PE42820 Datasheet, PDF(1/2 Page) Peregrine Semiconductor – Peregrine Enables New Approach to RF Switching in High-Power Wireless Systems

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PE42820 Datasheet, PDF (1/2 Pages) Peregrine Semiconductor – Peregrine Enables New Approach to RF Switching in High-Power Wireless Systems

NEWS RELEASE

Peregrine Enables New Approach to RF Switching in High-Power

Wireless Systems

UltraCMOSÂ® technology delivers unprecedented combination of 30W power handling

and excellent linearity across the UHF/VHF through LTE frequency bands

San Diego, California, September 11, 2013 -- Peregrine Semiconductor Corporation (NASDAQ: PSMI),

a fabless provider of high-performance radio frequency integrated circuits (RFICs), today announced the

PE42820 and PE42821 single-pole double throw (SPDT) switches for high-power wireless applications.

The new switches provide an unprecedented combination of high-power handling and excellent linearity

while offering an integrated approach that reduces board area, power consumption and design-in

complexity compared to traditional discrete solutions. This combination makes the PE42820/821 ideal for

transmit/receive, filter bank and antenna band switching applications in high-power RF systems such as

wireless infrastructure devices and land mobile radios for public safety and military environments.

Peregrineâs new switching ICs are significant in replacing discrete solutions including traditional

pin diodes used in land mobile radios (LMR), and mechanical relays used in LTE-enabled small cells or

distributed antenna systems. These discrete solutions cannot deliver both the high power handling and

high linearity required for broadband frequency support as required for LMR and LTE convergence. In

contrast, the PE42820/821 switching ICs offer high 30W power handling while also enabling excellent

linearity across the entire 30MHz to 2.7GHz frequency range. This combination, enabled by Peregrineâs

UltraCMOSÂ® technology with HaRPâ¢ enhancements, improves signal clarity and range in high-power

RF systems.

In addition, Peregrineâs monolithic

approach integrates flexible control voltage

ranges, which eliminates the need for external

bias control circuitry. This reduces the system

bill of materials, thereby saving on board space

and current consumption, while simplifying

design for a more reliable long-term solution.

âThe increased complexity that comes

from supporting additional frequency bands in

high-power wireless applications necessitates

a new approach to system design,â said Mark

Schrepferman, director of Peregrineâs

Hi-res photo available through editorial contact or Flickr

(feel free to publish):

http://www.flickr.com/photos/peregrinesemiconductor/9717686635/

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