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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.
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This paper describes the measurement of additive/residual phase noise of power amplifiers or multipliers for example for automotive RADAR sensors at 80 GHz using the interferometric measurement approach in combination with a phase noise and VCO tester R&S FSWP. The setup provides a way to characterize the additive/residual phase noise of amplifiers down to -150 dBc/Hz at 100 kHz offset even in the microwave range at 80 GHz.
11-Sep-2024 | AN-No. 1EF117
Particle acceleration requires cavity resonators that are driven with high RF powers at defined frequencies. Rohde & Schwarz offers RF solid-state amplifiers for frequencies ranging from 9 kHz to 6 GHz, delivering CW power up to 80 kW.
27-Apr-2016
For conducted immunity tests, EMC labs require a test signal source driven at high RF powers and at defined frequencies. Rohde&Schwarz offers a compact solution with a signal generator, an RF solid-state amplifier with power up to 350 W, power sensors and test software for the frequency range from 4 kHz to 400 MHz.
03-Dec-2021
Monitoring solutions for operators of security radio networks for police, rescue services, ambulances, fire brigades and radio and TV broadcasting transmitters and other regional and national services.
04-Sep-2006
A new phase noise test instrument covers the frequency range from 1 MHz to 50 GHz with direct down-conversion analog I/Q mixers and baseband signal sampling. The traditional PLL has been replaced by a digital FM demodulator for phase detection and frequency tracking. An additional AM demodulator enables concurrent measurement of phase and amplitude noise. The instrument can measure phase noise as low as -183 dBc/Hz with a 100 MHz carrier frequency and 10 kHz offset within two minutes.
09-May-2016
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
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
Rohde & Schwarz test receivers of the ESXS, ESS and ESXN series are equipped with a 3.5' floppy-disk drive so that receiver settings, scan results, limit lines, transducer factors and whole sets of transducers can be stored on a floppy disk and reloaded into the receiver. Data can only be loaded into the receiver type from which they have been stored. The reason is that data eg from an ESHS30, which operates in the frequency range from 9 kHz to 30 Hz, should not be loaded into an ESVS30 as the data of the two units may be incompatible to because of the different frequency ranges alone (ESVS30: 20 MHz to 1000 MHz). However, in some cases it may be desirable to load an ESVS20 file into an ESVS30, or an ESN file into an ESVN40.
18-Jan-2002 | AN-No. 1EE19
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