MGA-43828 925–960 MHz Linear Power Amplifier Module Data Sheet Description Features The Avago MGA-43828 is a fully matched, highly linear power amplifier (PA) designed for use in the 925-960 MHz band. Based on Avago’s proprietary 0.25 µm GaAs E-pHEMT technology, the device features high linearity, gain and power-added efficiency (PAE) with integrated power detector and shutdown functions. The MGA-43828 is ideal for use as a final stage PA for Small Cell base transceiver station (BTS) applications. • High linearity performance : Max -50 dBc ACLR1[1] at 27 dBm linear output power (biased with 5.0 V supply) • High gain: 33 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 • MSL3 • Lead free/Halogen free/RoHS compliance Component Image (5.0 × 5.0 × 0.9) mm Package Outline Specifications AVAGO Notes: Package marking provides orientation and identification ”43828” = Device part number ”YYWW” = Year and work week ”XXXX” = Assembly lot number 43828 YYWW XXXX TOP VIEW PAE: 14.7% 27 dBm linear Pout @ ACLR1 = -50 dBc[1] 33 dB Gain Detector range: 20 dB 22 Vdd3 23 Vdd3 25 Gnd 24 Vdd3 • Final stage high linearity amplifier for Picocell and Enterprise Femtocell PA targeted for small cell BTS downlink applications. Gnd 1 21 Gnd Gnd 2 20 Gnd NC 3 19 RFout RFin 4 18 RFout NC 17 RFout 5 Notes: 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. Functional Block Diagram Vdd2 16 Gnd Gnd 6 Gnd 13 Vdd3 15 Gnd Vdet 14 Gnd 11 VddBias 12 Vc2 9 Vc3 10 (5.0 x 5.0 x 0.9) mm 7 NC 8 NC • • • • Applications 26 Vdd2 27 Gnd 28 NC Pin Configuration 940 MHz; 5.0 V, Idqtotal =316 mA (typ), W-CDMA Test model #1, 64DPCH downlink signal RFin 2nd Stage 3rd Stage Biasing Circuit Attention: Observe Precautions for handling electrostatic sensitive devices. ESD Machine Model = 60 V ESD Human Body Model = 400 V Refer to Avago Application Note A004R: Electrostatic Discharge Damage and Control. Vc2 Vc3 VddBias Vdet RFout Thermal Resistance [2,3] Absolute Maximum Rating [1] TA=25 °C Symbol Parameter Units Absolute Max. Vdd, VddBias Supply voltages, bias supply voltage V 6.0 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 qjc = 12 °C/W 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 >91 °C derate the device power at 83 mW per °C rise in Board (package belly) temperature. Electrical Specifications TA = 25 °C, Vdd = VddBias = 5.0 V, Vc2=3.5 V, Vc3=2.8 V, Idqtotal = 316 mA, RF performance at 940 MHz, 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 - 316 560 Gain Gain dB 31 33 - OP1dB Output Power at 1dB Gain Compression dBm - 36 - ACLR1 @ Pout=27.0 dBm W-CDMA Test model #1, 64DPCH downlink signal dBc - -50 - PAE Power Added Efficiency % 13 14.7 - |S11| Input Return Loss, 50 Ω source dB - 13.9 - DetR