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| PF0030 Series MOS FET Power Amplifier ADE-208-460 (Z) 1st. Edition July 1996 Features * * * * * * High stability: Load VSWR = 20 : 1 Low power control current: 400 A Thin package: 5 mmt Ordering Information Type No PF0030 PF0032 Operating Frequency 824 to 849 MHz 872 to 905 MHz Application AMPS E-TACS Pin Arrangement * RF-B2 5 4 3 2 5 1 1: Pin 2: VAPC 3: VDD 4: Pout 5: GND PF0030 Series Internal Diagram and External Circuit G GND Pin1 Pin Pin2 VAPC Pin3 VDD Pin4 Pout G GND Z1 C1 FB1 C3 FB2 C2 Z2 Pin VAPC VDD Pout C1 = C2 = 0.01 F (Ceramic chip capacitor) C3 = 10 F (Aluminum Electrolyte Capacitor) FB = Ferrite bead BL01RN1-A62-001 (Manufacture: MURATA) or equivalent Z1 = Z2 = 50 (Microstrip line) Absolute Maximum Ratings (Ta = 25C) Item Supply voltage Supply currentA@ APC voltage Input power Operating case temperature Storage temperature Symbol VDD IDD VAPC Pin Tc (op) Tstg Rating 17 3 8 20 -30 to +110 -40 to +110 Unit V A V mW C C PF0030 Series Electrical Characteristics (Ta = 25C) Item Drain cutoff current Total efficiency 2nd harmonic distortion 3rd harmonic distortion Input VSWR Output VSWR Stability Symbol IDS T 2nd H.D. 3rd H.D. VSWR (in) Min -- 35 -- -- -- Typ -- 40 -50 -50 1.5 1.5 Max 500 -- -30 -30 3 -- Unit A % dB dB -- -- -- Pin = 2 mW, VDD = 12.5 V, Pout = 6 W (at APC controlled), Zin = 50 , Output VSWR = 20:1 All phases, t = 20 sec Test Condition VDD = 17 V, VAPC = 0 V Pin = 2 mW, VDD = 12.5 V, Pout = 6 W (at APC controlled) Zin = Zout = 50 VSWR (out) -- -- No parasitic oscillation Test System Diagram S.G Power Meter L.P.F 3dB ATT VAPC VDD Spectrum Analyzer Test Fixture Directional Coupler Directional Coupler Power Meter PF0030 Series Test Fixture Pattern Unit: mm 26.5 3.5 2.88 16 4.5 3 2.88 64 28 4 VAPC VDD 80 3.5 1.5 2.88 4 4 15 100 Grass Epoxy Double sided PCB (t = 1.6 mm, r = 4.8) Mechanical Characteristics Item Torque for screw up the heatsink flange Warp size of the heatsink flange: S Conditions M3 Screw Bolts Spec 4 to 6 kg*cm S=0 +0.3/-0 mm S 16.5 4 2.88 PF0030 Series Note for Use * * * * * * * * * * * * * * * * * Unevenness and distortion at the surface of the heatsink attached module should be less than 0.05 mm. * It should not be existed any dust between module and heatsink. * MODULE should be separated from PCB less than 1.5 mm. * Soldering temperature and soldering time should be less than 230C, 10 sec. (Soldering position spaced from the root point of the lead frame: 2 mm) * Recommendation of thermal joint compounds is TYPE G746. (Manufacturer: Shin-Etsu Chemical, Co., Ltd.) * To protect devices from electro-static damage, soldering