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Tiroir optique équipé NEXANS 1U 24F LC Duplex
Speedwolf
G652D
PON Medidor de Potencia Modelo FHP2P01
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FF-ZP128 Spectrum Analyzer
Wireless Communication Spectrum Analyzer, 9kHz to 43.05GHz Frequency Scanning
Measurement Senarios
Wireless Communication
- Wireless Spectrum Management
- Base station measurement and monitoring
- Cable and antenna measurement
- Interference analysis and
- localization
Satellite Communication
- Satellite communication system debugging
- Troubleshooting of Satellite
- Communication System
- Performance optimization of
- satellite communication system
Radar Communication
- Radar signal measurement
- Diagnosis and troubleshooting of radar system faults
Military and Defense
- Electronic Warfare and Spectrum Monitoring
- Radio communication reconnaissance and military equipment spectrum management
- Interference source search and spectrum network cleaning
Others
- Drone Countermeasure
- Electromagnetic compatibility and electronic testing
- Research and Education
- Artificial intelligence, semiconductor, automotive, new energy, power electronics testing
- Physics and Medicine
- Radio, television, and audio testing
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Spectrum analysis |
|
|
Frequency range |
9kHz~43.05GHz |
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Real time bandwidth |
100MHz |
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Scanning speed |
10.74ms@ Span=0.31GHz RBW=VBW=100kHz 65.4ms@ Span=4.24GHz RBW=VBW=5MHz 450.04ms@ Span=27.0GHz RBW=VBW=3MHz 58.6ms@ Span=2.8GHz RBW=VBW=300kHz 645.5ms@ Span=40GHz RBW=VBW=5MHz |
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Intermediate frequency bandwidth |
10MHz/100MHz |
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100%POI |
≥9.3us |
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RBW |
1Hz~10MHz |
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VBW |
1Hz~10MHz |
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Measuring range |
DANL~+20dBm |
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Attenuation range |
0dB~60dB (step 5dB) |
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Preamplifier |
+20dB |
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Maximum input level |
+20dBm,±50 VDC (Measurable), |
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Amplitude accuracy |
9 kHz ~ 2 MHZ: ±2.0 dB(Typical ±1.5dB) 2 MHz ~ 15 GHZ: ±1.0 dB(Typical ±0.5dB) 15 GHz ~ 23 GHZ: ±1.1dB(Typical ±0.6dB) 23 GHz ~ 43 GHZ: ±1.8dB(Typical ±0.8dB) |
|
Preamplifier (off) DANL 23+/-5 oC |
9 kHz ~ 10 MHz: -138 dBm, -140 dBm (Typical) 10 MHz ~ 4.0 GHz: -143dBm, -145 dBm (Typical) 4.0 ~ 14 GHz: -141 dBm, -142 dBm (Typical) 14 ~ 20 GHz: -140 dBm , -142dBm (Typical) 20 ~ 32 GHz: -142 dBm, -143 dBm (Typical) 32 ~ 43 Ghz: -142 dBm, -145 dBm (Typical) |
|
Preamplifier (on) DANL 23+/-5 oC |
9 kHz ~ 10 MHz: -160 dBm, -162 dBm (Typical) 10 MHz ~ 4.0 GHz: -160 dBm , -161 dBm (Typical) 4.0 ~ 14 GHz: -159 dBm , -160dBm (Typical) 14 ~ 20 GHz: -160 dBm , -162 dBm (Typical) 20 ~ 32 GHz: -160 dBm, -162 dBm (Typical) 32 ~ 43 GHz:-161 dBm, -162 dBm (Typical) |
|
SSB Phase Noise |
-107 dBc/Hz @ 1GHz offset 10 kHz (typical value) -111 dBc/Hz @ 1GHz offset 100 kHz (typical value) -122 dBc/Hz @ 1GHz offset 1 MHz (typical value) |
|
SFDR |
<-75 dBc |
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Dynamic Range |
>102 dB @ 2 Ghz |
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Second harmonic distortion |
≥20MHz:<-45dBc ≥3GHz:<-65dBc ≥10GHz:<-75dBc (test conditions: 0dB attenuation, -30dBm input) |
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Trigger |
Free trigger, video trigger, periodic trigger, external trigger, RF burst trigger |
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Measure Item |
Channel power, occupied bandwidth, adjacent channel ratio, spectrum transmission template |
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interference analysis |
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Interference source search |
channel power, received signal strength indication, GPS antenna |
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Interference positioning |
Map, directional antenna |
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Demodulate |
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Demodulation mode |
AM, FM |
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Demodulation analysis |
Baseband time-domain waveform, transmission power, carrier frequency offset, modulation depth (amplitude modulation), demodulation frequency offset (frequency modulation), signal-to-noise ratio |
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5G NR |
|
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RF channel power |
Total channel power, peak to average power ratio, total power spectral density, and limit line testing |
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RF occupies bandwidth |
Bandwidth occupancy, peak to average power ratio, total power, x dB bandwidth reduction, and limit line testing |
