Schwarzbeck Mess Elektronik
An international manufacturer of precision measurement technology, Schwarzbeck has own laboratory facilities to calibrate a variety of instruments, antennas and measurement equipment of EMC and RF technology.
- +49 (0) 6228 / 1001
- +49 (0) 6228 / 1003
- office@schwarzbeck.de
- Ziegelhäuser Straße 25
Schönau, D - 69250
Germany
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Product
Broadband Horn Antennas
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Offer a very low SWR in their nominal frequency range and a very broad bandwidth. The increasing gain with frequency helps to compensate cable losses. Is suitable for both, transmission and receiving applications. The max. allowed Input Power is only limited by the coaxial connector.
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Product
Special - LISN
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Impedance stabilization network which can be used to measure disturbance voltages of PLC (power line communication).
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Product
LISN Line Impedance Stabilisation Networks / AMN Artificial Mains Network
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A LISN Line Impedance Stabilization Networks / AMN Artificial Mains Network: *supplies the neccessary mains voltage (AC or DC) and current for the Equipment under Test (EuT).*couples interference voltage generated by the EuT and supplies it to the receiver.*provides well defined RF-impedance to the Equipment under Test (EuT)*keeps away unwanted disturbance coming from mains (filter)*protects the mains from unwanted disturbance voltage generated by the EuT
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Product
Rod Antennas
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Also known as whip antennas or monopole antennas, are a fundamental type of antenna used in various wireless communication systems. Due to their simple structure, high efficiency, and broad application range, rod antennas are widely utilized in mobile communication, broadcasting, navigation, and other fields.
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Product
Active Antennas
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Is an antenna that contains active electronic components such as transistors, as opposed to most antennas which only consist of passive components such as metal rods, capacitors and inductors.
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Product
Biconic Logarithmic Periodic Antennas (Hybrid)
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It combines the electrical properties of two antenna (biconical and Log ).
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Product
High Gain Horn Antenna
BBHA 9120 K
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The BBHA 9120 K is a linear polarized high gain horn antenna for immunity testing at short distances, especially optimized forAutomotive 600 V/m Pulse Radar Test 1.2 - 1.4 GHz. Standard: General Motors: GMW3097, Ford: EMC-CS-2009.
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Product
CDN - Coupling / Decoupling Networks
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The Coupling- / Decoupling Networks are used to inject common mode disturbances to Equipment under Test (EuT). Further the CDNs provide sufficient decoupling between Auxiliary Equipment (AE) and disturbance signal. The requirements for CDN and their application are described in the standard IEC 61000-4-6 (Immunity to conducted disturbances, induced by radio-frequency fields). CDNs have a common mode impedance of 150 Ohm and are available for a multitude of cable types and connectors.
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Product
ISN / T-Networks
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Is used to measure the asymmetrical interference voltage on symmetrical data or telecommunication lines.
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Product
Dual Polarized Broadband Horn Antennas
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Linear polarized dual double ridged broadband antenna for receive and transmit applications made of aluminium.
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Product
Antennas
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Is a specialized transducer that converts electric current into electromagnetic (EM) waves or vice versa.
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Product
Absorbing Clamps
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The Absorbing Clamp was designed to measure the disturbance power according to CISPR 16-2-2 in the frequency range 30-1000 MHz, it complies to the technical requirements of CISPR 16-1-3.
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Product
Passive Magnetic Antennas, TX-Loop Antennas
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A passive loop antenna which is matched to a resonance frequency of 13.56 MHz with 370 kHz bandwidth (-3dB)The purpose of the antenna is to produce defined magnetic fields at 13.56 MHz efficiently, i.e. to test near field communication devices (NFC) or RFID equipment.
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Product
Antenna Holders / Baluns
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They are vital components in radio antenna systems. They enable the conversion of a balanced signal to an unbalanced one, ensuring optimal communication between the antenna and the radio.
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Product
Dipoles
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Tuned half-wave dipoles have been among the most important antennas from the beginning of rf-technique. The characteristics of half-wave dipoles have been calculable very early using the Maxwell and Hertz equations. Therefore the half wave dipole became a reference antenna.
