AWL9280 802.11b/g/n Power Amplifier, LNA and TX/RX/BT Switch DATA SHEET - Rev 2.3 FEATURES • Fully integrated FEIC including 2.4 GHz Power Amplifier, Low Noise Amplifier with Bypass Mode and SP3T TX/RX/BT Switch • 3.0% Dynamic EVM @ Pout = +19 dBm with IEEE 802.11g 64 QAM OFDM at 54 Mbps AW L 928 • Spectral Mask Compliant at Pout = 22.5 dBm with IEEE 802.11b @ 1 Mbps CCK/DSSS 0 • 26 dB of Linear Power Gain • 0.7 dB BT Band RF Switch Insertion Loss • Power Detector with High Accuracy over 3:1 VSWR • 2.2 dB RX Path Noise Figure with 12.5 dB Gain LNA Mode 2.5 mm x 2.5 mm x 0.40 mm Surface Mount Front End IC • Single +3.0 to +4.8 V Supply Voltage • 50 Ω-Internally Matched RF Ports • Leadfree and RoHS Compliant • 2.5 x 2.5 x 0.40 mm QFN Package APPLICATIONS Vrx RX Vbt GND SP3T ANT Vdet TX GND BT Vcc 2GHz LNA The ANADIGICS AWL9280 is a high performance InGaP HBT FEIC that incorporates power amplifier, low-noise amplifier, RF switch and power detector. The FEIC is designed for WLAN transmit and receive applications in the 2.4 - 2.5 GHz band. Matched to 50 Ohms and DC blocked at all RF inputs and outputs, the part requires no additional RF matching components off-chip. The antenna port is switched between WLAN transmit, WLAN receive, and Bluetooth paths with low loss RF switches. The integrated power detector circuit facilitates accurate power control under varying load conditions. All circuits are biased by a single +3.6V supply and consume ultra-low current in the OFF mode. The PAs exhibit unparalleled linearity and efficiency for IEEE 802.11b, 802.11g and 802.11n WLAN systems under the toughest signal configurations within these standards. 2GHz PA PRODUCT DESCRIPTION GND ANT BT • 802.11b/g/n WLAN for Fixed, Mobile, and Handheld applications 2GHz LNA Bypass Vcc Vcc 05/2014 LNA_EN TX PA_EN GND Figure 1: Block Diagram RX 16 15 14 13 ANT GND Vrx Vbt AWL9280 1 Vdet GND 12 2 GND BT 11 3 Vcc Vcc 10 4 Vcc LNA_EN TX PA_EN GND RX AWL9280 5 6 7 8 9 Figure 2: Pinout Diagram Table 1: Pin Description 2 PIN NAME DESCRIPTION 1 Vdet 2 GND Ground 3 VCC Power Supply. Bias for the transistors in the part. 4 VCC Power Supply. Bias for the transistors in the part. 5 TX RF transmit input port 6 PA_EN 7 GND Power detector output Power Amplifier Enable. On/Off control for the Tx path power amplifier Ground 8 RX 9 LNA_EN RF receive output port 10 VCC Power Supply. Bias for the transistors in the part. 11 BT Bluetooth RF port 12 GND LNA Enable. On/Off control for the Rx path low noise amplifier Ground 13 Vbt Bluetooth enable. On/Off control for Bluetooth RF path. 14 Vrx Switch control for receive path 15 GND Ground 16 ANT Antenna Port. Common connection for the PA, LNA, and Bluetooth paths DATA SHEET - Rev 2.3 05/2014 AWL9280 ELECTRICAL CHARACTERISTICS Table 2: Absolute Minimum and Maximum Ratings PARAMETER MIN MAX UNIT DC