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.
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.
736 Results
With the extension of the 3GPP FDD system to include HSDPA, the HS-DPCCH has been added as a new code channel in the uplink. This Application Note describes the transmitter measurements provided by the CMU200 to perform the transmitter measurements defined in TS 34.121 in presence of the HS-DPCCH. CMU200 receiver measurements according to TS 34.121 that measure the throughput and the CQI reporting are described. Subject to change – T. Braun, November 2005 - 1CM62
25-Nov-2005 | AN-No. 1CM62
The GSM mobile phone system is the first civil radio network using purely digital transmission methods. In addition to the modulation mode GMSK (Gaussian Minimum Shift Keying) itself, both a time and a frequency multiplex method are used. This means for instance that the bits to be transmitted are distributed to several socalled bursts (time multiplex). These bursts are then in turn transmitted at different frequencies in the frequency hopping mode. Due to the frequency hopping mode, the timing used in GSM/PCN networks and the low phase error required for correct data transmission, stringent requirements regarding the frequency transient response are placed on the synthesizers used in the base and mobile stations. For a frequency error of <100 Hz the transient response must be within approx. 100 us to keep the residual phase error caused by the synthesizer sufficiently small. The Modulation Analyzer FMA/FMB with its high-precision AM and FM demodulators featuring DC coupling capability is particularly suitable for an uncomplicated measurement of transient responses in conjunction with an oscilloscope. Both the FMA with its low residual FM in the GSM band from 890 to 960 MHz and the FMB, which in addition also covers the PCN band from 1710 to 1880 MHz, provide in conjunction with the fast transient response of the FM demodulator the characteristics required. Highest precision regarding the transient response is provided by the FMA/FMB's special function 'IF 300 kHz'.
03-Jun-1998 | AN-No. 1EF08
The R&S WiMAX application firmware R&S FSx-K93 calculates several different power parameters. This application note describes the basic power measurements of WiMAX OFDMA signals and gives an overview of the calculation of the different values.
11-Jul-2007 | AN-No. 1EF60
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
The need for higher data rates and flexibility for IP and Cable TV (CATV) has led to the introduction of DOCSIS®3.1. With channel bandwidths up to 192 MHz and 96 MHz on the downstream and upstream respectively as well as the cable network frequency extension up to 1.2 GHz (1.8 GHz as a future extension) the technical requirements of cable components have increased significantly. This application note describes a test scenario tor testing cable components with an R&S®CLGD Cable Load Generator for DOCSIS 3.1 or R&S®SFD DOCSIS 3.1 Generator and an R&S®FSW Signal & Spectrum Analyzer.
24-Jan-2017 | AN-No. 1MA285
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
The present R&S®SMW-K503/-K504 Interface Control Document contains information on- the R&S descriptor word format, including pulse descriptor words and timed control descriptor words in basic and expert mode- Timing requirements and limitations of the real-time control interface- Properties of the ADV DATA/CTRL network interfaceIt is intended for use by customers using descriptor words to control the R&S®SMW200A in real-time. The interface control document specifies the interface between the customers hardware used for provision of descriptor words and the R&S®SMW200A ADV DATA/CTRL interface. Additional information on descriptor word processing inside the R&S®SMW200A is provided.
25-Aug-2021 | AN-No. 1GP133
The specialized R&S®MULTI-MOTION test sequences offered by the R&S®DVSG Digital Video Signal Generator permit a reproducible quality analysis of deinterlacing and motion portrayal for digital television (TV) displays. This makes it possible to study all potential degradations resulting from the progressive conversion separately. It also allows the various motion artefacts resulting from liquid crystal (LCD), plasma (PDP), and digital micromirror (DMD) technologies to be quantified. This application note explains how to draw specific conclusions from the sequence output on the test display.
01-Dec-2008 | AN-No. 7BM74
This application note describes how to generate GSM signals for wide ranging receiver tests under fading conditions for GSM/GPRS/Edge. The test setup requires an R&S®CMU Radio Communication Tester with IQ-IF interface option CMU-B17 and an R&S®SMIQ vector signal generator or baseband fading simulator ABFS for generating GSM. The GSMFadLevCor program included with this application note performs a semi automatic level correction of the power fed to the Device Under Test (DUT).
28-Aug-2009 | AN-No. 1MA60
The simple network management protocol (SNMP) can be used in a wide range of applications, as described in Rohde & Schwarz Application Note 7BM65 “The Simple Network Management Protocol: Remote Controlling for Monitoring Devices“. In particular, the option of centrally managing monitoring sensors – such as the R&S DVM for RF and baseband signals in digital broadcasting – shows the potential of this technology. However, the protocol alone is not enough to achieve this management functionality. Specialized management applications are needed that carry out the SNMP requests and display the results graphically. This application note and the associated SNMP example application will show how the R&S DVM family can be used for this type of application. Rohde & Schwarz customers can use the included source code (programming language: C#) to make the modifications needed for their own situations.
