PF0313 Series MOS FET Power Amplifier Module for VHF Band ADE-208-342A (Z) 2nd. Edition July 1996 Features • • • • Small package: 30 × 10 × 5.9 mm Low operation voltage: 7 W at 7.2 V High efficiency: 55% Typ Low power control current: 0.5 mA Max Ordering Information Type. Name Operating frequency PF0313 135 to 150 MHz PF0314 150 to 175 MHz Pin Arrangement • RF-J 5 1 2 3 4 1: Pin 2: VPC 3: VDD 4: Pout 5: GND (Flange) PF0313 Series Internal Diagram and External Circuit G G GND GND Pin1 Pin Pin2 VPC C1 Z1 Pin FB1 Pin3 VDD C3 C4 FB2 Pin4 Pout C2 VDD VPC Z2 Pout C1 = C2 = 0.01 µF (Ceramic chip capacitor) C3 = C4 = 10 µF (Aluminum Electrolyte Capacitor) FB = Ferrite bead BL01RN1-A62-001 (Manufacture: MURATA) or equivalent Z1 = Z2 = 50 Ω (Microstrip line) Absolute Maximum Ratings (Tc = 25°C) Item Symbole Rating Unit Supply voltage VDD 17 V Supply current I DD 3 A PC voltage VPC 7 V Input power Pin 100 mW Operating case temperature Tc (op) –30 to +100 °C Storage temperature Tstg –40 to +110 °C 2 PF0313 Series Electrical Characteristics (Tc = 25°C) Item Symbol Min Typ Max Unit Test Condition Drain cutoff current I DS — — 100 µA VDD = 17 V, VPC = 0 V, RL = Rg = 50 Ω, Total efficiency ηT 45 55 — % Pin = 50 mW, VDD = 7.2 V, 2nd harmonic distortion 2nd H.D. — –25 –20 dBc Pout = 7 W (at VPC controlled), 3rd harmonic distortion 3rd H.D. — –35 –30 dBc RL = Rg = 50 Ω, Tc = 25°C 4th harmonic distortion 4th H.D. — –40 –30 dBc Input VSWR VSWR (in) — 1.5 3.0 — Output power (1) Pout (1) 7 8 — W Pin = 50 mW, VDD = 7.2 V, VPC = 6 V, RL = Rg = 50 Ω Output power (2) Pout (2) 4 5 — W Pin = 50 mW, VDD = 6 V, VPC = 5.5 V, RL = Rg = 50 Ω Load VSWR tolerance — No degradation — Pin = 50 mW, VDD = 15 V, Pout ≤ 7 W, (at VPC controlled), Output VSWR = 6:1 All phases Stability — No parasitic oscillation — Pin = 50 mW, VDD = 6 to 15 V, Pout ≤ 7 W, (at VPC controlled), Output VSWR = 3:1 All phases Mechanical Characteristics Item Measuring Conditions Spec Torque for screw up the heatsink flange M2.6 Screw Bolts 1.5 to 3.5 kg•cm Warp size of the heatsink flange: S S=0 +0.1/–0 mm S 3 PF0313 Series Characteristics Curve PF0313 VPC, ηT, VSWR (in) vs. Frequency 3.5 6 70 ηT 5 2 1.5 1 60 VPC 4 50 3 Pin = 50 mW, VDD = 7.2 V, Pout = 7 W 40 VSWRin 2 1 130 30 135 140 145 Frequency f (MHz) 4 150 20 155 Efficiency ηT (%) 2.5 PC Voltage VPC (V) V.S.W.R. (in) 3 PF0313 Series 2nd H.D, 3rd H.D vs. Frequency –10 –10 Pin = 50 mW, VDD = 7.2 V, Pout = 7 W –20 –30 –30 2nd H.D –40 –40 3rd H.D –50 3rd H.D (dB) 