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802.11-WV-GENER Datasheet, PDF (13/17 Pages) Keysight Technologies – 802.11ad Waveform Generation & Analysis Testbed, Reference Solution | |||
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13 | Keysight | 802.11ad Waveform Generation & Analysis Testbed, Reference Solution - Solution Brochure
Software Elements (continued)
W1915EP SystemVue mmWave WPAN baseband verification library
www.keysight.com/find/systemvue
SystemVue is a system-level communications design environment that brings together
physical layer baseband algorithmic modelling, accurate RF modelling, standards-based
reference IP, and direct interaction with test equipment. It is used early in the R&D
lifecycle by system architects, and follows both the RF and Baseband design paths into
implementation, providing continuity for cross-domain verification.
The W1915 mmWave WPAN Baseband Verification Library is a SystemVue add-on
library that provides configurable IP references for 802.11ad and 802.15.3c wireless
communications physical layers operating at 60 GHz. It is used by designers to verify
baseband algorithms, system performance with faded and precisely impaired channels,
and various RF components. Because of the difficulty in making 60 GHz components and
measurements, SystemVue simulations are able to assist in these key ways:
ââ Validation of early RFIC and MMIC designs in Keysight GoldenGate and ADS, prior to
taping out a wafer.
ââ Economical system-level validation and high-fidelity early pre-compliance using
simulations, so that final hardware compliance testing can be performed more
quickly, with greater confidence.
ââ Generation of consistent test vectors for simulation vs. hardware testing, using a
direct download to the Keysight M8190A AWG and measurement using the 81199A
Wideband Waveform Center software. The W1915 library is interoperable with the
81199A and 89600 VSA applications.
802.11ad
coded
TX/RX
Realistic 60 GHz TX/RX system impairments
Download to M8190A
for hardware test
BB source
ââ Test vector generation
ââ Coding
ââ Std pre-compliance
ââ Algorithms
ââ MIMO/beamforming
Upconverter
ââ Quantizer (12 b vs.
16 b)
ââ Filtering
ââ Gain/phase imbalance
ââ Phase noise
ââ Nonlinearities
ââ Frequency response
60 GHz PA
ââ Ideal PA model
ââ X-parameters
ââ FCE from Golden Gate
ââ (with memory effects)
ââ Live ADS/GG co-sim
Channel
ââ Noise, fading
ââ Multipath
ââ Interferers
Receiver
ââ Downconversion
ââ Noise and filtering
ââ Clock recovery and EQ
ââ ADC and jitter
ââ Nonlinearities
ââ Spurs
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