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| DISCRETE SEMICONDUCTORS DATA SHEET BLF547 UHF push-pull power MOS transistor Product specification October 1992 Philips Semiconductors Product specification UHF push-pull power MOS transistor FEATURES * High power gain * Easy power control * Good thermal stability * Gold metallization ensures excellent reliability * Designed for broadband operation. DESCRIPTION Dual push-pull silicon N-channel enhancement mode vertical D-MOS transistor designed for communications transmitter applications in the UHF frequency range. The transistor is encapsulated in a 4-lead, SOT262A2 balanced flange envelope, with two ceramic caps. The mounting flange provides the common source connection for the transistors. PINNING - SOT262A2 PIN 1 2 3 4 5 DESCRIPTION drain 1 drain 2 gate 1 gate 2 source 5 3 Top view halfpage BLF547 PIN CONFIGURATION 1 2 d2 g2 g1 s d1 MBB157 5 4 MSB008 Fig.1 Simplified outline and symbol. CAUTION The device is supplied in an antistatic package. The gate-source input must be protected against static charge during transport and handling. WARNING Product and environmental safety - toxic materials This product contains beryllium oxide. The product is entirely safe provided that the BeO discs are not damaged. All persons who handle, use or dispose of this product should be aware of its nature and of the necessary safety precautions. After use, dispose of as chemical or special waste according to the regulations applying at the location of the user. It must never be thrown out with the general or domestic waste. QUICK REFERENCE DATA RF performance at Th = 25 C in a push-pull common-source test circuit. MODE OF OPERATION CW, class-B f (MHz) 500 VDS (V) 28 PL (W) 100 GP (dB) > 10 D (%) > 50 October 1992 2 Philips Semiconductors Product specification UHF push-pull power MOS transistor LIMITING VALUES In accordance with the Absolute Maximum System (IEC 134). Per transistor section unless otherwise specified. SYMBOL VDS VGS ID Ptot Tstg Ti PARAMETER drain-source voltage gate-source voltage DC drain current total power dissipation storage temperature junction temperature CONDITIONS - - - up to Tmb = 25 C; total device; - both sections equally loaded -65 - MIN. BLF547 MAX. 65 20 9 225 150 200 UNIT V V A W C C THERMAL RESISTANCE SYMBOL Rth j-mb PARAMETER thermal resistance from junction to mounting base thermal resistance from mounting base to heatsink CONDITIONS Tmb = 25 C; Ptot = 225 W total device; both sections equally loaded total device; both sections equally loaded THERMAL RESISTANCE max. 0.78 K/W Rth mb-h max. 0.15 K/W 102 handbook, halfpage ID (A) MRA996 handbook, halfpage 250 MRB027 Ptot (W) 200 (2) 150 (1) (2) 10 100 (1) 50 1 1 10 VDS (V) 102 0 0 20 40 60 80 100 120 Th (oC) (1) Current in this area may be limited by RDS(on). (2) Tmb = 25 C; Total device; both sections equally loaded. (1) Continuous operation. (2) Short-time operation during mismatch. Total device; both sections equally loaded. Fig.2 DC SOAR. Fig.3 Power/temperature derating curves. October 1992 3 Philips Semiconductors Product specification UHF push-pull power MOS transistor CHARACTERISTICS (per section) Tj = 25 C unless otherwise specified. SYMBOL V(BR)DSS IDSS IGSS VGS(th) gfs RDS(on) IDSX Cis Cos Crs PARAMETER drain-source breakdown voltage drain-source leakage current gate-source leakage current gate-source threshold voltage forward transconductance drain-source on-state resistance on-state drain current input capacitance output capacitance feedback capacitance CONDITIONS VGS = 0; ID = 25 mA VGS = 0; VDS = 28 V VGS = 20 V; VDS = 0 ID = 100 mA; VDS = 10 V ID = 3 A; VDS = 10 V ID = 3 A; VGS = 10 V VGS = 15 V; VDS = 10 V VGS = 0; VDS = 28 V; f = 1 MHz VGS = 0; VDS = 28 V; f = 1 MHz VGS = 0; VDS = 28 V; f = 1 MHz MIN. 65 - - 1 1.5 - 10 - - - BLF547 TYP. MAX. UNIT - - - - 2.1 0.4 13 77 62 18 - 2.5 1 4 - 0.5 - 85 70 21 V mA A V S A pF pF pF handbook, halfpage 4 MRB025 handbook, halfpage 15 MRB024 TC (mV/K) 2 ID (A) 10 0 5 -2 -4 10-2 10-1 1 