BCM4339XKWBGT Datasheet, PDF(93/183 Page) Cypress Semiconductor – Single-Chip 5G WiFi IEEE 802.11ac MAC/Baseband/Radio with Integrated Bluetooth 4.1 and FM Receiver

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BCM4339XKWBGT Datasheet, PDF (93/183 Pages) Cypress Semiconductor – Single-Chip 5G WiFi IEEE 802.11ac MAC/Baseband/Radio with Integrated Bluetooth 4.1 and FM Receiver

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BCM4339 Preliminary Data Sheet

WLAN Radio Subsystem

Section 12: WLAN Radio Subsystem

The BCM4339 includes an integrated dual-band WLAN RF transceiver that has been optimized for use in

2.4 GHz and 5 GHz Wireless LAN systems. It has been designed to provide low-power, low-cost, and robust

communications for applications operating in the globally available 2.4 GHz unlicensed ISM or 5 GHz U-NII

bands. The transmit and receive sections include all on-chip filtering, mixing, and gain control functions.

Ten RF control signals are available to drive external RF switches and support optional external power amplifiers

and low-noise amplifiers for each band. See the reference board schematics for further details.

A block diagram of the radio subsystem is shown in Figure 37 on page 93. Note that integrated on-chip baluns

(not shown) convert the fully differential transmit and receive paths to single-ended signal pins.

Receiver Path

The BCM4339 has a wide dynamic range, direct conversion receiver that employs high order on-chip channel

filtering to ensure reliable operation in the noisy 2.4 GHz ISM band or the entire 5 GHz U-NII band. An on-chip

low-noise amplifier (LNA) in the 2.4 GHz path is shared between the Bluetooth and WLAN receivers, while the

5 GHz receive path has a dedicated on-chip LNA. Control signals are available that can support the use of

optional LNAs for each band, which can increase the receive sensitivity by several dB.

Transmit Path

Baseband data is modulated and upconverted to the 2.4 GHz ISM or 5-GHz U-NII bands, respectively. Linear

on-chip power amplifiers are included, which are capable of delivering high output powers while meeting

IEEE 802.11ac and IEEE 802.11a/b/g/n specifications without the need for external PAs. When using the

internal PAs, closed-loop output power control is completely integrated. As an option, external PAs can be used

for even higher output power, in which case the closed-loop output power control is provided by means of a-

band and g-band TSSI inputs from external power detectors.

Calibration

The BCM4339 features dynamic and automatic on-chip calibration to continually compensate for temperature

and process variations across components. These calibration routines are performed periodically in the course

of normal radio operation. Examples of some of the automatic calibration algorithms are baseband filter

calibration for optimum transmit and receive performance, and LOFT calibration for carrier leakage reduction.

In addition, I/Q Calibration, R Calibration, and VCO Calibration are performed on-chip. No per-board calibration

is required in manufacturing test, which helps to minimize the test time and cost in large volume production.

BroadcomÂ®

November 17, 2014 â¢ 4339-DS106-R

Page 92

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