More Information - Wireless Home - Application Notes and Tutorials - EV Kit Software - Technical Support   Abstract: This reference design is a complete RF front-end solution designed to meet the WLAN IEEE® 802.11b/g standard. Using the MAX2830 RF transceiver, the design is capable of accommodating full range of 802.11g OFDM data rates (6, 9, 12, 18, 24, 36, 48, and 54Mbps) and 802.11b QPSK data rates (1, 2, 5.5, and 11Mbps). This solution offers high performance, small size, and low BOM cost. Figure 1. The WLAN reference design features the MAX2830 RF transceiver. Important Design Features High-Performance Rx NF < 6dB (typ); Tx Output 15dBm (typ) Small Size: 17mm x 24.7mm Platform Design for Multiple Form-Factors such as Card Bus and Compact Flash Figure 2. Block diagram of the WLAN reference design. Lab Measurements Power Consumption Summary Operating conditions: VCC = 2.85V; VBAT = 3.3V; fRF = 2.437GHz; RXTX and active-low SHDN set according to operating mode; active-low CS = high; SCLK = DIN = low; transmitter and receiver in maximum gain. There were no input signals at RF inputs. Baseband outputs are open. 100mVRMS differential, 54Mbps IEEE 802.11g OFDM signals were applied to I and Q baseband inputs of transmitter in transmit mode. Parameter Test Conditions Meas. Unit Supply Current Shutdown   µA Standby; PLL + VCO + LO generator 28 mA Rx active 58 mA Tx active (most linear mode) at 3.3V for PA VCC, POUT = 15.7dBm 295 mA Receive Summary Operating conditions: VCC = 2.85V; TA = +25°C; fRF = 2.437GHz; fBB = 4MHz; Rx VOUT = 112mVRMS; fREF = 40MHz; active-low SHDN = high; RXTX = low; active-low CS = high; SCLK = DIN = low. Parameter Test Condition Meas. Unit Frequency Range   2.4 to 2.5 GHz Total Voltage Gain   94 dB RF Gain Steps Relative max gain (B7:B6 = 11) B7:B6 = 10 -16 dB B7:B6 = 0X -33 BB Gain Range Ratio of max to min gain 61 dB DSB NF LNA input referred, based on 10kHz to 8.6MHz integrated noise at I/Q baseband output. 1. B7:B6 = 11, voltage gain = 90dB 6.0 dB 2. B7:B6 = 11, voltage gain = 62dB 6.4 3. B7:B6 = 11, voltage gain = 48dB 7.0 I/Q Phase Error near DC Max gain < ±1 deg IQ Gain Imbalance Max gain < 0.1 dB Rx Sensitivity EVM < 9% Measured at J1 -73.6 dBm Measured at J2 -72.6 EVM PIN = -65dBm 4.2 % PIN = -40dBm 2.2 PIN = -10dBm 3.0 Transmit Summary Operating conditions: VCC = 2.85V; VBAT = 3.3V; TA = +25°C; fRF = 2.437GHz; fREF = 40MHz; active-low SHDN = high; RXTX = high; active-low CS = high; SCLK = DIN = low; 100mVRMS, 54Mbps 802.11g OFDM signal applied to I and Q baseband inputs of transmitter. Parameter Test Condition Meas. Unit Frequency Range   2.4 to 2.5 GHz Transmit Power For EVM = 5.6%; meets the ACPR spec 15.7 dBm/16MHz Transmit EVM POUT = +15.7dBm 5.4%   Adjacent Channel Power Ratio (for 54Mbps OFDM Signal) At 11MHz offset over 100kHz RBW See Figure 3 dBc At 20MHz offset over 100kHz RBW At 30MHz offset over 100kHz RBW Operating Characteristics Figure 3. ACPR performance at Tx power = 15.7dBm, EVM < 5.6%. Figure 4. Rx I/Q constellation diagram at RF input = -40dBm, 54Mbps 64QAM, EVM = 2.2%. Figure 5. Rx I/Q constellation diagram at PIN = -65dBm, 54Mbps 64QAM. The EVM is only 4.2%, which is better than the 9% requirement for sensitivity. Detailed Description This reference design is suitable for the full range of 802.11g OFDM data rates (6, 9, 12, 18, 24, 36, 48, and 54Mbps) and 802.11b QPSK data rates (1, 2, 5.5, and 11Mbps) at corresponding sensitivity levels. Using the MAX2830 chipset eliminates the need for external SAW filters, a RF switch, and a PA. Only a RF filter, RF balun, and a small number of passive components are required to form a complete 11b/g WLAN RF front-end solution that delivers high performance in a small PCB form-factor. IEEE is a registered service mark of the Institute of Electrical and Electronics Engineers. Related Parts   APP 4276: Sep 18, 2008 MAX2830 2.4GHz to 2.5GHz 802.11g/b RF Transceiver with PA and Rx/Tx/Diversity Switch Full Data Sheet (PDF, 896kB) Automatic Updates Would you like to be automatically notified when new application notes are published in your areas of interest? Sign up for EE-Mail™. We Want Your Feedback!   Download, PDF Format (136kB)  AN4276, AN 4276, APP4276, Appnote4276, Appnote 4276