Liquid Crystal Displays. Ernst Lueder. Читать онлайн. Newlib. NEWLIB.NET

Автор: Ernst Lueder
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Техническая литература
Год издания: 0
isbn: 9781119668008
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we obtain the rise time for the Fréedericksz cell as

      and for Θd = Θо = 0 the rise time of the DAP cell as

Schematic illustration of normalized rise time T rn versus normalized voltage Vn with various tilt angles ud and u0. (a) For p-type and (b) n-type nematic LCs.

      (3.106)equation images

Schematic illustration of normalized rise time T rn versus normalized voltage Vn with the ratioK of elastic constants as parameter (a) for p-type and (b) n-type nematic LCs.

      which is independent of the applied voltage V and of Δε, and has the same factor outside the magnitude sign as Tr in Equation (3.103). For Θd = Θ0 = π/2 we obtain Td of the Fréedericksz cell as

      (3.107)equation images

      and for Θd = Θ0 = 0 Td of the DAP cell as

      (3.108)equation images

      whereas the decay time for the HAN cell is obtained by putting Θd = π/2 and Θ0 = 0, yielding

      (3.109)equation images

      A comparison between the HAN cell and the Fréedericksz cell which is valid for p-type nematic LCs reveals for the same cell-thickness

Schematic illustration of the ratio Tdn in Equation (3.110) versus K for a p-type nematic LC.

      For K > 0 the decay time of the HAN cell is shorter, and for − 1 < K< 0 longer than that of the Freedericksz cell, whereas they are equal for K= 0 reached by K11 = K33. Comparing the HAN cell to the DAP cell, which applies for n-type nematic LCs, yields for the same cell thickness

      In contrast to the Fréedericksz cell, the decay time of the HAN cell for K > 0 is longer, and for − 1 < K < 0 shorter than that