MGA-43428 High Linearity 851 – 894 MHz Power Amplifier Module Data Sheet Description Features Avago Technologies’ MGA-43428 is a fully matched power amplifier for use in the (851-894) MHz band. High linear output power at 5V is achieved through the use of Avago Technologies’ proprietary 0.25um GaAs Enhancement-mode pHEMT process. MGA-43428 is housed in a miniature 5.0mm x 5.0mm 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-43428 an ideal choice as a power amplifier for small cell BTS PA applications. • High linearity performance : Max -50dBc ACLR [1] at 27.2dBm linear output power (biased on 5V supply) • Final stage high linearity amplifier for Picocell and Enterprise Femtocell PA targeted for small cell BTS downlink applications. Component Image 5.0 x 5.0 x 0.9 mm Package Outline AVAGO Note: Package marking provides orientation and identification “43428 “ = Device part number “YYWW” = year and work week “XXXX” = assembly lot number 43428 YYWW XXXX TOP VIEW • Fully matched • Built-in detector • GaAs E-pHEMT Technology [2] • Low cost small package size: (5.0 x 5.0 x 0.9) mm Specifications 880MHz; 5.0V, Idqtotal =350mA (typ), W-CDMA Test model #1, 64DPCH downlink signal • PAE : 14.9% • 27.2dBm linear Pout @ ACLR = -50dBc [1] • 33.7dB Gain • Detector range : 20dB Note: 1. W-CDMA Test model #1, 64DPCH downlink signal. 2. Enhancement mode technology employs positive Vgs, thereby eliminating the need of negative gate voltage associated with conventional depletion mode devices. 22 Vdd3 23 Vdd3 24 Vdd3 25 Gnd Vdd2 Gnd 1 21 Gnd Gnd 2 20 Gnd NC 3 19 RFout RFin 4 18 RFout NC 5 17 RFout 16 Gnd Gnd 6 15 Gnd Vdet 14 Gnd 13 VddBias 12 Vc3 10 Gnd 11 (5.0 x 5.0 x 0.9) mm Vc2 9 • Lead free/Halogen free/RoHS compliance Functional Block Diagram 26 Vdd2 27 Gnd 28 NC Pin Configuration NC 8 • Good efficiency • MSL3 Applications NC 7 • High gain : 33.7dB RFin Vdd3 2nd Stage 3rd Stage RFout Biasing Circuit Vc2 Vc3 VddBias Vdet Attention: Observe precautions for handling electrostatic sensitive devices. ESD Machine Model = 80 V ESD Human Body Model = 400 V Refer to Avago Application Note A004R: Electrostatic Discharge, Damage and Control. Absolute Maximum Rating [1] TA = 25° C Thermal Resistance [2,3] Symbol Parameter Units Absolute Max. qjc = 12°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 4.9 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 at Vdd = 5.5 V operating voltage. 3. Board temperature (TB) is 25°C , for TB >91°C derate the device power at 83mW per °C rise in Board (package belly) temperature. Electrical Specifications TA = 25 °C, Vdd = VddBias = 5.0V, Vc2=Vc3=3V, Idqtotal = 350mA, RF performance at 880MHz, W-CDMA Test model #1, 64DPCH downlink signal operation unless otherwise stated. Symbol Parameter and Test Condition Units Min. Typ. Max. Vdd Supply Voltage V - 5.0 - Idqtotal Quiescent Supply Current mA - 350 560 Gain Gain dB 31 33.7 - OP1dB Output Power at 1dB Gain Compression dBm - 36.4 - ACLR1 @ Pout = 27.2 dBm W-CDMA Test model #1, 64DPCH downlink signal dBc - -50 - PAE @ Pout = 27.2 dBm Power Added Efficiency % 13 14.9 - |S11| Input Return Loss, 50 Ω source dB - 25 - DetR Detector RF dynamic range dB - 20 - TA = 25 °C, Vdd =VddBias=5.5V, Vc2=2.9V, Vc3=2.7V Idqtotal = 345mA, RF performance at 