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Learn how to configure Rohde & Schwarz products to fit your application. Search our database by product, technology, or application to find relevant technical documents.
Search Application Notes & Cards
Learn how to configure Rohde & Schwarz products to fit your application. Search our database by product, technology, or application to find relevant technical documents.
1118 Results
This application note is to provide a basic understanding as to the configuration and control of DVQ via an Ethernet link.
26-Apr-2001 | AN-No. 7BM04
DTV IP Inserter DIP1. Network for IP Insertion2. Insertion rate up to 10 Mbps3. Insertion rate higher than 10 Mbps4. Demonstration Scenario5. Demonstration Scenario End to End
30-Mar-2001 | AN-No. FTK01_0E
This application note describes measurements compliant with the cdma2000® standard described in TIA/EIA-97-C and TIA/EIA-98-C. The primary focus is on solutions for generating and analyzing cdma2000® signals with equipment from Rohde & Schwarz. The special characteristics that make the signal generators and signal analyzers eminently suitable for this purpose are detailed.
27-Mar-2001 | AN-No. 1MA34
Fading is known from shortwave transmission, where the received field strength level may strongly vary due to atmospheric disturbances. In analog TV, the term 'fading' is practically unknown. Rather, one talks of 'antenna shadows' or 'ghost images'. The effect in question, however, is fading, ie constant reflection of the eletromagnetic waves emitted by the TV transmitter by walls of buildings, mountain slopes and similar reflecting natural or artificial obstacles. In analog TV, fading is of minor importance since the effects thereof can be eliminated almost completely through the directivity and exact orientation of the Yagi roof antenna for stationary TV reception at home. [[ br />Fading effects can also be observed in analog cable TV, for example in a block of flats linked to the cable network with one or several antenna sockets in every flat. If the taps for the sockets are not match-terminated, reflections with constant level and constant phase arise which may cause level reductions of several dB at exactly calculable points in the cable. [[ br />Moreover, the reception of TV signals broadcast via satellite can be impaired by fading. A known phenomenon is flickering of the received picture, produced by planes flying past or a drop in receive field strength caused by an approaching thunderstorm. All the above receive conditions have one thing in common: reception is stationary with a direct line of sight to the TV transmitter. [[ br />Looking at receive conditions in DVB, the effects in cable and satellite reception (DVB-C and DVB-S) are found to be similar as in analog reception. In these two modes reception is stationary, too. Terrestrial transmission (DVB-T) not only provides for stationary operation but also for portable and mobile reception. This considerably accentuates the effects of fading. [[ br />In this application note we investigate fading effects in DVB, with the emphasis on those in DVB-T signals.
06-Feb-2001 | AN-No. 7BM05
With SMIQ Signal Generator you can generate the most important Bluetooth RF test signals fast and conveniently. This application note comes with files containing modulation data for various payload patterns and burst lengths. A list of patterns is included. With the transfer software, also enclosed with this application note, you can load the data records into SMIQ and start testing immediately. BLUETOOTH is a registered trademark of Telefonaktiebolaget L M Ericsson, Sweden.
30-Jan-2001 | AN-No. 1MA31
Measurement deviations due to systematic errors of a network analysis system can be drastically reduced by an appropriate system error calibration. After system error correction, the residual measurement uncertainties are - besides the stability, linearity, and dynamic range of the network analyzer system - mainly affected by the quality of the calibration standards and the repeatability of the connections. The effective measurement accuracy of the network analysis system can be determined using the results of successive verification measurements utilizing highly precise verification standards.
24-Jan-2001 | AN-No. 1EZ48
This application note explains the concept of Adjacent Channel Leakage Ratio (ACLR) measurement on 3GPP W-CDMA signals with the spectrum analyzer FSP. Optimum operation for both the integrated bandwidth method and the new time domain method are shown via explanation of the signal behavior and the internal structure of the FSP. With the time domain method the spectrum analyzer family FSP provides a new approach featuring a very short measurement time compared to the integrated bandwidth method.
12-Jan-2001 | AN-No. 1EF41
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
The SMIQB Vector Signal Generator and the AMIQ I/Q Modulation Generator with the WinIQSIM™ software are outstanding signal sources for 3rd generation communication systems. This paper describes how to apply R&S signal generators for 3GPP WCDMA measurements, and introduces 3GPP WCDMA and related measurement applications.
