Test Center

EMC and Environmental Simulation

Any defect in a product not recognized in time could end up being the cause of costs or in the worst case harm the reputation of the company. In order to counteract this danger, our products are tested in our test centers; from the development up to the qualification according to strict standards for their electromagnetic compatibility and environmental resistance.

By using the services of our laboratories, you too can benefit from our high-quality standards. We do not distinguish between our products and your products. Our demands are high – often beyond those of industry standards.

Accreditation - certified competence

The test center of HENSOLDT Optronics in Oberkochen is accredited to DIN EN ISO/IEC 17025.

The ILAC (International Laboratory Accreditation Cooperation) agreement gives our test results international recognition.

Click here for an overview of our accredited standards and procedures (German)

 

 

EMC - Electro Magnetic Compatibility

EMC is the characteristic of electrical and electronic equipment or systems to function satisfactorily in their electromagnetic environment, without inadmissible affecting their environment. The electromagnetic compatibility of devices is becoming increasingly important in a more complex environment.

In Europe and other parts of the world, compliance with emission and immunity limits is regulated by law. Without these regulations, interference-free operation of radio services and of electronic devices would no longer be conceivable today.

Testing Electromagnetic Compatibility

EMC Laboratory

The EMC laboratory in Oberkochen is a modern measurement and testing laboratory with a focus on components and systems of defense and automotive electronics. Due to our many years of experience, we are a competent and reliable partner for your needs.

At the Oberkochen site, HENSOLDT has a newly designed EMC laboratory. The heart of our facility are three similar semi anechoic absorber chambers, each designed for measurements and tests in accordance with MIL, VG, RTCA and Automotive standards.

Testing Electromagnetic Compatibility

EMC Laboratory

The EMC laboratory in Oberkochen is a modern measurement and testing laboratory with a focus on components and systems of defense and automotive electronics. Due to our many years of experience, we are a competent and reliable partner for your needs.

At the Oberkochen site, HENSOLDT has a newly designed EMC laboratory. The heart of our facility are three similar semi anechoic absorber chambers, each designed for measurements and tests in accordance with MIL, VG, RTCA and Automotive standards.

Testing Electromagnetic Compatibility

EMC Laboratory

The EMC laboratory in Oberkochen is a modern measurement and testing laboratory with a focus on components and systems of defense and automotive electronics. Due to our many years of experience, we are a competent and reliable partner for your needs.

At the Oberkochen site, HENSOLDT has a newly designed EMC laboratory. The heart of our facility are three similar semi anechoic absorber chambers, each designed for measurements and tests in accordance with MIL, VG, RTCA and Automotive standards.

EMC Laboratory Specifications

Test facilities

  • Semi anechoic chamber 1 / 2
    Element Specifications
    Usable space 5.6 m x 5.2 m x 2.6 m (L x W x H)
    Shielding Up to 18 GHz with 100 dB
    Supply 4 x 32 A / 50/60 Hz / 440/250 V
    Filter free configurable Two filters 4 x 63 A / 50/60/400 Hz / 440/250 V
    Entrance Double-leaf door 2 m x 2 m, Single-leaf door 1 m x 2 m (only chamber 1)
    Test items Table: 1 m x 1 m x 1 m (L x W x H), 500 kg/m²
    Floor: 1 m x 1 m x 2 m (L x W x H), 500 kg/m²
    Measuring distance 1 m
    Penetration panel 0.4 m x 0.4 m and 0.2 m x 0.2 m
    Surveillance equipment HDTV video camera with pan/tilt head, CAN-Bus, Ethernet
    Interfaces Gbit Ethernet to fibre optic, Can-Bus to fibre optic, HD-SDI to fibre optic
    Connection tunnel Link between semi anechoic chamber 1 and 2 free space 0.9 m x 0.9 m
  • Additional equipment chamber 1
    Element Specifications
    Usable space 3.4 m x 1.7 m x 2.3 m (L x W x H)
    Penetration panel Connection tunnel to semi anechoic chamber 1 (0.4 m x 0.4 m)
    Supply to semi anechoic chamber 1 Two filters 4 x 63 A / 50/60 Hz / 440/250 V
  • Semi anechoic chamber 3
    Element Specifications
    Usable space 6.2 m x 4.6 m x 2.5 m (L x W x H)
    Shielding Up to 18 GHz with 100 dB
    Supply 4 x 32 A / 50/60/400 Hz / 440/250 V
    Supply freely configurable Two filters 4 x 25 A / 400 Hz / 400/230 V
    Entrance Double-leaf door 2 m x 2 m, Single-leaf door 1 m x 2 m
    Test items Table: 1 m x 1 m x 1 m (L x W x H), 500 kg/m²
    Floor: 1 m x 1 m x 1 m (L x W x H), 500 kg/m²
    Measuring distance 1 m / 3 m
    Penetration panel 0.6 m x 0.6 m into Additional equipment chamber 3
    Surveillance equipment HDTV video camera with pan/tilt head
    Interfaces Gbit Ethernet to fibre optic, Can-Bus to fibre optic, HD-SDI to fibre optic
    Turntable Diameter 2.5 m with a payload of 500 kg
  • Additional equipment chamber 3
    Element Specifications
    Usable space 3.6 m x 3.0 m x 2.5 m (L x W x H)
    Penetration panel Connection tunnel to semi anechoic chamber 3 (0.6 m x 0.6 m)
    Supply to semi anechoic chamber 3 Two Filters 4 x 25 A / 400 Hz / 400/230 V