31-May-2007 | AN-No. 7BM66
Spectrum and network analyzers are capable of measuring large amounts of data that require complex mathematical processing; MATLAB is a powerful tool for such operations. This application note describes how instruments can be controlled directly from MATLAB scripts and how measurement data can be imported into MATLAB. Only 32-bit MATLAB is supported.
24-Sep-2007 | AN-No. 1EF46
The new WiMAX radio technology - worldwide interoperability for microwave access - is based on wireless transmission methods defined by the IEEE 802.16 standard. WiMAX has been developed to replace broadband cable networks such as DSL and to enable mobile broadband wireless access. Rohde & Schwarz offers a complete test solution for WiMAX applications by combining its Signal Generator R&S SMU200A and Signal Analyzer R&S FSQ plus the appropriate options.RuS_WiMAX_OFDM is a 10 minutes video on WiMAX OFDM measurements.Please see also 1MA96 for General information about the WiMAX standard and 1MA97 for Generating and analyzing 802.16-2004 and 802.16e-2005 signals.
11-Jul-2006 | AN-No. 1EF57
The R&S®CMU200 provides the signals required for 2nd order intermodulation (IM2) performance verification for WCDMA / CDMA2000® chipsets with zero IF design.This application note is a guide to configure the R&S®CMU200 for such an application.
16-Dec-2004 | AN-No. 1CM54
Modulation Analyzers FMA (up to 1.36 GHz) and FMB (up to 5 GHz) are high-grade FM demodulators from Rohde & Schwarz with highly stable synthesizer, low-noise FM demodulator, automatic frequency tuning and fine-tuning, separation of AM from FM,all of which make Analyzers FMA/FMB ideal for phase noise measurements.
03-Jun-1998 | AN-No. 1EF15
This application note introduces the methods to convert MediaFLO™ waveform files to ARB format to be used with R&S® Broadcast Signal Generators SFx-K35 ARB Generator. R&S® IQWIZARD and WinIQSIM™ software are used, providing a quick and simple file conversion method.
10-Nov-2008 | AN-No. 7BM73
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
Testing the tolerance to phase and impulsive noise is an integral part of quality tests for DVB-T/H and ATSC (8VSB) receivers, and several national and international standards specify guidelines and minimum requirements in this context. This Application Note introduces the R&S SFU-K42 impulsive noise option, the R&S SFU-K41 phase noise option, as well as the R&S SFU-K43 multinoise use option and describes how these can be used for testing the tolerance to phase and impulsive noise on commercial receivers.
26-Jan-2007 | AN-No. 7BM64
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
This application note describes the general setup and required equipment for EMC measurements according to the EMS standard IEC / EN 61000-4-6.
29-Mar-2007 | AN-No. 1SP31
This application note describes how to connect R&S® test and measurement products quickly and seamlessly to AWR® Visual System Simulator™ (VSS) via a GPIB or LAN interface. Using AWR® Connected™ customized for Rohde & Schwarz hardware and R&S® WinIQSIM2™ signal simulation software, the flexibility of digital radio standards is highlighted and its integration into VSS is demonstrated.
20-May-2010 | AN-No. 1MA174
This application note presents means to determine the quality of color-reproduction on TVs and monitors using the R&S®DVSG Digital Video Signal Generator in combination with the Konica Minolta CS-2000 spectroradiometer and the accompanying Konica Minolta CS-S10w analysis software.
13-Aug-2010 | AN-No. 7BM78
This application note describes ho to test and perform measurements on AMPS phones both using the remote-control program CMUgo and manually at the CMU200.
07-Sep-2004 | AN-No. 1CM53
This Application Note describes measurements compliant with the cdma2000® base station standard described in 3GPP2 C.S0010 / TIA/EIA-97 / ARIB STD-T64-C.S0010.The primary focus is on solutions for generating and analyzing cdma2000® signals. The special characteristics that make the selected signal generators and signal analyzers eminently suitable for this purpose are detailed, and remote control programming is demonstrated by a free of charge program.
05-Sep-2003 | AN-No. 1MA61
Short measurement time in conjunction with high accuracy and repeatability of results are essential for efficient testing of mobile phone power amplifiers. Power Meter R&S®NRP, Signal Generator R&S®SMIQ, Spectrum Analyzers R&S®FSP/FSU/FSQ and Power Supply R&S®NGMO2 offer optimum characteristics such as high accuracy, fast settling speed and short measurement time in programmed mode. This application note concentrates on testing GSM/EDGE mobile power amplifiers and shows typical test setups and programming examples for Signal Generator R&S®SMIQ and Spectrum Analyzer R&S®FSP/FSU/FSQ, benchmark numbers and repeatability results.