Power Supply Voltages (VCC) - +6.0 V RF Input Level, 2.4 GHz PA - +5 dBm Operating Ambient Temperature -40 +85 °C Storage Temperature -55 +125 °C Storage Humidity - 60 % Junction Temperature - 150 °C 1000 - V MSL-1 - - ESD Tolerance MSL Rating COMMENTS Modulated Human body model (HBM) Functional operation to the specified performance is not implied under these conditions. Operation of any single parameter in excess of the absolute ratings may cause permanent damage. No damage occurs if one parameter is set at the limit while all other parameters are set within normal operating ranges. Table 3: Operating Ranges PARAMETER MIN TYP MAX UNIT COMMENTS Operating Frequency Ranges 2400 - 2500 MHz 802.11b/g/n DC Power Supply Voltage (VCC) +3.0 +3.6 +4.8 V With RF applied Control Pin Voltage (PA_EN, LNA_EN, Vbt, Vrx) +2.8 0 +3.2 0 +4.8 +0.4 V Logic High/On Logic Low/Off Operating Temperature -40 - +85 °C The device may be operated safely over these conditions; however, parametric performance is guaranteed only over the conditions defined in the electrical specifications. 3 DATA SHEET - Rev 2.3 05/2014 AWL9280 Table 4: Electrical Specifications - 2.4 GHz TX Mode (TC = +25 °C, VCC = +3.6V, PA_EN = +3.2V, Vrx = 0.0V, Vbt = 0.0V) 64 QAM OFDM 54 Mbps PARAMETER MIN Operating Frequency 2412 Power Gain Gain Flatness Error Vector Magnitude (EVM) (1) Current Consumption Transmit Mask PA Noise Figure TYP MAX UNIT COMMENTS 2472 MHz 24 26 29.5 dB - +/-0.5 +/-0.3 - dB dB Across full band Across any 40 MHz band -60 140 - -30 185 -34 170 -36 150 -39.5 105 -31 195 -33 - dB mA dB mA dB mA dB mA POUT = 19 dBm, Dyn Mode 54 Mbps data rate, Avg during packet POUT = 18 dBm, Dyn Mode 54 Mbps data rate, Avg during packet POUT = 16 dBm, Dyn Mode 54 Mbps data rate, Avg during packet POUT = 5 dBm, Dyn Mode 54 Mbps data rate, Avg during packet - 23 - - 23.5 - dBm - 22 21.5 - 801.11b DBPSK 1Mbps data rate, Raised Root Cosine filtering A-Offset 801.11b DBPSK 1Mbps data rate, Gaussian filtering A-Offset 802.11n MCS0-HT20 A-Offset 802.11n MCS0-HT40 A-Offsset - 5 - dB Input Return Loss -11 -7 -3 dB 50Ω Output Return Loss -11 -8 -3 dB 50Ω Output Spurious Levels Harmonics 2fo 3fo 4fo - -23 -40 -43 - dBm/MHz Settling Time - 0.5 - µs Quiescent Current (Icq) - 85 120 mA Note: (1) EVM includes system noise floor of 0.6% (-44 dB). 4 DATA SHEET - Rev 2.3 05/2014 For power levels up to 20 dBm, CCK @ 1 Mbps Within 0.5 dB of final value AWL9280 Table 5: Electrical Specifications - 5 GHz TX Mode (TC = +25°C, VCC = +3.6V, PA_EN = +3.2V, VRX = 0.0V, LNA_EN = 0.0V) 802.11n PARAMETER MIN TYP MAX UNIT Operating Frequency 2412 - 2472 MHz - -35 165 - dB mA POUT = 18 dBm, MCS7 - HT20 - -36 150 - dB mA POUT = 17 dBm, MCS7 - HT40 Pass - - N/A 802.11n MCS7, HT20 - HT40 at respective power levels noted above Error Vector Magnitude (EVM) Transmit Mask COMMENTS