AWL9232 802.11b/g/n WLAN PA/LNA/RF Switch 2400 – 2500 MHz Preliminary Data Sheet - Rev 1.0 FEATURES • 2.5% EVM @ POUT = +19 dBm with IEEE 802.11g 64 QAM OFDM at 54 Mbps • -34 dBr 1st Sidelobe / -56 dBr 2nd Sidelobe ACPR at +21 dBm with IEEE 802.11b at 1, 2, 5.5, 11 Mbps, Gaussian baseband filtering AW L9 232 • SP3T RF Switch to Enable Bluetooth Path • Single +3.8 V Supply • Transmit Path Linear Power of Gain 24 dB • Receive Path In-Band Gain of 13 dB • Receive Path Noise Figure of 1.9 dB • 3 x 3 x 0.55 mm ULPCC Package • Leadfree and RoHS Compliant APPLICATIONS S35 Package 16 Pin 3 mm x 3 mm x 0.55 mm Surface Mount ULPCC • 802.11b/g WLAN in Consumer Electronics Products (e.g., cell phones, MP3 players, cameras, etc.) • 2.4 GHz Cordless Phone Handsets/Basestations BLUE T OOT H Vcc Bias Network Rx RF OUT Output Match Antenna WLAN Rx Enable Control Logic BLUETOOTH Enable WLAN Tx Enable Tx RF IN Input Match Output Match Bias Network GN D The antenna port is switched between WLAN transmit, WLAN receive and Bluetooth paths with a low-loss single-pole triple-throw RF switch. The transmit path PA exhibits unparalleled linearity for both IEEE 802.11g and 802.11b WLAN systems under the toughest signal configurations within these standards. The WLAN receive path from the antenna port to receiver output port provides a low noise, high-gain path to the system receiver chain. The AWL9232 is biased by a single +3.8 V supply and consumes ultra-low current in the OFF mode. The AWL9232 is manufactured using advanced InGaP HBT technology that offers state-of-the-art reliability, temperature stability and ruggedness. It is provided in a 3 x 3 x 0.55 mm ULPCC package optimized for a 50 system. Vcc The ANADIGICS AWL9232 is a high performance InGaP HBT power amplifier, low-noise amplifier and RF switch integrated on a single IC. It is particularly applicable in consumer electronics products (e.g., cell phones, MP3 players, cameras, etc.) that integrate 802.11b/g WLAN in the 2.4 - 2.5 GHz band. Matched to 50 on all RF ports, the part requires only one choke inductor and one power supply decoupling cap off-chip. GN D PRODUCT DESCRIPTION Figure 1: Block Diagram and Pinout 04/2008 AWL9232 Table 1: Pin Description PIN 1 2 NAME DESCRIPTION BLUETOOTH BluetoothRFPort 2 GND Ground 3 RX_RF 4 GND 5 LNA_EN 6 BT_EN BluetoothEnable.On/OffcontrolfortheBluetoothpath 7 PA_EN PowerAmplifierEnable.On/OffcontrolforthetheTxpathpoweramplifier 8 GND Ground 9 PA_IN PowerAmplifierInput 10 GND Ground 11 V CC1 PowerSupply.Biasforthe1stand2ndstagetransistors. 12 VCC2 PowerSupply.Biasforthe3rdstagetransistors. 13 N/C Noconnect. 14 GND Ground 15 ANT AntennaPort.CommonconnectionforthePA,LNAandBluetoothpaths. 