2nd H.D (dB) –20 –50 –60 130 135 145 140 Frequency f (MHz) 150 –60 155 Pout, ηT, VSWR (in) vs. Frequency 3.5 10 70 Pout 8 2 1.5 1 60 ηT 6 50 4 2 Pin = 50 mW, VDD = 7.2 V, VPC = 6 V 0 130 40 Efficiency ηT (%) 2.5 Output Power Pout (W) V.S.W.R. (in) 3 VSWRin 30 135 140 145 150 20 155 Frequency f (MHz) 5 PF0313 Series Pout, ηT vs. VDD (1) 70 25 f = 135 MHz Pin = 50 mW VPC = 6 V ηT 60 50 15 40 30 10 Efficiency ηT (%) Output Power Pout (W) 20 20 5 Pout 10 0 0 4.8 2.4 7.2 9.6 0 12 Supply Voltage VDD (V) Pout, ηT vs. VDD (2) 25 70 ηT f = 150 MHz Pin = 50 mW VPC = 6 V 60 50 15 40 30 10 20 5 Pout 10 0 0 2.4 4.8 7.2 Supply Voltage VDD (V) 6 9.6 0 12 Efficiency ηT (%) Output Power Pout (W) 20 PF0313 Series Pout, ηT, VSWR (in) vs. VPC (1) 3.5 70 10 f = 135 MHz Pin = 50 mW VDD = 7.2 V 50 6 40 Pout 30 4 Efficiency ηT (%) Output Power Pout (W) V.S.W.R. (in) 2 60 8 3 2.5 ηT 20 2 1.5 10 VSWRin 1 0 0 0 1 2 3 4 5 6 7 PC Voltage VPC (V) Pout, ηT, VSWR (in) vs. VPC (2) 3.5 70 10 f = 150 MHz Pin = 50 mW VDD = 7.2 V 1.5 Pout 50 6 40 30 4 20 2 10 VSWRin 1 Efficiency ηT (%) Output Power Pout (W) V.S.W.R. (in) 2 60 8 3 2.5 ηT 0 0 0 1 2 3 4 5 6 7 PC Voltage VPC (V) 7 PF0313 Series 2nd H.D, 3rd H.D vs. VPC (1) 0 0 –10 –10 –20 –20 2H.D –30 –30 3rd H.D (dB) 2nd H.D (dB) f = 135 MHz Pin = 50 mW VDD = 7.2 V 3H.D –40 –40 –50 –50 0 1 2 3 4 5 6 7 PC Voltage VPC (V) 2nd H.D, 3rd H.D vs. VPC (2) –10 –10 f = 150 MHz Pin = 50 mW VDD = 7.2 V 2nd H.D (dB) –30 2H.D –30 –40 3H.D –40 –50 –50 –60 –60 0 1 2 3 4 5 PC Voltage VPC (V) 8 6 7 3rd H.D (dB) –20 –20 PF0313 Series Pout, ηT vs. Pin (1) 70 14 Output Power Pout (W) 12 ηT 60 10 50 8 40 Pout 6 30 4 20 2 10 0 0 10 20 30 40 50 60 Efficiency ηT (%) f = 135 MHz VDD = 7.2 V VPC = 6 V Tc = 25°C 0 70 Input Power Pin (mW) Pout, ηT vs. Pin (2) 70 14 12 60 10 50 8 40 Pout 6 30 4 20 f = 150 MHz VDD = 7.2 V VPC = 6 V Tc = 25°C 2 0 0 10 20 30 40 50 60 Efficiency ηT (%) Output Power Pout (W) ηT 10 0 70 Input Power Pin (mW) 9 PF0313 Series PF0314 VPC, ηT, VSWR (in) vs. Frequency 3.5 6 70 ηT 5 2 60 VPC 4 50 3 Pin = 50 mW, VDD = 7.2 V, Pout = 7 W 40 VSWRin 2 1.5 1 150 1 30 155 160 165 170 20 175 Frequency f (MHz) 2nd H.D, 3rd H.D vs. Frequency 0 0 –20 –20 –30 –50 150 –30 2nd H.D –40 10 –10 –40 3rd H.D 155 165 160 Frequency f (MHz) 170 –50 175 3rd H.D (dB) 2nd H.D (dB) –10 Pin = 50 mW, VDD = 7.2 V, Pout = 7 W Efficiency ηT (%) 2.5 PC Voltage VPC (V) V.S.W.R. (in) 3 PF0313 Series Pout, ηT, VSWR (in) vs. Frequency 10 8 2 Output Power Pout (W) 2.5 70 Pout 60 ηT 6 