We test your products to meet reality.

Nowadays, technical products must meet high demands regarding:

  • Reliability
  • Robustness
  • Durability
  • Compliance with regulations

Mature test procedures are essential for the products in order to meet these demands, thus demonstrating functional capability and behaviour under the environmental conditions that occur during the real product life cycle.

IABG is capable of performing most environmental tests, all in one hand.

  • Broad spectrum of applications
  • High performance, competitive facilities
  • Professional expertise

Our tests are in line with German and international standard test regulations such as

  • MIL-STD 810
  • RTCA/DO-160
  • Manufacturer-specific requirements such as those of Airbus Industries or Eurocopter
  • Automotive industry requirements
  • Individual customer requirements

If required, we will also analyse the operating conditions of your product, and devise an individual test programme for product qualification based on this analysis.

You will reap the benefits of the valuable innovations brought about by our performance in product qualification.



Phone: +49 89 6088-3040


You can find IABG's certificates in the section Corporate profile - Facts & figures


Vibration and Shock Test (Bump Test)

Simulation of vibration, shock (in combination with climatic conditions if required) and constant acceleration according to customer specifications, MIL-STD 810, RTCA DO-160, ABD 0007, EN 60068, IEC/EN 60721 and your own individual requirements.

  • Vibration facilities with various sizes and loading capabilities
    •  Force rating 10 – 300kN
    •  Acceleration up to 100g
    •  Usable surface areas up to 3 x 3m
    •  Frequency range 4 - 3,000Hz
    •  Maximum amplitudes ± 15mm
  • Sine, random, sine on random, random on random, shock and transport tests
  • Measurement of dynamic responses as acceleration, expansion, force
  • Combined temperature and vibration testing
  • Functional monitoring of the test object under dynamic loads
  • Shock and drop-shock facilities with various drop heights for half-sine and saw-tooth shock simulation
  • Centrifuge
  • Testing in accordance with the shock response spectrum (SRS test)
  • Long-term testing with variations of temperature, humidity, vibration profile and power voltage as well as provision of tempered cooling air
  • Design and construction of test facilities
  • Creation of test specifications and advice on technological issues concerning vibration
  • Multi-axis simultaneous vibration test (excitation in up to 6 degrees of freedom simultaneously)
    •  Force rating 100 – 250kN
    •  Acceleration up to 8g
    •  Usable surface areas up to 4 x 3m
    •  Frequency range 0.1 – 150Hz
    •  Maximum amplitudes ± 125mm
  • Earthquake simulation
  • Reproduction of transient events (squalls, air crashes, operational load follow-up tests, behaviour under poor road conditions etc.)

-> find more about Vibration and Shock Tests

Climatic Environmental Simulation

Climatic environmental simulation is anchored in numerous standards and is a necessary part of the qualification process for technical systems. We provide the required tests for you in a comprehensive manner, independent of industry and manufacturer.

We run your test objects through the desired, tailor-made test program including computer simulations, vibration tests, EMC tests and the actual climatic environmental simulations. A failure analysis, e.g. according to VDI 3822, is a possible option to round off the service package. Talk to us – also about our certification according to TISAX and accreditation by DAkkS. We would be glad to advise you personally.

  • Temperature & humidity: -70 to +180 °C • 10 to 98 % r.h. • up to 15 K/min
  • Altitude / air pressure: 50 mbar to 2.000 mbar (abs.)
  • Solar simulation: up to 1.200 W/m2
  • Tightness: Dust and water • Ice and snow
  • Fluids & corrosive evironment: Contamination with fluids, salt mist or ozone

Electromagnetic Compatibility (EMC)

Electromagnetic compatibility limits interference transmissions and simultaneously sets a minimum level of immunity to external interference. Together, these conditions reduce mutual interaction to a level that ensures system functionality in all operational situations.

With our test facilities and unique infrastructure, we qualify complex test objects according to the following specifications:

  • Military: MIL-STD-461/462/464, MIL-STD-704E, MIL-STD-1399, MIL-STD-1275
  • Aeronautics: RTCA/DO-160D, Airbus ABD0100, AMD-24, A400M, A380, A350, B787, Eurocopter Tiger, NH90, EC135, Boeing D6-16050-4, ED-14D
  • Automotive industry: 72/245/EWG, 95/54/EWG, CISPR 25, VDE 0879, ISO-7637-x, ISO 11451/11452-x, VW TL 965, TL 82xxx, MBN 10284-2
  • Information technology: ISO/IEC 15963-1, ISO/IEC 10373-6, ISO/IEC 14443-1, ISO/IEC 7816-1 (Chip cards, VICC, PICC)
  • Specific customer specifications if required

Our Services

  • Measurement and simulation of interference transmissions and interference immunity in three chambers accredited in accordance with ISO/IEC 17025
    •   EMV 1 chamber (10.5m x 7.0m x 8.0m)
    •   EMV 2 chamber (5.4m x 4.3m x 2.7m)
    •   EMV 3 chamber (4.6m x 4.6m x 2.7m)
  • Creation of test specifications
  • On-board network simulation, power quality
  • Mobile communications simulation (GSM)
  • Shielding attenuation of cabinets and buildings
  • Measurement of conducted and radiated interference transmissions up to 40GHz
  • Testing for radiated and conducted interference immunity up to 40GHz
  • Generation of high intensity radiated fields (HIRF) with fields > 4,000V/m
  • Simulation of secondary lightning effects (LEMP)
  • Advice, development supervision, hardening, qualification

-> find more about Electromagnetic Compatibility (EMC)

Magnetic Test

Measurement and generation of magnetic precision fields

The permanent presence of the Earth’s magnetic field turns it into an important physical parameter whose impact on aerospace activities must be taken into account. Magnetic fields play a vital role in satellite attitude control as well as in numerous scientific experiments.