16 GND Ground ReceiveRFPort Ground LNAEnable.On/OffcontrolfortheRxPathlownoiseamplifier PRELIMINARY DATA SHEET - Rev 1.0 04/2008 AWL9232 Table 2: Absolute Minimum and Maximum Ratings PARAMETER MIN MAX UNIT COMMENTS DCPowerSupplyVoltage(VCC) - +5.0 V NoRFsignalapplied DCPowerControlVoltage(VPA_EN) - +5.0 V NoRFsignalapplied DCPowerControlVoltage(VLNA_EN) - +5.0 V NoRFsignalapplied DCPowerControlVoltage(VBT_EN) - +5.0 V NoRFsignalapplied DCCurrentConsumption - 350 mA TxRFInputLevel(RFIN) - 5 dBm AntRFInputLevel(RFIN) - -3 dBm BluetoothRFInputLevel(RFIN) - 30 dBm StorageCaseTemperature -55 +150 8C OperatingCaseTemperature -40 +85 8C ESDTolerance 300 - VDC MSL Rating - MSL-2 ReflowTemperature - 260 Allpins,forwardandreversevoltage. HumanBodyModel(HBM) 8C Stresses in excess of the absolute ratings may cause permanent damage. Functional operation is not implied under these conditions. Exposure to absolute ratings for extended periods of time may adversely affect reliability. PRELIMINARY DATA SHEET - Rev 1.0 04/2008 3 AWL9232 Table 3: Operating Ranges PARAMETER MIN TYP MAX UNIT OperatingFrequency(f) 2400 - 2500 MHz DCPowerSupplyVoltage(VCC) +3.0 +3.8 +4.2 V ControlVoltage(VPA_EN) 2.0 0 - VCC +0.4 V PA "ON" PA "SHUTDOWN" ControlVoltage(VBT_EN) 2.0 0 - VCC +0.4 V BT "ON" BT "SHUTDOWN" ControlVoltage(VLNA_EN) 2.0 0 - VCC +0.4 V LNA "ON" LNA "SHUTDOWN" ControlCurrent(VPA_EN) - 3 - 25 1 A PA "ON" PA "SHUTDOWN" ControlCurrent(VBT_EN) - 3 - 25 1 A BT "ON" BT "SHUTDOWN" ControlCurrent(VLNA_EN) - 1 - 5 1 mA A LNA "ON" LNA "SHUTDOWN" -40 - +85 °C CaseTemperature(TC) COMMENTS The device may be operated safely over these conditions; however, parametric performance is guaranteed only over the conditions defined in the electrical specifications. 4 PRELIMINARY DATA SHEET - Rev 1.0 04/2008 AWL9232 ELECTRICAL CHARACTERISTICS Table 4: Electrical Specifications - Tx Path Continuous Wave and DC Electrical Specification (TC = +25 °C, VCC = +3.8 V, VPA_EN = +3.1 V, VLNA_EN = 0 V, VBT_EN = 0 V) PARAMETER MIN TYP MAX UNIT ShutdownCurrent - 20 90 A TxMode(VCC=+3.8V, VBT_EN=VPA_EN=VLNA_EN=0V) QuiescentCurrent 20 50 80 mA VCC=+3.8V,VLNA_EN=0V,VBT_EN=0V, VPA_EN=3.1V,RF=off 2ndHarmonic(2fo) - -30 -15 dBm POUT = +21 dBm(1) 3rdHarmonic(3fo) - -20 -10 dBm POUT = +21 dBm(1) InputReturnLoss, TX RF In - -10 -4 dB OutputReturnLoss, AntennaPort,Switch inTransitMode - -6 -4 dB SwitchinTXposition 20 45 - dB SwitchinTXposition,signalinjectedinto AntennaPortandmeasuredatTXinputPort, PA = "ON" Stability - -65 - dBc 6:1VSWR,POUT = +21 dBm(1),-40OC TON Rise Time - - 2 s ReverseIsolation (AntennaporttoTX InputPort) COMMENTS 10%to90%ofmaximumRFpower. POUT = +19 dBm(1) Notes: (1) Power as measured at antenna port of AWL9232. PRELIMINARY DATA SHEET - Rev 1.0 04/2008 5 AWL9232 Table 5: Electrical Specifications - Tx Path 802.11g (TC = +25 °C, VCC = +3.8 V, VPA_EN = +3.1 V, VLNA_EN = 0 V, VBT_EN = 0 V, 64 QAM OFDM 54 Mbps) PARAMETER