880MHz, W-CDMA Test model #1, 64DPCH downlink signal operation unless otherwise stated. Symbol Parameter and Test Condition Units Typ. Vdd Supply Voltage V 5.5 Idqtotal Quiescent Supply Current mA 345 Gain Gain dB 33.7 OP1dB Output Power at 1dB Gain Compression dBm 37.0 ACLR1 @ Pout = 27.9 dBm W-CDMA Test model #1, 64DPCH downlink signal dBc -50 PAE @ Pout = 27.9 dBm Power Added Efficiency % 15 |S11| Input Return Loss, 50 Ω source dB 25 DetR Detector RF dynamic range dB 20 2 Product Consistency Distribution Charts [1] LSL 30 31 LSL 32 33 34 37 36 35 Figure 1. Gain at Pout=27.2dBm, LSL= 31dB, nominal = 33.7dB 13 13.5 14 14.5 15 15.5 16 16.5 17 Figure 2. PAE at Pout=27.2dBm, LSL=13%, nominal = 14.9% USL 200 250 300 350 400 450 500 550 600 Figure 3. Idqtotal, Nominal = 350mA, USL=560mA -55 -54 -53 -52 -51 -50 -49 -48 610 630 650 670 690 710 Figure 4. Idd_Total at Pout=27.2dBm, nominal = 670mA -47 Figure 5. ACLR1 at Pout=27.2dBm, nominal = -51.1dBc Note: 1. Distribution data sample size is 1500 samples taken from 3 different wafer lots. TA = 25 °C, Vdd=VddBias = 5.0V, Vc2 = Vc3 = 3V, RF performance at 880MHz unless otherwise stated. Future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 3 MGA-43428 typical over-temperature performance at Vc2= Vc3=3V (Vdd=VddBias=5V) as shown in Figure 35 and Vc2= 2.9V, Vc3=2.7V (Vdd=VddBias=5.5V) unless otherwise stated. 40 40 30 85 °C 25 °C -40 °C S21 S21,S11,S22/dB 10 S22 0 -10 S11 -30 0.3 0.5 0.7 0.9 1.1 1.3 Frequency/GHz 1.5 1.7 1.9 -40 0.1 2.1 ACLR1_-40 °C PAE_-40 °C -35 0.3 0.5 0.7 0.9 1.1 1.3 Frequency/GHz 1.5 1.7 1.9 2.1 ACLR1_85 °C PAE_85 °C ACLR1_25 °C PAE_25 °C 24 ACLR1_-40 °C PAE_-40 °C 20 -40 -45 16 -45 16 -50 12 -50 12 -55 8 -55 8 -60 4 -60 4 0 -65 19 -65 19 20 21 22 23 24 25 Pout/dBm 26 27 28 29 30 Figure 8. Over-temperature ACLR1, PAE vs Pout @ 851MHz Vdd=VddBias=5.0V operating voltage -35 ACLR1_85 °C PAE_85 °C ACLR1_25 °C PAE_25 °C ACLR1/dBc ACLR1/dBc -40 ACLR1_25 °C PAE_25 °C S11 Figure 7. Small-signal performance Over-temperature Vdd=VddBias=5.5V operating voltage 24 ACLR1_85 °C PAE_85 °C S22 -10 -30 -35 20 21 22 23 24 25 Pout/dBm 26 27 20 28 29 0 30 Figure 9. Over-temperature ACLR1, PAE vs Pout @ 859MHz Vdd=VddBias=5V operating voltage 24 ACLR1_-40 °C PAE_-40 °C -35 ACLR1_85 °C PAE_85 °C ACLR1_25 °C PAE_25 °C 24 ACLR1_-40 °C PAE_-40 °C 20 -40 -45 16 -45 16 -50 12 -50 12 -55 8 -55 8 -60 4 -60 4 -40 ACLR1/dBc 0 -20 Figure 6. Small-signal performance Over-temperature Vdd=VddBias=5.0V operating voltage -65 19 20 21 22 23 24 25 Pout/dBm 26 27 28 Figure 10. Over-temperature ACLR1, PAE vs Pout @ 869MHz Vdd=VddBias=5.0V operating voltage 4 10 -20 -40 0.1 85 °C 25 °C -40 °C S21 20 29 0 30 ACLR1/dBc S21,S11,S22/dB 20 30 -65 19 20 21 22 23 24 25 Pout/dBm 26 27 20 28 Figure 11. Over-temperature ACLR1, PAE vs Pout @ 869MHz Vdd=VddBias=5.5V operating voltage 29 0 30 MGA-43428 typical over-temperature performance at Vc2= Vc3=3V (Vdd=VddBias=5V) as shown in Figure 35 and Vc2= 2.9V, Vc3=2.7V (Vdd=VddBias=5.5V) unless otherwise stated. -35 ACLR1_-40 °C PAE_-40 °C ACLR1_85 °C PAE_85 °C ACLR1_25 °C PAE_25 °C 16 -45 16 -50 12 -50 12 -55 8 -55 8 -60 4 -60 4 20 21 22 23 24 25 26 27 28 ACLR1/dBc -45 -65 19 0 30 29 20 21 22 23 Pout/dBm 25 26 27 28 29 0 30 Figure 13. Over-temperature