Test parameters

  • Test Equipment
    Item Specifications
    Signal generators DC to 40 GHz
    Measuring receivers 5 Hz to 40 GHz
    Current clamps 10 Hz to 400 MHz
    Receiving antennas 10 Hz to 40 GHz
    Transmitter antennas DC to 18 GHz
    Broadband Amplifiers 9 kHz to 220 MHz / 3000 W
    200 MHz to 1 GHz / 1500 W
    1 GHz to 18 GHz / 250 W
    Transient generator 6 μs / 10 μs
    Burst-/ surge-generator acc. DIN 61000-4-4/5
    Automotive pulse generators ISO Pulse 1 to 5
    4-quadrant amplifier 3 Phase DC to 5 kHz each 5000 W
    Audio frequency amplifier DC to 150 kHz / 800 W
    Arbitrary generators DC to 80 MHz
    ESD generators up to 30 kV
    BCI 10 kHz to 400 MHz / 150 W
  • Test Methods
    Method Specifications
    Interference voltage 10 kHz to 30 MHz
    Interference current 20 Hz to 400 MHz
    Interference power 30 MHz to 300 MHz
    Magnetic flux density 30 Hz to 200 kHz
    H- field measurement 10 kHz to 30 MHz
    Immunity to magnetic fields 30 Hz to 200 kHz
    Immunity to power frequency magnetic field 50/60 Hz / 0 to 30 A/m
    Immunity to electric fields 10 kHz to 18 GHz
    Immunity to conducted disturbances BCI 10 kHz to 400 MHz,
    Audio 30 Hz to 150 kHz
    Immunity to microsecond pulses at the power supply line terminals Time Domain 5ns
    Immunity to nanosecond pulses at the connections for
    cables and shields
    Time Domain 5ns
    ESD contact and air discharge Up to 30 kV
    Immunity to sinusoidal pulse time domain
    Immunity against surge voltages time domain
    Voltage dips and short interruptions time domain
  • Performance spectrum
    • Developing of EMC control plans
    • EMC- advice during development
    • Developmental study of electromagnetic compatibility
    • Developing of EMC test pland
    • EMC testing and qualification of equipment
    • Fault analysis due to electromagnetic incompatibilities
    • Assistance with the localization and elimination of the source of interference
       
  • Standards, e.g.
    • MIL-STD 461
    • MIL-STD-1275
    • VG 95373
    • VG 96916
    • RTCA-DO 160
    • EN 61000-6 -x
    • EN 61000-4 -x
    • EN 55014
    • ISO 16750-2

 

 

Resistance to Environmental Influences

Environmental influences are ubiquitous and can negatively impact the performance, reliability and durability of a technical product.

The main objective of testing is to prove product reliability under the influence of extreme environmental conditions.

In addition, environmental changes in the behaviour of the test specimens can be determined within a short period of time, enabling targeted optimisation of the products.

Testing Environmental Resistance

Environmental Laboratory

In the environmental laboratory of HENSOLDT Optronics, we carry out environmental testing in accordance with all common test standards in the fields of mechanical engineering, automotive engineering, rail transport, aerospace, telecommunications, medical technology   and many other areas for you.

To ensure that your product has the required performance both after storage and transport as well as during operation, we test the reliability of your products under extreme environmental conditions. In this way, we can determine changes in the behavior of the test specimen in response to mechanical and climatic stress within a short time, thus enabling targeted optimization of   the product.

Testing Environmental Resistance

Environmental Laboratory

In the environmental laboratory of HENSOLDT Optronics, we carry out environmental testing in accordance with all common test standards in the fields of mechanical engineering, automotive engineering, rail transport, aerospace, telecommunications, medical technology   and many other areas for you.

To ensure that your product has the required performance both after storage and transport as well as during operation, we test the reliability of your products under extreme environmental conditions. In this way, we can determine changes in the behavior of the test specimen in response to mechanical and climatic stress within a short time, thus enabling targeted optimization of   the product.

Testing Environmental Resistance

Environmental Laboratory

In the environmental laboratory of HENSOLDT Optronics, we carry out environmental testing in accordance with all common test standards in the fields of mechanical engineering, automotive engineering, rail transport, aerospace, telecommunications, medical technology   and many other areas for you.

