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    Part Number or Numbers

    SEIBERDORF Product Catalog

    Model #
    Product Description
    No.
     
    Antennas
     
     
    Precision Measurement Antennas
     
    PCD3100
    Highly accurate antenna for validation of fully anechoic EMC test sites (CISPR 16-1-4) and for EMF-measurements e.g. with our Field Nose system in the frequency range 30 MHz to 1 GHz. The PCD3100 is delivered in a transportation case, individually calibrated with ÖKD certificate.
    MA2
    PCD8250
    Ultra wide band dipole antenna for EMF-field strength measurements e.g. with the Field Nose system in the frequency range from 80 MHz to 3 GHz. The PCD8250 is delivered in a transport case, individually calibrated with ÖKD certificate.
    MA3
    POD 16
    Broadband dipole for Site VSWR measurements according to CISPR 16-1-4 in the frequency range from 1 GHz to 6 GHz. The POD 16 is delivered in a transport case, individually calibrated with ÖKD certificate.
    MA4
    POD 618
    Broadband dipole for Site VSWR measurements according to CISPR 16-1-4 in the frequency range from 6 GHz to 18 GHz. The POD 618 is delivered in a transport case, individually calibrated with ÖKD certificate.
    MA5
    PLA-R
    The PLA-R antenna is an active, battery powered loop antenna for fully compliant radiated disturbance measurements. Due to the broad frequency range from 9 kHz to 30 MHz it is suitable for all emission standards.
    • receive Loop antenna 9 kHz – 30 MHz
    • Antenna stand for x, y and z orientation of the antenna
    • Battery charger
    • Flight case
    MA9
    PLA-T
    The PLA-T antenna is an active, battery powered loop antenna intended for Site Validation Testing in connection with PLA-R. No external power amplifier or low noise preamplifier is required.
    • transmit Loop antenna 9 kHz – 30 MHz
    • Antenna stand for x, y and z orientation of the antenna
    • Battery charger
    • PLA-TC Transmit Antenna Control Unit
    • PLA-DC Ground Loop Decoupling Unit
    • Flight case
    MA10
    LWA
    Long Wire Antenna (LWA) for ALSE Validation according to CSIPR 25 Ed. 4.0 in the frequency range from 150 kHz – 1 GHz
    • LWA (N-female Connectors)
    • 50Ω RF LOAD (N-male)
    • Right angle Connector (N-male/N-female)
    • 2 screw clamps
    MA11
     
    Precision Measurement Antennas
     
     
    In CISPR 16-1-4 Ed. 3.0 2010-04 (clause 8) the Site VSWR method to validate fully anechoic rooms in the frequency range 1 – 18 GHz is defined. Our POD antennas, the POD stand and the calibration procedure were developed to fulfill and exceed the requirements given in this standard.
     
    MS1
    Site VSWR set – manual:
    • POD16 antenna, individually calibrated with ÖKD certificate
    • POD618 antenna, individually calibrated with ÖKD certificate
    • SPM1 manual Site VSWR stand
    • flight case
    • antenna case
    • software CalStan 10.0 core application and Site VSWR module (see Chapter 4)
    Please specify:
    • Your measurement volume that we can deliver the Site VSWR Tripod for your individual heights and give this information as a part of your order to us. The maximum measurement height is 2,5 m.
    • The instruments to be used for Site VSWR testing (for instruments not available in our driver library the delivery time may be increased).
     
    MS2
    POD Antenna set:
    • POD16 antenna, individually calibrated with ÖKD certificate
    • POD618 antenna, individually calibrated with ÖKD certificate
    • antenna case
     
    MS3
    MS1 Site VSWR set without CalStan 10.0 software
     
    MS4
    Site VSWR set – automatic:
    • POD16 antenna, individually calibrated with ÖKD certificate
    • POD618 antenna, individually calibrated with ÖKD certificate
    • SPA1 automatic Site VSWR positioner
    • flight case
    • antenna case
    • software CalStan 10.0 core application and Site VSWR module (see Chapter 4) for control of test instruments and automatic positioner
    Please specify:
    • Your measurement volume that we can deliver the Site VSWR stand for your individual heights and give this information as a part of your order to us. The maximum measurement height is 2,5 m.
    • The instruments to be used for Site VSWR testing (for instruments not available in our driver library the delivery time may be increased).
     
