1 of 11 General Information on Radiated susceptibility test Supported frequency Range : 20MHz to 6GHz Supported Field strength : 30V/m at 3 meter distance 100V/m at 1 meter distance
2 of 11 Signal generator Signal generator specifications Frequency 9KHz-6GHz 250KHz-40GHz Amplitude Modulation Modulations Frequency Modulation Pulse Modulation Frequency resolution 0.001 Hz Output Power @1 GHz -130 dbm to +23 dbm Phase Noise @1 GHz (20 khz offset) Neg 146 dbc/hz Output Resolution 0.01 db Output VSWR 1.4:1 (250 khz to 2 GHz) Sweep time 10 ms to 200 s RF Output Type-N female, 50 ohms GPIB, RS-232 and 10BaseT LAN Amplitude Modulation Modulation Frequency Range (3dB), f >100kHz DC/ 20 Hz to 20 KHz Modulation Depth 0 to 100% Resolution 0.1% AM Distortion at 1kHz(m<80%),0dBm <5% of reading +0.2% Frequency Modulation Frequency Deviation 20 to 100 khz Resolution 1%, min. 1 Hz Modulation frequency range (-3dB) standard DC/20 Hz to 80 KHz Pulse Modulation Phase Deviation 0 to 5 rad.(min.) Resolution 1% Setting error( at AF =1KHz) <5% of reading + 0.2 rad
3 of 11 1. Power Amplifier Power Amplifier specifications - 20MHz to 200MHz Frequency Range 20MHz to 200MHz Field strength 30V/m at 3 meter distance Gain (min) 64 db Gain Variation (max) ± 3.0 db max Harmonics at P1dB -80 dbc Load VSWR: Infinite for no damage Input Power (no damage) 0 dbm (1 mw) max Output VSWR tolerance 2:01 Stability Unconditional Output impedance 50 ohms Input VSWR 2:1 max Spurious -50 dbc typ. Type Solid state GPIB IEEE488/RS232/ETHERNET
4 of 11 Power Amplifier specifications - 80MHz to 1000MHz Frequency ( MHz) 80MHz to 1000MHz Field strength 30V/m at 3m distance Harmonics distortion -20 dbc Power output @ 3 db compression Nominal 1200 watts Gain 70dB Gain adjustment +/- 3.5 db Input impedance 50 Ohm Output impedance 50 Ohm Noise Figure 10.0 db Output VSWR 2:01 Spurious -80 dbc Type Solid state GPIB IEEE488/RS232/ETHERNET Power Amplifier specifications 1GHz 6GHz Frequency Range 1GHz to 6GHz Field strength 30V/m at 3m distance Gain (min) 52 db Gain Variation (max) +/- 1.0dB Harmonics at P1dB -20 dbc Third order intercept point IP3 10dB > P1dB Input Power (no damage) +15 dbm Output VSWR tolerance Infinite any phase Stability Unconditional Output impedance 50 Ohm Output VSWR 2:1 typical Input VSWR 2:1 max Spurious -70 dbc (min) -80 dbc (typical) Noise figure 6 db Type Solid state GPIB IEEE488/RS232/ETHERNET
5 of 11 2. Antennas Frequency Range Nominal Impedance: Pattern Type: Material: Max Power (7/16): VSWR 2.0:1 Impedance: Gain VSWR 2:1 Antenna specifications 20MHz - 200MHz 80MHz-1000 MHz 50Ω Horizontal, vertical Aluminum 5 kw f < 80 MHz 4.5 kw f < 100 MHz 3.5 kw f < 150 MHz 3 kw f < 200 MHz 50 Ohms nominal 7dBi minimum
6 of 11 Antenna specifications- 1GHz - 6 GHz Frequency Range 1GHz - 6 GHz Polarization linear Pattern Type Horizontal, vertical Material Aluminum Max Power (7/16) 1 kw (const.) 2kW (intermitt.) Max Power (N) 1 kw (const.) 1.5 KW (intermitt.) Impedance 50 Ohms nominal Gain 6-18 dbi VSWR 2:1
7 of 11 3. Power Meter Power Meter specifications Frequency 20MHz-40GHz Minimum Power range 70 dbm to +44 dbm (100 pw to 25 W, depending on the r sensor) Frequency resolution 0.001 Hz (0.01 Hz for all sweep modes) Single sensor dynamic range 90 db maximum Display units Watts or dbm Measurement speed: Up to 400 readings/sec with E-Series sensors Absolute accuracy ± 0.02 db logarithmic, ± 0.5% linear Zero set 0.18% Power output 1.00 mw (0.0 dbm) Relative accuracy ± 0.04 db logarithmic, ± 1% linear GPIB, RS-232 and 10BaseT LAN Channel 2 Channel ( Forward and Reverse power)
8 of 11 4. Power Sensor Frequency Minimum Power range Frequency resolution Measurement speed: Absolute accuracy Relative accuracy Power Sensor specifications 20MHz-40GHz 70 dbm to +44 dbm (100 pw to 25 W, depending on the attached power sensor) 0.001 Hz (0.01 Hz for all sweep modes) Up to 400 readings/sec with E-Series sensors ± 0.02 db logarithmic, ± 0.5% linear ± 0.04 db logarithmic, ± 1% linear GPIB, RS-232 and 10BaseT LAN
9 of 11 5. Field probe and Field Monitor Field probe and Field Monitor specifications Detection Isotropic (X, Y, and Z Axis Readings) Frequency Range 9 KHz to 6 GHz 9 khz to 2 GHz +1.0, -3.5 db Frequency Response 2 GHz to 5.5 GHz +3.5, -4.0 db 5.5 GHz to 6 GHz +2.0, -6.5 db Frequency Response with Correction 100 khz to 6 GHz ±0.9 db Dynamic Range 0.5 V/m to 800 V/m (Single Range) Resolution Isotropic Deviation Linearity Sample Rate (Typical) Overload Withstand Physical Display Probe Input(s) Data 0.01 V/m ±0.5 db @ 400 MHz ±0.5 db (1 to 800 V/m) 70 Samples/Second Maximum > 1500 V/m CW Duplex Optical Fiber (200 Micron Multi-mode) 13.5 cm x 10 cm Color LCD 4 Channel GPIB,IEEE-488, RS-232, USB
10 of 11 6. Software Specifications Fully automatic and integrated test system capable of doing automatic measurements and data extraction 7. Additional items with Radiated susceptibility test (But not limited to) NI software and GPIB cable to communicate between instrument and software. Optic fiber and RF cable to meet the above test requirement Instrument rack RF connectors Antenna Tripods Field probe stand Switches and directional coupler
11 of 11 Supported Standards EN/IEC 61000-4-3 EN/IEC 60730-1 ISO 11452-2 EN/IEC 61326-1 EN/IEC 60601-1-2 EN 300386 EN/IEC 60945 EN 301489-1 EN/IEC 61131-2 CISPR 35 EN/IEC 61800-3 EN/IEC 62040-2 EN/IEC 60255-1 EN/IEC 55014-2 EN/IEC 61439-1 EN/IEC 55024 EN/IEC 61547 EN/IEC 61439-1 EN/IEC 61000-6-1 EN/IEC 60255-1 EN/IEC 61000-6-2 EN/IEC 60669-2-1 EN/IEC 55020 ECE R10