Even in modern aeronautics, classic magnetic compasses are used in emergencies. They must not be affected by nearby equipment. In our unique magnetic field simulation facility (MFSA), magnetic fields are generated and measured with high precision using a tri-axial combination of 12 coils in total, with a side length of 15m.

The impact of direct and alternating magnetic fields must be taken into account during operations in heavy industrial environments. For this purpose, we use additional coil systems of various sizes to test immunity in mid-sized and small objects.

  • Compensation for the Earth’s magnetic field and simulation of variable artificially generated alternating and direct fields
  • Magnetic simulation of orbit
  • Measurement of magnetic cleanliness
  • Magnetisation and demagnetisation of large and small test objects
  • Measurement of dipolar and multipolar characteristics, magnetic momentum and eddy current fields
  • Calibration of magnetometers
  • On-location measurement of magnetic alternating and direct fields
  • Compass safe distance test in compliance with RTCA/DO-160D and ED-14D
  • Testing for magnetic effects in compliance with various aeronautics standards
  • Immunity to high-frequency magnetic fields on ISM frequencies (13.56MHz, 27.12 MHz)
  • Immunity testing in accordance with ISO 10373 and ISO 7816 with up to 800kA/m (chip card test)
  • Testing for immunity to power engineering frequencies in compliance with EN 61000-4-8 with up to 1,000A/m
  • Testing for immunity to impulse-forming magnetic fields in compliance with DIN EN 61000-4-9
  • Testing for immunity to damped oscillating magnetic fields in compliance with DIN EN 61000-4-10

-> find more about Magnetic Test


Our acoustic testing facilities are designed for a variety of acoustic tests, from small components to large assemblies and for the identification of noise transmission paths in vehicles.
Our tests are in line with national and international military and civil aeronautic standards, with specific automobile manufacturer standards and with additional customer-specific standards from the whole industry (e.g. electronic and machine construction industry, medical, rail and marine technology).

  • Simulation of acoustic loads up to 156dB
  • Reverberation chamber with a test volume of 1,378m³, noise generation at frequencies from 30 to 10,000Hz
  • Performance of acoustic strength investigations up to 172dB using a progressive wave tube
  • Measurement of acoustic pressure distribution, absorption and transmission
  • Acoustic pressure level and acoustic power measurements as per ISO 3740 ff or in accordance with other standards
  • Measurement of noise transmission paths
  • Outdoor measurements
  • Provision of mechanical-acoustic transfer functions
  • Qualification and engineering tests

-> find more about Acoustics

Dynamic Characterisation and Modal Analysis

Our mobile test facilities enable us to test dynamic characteristics and operational behaviour of the equipment under test in the laboratory and also on location, during real operation or on test routes. For example, testing the operational behaviour of vehicles (e.g. cars, HGVs, rail vehicles etc.) is a significant factor when analysing driving comfort, safety, operational security and quality.

  • Identification of eigenfrequencies, eigenperiods of oscillation, modal masses and damping properties during artificial excitation as well as measurement and analysis of operational oscillations
  • Simulation of static and dynamic operational loads (stationary and mobile)
  • Determination of structural loads and rigidity characteristics
  • Four mobile test facilities of various sizes equipped with high-performance analytical tools
  • Testing can be carried out in our own chamber with its special vibration-free foundation, or on-site at the customer’s location

Mass Characteristics

Our facilities enable us to determine the exact physical mass characteristics of components up to complex systems

  • Precise definition of the mass of the test object up to 3,000kg
  • Determination of centre of gravity for test masses from 0.7kg to 6,000kg
  • Determination of axial moment of inertia (MoI) in the range of 0.05kgm2 to 17,000kgm2, for test objects of up to 6,000kg
  • Determination of deviation moment derived from:
    •  Residual imbalances of the test object
    •  MoI measurements of multiple axes
  • Determination of principle axes of inertia using MoI measurements for multiple axes
  • Static / dynamic balancing for test masses of up to 2,800kg

-> find mire about Mass Characteristics

Electrical Test

In our laboratories, we test the electrical and high-frequency properties of components and systems.

  • Experimental testing of on-board networks of vehicles (12/42V cold start tests, short-circuit battery behaviour, damage simulations for lines, arcs)
  • Experimental testing of fuses and lines (fuses, pyro-fuses, electronic fuses, DIN 72581-3, MBN 10308-1, ISO 8820-1)
  • Electrical and high-frequency properties of compound materials (conductivity, HF damping, electrical and thermal crash behaviour)
  • Qualification of electrical and electronic components, EEE parts, space application, automotives (burn-in, aging, SCC-Q-60, ISO 8820-x)
  • Measurement of thermal and mechanical procedures using thermographic and high-speed camera System

-> find more about Electrical Test

Calibration of sensors and signal amplifiers

Today the surveying of vibration instruments is an integral component of quality assurance.

The calibration of sensors and signal amplifiers is a fundamental requirement for the traceability of mechanical measurements and the calculation of measurement uncertainty.

Our calibration laboratory is accredited by the DKD according to ISO IEC 17025 and certified according to DIN EN ISO 9001:2000.

Our services comprise the calibration of measuring chain or individual components consisting of various sensors and signal amplifiers for both sine and shock applications.

Our Calibration Services

  • Sensors
    •  single or triaxial sensors
    •  piezoresistive sensors
    •  piezoelectric sensors
    •  ICP
  • Amplifiers
    •  charge amplifiers
    •  measuring amplifiers
    •  amplifier including sensor
  • Shaker
  • Calibration Documents
    •  correction factors as printout or on data storage medium

If requested, we will be pleased to send you our price list via E-Mail.