    MS5
    In CISPR 16-1-4 the NSA method to validate fully anechoic rooms in the frequency range 9 kHz – 30 MHz will be defined. Our PLA antennas including stand were especially designed to fulfill the requirements.
    The PLA-Set is also suitable for SE measurements according to EN 50147 1 and IEEE 299

    PLA-SET:
    • PLA-R (Receive Antenna System)
    • PLA-T (Transmit Antenna System)
    • Antenna stand for x, y and z orientation of the antenna
    • PLA-TC (Transmit Antenna Control Unit)
    • PLA-DC (Ground Loop Decoupling Unit)
    • Battery charger
    • flight case

     
     
    Components, Accessories and Replacements
     
    AO1
    PCD Antenna case, transportation case for PCD3100 or PCD8250 antenna, additional PCD radiation elements and cables.
     
    AO2
    POD Antenna case, transportation case for two POD antennas.
     
    AO3
    POD Antenna stand for Site VSWR-measurements. The stand is delivered in a simple wooden box, not in the Flight Case (AO4). Please specify your measurement volume that we can deliver the Site VSWR Tripod for your individual heights and give this information as a part of your order to us. The maximum measurement height is 2,5 m.
     
    AO4
    Flight case designed for the POD Antenna Case, our Site VSWR Stand and cables.
     
    AO6
    Coaxial RF-cable, length 5 m, SMA-male/N-female connectors, specified from 100 MHz  to 18 GHz, delivered with a traceable ISO 17025 calibration report according our price list CALIBRATIONS, No L1c.
     
    AO7
    POD Antenna stand with automatic positioner for Site VSWR-measurements. The stand is delivered in a simple wooden box, not in the Flight Case (AO4).
    Please specify your measurement volume in the order so that we can deliver the positioner for your individual heights.
    The maximum measurement height is 2,5 m.
     
    AO8
    LWL interface to extend the RS232 connection for SPA1, contains interfaces, 30m and 5m LWL cable and 2 connectors
     
    AO9
    PLA-DC Ground Loop Decoupling Unit
     
    NO1
    Alternative large antenna elements for PCD8250 to change the frequency range of this antenna to 30 MHz – 1 GHz, delivered with typical antenna factor.
     
    NO5
    Coaxial cable, 10 MHz – 3 GHz, length 5 m, N-male connectors and traceable ÖKD calibration of cable attenuation.
     
    NO6
    Coaxial cable, 10 MHz – 3 GHz, length 10 m, N-male connectors and traceable ÖKD calibration of cable attenuation.
     
    NO7
    Ferrite beaded coaxial cable, 10 MHz – 3 GHz, length 10 m, N-male/SMA-male connectors, including traceable ÖKD cable loss calibration.
     
    NO11
    Antenna holder to mount a PCD antenna in horizontal or vertical polarization on a tripod (1/4» mount).
     
     
    Comb Generator
     
     
    RefRad is a battery operated comb generator for producing a well defined RF-coaxial output signal respectively field strength. It can be used to test the performance of EMC and EMF measurement systems in the frequency range of 10 kHz to 3 GHz. The unique antenna design of RefRad X offers omnidirectional radiation characteristics and the Fibre-Link increases the dynamic range by up to 30 dB. Using a dedicated antenna coupler for the check of a receiving system (receiving antenna, cables, connectors, receiver, and measurement settings) enables optimum repeatability of measurements. Also the influence of the measurement environment will be decreased because of the close distance between receiving antenna and emitting coupler. The new LISN coupler allows system check also for conducted emission test setups.
     
    RR4
    RefRad X comb generator (10 kHz, 1 MHz, 5 MHz spectrum), battery charger, 20 dB protective attenuator, documentation, all in one transportation case, individually calibrated with ÖKD certificate (coaxial output).
     
    RR5
    RefRad X Field Source: RefRad X comb generator (10 kHz, 1 MHz, 5 MHz spectrum), conical antenna element, H-Holder, battery charger, 20 dB protective attenuator, documentation, all in one transportation case, individually calibrated with ÖKD certificate (coaxial output)
    Field strength calibration upon request.
     
