頻率範圍:9 kHz 至 9/14/20/26.5/32/43.5/54 GHz
Anritsu 的 Field Master Pro MS2090A 射頻頻譜分析儀是一款精巧的掌上型儀器,能夠提供前所未有的效能。With continuous frequency coverage from 9 kHz to 54 GHz, the Field Master Pro MS2090A is specifically designed to meet the test challenges of a full range of other wireless technologies in use today, including: 5G, LTE, wireless backhaul, aerospace/defense, satellite systems, and radar.
Field Master Pro MS2090A 為掌上型觸控式螢幕頻譜分析儀提供最高等級的射頻效能,且顯示平均雜訊強度 (DANL) 為 -164 dBm,三階截點 (TOI) 為 +20 dBm (典型值)。這使得頻譜清理、無線電校準、諧波和失真等測量比以往更加準確。對於數位系統上的調製測量,100 MHz 調製頻寬結合最佳相位雜訊效能可有效提升測量精確度,而 ±0.5 dB 的典型振幅準確度則可讓您在測試發射器功率和偽訊號時信心十足。
該儀器堅固耐用,適合現場使用,且所有版本均提供全方位的功能,以加速和簡化測量,同時增強可用性。RTSA 的頻率範圍為 20 MHz (標準) 至 100 MHz (選配),可為全面的 ISM 頻段訊號分析提供蜂巢式干擾監測功能。所有版本不但可作為全跨距掃描調諧頻譜分析儀,還提供頻譜圖顯示,有助於監測間歇或乾擾訊號的射頻頻譜。整合式通道功率和佔用頻寬測量可簡化公共無線電傳輸的測量和特性分析工作。5G 訊框的 IQ 資料擷取功能可使用標準資料分析工具擷取和儲存 IQ 資料,以便在 PC 上進行離線處理。
- 9 kHz 至 9/14/20/26.5/32/43.5/54 GHz
- DANL:-164 dBm (使用前級放大器)
- TOI:+20 dBm (典型值)
- 分析頻寬:100 MHz
- Amp 範圍:DANL 至 +30 dBm
- 1 GHz 的相位雜訊:-110 dBc/Hz,偏移為 100 kHz (典型值)
- Demodulation: 5GNR, LTE FDD, RF, and modulation quality plus SSB signal analysis
- 解析度頻寬 (RBW):1 Hz 至 10 MHz
- RTSA 頻寬:20 MHz 至 100 MHz
- 振幅準確度:<14 GHz ± 1.3 dB (± 0.5 dB 典型值)
Atomic Clock External Frequency Reference for Handheld Instruments
With an extremely low power consumption of <200 mW, the MA25401A brings the accuracy and stability of an atomic clock frequency reference to Anritsu’s handheld products. The MA25401A Atomic Clock Frequency Reference has short-term stability (Allan Deviation) of 3.0e–10 @ t = 1 sec, typical long-term aging of <9e–10 per month, and maximum frequency change of ±5e–10 over an operating temperature range of –10 °C to 55 °C. The MA25401A 10 MHz output may be used to synchronize the internal frequency reference to an external reference clock to within 5 ppb accuracy. A USB C interface is used for power.
2000-1985-R Isotropic EMF Probe for use with Option 445
The 2000-1985-R Isotropic EMF Probe, in conjunction with MS2090A Option 445 EMF Meter, offers a broadband EMF measurement from 20 MHz to 40 GHz with excellent accuracy and speed. Simply connect the probe to a USB port on the Field Master Pro, open the EMF Meter application (requires Option 445) and easily measure the EMF energy as a percentage of FCC public, FCC technician, ICNIRP public, or ICNIRP public limits.
PC based VSA software for use with IQ data captured from a Field Master Pro MS2090A Handheld Spectrum Analyzer.
MX280005A Vector Signal Analysis PC software for Field Master Pro MS2090A is for testing physical layer modulation quality of various transmission standards. It serves a wide variety of markets, from aerospace to public safety (TETRA) to satellite communications and commercial electronics (ZigBee, Wi-Fi).
The MX280005A Vector Signal Analysis PC software is designed to perform physical layer modulation analysis of common communication transmitter signals. During the design and manufacturing stages of a wireless communication system, it is common to measure the modulation quality with benchtop instruments. Using the IQ capture option of the Field Master Pro MS2090A (Option 128 required) together with the MX280005A software these measurements can be validated in a field environment. Framed and unframed signals are supported. In framed mode, the software decodes common wireless signals including public safety (TETRA, P25, and DMR) to aerospace and satellite communications. In unframed mode, the software analyzes continuous modulation such as DQPSK, QAM, ASK, and FSK. The Field Master Pro MS2090A supports IQ captures up to 110 MHz bandwidth meaning narrow band communications signals or wideband satellite downlink signals can be captured and analyzed with the same application.
MX280005A software can initiate the capture of IQ data from a Field Master Pro MS2090A over an Ethernet connection or a data capture can be triggered manually through the Field Master Pro MS2090A touchscreen. Multiple analysis formats are provided including signal spectrum, EVM, constellation diagrams, eye diagrams, and numeric result tables. A comprehensive insight into all aspects of the transmitter performance is provided as multiple results windows can be displayed simultaneously.
