FP48005078 78W, 48V GaN HEMT D Description The FP48005078 is a 78W gallium nitride (GaN) High Electron Mobility Transistor (HEMT). This GaN HEMT is a wideband transistor optimized for 3.5GHz operation in a user-friendly device for high bandwidth applications. Gallium nitride (GaN) HEMT is a device optimized for 5G. GaN HEMT resistance is only 1/10 that of silicon transistors, making it capable of switching frequencies faster for greater energy efficiency. . Features Applications * U/VHF Amplifiers * Up to 8 GHz Operation * Broadband Amplifiers * 14.0 dB Typical Small Signal Gain @ 3.5 GHz * Base Station Communications * 78 W Typical Psat @3.5GHz * Drone, UAV * 48V Operation * WiMAX, LTE, WCDMA, GSM * High Breakdown Voltage * WPT, V2X * High Efficiency * Radar application * Reliability Monitoring Supporting Packaging Information * Bare die are shipped in Wafer-level with Expander Ring or Gel-Pak(R) containers. * Possible UV Curing for Wafer-level with dicing saw All Rights Reserved, Copright(c) FERARF Ltd. www.ferarf.com 1 Disclaimer: Subject to change without notice Rev.2.0 Jan./2018 2018.05.24-11:49 Absolute Maximum Ratings (not simultaneous) at 25C Parameter Parameter Typical Value Units Conditions Threshold voltage @ Id=1mA/mm, Vd=10V Vto -3.4 V 25C Breakdown voltage @ Id=1mA/mm VDG 160 V 25C Drain-source current, Id @ Vd=10V, Vg=0 Idss 800 mA/mm 25C Operating Junction Temperature TJ 225 C Storage Temperature TSTG -65, +150 C Thermal Resistance, Junction to Case (packaged) RJC C/W Thermal Resistance, Junction to Case (die only) RJC C/W Mounting Temperature (30 seconds) TS 320 C 30 seconds Electrical Characteristics ((Frequency = 3.5 GHz unless otherwise stated; TC = 25C) Parameter Parameter Typical Value Units Conditions RC 0.3 Ohm-mm 25C Idmax 1000 mA/mm 25C GM_PEAK 290 mS/mm 25C Idmax 1000 mA/mm 25C Small Signal Gain GSS >12 dB VDD=48V, IDQ=600mA Saturated Power Output PSAT 104 W VDD=48V, IDQ=600mA >60 % VDD=48V, IDQ=600mA Intermodulation Distortion IM3 <-30 dBc VDD=48V, IDQ=600mA Output Mismatch Stress VSWR 10:1 DC Characteristics Ohmic contact resistance Maximum Drain-source current, Id @ Vd=10V, Vg=1V (1X125m device) Max. trans-conductance, @ Vd=10V, Vg=-4V ~ -1V (1X125m device) Maximum Drain-source current, Id @ Vd=10V, Vg=1V (1X125m device) RF Characteristics Drain Efficiency All Rights Reserved, Copright(c) FERARF Ltd. Disclaimer: Subject to change without notice Rev.2.0 Jan./2018 2 www.ferarf.com DIE Dimensions (units in microns) 2440 2030 130 80 50 79 930 870 89 112 550 83 Overall die size 2440 x 930 (+0/-50) microns, die thickness 100 (+/- 10) microns. All Gate and Drain pads must be wire bonded for electrical connection. Assembly Notes * Recommended solder is AuSn (80/20) solder. Refer to feraRF's guide for the Eutectic Die Bond Procedure * Vacuum collet is the preferred method of pick-up. * The backside of the die is the Source (ground) contact. * Die back side gold plating is 5 microns thick minimum. * Thermosonic ball or wedge bonding are the preferred connection methods. * Gold wire must be used for connections. All Rights Reserved, Copright(c) FERARF Ltd. Disclaimer: Subject to change without notice Rev.2.0 Jan./2018 3 www.ferarf.com Typical Performance Simulated Maximum Available Gain (MAG) and K Factor of the WP48005078 VDD = 48 V, IDQ = 400 mA Intrinsic die parameters - reference planes at centers of gate and drain bonding pads. No wire bonds assumed. Typical Performance Simulated Minimum Noise Figure of the WP48005078 VDD = 48 V, IDQ = 400 mA All Rights Reserved, Copright(c) FERARF Ltd. Disclaimer: Subject to change without notice Rev.2.0 Jan./2018 4 www.ferarf.com