EMI Measurement Receiver
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www.lignex1.com Full compliance EMI Measurement Receiver Cost Effective & High performance Optimized Solution for EMI Full compliance Test Main Features RF Performance • Standard Built-in Pre-selector, Tracking Generator • Standard Built-in Pre-Amplifier1(Gain: 20dB nominal @ 1kHz ~ 3GHz) • Standard Built-in Pre-Amplifier2(Gain: 30dB nominal @ 30MHz ~ 26.5GHz) • 6dB EMI Measurement Bandwidth conforming to CISPR, MIL Standard • Broadband Built-in Pre-amp (30MHz ~ 26.5GHz) • CISPR Detector(Peak, Average, Quasi-Peak Display simultaneously, RMS Display) • For all commercial EMI Standards • GPIB, RS-232C, LAN Interface • LabView, LabWindows, CVI Driver • User-friendly functions based on Windows XP OS • Optional built-in C/W Signal Generator(1.3GHz/3.3GHz/6.6GHz) • Free NSA(Normalized Site Attenuation) measurement SW • Integrated measurement solution EMI Total Solution 2008(With LSA-30/132/265) • Frequency range from 3Hz to 26.5GHz • Displayed Average Noise Level: Typical -168dBm/Hz(Pre-amp2 on) • 1dB Compression: Nominal +2dBm @ 1.5GHz ~ 3GHz(Without Pre-selector off) • Noise Figure: Typical +5dB(Pre-amp2 Option) • Phase Noise: Typical -115dBc(@ 10kHz offset) Main Uses • EMI Full Compliance(CE, RE) test certification • Debugging • Normalized Site Attenuation for Chamber(NSA) • EMI Pre-test(R&D, Manufacturing) • Wireless Frequency Analysis (Mobile Telecommunication, WLAN, WiMAX) EMI Full Compliance Measurement EMI Full Compliance Measurement Cost Effective & High performance Optimized Solution for EMI Full compliance Test Leading in Features •Debugging in Spectrum Analyzer mode(Scan mode/Spectrum Debugging Mode) •Maximum 6 sub-ranges, set frequency range, step size, Bandwidth, Measure Time etc. by ranges •Display a trace and a limit line of 3 detectors, Quasi-peak, Peak, Average •All Commercial EMI Standards such as KN, EN, FCC etc based on CISPR •Amplitude Correction functions: Antenna, Cable, User’s own factors •CISPR verification mode for EMI Lab, Institution, RMS measurement function available •X Scale Log/Linear conversion function •Standard Built-in Pre-selector(14 pre-selection filters) for precise measurement •Standard Built-in Tracking Generator both for Pre-selector alignment and Normalized Site Attenuation in Test house •Standard Built-in Pre-Amplifier1(Gain: 20dB nominal @ 1kHz ~ 3GHz) •Standard Built-in Pre-Amplifier2(Gain: 30dB nominal @ 30MHz ~ 26.5GHz) •10.4" TFT Wide Screen LCD •System OS: Windows XP Professional •Remote control: GPIB, RS-232C, LAN Interface(Standard) •Labview, Labwindows, CVI Driver •Installable Printer Driver(XP) •Optional built-in C/W Signal Generator(1.3GHz/3.3GHz/6.6GHz) Outstanding Performance •Frequency Range : 3Hz to 26.5GHz •Total measurement uncertainty - Pre-selector on, Pre-Amp On : 1.0dB(Up to 1GHz) - Pre-selector on, Pre-Amp Off : 0.5dB(Up to 3GHz) •Noise Figure : Typical +5dB(@ 30MHz ~ 100MHz, Pre-amp2 On) Typical +7dB(@ 100MHz ~ 3GHz, Pre-amp2 On) •Phase Noise : Typical -115dBc(@ 10kHz offset) •TOI: Typical +20dBm(@ 100MHz ~ 1GHz, Pre-amp off) •DANL : Typical -168dBm/Hz(@ 30MHz ~ 26.5GHz, Pre-amp2 On) •SHI: Nominal +80dBm(@1.5GHz ~ 