ID (A) 10 0 0 5 10 15 VGS (V) 20 VDS = 10 V. VDS = 10 V; Tj = 25 C. Fig.4 Temperature coefficient of gate-source voltage as a function of drain current, typical values per section. Fig.5 Drain current as a function of gate-source voltage, typical values per section. October 1992 4 Philips Semiconductors Product specification UHF push-pull power MOS transistor BLF547 handbook, halfpage 0.8 MRB029 handbook, halfpage 300 MRB020 RDS(on) () 0.6 C (pF) 200 0.4 100 0.2 Cis Cis 0 0 40 80 120 Tj (oC) 160 0 0 10 20 VDS (V) 30 ID = 3 A; VGS = 10 V. VGS = 0; f = 1 MHz. Fig.6 Drain-source on-state resistance as a function of junction temperature, typical values per section. Fig.7 Input and output capacitance as functions of drain-source voltage, typical values per section. handbook, halfpage 120 MRB019 Crs (pF) 80 40 0 0 10 20 VDS (V) 30 VGS = 0; f = 1 MHz. Fig.8 Feedback capacitance as a function of drain-source voltage, typical values per section. October 1992 5 Philips Semiconductors Product specification UHF push-pull power MOS transistor APPLICATION INFORMATION FOR CLASS-B OPERATION Th = 25 C; Rth mb-h = 0.15 K/W, unless otherwise specified. RF performance in a common source, push-pull, class-B test circuit. MODE OF OPERATION CW, class-B f (MHz) 500 VDS (V) 28 IDQ (mA) 2 x 100 PL (W) 100 GP (dB) > 10 typ. 12 BLF547 D (%) > 50 typ. 55 Ruggedness in class-B operation The BLF547 is capable of withstanding a load mismatch corresponding to VSWR = 10 through all phases under the following conditions: VDS = 28 V; f = 500 MHz at rated output power. handbook, halfpage 25 MRB021 100 GP (dB) (%) 80 GP handbook, halfpage 160 MRB028 PL (W) 120 20 15 60 80 10 40 40 5 20 0 20 60 100 PL (W) 0 140 0 0 4 8 12 16 20 PIN (W) Class-B operation; VDS = 28 V; IDQ = 2 x 100 mA; f = 500 MHz; ZL = 1.5 + j1.8 (per section). Class-B operation; VDS = 28 V; IDQ = 2 x 100 mA; f = 500 MHz; ZL = 1.5 + j1.8 (per section). Fig.9 Power gain and efficiency as functions of load power, typical values. Fig.10 Load power as a function of input power, typical values. October 1992 6 Philips Semiconductors Product specification UHF push-pull power MOS transistor BLF547 +VD C12 C13 R1 Vbias R2 L10 R7 L11 50 input ,,, ,,, C7 C8 C14 R3 L12 L1 L2 C1 L4 L6 DUT L8 L13 L18 L20 C23 L22 C19 C21 L23 C3 C4 C5 C6 C9 C22 L3 C18 C20 L24 C2 L5 L7 L9 L14 L19 L21 C24 R4 C10 C15 L15 MBC232 50 output C11 L16 Vbias R5 R6 C17 R8 L17 C16 +VD f = 500 MHz. Fig.11 Test circuit for class-B operation. List of components (see class-B test circuit) COMPONENT C1, C2 C3 C4 C5 C6, C21, C22 DESCRIPTION multilayer ceramic chip capacitor (note 1) multilayer ceramic chip capacitor (note 1) film dielectric trimmer multilayer ceramic chip capacitor (note 2) film dielectric trimmer VALUE 15 pF 16 pF 2 to 9 pF 15 pF 2 to 18 pF 390 pF 100 nF 2 x 68 pF in series 7 2222 852 47104 2222 809 09006 2222 809 09005 DIMENSIONS CATALOGUE NO. C7, C10, C14, C15 multilayer ceramic chip capacitor (note 1) C8, C11, C12, C17 multilayer ceramic chip capacitor C9 multilayer ceramic chip capacitor (note 3) October 1992 pagewidth Philips Semiconductors Product specification UHF push-pull power MOS transistor BLF547 COMPONENT C13, C16 C18 C19 C20 C23, C24 L1, L3, L22, L24 L2, L23 L4, L5 L6, L7 L8, L9 L10, L11, L16, L17 L12, L15 DESCRIPTION electrolytic capacitor multilayer ceramic chip capacitor (note 2) multilayer ceramic chip capacitor (note 2) multilayer ceramic chip capacitor (note 2) multilayer ceramic chip capacitor (note 1) stripline (note 4) semi-rigid cable stripline (note 4) stripline (note 4) stripline (note 4) grade 3B Ferroxcube RF choke 1 turn enamelled 1.5 mm copper wire stripline (note 4) stripline (note 4) stripline (note 4) 0.4 W metal film resistor 10 turn potentiometer 0.4 W metal film resistor 1 W metal film resistor VALUE 10 F, 63 V 10 pF 27 pF 8.2 pF 30 pF 34.5 50 22.3 22.3 22.3 DIMENSIONS CATALOGUE NO. 2222 030 28109 length 66.5 mm width 4 mm length 66.5 mm width 3.6 mm length 35 mm width 7 mm length 10 mm width 7 mm length 5.5 mm width 7 mm 4312 020 36640 length 5 mm int. dia. 9 mm leads 2 x 5 mm length 15 mm width 7 mm length 36 mm width 7 mm length 8.5 mm width 7 mm 2322 151 72473 2322 151 71053 2322 151 71009 17 nH L13, L14 L18, L19 L20, L21 R1, R5 R2, R6 R3, R4 R7, R8 Notes 22.3 22.3 22.3 24.7 k 5 k 10.5 k 10 1. American Technical Ceramics (ATC) capacitor, type 100B or other capacitor of the same quality. 