MIN TYP MAX UNIT OperatingFrequency 2400 - 2500 MHz PowerGain 21 25 29 dB GainRipple - 1.0 2.5 dB Across100MHzband ErrorVectorMagnitude(EVM)(2) - 2.5 -32.0 4.0 -28.0 % dB POUT = +19 dBm(1) 110 145 180 mA POUT = +19 dBm(1) Pass - - N/A POUT = +19 dBm(1) CurrentConsumption TXSpectrumMask COMMENTS Notes: (1) Power as measured at antenna port of AWL9232. (2) EVM does not include system noise floor of 1% (-40 dB). Table 6: Electrical Specifications - Tx Path 802.11b (TC = +25 °C, VCC = +3.8 V, VPA_EN = +3.1 V, VLNA_EN = 0 V, VBT_EN = 0 V, 1 Mbps CCK/DSSS, Gaussian Baseband Filtering, bT = 0.50) PARAMETER MIN TYP MAX UNIT OperatingFrequency 2400 - 2500 MHz PowerGain 21 25 29 dB GainRipple - 1.0 2.5 dB Acrossany100MHzband AdjacentChannelPower(ACPR) 1stSidelobe(11-22MHzOffset) - -34 -30 dBr POUT = +21 dBm(1) AdjacentChannelPower(ACPR) 2ndSidelobe(>22MHzOffset) - -56 -50 dBr POUT = +21 dBm(1) Pass - - N/A POUT = +21 dBm(1) 130 175 220 mA POUT = +21 dBm(1) TxSpectrumMask CurrentConsumption Notes: (1) Power as measured at antenna port of AWL9232. 6 PRELIMINARY DATA SHEET - Rev 1.0 04/2008 COMMENTS AWL9232 Table 7: Electrical Specifications - Rx Path Continuous Wave (TC = +25 °C, VCC = +3.8 V, VPA_EN = 0 V, VLNA_EN = +3.1 V, VBT_EN = 0 V) PARAMETER MIN TYP MAX UNIT 10 13 16 dB - 0.5 2.0 dB -12 -7 - dBm CurrentatIP1dB 9 14 19 mA QuiescentCurrent 9 14 19 mA NoiseFigure - 1.9 4.0 dB IncludesRFswitchandLNA ReturnLoss,RXRFPort - -15 -6 dB SwitchinRxposition,Antennaport terminated in 50 Load ReturnLoss,AntennaPort,Switch inReceiveMode - -5 -3 dB SwitchinRXposition,with50 Rx pathload Isolation(AntennaporttoRXport) 20 50 - dB SwitchinTXposition,signal injectedintoAntennaPortand measuredatRxPort,PA="ON" - -65 - dBc 6:1VSWR,PIN = -7 dBm(1), -408C Gain GainRipple IP1dB Stability COMMENTS Acrossany100MHzband Note: (1) Power as measured at antenna port of AWL9232. PRELIMINARY DATA SHEET - Rev 1.0 04/2008 7 AWL9232 Table 8: Electrical Specifications - BT Path Continuous Wave (TC = +25 °C, VCC = +3.8 V, VPA_EN = 0 V, VLNA_EN = 0 V, VBT_EN = +3.1 V) PARAMETER MIN TYP MAX UNIT InsertionLoss - 0.7 2.0 dB QuiescentCurrent - 20 100 A 21 27 - dBm ReturnLoss,BluetoothRFPort - -12 -6 dB SwitchinBluetoothposition, Antennaportterminatedin50 load ReturnLoss,AntennaPort,Switch inBluetoothMode - -11 -6 dB SwitchinBluetoothposition, Bluetoothportterminatedin50 load Isolation(AntennaporttoRXport) 15 33 - dB SwitchinBluetoothposition,signal injectedintoAntennaPortand measuredatRxPort OP1dB 8 COMMENTS 2.4GHzto2.5GHz MeasuredatAntport PRELIMINARY DATA SHEET - Rev 1.0 04/2008 AWL9232 Table 9: Control Logic Truth Table VCC PA Enable Bluetooth Enable LNA Enable PA Status LNA Status Switch Status Shutdown On 0 0 0 Off Off Notconnected WLANRx On 0 0 1 Off On WLANRx Bluetooth On 0 1 0 Off Off Bluetooth WLANTx On 1 0 