MGA-43040 High Linearity (2.3 – 2.4) GHz Power Amplifier Module Data Sheet Description Features Avago Technologies’ MGA-43040 is a fully matched power amplifier for use in the (2.3 – 2.4) GHz band. High linear output power at 5V is achieved through the use of Avago Technologies’ proprietary 0.25 µm GaAs Enhancementmode pHEMT process. MGA-43040 is housed in a miniature 5.0 mm × 5.0 mm molded-chip-on-board (MCOB) module package. A detector is also included on-chip. The compact footprint coupled with high gain, high linearity and good efficiency makes the MGA-43040 an ideal choice as a power amplifier for small cell BTS PA applications. • High linearity performance: Typ -48dBc ACPR1 [1] at 27.0 dBm linear output power (biased with 5V supply) Applications Specifications • Final stage high linearity amplifier for Picocell and Enterprise Femtocell PA targeted for small cell BTS downlink applications. • 2.35 GHz; 5.0 V, Idq_total = 340 mA (typ), LTE 20 MHz 100 RB Component Image • 27.0 dBm linear Pout @ ACPR1 = -48 dBc [1] (5.0 × 5.0 × 0.9) mm Package Outline AVAGO Notes: Package marking provides orientation and identification ”43040” = Tentative device part number ”YYWW” = Year and work week ”XXXX” = Assembly lot number 43040 YYWW XXXX • High Gain : 40 dB • Good efficiency • Fully matched • Built-in detector • GaAs E-pHEMT Technology [2] • Low cost small package size: (5.0 × 5.0 × 0.9) mm • PAE: 13% • 40 dB Gain • Detector range: 20 dB Notes: 1. LTE 20 MHz 100 RB Test Mode 1.1 downlink signal 2. Enhancement mode technology employs positive VGS, and so eliminates the need for negative gate voltage associated with conventional depletion mode devices Functional Block Diagram TOP VIEW Vdd1 Vdd3 Vdd3 23 22 Gnd 24 Vdd3 25 26 Vdd2 27 Gnd 28 Vdd1 Pin Configuration RFin Gnd 1 21 Gnd Gnd 2 20 Gnd NC 3 19 RFout RFin 4 18 RFout NC 5 17 RFout 16 Gnd Gnd 6 Gnd 13 15 Gnd Vdet 14 VddBias 12 11 9 Gnd 8 Vc2 Vc3 10 (5.0 × 5.0 × 0.9) mm 7 Vc1 NC Vdd2 1st Stage Vdd3 2nd Stage 3rd Stage RFout Biasing Circuit Vc1 Vc2 Vc3 VddBias Vdet Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model = 70 V ESD Human Body Model = 350 V Refer to Avago Application Note A004R: Electrostatic Discharge, Damage and Control. Thermal Resistance [2,3] Absolute Maximum Rating [1] TA = 25 °C Symbol Parameter Units Absolute Max. qjc = 14.2 °C/W Vdd, VddBias Supply voltages, bias supply voltage V 6 Vc Control Voltage V (Vdd) Pin,max CW RF Input Power dBm 20 Pdiss Total Power Dissipation [3] W 5.3 Tj Junction Temperature °C 150 TSTG Storage Temperature °C -65 to 150 Notes: 1. Operation of this device in excess of any of these limits may cause permanent damage. 2. Thermal resistance measured using InfraRed Measurement Technique. 