26.5GHz, Pre-amp off) •EMI Measurement Bandwidth(6dB): 200Hz, 9kHz, 120kHz 10Hz, 100Hz, 1kHz, 10kHz, 100kHz, 1MHz, 1MHz Impulse High Performance Spectrum Analyzer •Fully Digital IF(RBW/VBW) - RBW: 1Hz to 5MHz(1Hz ~ 300Hz : FFT Mode, Shape factor : < 4.5:1 ) - VBW: 1Hz to 3MHz •Residual Response: -95dBm(nominal)@1MHz ~ 26.5GHz(Input termed, 0dB Attenuation) •Sweep time: 10ms ~ 2000s(1㎲ ~ 2000s: Zero span) •RF Input Attenuator: 0dB ~ 55dB (5dB step) 2 •Digital AM/FM Demodulation •Powerful RF measurement personalities such as ACR, Phase Noise, CCDF, TOI, Spurious Emission, Spectrum Emission Mask etc. •LIG Nex1’s EMI Receiver Can verify every EMI standard in full compliance with CISPR in the frequency range from 3Hz to 3GHz. •Experience the LIG Nex1’s EMI Receiver verified in the fields of EMI Conducted and Radiated Emission LIG Nex1’s EMI Receiver Can verify every EMI standard in full compliance with CISPR in the frequency range from 3Hz to 3GHz. Experience the LIG Nex1’s EMI Receiver verified in the fields of EMI Conducted and Radiated Emission Commercial standards Military standards ◆ CISPR11.22 ◆ VG95370.95377 ◆ EN55011.55022 ◆ DEF-STAN49.41 ◆ VDE0872.0879 ◆ GAM-EG13 ◆ ANSI-C63.4 ◆ MIL-STD-461E ◆ FCC15, 18 ◆ EACL1.8 Main Uses Full Compliance for EMI standards(CE, RE) EMI Pre-Test for R&D, Manufacturing Used for a professional certification purpose, the EMI Receiver extracts precise measurement values by combining with an antenna within a standardized chamber such as Test House. It also conforms to a variety of domestic and every industry standards(CISPR 16-1-1). The built-in Pre-Selector enables the equipment to remove mutual interferences within the measuring bandwidth and to measure the noise value of EUT precisely while Tracking Generator is designed not only to correct Pre-selector but also to enable to analyze the Scalar Network simultaneously. In the fields of R&D and manufacturing for RF equipment, module, parts, and etc., The ER Series enables users to save high costs of the EMI Test and debugging that are usually fulfilled the certified EMI lab or institution and reduce the trouble shooting time. Also, users can get the reliable EMI test results under the various test environments by simulating the field correction factors using the convenient correction factor table. Debugging for EMI R&D, Lab Monitoring the test environment such as antenna, turn table, and etc. in the test house(Chamber) specified in CISPR 16-1-4 automatically in real time, and correct it according to the gathered VSWR data. Users can optimize EMI test environment in the test house before starting EMI Test. During the EMI test , users can detect the exact weak points of the EUT under various environments specified on the EMI standards of each country, and find how to improve the design by testing its RF characteristics precisely In the specturm analyzer mode. LIG Nex1’s EMI receiver provides powerful spectrum analyzer performance and personalities such as Spurious Emission, Phase Noise, TOI, CCDF, and etc. basically so that users can analyze the exact weak points and improve them. NSA(Normalized Site Attenuation): Environment test in Chamber 3 Scan mode •Base mode for EMI measurement •Peak, Average, Quasi-Peak 3 detectors simultaneously •Display separate wave forms by detectors •Scanning according to the set value in range of the configuration table •Scan from 3Hz to 26.5GHz •Support 6dB BW Filter (1MHz Impuse ~ 10Hz, 10 units in total) •Precise measurement of low level signals with a built-in pre-amplifier EMC configuration table •Set maximum 6 Ranges for customer’s own purposes •Set Start/ Stop frequency, Step, Measure time, Measure bandwidth, built-in pre-amp, Attenuator by ranges •Display all factors of scan information simultaneously •Antenna, Cable, Other, User’s factors Scan information •Display the detailed test results on scanning •Display the set value of the selected range •The current position and level by detectors •Display pass or fail on the set limit line •Quantities of the points over the limit line Limit line setting •Set limit lines by detectors(Peak, Quasi-peak, Average) •Alarm sound when the value is over the limit line •Various limit lines conforming to the world EMI standard CISPR mode •Peak, Average, Quasi-peak detection in a certain frequency •Bargraph display for 3 detectors that help a user see the results •Setting an attenuator according to the level of signal •CISPR-16 standard 4 Debug mode •Display information of a noise or signal detected in Scan mode under the Spectrum Analyzer mode in details •This mode sweeps just as Spectrum Analyzer •Use of 6dB IF BW Filter (1MHz Impuse ~ 10Hz, 10 units in total) •Sweep from 3Hz to 26.5GHz Edit limit line •Draw and edit limit lines for any user’s needs •Different colors of lines for better view •Save, load, edit each Detector •Maximum 200 points available Editing Correction File •Direct editing of a variety of Correction Factors •Correction by entering a negative value for gains and a positive value for loss due to Amp •Designating up to 8,192 positions •Correcting the whole range in case there is a single corrective value •Correction through a linear interpolation between correction points •Identified by four factors of Antenna, Cable, Other, and User Real data for limit line •Save and load the test results into .EMT file •Available general text editor(notepad, wordpad, word) •Editing available on a general PC and LSA •Edit with the Microsoft excel program Real data for antenna •Save and Load the test results into .ANT file •Available general text editor(notepad, wordpad, word) •Edit the test results with Microsoft Excel program 5 Selection Guide [unit: thousand won] Positioning 50,000 ER-265 (26.5G) 40,000 30,000 LSA-30 (3G) 20,000 10,000 NS-265A (26.5G) NS-132A (13.2G) LSA-265 (26.5G) ER-30 (3G) LSA-132 (13.2G) NS-30A (3G) Performance Pre-compliance Model Name Full compliance Composition Feature NS-30A NS-30A, EM-01, QP, PA NS-30A, EM-01, QP, PA NS-132A NS-132A, EM-01, QP, PA 13.2 GHz Analog Type Frequency Analyzer NS-265A NS-265A, EM-01, QP, PA 26.5 GHz Analog Type Frequency Analyzer LSA-30 LSA-30, EM-02 3GHz Digital Type High-end Frequency Analyzer LSA-132 LSA-30, EM-02 13.2GHz Digital Type High-end Frequency Analyzer LSA-265 LSA-30, EM-02 26.5GHz Digital Type High-end Frequency Analyzer ER-30 LSA-30, EM-02, PS, TG 3GHz Digital Type High-end EMI Receiver [Professional Certification Equipment used for issuing EMI Test Result] ER-265 LSA-30, EM-02, PS, TG, LNA 26.5GHz Digital Type High-end EMI Receiver [Professional Certification Equipment used for issuing EMI Test Result] Usage Debugging Debugging / Pre-Test Compliance ※ EM-01: EMI measurement SW for NS, EM-02: EMI measurement SW for LSA, QP: Quasi Peak Detector, PA: Pre-Amplifier, PS: Pre-Selector, TG: Tracking Generator, NA: Low Noise Amplifier 6 Measuring Environment Test (Normalized Site Attenuation: NSA) An optimized pre-test environment can be established with additional differentiated functions of monitoring the internal environment of Test House chambers on a real time basis and extracting data (VSWR) to correct it for the first time in the world, as specified in CISPR 16-1-4. NSA(Normalized Site Attenuation) Measurement ANT Master Signal Generator Turn Table Spectrum Analyzer (ER-265, LSA-265) R1 to R6 Ceiling Reference point C1 to C6 F1 to F6 Top Test volume D Bottom L1 to L6 SVSWR measurement positions in a horizontal plane n2 = top of volume n1 = 1.0m above bottom of volume na Floor 7 EMI Total Solution 2008 [With ER-30/265] ETS2008 is a VISA library-based windows application that you can use on a windows PC. It remotely controls LSA Series (Firmware Ver 1.89 or higher) using Serial, GPIB or LAN and provides a variety of conveniences on a PC based on measurement data obtained through LSA Series. It also provides users with various additional user-convenient functions including measurement data management which is not implemented within LSA Series, documentation of measurement result and saving image file. 8 PRE-SELECTOR [EPS-30B] Feature Characteristics •CISPR Band A, B(9kHz to 30MHz) •On-line & Off-line Control •Selectable 8 BPF •Front VFD panel(Dispaly current filter path •PRE-SELECTOR, located at the front of receiver module, plays a role of enabling more precise measurement by accepting necessary signal bandwidth only and thus removing the harmonic output generated within the receiver module by a bulk signal input. •CISPR Band A(9kHz ~ 150kHz), Band B(150kHz ~ 30MHz) Measurement available •Unique user-friendly functions through front panel filter selection switch and VFD panel used as a status indicator Specifications Frequency range 9kHz ~ 30MHz Control Serial Interface Push-Button switch Input / output impeddance 50 Ohm Display VFD Panel Input / output connector N(Female) Input level(Max) +30 dBm, 50VAC Pass band flatness 2dB Insertion Loss 7.0dB Power[V] AC 100 ~ 240 Channel 8 Size(W x D x H) [mm] 330 x 342 x 50 VSWR < 2.0 Weight[kg] 3.0Kg Block Diagram By-Pass 9kHz ~ 150kHz 150kHz ~ 0.6MHz 0.6MHz ~ 1.2MHz INPUT Switch Switch OUTPUT 1.2MHz ~ 2.5MHz 2.5MHz ~ 5MHz 5MHz ~ 10MHz 10MHz ~ 30MHz 9 Specifications FREQUENCY Frequency range Frequency reference Frequency readout DC coupled AC coupled Resolution Temperature Drift Aging per year Maker resolution Accuracy Resolution Frequency counter Accuracy Sensitivity Frequency span Scan (Receiver Mode) Sweep (Analyzer Mode) Trigger Spectral purity Residual FM RBW VBW FFT filters Preselection Preamplifier1 Preamplifier2 (LSA-265) 10 Range Resolution Accuracy Measurement time per frequency Zero span Span ≥ 