0 On Off WLANTx FEIC Mode Table 10: Control Voltages and Timing Parameter Min Typ Max Unit LNAEnablePinControlVoltage 2.0 - - VCC +0.4 V LNA = 1 LNA = 0 BluetoothEnablePinControlVoltage 2.0 - - VCC +0.4 V Bluetooth=1 Bluetooth=0 PAEnablePinControlVoltage 2.0 - - VCC +0.4 V PA = 1 PA = 0 PRELIMINARY DATA SHEET - Rev 1.0 04/2008 Comments 9 AWL9232 PERFORMANCE DATA - TRANSMIT PATH A 24 240 220 22 200 20 18 260 24 Gain 18 Gain2.40GHz Gain2.45GHz Gain2.50GHz 180 16 Icc2.40GHz Icc2.45GHz Icc2.50GHz 160 Gain (dB) 260 240 26 20 Gain (dB) 280 26 280 22 CC 28 28 Current (mA) CC Figure 3: Tx Path Gain and Icc vs. Output Power = +3.8 V) AcrossFigure Temp (Freq GHz, VCCTemp 3. Tx Path Gain and= Icc2.45 vs. Output Power Across (Freq = 2.45 GHz, V = +3.8V) 802.11g 5454 Mbps 802.11g Mbps OFDMOFDM 220 Gain 200 180 16 Gain-40C Gain+25C Gain+85C 160 14 Icc-40C Icc+25C Icc+85C 140 14 140 12 120 10 100 10 80 8 6 60 6 60 4 40 4 40 2 20 2 0 0 8 Current 0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 12 120 100 Current 0 1 2 3 4 5 6 7 8 Figure 4: Tx Path Gain and Icc vs. Output Power Across Supply Voltage (Freq = 2.45 GHz, Figure 4: Tx Path Gain and Icc vs. Output Power Across Supply Voltage = +25C) = 2.45 GHz, T 54 TA = +25oC)(Freq 802.11g Mbps OFDM A 802.11g 54Mbps OFDM 260 24 240 22 220 Gain 9 Gain3.4V Gain3.8V Gain4.2V 180 16 Icc3.0V Icc3.4V Icc3.8V Icc4.2V 160 14 140 12 120 10 60 4 40 2 20 0 7 8 9 10 11 12 19 20 21 13 14 15 16 17 18 19 20 EVM2.45GHz 2 1 0 21 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Output Power (dBm) CC Figure 7: Tx Path EVM vs. Output Power Across Power Voltage (Freq 2.45 GHz, FigureSupply 7: Tx Path EVM vs. Output Power Across=Supply Voltage = 2.45 GHz, TA = +25C) 802.11g 54 Mbps OFDM TA = +25oC)(Freq 802.11g 54Mbps OFDM 10 10 EVM-40C EVM3.0V 9 EVM3.4V EVM+25C 8 EVM3.8V EVM+85C EVM4.2V 7 7 6 6 EVM (%) EVM (%) 18 3 Figure 6: Tx Path EVM vs. Output Power Across TempFigure (Freq = 2.45 GHz, VCC = +3.8 V) 6. Tx Path EVM vs. Output Power Across Temp V) (Freq =54 2.45 GHz, V = +3.8 802.11g OFDM 802.11g 54Mbps Mbps OFDM 8 17 5 Output Power (dBm) 9 16 4 0 6 15 6 80 6 5 14 EVM2.50GHz 100 Current 8 4 13 7 EVM (%) Gain3.0V 3 12 EVM2.40GHz 8 200 18 2 11 10 Current (mA) Gain (dB) 20 1 10 Figure 5: Tx Path EVM vs. Output Power Across o Frequency CC =vs.+3.8 V, TAcross A = +25 C) Figure 5: Tx(V Path EVM Output Power Freq (VCC = +3.8V, TA = +25C) 802.11g 54 Mbps OFDM 802.11g 54Mbps OFDM 280 26 0 9 Output Power (dBm) Output Power (dBm) 28 80 20 0 21 Current (mA) Figure 2: Tx Path Gain and Icc vs. Output Power o V,Power TAAcross = +25 Across Figure 2:Freq Tx Path (V GainCC and = Icc +3.8 vs. Output Freq C) (V = +3.8V, T = +25C) 802.11g 54 Mbps OFDM 802.11g 54Mbps OFDM 5 5 4 4 3 3 2 2 1 1 0 0 0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 2 3 4 5 21 Output