Detector RF dynamic range dB - 20 - 2fo 2fo Harmonics (W-CDMA Test model #1, 64DPCH downlink signal) dBc 2 -35 Product Consistency Distribution Charts [1] LSL LSL 35 34 33 31 32 36 Figure 1. Gain at Pout=27 dBm, LSL= 31 dB, nominal = 33 dB 13 14 15 16 17 Figure 2. PAE at Pout=27 dBm, LSL=13%, nominal = 14.7% USL 200 250 300 350 400 450 500 550 600 Figure 3. Idqtotal, Nominal = 316 mA, USL=560 mA -60 -58 -56 -54 -52 -50 -48 -46 600 650 700 750 800 850 900 Figure 4. Idd_Total at Pout=27 dBm, nominal = 687 mA -44 -42 Figure 5. ACLR1 at Pout=27 dBm, nominal = -50.3 dBc Note: 1. Distribution data sample size is 1500 samples taken from three wafer lots. TA = 25 °C, Vdd=VddBias = 5.0 V, Vc2 = 3.5 V, Vc3 = 2.8 V, RF performance at 940 MHz, unless otherwise stated. Future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 3 Figure 7. Small-signal performance Over-temperature Vdd=VddBias=5.5 V operating voltage 20 -40 -45 16 -45 16 -50 12 -50 12 -55 8 -55 8 -60 4 -60 4 0 -65 -65 ACLR1_85°C PAE_85°C 19 20 21 ACLR1_25°C PAE_25°C 22 23 ACLR1_-40°C PAE_-40°C 24 25 Pout/dBm 26 27 28 Figure 8. Over-temperature ACLR1, PAE vs. Pout @ 927.4 MHz Vdd=VddBias=5.0 V operating voltage 29 30 PAE/% -35 -40 ACLR1/dBc Frequency/GHz 24 -35 4 40 35 85°C S21 30 25°C 25 -40°C 20 15 10 5 S22 0 -5 -10 S11 -15 -20 -25 -30 -35 -40 0.1 0.2 0.3 0.4 0.5 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 24 ACLR1_85°C PAE_85°C 19 20 21 22 ACLR1_25°C PAE_25°C 23 24 20 ACLR1_-40°C PAE_-40°C 25 26 27 28 Pout/dBm Figure 9. Over-temperature ACLR1, PAE vs. Pout @ 927.4 MHz Vdd=VddBias=5.5 V operating voltage 29 30 0 PAE/% Figure 6. Small-signal performance Over-temperature Vdd=VddBias=5.0 V operating voltage S21,S11,S22/dB 40 85°C 35 S21 25°C 30 -40°C 25 20 15 10 5 S22 0 -5 -10 S11 -15 -20 -25 -30 -35 -40 0.1 0.2 0.3 0.4 0.5 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 Frequency/GHz ACLR1/dBc S21,S11,S22/dB MGA-43828 typical over-temperature performance at Vc2=3.5 V, Vc3=2.8 V (Vdd=VddBias=5 V) as shown in Figure 27 and Vc2= 3.6 V, Vc3=2.5 V (Vdd=VddBias=5.5 V), unless otherwise stated. MGA-43828 typical over-temperature performance at Vc2=3.5 V, Vc3=2.8 V (Vdd=VddBias=5 V) as shown in Figure 27 and Vc2= 3.6 V, Vc3=2.5 V (Vdd=VddBias=5.5 V), unless otherwise stated. -35 20 -40 -45 16 -45 16 -50 12 -50 12 -55 8 -55 8 -60 4 -60 4 0 -65 19 20 21 22 23 ACLR1_-40°C PAE_-40°C 24 25 Pout/dBm 26 27 28 29 30 Figure 10. Over-temperature ACLR1, PAE vs. Pout @ 940 MHz Vdd=VddBias=5.0V operating voltage 21 22 23 24 25 Pout/dBm 26 27 28 29 30 0 -35 20 -40 -45 16 -45 16 -50 12 -50 12 -55 8 -55 8 -60 4 -60 4 0 -65 -65 ACLR1_85°C PAE_85°C ACLR1_25°C PAE_25°C ACLR1_-40°C PAE_-40°C PAE/% ACLR1/dBc 20 20 ACLR1_-40°C PAE_-40°C 24 -40 19 20 21 22 23 24 25 Pout/dBm 26 27 28 29 30 24 ACLR1_85°C PAE_85°C 19 1200 1200 1100 1100 Idd_Total_85°C Idd_Total_25°C Idd_Total_-40°C 1000 1000 800 700 600 400 22 23 24 25 Pout/dBm 26 27 28 29 30 0 Idd_Total_85°C Idd_Total_25°C Idd_Total_-40°C 600 500 21 23 700 400 20 22 800 500 300 19 21 20 ACLR1_-40°C PAE_-40°C 900 Idd total/mA 900 20 ACLR1_25°C PAE_25°C Figure 13. Over-temperature ACLR1, PAE vs. Pout @ 957.6 MHz Vdd=VddBias=5.5 V operating voltage Figure 12. Over-temperature ACLR1, PAE vs. Pout @ 957.6 MHz Vdd=VddBias=5.0 V operating voltage Idd total/mA 19 ACLR1_25°C PAE_25°C Figure 11. Over-temperature ACLR1, PAE vs. Pout @ 940 MHz Vdd=VddBias=5.5 V operating voltage -35 24 25 26 27 Pout/dBm Figure 14. Over-temperature Idd_Total vs. Pout @ 940 MHz Vdd=VddBias=5.0 V operating voltage 5 ACLR1_85°C PAE_85°C 28 PAE/% ACLR1_25°C PAE_25°C 24 29 30 300 19 20 21 22 23 24 25 26 27 Pout/dBm Figure 15. Over-temperature Idd_Total vs. Pout @ 940 MHz Vdd=VddBias=5.5 V operating voltage 28 29 30 PAE/% -65 ACLR1_85°C PAE_85°C ACLR1/dBc ACLR1/dBc -40 ACLR1/dBc 24 PAE/% -35 MGA-43828 typical over-temperature performance at Vc2=3.5V, Vc3=2.8V (Vdd=VddBias=5V) as shown in Figure 27 and Vc2= 3.6V, Vc3=2.5V (Vdd=VddBias=5.5V), unless otherwise stated. -35 -35 -40 -40 ACLR1_85°C PAE_85°C ACLR1_-40°C PAE_-40°C -50 -55 -60 -60 -70 -70 21 22 23 24 25 26 27 28 29 -75 30 19 20 21 22 23 24 Pout/dBm Figure 16. Over-temperature ACLR1, ACLR2 Pout @ 940 MHz Vdd=VddBias=5.0 V operating voltage 4.4 4.0 3.6 Vdet_85°C Vdet_25°C Vdet_-40°C -10 27 28 29 30 2fo_25ºC 3fo_25ºC 2fo_-40ºC 3fo_-40ºC -20 2.4 2fo,3fo/dBm Vdet/V 2fo_85ºC 3fo_85 -15 2.0 1.6 1.2 -25 -30 -35 0.8 -40 0.4 -45 924 926 928 930 932 934 936 938 940 942 944 946 948 950 952 954 956 958 960 0.0 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 Pout/dBm Figure 18. Over-temperature Vdet vs. Pout @ 940 MHz Vdd=VddBias=5.0 V operating voltage Frequency/MHz Figure 19. Over-temperature 2nd, 3rd Harmonics vs. Freq at Pout=27 dBm, Vdd=VddBias=5.0 V operating voltage 2600 37.0 2600 35.0 2200 35.0 2200 33.0 1800 33.0 1800 31.0 1400 31.0 1400 29.0 1000 29.0 1000 27.0 600 Gain_85ºC Idd_Total_85ºC Gain_25ºC Idd_Total_25ºC Gain_-40ºC Idd_Total_-40ºC Gain/dB 37.0 Idd_Total /mA Gain/dB 26 Figure 17. Over-temperature ACLR1, ACLR2 vs. Pout @ 940 MHz Vdd=VddBias=5.5 V operating voltage 3.2 2.8 27.0 600 Gain_85ºC Idd_Total_85ºC Gain_25ºC Idd_Total_25ºC Gain_-40ºC Idd_Total_-40ºC 25.0 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 25.0 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm Pout/dBm Figure 20. Over-temperature Gain, Idd_Total vs. Pout @ 927.4 MHz Vdd=VddBias=5.0 V operating voltage 6 25 Pout/dBm Figure 21. Over-temperature Gain, Idd_Total