- Home
- App-Analyse
- RF Path
- RF Path Vs. matchedRF
RF Path im Vergleich zu matchedRF Nutzung und Statistiken
RF Path provides propagation loss calculations for radio frequencies (RF) between 20 MHz and 20 GHz using either the Irregular Terrain model, Okumura-Hata model, COST-231 Hata Extension model, or the COST-231 Walfish-Ikegami model. The calculations are based on both electromagnetic theory and the statistical analysis of terrain characteristics to calculate the degradation of the RF wave as a function of distance and the variability of the RF wave with respect to time and space.
The Irregular Terrain Model has two different prediction models. One is the Area Prediction mode which calculates propagation losses over an area where the exact terrain parameters are not known, but approximated using terrain roughness, environmental parameters and statistical parameters.
The second is a point-to-point mode where specific latitude/longitude pair values are entered for both transmitter and receiver. Environmental parameters and statistical parameters are also used in this prediction mode.
The results may be saved to iCloud, emailed, or posted to Facebook or Twitter. The results are in CSV format.
In the Area Prediction mode a table along with a graph shows the path loss over the distance entered into the settings. The graph is viewed by rotating the device once the results table is shown.
In the Point-To-Point Prediction mode a table along with a graph shows the path loss and elevation profile of the RF path.
- Apple App Store
- Bezahlt
- Produktivität
Rang speichern
- -
matchedRF is a network synthesis tool for broadband RF applications. It supports impedance matching for a restricted class of terminations - namely the capacitive sources and loads that are so commonly encountered during the design phase of RF power amplifiers.
Since filter structures are the most efficient broadband impedance-matching structures, matchedRF outputs filter-based lumped LC ladder structures that are matched to user specifications at both ends of the network. The tool is helpful in that the parasitic capacitance of an active device can be absorbed by the matching components at either end of the network or even both ends simultaneously. matchedRF is directly applicable to input matching, output matching and interstage matching in the design of broadband RFIC and millimeter wave power amplifier systems.
Wherever possible, matchedRF generates the Fano-Optimum, lumped-element Chebyshev filter structure representation.
Bandpass topologies of network order 2 through 6 are supported.
In addition, the tool supports the recommendation, insertion and manipulation of lumped-element impedance transformers. matchedRF provides the transformer solutions (if they exist) and allows users to further add or remove transformers and make refinements such that component values closely match those supported by their manufacturing process.
matchedRF plots the frequency response of:
- insertion loss
- return loss
- transmission phase
- group delay
matchedRF exports to the following formats:
- Text format .csv
- Design summary documentation .pdf
- S-parameter .s2p
- matchedRF format .pamatch
matchedRF - broadband impedance matching support for the design of optimum RF power amplifiers.
- Apple App Store
- Bezahlt
- Produktivität
Rang speichern
- -
RF Pathvs. matchedRF Ranking-Vergleich
Vergleichen Sie RF Path den Ranking-Trend der letzten 28 Tage mit matchedRF
RF Path- -
Rang
RF Path im Vergleich zu matchedRF Ranking im Ländervergleich
Vergleichen Sie RF Path den Ranking-Trend der letzten 28 Tage mit matchedRF
Keine Daten zum Anzeigen
Stellen Sie mit unserer kostenlosen Testversion Vergleiche mit jeder Website an
RF Path VS.
matchedRF
Dezember 24, 2024