ACLR1, PAE vs Pout @ 880MHz Vdd=VddBias=5.5V operating voltage 24 -35 20 -40 -45 16 -45 16 -50 12 -50 12 -55 8 -55 8 -60 4 -60 4 ACLR1_85 °C PAE_85 °C -40 -65 19 20 21 ACLR1_25 °C PAE_25 °C 22 23 ACLR1_-40 °C PAE_-40 °C 24 25 Pout/dBm 26 27 28 29 ACLR1/dBc 24 -35 ACLR1/dBc 24 Pout/dBm Figure 12. Over-temperature ACLR1, PAE vs Pout @ 880MHz Vdd=VddBias=5.0V operating voltage 0 30 Figure 14. Over-temperature ACLR1, PAE vs Pout @ 894MHz Vdd=VddBias=5.0V operating voltage 20 21 ACLR1_25 °C PAE_25 °C 22 23 ACLR1_-40 °C PAE_-40 °C 24 25 26 Pout/dBm 20 27 28 29 0 30 Figure 15. Over-temperature ACLR1, PAE vs Pout @ 894MHz Vdd=VddBias=5.5V operating voltage 1200 Idd_Total_85 °C Idd_Total_25 °C Idd_Total_-40 °C 1100 1000 1000 Idd total/mA 800 700 900 800 700 600 600 500 500 400 400 19 20 21 22 Idd_Total_85 °C Idd_Total_25 °C Idd_Total_-40 °C 1100 900 300 ACLR1_85 °C PAE_85 °C -65 19 1200 Idd total/mA 20 -40 -65 19 23 24 25 Pout/dBm 26 27 Figure 16. Over-temperature Idd_Total vs Pout @ 880MHz Vdd=VddBias=5.0V operating voltage 5 ACLR1_-40 °C PAE_-40 °C 20 -40 ACLR1/dBc ACLR1_25 °C PAE_25 °C 24 -35 24 ACLR1_85 °C PAE_85 °C 28 29 30 300 19 20 21 22 23 24 25 26 27 Pout/dBm Figure 17. Over-temperature Idd_Total vs Pout @ 880MHz Vdd=VddBias=5.5V operating voltage 28 29 30 4.4 4.0 3.6 3.2 2.8 2.4 2.0 1.6 1.2 0.8 0.4 0.0 Vdet_85 °C Vdet_25 °C Vdet_-40 °C Vdet/V Vdet/V MGA-43428 typical over-temperature performance at Vc2= Vc3=3V (Vdd=VddBias=5V) as shown in Figure 35 and Vc2= 2.9V, Vc3=2.7V (Vdd=VddBias=5.5V) unless otherwise stated. 10 12 14 16 18 20 22 24 Pout/dBm 26 28 30 32 Figure 18. Over-temperature Vdet vs Pout @ 880MHz Vdd=VddBias=5.0V operating voltage ACLR1_25 °C ACLR2_25 °C ACLR1_-40 °C ACLR2_-40 °C 12 14 16 ACLR1_85 °C ACLR2_85 °C -40 -45 18 20 22 Pout/dBm 24 26 28 30 32 ACLR1_25 °C ACLR2_25 °C ACLR1_-40 °C ACLR2_-40 °C ACLR1,ACLR2/dBc ACLR1,ACLR2/dBc -45 -50 -55 -60 -50 -55 -60 -65 -65 -70 -70 19 20 21 22 23 24 25 Pout/dBm 26 27 28 29 -75 30 Figure 20. Over-temperature ACLR1, ACLR2/dBc Pout @ 880MHz Vdd=VddBias=5.0V operating voltage 19 -10 -10 -15 -15 -20 -20 -25 -30 2fo_85 °C 3fo_85 °C 2fo_25 °C 3fo_25 °C 2fo_-40 °C 3fo_-40 °C 20 21 22 23 24 25 Pout/dBm 26 27 28 29 30 Figure 21. Over-temperature ACLR1, ACLR2/dBc vs Pout @ 880MHz Vdd=VddBias=5.5V operating voltage 2fo,3fo/dBm 2fo,3fo/dBm 10 -35 ACLR1_85 °C ACLR2_85 °C -40 -75 Vdet_85 °C Vdet_25 °C Vdet_-40 °C Figure 19. Over-temperature Vdet vs Pout @ 880MHz Vdd=VddBias=5.5V operating voltage -35 -25 -30 2fo_85 °C 3fo_85 °C 2fo_25 °C 3fo_25 °C 2fo_-40 °C 3fo_-40 °C -35 -35 -40 -40 -45 851 855 859 863 867 871 875 879 883 887 891 895 Frequency/MHz -45 851 855 859 863 867 871 875 879 883 887 891 895 Frequency/MHz Figure 22. Over-temperature 2nd, 3rd Harmonics vs Freq at Pout=27.2dBm, Vdd=VddBias=5.0V operating voltage 6 4.4 4.0 3.6 3.2 2.8 2.4 2.0 1.6 1.2 0.8 0.4 0.0 Figure 23. Over-temperature 2nd, 3rd Harmonics vs Freq at Pout=27.2dBm, Vdd=VddBias=5.5V operating voltage MGA-43428 typical over-temperature performance at Vc2= Vc3=3V (Vdd=VddBias=5V) as shown in Figure 35 and Vc2= 2.9V, Vc3=2.7V (Vdd=VddBias=5.5V) unless otherwise stated. 