10Hz sweep points AMPLITUDE [ppm] [ppm] 3Hz ~ 26.5GHz 1Hz ±0.1 ±0.3 depending on span and measurement points(1Hz min.) ±(maker frequency x reference error + 0.5% x span + 5% x RBW + 0.5 x Horizontal resolution) * 1 Hz/10 Hz/100 Hz/1 kHz ± ((reference frequency accuracy x marker frequency accuracy) ± (counter resolution x 1LSB)) -60 dBm @3GHz>f>2MHz, span<3MHz -55 dBm @13.2GHz>f>3MHz, span<3MHz -50 dBm @26.5GHz>f>13.2MHz, span<3MHz 0Hz, 10Hz~3GHz/26.5GHz 1Hz ±1% scan of max. 6 subranges with different, independent settings Display range Maxium input level RF input attenuator 1 dB CP 1ms to 100sec 1 us to 2000 sec, ±0.5% 10 ms to 2000 sec, ±0.5% nominal 3 to 8192(span = 0 Hz), 101 to 8192(span ≥ 10Hz) source External, Line, Video, Free run, Burst Span ≥10 Hz offset 1 us to 500ms source External, Line, Video, Free run Span = 0 Hz offset -150 ms to +500 ms 100Hz offset [dBc/Hz] -83(-87 typical) @ f=1GHz, 0dBm input 1kHz offset -92(-96 typical) 10kHz offset -112(-115 typical) 100kHz offset -112(-115 typical) 1MHz offset -136 10MHz offset -144 < 10 x N** Hzp-p in 1 sec 3dB bandwidths 1Hz to 5MHz (1-2-3-5 sequence) ± 3%(@ 500Hz ~ 500kHz Filter) Bandwidth accuracy ± 10%(@ 1MHz ~ 5MHz Filter) Shape factor -60dB:-3dB < 5(@500Hz ~ 5MHz) ± 0.05dB nominal @ 5kHz RBW reference, Bandwidth switching uncertainty CF=100MHz EMI Bandwidths(6dB 200Hz, 9kHz, 120kHz, 10Hz, 100Hz, 1kHz, 10kHz, Bandwidths) 100kHz,1MHz, 1MHz Impulse ± 3% @ 10Hz ~ 120kHz Filter Bandwidth accuracy ± 10% @ 1MHz, 1MHz Impulse Shape factor -60dB:-6dB <5 3dB bandwidths 1Hz to 3MHz, none(1-2-3-5 sequence) 3dB bandwidths 1Hz to 300 Hz(1-2-3-5 sequence) Bandwidth accuracy <1%, nominal Shape factor(-60dB : -3dB) <4.5, nominal 14 preselection filters are switched off in analyzer mode. 3 Hz to 150 kHz, fixed LPF Type 150 kHz to 600 kHz, fixed BPF 600 kHz to 1.2 MHz, fixed BPF 1.2MHz to 2.5 MHz, fixed BPF 2.5MHz to 5 MHz, fixed BPF 5MHz to 10 MHz, fixed BPF 10MHz to 30 MHz, tracking BPF 30MHz to 90 MHz, tracking BPF 90MHz to 200 MHz, tracking BPF 200MHz to 400 MHz, tracking BPF 400MHz to 700 MHz, tracking BPF 700MHz to 1000 MHz, tracking BPF 1GHz to 3GHz, fixed HPF 3GHz to 26.5GHz, tracking BPF(YTF) switchable between preselection and 1st mixer Range 9kHz to 3GHz Gain 20dB, nominal, NF=3.5dB typical switchable between attenuator and preselection Range 30MHz to 26.5GHz Gain 30dB, nominal, NF=3.5dB typical Third-order intermodulation distortion (TOI) DC(AC coupled) DC(DC coupled) CW RF power Peak Power Preamp1 on Range Steps Switching accuracy 0 dB RF attenuation, Preselection off [dBm] Preamp1 on Preamp2 on [dBm] [dBm] Preselector off, preamp off [dBm] Preselector on, preamp off [dBm] Preselector on, preamp1 on [dBm] Preselector off, preamp off [dBm] Second harmonic Preselector on, intercept (SHI) preamp off [dBm] Preselector on, preamp1 on [dBm] Preselector off, preamp off [dBm/Hz] Displayed average noise Preselector on, level (DANL) preamp off [dBm/Hz] Preselector on, preamp1 on [dBm/Hz] Preselector on, preamp2 on(Option) [dBm/Hz] DANL to +30dBm ±50VDC(Option) 0VDC +30dBm +50dBm, 5usec pulse width; 0.5% duty cycle +20dBm 0 to 55dB 5dB ±0.5 dB @ 100MHz(LSA-30) ±0.5 dB @ < 13.2GHz (LSA-132, 265) ±0.8 dB @ 13.2GHz ~ 26.5GHz (LSA-265) total power at input mixer -1 nominal @ 10MHz ~ 1.5GHz +2 nominal @ 1.5GHz ~ 3GHz -3 nominal @ 3GHz ~ 26.5 GHz -30 nominal @ 1GHz -40 nominal @ 1GHz two –30dBm tones at input mixer with tone separation > 100 kHz +15 typical @ <100MHz +15, +20(typical) @ 100MHz ~ 1GHz +18, +25(typical) @ 1GHz ~ 3GHz +15 typical @ <100MHz +15, +20(typical) @ 100MHz ~ 1GHz +18, +25(typical) @ 1GHz ~ 3GHz +15, +20 (typical) @ 3GHz ~ 26.5GHz 0 typical @ <100MHz -3, 2 typical @ 100MHz ~ 1GHz 3, 10 typical @ 1GHz ~ 3GHz +30, 40 typical @ <100MHz +40, 50 typical @ 100MHz to 1.5GHz +80 nominal @ 1.5 GHz to 26.5 GHz +40, 55 typical @ <100MHz +50, 60 typical @ 100MHz to 1.5GHz +40, 55 typical @ <500 MHz +25, 35 typical @ 500 MHz to 1.5 GHz 0 dB RF attenuation, 50 Ω termination, zero span, sweep time 100msec, RBW 1kHz, VBW 10Hz, Average detector, trace average 10, nomalize to RBW 1Hz -90 nominal @ 3Hz to 1kHz -100 nominal @ 1kHz to 9kHz -140 @ 9kHz to 100kHz -145, -151 typical @ 100kHz to 10MHz -150, -153 typical @ 10MHz to 1GHz -147, -150 typical @ 1GHz to 1.5GHz -144, -148 typical @ 1.5GHz to 2.5GHz -142, -146 typical @ 2.5GHz to 3GHz -142, -145 typical @ 3GHz to 6.4GHz -140, -143 typical @ 6.4GHz to 16GHz -138, -141 typical @ 16GHz to 20GHz -136, -140 typical @ 20GHz to 24GHz -132, -136 typical @ 24GHz to 26.5GHz -90 nominal @ 3Hz to 1kHz -100 nominal @ 1kHz to 9kHz -138, -142 typical @ 9kHz to 100kHz -140, -142 typical @ 100kHz to 10MHz -147, -150 typical @ 10MHz to 300MHz -145, -147 typical @ 300MHz to 900MHz -142, -146 typical @ 900MHz to 1.5GHz -140, -144 typical @ 1.5GHz to 2GHz -138, -141 typical @ 2GHz to 2.5GHz -134, -137 typical @ 2.5GHz to 3GHz -145, -150 typical @ 9kHz to 100kHz -155, -160 typical @ 100kHz to 10MHz -160, -163 typical @ 10MHz to 300MHz -158, -160 typical @ 300MHz to 900MHz -156, -159 typical @ 900MHz to 1.5GHz -154, -157 typical @ 1.5GHz to 2GHz -150, -154 typical @ 2GHz to 2.5GHz -148, -152 typical @ 2.5GHz to 3GHz -163, -166 typical @ 30MHz to 100MHz -165, -168 typical @ 100MHz to 3GHz -165, -168 typical @ 3GHz to 16GHz -163, -166 typical @ 16GHz to 22GHz -160, -163 typical @ 22GHz to 26.5GHz Immunity to interference Residual responses (input termed, 0 dB attenuation) Other Input related spurious [dBm] -95 @ 1MHz ~ 6.4 GHz -95 nominal @ 6.4 GHz ~ 26.5 GHz [dBc] -60 @ -30 dBm input 0.1 to 1 dB/div in 0.1 dB steps 1 to 20 dB/div in 1 dB steps 10 divisions dBm, dBµV, dBmV, dBpW(log level display) µV, mV, pW, nW(linear level display) -170 dBm to +30 dBm, 0.1 dB steps 7.07 nV to 7.07 V in 1% steps 0 dB 3 traces Normal, peak, sample, negative peak, log power average, RMS average, and voltage average, Quasi-peak Clear/Write, Max Hold, Min Hold, View, Blank, Average 10 dB input attenuation, preselector centering applied, reference to 100MHz ± 0.5dB at 3Hz to 3.0GHz ± 1.0dB at 3.0GHz to 6.4GHz ± 1.5dB at 6.4GHz to 13.2GHz ± 2.0dB at 13.2GHz to 22GHz ± 2.5dB at 22GHz to 26.5GHz Log scale Display range Linear scale Units of level axis Reference level Traces Logarithmic range Linear range Accuracy number Trace detectors Trace functions Preselector off, preamp off Frequency response Preselector on, preamp1 off Preselector off, preamp1 on Preselector