标题: 在Infolytica中常见的求解器错误代码有哪些?各代表什么意思? [打印本页] 作者: 周亮 时间: 2013-4-11 11:07 标题: 在Infolytica中常见的求解器错误代码有哪些?各代表什么意思? 作者: 马晓荷 时间: 2013-6-8 11:22
ErrorsBelow are some coil modeling related errors.Closed 3D coils must be made out of manifold components, otherwise a non-physical current density distribution will result. Since there is no explicit error number reported when this situation occurs, one should look at the current density field whenever in doubt about the validity of the coil modeling. Error 148002 - The components of a 2D coil do not appear in the model (material) mesh. This error will occur if components of a coil have not been swept in the same direction than the rest of the model, e.g. if a circular coil is used in a model having components swept in the z-direction. To locate the missing material coil, one can view the Initial 2D Mesh. Another cause for this error is when the Make Multi-Terminal Coil command has been used in 2D instead of the Make Simple Coil command. Error 149048 - Coil should be made of a conducting material. A coil made of a non-conducting material will generate this error. Error 154024 - No conducting path between terminals in the material mesh. This will happen if one or more coil volumes fail to mesh or have a zero conductivity. This error may also arise if a coil's material component partially overlaps a non-conducting component having a higher precedence according to the rules of precedence for partially overlapping components. The workaround consists of reordering the components in order to assign a higher priority to the coil component, or to construct the components so that they do not partially overlap. 154025 - No conducting path was found between coil terminals (perhaps because no terminal faces or coil components were found in the material mesh). This can happen when two coil terminals belonging to different coils are in contact, in which case the workaround obviously consists of leaving an insulated gap between the terminals so that they are no longer in electrical contact. Another reason might be that the coil component is non-manifold. 154026 - A coil terminal is in direct contact with another terminal and/or a flux tangential boundary condition (the terminals are shorted). Some special cases are worth noting: Error 154026 will occur if the terminal leads are slightly sticking out of the air box (this is usually unintentional and results from a geometric modeling error); Error 154026 will occur if no air box is present in the model or if the coil is not embedded in the air box, since in that case a Flux Tangential boundary condition is by default applied to all the outer faces of the model, including the coil's volumes surfaces; Error 154026 will occur if the Perfect Electric Conductor material is assigned to the coil; If the coil definition contains components, those components are considered to be insulated from any other conducting components and therefore error 154026 will not occur. 154031 - Ampère's law violation.