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Equivalent Isotropic Radiated Power |
Receiving antenna gain, receiving cable loss, distance, path loss, maximum holding quantity, channel bandwidth, equivalent omnidirectional radiation power, maximum equivalent omnidirectional radiation power, limit line test |
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Single beam |
Physical cell identification, sector identification, cell grouping, frequency error, time offset, auxiliary synchronization reference signal received power (dBm), auxiliary synchronization reference signal reception Received quality (dB), auxiliary synchronization signal signal-to-noise ratio (dB), synchronization and demodulation status identification, average error vector amplitude, peak error vector amplitude, power (dBm) |
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Multi-beam |
Physical cell identification, sector identification, cell grouping, frequency error, time offset, auxiliary synchronization reference signal received power (dBm), auxiliary synchronization referenceSignal reception quality (dB), auxiliary synchronization signal signal-to-noise ratio (dB), synchronization and demodulation status identification, power (dBm) |
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Physical cell identification scanning |
Multi physical cell identification, beam index, auxiliary synchronization reference signal received power (dBm), auxiliary synchronization reference signal received quality (dB), auxiliary synchronization Signal signal-to-noise ratio (dB), auxiliary synchronization signal error vector amplitude for each beam |
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Frequency range |
100MHz~43.05GHz |
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Frequency error |
≤ 10 Hz |
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Bandwidth |
5,10,15,20,25,30,40,50M,60,70,80,90,100MHz |
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Channel power accuracy |
±1.0 dBm |
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EVM |
± 2.0% (typical value, physical broadcast channel) |
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LTE |
|
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Constellation map |
Reference signal received power, root mean square/peak error vector amplitude, data error vector amplitude (QPSK, 16QAM, 64QAM, 256QAM), frequency offset (Hz, ppm), time offset (nanosecond) ± 2.0% (typical value, physical broadcast channel) |
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Data channel |
RB power diagram, constellation diagram, demodulation type, RB power, root mean square/peak error vector amplitude, IQ offset |
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Channel |
P-SS, S-SS, PBCH, PCFICH, PHICH, PDCCH, RS power (dBm), error vector amplitude (%), demodulation type, frequency offset |
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Power and Time Frame Analysis |
Frame average power (dBm), frequency offset (Hz), orthogonal frequency division multiplexing symbol power (dBm), IQ offset (dB), root mean square/peak of error vector amplitude, root mean square/peak of data error vector amplitude |
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RF Analysis |
Channel power, occupied bandwidth |
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Frequency error |
≤ 10 Hz |
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Bandwidth |
1.4MHz, 3MHz, 5MHz, 10MHz, 15MHz, 20MHz |
|
Channel power accuracy |
±1.0 dBm (typical) |
|
EVM |
±2.0 % (typical) |
| Part Number | Description |
| FF-ZP128 | Spectrum analyzer plateform |
| 128-S01 | SA interference analysis |
| 128-S02 | RTSA interference analysis |
| 128-S03 | Outdoor map |
| 128-S04 | Analog demodulation analysis |
| 128-S05 | Simulate demodulation audio playback |
| 128-S06 | Zero sweep wide intermediate frequency output |
| 128-S07 | Time gate function |
| 128-S08 | orientation analysis |
| 128-S09 | Real time spectrum analysis with a bandwidth of 50MHz |
| 128-S10 | Real time spectrum analysis with 100MHz bandwidth |
| 128-S11 | LTE analysis |
| 128-S12 | 5GNR measurement |
| 128-S13 | vector signal analysis |
| 128-S14 | phase noise measurement |
| 128-H01 | GPS/Beidou function |
| 128-H02 | WiFi wireless communication |
| 128-H03 | Transportation engineering box |
| 128-H04 | Off site measurement software package |
| 128-H05 | The power adapter |
| 128-H06 | 10Ah rechargeable lithium-ion battery |
| 128-H07 | 9K-30MHz directional antenna |
| 128-H08 | 20M-200MHz directional antenna |
| 128-H09 | 200M-500MHz directional antenna |
| 128-H10 | 500M-8GHz directional antenna |
| 128-H11 | 6G-20GHz directional antenna |
| 128-H12 | 18G-40GHz directional antenna |
| 128-H13 | 9K-8GHz handheld amplifier+USB electronic compass |
| 128-H14 | Antenna transport box |
| 128-H15 | 120MHz real-time analysis bandwidth |
| 128-H16 | 300MHz-8GHz omnidirectional antenna |
| 128-H17 | 20MHz-3GHz omnidirectional antenna |
| 128-H18 | 3GHz-40GHz omnidirectional antenna |
| 128-H19 | 300MHz-18GHz Omnidirectional Antenna |
