PD54003-E PD54003S-E RF POWER transistor, LDMOST plastic family N-channel enhancement-mode, lateral MOSFETs General features ■ Excellent thermal stability ■ Common source configuration ■ POUT = 3W with 12dB gain @ 500MHz ■ New RF plastic package PowerSO-10RF (formed lead) Description The PD54003 is a common source N-channel, enhancement-mode lateral Field-Effect RF power transistor. It is designed for high gain, broadband commercial and industrial applications. It operates at 7V in common source mode at frequencies of up to 1GHz. The PD54003 features the excellent gain, linearity and reliability of ST’s latest LDMOS technology, the PowerSO-10RF. The superior linearity performance makes it an ideal solution for portable radios. The PowerSO-10RF is the first true Surfacemount Device (SMD) plastic RF power package. It is based on the highly reliable PowerSO-10, the first ST-originated, JEDEC-approved, high-power SMD package. PowerSO-10RF (straight lead) Pin connection Source It has been optimized specifically for RF requirements, and offers excellent RF performance as well as ease of assembly. Surface-mount recommendations are available in Application Note AN1294 (see www.st.com/rf). Drain Gate Order codes Part number Package Packing PD54003-E PowerSO-10RF (formed lead) Tube PD54003S-E PowerSO-10RF (straight lead) Tube PD54003TR-E PowerSO-10RF (formed lead) Tape and reel PD54003STR-E PowerSO-10RF (straight lead) Tape and reel March 2006 Rev 1 1/28 www.st.com 28 Contents PD54003-E, PD54003S-E Contents 1 2 Electrical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.1 Maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.2 Thermal data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2.1 Static . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2.2 Dynamic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 3 Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 4 Typical performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 5 Test circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 6 Circuit layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 7 Common source s-parameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 7.1 PD54003-E (VDS = 7.5V IDS = 50mA) . . . . . . . . . . . . . . . . . . . . . . . . . . 15 7.2 PD54003-E VDS = 7.5V IDS = 500mA . . . . . . . . . . . . . . . . . . . . . . . . . . 16 7.3 PD54003-E VDS = 7.5V IDS = 1A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 7.4 PD54003S-E VDS = 7.5V IDS = 50A . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 7.5 PD54003S-E VDS = 7.5V IDS = 500mA . . . . . . . . . . . . . . . . . . . . . . . . . 