Power (dBm) 10 PRELIMINARY DATA SHEET - Rev 1.0 04/2008 6 7 8 9 10 11 12 Output Power (dBm) 13 14 15 16 17 18 19 20 21 AWL9232 Figure 8: Tx Path Gain and Icc vs. Output Power Across = Output +3.8Power V, Across TA =Freq+25oC) Figure 8: TxFreq Path Gain(V andCC Icc vs. (V = +3.8 V, T = +25 C) 802.11b Gaussian Filtering (bT = 0.5), 1 Mbps 802.11b Gaussian Filtering (bT = 0.5), 1 Mbps A 280 28 280 26 260 26 260 24 240 24 220 22 200 20 18 18 Gain2.40GHz Gain2.45GHz Gain2.50GHz 180 16 Current2.40GHz Current2.45GHz Current2.50GHz 160 14 140 12 120 10 Gain (dB) Gain 20 Current (mA) 22 Gain (dB) CC 28 100 Current 8 80 6 60 4 40 2 20 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 220 200 180 16 Gain-40C Gain+25C Gain+85C 160 14 Current-40C Current+25C Current+85C 140 12 120 10 100 Current 8 80 6 60 4 40 2 0 0 240 Gain 20 0 21 0 0 Output Power (dBm) Current (mA) CC Figure 9: Tx Path Gain and Icc vs. Output Power Across Temp (Freq = 2.45 GHz, VCC = +3.8 V) Figure 9. Tx Path Gain and Icc vs. Output Power Across Temp (Freq = 2.45 GHz, V = +3.8 V) 802.11b Root Cosine Filtering (bT = (bT 0.5), 1 Mbps 802.11b Gaussian Filtering = 0.5), 1 Mbps 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Output Power (dBm) Figure 10: Tx Path Gain and Icc vs. Output Power Figure 11: Tx Path ACPR Sidelobes 1&2 vs. Output PowerFigure Across Freq (VCC = +3.8 V, TA = +25oC) Across Voltage (Freq 2.45 GHz, Figure Supply 10: Tx Path Gain and Icc vs. Output Power= Across Supply Voltage TA = 11: Tx Path ACPR Sidelobes 1&2 vs. Output Power Across Freq (Freq = 2.45 GHz, T = +25 C) = +3.8 V, T = +25 C) = 0.5), 1 Mbps (VFiltering o 802.11b Gaussian (bT Gaussian Filtering +25 C) 802.11b 802.11b Gaussian Filtering (bT = 0.5), 1(bT Mbps = 0.5), 1 Mbps 802.11b Gaussian Filtering (bT = 0.5), 1 Mbps A CC 28 280 26 260 24 -26 240 200 -34 -38 18 Gain3.0V Gain3.4V Gain3.8V Gain4.2V 180 16 Icc3.0V Icc3.4V Icc3.8V Icc4.2V 160 14 140 12 120 100 Current 8 80 6 60 4 40 2 20 0 0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 ACPR Sidelobe (dBr) 20 10 -30 220 Gain Current (mA) 22 Gain (dB) A -22 -42 1stSidelobe2.40GHz 1stSidelobe2.45GHz 1stSidelobe2.50GHz -46 2ndSidelobe2.40GHz 2ndSidelobe2.45GHz 2ndSidelobe2.50GHz -50 -54 -58 -62 -66 21 -70 Output Power (dBm) 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Output Power (dBm) Figure 12: Tx Path ACPR Sidelobes 1&2 vs. Output = +3.8 V) Power Across = 2.45 GHz, VCCTemp Figure 12. TxTemp Path ACPR(Freq Sidelobes 1&2 vs. Output Power Across (Freq = 2.45 GHz, V = +3.8 V) 802.11b Root802.11b Cosine Filtering (bT = 0.5), 1 Mbps Root Cosine Filtering (bT = 0.5), 1 Mbps CC -30 Figure 13: Tx Path ACPR Sidelobes 1&2 vs. Output Voltage Power Across Power Supply Voltage (Freq = 2.45 GHz, Figure 13: Tx Path ACPR Sidelobes 1&2Tvs.