27-Nov-2000 | AN-No. 1GP39
This application note describes how the most important fading tests for mobile phonesin all GSM frequency bands can be carried out cost-effectively using a combination of a CRTP/C02 Radiocommunication Tester and SMIQ Signal Generator.
23-May-2000 | AN-No. 1MA19
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
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 I/Q-Modulation Generator AMIQ provides high precision I/Q analog output for data calculated by the software WinIQSIM. Additionally, the software AMIQ-K2 enables you to read, convert, and transfer existing data files from various other programs to AMIQ format. Input formats supported by AMIQ-K2 are: - The propriety R&S programs IQSIM and DAB-K1. - Mathematic calculation programs like Matlab and Mathcad. - AWG202, COSSAP and ADS data files. AMIQ-K2 also provides you with remote control for AMIQ. For hardware and software requirements see section 2. AMIQ-K2 transfers data to AMIQ using either - GPIB - RS232. An extensive manual is supplied to help you use AMIQ-K2.
24-Nov-1999 | AN-No. 1MA10
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
A programmable data generator such as the combination of SME with option SME-B11 is a novelty with signal generators. To make it easy for the user to get acquainted with the option and to ensure efficient operation, possible applications are described below. The data generator is used for producing binary data as well as control signals for level switching whenever digitally modulated signals are used. For a start we should like to deal in brief with the various settings available for digital modulation. Taking GSM as an example, the programming of data lists will be described next. The description for GSM can be easily applied to other digital networks as well. Next the generation of level bursts and the extension of data generator memory with option SME-B12 are described. The last section deals with special subjects such as FSK using data rates below 400 bits/s and pulse-amplitude modulation. A basic knowledge on digital modulation and TDMA will be sufficient to follow the topics.
01-Jul-1999 | AN-No. 1GPAN08
While Mobile phones are allowed to require approximately 3 time slots for switching from transmission to reception, base stations must be able to transmit and receive at a new frequency in every time slot in the frequency hopping mode. This behaviour must of course be tested and measurements carried out on the base station transmitter and receiver. Since there is no signal generator which is able to settle at different frequencies from one to the next time slot with GSM modulation, a solution to this problem was found by linking two Signal Generators SME in such a way that they alternately provide signals at different frequencies.
01-Jul-1999 | AN-No. 1GPAN28
Communication systems according to IS-136 (NADC) use Time Division Multiplex Access (TDMA) for the communication between base station and mobile stations. There are 6 time slots available. Depending on the amount of data, which have to be transmitted, the system uses full rate channels or half rate channels. A full rate channel means, that the mobile is accessed every 3rd time slot (e.g time slot 1 and 3, time slot 2 and 4 or time slot 3 and 6). With half rate channels the mobile is accessed every 6th time slot. Full rate and half rate channels may be mixed on demand. The base stations transmit continous on their frequency. Depending on the used combination of full rate and half rate channels the base station uses a different sequence of synchronisation words. The mobile stations use bursted transmission with one of the synchronisation words S1 to S6 defined in the standard. Signal Generator SME is excellently suited to generate these signals to test either base station receivers or mobile phone receivers. Together with the modulation data supplied with this application note the SME serves as a signal source for various test and measurement applications in the whole frequency range of IS-136 (NADC).
01-Jul-1999 | AN-No. 1GPAN35
Propagation measurements are indispensable in the planning of digital, cellular mobile radio net-works. To find the optimum sites for the base stations, a mobile test transmitter system simulating the base station is operated from a number of possible locations. The test receiver system is accommodated in a vehicle, which is driven along a test route to perform measurements. The parameters measured, such as level, bit error rate or channel impulse response, provide information on the coverage within the cell. The main problem is to minimize interference caused by multipath propagation in the reception area. The SME offered by Rohde & Schwarz is a universal test generator that can be used as the core of a test transmitter system. The SME generates the GMSK-modulated signals required for GSM propagation measurements in line with the rele-vant standards. Thanks to its low weight of 17 kg it can be carried even to remote sites. Fitted with the new optional DM Memory Extension (SME-B12, in the following referred to as XMEM), the SME is able to store data sequences of up to 8 Mbit which are long enough for receiver measurements with test mobile stations. A suitable test receiver system is for instance a test mobile station for measuring level and bit error rate and the Impulse Response Analyzer PCS from Rohde & Schwarz for measuring the channel impulse response. The present Application Note describes how the XMEM can be loaded with suitable data (test sequence) by the GSM Radiocommunication Test Set CRTP from Rohde & Schwarz and how the SME has to be adjusted for GMSK modulation of these data. First, however, an overview is given of all functions of the XMEM and their operation supplementary to the Operating Manual. Finally, it is explained how the XMEM data can be transferred between PC and SME via the IEEE-488 or RS-232 interface.