vs. Pout @ 940 MHz Vdd=VddBias=5.0 V voltage Idd_Total /mA 20 ACLR1_-40°C PAE_-40°C -55 -65 19 ACLR1_25°C PAE_25°C -50 -65 -75 ACLR1_85°C PAE_85°C -45 ACLR1, ACLR2 /dBc ACLR1, ACLR2 /dBc -45 ACLR1_25°C PAE_25°C 37.0 2600 35.0 2200 33.0 1800 31.0 1400 29.0 1000 27.0 Idd_Total /mA Gain/dB MGA-43828 typical over-temperature performance at Vc2=3.5V, Vc3=2.8V (Vdd=VddBias=5V) as shown in Figure 27 and Vc2= 3.6V, Vc3=2.5V (Vdd=VddBias=5.5V), unless otherwise stated. 600 Gain_85ºC Idd_Total_85ºC Gain_25ºC Idd_Total_25ºC Gain_-40ºC Idd_Total_-40ºC 25.0 200 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Pout/dBm Figure 22. Over-temperature Gain, Idd_Total vs. Pout @ 957.6 MHz Vdd=VddBias=5.0 V operating voltage MGA-43828 typical 3GPP W-CDMA Test model #1 Spectrum Emission Mask performance at Vdd=VddBias=5.0 V, Vc2=3.5 V, Vc3=2.8 V, unless otherwise stated. -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 23. SEM at Pout=28 dBm @ 927.4 MHz -12.5 -10.0 -7.5 -5.0 -2.5 0 2.5 5.0 Frequency Offset/MHz Figure 25. SEM at Pout=28 dBm @ 957.6 MHz 7 -12.5 -10.0 -7.5 -5.0 -2.5 0 2.5 5.0 Frequency Offset/MHz Figure 24. SEM at Pout=28 dBm @ 940 MHz 7.5 10.0 12.5 7.5 10.0 12.5 S-Parameter [1] (Vdd=VddBias=5.0 V, Vc2=3.5 V, Vc3=2.8 V, TA=25 °C, 50 Ω) 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 0.6 0.70 0.75 0.76 0.77 0.78 0.79 0.80 0.81 0.82 0.83 0.84 0.85 0.86 0.87 0.88 0.89 0.90 0.91 0.92 0.93 0.94 0.95 0.96 0.97 0.98 0.99 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 2.3 2.4 2.5 2.6 2.7 -0.359 -0.881 -1.757 -3.964 -3.995 -3.275 -5.163 -6.846 -7.342 -7.863 -8.465 -9.207 -10.071 -10.963 -12.082 -13.499 -15.307 -17.641 -20.738 -25.297 -30.69 -29.795 -24.733 -21.208 -18.628 -16.984 -15.785 -14.818 -13.979 -13.438 -12.909 -12.586 -12.386 -12.603 -9.625 -8.711 -6.245 -4.696 -3.821 -3.38 -3.417 -3.889 -4.37 -3.991 -3.005 -2.689 -2.54 -2.396 -2.17 -2.069 -157.571 137.362 67.025 -59.742 -163.302 142.059 95.642 73.334 68.349 63.826 59.276 54.497 49.55 44.632 39.151 34.735 30.159 25.929 23.691 27.081 68.189 116.55 149.892 152.212 149.76 145.958 142.698 139.63 135.281 131.11 127.622 125.009 122.608 109.113 102.813 100.583 87.113 68.9 49.575 31.081 13.393 -0.984 -11.093 -17.321 -30.017 -44.99 -58.058 -70.801 -83.78 -96.423 -34.761 0.529 20.673 30.519 30.757 29.167 32.698 33.741 33.967 34.127 34.329 34.519 34.689 34.859 34.963 35.084 35.157 35.191 35.231 35.17 35.097 34.991 34.855 34.707 34.476 34.256 34.018 33.746 33.429 33.145 32.822 32.511 32.208 28.929 21.051 20.254 17.062 13.543 9.822 5.648 0.717 -6.592 -19.911 -29.949 -13.616 -10.868 -11.827 -8.932 -10.65 -12.235 -102.9 -72.729 -156.637 83.853 -4.738 -52.396 -103.112 -131.18 -137.056 -143.311 -149.46 -155.449 -161.611 -168.476 -175.226 177.901 170.998 164.029 156.89 149.618 142.575 135.676 128.747 121.591 114.705 108.269 101.662 95.019 88.849 82.666 76.819 71.017 65.214 11.021 -31.884 -59.035 -95.823 -129.96 -162.801 164.175 129.544 94.167 67.624 -106.864 -132.307 -174.392 154.999 153.353 109.066 86.813 -36.702 -45.521 -48.881 -50.864 -51.199 -51.986 -51.1 -55.921 -49.075 -55.627 -49.175 -46.883 -47.456 -47.256 -48.693 -46.03 -45.43 -46.723 -47.452 -49.674 -45.883 -45.028 -45.904 -44.622 -47.318 -46.64 -44.273 -43.426 -47.383 -48.89 -44.362 -44.602 -48.818 -46.832 -51.572 -51.981 -63.774 -55.54 -51.645 -55.371 -58.633 -57.276 -56.615 -57.184 -57.272 -56.635 -54.139 -56.184 -56.02 -57.74 -102.238 82.428 -65.082 151.083 119.754 32.633 107.186 80.146 56.547 102.524 93.336 76.874 67.861 61.135 51.458 64.591 56.645 43.339 69.799 28.78 13.146 5.629 2.195 5.33 4.122 1.502 -5.232 -15.692 -27.149 -29.658 -24.384 -39.641 -59.526 -100.49 -116.036 -108.943 -93.767 140.092 150.591 133.889 63.838 13.68 -15.052 173.406 -119.431 156.631 -143.436 26.353 112.474 124.982 -0.904 -1.285 -1.757 -0.931 -0.871 -1.332 -1.661 -2.667 -2.92 -3.276 -3.672 -4.105 -4.623 -5.32 -6.041 -6.884 -7.871 -9.093 -10.718 -12.547 -14.706 -17.489 -20.79 -23.116 -20.334 -17.255 -14.996 -13.298 -11.806 -10.578 -9.588 -8.804 -8.131 -4.826 -2.181 -1.542 -1.24 -0.952 -0.766 -0.728 -0.558 -0.527 -0.52 -0.544 -0.469 -0.529 -0.525 -0.688 -0.521 -0.499 164.201 153.007 145.489 135.958 119.03 103.983 80.291 66.154 62.95 59.029 55.503 52.346 49.093 45.102 42.262 38.325 34.847 31.904 28.809 27.814 28.954 37.2 55.762 85.872 115.638 130.482 135.594 135.883 136.273 135.041 133.28 131.261 129.013 109.346 99.966 77.621 63.215 49.655 36.848 24.747 13.194 1.474 -9.914 -20.892 -32.058 -42.577 -53.929 -62.648 -73.899 -84.103 8 2.8 2.9 3.0 3.5 4.0 4.5 5.0 5.5 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 -2.007 -1.898 -1.922 -1.907 -2.2 -2.503 -2.654 -2.679 -2.486 -2.195 -2.387 -4.275 -17.076 -2.864 -2.492 -3.851 -9.548 -10.935 -6.88 -5.916 -3.547 -2.458 -4.331 -108.836 -121.119 -133.57 166.013 107.455 48.389 -10.266 -68.289 -124.478 126.283 15.148 -107.8 -141.433 72.097 -58.091 -172.445 57.765 -161.748 42.484 -126.515 101.728 -0.217 -102.231 -13.701 -15.071 -16.36 -18.36 -22.351 -43.708 -47.204 -49.899 -57.512 -51.591 -43.87 -41.097 -42.288 -58.161 -61.051 -47.829 -45.557 -49.26 -50.838 -46.178 -44.471 -44.168 -49.442 66.954 48.285 30.874 -61.594 120.744 -55.204 -137.021 136.102 -3.34 113.375 -53.461 154.062 -55.872 169.438 14.466 90.467 168.472 166.883 -33.442 160.746 -0.854 -135.248 53.435 -51.969 -53.476 -53.454 -50.776 -50.308 -55.107 -63.527 -55.523 -58.889 -62.855 -55.431 -58.909 -55.416 -54.893 -52.097 -45.973 -54.816 -50.717 -55.751 -46.378 -46.377 -45.382 -50.726 142.564 -74.177 101.956 129.344 108.894 -61.003 16.224 -172.831 168.161 -110.466 -154.545 -24.969 169.511 46.247 -69.384 95.231 -17.289 156.985 83.993 178.252 34.175 -148.213 12.901 -0.451 -0.438 -0.494 -0.585 -0.734 -0.775 -0.929 -0.968 -1.003 -1.049 -1.187 -1.549 -2.353 -2.779 -2.87 -3.375 -5.223 -4.809 -2.25 -2.079 -5.227 -8.059 -6.152 -94.878 -105.505 -115.896 -166.55 142.545 91.568 38.977 -13.883 -68.181 -176.356 74.532 -36.248 -170.483 35.768 -114.526 93.686 -110.742 -73.706 133.687 23.243 -132.033 19.384 -78.343 S-Parameter [1] (Vdd=VddBias=5.5V, Vc2=3.6V, Vc3=2.5V, TA=25 °C, 50 Ω) 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 0.6 0.70 0.75 0.76 0.77 0.78 0.79 0.80 0.81 0.82 0.83 0.84 0.85 0.86 0.87 0.88 0.89 0.90 0.91 0.92 -0.363 -0.921 -1.802 -3.848 -4.059 -3.277 -5.288 -7.071 -7.59 -8.204 -8.839 -9.666 -10.678 -11.702 -13.053 -14.705 -16.762 -19.504 -23.67 -30.802 -32.063 -26.771 -22.087 -19.398 -17.242 -157.363 137.115 66.591 -60.36 -163.859 141.315 94.48 71.736 66.889 61.85 57.262 52.151 46.766 42.002 35.782 30.718 25.727 20.961 17.644 23.733 106.472 157.726 162.697 160.14 154.945 -35.738 0.647 20.898 30.773 31.07 29.427 32.957 33.992 34.209 34.364 34.557 34.742 34.908 35.065 35.13 35.235 35.304 35.329 35.34 35.257 35.179 35.07 34.925 34.756 34.504 -96.678 -72.378 -155.636 84.054 -4.84 -52.97 -104.038 -132.361 -138.324 -144.566 -150.888 -157.021 -163.217 -170.013 -176.881 176.197 169.243 162.281 155.316 147.911 140.91 134.138 127.328 120.188 113.274 -43.49 -44.971 -49.064 -43.433 -48.503 -50.346 -48.118 -47.633 -48.62 -54.992 -52.08 -47.85 -46.178 -48.446 -48.887 -49.315 -46.939 -43.821 -42.202 -45.287 -48.414 -47.826 -45.827 -46.743 -45.944 -71.16 159.783 -104.929 -109.351 97.579 169.627 129.423 100.102 70.332 73.059 77.538 73.709 64.245 58.621 34.262 34.102 42.351 48.061 42.785 21.63 23.704 19.998 15.15 29.694 8.5 -0.955 -1.324 -1.793 -0.951 -0.843 -1.367 -1.706 -2.737 -3.007 -3.37 -3.791 -4.24 -4.761 -5.46 -6.265 -7.101 -8.132 -9.406 -10.855 -12.637 -14.865 -17.307 -19.415 -20.209 -18.655 163.27 153.1 145.593 136.052 119.228 103.837 80.189 66.475 63.172 59.71 55.93 52.696 49.729 46.128 43.319 39.975 36.894 34.825 34.342 33.093 37.204 46.456 63.005 89.273 110.453 9 0.93 0.94 0.95 0.96 0.97 0.98 0.99 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 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.5 4.0 4.5 5.0 5.5 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 -15.92 -14.764 -13.817 -13.281 -12.726 -12.316 -12.066 -11.87 -12.097 -9.189 -8.407 -6.052 -4.585 -3.684 -3.321 -3.386 -3.902 -4.293 -3.968 -3.008 -2.733 -2.542 -2.375 -2.24 -2.15 -2.024 -1.935 -1.967 -1.974 -2.21 -2.474 -2.647 -2.758 -2.645 -2.357 -2.4 -4.992 -18.2 -3.179 -2.498 -4.072 -9.988 -10.358 -6.977 -5.399 -3.22 -2.448 -4.267 150.446 146.101 141.883 137.977 133.391 129.684 126.202 123.088 109.472 102.51 99.238 85.94 67.96 48.898 30.388 12.855 -1.305 -11.53 -18.142 -30.788 -45.473 -58.425 -71.445 -84.452 -96.887 -109.285 -122.07 -134.43 165.035 107.046 48.11 -10.421 -68.222 -125.732 124.578 15.057 -106.44 -133.977 72.763 -56.435 -165.978 57.584 -156.525 42.596 -124.424 103.778 0.839 -102.402 34.297 34.057 33.765 33.446 33.175 32.865 32.552 32.237 28.995 21.083 20.355 17.145 13.551 9.848 5.634 0.614 -6.669 -19.919 -29.76 -13.699 -10.928 -11.76 -8.74 -10.513 -12.044 -13.539 -14.707 -16.164 -18.119 -22.344 -42.17 -48.662 -54.447 -63.373 -52.493 -46.215 -42.045 -42.845 -56.969 -57.532 -49.529 -43.317 -47.425 -49.172 -47.281 -47.01 -42.578 -43.909 106.9 100.46 93.978 87.797 81.564 75.842 70.13 64.363 10.246 -32.332 -59.812 -96.791 -130.911 -164.251 162.691 128.288 93.501 68.345 -111.318 -130.762 -173.67 155.771 154.506 109.311 86.927 67.104 48.13 30.424 -62.624 120.161 -57.868 -139.353 140.834 74.546 98.891 -47.005 155.973 -46.266 -166.779 28 106.178 -179.126 -166.179 7.584 142.1 1.183 -155.4 29.314 -47.772 -49.404 -48.905 -46.582 -45.376 -48.252 -47.161 -44.962 -48.604 -53.627 -51.003 -55.202 -51.134 -61.998 -52.037 -54.707 -47.883 -54.356 -54.998 -64.701 -53.718 -56.856 -55.147 -59.247 -60.781 -61.456 -57.916 -55.016 -54.931 -57.185 -59.388 -63.742 -56.238 -59.303 -54.818 -58.471 -58.601 -49.614 -55.254 -56.671 -49.234 -44.447 -51.511 -52.216 -50.398 -47.386 -44.211 -45.786 Note 1. S-parameter is measured with de-embedded reference plane at DUT RFin and RFout pins. 10 -9.175 -33.987 -43.971 -5.476 -16.291 -27.024 -38.937 -48.601 -107.732 -131.32 -153.031 150.905 124.131 75.099 114.13 -10.831 -18.835 58.042 -177.471 -130.559 110.909 99.023 92.595 52.574 -16.77 102.686 -30.14 -53.787 -123.19 101.398 80.971 13.508 -8.165 157.99 29.866 -89.574 -100.194 -149.66 78.18 -85.326 129.04 -18.046 158.496 67.308 166.878 27.591 -111.995 12.927 -16.512 -14.414 -12.713 -11.562 -10.475 -9.63 -8.83 -8.117 -4.951 -2.191 -1.567 -1.26 -0.988 -0.742 -0.708 -0.598 -0.586 -0.528 -0.552 -0.481 -0.513 -0.475 -0.678 -0.501 -0.517 -0.504 -0.465 -0.54 -0.607 -0.839 -0.83 -0.93 -0.993 -1.145 -2.115 -1.492 -1.513 -2.35 -2.776 -2.762 -3.463 -5.046 -4.717 -2.068 -2.023 -4.854 -8.384 -6.153 123.073 129.044 130.817 131.353 130.899 129.567 127.869 126.084 108.201 99.955 77.698 63.241 50.087 37.112 24.615 13.28 1.717 -9.624 -20.587 -31.598 -42.268 -53.767 -62.995 -74.071 -84.564 -95.311 -105.959 -116.424 -167.743 141.387 91.013 38.913 -13.403 -68.365 -176.377 76.606 -34.954 -165.752 37.529 -112.048 96.178 -107.853 -72.741 137.07 25.404 -129.506 22.683 -78.467 