\nabla \times E) = -\frac{\partial}{\partial t}(\nabla \times B) = -\frac{\partial}{\partial t}(\mu_0 \varepsilon_0 \frac{\partial E}{\partial t}) = -\mu_0 \varepsilon_0 \frac{\partial^2 E}{\partial t^2} \]

张量形式:

\[ \nabla \times (\nabla \times E) = \varepsilon_{imn} \partial_m (\varepsilon_{njk} \partial_j E_k) = (\varepsilon_{imn} \varepsilon_{njk}) \partial_m \partial_j E_k = (\delta_{ij} \delta_{mk} - \delta_{ik} \delta_{mj}) \partial_m \partial_j E_k = \partial_j \partial_m E_m - (\nabla \cdot \nabla) E \]

最终波动方程:

\[ -(\nabla \cdot \nabla) E = -\mu_0 \varepsilon_0 \frac{\partial^2 E}{\partial t^2} \]
\[ \left(\frac{\partial^2}{\partial x^2} + \frac{\partial^2}{\partial y^2} + \frac{\partial^2}{\partial z^2}\right) E = \mu_0 \varepsilon_0 \frac{\partial^2 E}{\partial t^2} \]

波速为:

\[ c = \frac{1}{\sqrt{\mu_0 \varepsilon_0}} \]

平面波解:

\[ E = E_0 e^{i\omega t - i\frac{\omega}{c} z} \]
\[ B = B_0 e^{i\omega t - i\frac{\omega}{c} z} \]

\(E, B\) 是瞬时量,\(E_0, B_0\) 相互垂直。

\[ -\frac{i\omega}{c} E_0 = -B_0 \cdot i\omega \]
\[ E_0 = cB_0 \]

传输线#

电报方程(传输线方程)#

电报方程图示

方程推导#

\[ u(t,x) = u(t,x+\Delta x) + L\Delta x\frac{\partial i(t,x)}{\partial t} + R\Delta x \cdot i(t,x) \]
\[ i(t,x) = i(t,x+\Delta x) + C\Delta x \frac{\partial u(t,x+\Delta x)}{\partial t} + G\Delta x \cdot u(t,x+\Delta x) \]
\[ \begin{cases} -\frac{\partial u}{\partial x} = Ri + L\frac{\partial i}{\partial t} \\ -\frac{\partial i}{\partial x} = Gu + C\frac{\partial u}{\partial t} \end{cases} \]

无损线(\(R=0, G=0\)#

\[ \begin{cases} -\frac{\partial u}{\partial x} = L\frac{\partial i}{\partial t} \\ -\frac{\partial i}{\partial x} = C\frac{\partial u}{\partial t} \end{cases} \]
\[ \frac{\partial^2 u}{\partial x^2} = LC\frac{\partial^2 u}{\partial t^2} \]

波速为:

\[ v = \frac{1}{\sqrt{LC}} \]

传输线图

边界条件#

\[ \begin{cases} u(t,x) - i(t,x)Z_s = 0 \\ u(t,L) = i(t,L)Z_L \end{cases} \]

初始值:

\[ u(t=0,x) = 0, \quad i(t=0,x) = 0 \]
\[ \frac{\partial u}{\partial t}(t=0,x) = 0, \quad \frac{\partial i}{\partial t}(t=0,x) = 0 \]

拉普拉斯变换#

\[ \mathcal{L}[i(t,x)] = \tilde{I}(s,x) \]
\[ \mathcal{L}[u(t,x)] = \tilde{U}(s,x) \]
\[ \begin{cases} -\frac{\partial \tilde{U}}{\partial x} = sL\tilde{I} \\ -\frac{\partial \tilde{I}}{\partial x} = sC\tilde{U} \end{cases} \]
\[ \frac{\partial^2 \tilde{U}}{\partial x^2} = s^2LC\tilde{U} \]

解:

\[ \tilde{U}(s,x) = Ae^{-s\sqrt{LC}x} + Be^{+s\sqrt{LC}x} \]
\[ \tilde{I}(s,x) = \frac{1}{Z_c}(Ae^{-s\sqrt{LC}x} - Be^{+s\sqrt{LC}x}) \]

其中:

\[ Z_c = \sqrt{\frac{L}{C}} \]
\[ A_1 = \frac{Z_c}{Z_s+Z_c} \tilde{U}_0(s) + \frac{Z_s-Z_c}{Z_s+Z_c} B_1 \]
\[ B_1 = \frac{Z_L-Z_c}{Z_L+Z_c} A_1 e^{-2\gamma l} \]
\[ \gamma = s\sqrt{LC} \]

拉普拉斯逆变换#

  • \(\tilde{U}_0(s) \rightarrow U_0(t)\)
  • \(\tilde{U}_0(s)e^{-\gamma x} \rightarrow U_0(t-\sqrt{LC}x)\)(行波)
  • \(\tilde{U}_0(s)e^{+\gamma x} \rightarrow U_0(t+\sqrt{LC}x)\)(反射波)

匹配始端#

\[ \quad Z_s = Z_c \]
\[ u(t,x) = \frac{1}{2} U_0(t-\frac{x}{v}) + \frac{1}{2}\rho U_0(t-(2l-x)/v) \]
\[ \rho = \frac{Z_L-Z_c}{Z_L+Z_c} \]

瞬时匹配示例#

\[ R_s = 100\Omega, \quad Z_c = 150\Omega, \quad Z_L = 1k\Omega, \quad V_{s} = 75V \]

电线传输到终端,反射:

\[ I = \frac{V}{Z_c+Z_s} \]

\(t=0\) 时,输入终端,波 \(V_i\)

\[ V_i = \frac{Z_c}{Z_c+Z_s}V_s = 6V \]
\[ I_i = \frac{1}{Z_c+Z_s}V_s = 40mA \]
时间段 始端电压 始端电流 时间段 终端电压 终端电流
0 - 2τ \(V_i = 6V\) \(I_i = 40mA\) 0 - 2τ 0 0
2τ⁺ - 4τ \(V_i + (V_{r1} + V_{r2}) = 9.5V\) \(I_i + (I_{r1} + I_{r2}) = 4mA\) τ⁺ - 3τ \(V_i + V_{r1} = 10.4V\) \(I_i + I_{r1} = 10mA\)
4τ⁺ - 6τ \(V_i + (V_{r1} + V_{r2}) + (V_{r3} + V_{r4}) = 8.9V\) \(I_i + (I_{r1} + I_{r2}) + (I_{r3} + I_{r4}) = 9.3mA\) 3τ⁺ - 5τ \((V_i + V_{r1}) + (V_{r2} + V_{r3}) = 8.9V\) \((I_i + I_{r1}) + (I_{r2} + I_{r3}) = 8.4mA\)
\[ \rho_L = \frac{1000-150}{1000+150} = 0.74 \]

总结#

只要特性阻抗和负载阻抗不匹配,就会发生反射。始端和终端都不匹配则会发生多次反射。

附录#

原图:

1755070142369
1755070152228
1755070158564

最后更新: 2026-02-26
创建日期: 2025-08-13