3. Board temperature (TB) is 25 °C , for TB > 74.7 °C derate the device power at 70.4 mW per °C rise in Board (package belly) temperature. Electrical Specifications TA = 25 °C, Vdd1,2,3 = Vddbias=5.0 V, Idqtotal = 350 mA, RF performance at 2.35 GHz, unless otherwise stated. Symbol Parameter and Test Condition Units Vdd Supply Voltage V Min. Typ. Idq_total Quiescent Supply Current mA Gain Gain dB OP1dB Output Power at 1dB Gain Compression dBm 35 ACPR1 @ Pout=27.0 dBm LTE 20 MHz 100 RB Test Mode 1.1 downlink signal dBc -48 PAE Power Added Efficiency % 13 S11 Input Return Loss, 50 Ω source dB 20 DetR Detector RF dynamic range dB 20 2fo 2fo Harmonics dBc -27 Max. 5.0 340 35 40 -45 Product Consistency Distribution Charts [4] 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Figure 1. Idq_total, Nominal = 340mA 33 35 37 39 41 43 45 47 49 Figure 3. Gain at Pout=27.0dBm, LSL= 35dB, Nominal = 40dB -50.5 -49 -48 -47 -46 0.4 0.5 0.6 0.7 0.8 0.9 Figure 2. Idd_total at Pout=27.0dBm, Nominal = 700mA -45 6 7 8 9 10 11.5 13 14.5 16 17.5 19 Figure 4. PAE at Pout=27.0dBm, Nominal = 13% -44 Figure 5. ACPR1 at Pout=27.0dBm, USL= -45dBc, Nominal = -47.7dBc Note: 4. Distribution data sample size is 1500 samples taken from 3 different wafer lots. TA=25°C, Vdd=VddBias=5.0V, Vc1=2.0V, Vc2=1.8V, Vc3=1.8V, RF performance at 2.35 GHz unless otherwise stated. Future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 2 Application Schematic Vdd1 Vdd2 Vdd3 Idq2 Idq1 Idq3 C3 C7 C4 Z=50 Ω E=7.0 deg F=2.35 GHz C8 Z=50 Ω E=8.3 deg F=2.35 GHz Z=50 Ω E=8.3 deg F=2.35 GHz C10 C13 1 RFin C1 C2 Top View Z=50 Ω F=2.35 GHz C18 Vc1 C20 Vc2 Z=50 Ω F=2.35 GHz C24 I_Vddbias C25 C22 Vc3 RFout Vddbias C26 Vdet Figure 6. Application circuit in demonstration board Notes 1. All capacitors on supply lines are bypass capacitors. 2. C1/C2 are RF coupling capacitors. 3. Idq1= 60 mA, Idq2 = 110 mA, Idq3 = 180.0 mA, I_Vddbias = 16.0 mA at Vdd1,2,3=VddBias=5.0 V. Idq1/2/3 are adjusted by voltages to CMOScompatible control pins Vc1/2/3, respectively. These typical bias currents were obtained with Vc1/2/3 voltages in Figure 2. Adjustment of these currents enable optimum bias conditions to be achieved for best linearity and efficiency for a given modulation type. 3 Demonstration Board Top View Vdd2 +5V Vdd1 +5V Vdd3 +5V Vc1=2.0V VddBias Vdet Vc2=1.8V +5V (Output) Vc3 =1.8V Component Value Part Number Size C1, C2, C18, C20, C22 7.5 pF ± 0.5 pF GJM1555C1H7R5DB01D 0402 C24 6.0 pF ± 0.5 pF GJM1555C1H6R0DB01D 0402 C4, C8 8.2 pF ± 0.25 pF GJM1555C1H8R2WB01D 0402 C3, C7, C13, C25 0.1 µF ± 10% GRM155R71C104KA88D 0402 C10 2.2 µF ± 10% GRM21BR61E225KA12L 0805 C26 22 nF ± 10% CM05X7R223K16AHF 0402 R2, R3, R4, R5 0Ω RMC1/16S JPTH 0402 R1 0Ω RMC1/10 JPTP 0805 Figure 7. Demonstration board application circuit for MGA-43040 module 4 S21 S22 85°C 25°C -40°C S11 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 45 40 35 30 25 20 15 10 5 0 -5 -10 -15 -20 -25 -30 -35 -40 Frequency/GHz -42 16 -44 -46 14 -46 14 -48 12 -48 12 -50 10 -50 10 -52 8 -52 8 -54 6 -54 6 -56 4 -56 4 -58 2 -58 2 -60 0 -60 17 18 19 20 21 22 23 24 Pout/dBm 25 26 27 28 29 Figure 10. Over-temperature ACPR1, PAE vs. Pout @ 2.33 GHz Vdd=VddBias=5.0 V operating voltage ACPR1_-40°C PAE_-40°C 17 -42 18 -44 16 14 -48 12 PAE% -46 