National Institute for Research and Development in Electrical Engineering ICPE-CA



1. Testing and characterization of advanced materials:

Materials industry is developing rapidly determined that advanced materials underlie all economic development. Obtaining advanced materials technologies have the effect of the development of advanced methods of materials testing and characterization. In this regard, INCDIE ICPE-CA and the proposed development of a materials testing and characterization center equipped with advanced equipment.

Testing under mechanical stress:

Mechanical testing machine Zwick T1 - FR005TN;
Universal mechanical static testing machine for materials, model LFM 30kN;
Microhardness FM 700;
ATOS - 3D Digitizer - last generation;
PONTOS - Vibration system for investigating the kinematics and the mechanical stress;

Investigations on the material composition:

Atomic absorption spectrometer type SOLAAR S4, furnace desegregation;
Mass spectrometer with laser ablation;
UV-Vis spectrophotometer 570 Jasco equipped with integrating sphere;
UV-Vis spectrometer Lambda 35 PerkinElmer;
Spectrometer 100 FTIR PerkinElmer;

Investigations on the crystalline structure:

X Ray Diffractometer type D8 DISCOVER

Study of surface properties:

Atomic Force Microscope;
Optic Microscope NIKON with confocal system;
Interferrometric Microscope Wyko NT 110;
Porosimeter with mercury DAB 100-M;
Nanosizer 90 Plus Brookhaven Corporation;

Investigation of behavior of materials in heat stress conditions:

Device coupled thermal analysis techniques (TG-DTA-DSC- FTIR);
DSC 204 F1 Phoenix;
Dilatometer DIL 402 PC/4;
Analizor mecanic dinamic DMA Q800;
Dilatometer L75 PT;
Mechanic - Dynamic Analyzer DMA Q800;
Nanoflash LFA 447;

Investigation of behavior of materials under conditions of low temperature 1.9 ... 400K:

Physical properties measurement system - PPMS quantum design

Investigation of the polymeric products behavior in condition of heat stress, UV radiation and nuclear:


2. Electromagnetic compatibility:

Contemporary society uses the electromagnetic field at different frequencies from zero frequency up to several hundred GHz.
Applications are in a large range (to be found in the economy and transport, in domestic, military or medical) and are related to the transport of electricity, industrial or domestic applications, radio or TV emissions, the cellular communications, of wireless data transmissions and information, and position detection systems, etc.
TV and radio emissions are made at frequencies that range from several hundred kHz and reach nearly 800 MHz, and transmitted power varies from approx. 100 W up to several hundred kW.
Uses microwaves (MW) in mobile communications or radar detection known also exponential growth in recent decades. These applications cover the frequency range between 0.3 and 300 GHz.
Under these conditions, a major problem is to ensure a satisfactory operation of systems / equipment / appliances in the electromagnetic environment without producing noticeable disturbance of, or interfere with other devices. On the other hand, a very topical issue is the action of electromagnetic fields (produced by the operation of various communications systems or equipment) on biological structures.
As a natural conclusion, electromagnetic shielding becomes a critical issue for society today, both in the sense of electronic equipment secure and in order to protect biological.

Anechoic chamber


G-TEM Cell;
Signal generator;
Spectrum analyzer E7405A;
Amplifier 10S4G18A;
Amplifier BSA 0104-15/10D;
E4417A EPM-P Series Dual-Channel Power Meter;
Horn Antenna 3115;
Ultralog antenna HL562;
Spectrometer TPS 3000;
Chamber of thermovision ThermaCam P620;
Impedance analyzer 4294A;
Device for determining the surface and volume resistance;
Analyzer R&S ZVB4, 2 ports, 300 kHz - 4 GHz - ROHDE & SCHWARZ Osterreich Ges.m.b.H;
Spectrum and Signal Analyzer of type Rodhe & Schwartz FSP, in frequency range 9 kHz - 16.6 GHz;
System TS-EMF - portable isotropic antenna;