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Title Size Version Date Excel spreadsheet for the simple determination of the dynamic range as a function of noise figure, 3rd order intercept point and phase noise of a spectrum analyzer60 kB10.06.2002 Excel spreadsheet to perform error calculations for R&S spectrum analyzers54 kB25.01.2012

Describes the specific functions of the application, including the remote control commands with programming examples.For information on operating the Spectrum Analyzer see the user manual of the base unit.

For more information see application note 1EF47 History and release notes for FSE spectrum analyzers FSEA, FSEB, FSEK, FSEM, FSIQ and for EMI Test Receiver ESIB 1.

Describes the specific functions of the application, including the remote control commands with programming examples.For information on operating the Spectrum Analyzer see the user manual of the base unit.

Describes the specific functions of the application, including the remote control commands with programming examples.For information on operating the Spectrum Analyzer see the user manual of the base unit.

Describes the specific functions of the application, including the remote control commands with programming examples.For information on operating the Spectrum Analyzer see the user manual of the base unit.

Describes the specific functions of the Signal Vector Analysis application, including the remote control commands with programming examples.For information on operating the Spectrum Analyzer see the user manual of the base unit.

This application note describes the different memory types and locations that user information can be stored in a spectrum analyzer R&S® FSEA, R&S® FSEB, R&S® FSEM, R&S® FSEK or R&S® FSIQ, as well as the different ways in which it can be erased/cleared for security reasons.

20-Sep-2004 | AN-No. 1EF54

Tracking Generators FSE-B8 to -B11 - Supplement

In addition to frequency, power and long-term stability, short-term stability or its equivalent, phase noise, is an important characteristic of signal sources. For example, the phase noise of conversion oscillators of receivers obtained in the presence of a strong signal determines adjacent-channel sensitivity. In the case of transmitters, the phase noise of the oscillator together with the modulator characteristics is responsible for the power generated in adjacent channels. The phase noise of oscillators or synthesizers and the relevant measurements therefore play an important role in radio transmission systems.

16-Jan-2002 | AN-No. 1EF16

Describes the specific functions of the external mixer, including the remote control commands.

The combination of an SMIQ Signal Generator and an FSE / FSIQ Analyzer enables the most important transmitter and receiver tests on ICO user terminals in quality management and development. This application note presents a series of quick tests in unsynchronized, non-signalling mode. To facilitate integration of SMIQ and FSE / FSIQ into existing test systems, complex instrument settings are supplied as sets of IEC/IEEE-bus commands. Sample files with burst data for uplink and downlink signals allow the configuration, execution and optimization of the tests described, even without a DUT.

08-May-2000 | AN-No. 1MA23

DECT standard ETS 300 175-2 prescribes among others measurement of the transmit power and the unwanted power in adjacent channels. Following a brief introduction into DECT, this Application Note describes the standard-conforming measurement of the normal transmit power NTP and the unwanted adjacent-channel power ACP using a spectrum analyzer from the FSE family ( firmware version 1.63 and higher). Option FSE-B7 (Vector Signal Analyzer) is required for measuring the normal transmit power NTP since the signal must be demodulated for this measurement. Due to the wide dynamic range of FSEA20 and FSEA30, the adjacent channel power ACP can be measured without bandpass filters suppressing the transmit channel. Option FSE-B7 is not required for measuring the adjacent-channel power.

28-Apr-1998 | AN-No. 1EF42

In digital wireless communication systems one or multiple users are assigned to a physical RF channel. With analog systems only one user per carrier is possible. Output spectrum of the transmitter has to be restricted to the assigned channel in order to avoid interference with the neighbor channels. With the switch over to digital modulation formats more user per channel are possible. They share one channel by using only part of the time for transmission (Time Division Multiplex Access, TDMA) or by coding the transmission by orthogonal sequences for distinction to other users (Code Division Multiples Access, CDMA). Beneath the restriction of modulation spectrum with TDMA systems also time behavior of the transmitted signal is critical. One reason is that in a multi-user situation only one user is allowed to transmit within his assigned time slots. Another reason is that by switching a carrier on and off spectrum of the transmitter splatters and causes additional interference in other RF channels.

17-Jan-2002 | AN-No. 1EF32

Bluetooth(TM) Product Overview

Measuring the spurious emissions of transmitters used in GSM, DCS 1800 and PCS 1900 networks requires highly complex test setups since con-ventional spectrum analyzers do not have the necessary dynamic range. To obtain this range, notch filters are used to suppress the useful sig-nal. The spectrum analyzers of the FSE family make it possible for the first time to verify com-pliance with stipulated limit values for spurious emissions within the transmission band and out-side the reception band without the use of notch filters. The measurement problem and its solution by means of FSE are described in the following by way of the example of a GSM base station.

16-Jan-2002 | AN-No. 1EF17

TDMA communications systems like GSM, DCS 1800 or PCS 1900 make effective use of the frequency spectrum by assigning several subscribers to the same frequency channel. Each subscriber has access to one predefined time slot for transmitting information. With GSM eight subscribers share one frequency channel with a bandwidth of 200 kHz. In order not to disturb the other users of the 200-kHz channel it has to be ensured that, for instance, a mobile sends in the assigned time slot only and that no power is emitted by the transmitter at other times. For this reason the transmitter power is practically switched off in the transmission intervals.

16-Jan-2002 | AN-No. 1EF18

This application note describes the principle of harmonic mixing and the requirements to be met by spectrum analyzers and external mixers.