37.0 2600 35.0 2200 35.0 2200 33.0 1800 33.0 1800 31.0 1400 1000 29.0 1000 600 27.0 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm 25.0 31.0 1400 29.0 27.0 25.0 Gain_85 °C Gain_25 °C Gain_-40 °C Idd_total_85 °C Idd_total_25 °C Idd_total_-40 °C Idd_total_85 °C Idd_total_25 °C Idd_total_-40 °C 600 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm Figure 25. Over-temperature Gain, Idd_Total vs Pout @ 859MHz Vdd=VddBias=5.0V voltage 37.0 2600 37.0 2600 35.0 2200 35.0 2200 33.0 1800 33.0 1800 31.0 1400 29.0 27.0 25.0 31.0 1400 1000 29.0 1000 600 27.0 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm 25.0 Gain_85 °C Gain_25 °C Gain_-40 °C Idd_total_85 °C Idd_total_25 °C Idd_total_-40 °C Figure 26. Over-temperature Gain, Idd_Total vs Pout @ 869MHz Vdd=VddBias=5.0V operating voltage Gain/dB Gain_85 °C Gain_25 °C Gain_-40 °C 2600 35.0 2200 33.0 1800 31.0 1400 29.0 1000 25.0 Gain_85 °C Gain_25 °C Gain_-40 °C Idd_total_85 °C Idd_total_25 °C Idd_total_-40 °C 600 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm Figure 28. Over-temperature Gain, Idd_Total vs Pout @ 894MHz Vdd=VddBias=5.0V operating voltage Gain_85 °C Gain_25 °C Gain_-40 °C Idd_total_85 °C Idd_total_25 °C Idd_total_-40 °C 600 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm Figure 27. Over-temperature Gain, Idd_Total vs Pout @ 880MHz Vdd=VddBias=5.0V voltage 37.0 27.0 Gain/dB Gain/dB Figure 24. Over-temperature Gain, Idd_Total vs Pout @ 851MHz Vdd=VddBias=5.0V operating voltage 7 Gain/dB 2600 Gain/dB 37.0 MGA-43428 typical 3GPP W-CDMA Test model #1 Spectrum Emission Mask performance at Vdd=VddBias=5.0V, Vc2=Vc3=3V unless otherwise stated. 25.0 20.5 10.5 0.520 -9.48 -19.5 -39.5 -45.5 -59.5 25.0 20.5 10.5 0.520 -9.48 -19.5 -39.5 -45.5 -59.5 -12.5 -10.0 -7.5 -5.0 -2.5 0 2.5 5.0 Frequency Offset/MHz 7.5 10.0 12.5 Figure 29. SEM at Pout=28dBm @ 851MHz -5.0 -2.5 0 2.5 5.0 Frequency Offset/MHz 7.5 10.0 12.5 -5.0 -2.5 0 2.5 5.0 Frequency Offset/MHz Figure 33. SEM at Pout=28dBm @ 894MHz -12.5 -10.0 -7.5 -5.0 -2.5 0 2.5 5.0 Frequency Offset/MHz Figure 32. SEM at Pout=28dBm @ 880MHz 25.0 20.5 10.5 0.520 -9.48 -19.5 -39.5 -45.5 -59.5 8 -2.5 0 2.5 5.0 Frequency Offset/MHz 7.5 10.0 12.5 7.5 10.0 12.5 25.0 20.5 10.5 0.520 -9.48 -19.5 -39.5 -45.5 -59.5 Figure 31. SEM at Pout=28dBm @ 869MHz -12.5 -10.0 -7.5 -5.0 Figure 30. SEM at Pout=28dBm @ 859MHz 25.0 20.5 10.5 0.520 -9.48 -19.5 -39.5 -45.5 -59.5 -12.5 -10.0 -7.5 -12.5 -10.0 -7.5 7.5 10.0 12.5 S-Parameter [5] (Vdd=VddBias=5.0V, Vc2=Vc3=3V, TA=25 °C, 50ohm) Freq S11 S11 S21 S21 S12 S12 S22 S22 (GHz) (dB) (ang) (dB) (ang) (dB) (ang) (dB) (ang) 0.1 -0.279 163.713 -28.202 -21.616 -63.031 -63.949 -0.748 174.481 0.2 -0.462 144.704 -1.01 -61.828 -63.509 -121.03 -1.172 171.921 0.3 -0.847 114.595 17.853 -124.749 -79.206 -132.692 -1.461 173.548 0.4 -3.813 40.322 29.673 139.221 -65.466 -51.065 -0.637 170.986 0.5 -6.353 -105.622 31.19 44.592 -63.041 -112.889 -0.818 162.172 0.6 -3.764 -175.42 31.777 5.7 -57.981 -156.352 -0.88 155.194 0.70 -4.76 148.36 33.604 -44.016 -51.025 178.006 -1.968 136.005 0.75 -6.288 129.471 34.716 -70.21 -48.786 161.263 -3.67 120.258 0.76 -6.763 125.483 34.918 -75.948 -48.366 158.687 -4.22 116.371 0.77 -7.339 121.292 35.114 -81.952 -47.791 151.075 -4.906 111.915 0.78 -8.001 117.126 35.286 -88.131 -47.225 147.119 -5.734 107.047 0.79 -8.796 112.954 35.429 -94.496 -46.979 141.353 -6.727 101.727 0.80 -9.741 108.927 35.539 -101.032 -46.63 134.179 -7.933 95.81 0.81 -10.83 105.292 35.614 -107.702 -45.549 129.29 -9.429 89.08 0.82 -12.153 101.863 35.634 -114.496 -45.766 121.44 -11.386 80.772 0.83 -13.737 99.621 35.609 -121.38 -46.181 116.344 -13.877 69.025 0.84 -15.608 98.82 35.54 -128.276 -45.979 109.828 -17.087 49.51 0.85 -17.824 100.403 35.422 -135.133 -45.224 101.98 -20.429 16.245 0.86 -20.478 105.858 35.255 -141.912 -44.529 95.379 -21.19 -35.397 0.87 -23.096 120.412 35.035 -148.549 -45.07 90.014 -17.336 -67.009 0.88 -24.32 144.578 34.78 -155.023 -45.382 86.305 -14.306 -84.631 0.89 -23.832 167.094 34.491 -161.319 -45.459 80.565 -12.037 -95.432 0.90 -22.279 -177.303 34.171 -167.415 -45.402 74.488 -10.302 -102.979 0.91 -20.561 -170.127 33.823 -173.297 -45.396 72.391 -8.924 -109.046 0.92 -19.244 -167.627 33.451 -178.939 -45.905 66.811 -7.864 -113.892 0.93 -18.252 -166.43 33.074 175.672 -45.84 64.594 -6.996 -118.083 0.94 -17.533 -166.226 32.691 170.464 -45.894 59.934 -6.266 -121.89 0.95 -17.021 -166.597 32.299 165.435 -46.183 53.987 -5.651 -125.334 0.96 -16.655 -167.016 31.893 160.607 -46.477 51.213 -5.139 -128.326 0.97 -16.434 -167.132 31.502 155.928 -46.507 42.658 -4.705 -131.01 0.98 -16.369 -167.175 31.106 151.415 -46.475 41.817 -4.333 -133.457 0.99 -16.39 -167.015 30.713 147.009 -46.787 41.403 -4.01 -135.701 1.0 -16.836 -165.927 30.35 142.87 -47.117 39.826 -3.775 -137.292 1.1 -16.787 -123.059 26.778 103.521 -48.588 4.326 -2.322 -150.146 1.2 -9.819 -126.66 19.659 68.37 -53.365 -29.741 -1.188 -154.668 1.3 -7.267 -125.881 18.231 53.823 -53.431 -32.282 -0.737 -163.55 1.4 -4.808 -136.026 14.993 28.337 -54.615 -57.338 -0.553 -168.2 1.5 -3.381 -147.083 11.549 5.48 -56.792 -54.424 -0.422 -171.185 1.6 -2.589 -157.355 8.124 -16.899 -59.051 -79.166 -0.194 -174.217 1.7 -2.235 -166.689 4.221 -40.731 -63.931 -92.696 -0.185 -177.218 9 S-Parameter [5] (Vdd=VddBias=5.0V, Vc2=Vc3=3V, TA=25 °C, 50ohm) Continued Freq S11 S11 S21 S21 S12 S12 S22 S22 (GHz) (dB) (ang) (dB) (ang) (dB) (ang) (dB) (ang) 1.8 -2.282 -174.564 -0.751 -65.616 -69.219 -91.567 -0.208 -179.247 1.9 -2.582 -179.634 -8.178 -88.022 -64.601 92.695 -0.198 179.406 2.0 -2.757 178.106 -21.965 -70.735 -64.369 14.153 -0.119 177.883 2.1 -2.669 176.392 -17.748 6.253 -65.617 79.033 -0.112 176.235 2.2 -2.458 174.164 -14.874 -2.106 -65.682 -47.983 -0.118 174.931 2.3 -2.251 171.2 -14.688 -15.524 -69.286 47.691 -0.11 173.746 2.4 -2.109 167.967 -15.533 -29.596 -67.105 -173.868 -0.077 172.506 2.5 -2.053 164.605 -17.077 -44.476 -69.846 72.07 -0.062 171.142 2.6 -2.104 161.476 -19.799 -62.06 -65.351 -126.523 -0.095 169.817 2.7 -2.276 159.689 -26.062 -80.022 -71.683 -152.203 -0.14 168.728 2.8 -2.162 159.831 -30.924 10.411 -73.062 110.648 -0.129 167.958 2.9 -1.68 157.912 -23.025 -1.993 -65.882 100.057 -0.063 166.791 3.0 -1.397 154.167 -21.821 -18.25 -64.199 36.793 -0.09 165.216 3.5 -1.164 137.153 -17.47 -103.818 -69.85 46.932 -0.1 159.674 4.0 -1.288 122.791 -29.151 73.457 -62.117 92.479 -0.143 153.672 4.5 -1.534 109.313 -38.499 24.405 -70.059 62.88 -0.127 147.428 5.0 -1.814 99.01 -41.898 -11.621 -64.041 23.512 -0.161 140.379 5.5 -1.835 91.189 -46.309 -38.949 -68.856 47.119 -0.166 134.306 6.0 -1.749 81.178 -54.485 -36.192 -66.832 29.174 -0.2 127.319 7.0 -1.435 62.172 -49.891 13.721 -74.107 -28.35 -0.268 