Asynchronous Machine
DESIGN_CHECK_ASYNC
Feasibility and Checking of the Coil Distribution
Content: Verification of the different parameters of the machine as the winding and coil distribution. The main purpose is here to check the slot/pole combination and the winding arrangements.
Minimum requirements: Input Data for Asynchronous Machine.
Deliverables: Winding Coil Distribution with Görges Diagram and MMF.
MODEL_FIRST_CALC_ASYNC
Creation of 2D Model and Flux Density Distribution/Saturation analysis
Content: Creation of the model with geometry, winding description and physical properties. Both Analytical and Finite Element Method software are used to deal with the flux density distribution, normal flux density determination along the airgap and saturation analysis in the different parts of the machine: yokes, teeth, airgap…
Minimum requirements: Input Data for Asynchronous Machine.
Deliverables: 2D Model, Screenshots of Flux Density Distribution and Values of Flux Densities at important parts of the machine and Airgap Flux Density curves.
EQUIV_PARAMS_LOAD_CALCS_ASYNC
Equivalent Parameters Determination and Load Calculations
Content:
- Equivalent Parameters are provided for the induction machine as Inductances of the Stator and the Rotor, Resistances of the stator and rotor, Iron Resistance,…
- Torque is computed for a given slip, current or voltage .3 load points results (mechanical, electromagnetic and electric) are provided.
- These load calculations are computed by taking into account the thermal behavior of the machine. Thermal Analysis gives results as Temperature distribution for the steady state of the machine.
Minimum requirements: MODEL_FIRST_CALC_ASYNC.
Deliverables: Power Balance with values of electrical and mechanical quantities (current, power factor, torque …) and curves of these quantities. Equivalent Parameters Values, Thermal Analysis Results with temperature distribution.
TS_ CURVE_ASYNC
Torque/speed Characteristics
Content: Torque/Speed characteristics of traction machine for a given speed range and drive type (phase advance gamma values, one or more current values) are computed.
Minimum requirements: MODEL_FIRST_CALC_ASYNC.
Deliverables: Torque/Speed curve and data of this curve.
THERM_DUTY_CYCLE_ASYNC
Duty Cycle Thermal Analysis
Content: Thermal Behavior of the machine facing a duty cycle (either torque or speed duty cycle) is computed. Curves of the values of the temperatures at different parts of the machine are determined.
Minimum requirements: MODEL_FIRST_CALC_ASYNC.
Deliverables: Thermal Curves for one duty cycle at different parts of the machines and Axial and Radial cross section of temperature distributions. All Data are provided.
FULL _CALC_ASYNC
Radial Flux Asynchronous Machine Full Package
Content: The full package of proposed calculations for Radial Flux Asynchronous Machine.
Minimum requirements: Input Data for Asynchronous Machine.
Deliverables: The deliverables of the whole calculations.
DESIGN_IMPROVE_ASYNC
Design improvement proposal
Content: Topics are highlighted to improve the performances or dimensions of the design according to the customer’s requirements.
Minimum requirements: FULL _CALC_ASYNC or complete data set provided by customer according to our specification.
Deliverables: Argumented list of design improvement avenues to be investigated.