ACPR1/dBc -44 ACPR1_25°C PAE_25°C ACPR1_-40°C PAE_-40°C 18 16 18 19 20 21 22 23 24 Pout/dBm 25 26 27 28 29 0 20 -40 20 ACPR1_85°C PAE_85°C ACPR1_25°C PAE_25°C Figure 11. Over-temperature ACPR1, PAE vs. Pout @ 2.35 GHz Vdd=VddBias=5.0 V operating voltage -40 -42 20 ACPR1_85°C PAE_85°C PAE% ACPR1_-40°C PAE_-40°C PAE% ACPR1_25°C PAE_25°C ACPR1/dBc -40 18 -44 ACPR1/dBc 85°C 25°C -40°C 20 ACPR1_85°C PAE_85°C -42 ACPR1/dBc S11 Figure 9. Small-signal performance Over-temperature Vdd=VddBias=5.5 V operating voltage -40 ACPR1_85°C PAE_85°C ACPR1_25°C PAE_25°C ACPR1_-40°C PAE_-40°C 18 16 -46 14 -48 12 -50 10 -50 10 -52 8 -52 8 -54 6 -54 6 -56 4 -56 4 -58 2 -58 2 -60 0 -60 17 17 18 19 20 21 22 23 24 Pout/dBm 25 26 27 Figure 12. Over-temperature ACPR1, PAE vs. Pout @ 2.36 GHz Vdd=VddBias=5.0 V operating voltage 5 S22 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 Frequency/GHz Figure 8. Small-signal performance Over-temperature Vdd=VddBias=5.0 V operating voltage S21 28 29 18 19 20 21 22 23 24 Pout/dBm 25 26 27 Figure 13. Over-temperature ACPR1, PAE vs. Pout @ 2.39 GHz Vdd=VddBias=5.0 V operating voltage 28 0 29 PAE% 45 40 35 30 25 20 15 10 5 0 -5 -10 -15 -20 -25 -30 -35 -40 S21,S11,S22/dB S21,S11,S22/dB MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless otherwise stated MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless otherwise stated (Cont.) -42 16 -44 -46 14 -46 14 -48 12 -48 12 -50 10 -50 10 -52 8 -52 8 -54 6 -54 6 -56 4 -56 4 -58 2 -58 2 18 19 20 21 22 23 24 Pout/dBm 25 26 27 0 29 28 -60 17 Figure 14. Over-temperature ACPR1, PAE vs. Pout @ 2.33 GHz Vdd=VddBias=5.5 V operating voltage 19 20 21 22 ACPR1_-40°C PAE_-40°C 23 24 Pout/dBm 25 18 16 26 27 28 0 29 20 -40 18 -42 16 -44 -46 14 -46 14 -48 12 -48 12 -50 10 -50 10 -52 8 -52 8 -54 6 -54 6 -56 4 -56 4 -58 2 -58 2 -44 -60 17 ACPR1_85°C PAE_85°C 18 19 20 ACPR1_25°C PAE_25°C 21 22 ACPR1_-40°C PAE_-40°C 23 24 Pout/dBm 25 26 27 28 PAE% 20 -42 ACPR1/dBc 18 ACPR1_25°C PAE_25°C Figure 15. Over-temperature ACPR1, PAE vs. Pout @ 2.35 GHz Vdd=VddBias=5.5 V operating voltage -40 -60 17 0 29 Figure 16. Over-temperature ACPR1, PAE vs. Pout @ 2.36 GHz Vdd=VddBias=5.5 V operating voltage ACPR1_85°C ACPR2_85°C -35 ACPR1_25°C ACPR2_25°C 18 19 20 ACPR1_25°C PAE_25°C 21 22 ACPR1_-40°C PAE_-40°C 23 24 Pout/dBm 25 18 16 26 27 28 0 29 -30 ACPR1_-40°C ACPR2_-40°C ACPR1_85°C ACPR2_85°C -35 -40 ACPR1_25°C ACPR2_25°C ACPR1_-40°C ACPR2_-40°C ACPR1,ACPR2/dBc ACPR1,ACPR2/dBc -40 -45 -45 -50 -50 -55 -55 -60 -60 -65 -70 ACPR1_85°C PAE_85°C Figure 17. Over-temperature ACPR1, PAE vs. Pout @ 2.39 GHz Vdd=VddBias=5.5 V operating voltage -30 -65 20 21 22 23 24 25 26 Pout/dBm 27 28 Figure 18. Over-temperature ACPR1, ACPR2 vs. Pout @ 2.35 GHz Vdd=VddBias=5.0 V operating voltage 6 20 ACPR1_85°C PAE_85°C PAE% ACPR1_-40°C PAE_-40°C PAE% -60 17 ACPR1_25°C PAE_25°C ACPR1/dBc ACPR1/dBc -44 ACPR1_85°C PAE_85°C ACPR1/dBc -40 18 -42 PAE% 20 -40 29 30 -70 20 21 22 23 24 25 26 Pout/dBm 27 28 Figure 19. Over-temperature ACPR1, ACPR2 