To ensure that your product has the required performance both after storage and transport as well as during operation, we test the reliability of your products under extreme environmental conditions. In this way, we can determine changes in the behavior of the test specimen in response to mechanical and climatic stress within a short time, thus enabling targeted optimization of   the product.

Testing Environmental Resistance

Environmental Laboratory

In the environmental laboratory of HENSOLDT Optronics, we carry out environmental testing in accordance with all common test standards in the fields of mechanical engineering, automotive engineering, rail transport, aerospace, telecommunications, medical technology   and many other areas for you.

To ensure that your product has the required performance both after storage and transport as well as during operation, we test the reliability of your products under extreme environmental conditions. In this way, we can determine changes in the behavior of the test specimen in response to mechanical and climatic stress within a short time, thus enabling targeted optimization of   the product.

Environmental Laboratory Specifications

Equipment / Tests

  • Temperature and humidty
    Equipment Specifications
    Temperature chamber Temperature from -70 to 180 °C in chambers from 0.05 up to 20 m3
    Temperature shock chamber Temperature shock -80 to 200 °C in one chamber with 0.03 m3 or by switching between two chambers up to 20 m2
    Temperature stress screening chamber -70 to 180 °C with 30 K/min in chamber with 0.5 m3
    Low pressure chamber (altitude) up to 5 mbar and -70 to 170 °C with 0.62 m3
    Climatic chamber Humidity 10 to 95 °C at max. 98 %  
    rel. humidity in chambers from 0.2 to 20 m3
  • Other testing
    Equipment Specifications
    Rain testing For rain and blowing rain up to 12 mm / min rainfall rate and a wind velocity of up to 20 m/s
    Solar simulator Solar Radiation cyclic (daily cycle) or constant up to 1,200 W/m2  for a irradiated area of about 2.5 m2
    Salt fog chamber Salt fog up to 55 °C with 5 % - NaCI-Solution in chamber with 0.48 m3
    IP IPX3 and IPX4 (spray nozzle), IPX5 (water jet), IPX7 and IPX8 (immersion)
  • Vibration / shock
    Element Specifications
    Shaker Vibration (Sine, Radom and Mixed Mode) up to 75k N as well as electro-dynamical shock and shock synthesis up to 140 kN, horizontal and vertical
    Shaker in combination with termparature chamber Vibraton and shock up to 28 kN with temperature -70 to 180 °C in chamber with 1.6 m3
    Shock testing Mechanical shock up to 600 g horizontal and vertical, shock Amplifier up to 10,000 g
    Free fall, rough handling Free fall test systems and quick release drop tester with up to 2 m drop height at max. 1,360 kg

Test parameters

  • Test Methods and Metrics

    Test Method

    Measurement Measurement Range
    Temperature Temperature -70 °C to 180 °C
    Temperature change Temperature -70 °C to 180 °C
    Temperature shock Temperature -80 °C to 200 °C
    Solar radiation Radiation up to 1,200 W/m²
    Low pressure* Temperature -70 °C to 180°C
      Pressure 0,1 kPa to 100 kPa
    Humidity Temperature 10 °C to 95 °C
      Relative Humidity 10 % to 98 %
    Salt fog 5% Temperature 35 °C to 55 °C
    Mechanical shock Acceleration 1g to 10,000 g
      Time 0.15 ms to 40 ms
    Free fall, tilting, toppling over Height 0,1 m to 2 m
    Vibration 1 Hz to 2 kHz Acceleration 0,1 g to 100 g
    Vibration at termerature 1 Hz to 2 kHz Acceleration 0,1 g to 100 g
      Temperature -70 °C to 180 °C
    Watertightness Flow Rate up to 12.5 I/min
      Rain Rate up to 20 mm/min
      Immersion up to 5 m
      Wind Velovity

    up to 20 m/s

    *not in accredited scope

     

     

  • Performance spectrum
    • Mechanical and climatic environmental tests
    • Modal- and operating deflection shape analysis. Measurements on eigenfrequency, modal damping and mode shapes*
    • Modulation Transfer Function MTF in the visible wavelength range during temperature stress*
    • Minimal Resolvable Temperature Differences MRTD in the infrared wavelength range during temperature stress*
    • Boresight accuracy of optical Systems during temperature stress respectively during or after mechanical loads*
    • Motion simulation in azimuth and elevation for determination of stabilization accuracy from stabilized platforms*
    • Thermoelastic analysis during vibration load*
    • Rough Handling, for example Free Fall, Tilting and Toppling Over
    • Sound intensity measurements*

    *not in accredited scope

  • Standards, e.g.
    • DIN ISO 9022
    • DIN EN 60068
    • ISO 16750
    • DIN EN 60529
    • EN 60529
    • MIL-STD-810
    • RTCA DO 160

Contact

HENSOLDT Optronics / Test Center

+49.7364.9557-0