LTE-Advanced Test & Design
4G LTE-Advanced refers to the evolved version of LTE that is being developed by 3GPP to meet or exceed the requirements of the International Telecommunication Union (ITU) for a true fourth generation radio-communication standard known as IMT-Advanced. LTE-Advanced, of the 3GPP standard, is defined in Release 10 and all the follow on releases including Release 12. LTE-Advanced is focused on higher capacity with increased peak data rate of 3 Gbps for the downlink and 1.5 Gbps for the uplink, higher spectral efficiency, increased number of simultaneously active subscribers, and improved performance at cell edges, e.g. for DL 2x2 MIMO at least 2.40 bps/Hz/cell.
The main new functionalities of Release 10 for LTE-Advanced are Carrier Aggregation (CA), enhanced use of multi-antenna techniques, enhanced uplink, and support for Relay Nodes (RN).
Agilent not only addresses basic and test challenges, but also outlines the technology, describes deployment and standard milestones, and offers resources for those requiring more in-depth LTE technology information. We offer greater insight into LTE designs by providing greater insight into complex LTE technology, evolving LTE standards and how to test to them, and deeper insight into the root causes of design problems. Agilent continues to play a pivotal role in the development, revision and implementation of 3GPP and the new 4G LTE technology, as well as, continues to be the recognized leader for its contribution to the future of wireless access.
See Measurement Solution Example: Carrier Aggregation Base Station Transmitter Test
To learn more about the LTE implementation of MIMO: MIMO Test
Greater insight. Greater confidence. Accelerate next-generation wireless.
Refine the List
By Type of Content
By Product Category
All Product Categories
Generators, Sources, Supplies
DC Power Supplies
- 0-50W, DC Power Supplies, Single and Multiple Outputs (1)
- 51-175W, DC Power Supplies, Single and Multiple Outputs (3)
- 176-999W, DC Power Supplies, Single and Multiple Output (1)
- 200-2000W, DC Power Supplies, no Interface, Single Output (1)
- 1000 to >3000W, DC Power Supplies, Single Output (1)
- Single and Multiple Output Bench Power Supplies (1)
- Application Specific Power Supplies (1)
- DC Power Supplies
- Generators, Sources, Supplies
1-3 of 3
Optimize Wireless Device Battery Run-time: Two Part Webcast Series
Original roadcasts Aug 22 & Sept 19, 2012
Webcast - recorded
Test & Measurement events in Europe, Middle East & Africa
Test & Measurement events in Europe, the Middle East, and Africa - seminars, trade shows, user group meetings, webcasts, tutorials and conferences.
Optimize UE Design for Greater Battery Run-Time
Original broadcast April 26, 2012