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Mobile Computing Application Solutions- MIPI

The Mobile Industry Processor Interface (MIPI) Alliance has defined standard interfaces for mobile terminals. As a contributor member of the MIPI Alliance and a world leader in test and measurement, Agilent is at the forefront in providing you with digital and RF test solutions for the MIPI test interfaces.

MIPI interfaces

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42 Mbps DC-HSDPA Throughput with the 8960 
This video is a demonstration of the new E5515E measuring the maximum 42 Mbps throughput of a DC-HSDPA device in an environment that closely simulates real-world conditions

Demo 2012-03-05

 
802.11ac System Design and Verification Using the W1917 SystemVue WLAN library 
Agilent SystemVue and the W1917 WLAN library are used for communications system design and verification of a 5GHz 802.11ac WLAN physical layer.

Demo 2011-11-18

 
Anticipate Multi-Standard Radio (MSR) Performance with Agilent SystemVue  
As mobility carriers embrace 4G LTE technology, new equipment must co-exist with older 2G/3G standards. Multi-Standard Radio (MSR) testing characterizes these interactions, and is supported by a variety of Agilent test products. Agilent SystemVue, a system-level modeling environment for communications physical layer, enables R&D engineers to anticipate these interactions, achieve more robust system designs, then connect to Test to validate simulated performance using real hardware.

Demo 2012-02-18

 
Cross Domain test environment for DigRF based RF-IC and BB-Ics 
This video demonstrates how the DigRF integrated test environment from Agilent Technologies will assist you through the different phases of the development process of both your digital and RF subsystems,

Demo 2009-11-10

 
Demonstration of Handovers between LTE and eHRPD Cells (Inter-RAT) 
This video demonstrates how to accelerate time-to-market for LTE UE designs with handovers between LTE and eHRPD Cells (Inter-RAT) using the Agilent E6621 PXT.

Demo 2011-05-02

 
Demonstration of Simultaneous Video Streaming and VoIP with a 4G LTE USB Modem 
Using the Agilent E6621 PXT, this video demonstrates simultaneous video streaming and VoIP with a 4G LTE (LTE-Advanced) USB modem.

Demo 2011-05-02

 
Demonstration of Streaming Video to a 4G LTE USB Modem 
This video demonstrates streaming video to a 4G LTE (LTE-Advanced) USB modem using an Agilent E6621 PXT.

Demo 2011-05-02

 
Demonstration of VoIP with a 4G LTE USB Modem 
This video demonstrates the use of the Agilent E6621 PXT Wireless Communications Test Set with VoIP with a 4G LTE (LTE-Advanced) USB modem.

Demo 2011-05-02

 
Fast Circuit Envelope Models for RFIC verification 
Fast Circuit Envelope Models for RFIC verification Learn to verify 4G/LTE wireless RFIC transceivers 1000x faster using the GoldenGate “Fast Circuit Envelope” models in SystemVue.

Demo 2011-04-18

 
Gain greater confidence in your DigRF designs 
This video will demonstrate how the integrated test environment from Agilent Technologies will assist you through the different phases of the development process of both your digital and RF subsystems.

Demo 2011-04-11

 
LTE Digital and Analog Vector Modulation Debug 
Watch this video to learn how to debug and validate the vector signal path in an LTE radio. A common analysis environment allows for both digital and analog/RF teams to evaluate the quality of key LTE signals. Both digital and analog signals are processed by the 89600 Vector Signal Analyzer (VSA) software where the constellation diagram, spectral content, and error vector magnitude can be observed and compared to SystemVue simulation results.

Demo 2012-03-27

 
MIMO OTA Two-Stage Method Using PXT and PXB  
This video is a demonstration of testing the MIMO OTA performance of an LTE device using the two-stage method with Agilent Technologies' N5106A PXB and E6621A PXT. This method is efficient and cost-effective and can be used for multiple stages of test including design verification testing of antennas or devices on a lab bench. 3GPP and CTIA are currently evaluating this method to be added to LTE conformance testing.

Demo 2012-03-05

 
MIPI M-PHY Automated Tx Test Demo 
Watch an Agilent engineering expert demonstrate the new MIPI transmitter solution that is designed to perform MIPI M-Phy measurements automatically to help save you time. This demo uses a M-Phy Gear2 devices from Cosmic Circuits.

Demo 2012-02-21

 
Overcoming LTE-Advanced Test Challenges - Inter-Band Carrier Aggregation  
This video will explain one of the major test challenges of demodulating the multiple component carriers simultaneously since the frequency band separation in inter-band aggregation is wider than the IF BW of any commercially available signal analyzer. Watch how Agilent addresses this test challenge with the 89600 VSA software along with dual X-Series signal analyzers or N7109A multi-channel signal analyzer.

How-To Video 2012-07-15

 
Wireless Videos 
View these videos to learn more about wireless from Agilent - test solutions from Agilent for MIMO, WiMAX(TM), RFID, WLAN, Bluetooth®, and more.

Demo 2012-11-08

 
Wireless Videos - WLAN 
View these videos to learn more about wireless from Agilent - test solutions from Agilent for MIMO, WiMAX(TM), RFID, WLAN, Bluetooth®, and more.

Demo 2012-11-08

 
Wireless Videos- WiMAX, Zigbee, and Tradeshow product demonstrations 
View these videos to learn more about wireless from Agilent - test solutions from Agilent for MIMO, WiMAX(TM), RFID, WLAN, Bluetooth®, and more.

Demo 2012-11-08

 
Zigbee Demodulation 
This demonstration uses the Agilent 89600 Series vector signal analysis software to demodulate and measure a ZigBee 2.4 GHz, direct sequence, spread spectrum signal. The signal is demodulated using offset QPSK with the imported filter shape applied and results shown in constellation, EVM versus time, and eye diagrams.

Demo 2005-03-03

 
ZigBee Spectrum versus Time  
This demonstration uses the Agilent 89600 Series vector signal analysis software to show the power and spectrum characteristics of a ZigBee 2.4 GHz, direct sequence, spread spectrum signal. The video shows first the basic spectral shape of a real ZigBee device signal and the ease with which the occupied bandwidth may be measured. Then a spectrogram (spectrum versus time) highlights packet characteristics of the ZigBee signal and the amplitude versus time measurement.

Demo 2005-03-03