Table 6: Electrical Specifications - 2 GHz TX Mode Power Detector PARAMETER MIN TYP MAX UNIT COMMENTS Detector Voltage 550 - 230 300 750 950 900 - mV Internal Load Impedance - 1.5 - kΩ Load Accuracy - +/- 0.5 - dB Output Power variation at 3:1 VSWR over all phases Detector Directivity - 19 - dB Output power variation at 3:1 VSWR over all phases POUT = +5 dBm, CW POUT = +10 dBm, CW POUT = +18 dBm, CW POUT = +22 dBm, CW Table 7: Electrical Specification - 2 GHz RX LNA Mode (TC = +25°C, VCC = +3.6V, LNA_EN = +3.2V, Vrx = +3.2V, Vbt = 0.0V, PA_EN = 0.0V) PARAMETER MIN TYP MAX UNIT Operating Frequency 2412 - 2472 MHz 10 12.5 14 dB Gain Flatness - +/-0.25 - dB Rx Noise Figure - 2.2 - dB Input Return Loss -6 -2 -1 dB Output Return Loss -10 -6 -2 dB IIP3 - 0 - dBm Settling Time - 0.5 - uS 4.2 9 13 mA Gain - LNA Mode Rx Current 5 DATA SHEET - Rev 2.3 05/2014 COMMENTS Across any 40 MHz band Within 0.5 dB of final value AWL9280 Table 8: Electrical Specification - 2 GHz RX Bypass Mode (TC = +25°C, VCC = +3.6V, Vrx = +3.2V, LNA_EN = 0.0V, Vbt = 0.0V, PA_EN = 0.0V) PARAMETER MIN TYP MAX UNIT Operating Frequency 2412 - 2472 MHz Gain - RX Bypass Mode -5 -3 -1 dB Gain Flatness - +/-0.25 - dB Rx Noise Figure - 2.2 - dB Input Return Loss -16 -12 -8 dB Output Return Loss -33 -28 -12 dB IIP3 - +23 - dBm Settling Time - 0.5 - uS COMMENTS Across any 40 MHz band Within 0.5 dB of final value Table 9: Electrical Specifications - Bluetooth Path (TC = +25°C, VCC = +3.6V, Vrx = 0.0V, Vbt = +3.2V, PA_EN = 0.0V, LNA_EN = 0.0V) PARAMETER MIN TYP MAX UNIT Operating Frequency 2412 - 2472 MHz Insertion Loss -2 0.7 0 dB Gain Flatness - +/-0.25 - dB Input Return Loss -18 -14 -10 dB Output Return Loss -18 -13 -9 dB BT - RX Isolation - 20 - dB BT to RX BT - TX Isolation 10 40 100 dB BT to TX - 0.5 - µs Within 0.5 dB of final value Settling Time 6 DATA SHEET - Rev 2.3 05/2014 COMMENTS Across any 40 MHz band AWL9280 Table 10: Electrical Specifications - Switch and Control Pin (TC = +25 °C, VCC = +3.6 V, Vcontrol pin High = +3.2 V, Vcontrol pin Low = 0.0V) PARAMETER MIN TYP MAX UNIT COMMENTS Control Pin Steady State Input Current (PA_EN, LNA_EN) 100 0.5 µA Logic Hi/On Logic Low/Off Control Pin Steady State Input Current (Vbt, Vrx) 10 0.5 µA Logic Hi/On Logic Low/Off Control Pin Input Impedance >10 kΩ Logic Hi/On µA Total from all bias pins. Controls in Off mode, VCC = 3.6 V Leakage Current 3 TX - RX Isolation 20 10 dB Table 11: Switch Modes of Operation MODES OF OPERATION TX 7 PA_EN LNA_EN Vrx Vbt HIGH LOW LOW LOW RX LOW HIGH HIGH LOW RX Bypass LOW LOW HIGH LOW BT LOW LOW LOW HIGH Power On Reset LOW LOW LOW LOW DATA SHEET - Rev 2.3 05/2014 AWL9280 54 Mbps PERFORMANCE DATA EVM(dB)_2442_25°C EVM(dB)_2472_25°C Total Measured EVM (dB) -24 -22 280 Icc_2442_25°C -28 -20 360 320 Icc_2412_25°C -26 400 240 Icc_2472_25°C -30 200 -32 160 -34 120 -36 