iron, measuring-equipment and human body etc. should be grounded. * Torque for screw up the heatsink flange should be 4 to 6 kg * cm with M3 screw bolts. * Don't solder the flange directly. * It should make the lead frame as straight as possible. * The module should be screwed up before lead soldering. * It should not be given mechanical and thermal stress to lead and flange of the module. * When the external parts (Isolator, Duplexer, etc.) of the module are changed, the electrical characteristics should be evaluated enough. * Don't washing the module except lead pins. * To get good stability, ground impedance between the module GND flange and PCB GND pattern should be designed as low as possible. PF0030 Series Characteristics Curve PF0030 Pout, T vs. VDD (1) 20 T 16 Output Power Pout (W) 40 Efficiency T (%) Efficiency T (%) 50 12 30 8 Pout 4 f = 824 MHz Pin = 2 mW VAPC = 4 V 0 4 8 12 16 Supply Voltage VDD (V) 20 10 0 0 20 Pout, T vs. VDD (2) 20 50 16 Output Power Pout (W) T 12 40 30 8 Pout 4 f = 849 MHz Pin = 2 mW VAPC = 4 V 0 4 8 12 16 Supply Voltage VDD (V) 20 10 0 0 20 PF0030 Series PF0030 (cont) VAPC, T, VSWR (in) vs. Frequency 6 10 Pin = 2 mW VDD = 12.5 V Pout = 6 W 5 Apc Voltage VAPC (V) 8 T 50 Efficiency T (%) Efficiency T (%) 60 V.S.W.R. (in) 4 6 40 3 4 VAPC 2 VSWRin 30 2 20 1 0 824 829 834 839 844 10 849 Frequency f (MHz) Pout, T, VSWR (in) vs. Frequency 6 20 Pin = 2 mW VDD = 12.5 V VAPC = 4 V T 12 40 60 5 Output Power Pout (W) 16 50 V.S.W.R. (in) 4 3 8 Pout 4 VSWRin 30 2 20 1 0 824 829 834 839 844 10 849 Frequency f (MHz) PF0030 Series PF0030 (cont) Pout, T vs. Pin (1) 20 T 60 16 Output Power Pout (W) 50 Efficiency T (%) Efficiency T (%) 12 Pout 8 40 30 4 f = 824 MHz 20 VDD = 12.5 V VAPC = 4 V 0 2 4 6 8 10 10 0 Input Power Pin (mW) Pout, T vs. Pin (2) 20 60 16 Output Power Pout (W) T 50 12 Pout 8 40 30 4 f = 849 MHz 20 VDD = 12.5 V VAPC = 4 V 0 2 4 6 8 10 10 0 Input Power Pin (mW) PF0030 Series PF0030 (cont) Pout, T vs. VAPC (1) 20 T 50 16 40 Output Power Pout (W) 12 Pout 8 30 20 4 f = 824 MHz Pin = 2 mW VDD = 12.5 V 0 2 4 6 Apc Voltage VAPC (V) 8 10 0 0 10 Pout, T vs. VAPC (2) 20 T 16 Output Power Pout (W) 40 Efficiency T (%) 50 12 Pout 8 30 20 4 f = 849 MHz Pin = 2 mW VDD = 12.5 V 0 2 4 6 Apc Voltage VAPC (V) 8 10 0 0 10 Efficiency T (%) PF0030 Series PF0030 (cont) T vs. TC (1) 70 f = 824 MHz 60 Efficiency T (%) VDD = 12.5 V Pin = 2 mW Pout = 6 W 50 40 30 20 -40 0 40 80 120 Case Temperature TC (C) T vs. TC (2) 70 f = 849 MHz 60 Efficiency T (%) VDD = 12.5 V Pin = 2 mW Pout = 6 W 50 40 30 20 -40 0 40 80 120 Case Temperature TC (C) PF0030 Series PF0030 (cont) Pout vs. TC (1) f = 824 MHz 20 Output Power Pout (W) VDD = 12.5 V Pin = 2 mW VAPC = 7.0 V 10 0 -40 0 40 80 120 Case Temperature TC (C) Pout vs. TC (2) f = 849 MHz 20 Output Power Pout (W) VDD = 12.5 V Pin = 2 mW VAPC = 7.0 V 10 0 -40 0 40 80 120 Case Temperature TC (C) PF0030 Series PF0032 Pout, T vs. VDD (1) 20 60 16 50 Output Power Pout (W) 12 40 8 Pout 4 f = 872 MHz Pin = 2 mW VAPC = 4 V 0 4 8 12 16 Supply Voltage VDD (V) 30 20 0 10 20 Pout, T vs. VDD (2) 20 60 16 Output Power Pout (W) 50 Efficiency T (%) 12 T 40 8 30 4 Pout f = 905 MHz Pin = 2 mW VAPC = 4 V 20 0 0 4 8 12 16 Supply Voltage VDD (V) 10 20 Efficiency T (%) T PF0030 Series PF0032 (cont) VAPC, T, VSWR (in) vs. Frequency 6 10 Pin = 2 mW VDD = 12.5 V Pout = 6 W 5 Apc Voltage VAPC (V) 8 T 6 40 Efficiency T (%) Efficiency T (%) 50 60 V.S.W.R. (in) 4 3 4 VAPC 2 VSWRin 30 2 20 1 0 872 883 894 10 905 Frequency f (MHz) Pout, T, VSWR (in) vs. Frequency 6 20 Pin = 2 mW VDD = 12.5 V VAPC = 4 V T 12 40 60 5 Output Power Pout (W) 16 50 V.S.W.R. (in) 4 3 8 Pout 4 VSWRin 30 2 20 1 0 872 883 894 10 905 Frequency f (MHz) PF0030 Series PF0032 (cont) Pout, T vs. Pin (1) 20 60 16 Output Power Pout (W) T 50 Efficiency T (%) Efficiency T (%) 12 Pout 8 40 30 4 f = 872 MHz 20 VDD = 12.5 V VAPC = 4 V 0 2 4 6 Input Power Pin (mW) 8 10 10 0 Pout, T vs. Pin (2) 20 60 16 Output Power Pout (W) T 50 12 40 8 Pout 30 4 f = 905 MHz 20 VDD = 12.5 V VAPC = 4 V 0 2 4 6 Input Power Pin (mW) 8 10 10 0 PF0030 Series PF0032 (cont) Pout, T vs. VAPC (1) 20 60 16 50 T Output Power Pout (W) 12 Pout 8 40 30 4 f = 872 MHz Pin = 2 mW VDD = 12.5 V 0 2 4 6 Apc Voltage VAPC (V) 8 20 0 10 10 Pout, T vs. VAPC (2) 20 60 16 Output Power Pout (W) 50 Efficiency T (%) 12 T 8 Pout 4 f = 905 MHz Pin = 2 mW VDD = 12.5 V 0 2 4 6 Apc Voltage VAPC (V) 8 40 30 20 0 10 10 Efficiency T (%) PF0030 Series PF0032 (cont) T vs. TC (1) 70 f = 872 MHz 60 Efficiency T (%) VDD = 12.5 V Pin = 2 mW Pout = 6 W 50 40 30 20 -40 0 40 80 120 Case Temperature TC (C) T vs. TC (2) 70 f = 905 MHz 60 Total Efficiency T (%) VDD = 12.5 V Pin = 2 mW Pout = 6 W 50 40 30 20 -40 0 40 80 120 Case Temperature TC (C) PF0030 Series PF0032 (cont) Pout vs. TC (1) f = 872 MHz 20 Output Power Pout (W) VDD = 12.5 V Pin = 2 mW VAPC = 7.0 V 10 0 -40 0 40 80 120 Case Temperature TC (C) Pout vs. TC (2) f = 905 MHz 20 Output Power Pout (W) VDD = 12.5 V Pin = 2 mW VAPC = 7.0 V 10 0 -40 0 40 80 120 Case Temperature TC (C) PF0030 Series Package Dimensions Unit: mm 12.7 0.5 11.0 0.3 60.5 0.5 57.5 0.5 R1.6 1 2.3 0.2 0.6 5.0 + 0.3 - 2 3 45 49.8 0.5 3.3 9.2 1 8.0 1 Hitachi code EIAJ code JEDEC code RF-B2 -- -- 0.25 22.0 1 13.0 1 51 0.3 0.5 + 0.2 - 6.35 0.5 |
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