vs. Pout @ 2.35 GHz Vdd=VddBias=5.5 V operating voltage 29 30 44 2600 43 2300 43 2300 42 2000 42 2000 1700 41 Gain_85°C Gain_25°C Gain_-40°C 40 39 1100 500 37 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm 36 Figure 20. Over-temperature Gain, Idd_total vs. Pout @ 2.33GHz Vdd=VddBias=5.0 V operating voltage 42 Gain/dB 41 Gain_85°C Gain_25°C Gain_-40°C 40 39 2600 2300 2300 2000 42 2000 1700 41 1100 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm 36 Idd_Total_85°C Idd_Total_25°C Idd_Total_-40°C 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Pout/dBm Figure 24. Over-temperature Idd_total vs. Pout @ 2.35 GHz Vdd=VddBias=5.0 V operating voltage 1400 1100 Idd_total_85°C Idd_total_25°C Idd_total_-40°C 800 500 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm Figure 23. Over-temperature Gain, Idd_total vs. Pout @ 2.39GHz Vdd=VddBias=5.0 V operating voltage Idd_Total/mA Idd_Total/mA 39 37 Figure 22. Over-temperature Gain, Idd_total vs. Pout @ 2.36GHz Vdd=VddBias=5.0 V operating voltage 1700 Gain_85°C Gain_25°C Gain_-40°C 40 500 1800 1700 1600 1500 1400 1300 1200 1100 1000 900 800 700 600 500 400 300 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm 43 38 37 500 44 1400 Idd_total_85°C Idd_total_25°C Idd_total_-40°C 800 2600 800 38 1100 Idd_total_85°C Idd_total_25°C Idd_total_-40°C Gain/dB 43 1400 Figure 21. Over-temperature Gain, Idd_total vs. Pout @ 2.35 GHz Vdd=VddBias=5.0 V operating voltage Idd_Total/mA 44 7 39 38 Idd_total_85°C Idd_total_25°C Idd_total_-40°C 37 36 40 800 38 36 1400 1700 Gain_85°C Gain_25°C Gain_-40°C 1800 1700 1600 1500 1400 1300 1200 1100 1000 900 800 700 600 500 400 300 Idd_Total_85°C Idd_Total_25°C Idd_Total_-40°C 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Pout/dBm Figure 25. Over-temperature Idd_total vs. Pout @ 2.35 GHz Vdd=VddBias=5.5 V operating voltage Idd_Total/mA 41 Idd_Total/mA 2600 Gain/dB 44 Idd_Total/mA Gain/dB MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless otherwise stated (Cont.) MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless otherwise stated (Cont.) Ic / µA Ic1 Ic2 Ic3 Ic / µA 125 120 115 110 105 100 95 90 85 80 75 70 65 60 55 50 45 40 1.0 1.2 1.4 1.6 1.8 2.0 Vc / V 2.2 2.4 2.6 2.8 3.0 3.0 2.8 2.6 2.4 2.2 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 Vdet_85°C Vdet_25°C Vdet_-40°C 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Pout/dBm Figure 28. Over-temperature Vdet vs. Pout @ 2.35 GHz Vdd=VddBias=5.0 V operating voltage 2fo_25°C 3fo_25°C 2fo_-40°C 3fo_-40°C 1.6 1.8 2.0 Vc / V 2.2 2.4 2.6 2.8 3.0 Vdet_85°C Vdet_25°C Vdet_-40°C 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 Pout/dBm -5 -10 -15 -15 2fo, 3fo/dBm 2fo, 3fo/dBm 1.4 0 2fo_85°C 3fo_85°C -20 -25 -35 -35 2350 2360 Figure 30. Over-temperature 2nd, 3rd Harmonics vs. Freq at Pout=27.0 dBm Vdd=VddBias=5.0 V operating voltage 2fo_25°C 3fo_25°C 2fo_-40°C 3fo_-40°C -25 -30 2340 2fo_85°C 3fo_85°C -20 -30 Frequency/MHz 8 3.0 2.8 2.6 2.4 2.2 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 -10 -40 2330 1.2 Figure 29. Over-temperature Vdet vs. Pout @ 2.35 GHz Vdd=VddBias=5.5 V operating voltage 0 -5 Ic1 Ic2 Ic3 Figure 27. Ic vs. Vc @ Vdd=VddBias=5.5 V Vdet/V Vdet/V Figure 26. Ic vs. Vc @ Vdd=VddBias=5.0 V 125 120 115 110 105 100 95 90 85 80 75 70 65 60 55 50 45 40 1.0 -40 2330 2340 2350 2360 Frequency/MHz Figure 31. Over-temperature 2nd, 3rd Harmonics vs. Freq at Pout=27.0 dBm Vdd=VddBias=5.5 V operating voltage MGA-43040 typical LTE 20MHz 100RB Test model 1.1 downlink signal Spectrum Emission Mask (3GPP TS 36.141v8.2.0 [2009-03] standard) performance at Vdd=VddBias=5.0V, Vc1=2.0V, Vc2=1.8V, Vc3=1.8V, unless otherwise stated 2.31GHz -25 -20 -15 -10 -5 0 2.33GHz 5 10 15 20 25 -25 -20 -15 -10 -5 Figure 32. Spectrum Emission Mask 29.0dBm @ 2.31GHz -20 -15 -10 -5 0 5 10 15 20 25 -10 -5 0 5 10 Frequency Offset/MHz Figure 36. Spectrum Emission Mask 29.0dBm @ 2.39GHz 9 -20 -15 -10 -5 0 5 10 Figure 35. Spectrum Emission Mask 29.0dBm @ 2.36GHz 2.39GHz -15 -25 Frequency Offset/MHz Figure 34. Spectrum Emission Mask 29.0dBm @ 2.35GHz -20 10 15 20 25 15 20 25 2.36GHz Frequency Offset/MHz -25 5 Figure 33. Spectrum Emission Mask 29.0dBm @ 2.33GHz 2.35GHz -25 0 Frequency Offset/MHz Frequency Offset/MHz 15 20 25 S-Parameter [5] (Vdd=VddBias=5.0 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched) Freq (GHz) S11 (dB) S11 (ang) S21 (dB) S21 (ang) S12 (dB) S12 (ang) S22 (dB) S22 (ang) 0.1 -0.05 -43.46 -82.39 -171.41 -67.41 -91.79 -0.30 166.08 0.2 -0.22 -83.93 -60.05 -51.56 -64.37 168.17 -0.87 155.53 0.3 -0.36 -118.96 -53.12 -81.90 -63.68 155.26 -0.98 146.84 0.4 -0.37 -148.39 -45.86 -59.12 -67.47 105.30 -1.01 137.19 0.5 -0.35 -174.08 -31.36 -62.51 -73.24 172.77 -1.02 127.41 0.6 -0.28 163.16 -17.64 -90.87 -65.58 38.34 -1.05 117.77 0.7 -0.17 141.41 -4.02 -130.57 -66.15 61.01 -1.10 108.24 0.8 -0.58 116.96 9.92 158.29 -74.19 2.78 -1.16 98.76 0.9 -1.87 107.86 14.37 53.34 -66.90 15.50 -1.29 89.64 1.0 -1.42 93.88 15.71 -3.31 -63.91 36.37 -1.40 80.96 1.1 -1.30 77.99 18.00 -55.30 -61.66 8.43 -1.51 68.16 1.2 -1.43 61.07 19.49 -111.33 -63.18 -18.31 -1.36 60.32 1.3 -2.07 45.60 16.61 -165.69 -71.45 -87.61 -0.88 50.72 1.4 -2.57 33.09 7.46 -107.91 -68.04 40.18 -0.78 33.71 1.5 -2.53 16.75 22.97 -147.49 -59.29 -49.87 -1.03 35.08 1.6 -3.13 -3.43 26.55 169.35 -63.70 -84.48 -0.79 15.51 1.7 -4.26 -26.39 31.66 131.53 -64.44 -77.11 -1.03 3.68 1.8 -6.46 -54.59 35.65 81.77 -62.93 -76.77 -1.48 -10.92 1.9 -13.31 -95.41 37.67 23.38 -56.37 -66.15 -2.52 -26.00 2.0 -18.65 -1.32 36.26 -14.30 -56.63 -65.83 -4.20 -38.55 2.1 -16.25 -3.09 40.32 -56.14 -53.00 -88.72 -6.67 -43.62 2.2 -13.94 -16.83 41.97 -112.63 -52.08 -126.04 -7.70 -42.86 2.3 -17.96 -14.21 42.23 -169.83 -50.57 -142.00 -9.59 -49.60 2.4 -11.93 24.47 41.55 130.45 -52.68 -173.57 -13.58 -18.72 2.5 -6.32 -3.43 38.86 71.56 -51.37 135.22 -6.49 -0.10 2.6 -4.80 -34.45 34.80 23.16 -53.36 110.86 -3.03 -21.17 2.7 -4.70 -58.87 30.56 -15.19 -56.87 93.98 -1.71 -42.16 2.8 -5.06 -78.96 26.53 -47.47 -61.31 53.15 -1.15 -60.74 