50 4 40 VSWRin 2 1.5 0 145 1 30 150 155 160 165 170 175 20 180 Frequency f (MHz) Pout, ηT vs. VDD (1) 70 25 f = 150 MHz Pin = 50 mW VPC = 6 V 60 ηT 20 50 15 40 30 10 Efficiency ηT (%) Output Power Pout (W) V.S.W.R. (in) 3 Pin = 50 mW, VDD = 7.2 V, VPC = 6 V Efficiency ηT (%) 3.5 20 5 Pout 10 0 0 2.4 4.8 7.2 9.6 0 12 Supply Voltage VDD (V) 11 PF0313 Series Pout, ηT vs. VDD (2) 70 25 ηT f = 175 MHz Pin = 50 mW VPC = 6 V 60 50 15 40 30 10 Efficiency ηT (%) Output Power Pout (W) 20 20 5 Pout 10 0 2.4 0 4.8 7.2 0 12 9.6 Supply Voltage VDD (V) Pout, ηT, VSWR (in) vs. VPC (1) 3.5 70 10 f = 175 MHz Pin = 50 mW VDD = 7.2 V 1.5 60 50 6 40 Pout 30 4 VSWRin 20 2 10 1 0 0 0 1 2 3 4 5 PC Voltage VPC (V) 12 6 7 Efficiency ηT (%) 2 Output Power Pout (W) V.S.W.R. (in) 3 2.5 ηT 8 PF0313 Series Pout, ηT, VSWR (in) vs. VPC (2) 3.5 70 10 f = 150 MHz Pin = 50 mW VDD = 7.2 V 60 50 6 40 Pout 30 4 Efficiency ηT (%) 2 Output Power Pout (W) V.S.W.R. (in) 2.5 ηT 8 3 20 2 1.5 10 VSWRin 1 0 0 0 1 2 3 4 5 7 6 PC Voltage VPC (V) 2nd H.D, 3rd H.D vs. VPC (1) –10 –10 f = 175 MHz Pin = 50 mW VDD = 7.2 V 2nd H.D (dB) 2H.D –30 –30 –40 –40 3rd H.D (dB) –20 –20 3H.D –50 –50 –60 –60 0 1 2 3 4 5 6 7 PC Voltage VPC (V) 0 1 2 3 4 5 6 7 PC Voltage VPC (V) 13 PF0313 Series Pout, ηT vs. Pin (1) 14 70 Output Power Pout (W) 12 60 ηT 10 50 8 40 Pout 6 30 4 20 2 10 0 0 10 20 30 40 50 60 Efficiency ηT (%) f = 150 MHz VDD = 7.2 V VPC = 6 V Tc = 25°C 0 70 Input Power Pin (mW) Pout, ηT vs. Pin (2) 70 14 12 60 10 50 8 40 Pout 6 30 4 20 f = 174 MHz VDD = 7.2 V VPC = 6 V Tc = 25°C 2 0 0 10 20 30 40 50 Input Power Pin (mW) 14 60 10 0 70 Efficiency ηT (%) Output Power Pout (W) ηT PF0313 Series Package Dimensions 30±0.5 26.6±0.3 22±0.5 3±0.3 6±0.3 10±0.5 Unit: mm 5 +0.5 0.125 –0.05 3 4 6.1±1 11.2±1 16.3±1 23.9±1 4 Min 2 5.9Max (2.2) 1 (1.5) (2-R1.5) +0.5 0.5–0.15 Hitachi code EIAJ code JEDEC code RF-J — — 15 Cautions 1. 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Ltd. 16 Collyer Quay #20-00 Hitachi Tower Singapore 049318 Tel: 535-2100 Fax: 535-1533 Hitachi Asia Ltd. Taipei Branch Office 3F, Hung Kuo Building. No.167, Tun-Hwa North Road, Taipei (105) Tel: <886> (2) 2718-3666 Fax: <886> (2) 2718-8180 Hitachi Asia (Hong Kong) Ltd. Group III (Electronic Components) 7/F., North Tower, World Finance Centre, Harbour City, Canton Road, Tsim Sha Tsui, Kowloon, Hong Kong Tel: <852> (2) 735 9218 Fax: <852> (2) 730 0281 Telex: 40815 HITEC HX Copyright © Hitachi, Ltd., 1998. All rights reserved. Printed in Japan.