01-Jul-1999 | AN-No. 1GPAN14
The present application note describes the possibilities of the Stream Explorer to be remotely controlled by some peripheral program via OLE. Extensions are also discussed, widening the fields of application of such a Client-Server architecture.
31-Mar-1999 | AN-No. 7BM02
In frequent cases, it appears that the MPEG2 decoder is not located in the control/monitoring room. The present application note describes how to operate a remote control of up to four DVMDs over an ethernet link.
31-Mar-1999 | AN-No. 7BM01
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
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
Using option ZVR-B4 (Frequency Converting Measurements), a ZVR Vector Network Analyzer can be used for measurements on frequency converting devices such as mixers and amplifiers. Using the ZVR's ARBITRARY mode, the source and receiver frequency ranges of the ZVR's generator and receiver, plus for two external signal generators, can be defined independently. As a result, mixer and intermodulation products such as conversion loss or sampling mixers, can all be measured. Used together with option ZVR-B6 (Reference Channel Ports), group delay measurements can also be made on frequency converting devices.
19-Jan-1999 | AN-No. 1EZ47
With options ZVR-B4 (mixer measurements), ZVR-B5 (nonlinear measurements) and ZVR-B7 (power calibration) installed, signal generators and power meters can be controlled from ZVR network analyzers via the IEC/IEEE bus. Customary signal generators and power meters are supported by the device firmware. This application note describes how user-specific configuration files can be generated for and adjusted to external equipment of these two categories.
19-Oct-1998 | AN-No. 1EZ46
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
Embedding and De-Embedding of virtual transformation networks for measuring scattering parameters with a ZVR or ZVC vector network analyzer.
25-Sep-1998 | AN-No. 1EZ45
The measurement accuracy of vector network analyzers can be tested simply, easily and quickly, with a simple DUT which consists of a common tee-junction with one port, terminated with a resistive load Z, and the T-Check program. The four S-parameters from ports 1 and 2 are measured with the vector network analyzer to be checked and then evaluated by means of the T-Check software.
04-Aug-1998 | AN-No. 1EZ43
3-Port Adapter ZVR-B8 is an optional accessory to all Vector Network Analyzers of the ZVR family, namely ZVRL, ZVRE, and ZVR, and extends the two test ports PORT1 and PORT2 to a total of three test ports PORT1, PORT2 and PORT3. The option comprises an electronic single-pole double-throw switch (SPDT) by means of which PORT1 of the analyzer is switched to either PORT1 or PORT3 of 3-Port Adapter. Test port PORT2 of the analyzer is directly connected to PORT2 of the 3-Port Adapter and is not switched over.
04-Aug-1998 | AN-No. 1EZ26
Using the optional three-port or four-port adapter (ZVR-B8 and ZVR-B14), PORT 1 and PORT 2 of the network analyzers of the ZVR family (ZVRL, ZVRE and ZVR) can be expanded to up to four ports. Thus automatic measurements on three- and four-port DUTs can be easily performed without any reconnection of ports being required. With the electronic switches in the adapters, switchover between the various ports is fast to the extent that the known high measurement and display speed of the analyzers of the ZVR family is fully maintained.
04-Aug-1998 | AN-No. 1EZ37
ZVR is a vector network analyzer equipped with selective input channels for determining phase relations. Thus a wide dynamic range can be obtained. For measurements on frequency-converting DUTs (output frequency not identical to input frequency), the generator and receiver frequency ranges can be separately set. For measurements on DUTs using a built-in conversion oscillator, as is the case here, the conversion frequency must be exactly known so that the receiver can be accurately tuned to the respective output frequency. The maximum receiving bandwidth is 26.5 kHz. When a wide dynamic range is required, this bandwidth has to be reduced with the consequence that the requirement for the DUT output frequency and the ZVR receive frequency to be in agreement will be greater.
04-Aug-1998 | AN-No. 1EZ31