2.9 -5.55 -96.34 22.75 -75.99 -60.49 66.61 -0.93 -77.44 3.0 -6.04 -111.81 19.12 -101.86 -64.94 63.84 -0.80 -93.08 3.1 -6.46 -126.18 15.60 -125.84 -65.29 103.36 -0.73 -108.06 3.2 -6.74 -139.55 12.10 -148.15 -76.12 19.05 -0.67 -122.43 3.3 -6.91 -152.76 8.51 -169.35 -64.76 102.40 -0.62 -136.19 3.4 -7.02 -165.47 4.66 170.79 -69.86 137.59 -0.54 -149.53 3.5 -6.99 -176.99 0.35 152.68 -65.06 153.96 -0.47 -162.24 3.6 -6.84 172.04 -5.03 138.01 -63.50 88.03 -0.41 -174.49 3.7 -6.57 161.88 -13.04 137.28 -66.30 58.78 -0.38 174.06 3.8 -6.30 152.18 -17.23 -150.27 -58.06 106.16 -0.37 163.22 3.9 -6.04 143.23 -10.45 -135.35 -60.22 60.37 -0.40 153.18 4.0 -5.83 135.05 -6.91 -147.18 -58.13 54.12 -0.43 143.70 4.1 -5.62 127.63 -4.71 -163.53 -62.57 29.32 -0.49 134.88 4.2 -5.42 120.90 -3.08 177.72 -58.19 68.88 -0.56 126.39 4.3 -5.24 114.55 -1.72 156.43 -58.33 16.63 -0.67 118.23 4.4 -5.07 108.37 -0.60 131.65 -58.92 2.69 -0.79 110.33 4.5 -4.89 102.16 0.01 101.82 -58.16 12.63 -0.95 102.89 4.6 -4.75 95.64 -0.64 67.36 -57.84 -11.34 -1.09 95.88 4.7 -4.68 89.17 -3.44 34.50 -57.37 -17.51 -1.09 88.73 4.8 -4.47 82.84 -8.97 21.77 -57.27 -47.42 -1.02 80.48 4.9 -3.99 74.73 -8.48 53.69 -58.38 -43.04 -0.95 71.12 10 S-Parameter [5] (Vdd=VddBias=5.0 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched) Cont. Freq (GHz) S11 (dB) S11 (ang) S21 (dB) S21 (ang) S12 (dB) S12 (ang) S22 (dB) S22 (ang) 5.0 -3.59 61.28 -3.08 29.83 -57.42 -35.25 -0.93 60.96 5.1 -4.37 36.66 -2.57 -19.13 -57.92 -62.36 -0.80 50.35 5.2 -5.26 23.79 -4.28 -53.55 -58.55 -59.91 -0.76 40.57 5.3 -5.88 12.71 -6.50 -80.69 -57.69 -91.30 -0.74 30.57 5.4 -6.20 2.76 -8.78 -103.41 -57.51 -95.73 -0.71 19.99 5.5 -6.25 -7.06 -10.97 -123.32 -57.76 -103.19 -0.67 9.14 5.6 -6.10 -16.77 -13.06 -141.61 -58.97 -109.41 -0.64 -1.94 5.7 -5.80 -25.91 -15.06 -158.95 -54.67 -120.47 -0.63 -13.50 5.8 -5.48 -35.03 -16.98 -175.90 -56.69 -131.66 -0.60 -25.07 5.9 -5.14 -43.63 -18.87 167.55 -56.83 -152.33 -0.60 -36.95 6.0 -4.82 -51.97 -20.74 150.39 -58.21 -152.79 -0.60 -48.72 7.0 -5.11 -132.66 -23.12 -85.01 -64.22 98.12 -1.39 -169.64 8.0 -3.83 107.44 -34.36 57.37 -59.42 24.83 -0.55 105.31 9.0 -4.93 40.09 -28.91 -71.64 -54.36 -71.04 -0.82 21.49 10.0 -5.53 -104.31 -31.42 99.30 -54.74 144.95 -3.07 -136.30 11.0 -3.22 169.79 -49.93 -10.50 -57.78 55.44 -1.21 140.03 12.0 -6.22 60.73 -56.09 -46.50 -55.70 -47.33 -2.57 69.05 13.0 -3.07 -48.51 -42.09 -128.24 -52.00 -159.54 -2.46 -95.76 14.0 -3.97 -101.62 -40.85 123.51 -55.49 157.53 -3.35 178.00 15.0 -5.04 143.00 -36.15 -6.88 -51.09 39.71 -1.86 77.50 16.0 -4.24 8.62 -39.62 179.55 -50.99 -59.49 -8.41 -63.09 17.0 -2.27 -108.22 -46.66 93.23 -48.60 172.19 -0.99 167.24 18.0 -1.14 -174.30 -47.70 6.98 -53.18 84.31 -0.78 127.20 19.0 -4.34 30.77 -43.73 -133.37 -42.83 -15.74 -4.37 6.29 20.0 -2.93 -133.19 -41.47 56.10 -45.27 165.59 -1.75 -145.59 S-Parameter [5] (Vdd=VddBias=5.5 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched) Freq (GHz) S11 (dB) S11 (ang) S21 (dB) S21 (ang) S12 (dB) S12 (ang) S22 (dB) S22 (ang) 0.1 