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簡介:R&S FSWP 相位噪聲分析儀和VCO測試儀
R&S®FSWP 相位噪聲分析儀和 VCO 測試儀結合噪聲極低的內部源與互相關技術,具備高靈敏度。它可在數秒內測量雷達等應用中高度穩定的信號源的相位噪聲。R&S®FSWP 還具備脈沖信號測量、加性相位噪聲(包括脈沖噪聲)特性測量以及集成式高端信號與頻譜分析等選件,是一款獨特的測試儀器。
主要特點:R&S FSWP 相位噪聲分析儀和VCO測試儀
- 頻率范圍介于 1 MHz 至 8/26.5/50 GHz,使用外部諧波混頻器時最高可達 500 GHz
- 得益于互相關技術以及噪聲極低的內部參考源,為相位噪聲測量提供了高靈敏度
- 在 1 GHz 載波頻率及 10 kHz 偏移下,典型值為 –172 dBc (1 Hz)
- 在 10 GHz 載波頻率及 10 kHz 偏移下,典型值為 –158 dBc (1 Hz)
- 同時測量幅度噪聲及相位噪聲
- 一鍵測量脈沖源的相位噪聲
- 用于測量加性相位噪聲(包括脈沖信號噪聲)的內部源
- 信號與頻譜分析儀及相位噪聲分析儀集于一體
- 高端信號與頻譜分析儀,10 Hz 至 8/26.5/50 GHz
- 顯示平均噪聲電平 (DANL) 低至 –156 dBm (1 Hz)(無噪聲消除),三階截止點 (TOI) 高達 25 dBm(典型值),確保具備寬動態范圍
- 320 MHz 信號分析帶寬
- 總體測量不確定度:< 0.2 dB(最高 3.6 GHz),< 0.3 dB(最高 8 GHz)
- 觸摸屏操作
- 12.1" 大顯示屏,可同時查看多個測量窗口
- 可以并行運行和顯示多個測量應用
- 測量速度快
- 低噪聲內部直流源,便于進行 VCO 特性測量
- 自動進行 VCO 特性測量
- 分析高達 8 GHz 的寬跳頻(瞬態)
- 測量阿倫方差
特點和優勢:R&S FSWP 相位噪聲分析儀和VCO測試儀
- 測量速度快
- 非常適用于生產應用
- 加快開發
- 高度靈敏地測量相位及幅度噪聲
- 內部源的相位噪聲極低
- 互相關技術以提高相位噪聲靈敏度
- 幅度噪聲測量的準確度遠高于二極管檢波器
- 展示通過互相關技術提高靈敏度
- 頻率偏移達到最大輸入頻率
- 測量阿倫方差
- 一鍵測量脈沖源的相位噪聲
- 測試裝置簡單
- 具有高靈敏度(即使靈敏度有所降低)
- 自動測量脈沖參數
- 用于測量加性相位噪聲(包括脈沖信號噪聲)的內部源
- 測量簡單快捷
- 通過互相關提高靈敏度
- 脈沖信號的殘余相位噪聲
- 外部源的其他輸入
- 測量脈沖信號的相位與幅度穩定性
- 信號與頻譜分析儀及相位噪聲分析儀集于一體,最高可達 50 GHz
- 測試裝置簡單,優化成本
- 一項值得的投資
- 高端信號與頻譜分析儀
- 低噪聲內部直流源,便于進行 VCO 特性測量
- Complete VCO characterization
- 測量更高諧波
- 相對于調諧電壓的相位噪聲
- 測量瞬態或跳頻(瞬態分析)
- 頻率及相位分析帶寬高達 8 GHz
- 觸發相位或頻率偏差
- 分析線性調頻連續波 (FMCW) 信號的線性度
- 自動測量穩定時間
規則:R&S FSWP 相位噪聲分析儀和VCO測試儀
| Base unit | ||
| Frequency | ||
| Frequency range, RF input | ||
| Phase noise, amplitude noise measurement | R&S®FSWP8 | 1 MHz to 8 GHz |
| R&S®FSWP26 | 1 MHz to 26.5 GHz | |
| R&S®FSWP50 | 1 MHz to 50 GHz | |
| Phase noise measurement | ||
| Measurement results | SSB phase noise, spurious signals, integrated RMS phase deviation, residual FM, time jitter | |
| Offset frequency range | input signal ≤ 3,33 GHz | 10 mHz to 30 % of carrier frequency |
| input signal > 3,33 GHz | 10 mHz to 1 GHz | |
| Phase noise sensitivity with R&S®FSWP-B60 option (no. of correlations = 1, start offset = 1 Hz)1) | |||||||||
| RF input frequency | Offset from carrier | ||||||||
| 1 Hz | 10 Hz | 100 Hz | 1 kHz | 10 kHz | 100 kHz | 1 MHz | 10 MHz | ≥ 30 MHz | |
| 10 MHz | –96 | –128 | –140 | –158 | –170 | –170 | –170 | – | – |
| 100 GHz | –76 | –108 | –136 | –163 | –170 | –173 | –175 | –175 | –175 |
| 1 GHz | –56 | –88 | –116 | –143 | –166 | –173 | –173 | –173 | –173 |
| 3 GHz | –46 | –78 | –106 | –133 | –156 | –158 | –163 | –170 | –170 |
| 7 GHz | –39 | –71 | –99 | –130 | –152 | –153 | –157 | –166 | –166 |
| 10 GHz | –36 | –68 | –96 | –128 | –147 | –150 | –155 | –173 | –173 |
| 16 GHz | –32 | –64 | –92 | –124 | –143 | –146 | –151 | –170 | –170 |
| 26 GHz | –28 | –60 | –88 | –120 | –139 | –142 | –147 | –166 | –166 |
| 50 GHz | –22 | –54 | –82 | –114 | –133 | –136 | –141 | –160 | –160 |
| Phase noise sensitivity with R&S®FSWP-B61 option (no. of correlations = 1, start offset = 1 Hz)1) | |||||||||
| RF input frequency | Offset from carrier | ||||||||
| 1 Hz | 10 Hz | 100 Hz | 1 kHz | 10 kHz | 100 kHz | 1 MHz | 10 MHz | ≥ 30 MHz | |