80 -38 40 -40 0 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) 400 EVM(dB)_2412_25°C EVM(dB)_2442_25°C EVM(dB)_2472_25°C -24 Total Measured EVM (dB) EVM(dB)_2412_25°C -22 Total Current (mA) [Average in Packet] -20 Figure 4: EVM and ICC vs. Output Power Across Frequency (VCC = +3.6 V, TC = +25°C) Icc_2412_25°C -26 Icc_2442_25°C -28 Icc_2472_25°C EVM(dB)_2442_85°C Total Measured EVM (dB) -24 160 -34 120 -36 80 -38 40 -40 0 5 -28 40 38 280 Icc_2442_-40°C 240 Icc_2442_85°C -30 200 -32 160 -34 120 -36 80 -38 40 -40 0 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Figure 7: Gain vs. Output Power Across Voltage (Frequency = 2.412 GHz, TC = +25°C) 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Gain_2412_25°C Gain_2442_25°C 34 Gain_2472_25°C 32 30 28 26 24 22 20 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Figure 8: Gain vs. Output Power Across Voltage (Frequency = 2.442 GHz, TC = +25°C) 40 Gain_25°C_3.6V Gain (dB) Gain_25°C_4.8V 30 28 24 22 22 20 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Gain_25°C_4.8V 28 26 7 Gain_25°C_4.5V 30 24 6 Gain_25°C_4.2V 32 26 5 Gain_25°C_3.6V 34 Gain_25°C_4.5V 32 Gain_25°C_3.3V 36 Gain_25°C_4.2V 34 Gain_25°C_3.0V 38 Gain_25°C_3.3V 36 Gain (dB) 8 Gain_25°C_3.0V 38 8 7 36 40 20 6 Figure 6: Gain vs. Output Power Across Frequency (VCC = +3.6 V, TC = +25°C) 360 320 Icc_2442_25°C -26 240 200 Gain (dB) EVM(dB)_2442_-40°C 280 -32 400 Total Current (mA) [Average in Packet] EVM(dB)_2442_25°C -22 320 -30 Figure 5: EVM and ICC vs. Output Power Across Temp (Frequency 2.442 GHz, VCC = +3.6 V) -20 360 Total Current (mA) [Average in Packet] Figure 3: EVM and ICC vs. Output Power Across Frequency (VCC = +3.3 V, TC = +25°C) 5 6 DATA SHEET - Rev 2.3 05/2014 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) AWL9280 Figure 9: Gain vs. Output Power Across Voltage (Frequency = 2.472 GHz, TC = +25°C) 40 Gain_25°C_3.0V 38 Gain_25°C_3.3V Gain_25°C_3.6V 36 Gain_25°C_4.2V Gain (dB) 34 Gain_25°C_4.5V 32 Gain_25°C_4.8V 30 28 26 24 22 20 9 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) DATA SHEET - Rev 2.3 05/2014 AWL9280 MCS7-HT20 PERFORMANCE DATA -20 EVM(dB)_2442_25°C 360 -22 EVM(dB)_2442_25°C 360 -24 EVM(dB)_2472_25°C 320 -24 EVM(dB)_2472_25°C 320 EVM(dB)_2412_25°C Icc_2412_25°C -26 280 Icc_2442_25°C -28 240 Icc_2472_25°C -30 200 -32 160 -34 120 -36 80 -38 40 -40 0 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Total Measured EVM (dB) 400 -22 Total Current (mA) [Average in Packet] Total Measured EVM (dB) -20 Figure 11: EVM and ICC vs. Output Power Across Frequency (VCC = +3.6 V, TC = +25°C) 200 160 -34 120 -36 80 -38 40 320 Icc_2442_-40°C 280 Icc_2442_85°C 240 -30 200 -32 160 -34 120 -36 80 -38 40 6 7 8 9 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) 0 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Gain_2412_25°C Gain_2442_25°C 