19 7.6 PD54003S-E VDS = 7.5V IDS = 1A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 8 Mechanical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 9 Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 2/28 PD54003-E, PD54003S-E Electrical data 1 Electrical data 1.1 Maximum ratings Table 1. Absolute maximum ratings (TCASE = 25°C) Symbol Value Unit V(BR)DSS Drain-source voltage 25 V VGS Gate-source voltage ± 20 V 4 A Power dissipation (@ TC = 70°C) 52.8 W Max. operating junction temperature 165 °C -65 to +150 °C Value Unit 1.8 °C/W ID PDISS TJ TSTG 1.2 Parameter Drain current Storage temperature Thermal data Table 2. Symbol RthJC Thermal data Parameter Junction - case thermal resistance 3/28 Electrical Characteristics 2 PD54003-E, PD54003S-E Electrical Characteristics TCASE = +25 oC 2.1 Static Table 3. Static Symbol 2.2 Test conditions Min. Max. Unit IDSS VGS = 0V VDS = 25V 1 µA IGSS VGS = 20V VDS = 0V 1 µA VGS(Q) VDS = 10V ID = 50mA 5.0 V VDS(ON) VGS = 10V ID = 1A 1.3 V gFS VDS = 10V ID = 3.2A CISS VGS = 0V VDS = 7.5V COSS VGS = 0V CRSS VGS = 0V 2.0 1.7 mho f = 1MHz 59 pF VDS = 7.5V f = 1MHz 43 pF VDS = 7.5V f = 1MHz 4.0 pF Dynamic Table 4. Symbol Dynamic Test conditions Min. Typ. Max. Unit POUT VDD = 7.5V, IDQ = 50mA GPS VDD = 7.5V, IDQ = 50mA, POUT = 3W, f = 500MHz 10 12 dB nD VDD = 7.5V, IDQ = 50mA, POUT = 3W, f = 500MHz 50 55 % f = 500MHz Load VDD = 9.5V, IDQ = 50mA, POUT = 3W, f = 500MHz mismatch All phase angles 4/28 Typ. 3 20:1 W VSWR PD54003-E, PD54003S-E 3 Impedance Impedance Figure 1. Current conventions Table 5. Impedance data PD54003-E PD54003S-E Freq. (MHz) ZIN (Ω) ZDL(Ω) Freq. (MHz) ZIN (Ω) ZDL(Ω) 480 2.245 - j 0.077 3.436 + j 1.013 480 1.400 - j 3.986 2.805 + j 2.724 500 1.553 - j 1.251 2.661 + j 0.139 500 1.209 - j 2.451 3.192 + j 3.147 520 1.993 - j 1.098 2.564 + j 0.656 520 1.534 - j 2.104 2.524 + j 2.369 5/28 Typical performance PD54003-E, PD54003S-E 4 Typical performance Figure 2. Capacitance vs. drain voltage Figure 3. 1000 Drain current vs. gate voltage 4 Id, DRAIN CURRENT(A) C, CAPACITANCE (pF) f = 1 M Hz 100 Ciss C o ss 10 3 2 1 C rss Vds = 10 V 1 0 0 5 10 15 VDD, DRAIN VOLTAGE (V) VGS, GATE-SOURCE VOLTAGE (NORMALIZED) Figure 4. 1.06 1.04 1.02 1 ID = 1.5 A 0.98 ID = 2A ID = 1 A 0.96 Vds= 10 V ID = 0.5 A ID = 0.25 A 0.92 -25 0 25 50 Tc, CASE TEMPERATURE (°C) 6/28 2 3 4 VGS, GATE-SOURCE VOLTAGE (V) Gate-source voltage vs. case temperature 0.94 1 75 100 5 6 PD54003-E, PD54003S-E Typical performance PD54003 Figure 5. Output power vs. input power Figure 6. 5 Power gain vs. output power 16 480 MHz 14 Pg, POWER GAIN (dB) Pout, OUTPUT POWER (W) 480 MHz 4 520 MHz 3 500 MHz 2 Vdd= 7.5 V Idq= 50 mA 1 500 MHz 12 520 MHz 10 Vdd= 7.5 V Idq= 50 mA 8 6 0 0 0.1 0.2 0.3 0 0.4 1 Figure 7. 