on, preamp1 on Preselector on, preamp2 on Display Linearity Linear and Log Switching Error Log scale Switching Error Reference frequency output Reference frequency input GPIB ± 1.0dB at ± 1.5dB at ± 1.0dB at ± 1.5dB at ± 1.0dB at ± 1.5dB at ± 2.0dB at ± 2.5dB at 0 [dB] 0 30Hz to 1.0GHz 1GHz to 3.0GHz 30Hz to 1.0GHz 1GHz to 3.0GHz 3.0GHz to 6.4GHz 6.4GHz to 13.2GHz 13.2GHz to 22GHz 22GHz to 26.5GHz Cal. Out CISPR 16-1 AM demodulation depth FM deviation range Audio output port ~ 100% ~ 100kHz loudspeaker, phone jack Display Mass memory Environmental Conditions Mechanical resistance EMC Safety Inputs and outputs Type Front RF input VSWR 3rd IF output 2nd IF output 1st LO Output (for external mixer option) 2nd IF Input (for external mixer option) Probe power supply Audio output Ext trigger input Type Frequency Bandwidth Level Type Frequency Bandwidth Level Type Frequency Level Type Frequency Level Type Type Trigger level Rear Rear Front Front N female, 50 Ω (LSA-30) APC 2.92 mm/N female, 50 Ω(LSA-265) ≥10 dB input attenuation, DC coupled <1.2 @ up to 1GHz <1.5 nominal @ 1GHz to 3GHz <1.8 nominal @ 3GHz to 13.2GHz <2.0 nominal @ 13.2GHz to 26.5GHz <2.0 @ up to 1GHz, <10dB attenuation BNC female, 50 Ω nominal 21.4 MHz 16MHz Max, different as Prefilter +3dBm nominal, Top of screen SMA female, 50 Ω nominal 421.4 MHz 40MHz 0dBm nominal, Top of screen SMA female, 50 Ω nominal 3321.4 ~ 6821.4 MHz +10dBm, nominal SMA female, 50 Ω nominal 421.4 MHz -20dBm(MAX) Front +15V,-12V, GND Front Rear phone jack BNC female, 10k Ω nominal TTL nominal Frequency Level Rear BNC female TTL nominal Rear BNC female 10MHz +5dBm, nominal Rear BNC female 10MHz –5 to +15 dBm nominal Rear IEEE 488.2, 24-pin female SCPI 1997.0 SH1,AH1,T6,L4,SR1,RL1,PP0,DC1,E2,LE0,TE0 Rear RS-232C(COM), 9-pin D-SUB male Rear 10/100 Base T, Connector RJ45 Front/Rear 1.1 or Higher(2.0), 3EA Rear Standard 25pin female D-Sub Parallel Rear 15-pin mini D-SUB, 800 X 600 Front PS/2-compatible Front PS/2-compatible Front 100MHz -20dBm + 1.0dB General specifications ±0.1 total @ input mixer level ≤-20dBm ±0.13 total @ -20dBm < mixer level ≤-10dBm Qusi-peak display Type Trigger level Type Frequency Level Type Frequency Required level Type Command set Interface functions Serial interface LAN interface USB Printer interface Monitor output(VGA) Mouse connector Keyboard connector ± 0.7dB at 30Hz to 3.0GHz [dB] Linearity Demodulation Sweep gate output Power supply Size Resolution 10.4" color TFT LCD 800 x 600 pixels Hard Disk MIL-PRF-28800F, Class 3 Operating 0°C to +50°C Permissible*** 0°C to +55°C Temperature Storage –40°C to +71°C Humidity 5% to 95% **** Altitude 4,600 Meters(15,000 Feet) MIL-PRF-28800F, Class 3 Vibration, random 5Hz to 500Hz Vibration, inusoidal 5Hz to 55Hz Shock 30G, Half-sine Shock pulse IEC/EN 61326:1997+A1:1998+A2:2001+A3:2003 IEC/EN 61010-1: 2001+C1:2002+C2:2003 88 - 135VAC(Range1), 193 - 269VAC or 273 Steady State Voltage 381VDC(Range2) (Automatically selected) 45 - 66Hz AC(Voltage range1, 2), Frequency 360 - 440Hz AC, 100 - 135VAC(Voltage range 1only) Power consumption Dimensions (WxHxD) Weight Recommended calibration interval Standard Warrenty 280 Watt Max [mm] [kg] 430(W) x 222(H) x 467(D) without