05-Mar-1999 | AN-No. 1EF43

Versatile Software Tool for Rohde & Schwarz Instruments RSCommander is a versatile software tool for a wide range of Rohde & Schwarz spectrum-, network analyzers, signal generators and oscilloscopes. It allows for automatic instrument discovery, making screenshots, reading traces, file transfer and simple script creation.

24-Dec-2017 | AN-No. 1MA074

An FSE Spectrum Analyser equipped with the Vector Signal Analysis option (FSE-B7) can measure oscillator settling time or transmitter attack and release times with high accuracy up to 40 GHz. No additional measurement equipment is needed.

12-Feb-1999 | AN-No. 1MA15

A Test Port Adapter System is implemented for all Rohde & Schwarz equipment, which operates above 26 GHz in order to protect the RF front-end from mechanical damage. The Test Port Adapter System consists of an RF front-end interface called the Test Port Adapter Body, and the Test Port Adapter Head which is attached to the Body. The Head provides an interface to a cable or device under test. This Application Note identifies the various types of Test Port Adapters, their parameters, compatibilities and usages.

28-Apr-2015 | AN-No. 1MA100

Adjacent Channel Power performance of power amplifiers used in digital TV systems has to be guaranteed over a wide frequency range, 54 to 890 MHz, which may lead to time consuming test procedures. The application software described here provides swept ACP analysis, using AMIQ and SMIQ for signal generation and FSP, FSU or FSE for signal analysis. ACP measurement is performed according to FCC Regulation 47CFR 73.622(h).

16-Oct-2001 | AN-No. 1MA43

This application note gives a short summary on how to use harmonic mixers in combination with Rohde & Schwarz Signal and Spectrum Analyzers. Focus of this application note is the use of conversion loss tables with different R&S analyzers. It also provides a tool to convert different formats of the conversion loss tables.

06-Aug-2010 | AN-No. 1EF75

Power amplifiers in digital TDMA mobile phones are fed with current only during the active slot to save power. Using conventional measuring equipment, the noise figure, an important parameter in power amplifiers, can only be determined with the amplifier in continuous operation. However, continuous operation can lead to amplifier overload and produce distorted results. Now there is a convenient way of determining the noise figure of amplifiers with pulsed power supply: using a Spectrum Analyzer (FSP or FSE or FSIQ or ESI), Noise Measurement Software FS-K3 and a function or pulse generator.

19-Dec-2000 | AN-No. 1MA32

A test setup is described for easy demonstration of the Bit Error Rate Test (BERT) function of AMIQ/AMIQ-B1. The test setup contains I/Q Modulation Generator AMIQ/AMIQ-B1 controlled by I/Q Simulation Software WinIQSIM, Vector Signal Generator SMIQ and Spectrum/Vector Signal Analyzer FSE/FSE-B7. The FSE with FSE-B7 is used as online FSK demodulator (setting: Analog demodulation, FM Signal, DC coupling, Real Time On) to demodulate the SMIQ RF signal FSK-modulated by PRBS data. The AMIQ is controlled by WinIQSIM software and receives the demodulated AF output signal from the FSE for BER testing.

29-Sep-1998 | AN-No. 1MA16

Noise Power Ratio Signal Generation and Measurement

Noise Power Ratio (NPR) is an add-on tool for WinIQSIM™ to generate noise power ratio stimulus signals and measure the resulting noise power ratio of a device under test (DUT) using Rohde & Schwarz instruments via LAN or GPIB bus.

06-Nov-2015 | AN-No. 1MA29

The CMD 57/59 output level for BER measurement can be calibrated to high accuracy to match GSM 11.21, (with modulated signals and adjacent timeslots + 50 dB above the used timeslot) using a simple test setup containing an NRVD power meter and an FSE spectrum analyzer.

10-Mar-2000 | AN-No. 1MA24

The following application note describes the function and operation of user menus for FSE Spectrum Analyzers including option Vector Signal Analysis (FSE-B7). For measurements according to the PCS 1900 standard user menus are provided, which perform settings on FSE for Base Station testing required in the standard. The menu and the accompanying setups are stored on a floppy disk. For operation of the menus firmware version 1.40 or higher is required. Option Vector Signal Analysis FSE-B7 has to be installed for the use of the application menu.

17-Jan-2002 | AN-No. 1EF24

MobiDemo is an application software for controlling a combination of Generator SMIQ and Analyzer FSE/ FSE-B7 or FSIQ. MobiDemo offers a convenient user interface to facilitate testing of components used in digital mobile radio systems, for instance amplifiers or filters. The software can handle the GSM, PHS, IRIDIUM, IS-95 and W-CDMA standards. The corresponding test signals can be activated on SMIQ with a few keystrokes and mouse clicks. FSE/FSIQ is set up in accordance with SMIQ and analyzes signals in the modulation analysis or adjacent-channel power measurement mode. The settings for SMIQ and FSE/FSIQ are transferred via the IEC/IEEE bus.

09-Jul-1999 | AN-No. 1MA11

The following application note describes the function and operation of user menus for FSE Spectrum Analyzers including option Vector Signal Analysis (FSE-B7). For measurements according to the PCS 1900 standard for Mobile Stations user menus are provided, which perform settings on FSE for the different measurements required in the standard. The menu and the accompanying setups are stored on a floppy disk.

01-Nov-1996 | AN-No. 1EF22