29-Apr-2004 | AN-No. 1MA66
The Rohde & Schwarz R&S CMU200 can be configured to perform packet data testing in a Mobile IP or Simple IP environment.This application note is intended as a guide to configuring the necessary Mobile IP or Simple IP network elements and R&S CMU200 instrument.
25-Apr-2007 | AN-No. 1CM51
Almost every switched-mode power supply (SMPS) needs an EMI (Electro Magnetic Interference) input filter to suppress any disturbances of the SMPS on the power lines. This requirement having an input filter in the design ensures that no negative effect will occur in other parts of the systems connected to the power lines. Therefore, the design and the validation of the input filter is a major task during a typical power supply design. The conducted emission (CE) test according to a specific standard is a suitable and a common validation method to release the design at the end of the development cycle. Nowadays, this conducted emission test will be performed as pre-compliance test during the development phase in the lab as well. In this case, the designer will obtain an early feedback whether the design has to be optimized regarding any disturbances present on the power lines. In most cases, the designer has to adjust the input filter to obtain a more effective suppression of disturbances generated by the SMPS. However, the designer needs to know details about the noise spectrum to optimize the input filter as effective as possible. In addition to magnitude and frequency information of the noise source, it would be very helpful to know whether the noise is generated by a common mode source or by a differential mode source. During the standard conducted emission test, common and differential mode noise is a combination in the measurement results and thus not possible to gain deeper insights. This document will describe a method to separate common-mode and differential-mode separation using two oscilloscope channels. This separation approach works without any additional hardware component like a noise separator. The designer will be able to distinguish between common-mode (CM) and differential-mode (DM) noise. This additional information about the dominant mode provides the capability to optimize input filters very efficiently.
17-Sep-2020 | AN-No. GFM353
Detailed instructions on 'How to activate the Win XP firewall'. The firewall is already activated on new units!
23-Nov-2004 | AN-No. 7BM46
RF interference is one of the largest contributors to poor network performance. It shows up in dropped calls and low data throughput rates. Traditionally, interference hunting means you get a list of sites with bad performance from an OSS. This defines the areas for interference hunting quite well.If, however, the problem remains after attempts at mitigation, it could be because other sources often mask symptoms of RF interference. Usually the strongest masking is due to the overlap between the interference signal and your network's signals. Analysis could involve complete cities or even countries, an error-prone task when using traditional spectrum analyzers and/or portable receivers and one that consumes a significant amount of time and budget.A more automated solution for larger areas can make the effort involved more manageable. The Rohde & Schwarz network scanner family (R&S®TSME, R&S®TSMA and R&S®TSMW) plus the network problem analyzer (NPA) feature of the R&S®ROMES4 measurement software is such a solution. It allows you to perform a fast drive test with a fleet of cars and collect spectrum data for your targeted or even complete network area in next to no time. Back at your office, the NPA tells you where to send dedicated interference hunting teams with an analyzer or receiver to track down the source of interference. This paper introduces the approach in detail.
02-Oct-2017 | AN-No. 1MA293
This paper describes the characterization of aluminum electrolytic capacitors specifically used in AC-DC power converter applications. It will be discussed why this capacitor technology is critical regarding lifetime and why it cannot be substituted simply by any another capacitor technology. Different aging effects of the capacitor will be discussed. Usage of the capacitor in different AC-DC converter topologies will be presented. Simulation circuits will be used to analyze the capacitor in more detail before suitable measurements will be performed to demonstrate a real example of a switching-mode power supply (SMPS).After the introduction into the aluminum electrolytic capacitor basics and theory, this paper will also present all important and possible measurements of capacitor parameters, like capacitance, equivalent series resistance (ESR) and ripple current. This includes in-circuit measurement which can be performed with an oscilloscope. An LCR-bridge is used to obtain high accuracy measurements in addition. A comparison between the two measurement methods will be presented. Furthermore, the required measurement hardware for the in-circuit measurements and the bridge measurement will be discussed and presented.Lastly, two different lifetime calculation methods are presented and a real example is used to compare the advantages and disadvantages of the different methods.Thanks to Mr. Frank Puhane from Würth eiSos GmbH & Co. KG who provided me with all aluminum electrolytic capacitor samples including the prepared capacitor with build-in temperature sensors to perform all measurements. Furthermore, his great expertise was very beneficial and helpful to create this premium application note.
07-Feb-2023 | AN-No. 1SL388
In this document we will describe in detail how to configure and perform path calibrations with AMS32-K81 in an ATS1500C, using an AREG800A.
03-May-2023 | AN-No. 1SL399