113.34 8.0 -1.369 41.12 -43.968 -24.325 -68.592 -20.144 -1.14 94.776 9.0 -2.048 8.852 -28.906 -154.272 -47.076 -160.962 -10.112 109.804 10.0 -3.801 -25.311 -45.49 120.099 -50.085 74.482 -1.003 47.132 11.0 -3.308 -57.449 -43.674 -14.743 -45.763 19.486 -1.497 -3.019 12.0 -2.966 -105.22 -46.11 -100.306 -43.048 -34.07 -2.188 -57.299 13.0 -4.892 -158.802 -45.46 77.676 -55.304 -92.766 -4.392 -93.561 14.0 -10.148 31.119 -39.937 -34.287 -46.152 -37.767 -1.789 -121.928 15.0 -5.004 -132.258 -40.974 -98.027 -39.762 -109.061 -1.151 -162.806 16.0 -2.471 165.237 -45.503 -142.428 -44.893 -161.603 -0.833 171.414 17.0 -1.547 146.582 -41.172 -160.839 -42.663 -162.441 -1.362 145.508 18.0 -1.616 112.011 -44.76 122.642 -44.824 119.407 -4.375 70.222 19.0 -2.206 78.724 -59.163 22.859 -54.654 50.726 -3.611 -38.084 20.0 -2.549 52.466 -50.574 120.932 -48.794 110.88 -3.061 -100.732 10 S-Parameter [5] (Vdd=VddBias=5.5V, Vc2=2.9V, Vc3=2.7V, TA=25 °C, 50ohm) Freq S11 S11 S21 S21 S12 S12 S22 S22 (GHz) (dB) (ang) (dB) (ang) (dB) (ang) (dB) (ang) 0.1 -0.286 163.587 -28.113 -20.473 -59.949 124.392 -0.764 174.406 0.2 -0.465 144.74 -0.954 -60.978 -72.397 143.991 -1.201 171.792 0.3 -0.852 114.587 17.985 -124.557 -70.615 -59.588 -1.506 173.659 0.4 -3.81 40.462 29.736 138.709 -63.075 -5.667 -0.644 171.064 0.5 -6.333 -105.35 31.199 44.086 -58.997 -149.366 -0.842 162.243 0.6 -3.747 -175.157 31.77 5.281 -55.079 -147.417 -0.913 155.328 0.70 -4.752 148.707 33.561 -44.539 -50.92 177.275 -2.04 136.354 0.75 -6.262 130.173 34.639 -70.706 -48.526 155.844 -3.785 121.029 0.76 -6.745 126.145 34.834 -76.43 -47.924 154.719 -4.345 117.267 0.77 -7.297 122.137 35.026 -82.402 -47.162 146.629 -5.042 113.067 0.78 -7.957 118.09 35.19 -88.535 -47.265 144.931 -5.867 108.432 0.79 -8.743 114.122 35.326 -94.847 -46.736 140.178 -6.867 103.394 0.80 -9.659 110.345 35.433 -101.326 -45.772 131.728 -8.099 97.832 0.81 -10.701 106.869 35.505 -107.934 -45.359 124.52 -9.64 91.528 0.82 -12.004 103.81 35.522 -114.66 -46.047 124.202 -11.645 83.853 0.83 -13.518 101.689 35.494 -121.48 -46.159 114.997 -14.301 73.481 0.84 -15.277 101.048 35.425 -128.302 -45.533 107.384 -17.882 55.435 0.85 -17.332 102.713 35.312 -135.082 -44.982 103.656 -21.844 20.215 0.86 -19.743 107.781 35.147 -141.803 -45.587 100.985 -22.734 -41.021 0.87 -21.994 120.516 34.933 -148.379 -45.245 92.519 -18.069 -72.179 0.88 -23.38 140.646 34.684 -154.773 -45.448 84.093 -14.697 -88.553 0.89 -23.249 160.564 34.402 -161.028 -45.609 79.511 -12.303 -98.361 0.90 -21.997 176.014 34.09 -167.105 -45.602 76.916 -10.524 -105.294 0.91 -20.56 -175.193 33.75 -172.934 -45.575 71.343 -9.117 -110.743 0.92 -19.322 -171.735 33.39 -178.576 -45.468 65.167 -8.024 -115.281 0.93 -18.389 -169.954 33.02 176.049 -45.427 62.522 -7.131 -119.253 0.94 -17.692 -169.259 32.643 170.862 -45.449 59.112 -6.387 -122.873 0.95 -17.181 -169.17 32.256 165.842 -45.719 54.312 -5.764 -126.15 0.96 -16.813 -169.225 31.86 160.993 -46.491 49.458 -5.238 -129.005 0.97 -16.614 -169.18 31.473 156.308 -46.529 43.464 -4.801 -131.602 0.98 -16.544 -169.187 31.083 151.795 -46.174 40.697 -4.422 -133.965 0.99 -16.567 -168.844 30.696 147.381 -46.449 38.713 -4.089 -136.141 1.0 -17.035 -167.585 30.336 143.218 -46.977 36.093 -3.842 -137.678 1.1 -17.075 -122.526 26.798 103.645 -48.729 5.626 -2.362 -150.208 1.2 -9.913 -126.184 19.671 68.526 -53.615 -32.039 -1.2 -154.678 1.3 -7.305 -125.412 18.279 53.652 -52.97 -36.668 -0.748 -163.544 1.4 -4.826 -135.822 15.026 27.891 -54.817 -59.095 -0.558 -168.195 1.5 -3.399 -146.974 11.554 4.822 -56.408 -75.543 -0.424 -171.164 1.6 -2.615 -157.241 8.082 -17.645 -61.14 -92.315 -0.193 -174.207 1.7 -2.269 -166.539 4.121 -41.437 -63.405 -145.986 -0.182 -177.204 1.8 -2.308 -174.296 -0.908 -66.026 -66.51 -130.127 -0.205 -179.259 1.9 -2.584 -179.354 -8.352 -87.931 -73.06 173.723 -0.206 179.382 11 S-Parameter [5] (Vdd=VddBias=5.5V, Vc2=2.9V, Vc3=2.7V, TA=25 °C, 50ohm) Continued Freq S11 S11 S21 S21 S12 S12 S22 S22 (GHz) (dB) (ang) (dB) (ang) (dB) (ang) (dB) (ang) 2.0 -2.761 178.271 -22.039 -69.716 -65.774 151.339 -0.121 177.893 2.1 -2.663 176.54 -17.819 6.795 -63.97 -13.319 -0.113 176.222 2.2 -2.464 174.227 -14.889 -1.559 -67.191 104.434 -0.119 174.928 2.3 -2.251 171.314 -14.697 -15.111 -66.77 -106.52 -0.111 173.744 2.4 -2.104 168.054 -15.546 -29.015 -68.601 -19.953 -0.077 172.53 2.5 -2.047 164.65 -17.094 -44.425 -62.938 -9.8 -0.064 171.132 2.6 -2.092 161.602 -19.729 -61.989 -72.969 -143.209 -0.094 169.813 2.7 -2.258 159.742 -26.149 -79.872 -71.475 65.475 -0.135 168.749 2.8 -2.145 159.798 -30.83 10.899 -72.344 120.391 -0.126 167.924 2.9 -1.681 157.858 -22.97 -1.781 -73.269 131.105 -0.059 166.765 3.0 -1.395 154.134 -21.785 -18.675 -62.432 106.999 -0.095 165.205 3.5 -1.159 137.132 -17.429 -104.237 -67.221 44.106 -0.094 159.67 4.0 -1.288 122.79 -29.08 73.168 -62.342 67.886 -0.148 153.651 4.5 -1.527 109.297 -38.443 21.915 -64.339 63.746 -0.128 147.402 5.0 -1.803 98.976 -42.087 -12.946 -68.747 -12.26 -0.162 140.367 5.5 -1.821 91.127 -46.559 -42.386 -64.34 28.7 -0.173 134.291 6.0 -1.744 81.077 -53.972 -39.128 -67.047 9.154 -0.198 127.323 7.0 -1.44 62.029 -50.315 13.331 -64.987 -8.73 -0.271 113.315 8.0 -1.38 41.054 -43.776 -23.713 -68.971 6.022 -1.142 94.756 9.0 -2.061 8.775 -28.893 -155.39 -47.692 -159.637 -10.044 109.905 10.0 -3.817 -25.346 -46.107 116.46 -51.239 74.057 -1.006 47.044 11.0 -3.305 -57.386 -43.697 -11.253 -45.56 19.399 -1.499 -3.149 12.0 -2.955 -105.162 -45.718 -108.798 -42.729 -35.532 -2.193 -57.433 13.0 -4.867 -158.812 -44.919 75.339 -52.813 -85.386 -4.396 -93.647 14.0 -10.184 30.467 -39.941 -33.914 -46.323 -32.018 -1.793 -122.102 15.0 -5.008 -132.666 -41.079 -100.137 -39.888 -107.586 -1.155 -162.923 16.0 -2.467 165.054 -45.916 -140.817 -45.06 -165.069 -0.838 171.323 17.0 -1.544 146.276 -41.593 -160.555 -42.588 -158.639 -1.378 145.37 18.0 -1.619 111.824 -44.741 119.814 -45.26 119.527 -4.408 69.888 19.0 -2.211 78.503 -58.683 56.644 -54.262 31.438 -3.612 -38.577 20.0 -2.547 52.28 -49.019 110.908 -50.645 116.823 -3.059 -101.004 Notes: 5. S-parameter is measured with deembedded reference plane at DUT RFin and RFout pins. Vdd2 RFoutput reference plane RFin Vdd3 2nd Stage 3rd Stage Biasing Circuit Vc2 Vc3 VddBias Vdet Figure 34. RFinput and RFoutput Reference Plane 12 RFout RFoutput reference plane Demonstration Board Top View (Vdd=VddBias=5.0V, Vc2= Vc3=3V; Vdd=VddBias=5.5V operating voltage, Vc2=2.9V, Vc3=2.7V) GND C10 R1 C9 C13 C16 Pin 1 C15 RFOUTC2 C14 abcdefg R5 gfedcba R4 VDET R3 VBIAS VC2 VC1 R2 VC3 FA05 C24 C25 C28 C29 C30 C31 C27 C26 C18 C20 C22 C19 C21 C23 