| 10 MHz | –108 | –130 | –142 | –160 | –170 | –170 | –170 | – | – |
| 100 MHz | –92 | –115 | –140 | –166 | –170 | –173 | –175 | –175 | –175 |
| 1 GHz | –72 | –95 | –120 | –150 | –166 | –173 | –173 | –173 | –173 |
| 3 GHz | –62 | –85 | –110 | –140 | –156 | –158 | –163 | –170 | –170 |
| 7 GHz | –55 | –78 | –103 | –133 | –152 | –153 | –157 | –166 | –166 |
| 10 GHz | –52 | –75 | –100 | –133 | –152 | –153 | –157 | –173 | –175 |
| 16 GHz | –48 | –71 | –96 | –129 | –148 | –149 | –153 | –170 | –171 |
| 26 GHz | –44 | –67 | –92 | –125 | –144 | –145 | –149 | –166 | –167 |
| 50 GHz | –38 | –61 | –86 | –119 | –138 | –139 | –143 | –160 | –161 |
| Amplitude noise measurement | |||||||||
| Offset frequency range | input signal ≤ 100 MHz | 10 mHz to 30 % of carrier frequency | |||||||
| input signal > 100 MHz | 10 mHz to 30 MHz | ||||||||
| AM noise sensitivity1) | |||||||||
| RF input frequency | Offset from carrier | ||||||||
| 1 Hz | 10 Hz | 100 Hz | 1 kHz | 10 kHz | 100 kHz | 1 MHz | 10 MHz | 30 MHz | |
| 1 GHz | –105 | –120 | –135 | –150 | –158 | –165 | –165 | –165 | –165 |
| Residual phase noise measurement (R&S®FSWP-B64 option), internal source | |||||||||
| Signal source | |||||||||
| Frequency range | R&S®FSWP8 | 10 MHz to 8 GHz | |||||||
| R&S®FSWP26 | 10 MHz to 18 GHz | ||||||||
| R&S®FSWP50 | 10 MHz to 18 GHz | ||||||||
| Additive phase noise measurement | |||||||||
| Offset frequency range | input signal ≤ 100 MHz | 10 mHz to 30 % of carrier frequency | |||||||
| input signal > 100 MHz | 10 MHz to 30 MHz | ||||||||
| AM noise sensitivity1) | |||||||||
| RF input frequency | Offset from carrier | ||||||||
| 1 Hz | 10 Hz | 100 Hz | 1 kHz | 10 kHz | 100 kHz | 1 MHz | 3 MHz | ||
| 1 GHz | –115 | –123 | –137 | –147 | –160 | –165 | –165 | –161 | |
| 10 GHz | –85 | –104 | –120 | –138 | –148 | –154 | –164 | –160 | |
1) 數值單位:dBc (1 Hz)。
| R&S®FSWP-B1 signal and spectrum analyzer option | ||
| Frequency range | R&S®FSWP8 | 10 Hz to 8 GHz |
| R&S®FSWP26 | 10 Hz to 26.5 GHz | |
| R&S®FSWP50 | 10 Hz to 50 GHz | |
| Aging per year | ±1 × 10 –7/year | |
| with R&S®FSWP-B4 option | ±3 × 10 –8/year | |
| Resolution bandwidths | standard filter | 1 Hz to 10 MHz with R&S®FSWP-B8 option: 20 MHz, 50 MHz, 80 MHz additionally |
| RRC filter | 18 kHz (NADC), 24.3 kHz (TETRA), 3.84 MHz (3GPP) | |
| channel filter | 100 Hz to 5 MHz | |
| video filter | 1 Hz to 10 MHz | |
| I/Q demodulation bandwidths | 10 MHz | |
| with R&S®FSWP-B80 option | 80 MHz | |
| with R&S®FSWP-B320 option | 320 MHz | |
| Displayed average noise level (DANL) | 2 GHz | typ. –150 dBm (1 Hz) |
| 8 GHz | typ. –150 dBm (1 Hz) | |
| 20 GHz | typ. –145 dBm (1 Hz) | |
| 40 GHz | typ. –137 dBm (1 Hz) | |
| DANL with preamplifier | 8 GHz | typ. –162 dBm (1 Hz) |
| 20 GHz | typ. –160 dBm (1 Hz) | |
| 40 GHz | typ. –156 dBm (1 Hz) | |
| Phase noise | 1 GHz carrier frequency, 10 kHz offset | typ. –138 dBm (1 Hz) |
| Total measurement uncertainty | < 8 GHz | < 0.4 dB |
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