Overview
R&S®FSH Handheld Spectrum Analyzer
The R&S®FSH is the ideal spectrum analyzer for cost-effective signal investigations in the field. It provides a large number of measurement functions and so can handle anything from the installation or maintenance of a mobile radio base station up to on-site fault location in RF cables to development and service – an extensive range of applications.
Spectrum analysis anywhere, anytime on earth and in space
The FSH is the ideal spectrum analyzer for rapid, high-precision, cost-effective signal investigations. It provides a large number of measurement functions and so can handle anything from the installation or maintenance of a mobile radio base station up to on-site fault location in RF cables as well as development and service an extensive range of applications.
Handy, robust, and portable
The FSH has been designed as a robust, portable spectrum analyzer that can be used in the ?eld.
- Robust edge protection, stable carrying handle
- Easy operation
- Four hours operating time on battery power
- Storage of up to 256 traces and setups
- Easy data transfer to PC
- High measurement accuracy
- Best RF characteristics in its class
The FSH can, of course, also be used on the lab bench. The FSH has an adjustable, fold-out stand to position the instrument to an optimal display viewing angle. | The FSH and its accessories can be stored and transported in the compact and sturdy aluminum transit case. |
R&S®FSH FSH – options and applications
The R&S®FSH FSH can be used for measurements up to an upper frequency limit of 3 GHz, 6 GHz, and 18 GHz. The 3 GHz and 6 GHz are available with or without internal tracking generator. When the tracking generator is included, the R&S® FSH can be used for distance-to-fault (DTF) measurements, scalar and vector network analysis, and one-port cable loss measurement. Almost all models come standard with an adjustable preampli?er, making them suitable for measuring very small signals. Power sen- sors are available as accessories for high-precision terminating power measurements up to 8 GHz or 18 GHz as well as for directional power measurements up to 4 GHz. The following tables show possible con?gurations for various applications and an overview of available models.
TDMA Power MeasurementsBy means of the TDMA POWER function, the R&S®FSH performs time-domain power measurements within a timeslot of TDMA (time division multiple access) methods. All the settings required for the GSM and EDGE standards are prede?ned on the R&S®FSH to make these measurements easier for the user. In addition, up to ?ve user-de?nable instrument setups can be loaded into the R&S®FSH using the R&S®FSH View software. | |
Channel-power measurementsThe R&S®FSH determines the power of a de?nable transmission channel by means of the channel-power measurement function. A channel-power measurement for the digital mobile radio standards 3GPP WCDMA, cdmaOne, and CDMA2000® 1x is performed at a keystroke with all the correct instrument settings. With the R&S®View software, the user can quickly and easily de?ne further standards and load them into the R&S®. | |
Field-strength measurementsWhen measuring electric ?eld strength, the R&S®FSH takes into account the speci?c antenna factors of the connected antenna. Field strength is displayed directly in dBµV/m. If W/m 2 is selected, the power ?ux density is calculated and displayed. In addition, frequency-dependent loss or gain of, for example, a cable or an ampli?er can be corrected. For quick and easy result analysis, the ¸FSH provides two user-de?nable limit lines with automatic limit monitoring. R&S®FSH with R&S® TS-EMF isotropic antenna (optional accessory) | |
Field-strength measurements with isotropic antennaWhen used with the R&S®TS-EMF isotropic antenna, the R&S®FSH can determine the direction-independent resultant ?eld strength in the frequency range from 30 MHz to 3 GHz. For measuring the resultant ?eld strength, the antenna has three orthogonal antenna elements. The R&S®FSH successively triggers the three antenna elements and calculates the resultant ?eld strength. The calculation takes into account the antenna factors for each individual antenna element as well as the cable loss of the connecting cable. | |
C/N MeasurementsThe R&S®FSH offers a carrier/noise (C/N) measurement for determining the ratio of carrier power to noise power or carrier power to noise power density. The R&S®FSH supports three different modes for carrier power measurement. In the CW TX mode, the R&S®FSH determines the power of an unmodulated carrier. In the digital TX mode, it determines the channel power of a reference channel, as is common with digitally modulated carriers (e.g. the DAB, DVB, DVB-T, DVB-H, and J.83/A/B/C standards). Furthermore, the ATSC standard for digital terrestrial television with 8VSB modulation is supported. In the analog TV mode, the R&S®FSH measures the peak power of the vision carrier with amplitude-modulated TV signals. | |
Channel TablesIf preferred, the R&S®FSH can be tuned by channel numbers rather than by entering the frequency. The channel number is displayed instead of the center frequency. Users who are accustomed to channel assignments, which are common in TV and mobile radio applications, can operate the R&S®FSH more easily. The channel tables are generated with the R&S®FSH View software and loaded into the R&S®. The R&S®FSH includes TV channel tables for a number of countries. | |
Receiver ModeWhen equipped with the R&S®FSH -K3 option, the R&S®FSH can be operated as a receiver for monitoring and precompliance EMC applications. Measure- ments are performed at a prede?ned frequency with a user-selectable measure- ment time. In the scan mode, the R&S®FSH sequentially measures each level at various frequencies de?ned in a channel table. The channel tables are generated with the R&S®View software and loaded into the R&S®FSH . For a few TV transmitter and mobile radio standards, the tables are prede?ned. In addition, the CISPR bandwidths 200 Hz, 9 kHz, 120 kHz, and 1 MHz are available for EMI emission measurements. The R&S®FSH offers peak, average, RMS, and quasi-peak detectors. | |