C7 Vdd2 Vdd3 C10 C11 C8 C9 C13 1 RFinput Reference Plane RFin 2nd Stage RFout 3rd Stage RFoutput Reference Plane Biasing Circuit C24 C25 C20 C22 C26 C28 Vc2 Vc3 Vdet C29 Vddbias Figure 26. RFinput and RFoutput Reference Plane Demonstration Board Top View (Vdd=VddBias=5.0 V, Vc2=3.5 V, Vc3=2.8 V) Vdd2 (+5V) Vdd3 (+5V) C32 C24 C25 C28 C29 C30 C31 Component Value Part Number C1, C2, C20, C22 56 pF ± 5% GRM1555C1H056JA01D C11, C29 0.1 µF ± 10% GRM155R71C104KA88D C24 82 pF ± 5% GRM1555C1H820JA01D C8, C25 2200 pF ± 10% GRM155R71H222KA01D C7, C13, C28 0.047 µF ± 10% GRM155R71E473KA88D C9 12 pF ± 5% GRM1555C1H120JA01D C26 22 nF ± 10% CM05X7R223K16AHF C10 2.2 µF ±10% GRM21BR71E225KA73L R1 0Ω RMC1/10 JPTP R3, R4, R5 0Ω RMC1/16S JPTH Note: For performance optimization, control voltage for individual stages can be adjusted by varying R2, R3 and R4 resistor value. Vc2 Vc3 Vdet (Output) VddBias +5V Vdd2 (+5V) Vdd3 (+5V) Application board pin header assignments Pins pointing out of the page (unit is on top) C32 1 2 3 4 5 6 12 11 10 9 8 7 C24 C25 C28 C29 C30 13 14 15 16 17 C31 22 21 20 19 18 Vc2 Figure 27. Demonstration board application circuit for MGA-43828 module 11 Vc3 Vdet (Output) VddBias +5V Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 13 Pin 14 Pin 15 Pin 16 Pin 17 : Vdd3 (Sense) : Vdd3 (Force) : Vdd2 (Sense) : Vdd2 (Force) : Vdd1 (Sense) – not used : Vdd1 (Force) – not used : Vc1 – not used : Vc2 : Vc3 : VddBias : Vdet Other pins are grounded Application Schematic Vdd2 C7 Vdd3 Idq2 C10 Idq3 C11 C8 C13 C9 1 RFin C1 RFout Top View C2 C24 C20 I_Vddbias C25 C22 Vc2 C28 Vc3 C26 Vdet C29 Vddbias Figure 28. 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=5 V, Idq2 = 110 mA, Idq3 = 235 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 Figure 2. Adjustment of these currents enable optimum bias conditions to be achieved for best linearity and efficiency for a given modulation type. MGA-43828 typical Ic2, Ic3 vs. Vc ,unless otherwise stated Ic2 Ic3 125 125 115 115 105 95 85 105 95 2.2 2.4 2.6 2.8 3.0 Vc,V Figure 29. Ic vs. Vc at Vdd=VddBias=5.0 V 12 Ic2 Ic3 135 Ic,uA Ic,uA 135 3.2 3.4 3.6 85 2.2 2.4 2.6 2.8 3.0 Vc,V Figure 30. Ic vs. Vc at Vdd=VddBias=5.5 V 3.2 3.4 3.6 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 × 5.0 × 0.9) mm 28-Lead Package Dimensions AVAGO 43828 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 # Qty Container MGA-43828-BLKG 100 Antistatic Bag MGA-43828-TR1G 1000 7” Reel 14 Bottom View Device Orientation REEL USER FEED DIRECTION CARRIER TAPE USER FEED DIRECTION Tape Dimensions 15 COVER TAPE AVAGO 43828 YYWW XXXX AVAGO 43828 YYWW XXXX TOP VIEW AVAGO 43828 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. AV02-4223EN - November 5, 2015