handles and down feet 485(W) x 240(H) x 489(D) with handles and down feet 26.5G < 18 1-year 2-year OPTION Tracking generator Frequency Frequency Resolution Output Level [dBm] Output Level Resolution Absolute Level Accuracy Frequency Flatness [dB] Spurious Leakage VSWR Output connector [dBm] 9kHz ~ 3GHz 1Hz 0 ~ -70 0.1dB ≤±1.0dB ≤±4.0 @ -10dBm(9kHz ~ 100KHz) , Before Normalization ≤±2.0 @ -10dBm(100kHz ~ 3GHz) , Before Normalization ≤±1.0 @ -10dBm(9kHz ~ 3GHz) , After Normalization ≤ -15dBc , Harmonic Level ≤ -30dBc , nonharmonic Level ≤ -95 ≤ 1.5 @ -10dBm Output Level N female, 50Ω 11 Spectral purity [dBc/Hz] Output Level Output Level Resolution Absolute Level Accuracy [dBm] CW Signal generator 500kHz ~ 1.3GHz/3.3GHz/6.6GHz Tunable down to 100 kHz with amplitude uncalibrated. 1Hz @ 500kHz ~ 1.3GHz 2Hz @ 1.3GHz ~ 3.3GHz 4Hz @ 3.3GHz ~ 6.6GHz f = 1 GHz, carrier offset 10 kHz -105, 110 typical -100 ~ 10 dB] 0.1 Frequency Resolution ±0.75 @ >-40dBm, <3.3GHz ±1.8 @ <-40dBm, <3.3GHz ±1.0 @ >-40dBm, >3.3GHz ±2.0 @ <-40dBm, >3.3GHz ±4.0 @ -10dBm(9kHz ~ 100KHz), Before Normalization ±2.0 @ -10dBm(100kHz ~ 3GHz), [dB] Before Normalization ±1.0 @ -10dBm(9kHz ~ 3GHz), After Normalization -15 dBc @ 500kHz ~ 1.3GHz, output level ≤ 0dBm Harmonics -25 dBc @ 1.3GHz ~ 3.3GHz -20 dBc @ 3.3GHz ~ 6.6GHz -75 dBc @ 500kHz ~ 50MHz, output level ≤ 0dBm, Nonha 100kHz offset rmonics -70 dBc @ 50MHz ~ 3.3GHz -65 dBc @ 3.3GHz ~ 6.6GHz ≤ 1.8 @ 500kHz ~ 3.3GHz ≤ 2.0 @ 3.3GHz ~ 6.6GHz N female, 50 Ω [dB] Signal Generator Frequency Flatness Spurious VSWR Output connector Modulation FM Type Deviation Sine, triangle, square 500kHz max. @ 500kHz ~ 50MHz 125kHz max. @ 50MHz ~ 100MHz 250kHz max. @ 100MHz ~ 200MHz Signal Generator 500kHz max. @ 200MHz ~ 400MHz 1MHz max. @ 400MHz ~ 800MHz Deviation 2MHz max. @ 800MHz ~ 1.6GHz 4MHz max. @ 1.6GHz ~ 3.3GHz 8MHz max. @ 3.3GHz ~ 6.6GHz Accuracy ±3.5% FSK(Frequency Shift Waveform PRBS: 5 to 31-order Keying) type User defined: up to 1020 bit Format 2-FSK 250kHz max. @ 500kHz ~ 50MHz 31.25kHz max. @ 50MHz ~ 100MHz 62.5kHz max. @ 100MHz ~ 200MHz 125kHz max. @ 200MHz ~ 400MHz Deviation 250kHz max. @ 400MHz ~ 800MHz 500kHz max. @ 800MHz ~ 1.6GHz 1MHz max. @ 1.6GHz ~ 3.3GHz 2MHz max. @ 3.3GHz ~ 6.6GHz Accuracy ±10% @ 100 kHz rate,10% of maximum deviation Symbol rate 763 Hz to 100 kHz OOK (On-Off Keying) Waveform type PRBS: 5 to 31-order typically 7dB below maximum specified amplitude, <10MHz Power level typically 10dB below maximum specified amplitude, >10MHz Symbol rate 153 Hz to 100 kHz * The specifications and descriptions on this document subject to change without notice Note * Horizontal resolution is span/(sweep points-1) ** N: LO Harmonic order Frequency Band N 0 Hz ~ 3GHz 0 1 2.9GHz ~ 3.0GHz 1 1 *** Permissible temperature has slightly wider range as compared to the normal operating temperature. We garantee the specification of the equipment when operating within the Operating Temperature range. We garantee that the equipment is functional when operating within the Permissible Temperature. **** 75% RH above 30℃, 45% RH above 40℃ Floor 11/12, Prudential Tower, 838 Yeoksam-dong, Gangnam-gu, Seoul, Korea Tel: 82-2-2033-0494/6 Fax: 82-2-2033-0611