2. American Technical Ceramics (ATC) capacitor, type 175B or other capacitor of the same quality. 3. American Technical Ceramics (ATC) capacitor, type 100A or other capacitor of the same quality. 4. The striplines are on a double copper-clad printed circuit board, with PTFE fiber-glass dielectric (r = 2.2), thickness 0.79 mm. October 1992 8 Philips Semiconductors Product specification UHF push-pull power MOS transistor BLF547 R2 handbook, full pagewidth V DS L10 R7 C13 C12 L22/L23 L1/L2 C8 C7 R3 C1 C3 C4 C2 L4 L5 L6 C5 C6 C9 L7 R4 C10 L8 C14 L11 L12 L13 C18 C19 L9 L14 L18 C22 L19 L21 C24 C23 L20 C20 C21 L15 C15 L16 R8 L17 R6 V DS MBC231 - 1 C17 L24 C16 L3 C11 handbook, full pagewidth 200 mm strap strap strap strap rivets rivets 70 mm strap strap strap strap MBC230 The circuit and components are situated on one side of the printed circuit board, the other side being fully metallized to serve as a ground plane. Connections are made by means of copper straps and hollow rivets for a direct contact between upper and lower sheets. Fig.12 Component layout for 500 MHz class-B test circuit. October 1992 9 Philips Semiconductors Product specification UHF push-pull power MOS transistor BLF547 handbook, halfpage 2 MRB023 handbook, halfpage Zi () 0 ri 10 ZL () 8 MRB026 6 -2 xi 4 -4 2 RL XL -6 100 200 300 400 f (MHz) 500 0 100 200 300 400 f (MHz) 500 Class-B operation; VDS = 28 V; IDQ = 100 mA (per section); PL = 100 W (total device). Class-B operation; VDS = 28 V; IDQ = 100 mA (per section); PL = 100 W (total device). Fig.13 Input impedance as a function of frequency (series components), typical values per section. Fig.14 Load impedance as a function of frequency (series components), typical values per section. handbook, halfpage 30 MRB022 GP (dB) 20 handbook, halfpage 10 Zi ZL MBA379 0 100 200 300 400 f (MHz) 500 Class-B operation; VDS = 28 V; IDQ = 100 mA (per section); PL = 100 W (total device). Fig.15 Definition of MOS impedance. Fig.16 Power gain as a function of frequency, typical values per section. October 1992 10 Philips Semiconductors Product specification UHF push-pull power MOS transistor PACKAGE OUTLINE Flanged double-ended ceramic package; 2 mounting holes; 4 leads BLF547 SOT262A2 D A F U1 q H1 C w2 M C B c 1 2 H U2 p E1 w1 M A B E 5 A 3 b e 4 w3 M Q 0 5 scale 10 mm DIMENSIONS (millimetre dimensions are derived from the original inch dimensions) UNIT mm inches A 5.39 4.62 0.212 0.182 b 5.85 5.58 c 0.16 0.10 D e E E1 F 1.78 1.52 0.070 0.060 H 20.58 20.06 0.81 0.79 H1 17.02 16.51 0.67 0.65 p 3.28 3.02 0.129 0.119 Q 2,47 2.20 q 27.94 U1 34.17 33.90 1.345 1.335 U2 9.91 9.65 0.390 0.380 w1 0.51 0.02 w2 1.02 0.04 w3 0.25 0.01 21.98 10.27 10.29 11.05 21.71 10.05 10.03 0.865 0.404 0.405 0.435 0.855 0.395 0.396 0.230 0.006 0.220 0.004 0.097 1.100 0.087 OUTLINE VERSION SOT262A2 REFERENCES IEC JEDEC EIAJ EUROPEAN PROJECTION ISSUE DATE 97-06-28 October 1992 11 Philips Semiconductors Product specification UHF push-pull power MOS transistor DEFINITIONS Data Sheet Status Objective specification Preliminary specification Product specification Limiting values BLF547 This data sheet contains target or goal specifications for product development. This data sheet contains preliminary data; supplementary data may be published later. This data sheet contains final product specifications. Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application information Where application information is given, it is advisory and does not form part of the specification. LIFE SUPPORT APPLICATIONS These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale. October 1992 12 |
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