2 3 4 Pout, OUTPUT POWER (W) Pin, INPUT POWER (W) Drain efficiency vs. output power Figure 8. 80 Return loss vs. output power 0 480 MHz 70 Rtl, RETURN LOSS(dB) Nd, DRAIN EFFICIENCY (%) 520 MHz 60 50 500 MHz 40 30 Vdd= 7.5 V Idq= 50 mA -10 480 MHz -20 -30 Vdd= 7.5 V Idq= 50 mA 520 MHz 500 MHz 20 -40 10 0 1 2 Pout, OUTPUT POWER (W) 3 4 0 1 2 3 4 Pout, OUTPUT POWER (W) 7/28 Typical performance PD54003-E, PD54003S-E PD54003 Figure 9. Output power vs. bias current Figure 10. Drain voltage vs. bias current 3.8 70 3.7 480 MHz 500 MHz Nd, DRAIN EFFICIENCY (%) Pout, OUTPUT POWER (W) 60 3.6 520 MHz 3.5 480 MHz 3.4 3.3 3.2 Pin= 23.3 dBm Vdd= 7.5 V 3.1 500 MHz 50 520 MHz 40 30 Pin= 23.3 dBm Vdd= 7.5 V 20 3 10 2.9 0 100 200 300 400 500 600 700 0 800 100 200 Figure 11. Output power vs. supply voltage 500 600 700 800 70 5 480 MHz 480 MHz Nd, DRAIN EFFICIENCY (%) Pout, OUTPUT POWER (W) 400 Figure 12. Drain efficiency vs. supply voltage 5.5 4.5 500 MHz 4 3.5 520 MHz 3 2.5 Pin= 23.3 dBm Idq= 50 mA 2 60 500 MHz 50 520 MHz 40 Pin= 23.3 dBm Idq= 50 mA 30 20 1.5 5 6 7 8 VDD, SUPPLY VOLTAGE (V) 8/28 300 IDQ, BIAS CURRENT (mA) IDQ, BIAS CURRENT (mA) 9 10 5 6 7 8 VDD, SUPPLY VOLTAGE (V) 9 10 PD54003-E, PD54003S-E Typical performance Figure 13. Output power vs. gate-source voltage Pout, OUTPUT POWER (W) 5 480 MHz 4 3 520 MHz 500 MHz 2 1 Pin= 23.3 dBm Vdd= 7.5 V 0 0 1 2 3 4 VGS, GATE-SOURCE VOLTAGE (V) 9/28 Typical performance PD54003-E, PD54003S-E PD54003S Figure 14. Output power vs. input power Figure 15. Power gain vs. output power 5 16 500 MHz 480 MHz 14 Pg, POWER GAIN (dB) Pout, OUTPUT POWER (W) 480 MHz 4 520 MHz 3 2 1 12 500 MHz 520 MHz 10 8 Vdd= 7.5 V Idq= 50 mA Vdd= 7.5 V Idq= 50 mA 6 0 0 0.1 0.2 0.3 0.4 0 0.5 1 2 3 4 Pout, OUTPUT POWER (W) Pin, INPUT POWER (W) Figure 16. Drain efficiency vs. output power Figure 17. Return loss vs. output power 0 70 520 MHz 60 Rtl, RETURN LOSS (dB) Nd, EFFICIENCY (%) 500 MHz 50 480 MHz 40 30 20 500 MHz 520 MHz -20 480 MHz -30 Vdd= 7.5 V Idq= 50 mA Vdd= 7.5 V Idq= 50 mA 10 -40 0 1 2 Pout, OUTPUT POWER (W) 10/28 -10 3 4 0 1 2 Pout, OUTPUT POWER (W) 3 4 PD54003-E, PD54003S-E Typical performance Figure 18. Output power vs. bias current Figure 19. Drain efficiency vs. bias current 3.5 60 520 MHz 500 MHz 3.3 Nd, DRAIN EFFICIENCY(%) Pout, OUTPUT POWER (W) 3.4 500 MHz 3.2 3.1 3 480 MHz 2.9 2.8 50 520 MHz 480 MHz 40 30 Pin= 22 dBm Vdd= 7.5 V 20 Pin= 22 dBm Vdd= 7.5 V 2.7 2.6 10 0 100 200 300 400 500 IDQ, BIAS CURRENT(mA) 600 700 800 0 100 200 300 400 500 600 700 800 IDQ, BIAS CURRENT (mA) 11/28 Typical performance PD54003-E, PD54003S-E PD54003S Figure 20. Output power vs. supply voltage Figure 21. Drain efficiency vs. supply voltage 