RF Switch enables dual-band architecture for DOCSIS 3.1 devices.
Press Release Summary:
Supplied in 32-lead, 5 x 5 mm QFN package, UltraCMOS® PE42722 covers 5–1,794 MHz range and enables dual upstream/downstream band architecture in cable customer premises equipment (CPE) devices. This affords multi-service operators flexibility to offer customers new/expanded services, while CPE devices can comply with DOCSIS 3.1 standard. MSOs gain support for both DOCSIS 3.0 and 3.1, fostering transition. Unit supports 2.3–5.5 V supply range and comes with +1.8 and +3.3 V logic support.
Original Press Release:
Peregrine Semiconductor Enables a Dual-Band Architecture for DOCSIS 3.1 Devices
The UltraCMOS® PE42722 RF Switch Allows Customer Premises Equipment (CPE) Vendors to Future Proof Their Devices To Meet the Strict Linearity Requirements of the DOCSIS 3.1 Cable Industry Standard
SAN DIEGO -- Peregrine Semiconductor Corp. (NASDAQ: PSMI), founder of RF SOI (silicon on insulator) and pioneer of advanced RF solutions, announces the UltraCMOS® PE42722, a high-linearity RF switch that enables a dual upstream/downstream band architecture in cable customer premises equipment (CPE) devices. By using a dual-band architecture, multi-service operators (MSOs) have the flexibility to offer their customers new and expanded services while CPEs can comply with the new DOCSIS 3.1 cable industry standard. MSOs also benefit from the switch supporting both DOCSIS 3.0 and 3.1, allowing for a simple and cost-effective transition to DOCSIS 3.1.
CPE devices, such as set-top boxes, cable modems and home gateways, have previously supported only one upstream and downstream band at a time. Until now, no switch has met the linearity requirements necessary to support a dual-band architecture. When upgrading to a different high-speed service plan, the customer currently is faced with the inconvenience of physically changing the CPE device to get the hardware necessary to support the higher upstream and downstream band requirements. The introduction of the PE42722 high-linearity switch marks the first time that dual upstream/downstream bands can reside in the same CPE device. Once CPE devices are equipped with the PE42722 switch, the exchanging of hardware will no longer be necessary.
"The PE42722 is a game changer for the cable industry," says Kinana Hussain, Peregrine's senior marketing manager. "By enabling a dual-band architecture, customers will be able to make a simple phone call to their cable service provider, who can then, 'with the flip of a switch', upgrade their customer's high-speed data service plan. The added bonus of also complying with the DOCSIS 3.1 standard makes this switch a must-have for all next-generation CPE devices."
An additional benefit of the PE42722 high-linearity switch is its compliance with the DOCSIS 3.0 and 3.1 cable standards. The cable industry faces the challenge of supporting the customer's increasing demand for more high-speed home data. In order to meet this rise in data consumption, the industry announced the DOCSIS 3.1 standard in Oct. 2013. These new DOCSIS 3.1 requirements put enormous pressure on the entire cable industry eco system, from CPE devices to the infrastructure. To ease the infrastructure transition to the higher speeds and eliminate the need to replace the CPE, these devices must incorporate the flexibility to accommodate multiple upstream/downstream frequency band definitions. To create a dual-band architecture, a switch must be placed directly at the cable modem (CM) connector before the filters and needs to comply with the stringent DOCSIS 3.1 CM spurious emissions requirements of -50 dBmV. Such a low spurious level requires the switch harmonic performance to be better than -115 dBc. The PE42722 is the only RF switch available today that can achieve these high harmonic requirements.Â
Features, Packaging, Pricing and Availability
Covering a frequency range of 5-1,794 MHz, the PE42722 readily supports an average input power greater than 65 dBmV. The switch's low insertion loss (0.3 dB at 1218 MHz) preserves noise figure and receiver sensitivity and achieves superior signal quality, along with providing high isolation of 40 dB at 612 MHz. The PE42722 also features a low current consumption of 130 µA, standard +1.8V and +3.3V logic support, a wide voltage supply range from 2.3 to 5.5V, and 1.5 kV ESD protection on all pins.
Offered in a 32-lead 5 mm x 5 mm QFN package, volume-production parts, samples and evaluation kits are available now. For 10K-quantity orders, each PE42722 switch is $3.38. To learn more, please visit the PE42722 press kit.
Product Specification
Peregrine's PE42722 UltraCMOS(R) SPDT RF Switch
5-1,794 MHz
Features:
Supports DOCSIS 3.0/3.1
High Linearity
High harmonic performance
2fo = -117 dBc @ 170 MHz
3fo = -134 dBc @ 170 MHz
Low Insertion Loss
0.2 dB @ 204 MHz
0.3 dB @ 1218 MHz
0.7 dB @ 1700 MHz
0.85 dB @ 1794 MHz
High Isolation
50 dB @ 204 MHz
40 dB @ 612 MHz
33 dB @ 1218 MHz
29 dB @ 1794 MHz
High Input Power Handling
PIN,CW = 80 dBmV
PIN,Peak = 85 dBmV
High ESD protection: 1.5 kV on all pins
ABOUT PEREGRINE SEMICONDUCTOR
Peregrine Semiconductor (NASDAQ: PSMI), founder of RF SOI (silicon on insulator), is a leading fabless provider of high-performance, integrated RF solutions. Since 1988 Peregrine and its founding team have been perfecting UltraCMOS® technology - a patented, advanced form of SOI - to deliver the performance edge needed to solve the RF market's biggest challenges, such as linearity. With products that deliver best-in-class performance and monolithic integration, Peregrine is the trusted choice for market leaders in automotive, broadband, industrial, Internet of Things, military, mobile devices, smartphones, space, test-and-measurement equipment and wireless infrastructure. Peregrine holds more than 180 filed and pending patents and has shipped more than 2 billion UltraCMOS units. For more information, visit http://www.psemi.com.
The Peregrine Semiconductor name, logo, and UltraCMOS are registered trademarks of Peregrine Semiconductor Corporation in the U.S.A., and other countries. All other trademarks mentioned herein are the property of their respective owners.