Typical Die S-Parameters (Small Signal, VDS = 48 V, IDQ = 400 mA, magnitude / angle) Frequency Mag S11 Ang S11 Mag S21 Ang S21 Mag S12 Ang S12 Mag S22 Ang S22 100MHz 0.967335 -95.9584 60.94774 129.7926 0.00767 39.95622 0.46431 -146.115 200MHz 0.951458 -131.464 37.06382 110.8704 0.009327 21.19773 0.561629 -158.925 300MHz 0.946721 -146.516 25.8595 102.1368 0.00976 12.62774 0.588806 -164.21 400MHz 0.944949 -154.547 19.70302 96.85303 0.009912 7.507741 0.600488 -166.729 500MHz 0.944215 -159.491 15.85985 93.08136 0.009971 3.899861 0.60742 -168.025 600MHz 0.943944 -162.829 13.24276 90.09871 0.009987 1.081089 0.612635 -168.691 700MHz 0.943921 -165.228 11.34803 87.5796 0.009979 -1.27404 0.617223 -168.998 800MHz 0.944051 -167.035 9.913038 85.35726 0.009958 -3.3323 0.621641 -169.088 900MHz 0.944286 -168.444 8.7882 83.33788 0.009925 -5.18747 0.626098 -169.043 1000MHz 0.944601 -169.574 7.882281 81.46493 0.009885 -6.89607 0.630693 -168.912 1100MHz 0.944978 -170.5 7.136577 79.70245 0.009837 -8.49404 0.635469 -168.727 1200MHz 0.945407 -171.273 6.511637 78.02658 0.009784 -10.0052 0.640444 -168.511 1300MHz 0.94588 -171.929 5.979993 76.42097 0.009725 -11.4459 0.645615 -168.277 1400MHz 0.946391 -172.494 5.521934 74.87403 0.009662 -12.8278 0.650972 -168.038 1500MHz 0.946935 -172.985 5.12296 73.37742 0.009594 -14.1591 0.6565 -167.801 1600MHz 0.947508 -173.418 4.772163 71.92497 0.009523 -15.446 0.66218 -167.571 1700MHz 0.948106 -173.802 4.461186 70.51202 0.009447 -16.6931 0.667991 -167.353 1800MHz 0.948727 -174.146 4.183516 69.13504 0.009369 -17.904 0.673911 -167.149 1900MHz 0.949366 -174.458 3.934003 67.79127 0.009287 -19.0813 0.67992 -166.961 2000MHz 0.950022 -174.741 3.708519 66.47852 0.009203 -20.2274 0.685996 -166.791 2100MHz 0.95069 -175.001 3.503721 65.19506 0.009116 -21.3438 0.69212 -166.639 2200MHz 0.95137 -175.24 3.316866 63.93946 0.009027 -22.432 0.698273 -166.505 2300MHz 0.952059 -175.462 3.145687 62.71053 0.008936 -23.4931 0.704437 -166.39 2400MHz 0.952753 -175.67 2.98829 61.50729 0.008843 -24.5282 0.710596 -166.293 2500MHz 0.953453 -175.864 2.843082 60.32886 0.008749 -25.5381 0.716733 -166.213 2600MHz 0.954155 -176.047 2.708712 59.17451 0.008653 -26.5234 0.722836 -166.151 2700MHz 0.954857 -176.22 2.584026 58.04356 0.008556 -27.4849 0.728893 -166.106 2800MHz 0.955559 -176.385 2.468033 56.9354 0.008458 -28.4232 0.734891 -166.076 2900MHz 0.956259 -176.542 2.359875 55.84948 0.008359 -29.3387 0.74082 -166.061 3000MHz 0.956955 -176.692 2.258808 54.78526 0.008259 -30.232 0.746673 -166.06 3100MHz 0.957647 -176.836 2.16418 53.74226 0.008159 -31.1036 0.752441 -166.072 3200MHz 0.958333 -176.975 2.075419 52.72 0.008058 -31.9538 0.758117 -166.097 3300MHz 0.959011 -177.109 1.99202 51.71803 0.007958 -32.7832 0.763697 -166.133 3400MHz 0.959682 -177.239 1.913536 50.73589 0.007857 -33.5922 0.769175 -166.181 3500MHz 0.960345 -177.365 1.839569 49.77316 0.007755 -34.3811 0.774548 -166.238 3600MHz 0.960999 -177.487 1.769763 48.82941 0.007654 -35.1504 0.779812 -166.304 3700MHz 0.961642 -177.606 1.703799 47.90422 0.007554 -35.9005 0.784965 -166.379 3800MHz 0.962276 -177.723 1.641392 46.99718 0.007453 -36.6317 0.790005 -166.461 3900MHz 0.962899 -177.836 1.582281 46.10789 0.007353 -37.3445 0.794931 -166.551 All Rights Reserved, Copright(c) FERARF Ltd. Disclaimer: Subject to change without notice Rev.2.0 Jan./2018 5 www.ferarf.com Typical Die S-Parameters (Small Signal, VDS = 48 V, IDQ = 400 mA, magnitude / angle) Frequency Mag S11 Ang S11 Mag S21 Ang S21 Mag S12 Ang S12 Mag S22 Ang S22 4000MHz 0.963511 -177.947 1.526234 45.23593 0.007253 -38.0392 0.799742 -166.647 4100MHz 0.804438 -166.749 0.964111 -178.056 1.473037 44.38093 