    RR6
    RefRad X Field Source, Sync Mode: System RR5 with additional Fibre-Link repeater, 2 fibre optic cables (5m and 10m).
     
     
    Components, Accessories and Replacements
     
    RO10
    RefRad X, comb generator with 10 kHz, 1 MHz and 5 MHz line spacing, spectrum beyond 3 GHz, output connector: N-female, Fibre-link ready,
    individually calibrated with ÖKD certificate (coaxial output)
     
    RO11
    Conical antenna element for RefRad X
     
    RO12
    H-Holder for mounting the RefRad X in horizontal polarization
     
    RO13
    Fibre-link for RefRad X: optical repeater to be connected to a 10 MHz reference frequency signal (e.g. from the test receiver). 
     
    RO14
    Fibre-optic cable, for use with RefRad X and fibre link
    length 30 m
    length 10 m
    length 5 m
     
    RO15
    Transportation case for RefRad X and components.
     
    RO16
    LISN coupler for RefRad X
    400V (16A or 32A plug)
    230V
    DC
     
    RO17
    FibreSync X: optical converter for 10 MHz reference frequency signal in combination with FibreLink X.
     
    RO2
    Battery charger for RefRad X comb generator.
     
    RO3
    Protective attenuator, 20 dB, N-connectors, to protect the analyzer input at coaxial measurements by using the RefRad 3000.
     
     
    CalStan Software
     
     
    CalStan is software for the automation of RF-measurements and calibrations. It is implemented as modular concept based on a core application and different measurement modules which could be added and used individually with the CalStan core. Various GPIB device drivers are available, however individual driver programming is possible on request. The software can be downloaded from www.seibersdorf-laboratories.at/rf; the license is shipped by mail.
     
    SW11
    CalStan 10.0 complete edition
    besides the core application, modules for NSA SAC, NSA FAR, site VSWR cable loss and experimental measurement are included.
     
    SW2
    Site VSWR module
    For Site VSWR measurements and evaluation according CISPR 16-1-4
     
    SW3
    NSA SAC module
    NSA for semi anechoic chambers and open area test sites with weather protection (measurements with broadband antennas) according to following standards and procedures: ANSI C63.4-2003 (swept frequency), ANSI C63.5-2005 (Geometry Specific Correction Factor), CISPR 16-1-4 Amd.1 Ed 3.0 from 2012-07, EN 50147-2, 1996, Site Reference Method, Seibersdorf Dual Antenna Factor Method.
     
    SW4
    NSA FAR module
    NSA for fully anechoic rooms according to following standards and procedures: CISPR 16-1-4 Amd.1 Ed 3.0 from 2012-07, Seibersdorf Transmission Loss Method.
     
    SW5
    Cable loss module
    measurement of attenuation of cables, attenuators and other coaxial devices
     
    SW6
    Experimental measurement module
    measurement of RF Power Level, Field Strength, S11, S21 with additional control of signal generator and antenna mast if applicable for customer specific applications (e.g. Ambient Noise, Table influence, …).
     
    SW10
    Device drivers
    Implementation of devices to CalStan 10.0. Therefore we need the instrument at Seibersdorf. Delivery time and price on request.
     
     
    Preamplifier
     
     
    The SVV Preamplifiers are developed for increasing the dynamic range on various applications in the EMC test lab, mainly site validation tests and it comes in a rugged compact design.
    Typical measurements where the SVV can be used:
    § Normalized Site Attenuation according to CISPR 16-1-4 and ANSI C63.4.
    § Site VSWR according to CISPR 16-1-4
    § Ambient Noise measurements according to CISPR 22 and CISPR 25
    § Shielding effectiveness measurements according to EN 50147-1, IEEE299.
     
    SVVC
    Preamplifier SVV-C (10 MHz – 1.5 GHz), Gain 36 dB type.
    Power supply, documentation, individually calibrated with ÖKD certificate
     
    SVVD
    Preamplifier SVV-D (1 GHz – 18 GHz), Gain 37 dB type.
    Power supply, documentation, individually calibrated with ÖKD certificate