70 5 480 MHz 480 MHz Nd, DRAIN EFFICIENCY (%) Pout, OUTPUT POWER (W) 6 520 MHz 500 MHz 4 3 2 Pin= 22 dBm Idq= 50 mA 6 7 8 9 10 VDD, SUPPLY VOLTAGE (V) 4 Pout, OUTPUT POWER (W) 480 MHz 3 500 MHz 520 MHz 2 1 Pin= 22 dBm Vdd= 7.5 V 0 1 2 VGS, GATE-SOURCE VOLTAGE (V) 12/28 50 520 MHz 40 30 5 6 7 8 VDD, SUPPLY VOLTAGE (V) Figure 22. Output power vs. gate-source voltage 0 500 MHz Pin= 22 dBm Idq= 50 mA 1 5 60 3 4 9 10 PD54003-E, PD54003S-E 5 Test circuit Test circuit Figure 23. Test circuit schematic Table 6. Test circuit component part list Component B1,B2 Description SHORT FERRITE BEAD, FAIR RITE PRODUCTS (2743021446) C1,C13 240 pF, 100 mil CHIP CAPACITOR C2,C3,C4,C10,C11,C12 0 TO 20 pF TRIMMER CAPACITOR C5 130 pF, 100 mil CHIP CAPACITOR C6,C17 120 pF, 100 mil CHIP CAPACITOR C7,C14 10 µF, 50 V ELECTROLITIC CAPACITOR C8,C15 1.200 pF, 100 mil CHIP CAPACITOR C9,C16 0.1 F, 100 mil CHIP CAPACITOR L1 N1,N2 55,5 Nh, 5 TURN, COILCRAFT TYPE N FLANGE MOUNT R1 15 Ω, 0805 CHIP RESISTOR R2 1.0 KΩ, 1/8 W RESISTOR R3 15 Ω, 0805 CHIP RESISTOR R4 33 KΩ, 1/8 W RESISTOR Z1 0.175” X 0.080” MICROSTRIP Z2 1.049” X 0.080” MICROSTRIP Z3 0.289” X 0.080” MICROSTRIP 13/28 Test circuit Table 6. PD54003-E, PD54003S-E Test circuit component part list Component Z4 0.026” X 0.080” MICROSTRIP Z5 0.192” X 0.223” MICROSTRIP Z6,Z7 0.260” X 0.223” MICROSTRIP Z8 0.064” X 0.080” MICROSTRIP Z9 0.334” X 0.080” MICROSTRIP Z10 0.985” X 0.080” MICROSTRIP Z11 0.472” X 0.080” MICROSTRIP BOARD 14/28 Description ROGER, ULTRA LAM 2000 THK 0.030”, εr = 2.55 2oz. ED cu 2 SIDES. PD54003-E, PD54003S-E Circuit layout Figure 24. Test fixture component layout Figure 25. Test circuit photomaster 4 inches 6 Circuit layout 6.4 inches 15/28 Common source s-parameter PD54003-E, PD54003S-E 7 Common source s-parameter 7.1 PD54003 (VDS = 7.5V, IDS = 50mA) Table 7. FREQ 16/28 S-parameter IS11I S11∠Φ IS21I S21∠Φ IS12I S12∠Φ IS22I S22∠Φ (MHz) 50 0.729 -127 10.26 94 0.058 5 0.702 -122 100 0.759 -146 4.91 72 0.056 -15 0.706 -141 150 0.807 -154 3.02 59 0.050 -28 0.749 -149 200 0.845 -159 2.06 48 0.044 -38 0.802 -154 250 0.844 -162 1.48 40 0.039 -45 0.839 -185 300 0.901 -165 1.12 33 0.034 -52 0.875 -162 350 0.921 -168 0.86 27 0.030 -57 0.899 -165 400 0.932 -170 0.69 22 0.027 -60 0.915 -168 450 0.944 -172 0.56 18 0.023 -64 0.935 -170 500 0.952 -173 0.47 14 0.019 -66 0.943 -172 550 0.957 -175 0.39 11 0.017 -68 0.951 -173 600 0.962 -176 0.33 8 0.014 -72 0.954 -175 650 0.967 -177 0.29 5 0.012 -70 0.958 -176 700 0.969 -178 0.25 3 0.010 -71 0.958 -178 750 0.970 -180 0.22 1 0.009 -69 0.963 -179 800 0.972 179 0.20 -1 0.008 -71 0.963 179 850 0.972 179 0.18 -2 0.007 -78 0.969 178 900 0.973 178 0.16 -4 0.004 -76 0.972 177 950 