World Leader in Grounding / Earthing, Lightning and Electromagnetic Interference
Software Products
Complete Package


Classical Grounding


Extended Grounding


EMF Based Software


AC Interference Analysis


Line & Cable Parameter Calculation


Electrical Environmental Impact Assessment


Lightning Shielding Analysis


Latest addition to SES’ Powerful Software Packages





























































HIFREQ - Electromagnetic Fields Analysis

HIFREQ  is a unique engineering tool that can solve any electromagnetic problem involving a network of arbitrarily oriented aboveground and buried conductors energized by any number of current and voltage sources. HIFREQ is a dream come true for those who have to tackle complex electromagnetic problems involving conductor networks, including bare and/or coated conductors, coaxial or multi-core cables, transformers, lumped resistors, inductors and capacitors, etc. HIFREQ is certainly the only engineering software module that can provide accurate solutions to transient and steady-state problems in the frequency range of 0 to thousands of megahertz is used to analyze buried and above ground current-carrying conductor networks. It computes electric and magnetic fields in the air and soil, as well as conductor and soil potentials, and the current distribution in the soil and in the conductors


Technical Highlights

HIFREQ calculates the scalar potential, and the electric and magnetic fields due to an energized conductor network, as well as the current distribution in the conductors. HIFREQ was designed to solve problems accurately, without ignoring soil characteristics, conductors in the soil, or non-energized metallic structures in air or soil. With HIFREQ you can:

HIFREQ gives you the following powerful and flexible features:

Further Details

Voltage Energization

A Voltage energization represents a simple model for an AC voltage generator. When a voltage energization is specified on a conductor, the voltage increases along this conductor by an amount specified by the user. By connecting one end of this generator to the ground, the other end can be kept at the desired potential.

Lumped Impedances

It is possible to define the impedance of a conductor by simply attaching a series combination of a resistance, an inductance and a capacitance to the conductor. The program then computes the resulting load impedance at the energization frequency.

Potential Energization

A Potential energization can be used to force the scalar potential at the surface of a conductor (GPR) to be at a user specified value. The current flowing in the conductor is automatically adjusted in order to achieve this potential.

The Voltage and Potential energizations are often used, together with lumped impedances, to establish appropriate current and voltage levels on transmission lines modeled in HIFREQ. Their usage is not limited to this particular application, however. In fact, it is possible to use these features in HIFREQ to do conventional circuit theory calculations!


All conductors in HIFREQ can be insulated from the surrounding medium by a physical (i.e. leaky) coating, i.e. a layer of a dielectric material of user-defined thickness, resistivity, permittivity, and permeability.


The response of a conductor network to the presence of an externally applied electromagnetic field can be very interesting, particularly to simulate the effects of distant lightning strikes or geomagnetic disturbances. HIFREQ can carry out such calculations for two different forms of externally applied field: a constant (electrostatic) electric field or a general electromagnetic plane-wave. The user-supplied characteristics of the applied field in the air are used to compute the applied field everywhere else, as well as the current distribution in the network. The scattered fields caused by this circulation of current can be obtained.


HIFREQ offers a single-phase transformer model that makes it easy to study systems with multiple voltage levels or the many other applications where transformers are used in the power industry. Two kinds of transformers, namely Ideal and General transformers, can be defined. The ideal transformer is perfect, lossless and infinite in mutual coupling, and is characterized by a Voltage Ratio. The general transformer model takes into account the self and mutual inductances, resistances and the magnetic flux leakage. Other transformers, such as auto-transformers and three-phase transformers, can be built by combining several single-phase transformers together. A database of pre-built transformers offers the most commonly occurring types of connections available in the industry.


With HIFREQ, modeling complex, multi-phase cables is as simple as modeling a single solid conductor. HIFREQ allows you to define one or more types of concentric (coaxial) or pipe-type (multi-core) cables. These cable types can then be assigned to network conductors turning those conductors into cables. Coaxial cables can consist of up to three distinct components (the core, sheath and armour) with arbitrary electrical characteristics. Multi-core cables can include any number of coaxial cables surrounded by a pipe enclosure with arbitrary characteristics. The characteristics of the insulating material between the cable components and inside the pipe enclosure can also be specified.