JUNE'11 Supplier Size 56pF ± 5% Murata 0402 C11, C31 0.1uF ± 10% Murata 0402 C3, C4,C5, C6, C12,C14, C18, C19,C21,C23,C27 Not Used Murata 0402 C10 2.2uF ± 10% Murata 0805 C26 22nF ± 10% Kyocera 0402 R1 0Ω KOA 0805 R3, R4, R5 0Ω KOA 0402 C24 3.9pF ± 0.025 Murata 0402 C25 22pF ± 5% Murata 0402 C28 82pF JA01 Murata 0402 C8, C29 2200pF JA01 Murata 0402 C7, C13, C30 0.047uF ± 5% Murata 0402 C9 12pF ± 5% Murata 0402 Note: For performance optimization control voltage for invidual stages can be adjusted by varying R2, R3 and R4 resistor value. VddBias Vc2=3V +5V Vdet Vc3=3V (Output) Vdd3 +5V VDD3 VDD2 VDD2S VDD1 Pins pointing out of the page (unit is on top) VDD1S Vdd2 +5V C10 C8 C6 C5 C4 C3 C1 RFIN R1 C9 C13 C16 C14 Pin 1 C15 12 11 10 9 8 7 gfedcba abcdefg R5 C24 C25 C18 C20 C22 C28 C19 C21 C23 C29 C30 C31 R4 VBIAS VC2 VC1 R3 VC3 FA05 R2 Vc2=3V Figure 35. Demonstration board application circuit for MGA-43428 module 13 RFOUTC2 C27 C26 13 14 15 16 17 C11 C12 C7 1 2 3 4 5 6 22 21 20 19 18 Application board pin header assignments GND RFIN C8 Value C1, C2, C20, C22 VDD3S C6 C5 C4 C3 C1 C11 C12 C7 Component VDET VDD3 VDD2S VDD2 VDD1S VDD1 VDD3S Vdd3 +5V Vdd2 +5V JUNE'11 VddBias +5V Vdet (Output) Vc3=3V Pin 1 : Vdd3 (Sense) Pin 2 : Vdd3 (Force) Pin 3 : Vdd2 (Sense) Pin 4 : Vdd2 (Force) Pin 5 : Vdd1 (Sense) – not used Pin 6 : Vdd1 (Force) – not used Pin 13 : Vc1 – not used Pin 14 : Vc2 Pin 15 : Vc3 Pin 16 : VddBias Pin 17 : Vdet Other pins are grounded Application Schematic Vdd2 C32 Vdd3 Idq2 C10 Idq3 C9 C11 C8 C13 1 RFin C1 RFout Top View C2 C20 Vc2 C24 I_VddBias C25 C22 C28 C29 C30 Vc3 C26 Vdet C31 VddBias Figure 36. Application schematic in demonstration board Notes 1. All capacitors on supply lines are bypass capacitors 2. C1 / C2 are RF coupling capacitors. 3. For Vdd=VddBias=5V, Idq2 = 100 mA, Idq3 = 250 mA, I_VddBias = 14 mA. Idq 2/3 are adjusted by voltages to CMOS-compatible control pins Vc 2/3 respectively. These typical bias currents were obtained with Vc 2/3 voltages in Fig 2 below. Adjustment of these currents enable optimum bias conditions to be achieved for best linearity and efficiency for a given modulation type. 4. For Vdd=VddBias=5.5V, Vc2 = 2.9V and Vc3 = 2.7V with typical Idq2 = 100 mA, Idq3 = 245 mA, I_VddBias = 14 mA 14 MGA-43428 typical Ic2, Ic3 Vs Vc performance unless otherwise stated 135 Ic3 125 105 105 95 95 2.2 Ic3 115 115 85 Ic2 Ic/µA Ic/µA 125 135 Ic2 2.4 2.6 2.8 Vc/V 3.0 3.2 3.4 85 3.6 Figure 37. Ic Versus Vc at Vdd=VddBias=5.0V 2.2 2.4 2.6 2.8 3.0 Vc/V 3.2 3.4 3.6 Figure 38. Ic Versus Vc at Vdd=VddBias=5.5V 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 0.25 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 15 1.82 0.68 0.60 0.40 0.82 4.77 MCOB (5.0 x 5.0 x 0.9) mm 28-Lead Package Dimensions AVAGO 43428 YYWW XXXX 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-43428-BLKG 100 Antistatic Bag MGA-43428-TR1G 1000 7” Reel 16 Bottom View Device Orientation REEL USER FEED DIRECTION CARRIER TAPE USER FEED DIRECTION Tape Dimensions 17 COVER TAPE AVAGO 43428 YYWW XXXX AVAGO 43428 YYWW XXXX TOP VIEW AVAGO 43428 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 Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2015 Avago Technologies. All rights reserved. AV02-3796EN - November 12, 2015