* RLS_NO * r10.2 * PRE_PROCESSING * MAKE_SYSTEM_MATRICES * 1 1 * SOLVE_EQUATION * POST_PROCESSING * 1 1 * STATIC * STEP * AC * TRANSIENT * DISPLACEMENT * NON_LINEAR * TEMP_DEPEND * STEADY_CURRENT * 0 0 1 0 0 0 * POTENTIAL * NODAL_FORCE_OPTION * PHI_OPTION * FIXED_COODINATE * 2 * TREE_GAUGE * REGULARIZATION * RENUMBERING * SCALING * LINE_SERACH * MATRIX_ASYMMETRICITY * -1 1 0 0 0 * NODE_ORDER * EDGE_ORDER * METRIC_MOD * QUAD_TRI * CALC_IND * THIN_ELEM * 1 1 0 0 1 1 * ICCG_CONV * ACCEL_FACTOR * DIV_FACTOR * DIV_ITERATIONS * SOLVER * THETA * THETA_NETWOEK * THETA_MOTION * 1.e-8 1.05 10. 100 0 * NON_LINERAR_CONV * RELAXATION * NO_ITERATIONS * INIT_OPTION * ICCG_CONV_RATIO * CHECK_B * DELTA_A * 1.e-6 1.0 100 0 0.01 -1.e-3 * POINTS_IN_1D * POINT_IN_TRIANGLE * MAT_POINTS * 3 7 1 * INITIAL_STEP * DATA_TYPE * INITIAL_PHASE * -1 * FREQUENCY * 50. * INITIAL_PHASE * LAST_PHSE * PHASE_INTERVAL -90. 0. 90. * INPUT_MESH_FILE * UNIT * NO_MESH * MESHLESS * 5 0 * POST_DATA_FILE * ELEM_OUT * NODE_OUT *NUMBER_OUTPUT_MATS * AVERAGE * WIDE * SUF_OPTION * 5 1 1 0 * MESH * CURRENT * MAGNETIC * FORCE_J_B * FORCE_NODAL * DISP * ELEM * HEAT * MAGNETIZATION * IRON_LOSS * E * COIL_FORCE * 1 1 1 0 0 0 0 * MESH * A * V * B * B_INTEG * J_Q * 0 0 0 0 0 0 * Q_AVERAGE * HEAT * MAG_FLUX * CUR_FLUX * 0 0 0 0 * FORCE_J_B * FORCE_NODAL * MAGNETIC_ENERGY * IRON_LOSS * 0 0 0 * GEOMETRY * DELTA_Z(m) or DETLA_THETA(deg)* NO_LAYERS * 0 1.0 *COORDINATE * NO_COORDINATES * COORDINATE 0 * FAR_BOUNDARY_CONDITION 1 0 * DISTANCE_JUDGE(m) * Distance for judgement (m) 1.e-5 * NO_BN0_PLANES * 2 * CX * CY * CZ * C(m) * 1.0 0.0 0.0 0.0 0.0 1.0 0.0 0.0 * NO_HT0_PLANES * 1 * CX * CY * CZ * C(m) * 0.0 0.0 1.0 0.0 * NO_A0_LINE * 0 * CYCLIC * SYMMETRICITY * DIVISION * SURFACE_MAT_ID * FITTNESS * LINE_INPUT * N_CYCLIC * 0 1 0 11 * NO_MAT_IDS * EXTEND_TOTAL * NO_SMAT_IDS 3 1 0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS * 1 0 0 5.e7 1.0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS * 2 2 0 0.0 1.0 * MAT_ID * POTENTIAL * B_H_CURVE_ID * SIGMA * MU * PACKING * ANISOTROPY * IRON_LOSS * 3 1 0 0.0 1.0 * THIN_CRITERION * NO_MAT_IDS * 10. 1 * MAT_IDS * 1 *SOURCE * SOURCE *COIL * SERIES_NO * TIME_ID * NO_ELEMENTS * MOTIN_ID * IN_ROTOR * POTENTIAL * COIL 1 0 3 0 0 1 *LOOP * CURRENT(A) * RADIUS(m)* CENTER_Z(m)* RADIAL_W(m)* AXIAL_W(m) * LOOP 100. 0.08 0.128 0.016 0.016 *LOOP * CURRENT(A) * RADIUS(m)* CENTER_Z(m)* RADIAL_W(m)* AXIAL_W(m) * LOOP 100. 0.08 -0.128 0.016 0.016 *ARC * current(A) * ARC- 100. * X(m) * Y(m) * Z(m) * RADIUS(m)* AXIAL_W(m)*RADIAL_W(m)* 0.0 0.0 0.128 0.08 0.016 0.016 * ALPHA(deg)* BETA(deg) * PHI1(deg) * PHI2(deg) * 0.0 0.0 0.0 90. * NDIV * INT_X * INT_Y * INT_Z * 1 5 5 1 *END of COIL * END *COIL * SERIES_NO * TIME_ID * NO_ELEMENTS * MOTIN_ID * IN_ROTOR * POTENTIAL * COIL 2 0 2 0 0 2 *LOOP * CURRENT(A) * RADIUS(m)* CENTER_Z(m)* RADIAL_W(m)* AXIAL_W(m) * LOOP 100. 0.08 0. 0.016 0.016 *ARC * current(A) * ARC- 50. * X(m) * Y(m) * Z(m) * RADIUS(m)* AXIAL_W(m)*RADIAL_W(m)* 0.0 0.0 0.004 0.08 0.008 0.016 * ALPHA(deg)* BETA(deg) * PHI1(deg) * PHI2(deg) * 0.0 0.0 0.0 90. * NDIV * INT_X * INT_Y * INT_Z * 1 5 5 1 *END of COIL * END *CIRCUIT * CIRCUIT * NO_SERIES * NO_POWER_SUPPLIES * REGION_FACTOR * IN_IND * IN_RES * IN_CON * 2 2 8. * SERIES_IDS * 1 2 * SERIES_EXTERNAL_INDUCTANCE * 0.0 0.0 0.0 * SERIES_EXTERNAL_RESISTANCE * 2.0 0.0 1.0 * CONNECTION_MATRIX * 1.0 0.0 0.0 1.0 * PS_ID * TYPE * TIME_ID * INITIAL_CURRENT * 1 1 1 0.0 2 1 2 0.0 * END 0f CIRCUIT END *END of SOURCE * END * NO_DATA * 2 * TIME_ID * OPTION * 1 2 * AMPLITUDE * TCYCLE(s) * PHASE(deg) * 100. 0.001 0. * TIME_ID * OPTION * 2 2 * AMPLITUDE * TCYCLE(s) * PHASE(deg) * 0. 0.001 0.