34 Gain_2472_25°C 32 30 28 26 24 22 0 20 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Figure 15: Gain vs. Output Power Across Voltage (Frequency = 2.442 GHz, TC = +25°C) 40 Gain_25°C_3.0V 38 Gain_25°C_4.2V Gain (dB) Gain_25°C_4.8V 30 28 24 22 22 20 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Gain_25°C_4.8V 28 26 7 Gain_25°C_4.5V 30 24 6 Gain_25°C_4.2V 32 26 5 Gain_25°C_3.6V 34 Gain_25°C_4.5V 32 Gain_25°C_3.3V 36 Gain_25°C_3.6V 34 Gain_25°C_3.0V 38 Gain_25°C_3.3V 36 Gain (dB) 7 36 40 10 6 38 Figure 14: Gain vs. Output Power Across Voltage (Frequency = 2.412 GHz, TC = +25°C) 20 5 Figure 13: Gain vs. Output Power Across Frequency (VCC = +3.6 V, TC = +25°C) Gain (dB) Icc_2442_25°C 5 240 -32 -40 Total Current (mA) [Average in Packet] Total Measured EVM (dB) 360 -28 -40 280 -30 400 EVM(dB)_2442_85°C -26 Icc_2472_25°C 400 40 EVM(dB)_2442_-40°C -24 Icc_2442_25°C -28 EVM(dB)_2442_25°C -22 Icc_2412_25°C -26 Figure 12: EVM and ICC vs. Output Power Across Temp (Frequency = 2.442 GHz, VCC = +3.6 V) -20 EVM(dB)_2412_25°C Total Current (mA) [Average in Packet] Figure 10: EVM and ICC vs. Output Power Across Frequency (VCC = +3.3 V, TC = +25°C) 5 6 7 DATA SHEET - Rev 2.3 05/2014 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) AWL9280 Figure 16: Gain vs. Output Power Across Voltage (Frequency = 2.472 GHz, TC = +25°C) 40 Gain_25°C_3.0V 38 Gain_25°C_3.3V 36 Gain_25°C_3.6V Gain_25°C_4.2V Gain (dB) 34 Gain_25°C_4.5V 32 Gain_25°C_4.8V 30 28 26 24 22 20 11 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) DATA SHEET - Rev 2.3 05/2014 AWL9280 MCS7-HT40 PERFORMANCE DATA EVM(dB)_2442_25°C Total Measured EVM (dB) -24 Icc_2422_25°C -22 280 Icc_2442_25°C -28 -20 360 320 EVM(dB)_2462_25°C -26 400 240 Icc_2462_25°C -30 200 -32 160 -34 120 -36 80 -38 40 -40 0 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) 360 -24 Icc_2442_25°C 320 Icc_2442_-40°C 280 Icc_2442_85°C -28 240 -30 200 -32 160 -34 120 -36 80 -38 40 -40 0 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) 160 120 -36 80 -38 40 -40 0 Gain_2442_25°C Gain_2462_25°C 26 24 22 20 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Figure 22: Gain vs. Output Power Across Voltage (Frequency = 2.442 GHz, TC = +25°C) 36 Gain_25°C_3.0V Gain_25°C_3.3V Gain_25°C_3.6V Gain_25°C_4.2V 34 Gain (dB) Gain (dB) Gain_2422_25°C 28 Gain_25°C_4.8V 30 28 26 24 22 22 20 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) Gain_25°C_4.5V 32 24 12 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) 30 38 9 9 32 26 8 8 34 Gain_25°C_3.6V 28 7 7 40 Gain_25°C_4.8V 6 6 36 Gain_25°C_4.5V 5 5 Figure 20: Gain vs. Output Power Across Frequency (VCC = +3.6 V, TC = +25°C) Gain_25°C_3.3V 30 20 240 -34 Gain_25°C_4.2V 32 280 200 Gain_25°C_3.0V 34 320 -32 40 36 Icc_2462_25°C 38 Figure 21: Gain vs. Output Power Across Voltage (Frequency = 2.422 GHz, TC = +25°C) 38 