= Output (Freq = 2.45 GHz, +25 C) Power Across Supply Gaussian Filtering (bT = 0.5), 1 Mbps TA = +25oC) 802.11b 802.11b Gaussian Filtering (bT = 0.5), 1 Mbps A -22 -26 -34 -30 -38 1stSidelobe-40C 1stSidelobe+25C 1stSidelobe+85C -46 2ndSidelobe-40C 2ndSidelobe+25C 2ndSidelobe+85C ACPR Sidelobe (dBr) ACPR Sidelobe (dBr) -34 -42 -50 -54 -58 -38 -42 -46 -50 1stSidelobe3.00V 1stSidelobe3.40V 1stSidelobe3.80V 1stSidelobe4.20V 2ndSidelobe3.00V 2ndSidelobe3.40V 2ndSidelobe3.80V 2ndSidelobe4.20V -54 -58 -62 -62 -66 -66 0 1 2 3 4 5 6 7 8 9 10 11 12 13 Output Power (dBm) 14 15 16 17 18 19 20 21 22 -70 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Output Power (dBm) PRELIMINARY DATA SHEET - Rev 1.0 04/2008 11 AWL9232 Figure 14: 2.4 GHz Tx Path S-Parameters S21 Response Figure 14. 2.4GHz Tx Path S-Parameters S21 Response (VCC = (V+3.8 V, TC = +25oC) = +3.8V, T = +25C) CC 30 A CC 0 25 A -2 20 15 -4 10 -6 5 -8 0 S21Mag(dB) S11/S22 (dB) -5 S21 (dB) Figure 15: 2.4 GHz Tx Path S-Parameters S11 & S22 Response Figure 15. 2.4GHz Tx Path S-Parameters S11 & S22 Response (VCC = +3.8 V, TA = +25oC) (V = +3.8V, T = +25C) -10 -15 -20 -25 -30 -10 -12 -14 S11Mag(dB) -16 S22Mag(dB) -18 -35 -40 -20 -45 -22 -50 -24 -55 -60 -26 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 0.0 0.5 1.0 1.5 2.0 Frequency (GHz) 26.0 Figure 16: 2.4 GHz Tx Path S-Parameters S21 Response (Narrow band) Figure 16. 2.4GHz Tx Path S-Parameters S21 Response V, TA = +258C) ( VCC = +3.8 (V = +3.8V, T = +25C) CC 3.0 3.5 4.0 4.5 5.0 Figure 17: 2.4 GHz Tx Path S-Parameters S11 & S22 Response (Narrow band) Figure 17. 2.4GHz Tx Path S-Parameters S11 & S22 (VCC = +3.8 V,Response TA = +258C) A (VCC = +3.8V, TA = +25C) 0 25.5 S21Mag(dB) 25.0 24.5 -2 S11Mag(dB) -4 S22Mag(dB) -6 24.0 -8 23.5 -10 S11/S22 (dB) S21 (dB) 2.5 Frequency (GHz) 23.0 22.5 22.0 -12 -14 -16 -18 21.5 -20 21.0 -22 20.5 -24 20.0 2.40 2.41 2.42 2.43 2.44 2.45 2.46 2.47 2.48 2.49 -26 2.40 2.50 Frequency (GHz) 2.41 2.42 2.43 2.44 2.45 2.46 2.47 2.48 2.49 2.50 Frequency (GHz) PERFORMANCE DATA - RECEIVE PATH Figure 18: Receive Path Noise Figure Across Supply Figure Voltage (VLNA_EN = +3.1 V, TA = +25oC) 16. Receive Path Noise Figure Across Supply Voltage Figure 19: Receive Path Input P1dB Across Freq VLNA_EN = +3.1 V, T= +25oC) (VCC = +3.8, Figure 17. Receive Path Input P1dB Across Freq (VLNA_EN=+3.1V, TA=+25C) 1.8 (Vcc=+3.8 V, VLNA_EN=+3.1 V, T=+25C) 15 1.75 14 +3.0VNoiseFigure +3.4VNoiseFigure +3.8VNoiseFigure 13 +4.2VNoiseFigure Gain (dB) Noise Figure (dB) 1.7 1.65 12 2.40GHz IP1dB 1.6 11 1.55 10 2.45GHz IP1dB 2.50GHz IP1dB IP1dBPoints 1.5 2.4 2.41 2.42 2.43 2.44 2.45 2.46 2.47 2.48 2.49 2.5 9 -25 -24 -23 -22 -21 -20 Frequency (GHz) 12 -19 -18 -17 -16 -15 -14 Input Power (dBm) PRELIMINARY DATA SHEET - Rev 1.0 04/2008 -13 -12 -11 -10 -9 -8 -7 -6 -5 AWL9232 Figure 20: Rx Path S-Parameters S21 Response