BCM4319XKUBGT Datasheet, PDF(41/84 Page) Cypress Semiconductor – Single-Chip IEEE 802.11™ a/b/g/n MAC/Baseband/ Radio with Integrated SDIO and USB Interfaces

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BCM4319XKUBGT Datasheet, PDF (41/84 Pages) Cypress Semiconductor – Single-Chip IEEE 802.11™ a/b/g/n MAC/Baseband/ Radio with Integrated SDIO and USB Interfaces

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BCM4319 Preliminary Data Sheet

PHY Features

The PHY has been designed to work with interference, radio nonlinearity, and impairments. It incorporates

efficient implementations of the filters, fast fourier transform (FFT), and Viterbi-decoder algorithms. Efficient

algorithms have been designed to achieve maximum throughput and reliability, including algorithms for carrier

sense/rejection, frequency/phase/timing acquisition and tracking, and channel estimation and tracking. The

PHY receiver also contains a robust 11b demodulator. The PHY carrier sense has been tuned to provide high

throughput for 802.11g/11b hybrid networks with Bluetooth coexistence. It has also been designed for shared

single antenna systems between WLAN and BT to support simultaneous Rx-Rx. In dual antenna designs, the

digital PHY has been designed for Maximal Ratio Combining (MRC) in RF.

Figure 15: WLAN PHY Block Diagram

Filters and

Radio

Comp

Frequency

and Timing

Synch

AFE

and

Radio

Control

Block

Carrier Sense,

AGC, and Rx

FSM

Common Logic

Block

Tx FSM

CCK/DSSS

Demodulate

OFDM

Demodulate

Viterbi

Decoder

Buffers

FFT/IFFT

Modulation

and Coding

Filters and

Radio Comp

PA Comp

Modulate/

Spread

Descramble

and Deframe

MAC

Interface

Frame and

Scramble

COEX

The PHY is capable of fully calibrating the RF front end to extract the highest performance. On power-up, PHY

calibrations correct for IQ mismatch and local oscillator leakage. PHY periodic calibrations compensate for

temperature related drift to yield high performance over time. A closed-loop transmit control algorithm maintains

the output power to a fixed level with the capability to control Tx power on a per packet basis.

The PHY can receive two spatial streams. The STBC scheme can obtain diversity gains by using multiple

transmit antennas at the access point (AP) in a fading channel environment, without increasing the complexity

at the station (STA). Details of STBC reception are shown in Figure 16 on page 41.

BroadcomÂ®

April 2, 2014 â¢ 4319-DS05-R

Single-Chip IEEE 802.11â¢ a/b/g/n MAC/Baseband/Radio

Page 40

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