0.972 177 0.15 -5 0.002 -46 0.972 176 1000 0.975 176 0.13 -6 0.003 -42 0.973 175 1050 0.975 175 0.12 -7 0.001 14 0.968 174 1100 0.975 174 0.11 -8 0.003 29 0.966 173 1150 0.970 173 0.10 -10 0.003 51 0.967 172 1200 0.973 173 0.10 -10 0.005 65 0.965 171 1250 0.972 172 0.09 -12 0.005 62 0.966 170 1300 0.970 171 0.08 -12 0.007 67 0.963 170 1350 0.970 170 0.08 -12 0.007 67 0.959 169 1400 0.967 170 0.07 -12 0.008 73 0.962 168 1450 0.968 169 0.07 -12 0.010 64 0.953 167 1500 0.965 168 0.06 -15 0.010 76 0.950 166 PD54003-E, PD54003S-E 7.2 Common source s-parameter PD54003 (VDS = 7.5V, IDS = 500mA) Table 8. FREQ S-parameter IS11I S11∠Φ IS21I S21∠Φ IS12I S12∠Φ IS22I S22∠Φ (MHz) 50 0.779 -162 16.39 88 0.026 4 0.772 -160 100 0.810 -168 7.93 79 0.025 -7 0.768 -168 150 0.836 -171 5.18 73 0.024 -13 0.774 -171 200 0.850 -173 3.81 67 0.023 -16 0.784 -172 250 0.861 -174 2.96 60 0.022 -21 0.795 -173 300 0.871 -175 2.39 55 0.020 -24 0.815 -174 350 0.881 -176 1.97 49 0.018 -27 0.813 -174 400 0.890 -176 1.65 45 0.017 -31 0.845 -175 450 0.901 -177 1.40 40 0.016 -30 0.865 -176 500 0.908 -178 1.20 36 0.015 -34 0.876 176 550 0.915 -179 1.05 32 0.013 -32 0.886 -177 600 0.924 -179 0.92 28 0.012 -34 0.894 -178 650 0.928 180 0.81 25 0.010 -33 0.900 -179 700 0.934 179 0.72 22 0.010 -33 0.906 180 750 0.937 178 0.65 19 0.008 -29 0.912 179 800 0.939 177 0.59 17 0.007 -24 0.920 178 850 0.943 177 0.53 14 0.006 -15 0.928 177 900 0.943 176 0.48 12 0.006 -7 0.932 176 950 0.948 175 0.45 10 0.005 9 0.934 175 1000 0.950 175 0.41 7 0.005 11 0.938 174 1050 0.952 174 0.38 5 0.006 28 0.934 173 1100 0.955 173 0.35 3 0.006 33 0.937 172 1150 0.954 172 0.32 1 0.007 41 0.938 172 1200 0.954 172 0.30 0 0.007 40 0.938 171 1250 0.953 172 0.28 -3 0.008 51 0.940 170 1300 0.952 170 0.26 -4 0.008 53 0.939 169 1350 0.954 170 0.24 -5 0.010 55 0.936 168 1400 0.952 169 0.23 -6 0.011 57 0.943 167 1450 0.952 168 0.22 -7 0.011 59 0.933 167 1500 0.950 168 0.20 -8 0.010 70 0.930 166 17/28 Common source s-parameter 7.3 PD54003 (VDS = 7.5V IDS = 1A) Table 9. FREQ 18/28 PD54003-E, PD54003S-E S-parameter IS 11I S11∠Φ IS21I S21∠Φ IS12I S 12∠Φ IS 22I S 22∠Φ (MHz) 50 0.802 -166 16.70 88 100 0.831 -170 8.10 80 0.021 0 0.793 -164 0.021 -6 0.790 -171 150 0.855 -173 5.32 75 200 0.867 -175 3.94 69 0.020 -8 0.793 -173 0.019 -13 0.801 250 0.876 -175 3.08 -174 64 0.019 -16 0.807 300 0.883 -177 -175 2.52 59 0.018 -19 0.822 -176 350 0.887 400 0.864 -177 2.09 53 0.017 -22 0.834 -176 -178 1.77 49 0.015 -24 0.844 450 -177 0.903 -178 1.52 44 0.014 -23 0.864 -177 500 0.911 -179 1.32 40 0.013 -26 0.871 -178 550 0.916 -180 1.15 36 0.012 -27 0.880 -179 600 0.922 179 1.01 33 0.010 -25 0.886 -179 650 0.926 179 0.90 30 0.010 -20 0.989 180 700 