Power MeasurementsThe R&S®FSH-Z1 and R&S®FSH-Z18 power sensors expand the R&S®FSH to a high-precision RF power meter up to 8 GHz and 18 GHz respectively. As with thermal sensors, the true RMS value of the measured signal is obtained over the entire measurement range of –67 dBm to +23 dBm irrespective of the signal waveform. In particular with modulated signals, additional measurement errors can thus be prevented, and handling becomes easy. | |
Directional Power MeasurementsThe R&S®FSH-Z14 and R&S®FSH-Z44 directional power sensors turn the R&S®FSH into a full-?edged directional power meter with a frequency range of 25 MHz to 1 GHz and 200 MHz to 4 GHz. The R&S®FSH can then simultaneously measure the output power and the matching of transmitter system antennas under operating conditions. The power sensors measure average power up to 120 W and normally eliminate the need for any extra attenuators. They are compatible with the common standards GSM/EDGE, 3GPP WCDMA, cdmaOne, CDMA2000® 1x, DVB-T, and DAB. Additionally, the peak envelope power (PEP) can be determined up to a maximum of 300 W. |
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Measurements on Cables (distance to fault)The R&S®FSH-B1 option allows the distance to any faults in an RF cable to be determined rapidly and accurately. Distance-to-fault measurements using the R&S®FSH-Z2/-Z3 VSWR bridge provide an immediate overview of the state of the device under test (return loss and distance, see ?gure). The marker-zoom function allows detailed analysis of faults with a resolution of up to 1024 pixel. (distance-to-fault measurement) and R&S®FSH-Z2/-Z3 (VSWR bridge) options installed | |
Scalar Transmission and Reflection Measurements with VSWR BridgeThe R&S®FSH with built-in tracking generator rapidly determines the transmission characteristics of cables, filters, amplifiers, etc, with a minimum of effort. When equipped with the R&S®FSH-Z2/-Z3 VSWR bridge (10 MHz to 3 GHz/6 GHz), the R&S®FSH can also measure the matching (return loss, re?ection coef?cient, or VSWR) of an antenna, for example. The bridge is screw- connected directly to the R&S®’s RF input and tracking generator output without involving cumbersome, extra cabling. The innovative design of the R&S®FSH-Z3 VSWR bridge with integrated RF bypass switch allows the user to make spectrum and transmission measurements also with the bridge connected. Active components such as ampli?ers can be supplied directly via the RF cable by means of the two integrated bias tees. | R&S®FSH-Z3 VSWR bridge |
Vector Transmission and Reflection MeasurementsCompared to scalar transmission and re?ection measurements, the R&S®FSH- K2 option offers a signi?cant increase in measurement accuracy and number of measurement functions. In addition to the magnitude of S11 and S21, the phase, group delay, and electrical length of a DUT can be determined. The Smith chart allows simultaneous display of magnitude and phase in order to analyze the matching of an antenna in detail, for example. A user-de?nable limit line and a zoom function come in handy when evaluating the measurement results. Owing to a wide variety of marker formats, the measured values are displayed in virtually all the conventional formats used in network analysis. The input of a reference impedance permits measurements on DUTs whose impedance is not 50 ?. To increase measurement accuracy, the R&S®FSH performs complex correction of the system errors after calibration. | Measurement of magnitude and phase in Smith chart Measurement of phase |
One-Port Cable Loss MeasurementsThe R&S®FSH with tracking generator and VSWR bridge can determine the cable loss of previously installed long cables without much effort. One end of the cable is connected to the VSWR bridge, and the other end is terminated with a short circuit or simply left open. The calculated cable loss represents the average value within the displayed frequency range. The loss at speci?c frequencies is determined via markers. The one-port cable loss measurement is only available with the R&S®FSH-K2 option. | |
3GPP FDD code domain power measurements on base stationsThe R&S®FSH-K4 option 1) allows code domain power measurements on a 3GPP base station. It measures the total power and the power of the most important code channels, such as the common pilot channel (CPICH), primary common control physical channel (P-CCPCH), primary synchronization channel (P-SCH), and secondary synchronization channel (S-SCH). Furthermore, the carrier frequency offset and the error vector magnitude (EVM) are measured and displayed. The scrambling code can be determined at the press of a button and used automatically for decoding the code channels. The user can also get a quick overview of adjacent base stations. The R&S®FSH can display up to eight scrambling codes with their CPICH power. The R&S®FSH-K4 option provides automatic level setting for fast and optimal setting of the reference level. In practice, this means very easy operation. To display the code domain power measurement values, only four operating steps are necessary:
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1) Available for the R&S®3 (model .23) with serial number 103500 or later. |
Locating EMC Weak SpotsThe R&S®HZ-15 near-?eld probe set is a diagnostic tool for locating EMC weak spots on printed boards, integrated circuits, cables, shieldings, and other trouble spots. The R&S®HZ-15 near-?eld probe set can handle emission measurements from 30 MHz to 3 GHz. Its sensitivity can be enhanced by adding the R&S®HZ-16 preampli?er, which has a frequency range of up to 3 GHz, a gain of approx. 20 dB, and a noise ?gure of 4.5 dB. In combination with the R&S®, the preampli?er and near-?eld probe set are a cost-effective means of analyzing and locating sources of interference during development. | R&S®FSH with near-field probe set and DUT |