PAVIATH INTEGRATED SOLUTION
PAVIATH INTEGRATED SOLUTION
Paviath

Calculation of electrical circuits (APM ECA)

OVERVIEW
CERTIFICATION
DOCUMENTATION
SYSTEM
OVERVIEW

APM ECAAPM ECA is a software product for simulating electrical circuits with linear and non-linear elements, and generalized signal transmission graphs. The program is designed to analyze electrical circuits by the method of nodal potentials.

 The main elements of the graphical representation of the modeled system are:

  • a physical element that implements some transfer function;
  • port defining contact between circuit elements,
  • a link that connects a physical item or port to another physical item or port.

The main purpose of the product is to improve the efficiency of design and analysis of a number of electrical objects and electronic systems, in particular, intelligent systems for the automotive industry. In this case, efficiency is 

  • achieved by improving design processes and automating engineering calculations using industrial-grade software. In addition, the developed one can be used as an element of the technological solution of the "Digital Factory".

    APM ECA is in demand at enterprises that create electrical equipment and electronic devices, will increase the quality and reduce the production time of the final product. In addition, software is used in the educational process in such areas of training as "Electrical equipment", "Mechatronics and robotic systems", "Computing" and "Design of radio electronic devices".

    APM ECA is a standalone software product sold separately. In addition, APM ECA functionality is included in our comprehensive APM Multiphysics product 

CERTIFICATION

SOFTWARE CERTIFICATION PASSPORT 2019 

This attestation passport establishes the purpose and scope of the APM Structure 3D software tool.

SOFTWARE CERTIFICATION PASSPORT 2013 

This attestation passport establishes the purpose and scope of the APM Structure 3D software tool.

CERTIFICATE 
of state registration of a computer program 

APM ElectroMagnetic Analysis 17 Calculate

Electromagnetic Fields

DOCUMENTATION

Working documentation

SYSTEM

APM system requirementsMinimum hardware requirements:

  • Two processors (cores) supporting 64-bit addressing.
  • The amount of RAM is 4 GB.
  • The amount of free space on the hard disk is 500 GB. A Radeon or Nvidia graphics card with hardware OpenGL support.

Hardware Requirements for Comfortable Operation:

  • 4-core processor supporting 64-bit addressing.
  • The amount of RAM is 12 GB.
  • The size of free space on the hard disk is 1.5 TB.
  • Video card with hardware support for OpenGL.
      • Two or more physical processors supporting 64-bit addressing.
      • The amount of RAM - 32 GB and more.
      • Radeon or Nvidia graphics card with hardware support for OpenGL.
      • The presence of 3 physical disks: 
        the 1st physical disk 1.5 TB is intended for the installation and operation of the OS; 
        2nd physical disk 1.5 TB is designed for storing and recording calculation files; 
        The 3rd physical disk 2.0 TB in RAID0 arrays is intended for writing / reading temporary files.

      The software is designed for personal computers and runs in the operating environments MS Windows Server 2008, MS Windows Server 2012, MS Windows 8, 10

APM ECA is a software product for simulating electrical circuits with linear and non-linear elements, and generalized signal transmission graphs. The program is designed to analyze electrical circuits using the nodal potentials method.

 The main elements of the graphical representation of the simulated system are:

  • a physical element that implements a certain transfer function;
  • the port that defines the contact between the circuit elements,
  • A link connecting a physical element or port to another physical element or port.

The main purpose of the product is to increase the efficiency of design and analysis of a number of electrical objects and electronic systems, in particular, 

intelligent systems for the automotive industry. Efficiency is achieved by improving the design processes and automating engineering calculations using industrial readiness software. In addition, the development can be used as an element of the technological solution of the “Digital Factory”.

APM ECA is in demand at enterprises that create electrical equipment and electronic devices, will increase the quality and reduce the production time of the final product. In addition, software is used in the educational process in such areas of training as “Electrical Equipment”, “Mechatronics and Robotic Systems”, “Computer Engineering” and “Design of Radioelectronic Devices”.

APM ECA is a standalone software product that is sold separately. In addition, APM ECA functionality is included in our APM Multiphysics integrated product 

The following types of physical elements are implemented:
  • Linear electrical elements: resistor, capacitor, inductor;
  • Nonlinear electrical elements: ideal diode, NPN- and PNP- bipolar transistor;
  • Sources of currents and voltages: constant, harmonic, programmable; the function of programmable sources can be specified either as a simple analytical function or as a subprogram in the Julia language;
  • Sensors that allow you to output the results to the scheme, or to an external file of a specified format.

It is possible to carry out the following types of calculations for electrical circuits:
  • Static calculation.
  • Harmonic calculation (assuming that only linear electric elements and harmonic sources are present in the circuit).
  • Dynamic calculation. The results of calculations can be displayed as a graph in a separate window, or directly on the diagram.

Signal transmission graphs

Schemes of this type allow to model a wide class of physical systems. In the current version the following elements are implemented:

  • Sources (constant, harmonic, programmable), initializer;
  • Differentiator and integrator;
  • Algebraic elements: input signal multiplier, signal reversal, multiplication by a factor.
  • Sensors.

The product allows you to simulate circuits of arbitrary topology, consisting of different types of two-poles: passive - resistor, capacitor, inductor; active - DC power, DC power, AC power (harmonic) current, the AC (harmonic) voltage.

For the calculation, use the following types of analysis:

  • static;
  • harmonic analysis;
  • transient analysis. 

Calculations are performed for the stationary, steady-state harmonic and transient regimes.


ECA APM
ECA APM
ECA APM
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