0.931 178 0.81 27 0.009 -23 0.898 179 750 0.934 177 0.73 24 0.008 -15 0.903 178 800 0.938 177 0.66 21 0.007 -16 0.911 177 850 0.941 176 0.60 18 0.007 2 0.919 176 900 0.944 175 0.55 16 0.007 3 0.923 175 950 0.945 175 0.51 13 0.007 14 0.927 175 1000 0.947 174 0.47 11 0.005 29 0.930 174 1050 0.950 173 0.43 9 0.007 24 0.930 173 1100 0.952 173 0.40 6 0.007 41 0.929 172 1150 0.947 172 0.37 4 0.007 35 0.932 171 1200 0.949 171 0.35 2 0.009 47 0.931 171 1250 0.951 171 0.32 0 0.009 52 0.934 170 1300 0.951 170 0.30 -1 0.009 42 0.931 169 1350 0.948 169 0.28 -2 0.011 51 0.931 168 1400 0.948 169 0.26 -4 0.011 53 0.935 167 1450 0.948 168 0.25 -5 0.011 55 0.927 167 1500 0.945 167 0.23 -6 0.012 64 0.927 165 PD54003-E, PD54003S-E 7.4 Common source s-parameter PD54003S (VDS = 7.5V, IDS = 50mA) Table 10. FREQ S-parameter IS12I S12∠Φ IS22I S22∠Φ 93 0.063 4 0.702 -130 4.51 74 0.060 -15 0.706 -147 2.81 62 0.055 -26 0.747 -153 -160 1.93 52 0.051 -36 0.790 -157 0.869 -163 1.41 43 0.046 -43 0.835 -160 300 0.893 -165 1.08 37 0.041 -49 0.861 -162 350 0.913 -167 0.84 31 0.037 -53 0.885 -165 400 0.932 -169 0.68 26 0.033 -58 0.905 -167 450 0.941 -170 0.55 21 0.029 -61 0.918 -169 500 0.949 -172 0.46 18 0.026 -66 0.931 -170 550 0.961 -173 0.39 14 0.024 -68 0.943 -172 600 0.965 -174 0.33 11 0.021 -69 0.947 -173 650 0.969 -176 0.29 9 0.019 -74 0.954 -174 700 0.970 -177 0.25 6 0.017 -73 0.960 -175 750 0.974 -177 0.22 4 0.016 -73 0.962 -177 800 0.977 -178 0.20 2 0.014 -77 0.965 -177 850 0.979 -179 0.18 1 0.012 -79 0.965 -178 900 0.977 -180 0.16 -1 0.011 -82 0.968 -179 950 0.978 180 0.15 -3 0.010 -80 0.971 -180 1000 0.982 179 0.13 -4 0.009 -82 0.973 179 1050 0.983 178 0.12 -6 0.007 -88 0.974 178 1100 0.982 177 0.13 -7 0.005 -88 0.969 178 1150 0.982 177 0.10 -8 0.005 -83 0.975 177 1200 0.982 176 0.10 -9 0.004 -87 0.975 176 1250 0.984 176 0.09 -11 0.000 -90 0.972 176 1300 0.980 175 0.08 -11 0.020 -81 0.970 175 1350 0.978 175 0.08 -12 0.001 -111 0.974 175 1400 0.977 174 0.07 -12 0.001 -61 0.970 174 1450 0.979 174 0.07 -11 0.001 19 0.971 173 1500 0.976 173 0.06 -13 0.002 138 0.970 173 IS11I S11∠Φ IS21I (MHz) 50 0.749 -133 9.42 100 0.760 -151 150 0.799 -157 200 0.837 250 S21∠Φ 19/28 Common source s-parameter 7.5 PD54003S (VDS = 7.5V, IDS = 500mA) Table 11. FREQ (MHz) 50 20/28 PD54003-E, PD54003S-E S-parameter IS11I S11∠Φ IS21I S21∠Φ IS12I S12∠Φ IS22I S22∠Φ 0.805 -165 13.88 88 0.025 1 0.806 -164 100 0.838 -170 6.74 81 0.003 -6 0.80372 -171 150 0.863 -172 4.43 76 0.024 -10 0.840 -173 200 0.873 -174 3.27 71 0.024 -15 0.814 -174 250 0.880 -175 2.57 65 0.023 -18 0.827 -175 300 0.884 -176 2.10 60 0.022 -22 0.83481 -175 350 0.891 -176 1.75 56 0.022 -27 0.845 -175 400 0.901 -177 1.49 51 0.020 -28 0.857 -176 450 0.906 -177 1.27 47 0.018 -33 0.863 -176 500 0.914 -178 1.10 43 0.017 -35 0.877 -177 550 0.923 -178 0.97 39 0.017 -37 0.881 -177 600 0.927 -179 0.85 36 0.015 -36 0.892 -177 650 0.931 -179 0.76 33 0.014 -39 0.902 -178 700 0.934 -180 0.68 30 0.013 -38 0.908 -78 750 0.941 180 0.62 27 0.012 -40 0.914 -179 800 0.944 179 0.56 25 0.012 -47 0.918 -180 850 0.948 179 0.51 22 0.010 -47 0.920 180 900 0.949 178 0.46 19 0.009 -42 0.927 179 950 0.951 178 0.43 17 0.008 -46 0.933 178 1000 0.954 177 0.40 15 0.006 -42 0.936 178 1050 0.955 177 0.37 13 0.007 -36 0.937 177 1100 0.959 176 0.34 10 0.006 -38 0.939 177 1150 0.960 176 0.32 9 0.004 -42 0.942 176 1200 0.961 175 0.30 7 0.004 -23 0.943 176 1250 0.965 175 0.28 5 0.004 0 0.942 175 1300 0.960 174 0.26 4 0.0036 2 0.941 175 1350 0.961 174 0.24 2 0.004 20 0.941 174 1400 0.959 173 0.23 1 0.004 30 0.941 173 1450 0.960 173 0.24 1 0.004 40 0.949 173 1500 0.959 172 0.20 0 0.003 50 0.948 172 PD54003-E, PD54003S-E 7.6 Common source s-parameter PD54003S (VDS = 7.5V, IDS = 1A) Table 12. FREQ S-parameter IS 11I S11∠Φ IS21I S21∠Φ IS12I S 12∠Φ IS 22I S 22∠Φ (MHz) 50 0.879 -164 14.04 88 0.021 0 0.828 -168 100 0.879 -172 6.82 82 0.020 -5 0.826 -174 150 0.885 -174 4.50 78 0.020 -9 0.832 -175 200 0.887 -175 3.34 73 0.020 -11 0.831 -176 250 0.890 -176 2.65 68 0.019 -16 0.844 -177 300 0.894 -177 2.18 64 0.019 -18 0.847 -176 350 0.898 -177 1.82 60 0.018 -21 0.857 -177 400 0.907 -178 1.57 55 0.017 -21 0.864 -177 450 0.910 -178 1.35 51 0.016 -25 0.866 -177 500 0.914 -179 1.18 47 0.015 -29 0.877 -178 550 0.922 -179 1.04 44 0.014 -30 0.887 -178 600 0.926 -180 0.93 41 0.014 -30 0.888 -179 650 0.930 180 0.84 38 0.130 -33 0.897 -179 700 0.934 179 0.75 35 0.012 -33 0.905 -180 750 0.938 179 0.68 32 0.011 -34 0.907 180 800 0.940 178 0.62 30 0.010 -33 0.914 179 850 0.946 178 0.57 27 0.010 -30 0.913 179 900 0.944 177 0.52 24 0.009 -27 0.921 178 950 0.946 177 0.48 22 0.008 -28 0.928 177 1000 0.95 176 0.45 19 0.008 -31 0.930 177 1050 0.949 176 0.42 17 0.006 -26 0.933 177 1100 0.953 176 0.39 15 0.006 -19 0.933 176 1150 0.954 175 0.36 13 0.005 -16 0.937 176 1200 0.956 175 0.34 11 0.005 -15 0.938 175 1250 0.957 174 0.32 9 0.004 3 0.934 175 1300 0.955 174 0.30 7 0.003 2 0.934 174 1350 0.955 173 0.28 6 0.005 25 0.937 174 1400 0.955 173 0.26 5 0.005 33 0.935 173 1450 0.957 172 0.25 4 0.005 31 0.943 172 1500 0.954 172 0.23 3 0.004 42 0.943 172 21/28 Mechanical data 8 PD54003-E, PD54003S-E Mechanical data In order to meet environmental requirements, ST offers these devices in ECOPACK® packages. These packages have a Lead-free second level interconnect . The category of second level interconnect is marked on the package and on the inner