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Az MIT-ről származó MEMCAD 2.0 rendszer blokkvázlata

Az MIT-ről származó MEMCAD 2.0 rendszer blokkvázlata. Torziós mikrotükör FEM vizsgálata a MEMCAD 2.0 rendszerben. Cadence + MEMS design kit: technol ógia. Cadence + MEMS design kit: struktúra. Cadence + MEMS design kit: design flow.

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Az MIT-ről származó MEMCAD 2.0 rendszer blokkvázlata

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  1. Az MIT-ről származó MEMCAD 2.0 rendszer blokkvázlata

  2. Torziós mikrotükör FEM vizsgálata a MEMCAD 2.0 rendszerben

  3. Cadence + MEMS design kit: technológia

  4. Cadence + MEMS design kit: struktúra

  5. Cadence + MEMS design kit: design flow

  6. Cadence + MEMS design kit: modellredukcióFEM modellből viselkedési leírás, fitting

  7. ModellredukcióFEM modellből viselkedési leírás ENTITY ww IS GENERIC (y2pole1_fpole , y3gain_pos_value , y5pos_off_value, y4_atan_neg_value : REAL); PIN ( in0 , out0 :ELECTRICAL ); END ENTITY ww; ARCHITECTURE behavioral OF ww IS STATE V_primey2 : ANALOG ; BEGIN RELATION PROCEDURAL FOR INIT => y2pole1_fpole := 10000.0; y3gain_pos_value := 10000.0; y5pos_off_value := 1000000.0; y4_atan_neg_value := 10.0; PROCEDURAL FOR DC, AC, TRANSIENT => out0.i %= out0.v*1000000.0 -V_ primey2*6280000.0*y2pole1_fpole*y3gain_pos_value -1000000.0* y5pos_off_value ; EQUATION ( V_primey2 ) FOR AC, TRANSIENT => - in0.i*9.999999975e-07 + atan(y4_atan_neg_value*in0.v) - V_primey2*6.28000021*y2pole1_fpole - ddt(V_primey2) == 0.0 ; END RELATION ; END ARCHITECTURE behavioral ; HDL-A (Eldo), ma: VHDL-AMS

  8. Cadence + MEMS design kit: p.cell

  9. Cadence + MEMS design kit: DRC

  10. Cadence + MEMS design kit: DRC

  11. Cadence + MEMS design kit: DRC

  12. Cadence + MEMS design kit: eredmény

  13. Cadence + MEMS design kit: eredmény

  14. Néhány alkalmazás Nagy jósági tényezőjű induktivitás Változtatható kapacitás

  15. SoftMEMS

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