0.007154 -38.7161 4200MHz 0.9647 -178.163 1.422498 43.54247 0.007055 -39.3757 0.80902 -166.856 4300MHz 0.965278 -178.268 1.37444 42.72019 0.006957 -40.0183 0.813488 -166.969 4400MHz 0.965843 -178.371 1.328702 41.91369 0.00686 -40.6442 0.817842 -167.085 4500MHz 0.966397 -178.473 1.285135 41.1226 0.006763 -41.2539 0.822084 -167.206 4600MHz 0.966938 -178.573 1.243605 40.34656 0.006667 -41.8476 0.826215 -167.33 4700MHz 0.967468 -178.671 1.203987 39.58519 0.006572 -42.4256 0.830237 -167.457 4800MHz 0.967986 -178.768 1.166164 38.83813 0.006478 -42.9883 0.834151 -167.587 4900MHz 0.968491 -178.864 1.130032 38.10505 0.006384 -43.5361 0.83796 -167.72 5000MHz 0.968986 -178.959 1.09549 37.38557 0.006292 -44.0692 0.841665 -167.854 5100MHz 0.969468 -179.053 1.06245 36.67938 0.0062 -44.5879 0.845268 -167.99 5200MHz 0.969939 -179.145 1.030824 35.98613 0.00611 -45.0925 0.848772 -168.128 5300MHz 0.970399 -179.236 1.000536 35.30551 0.00602 -45.5834 0.852179 -168.267 5400MHz 0.970847 -179.326695 0.971512 34.63717 0.005931 -46.0608 0.855492 -168.407 5500MHz 0.971284 -179.416138 0.943684 33.98083 0.005843 -46.5249 0.858711 -168.549 5600MHz 0.971711 -179.504678 0.916987 33.33616 0.005756 -46.976 0.861841 -168.69 5700MHz 0.972127 -179.592351 0.891364 32.70288 0.00567 -47.4145 0.864883 -168.833 5800MHz 0.972532 -179.679192 0.866757 32.08068 0.005585 -47.8405 0.867839 -168.975 6000MHz 0.972928 -179.765233 0.843116 31.46929 0.005501 -48.2542 0.870712 -169.118 6100MHz 0.973313 -179.850504 0.820392 30.86842 0.005418 -48.656 0.873504 -169.261 6200MHz 0.973688 -179.935034 0.798538 30.27781 0.005336 -49.046 0.876218 -169.404 6300MHz 0.974054 179.981153 0.777513 29.69719 0.005255 -49.4244 0.878855 -169.547 6400MHz 0.974411 179.898032 0.757275 29.1263 0.005175 -49.7915 0.881418 -169.689 6500MHz 0.974758 179.81558 0.737787 28.5649 0.005096 -50.1474 0.883909 -169.831 6600MHz 0.975097 179.733776 0.719013 28.01273 0.005017 -50.4924 0.88633 -169.973 6700MHz 0.975427 179.652599 0.700919 27.46956 0.00494 -50.8265 0.888684 -170.114 6800MHz 0.975748 179.572031 0.683475 26.93516 0.004864 -51.1501 0.890972 -170.255 6900MHz 0.976061 179.492054 0.66665 26.40931 0.004788 -51.4632 0.893196 -170.395 7000MHz 0.976366 179.41265 0.650416 25.89179 0.004714 -51.7659 0.895358 -170.534 All Rights Reserved, Copright(c) FERARF Ltd. Disclaimer: Subject to change without notice Rev.2.0 Jan./2018 6 www.ferarf.com Disclaimer Information furnished by FeraRF Ltd. is believed to be accurate and reliable. However, no responsibility is assumed by FeraRF Ltd. for its use, nor for any infringements of patents or other rights of third parties that may result from its use. The information contained is provided "as it is" and with all defects, and the whole risk associated with such information is entirely with the user. Specifications subject to change without notice. FeraRF Ltd. and registered trademarks are the property of their respective owners. Customers must search and verify the updated information before placing orders for our products. We makes no guarantee or representation regarding the information contained herein the useing of products for any specific purpose. FeraRF Ltd. products are not warranted or authorized for use as key components in conditions, or other applications where a failure would be expected to cause severe personal injury or death. If you have question, please leave detailed message below. We will respond to your inquiry soon after a careful review * Website : http://ferarf.com/contact/ * E-mail : ferax@ferarf.com All Rights Reserved, Copright(c) FERARF Ltd. Disclaimer: Subject to change without notice Rev.2.0 Jan./2018 7 www.ferarf.com