box label, in compliance with JEDEC Standard JESD97. The maximum ratings related to soldering conditions are also marked on the inner box label. ECOPACK is an ST trademark. ECOPACK specifications are available at: www.st.com 22/28 PD54003-E, PD54003S-E Table 13. Mechanical data PowerSO-10RF Formed lead (Gull Wing) Mechanical data Dim. mm. Min. Typ. A1 0 0.05 A2 3.4 3.5 A3 1.2 1.3 A4 0.15 0.2 b 5.4 c D Min. Typ. Max. 0.1 0. 0.0019 0.0038 3.6 0.134 0.137 0.142 1.4 0.046 0.05 0.054 0.25 0.005 0.007 0.009 5.53 5.65 0.212 0.217 0.221 0.23 0.27 0.32 0.008 0.01 0.012 9.4 9.5 9.6 0.370 0.374 0.377 a Max. 0.2 0.007 D1 7.4 7.5 7.6 0.290 0.295 0.298 E 13.85 14.1 14.35 0.544 0.555 0.565 E1 9.3 9.4 9.5 0.365 0.37 0.375 E2 7.3 7.4 7.5 0.286 0.292 0.294 E3 5.9 6.1 6.3 0.231 0.24 0.247 F 0.5 0.019 G 1.2 0.047 L 0.8 1 R1 T 1.1 0.030 0.039 0.25 R2 Note: Inch 0.01 0.8 2 deg 5 deg 0.042 0.031 8 deg 2 deg 5 deg T1 6 deg 6 deg T2 10 deg 10 deg 8 deg Resin protrusions not included (max value: 0.15 mm per side) Figure 26. Package dimensions Critical dimensions: - Stand-off (A1) - Overall width (L) 23/28 Mechanical data PD54003-E, PD54003S-E Table 14. PowerSO-10RF Straight Lead Mechanical data Dim. mm. Min. Typ. Max. Min. Typ. Max. A1 1.62 1.67 1.72 0.064 0.065 0.068 A2 3.4 3.5 3.6 0.134 0.137 0.142 A3 1.2 1.3 1.4 0.046 0.05 0.054 A4 0.15 0.2 0.25 0.005 0.007 0.009 a 0.2 0.007 b 5.4 5.53 5.65 0.212 0.217 0.221 c 0.23 0.27 0.32 0.008 0.01 0.012 D 9.4 9.5 9.6 0.370 0.374 0.377 D1 7.4 7.5 7.6 0.290 0.295 0.298 E 15.15 15.4 15.65 0.595 0.606 0.615 E1 9.3 9.4 9.5 0.365 0.37 0.375 E2 7.3 7.4 7.5 0.286 0.292 0.294 E3 5.9 6.1 6.3 0.231 0.24 0.247 F 0.5 0.019 G 1.2 0.047 R1 Note: Inch 0.25 0.01 R2 0.8 0.031 T1 6 deg 6 deg T2 10 deg 10 deg Resin protrusions not included (max value: 0.15 mm per side) Figure 27. Package dimensions CRITICAL DIMENSIONS: - Overall width (L) 24/28 PD54003-E, PD54003S-E Mechanical data Figure 28. Tube information 25/28 Mechanical data Figure 29. Reel information 26/28 PD54003-E, PD54003S-E PD54003-E, PD54003S-E 9 Revision history Revision history Table 15. Revision history Date Revision 21-Mar-2006 1 Changes Initial release. 27/28 PD54003-E, PD54003S-E Please Read Carefully: Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notice. All ST products are sold pursuant to ST’s terms and conditions of sale. Purchasers are solely responsible for the choice, selection and use of the ST products and services described herein, and ST assumes no liability whatsoever relating to the choice, selection or use of the ST products and services described herein. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. 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