Figure 18. Rx Path S-Parameters S21 Response V, TA = +25oC) (VCC = +3.8 (V = +3.8 V, T = +25C) CC 20 A CC 0 15 A -2 10 -4 5 -6 0 -5 -8 S11/S22 (dB) -10 S21 (dB) Figure 21: Rx Path S-Parameters S11 & 19. S22 Response Figure Rx Path S-Parameters S11 & S22 Response (VCC = (V+3.8 V, TC = 25oC) = +3.8V, T = +25C) -15 -20 -25 -30 -35 -12 -14 S11Mag(dB) -16 S22Mag(dB) -18 S21Mag(dB) -40 -10 -20 -45 -22 -50 -55 -24 -60 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 -26 20 1.0 Frequency (GHz) CC 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 Frequency (GHz) Figure 22: Rx Path S-Parameters S21 Response (Narrow Figure 22. Rx Path S-Parametersband) S21 Response V,V,TT A= +25C) = +258C) (VCC = +3.8 (V = +3.8 15.0 1.5 A Figure 23: Rx Path S-Parameters S11 & S22Figure Response (Narrow band) 23. Rx Path S-Parameters S11 & S22 Response (VCC = (V+3.8 V,TT=A+25C) = +258C) = +3.8V, CC 0 A -2 14.5 -4 14.0 -6 13.5 -8 S11/S22 (dB) S21 (dB) 13.0 12.5 S21Mag(dB) 12.0 11.5 -10 -12 S11Mag(dB) -14 S22Mag(dB) -16 -18 -20 11.0 -22 10.5 10.0 2.40 -24 2.41 2.42 2.43 2.44 2.45 2.46 2.47 2.48 2.49 -26 2.40 2.50 Frequency (GHz) 2.41 2.42 2.43 2.44 2.45 2.46 2.47 2.48 2.49 2.50 4.5 5.0 Frequency (GHz) PERFORMANCE DATA - BLUETOOTH PATH Figure 25: Bluetooth S-Parameters S11 & S22 Response 21. Bluetooth (VCCFigure = +3.8 V, TAS-Parameters = +25oC) Figure 24: Bluetooth S-Parameters S21 Response (VCCFigure = +3.8 V, TS-Parameters A = +25oC) 20. Bluetooth S21 Response (VCC = +3.8V, TA = +25C) 3.0 -1 2.5 -2 S21Mag(dB) 2.0 1.5 1.0 -3 S11Mag(dB) -4 S22Mag(dB) -5 0.5 -6 S11/S22 (dB) 0.0 S21 (dB) S11 & S22 Response (VCC = +3.8V, TA = +25C) 0 -0.5 -1.0 -1.5 -2.0 -7 -8 -9 -10 -11 -12 -2.5 -13 -3.0 -14 -3.5 -15 -4.0 -16 -4.5 -17 -5.0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 -18 0.0 0.5 1.0 Frequency (GHz) 1.5 2.0 2.5 3.0 3.5 4.0 Frequency (GHz) PRELIMINARY DATA SHEET - Rev 1.0 04/2008 13 AWL9232 Figure 27: Bluetooth S-Parameters S11 & S22 Response (Narrow band) 27. Bluetooth S-Parameters (VCCFigure = +3.8 V, Response TA = +258C) S11 & S22 Figure 26: Bluetooth S-Parameters S21 Response (Narrow band) 27. Bluetooth S-Parameters = +3.8 V, TA = +258C) (VCCFigure S21 Response (VCC = +3.8V, TA = +25C) 0.0 -1 -0.2 -2 S21Mag(dB) -0.3 -0.4 -0.5 S11Mag(dB) -4 S22Mag(dB) -0.7 -6 -0.8 -7 S11/S22 (dB) S21 (dB) -3 -5 -0.6 -0.9 -1.0 -1.1 -1.2 -1.3 -8 -9 -10 -11 -12 -1.4 -13 -1.5 -1.6 -14 -1.7 -15 -1.8 -16 -1.9 -2.0 2.40 -17 2.41 2.42 2.43 2.44 2.45 Frequency (GHz) 14 (VCC = +3.8V, TA = +25C) 0 -0.1 2.46 2.47 2.48 2.49 2.50 -18 2.40 2.41 2.42 2.43 2.44 2.45 Frequency (GHz) PRELIMINARY DATA SHEET - Rev 1.0 04/2008 2.46 2.47 2.48 2.49 2.50 AWL9232 APPLICATION INFORMATION Following is an application schematic for the AWL9232. A 10uF decoupling capacitor should be connected to the system voltage supply line