0.2 0.3 0.4 0.5 -0.05 -0.20 -0.33 -0.32 -0.29 -43.41 -83.95 -118.94 -148.39 -174.02 -59.26 -63.48 -55.05 -45.15 -31.01 96.93 -48.09 -83.65 -55.28 -63.49 -60.56 -68.73 -69.82 -66.66 -74.45 -156.87 73.17 117.86 59.32 149.91 -0.30 -0.83 -0.91 -0.93 -0.94 166.26 156.07 147.31 137.52 127.66 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 -0.23 -0.12 -0.56 -1.84 -1.39 -1.29 -1.46 -2.13 -2.63 -2.59 -3.26 -4.48 -6.90 -14.65 -17.42 -15.03 -13.35 163.15 141.37 116.88 107.94 93.91 77.89 60.87 45.59 33.20 16.55 -3.69 -26.73 -54.92 -93.46 2.90 -4.42 -21.65 -17.28 -3.67 10.27 14.71 16.14 18.55 20.17 17.38 8.48 23.20 26.82 31.99 35.96 37.86 36.52 40.48 42.08 -92.18 -131.53 157.42 53.14 -3.12 -55.03 -111.57 -166.86 -111.17 -150.98 167.44 129.64 79.57 21.21 -15.80 -58.00 -113.77 -66.22 -66.28 -70.81 -73.36 -60.59 -66.41 -65.11 -67.49 -63.62 -60.37 -62.39 -65.62 -60.29 -57.67 -53.43 -55.14 -52.56 69.69 71.54 19.85 33.95 15.42 -5.14 -12.62 -59.05 -17.80 -64.57 -76.48 -101.90 -65.69 -52.55 -63.61 -105.91 -126.58 -0.96 -1.01 -1.09 -1.22 -1.34 -1.46 -1.34 -0.88 -0.78 -0.96 -0.80 -1.04 -1.54 -2.63 -4.31 -6.90 -7.83 117.93 108.30 98.77 89.55 80.80 67.91 60.03 50.53 33.70 34.04 15.02 2.90 -11.81 -26.71 -39.36 -44.05 -42.59 11 S-Parameter [5] (Vdd=VddBias=5.5 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched) Cont. Freq (GHz) S11 (dB) S11 (ang) S21 (dB) S21 (ang) S12 (dB) S12 (ang) S22 (dB) S22 (ang) 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 6.0 7.0 8.0 9.0 10.0 11.0 12.0 13.0 14.0 15.0 16.0 17.0 18.0 19.0 20.0 -18.31 -12.11 -6.22 -4.67 -4.61 -4.99 -5.45 -5.91 -6.33 -6.59 -6.74 -6.82 -6.78 -6.61 -6.35 -6.09 -5.83 -5.63 -5.43 -5.24 -5.08 -4.92 -4.75 -4.63 -4.56 -4.39 -3.94 -3.61 -4.41 -5.30 -5.92 -6.20 -6.20 -6.01 -5.66 -5.34 -4.99 -4.67 -5.02 -3.85 -4.96 -5.51 -3.24 -6.28 -3.14 -4.05 -5.10 -4.31 -2.29 -1.16 -4.39 -2.96 -21.82 26.52 -3.58 -35.13 -59.81 -80.06 -97.30 -112.79 -127.25 -140.57 -153.77 -166.45 -177.97 171.13 160.90 151.26 142.49 134.32 126.90 120.15 113.87 107.72 101.52 95.03 88.57 82.29 74.28 61.01 36.98 24.62 14.04 4.51 -5.13 -14.82 -24.22 -33.50 -42.36 -50.88 -132.43 107.23 39.65 -104.42 169.87 60.37 -48.95 -101.67 142.53 8.79 -108.55 -174.54 29.22 -134.17 42.39 41.79 39.12 35.01 30.75 26.70 22.92 19.30 15.78 12.29 8.71 4.87 0.55 -4.82 -12.86 -16.85 -10.13 -6.61 -4.41 -2.78 -1.40 -0.27 0.33 -0.39 -3.31 -8.91 -8.23 -2.98 -2.57 -4.31 -6.58 -8.90 -11.12 -13.17 -15.13 -17.00 -18.84 -20.71 -22.78 -34.21 -28.69 -30.90 -49.39 -56.16 -42.18 -41.26 -35.81 -40.29 -46.34 -46.67 -43.44 -41.55 -170.44 129.83 70.51 22.12 -16.14 -48.29 -76.60 -102.37 -126.22 -148.49 -169.61 170.59 152.52 137.92 137.62 -149.92 -135.70 -147.52 -163.96 177.29 155.95 130.87 100.58 65.69 32.85 21.19 52.50 28.17 -20.46 -54.54 -81.33 -103.67 -123.03 -140.74 -157.62 -174.30 168.83 152.22 -84.70 58.74 -70.03 99.71 -6.85 -46.56 -125.78 123.50 -9.67 179.61 88.66 1.51 -138.00 52.85 -51.31 -51.67 -51.68 -54.35 -55.30 -57.92 -71.59 -65.70 -71.48 -70.55 -72.80 -70.33 -63.59 -66.82 -57.85 -58.56 -62.86 -58.80 -56.99 -59.93 -60.54 -59.65 -56.07 -54.64 -56.59 -58.31 -59.45 -59.95 -57.55 -56.22 -56.03 -56.97 -60.23 -58.04 -56.77 -57.20 -61.46 -61.22 -59.87 -58.07 -54.81 -54.91 -55.79 -54.40 -50.24 -57.87 -50.12 -49.42 -47.95 -51.92 -43.09 -45.10 -149.44 173.34 137.22 125.00 105.67 92.83 -37.57 36.73 111.04 45.34 91.80 121.18 106.84 130.42 56.97 84.26 50.14 68.08 51.06 66.36 37.34 19.57 4.88 -23.10 -21.29 -41.89 -37.14 -33.07 -72.71 -71.81 -88.18 -94.91 -105.13 -110.34 -107.61 -121.15 -164.74 -166.08 119.04 13.28 -80.12 144.60 52.18 -25.21 -162.84 168.13 36.87 -49.38 171.22 81.61 -16.13 163.01 -9.72 -13.78 -6.32 -2.91 -1.62 -1.09 -0.85 -0.72 -0.65 -0.58 -0.52 -0.44 -0.36 -0.30 -0.28 -0.27 -0.30 -0.34 -0.41 -0.49 -0.61 -0.74 -0.91 -1.05 -1.04 -0.98 -0.92 -0.91 -0.79 -0.76 -0.74 -0.70 -0.66 -0.62 -0.60 -0.56 -0.54 -0.52 -1.15 -0.46 -0.81 -2.44 -0.94 -2.58 -2.87 -3.35 -1.84 -9.61 -1.16 -0.78 -4.36 -1.74 -49.31 -15.82 0.70 -21.23 -42.21 -60.70 -77.36 -92.89 -107.77 -122.12 -135.88 -149.14 -161.87 -174.10 174.43 163.58 153.56 144.04 135.17 126.67 118.47 110.59 103.16 96.18 89.00 80.67 71.24 61.01 50.39 40.60 30.56 20.01 9.16 -1.90 -13.48 -25.03 -36.85 -48.53 -169.10 105.57 21.44 -137.42 138.03 69.16 -96.90 177.07 77.30 -57.73 168.18 127.39 6.80 -144.60 12 PCB Land Pattern and Stencil Outline 4.77 5.00 3.60 0.23 0.50 0.45 Pin1 0.75 0.80 1.13 3.24 1.52 5.00 1.25 3.70 0.50 1.13 ∅0.30 0.05 0.68 0.80 0.27 0.50 0.50 (pitch) Soldermask Opening Land Pattern 0.25 Stencil Opening 5.00 3.60 3.24 0.45 Soldermask Top Metal Note : 1. Recommended Land Pattern and Stencil. 2. 4 mils stencil thickness recommended. 3. All dimensions are in mm 3.60 5.00 0.05 Combination of Land Pattern & Stencil Opening 13 1.82 0.68 0.25 0.60 0.40 0.82 4.77 MCOB (5.0 x 5.0 x 0.9) mm 28-Lead Package Dimensions PIN #1 Identification CHAMFER 0.43 x 45° PIN #1 Identification 5.00 ± 0.10 0.81 ± 0.10 5.00 0.25 0.30 0.375 AVAGO 43040 YYWW XXXX 3.74 3.60 5.00 ± 0.10 5.00 0.125 0.50 Top View Side View Note 1. All dimensions are in millimeters. 2. Dimensions are inclusive of plating. 3. Dimensions are exclusive of mold flash and metal burr. Part Number Ordering Information Part Number Qty Container MGA-43040-BLKG 100 Antistatic Bag MGA-43040-TR1G 1000 7” Reel 14 0.10 0.50 0.10 3.60 3.74 Bottom View 0.47 Device Orientation REEL USER FEED DIRECTION CARRIER TAPE USER FEED DIRECTION Tape Dimensions 15 COVER TAPE AVAGO 43040 YYWW XXXX AVAGO 43040 YYWW XXXX TOP VIEW AVAGO 43040 YYWW XXXX END VIEW Reel Dimensions (7” reel) Ø178.0±1.0 FRONT BACK SEE DETAIL "X" RECYCLE LOGO FRONT VIEW 65° 7.9 - 10.9* +1.5* 8.4 -0.0 45° R10.65 R5.2 Slot hole ‘b’ BACK 60° Ø55.0±0.5 Ø178.0±1.0 FRONT Slot hole ‘a’ EMBOSSED RIBS RAISED: 0.25mm, WIDTH: 1.25mm Ø51.2±0.3 BACK VIEW For product information and a complete list of distributors, please go to our web site: 14.4* MAX. www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2014 Avago Technologies. All rights reserved. AV02-4488EN - September 23, 2014