Курсовая работа: Электродинамический преобразователь энергии с тиристорной схемой питания
LET k3i = E / La - (R / La) * i3 - (Uc / La) - (Bo * Pi * D * w / La) * V
LET i3 = I + k3i * h
LET k4i = E / La - (R / La) * i3 - (Uc / La) - (Bo * Pi * D * w / La) * V
LET di = h * (2 * k2i + k1i + 2 * k3i + k4i) / 6
14 LET k1Uc = I / C
LET Uc3 = Uc + h * .5 * k1Uc
LET k2Uc = I / C
LET Uc3 = Uc + h * .5 * k2Uc
LET k3Uc = I / C
LET Uc3 = Uc + h * k3Uc
LET k4Uc = I / C
LET dUc = h * (2 * k2Uc + k1Uc + 2 * k3Uc + k4Uc) / 6
15 LET k1x = V
LET x3 = X + k1x * h * .5
LET k2x = V
LET x3 = X + k2x * h * .5
LET k3x = V
LET x3 = X + k3x * h * .5
LET k4x = V
LET dx = (k1x + 2 * k2x + 2 * k3x + k4x) * h / 6
16 LET k1V = (Bo * Pi * D * w * I) / m1 - (nu / m1) * V3 - (ksi / m1) * X
LET V3 = V + k1V * h * .5
LET k2V = (Bo * Pi * D * w * I) / m1 - (nu / m1) * V3 - (ksi / m1) * X
LET V3 = V + k2V * h * .5
LET k3V = (Bo * Pi * D * w * I) / m1 - (nu / m1) * V3 - (ksi / m1) * X
LET V3 = V + k3V * h
LET k4V = (Bo * Pi * D * w * I) / m1 - (nu / m1) * V3 - (ksi / m1) * X
LET dv = h * (2 * k2V + k1V + 2 * k3V + k4V) / 6
17 LET I = I + di