Directional Antennas
| 2000-1411-R |
824 MHz to 896 MHz, N(f), 12.3 dBi, Yagi |
| 2000-1412-R |
885 MHz to 975 MHz, N(f), 12.6 dBi, Yagi |
| 2000-1413-R |
1710 MHz to 1880 MHz, N(f), 12.3 dBi, Yagi |
| 2000-1414-R |
1850 MHz to 1990 MHz, N(f), 11.4 dBi, Yagi |
| 2000-1415-R |
2400 MHz to 2500 MHz, N(f), 14.1 dBi, Yagi |
| 2000-1416-R |
1920 MHz to 2170 MHz, N(f), 14.3 dBi, Yagi |
| 2000-1659-R |
698 MHz to 787 MHz, N(f), 10.1 dBi, Yagi |
| 2000-1660-R |
1425 MHz to 1535 MHz, N(f), 14.3 dBi, Yagi |
| 2000-1715-R |
Directional Antenna, 698 MHz to 2500 MHz, N(f), gain of 2 dBi to 10 dBi, typical |
| 2000-1726-R |
Antenna, 2500 MHz to 2700 MHz, N(f), 14.1 dBi, Yagi |
| 2000-1747-R |
Antenna, Log Periodic, 300 MHz to 7000 MHz, N(f), 5.1 dBi, typical |
| 2000-1748-R |
Antenna, Log Periodic, 1 GHz to 18 GHz, N(f), 6 dBi, typical |
| 2000-1777-R |
Portable Directional Antenna, 9 kHz to 20 MHz, N(f) |
| 2000-1778-R |
Portable Directional Antenna, 20 MHz to 200 MHz, N(f) |
| 2000-1779-R |
Portable Directional Antenna, 200 MHz to 500 MHz, N(f) |
| 2000-1812-R |
Portable Yagi Antenna, 450 MHz to 512 MHz, N(f), 7.1 dBi |
| 2000-1825-R |
Portable Yagi Antenna, 380 MHz to 430 MHz, N(f), 7.1 dBi |
Portable Antennas
| 2000-1200-R |
806 MHz to 866 MHz, SMA(m), 50 Ω |
| 2000-1473-R |
870 MHz to 960 MHz, SMA(m), 50 Ω |
| 2000-1035-R |
896 MHz to 941 MHz, SMA(m), 50 Ω (1/2 wave) |
| 2000-1030-R |
1710 MHz to 1880 MHz, SMA(m), 50 Ω (1/2 wave) |
| 2000-1474-R |
1710 MHz to 1880 MHz with knuckle elbow (1/2 wave) |
| 2000-1031-R |
1850 MHz to 1990 MHz, SMA(m), 50 Ω (1/2 wave) |
| 2000-1475-R |
1920 MHz to 1980 MHz and 2110 MHz to 2170 MHz, SMA(m), 50 Ω |
| 2000-1032-R |
2400 MHz to 2500 MHz, SMA(m), 50 Ω (1/2 wave) |
| 2000-1361-R |
2400 MHz to 2500 MHz, 5000 MHz to 6000 MHz, SMA(m), 50 Ω |
| 2000-1751-R |
698 MHz to 960 MHz, 1710 MHz to 2100 MHz, 2500 MHz to 2700 MHz, SMA(m), 2 dB, typical, 50 Ω |
| 2000-1636-R |
Antenna Kit (Consists of: 2000-1030-R, 2000-1031-R, 2000-1032-R, 2000-1200-R, 2000-1035-R,
2000-1361-R, and carrying pouch) |
Directional Horn Antennas
| 2000-1867-R |
17.6 GHz to 26.7 GHz, WR42, 25 dBi gain |
| 2000-1868-R |
26.4 GHz, to 40.1 GHz, WR28, 25 dBi gain |
| 2000-1869-R |
33.0 GHz to 50.1 GHz, WR22, 25 dBi gain |
| 2000-1870-R |
39.3 GHz to 59.7 GHz, WR19, 25 dBi gain |
Webinars
The 5G Evolution of Indoor Wireless Networks for Smart Buildings and Manufacturing Facilities
5G technology has introduced some exciting possibilities for in-building functions. The “smart” buildings and manufacturing facilities of tomorrow will include new functions such as IoT, factory automation, machine learning devices, and cloud compute applications. To handle these new features, network architectures will change, frequency bands will be added, and new network features will be introduced. In this webinar, we will examine how the indoor wireless networks will evolve as we move to 5G, and the challenges in managing these complex networks to ensure performance and reliability for both commercial as well as the public safety networks.
Understanding Real-Time Spectrum Analysis
Real-time spectrum analysis (RTSA) provides signal insight previously only available in high-end lab and benchtop solutions. RTSA allows gapless capture and display of rapidly changing and highly intermittent signals. The digital nature of RTSA also makes a variety of analysis and display technologies possible that traditionally required multiple hardware platforms.