for low frequency bypassing. CONNECT TO TX 13 N /C 14 GN D RX_RF 12 L1 10.0nH +/-5% C1 0.1uF 16V +/-10% 11 10 9 8 GN D PA_IN PA _E N GND VCC1 GND 7 4 AWL9232 BT _ EN 3 GND 5 CONNECT TO RX VCC VCC2 6 2 BLUE TOOTH LN A _E N 1 A NT G ND 16 CONNECT TO BLUETOOTH 15 CONNECT TO ANTENNA 3-BIT CONTROL Figure 26: Application Circuit PRELIMINARY DATA SHEET - Rev 1.0 04/2008 15 AWL9232 PACKAGE OUTLINE The AWL9232 is offered in a 3 mm x 3 mm x 0.55 mm surface mount ULPCC package: C 4 A D I G Pin 1 16 1 H B Index Area F E Top View Side View Bottom View MILLIMETERS DIMENSION A B C D E F G H I MIN 2.90 2.90 0.50 0.00 1.55 TYP MAX 3.00 3.10 3.00 3.10 0.55 0.60 0.02 0.05 1.70 1.85 1.50 BSC. 0.18 0.25 0.30 0.50 BSC. 0.20 0.30 0.40 1. All dimensions are in millimeters, angles in degrees. 2. The terminal #1 identifier and pad numbering convention shall conform to JESD 95-1 SPP-012 . 3. Lead coplanarity: 0.05 max. 4. Dimension applies to metalized pad and is measured between 0.25 and 0.30 MM from pad tip. Figure 27: S35 Package Outline - 16 Pin 3 mm x 3 mm x 0.55 mm Surface Mount Module Figure 28: Branding Specification 16 PRELIMINARY DATA SHEET - Rev 1.0 04/2008 AWL9232 RECOMMENDED PCB LAYOUT The following diagram shows the suggested application PCB layout: Figure 29: Recommended PCB Layout (all units in mils) PRELIMINARY DATA SHEET - Rev 1.0 04/2008 17 AWL9232 ORDERING INFORMATION ORDER NUMBER TEMPERATURE RANGE PACKAGE DESCRIPTION COMPONENT PACKAGING AWL9232RS35P8 -40°Cto+85°C 16 Pin 3mmx3mmx0.55mm SurfaceMountULPCC 2,500pieceTapeandReel 13inchReel AWL9232RS35Q7 -40°Cto+85°C 16 Pin 3mmx3mmx0.55mm SurfaceMountULPCC 2,500pieceTapeandReel 7 inch Reel AWL9232RS35Q1 -40°Cto+85°C 16 Pin 3mmx3mmx0.55mm SurfaceMountULPCC 1000 piece Tape and Reel EVA9232RS35 -40°Cto+85°C 16 Pin 3mmx3mmx0.55mm SurfaceMountULPCC 1pieceEvaluationBoard ANADIGICS, Inc. 141 Mount Bethel Road Warren, New Jersey 07059, U.S.A. Tel: +1 (908) 668-5000 Fax: +1 (908) 668-5132 URL: http://www.anadigics.com E-mail: [email protected] IMPORTANT NOTICE ANADIGICS, Inc. reserves the right to make changes to its products or to discontinue any product at any time without notice. The product specifications contained in Advanced Product Information sheets and Preliminary Data Sheets are subject to change prior to a product’s formal introduction. Information in Data Sheets have been carefully checked and are assumed to be reliable; however, ANADIGICS assumes no responsibilities for inaccuracies. ANADIGICS strongly urges customers to verify that the information they are using is current before placing orders. warning ANADIGICS products are not intended for use in life support appliances, devices or systems. Use of an ANADIGICS product in any such application without written consent is prohibited. 18 PRELIMINARY DATA SHEET - Rev 1.0 04/2008