Reference Design for an 802.11b/g RF Front-End Module Using the MAX2830

Mar 27, 2008

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Abstract: This module uses the highly integrated MAX2830 RF transceiver. It is a complete RF front-end solution that meets the WLAN IEEE^SM 802.11b/g standard. The transmitter can deliver more than 15dBm Tx power at EVM < 5.6% with a 54Mbps OFDM 802.11g signal. The receiver can provide an IQ signal EVM < 9% with a -74.5dBm 54Mbps OFDM 802.11g signal.

Click here for an overview of the wireless components used in a typical radio transceiver.

Figure 1. The reference design board shows the MAX2830 in an 802.11b/g RF front-end module.

Important Design Features

Cascaded Receive Noise Figure of 6dB
Low Phase Noise of -95dBc/Hz at 10kHz Offset
Rx EVM < 9% at -74.5dBm with an 802.11g 54Mbps OFDM Signal
95dB Receive Gain Control Range (32dB RF and 63dB BB VGA)
Tx EVM < 5.6% at 15dBm Output Power with an 802.11g 54Mbps OFDM Signal
25dB Transmit Gain Control Range
Supports Full-Range 802.11b/g Data Rates
Small 11mm x 16mm Size
Low BOM Cost

Figure 2. Block diagram for the 802.11 b/g RF module.

Lab Measurements

DC Performance
V_BATT = +3.3V, V_CC = +2.85V, T_A = +25°C

Parameter	Test Condition	Meas.	Unit
Shutdown Supply Current		10	µA
Standby Supply Current	PLL, VCO, LO Generator ON	28	mA
Receive Supply Current		65	mA
Transmit Supply Current	P_OUT = 15dBm	289	mA

Receive Summary
V_BATT = +3.3V, V_CC = +2.85V, f_RF = 2437MHz, RF input = 802.11a, 64QAM, 54MBps at antenna, V_OUT = 112mV_RMS at RXI and RXQ baseband outputs, RXHP = 0, T_A = +25°C

Parameter	Test Condition		Meas.	Unit
Frequency Range			2.4 to 2.5	GHz
Receive EVM	Max Gain, VGA adjusted for V_OUT = 112mV_RMS, P_IN = -65dBm		3.9	%
	Mid Gain, VGA adjusted for V_OUT = 112mV_RMS, P_IN = -45dBm		2.5
	Min Gain, VGA adjusted for V_OUT = 112mV_RMS, P_IN = -10dBm		2.7
Sensitivity	Receive EVM = 9%	Antenna 1	-73	dBm
		Antenna 2	-74.5

Transmit Summary
V_BATT = +3.3V, V_CC = +2.85V, f_RF = 2437MHz, baseband inputs = 110mV_RMS, 802.11a, 64QAM, 54MBps, Tx output measured at Antenna 1, RXHP = 0, T_A = +25°C

Parameter	Test Condition		Meas.	Unit
Maximum Transmit Output	Tx VGA adjusted for EVM = 5.6%, Tx VGA = -4dB		15	dBm
ACPR	Tx VGA set for EVM < 5.6%, channel BW = 20MHz	f_OFFSET = 20MHz	36	dBc
		f_OFFSET = 40MHz	55
		f_OFFSET = 60MHz	60

Figure 3. Phase noise plot of the reference design.

Detailed Description

The MAX2830 is a single-chip, single-band, Dual Mode™ direct-convert transceiver designed for a 2.4GHz 802.11b/g (OFDM and CCK) WLAN application. The device integrates all the circuitry required to implement the complete RF transceiver function: PA, T/R switch, antenna diversity switch, LNA, 50Ω matching components, sigma-delta fractional synthesizer, crystal oscillator, and unique I/Q amplitude and phase-error calibration circuits. The device also eliminates the need for external SAW filters by implementing on-chip monolithic filters for both receiver and transmitter. The baseband Tx and Rx filters are optimized to meet the 802.11g IEEE standard. With an additional RF filter and several passive components, one can form a complete 802.11b/g WLAN RF front-end solution that delivers high performance within a small form factor and low price.

Application Note Links
Application note 3630, "Power Supply and Ground Design for a WiFi Transceiver"

Dual Mode is a trademark of Maxim Integrated Products, Inc.

IEEE is a registered service mark of the Institute of Electrical and Electronics Engineers, Inc.

Related Parts
MAX2830	2.4GHz to 2.5GHz 802.11g/b RF Transceiver with PA and Rx/Tx/Diversity Switch

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APP 4156: Mar 27, 2008
REFERENCE DESIGN 4156, AN4156, AN 4156, APP4156, Appnote4156, Appnote 4156

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Reference Design for an 802.11b/g RF Front-End Module Using the MAX2830

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