Icc_2442_25°C 360 -30 Gain (dB) EVM(dB)_2442_85°C Total Current (mA) [Average in Packet] Total Measured EVM (dB) -22 6 Icc_2422_25°C -28 400 EVM(dB)_2442_-40°C 5 EVM(dB)_2462_25°C 40 EVM(dB)_2442_25°C -26 EVM(dB)_2442_25°C -26 Figure 19: EVM and ICC vs. Output Power Across Temp (Frequency = 2.442 GHz, VCC = +3.6 V) -20 400 EVM(dB)_2422_25°C -24 Total Measured EVM (dB) EVM(dB)_2422_25°C -22 Total Current (mA) [Average in Packet] -20 Figure 18: EVM and ICC vs. Output Power Across Frequency (VCC = +3.6 V, TC = +25°C) Total Current (mA) [Average in Packet] Figure 17: EVM and ICC vs. Output Power Across Frequency (VCC = +3.3 V, TC = +25°C) 5 6 7 DATA SHEET - Rev 2.3 05/2014 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) AWL9280 Figure 23: Gain vs. Output Power Across Voltage (Frequency = 2.462 GHz, TC = +25°C) 40 Gain_25°C_3.0V 38 Gain_25°C_3.3V 36 Gain_25°C_3.6V Gain_25°C_4.2V Gain (dB) 34 Gain_25°C_4.5V 32 Gain_25°C_4.8V 30 28 26 24 22 20 13 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Modulated Output Power (dBm) DATA SHEET - Rev 2.3 05/2014 AWL9280 RX PERFORMANCE DATA Figure 24: LNA Gain vs. Frequency Across Voltage (Temp = +25°C) Figure 25: LNA NF vs. Frequency Across Voltage (Temp = +25°C) 16 4 Nf ig 3.0V 14 3.5 12 3 10 2.5 Nf ig 3.3V Nf ig 3.6V Nf ig 4.2V Nf ig 4.5V Noise Figure (dB) Gain (dB) Nf ig 4.8V Gain 3.0V 8 Gain 3.3V Gain 3.6V 6 Gain 4.2V 2 1.5 Gain 4.5V Gain 4.8V 4 1 2 0 0.5 2 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3 0 2 2.1 14 2.2 2.3 2.4 2.5 Frequency (GHz) Frequency (GHz) DATA SHEET - Rev 2.3 05/2014 2.6 2.7 2.8 2.9 3 AWL9280 Vbt GND BT AWL9280 Vcc Vcc LNA_EN 5 6 7 8 RX RX Vcc GND 4 GND PA_EN C2 C 4.7uF +/-10% Vdet PA_EN 3 Vcc Vbt ANT 2 13 TX Optional R1 / C1 Determine VDET Video BW 1 14 TX R1 10KOhm +/-10% C1 1000pF +/--10% 15 Vrx 16 GND U1 DET OUT Vrx ANT APPLICATION SCHEMATIC Figure 26: Recommended Application Schematic 15 DATA SHEET - Rev 2.3 05/2014 12 11 BT 10 9 Vcc LNA_EN 17 PACKAGE GND C3 4.7uF +/-10% AWL9280 PACKAGE OUTLINE Figure 27: Outline 16 Pin 2.5 mm x 2.5 mm x 0.40 mm QFN Pin 1 Identifier Wafer Number Date Code YY= Year WW= Work Week 9280 LLLLL NN CC Part Number Lot Number Country Code(CC) YYWW Figure 28: Branding Specification 16 DATA SHEET - Rev 2.3 05/2014 AWL9280 PCB AND STENCIL DESIGN GUIDELINE Figure 29: Recommended PCB Layout 17 DATA SHEET - Rev 2.3 05/2014 AWL9280 ORDERING INFORMATION TEMPERATURE RANGE PACKAGE DESCRIPTION COMPONENT PACKAGING AWL9280P7 -40 °C to +80 °C 16 Pin 2.5 x 2.5 x 0.40 mm QFN Bags AWL9280P9 -40 °C to +80 °C 16 Pin 2.5 x 2.5 x 0.40 mm QFN Partial Tape and Reel AWL9280Q7 -40 °C to +80 °C 16 Pin 2.5 x 2.5 x 0.40 mm QFN Tape and Reel, 2500 pieces per Reel EVB9280 -40 °C to +80 °C Evaluation Board Evaluation Board ORDER NUMBER 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 DATA SHEET - Rev 2.3 05/2014