4G2-01 WiMAX vs. LTE Implications for Practical Device Applications

1. 4G2-01WiMAX vs. LTEImplications for Practical Device Applications Paul Tornatta, CTO SkyCross Inc. January 20, 2010

2. Agenda • SkyCross Company Introduction • LTE vs. WiMAX in North America • Frequency Allocation • Range loss • User Platform Consideration • Summary • Conclusions

3. About Us SkyCross is a global designer and manufacturer of one-stop antenna solutions for a variety of wireless devices • Founded in 2000 • Headquarters in Viera, Florida • Global Locations: China, Korea, Japan, Taiwan • Privately held with strong financial partners • Intel Capital • Investor Growth Capital: > $1B investments • TL Ventures: > $1.5B under management • 4-Yr Revenue Growth  55% CAGR • > 500 Employees • Strong IP Portfolio >140 Global Patents

4. Markets Served Our multi-band/mode antennas enable increased functionality – voice, data, video, location, audio – in any wireless device without compromising style. Mobile Phones Networking Router/ Access Point Femtocell Smart Grid Handsets Smartphone AND MORE – our technology is versatile! Computing Personal/Home Entertainment USB dongle Personal Navigation Device Personal Media/Game Players PC Card Ultra-mobile PC Wireless Audio Home Entertainment Laptop

5. 4G Frequency Allocations • LTE and WiMAX use similar modulation schemes and have similar spectral efficiency • WiMAX implementation in North America has a significant advantage in total bandwidth available to service a large number of customers

6. Range Loss Comparison – 700 MHz vs. 2600 MHz • LTE in North America is implemented in the 700 MHz band • WiMAX is implemented in the 2600 MHz band • LTE has a significant advantage in coverage range and footprint over WiMAX dBm 750 MHz 2600 MHz

7. MIMO Antenna Implementation Issues What works for 3G will not be good enough for 4G • MIMO antenna performance is greatly effected by device geometry • Handset geometries are small in terms of wavelength in the 700 MHz band making it difficult to implement MIMO antennas • Handset geometries are larger in terms of wavelength at 2600 MHz making MIMO antenna implementation more practical Freespace Wavelength at 750 MHz ~ 400 mm Maximum Dimension Resonance = 1150 MHz w=60 mm L=110 mm Freespace Wavelength at 2600 MHz ~ 115 mm

8. Simulation - 700 MHz MIMO Handset Antenna Implementation Efficiency: 30-40% VSWR: <2:1 Patterns almost identical CC: >0.8 Coupling: -4dB

9. Simulation - 700 MHz MIMO Handset Antenna Implementation – Isolated Mode Technique Efficiency 50-58% VSWR <2.2:1 CC: <0.35 Isolation: <-13 dB Significantly different patterns results in low envelope correlation coefficient

10. Summary / Conclusions • LTE 700 is capacity limited for a given data rate • WiMAX at 2.6 GHz is range limited for a given data rate • 700 MHz MIMO handset antenna implementation requires specialized techniques • WiMAX and LTE each have benefits and drawbacks • WiMAX and LTE will likely coexist each filling particular needs for data rates, coverage and capacity What works for 3G will not be good enough for 4G

11. Thank You!