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| DISCRETE SEMICONDUCTORS DATA SHEET BLW78 HF/VHF power transistor Product specification August 1986 Philips Semiconductors Product specification HF/VHF power transistor DESCRIPTION N-P-N silicon planar epitaxial transistor intended for use in class-A, AB or B operated mobile, industrial and military transmitters in the h.f. and v.h.f. bands. It is resistance stabilized and is guaranteed to withstand severe load mismatch conditions. It has a 12" flange envelope with a ceramic cap. All leads are isolated from the flange. BLW78 QUICK REFERENCE DATA R.F. performance up to Th = 25 C MODE OF OPERATION c.w. (class-B) s.s.b. (class-A) s.s.b. (class-AB) Note 1. Stated intermodulation distortion figures are referred to the according level of either of the equal amplified tones. Relative to the according peak envelope powers these figures should be increased by 6 dB. VCE V 28 26 28 3 0,05 IC IC(ZS) A - f MHz 150 28 28 100 35 (P.E.P.) 100 (P.E.P.) PL W > Gp dB 6 > - typ. 42 typ. 19,5 typ. 19,0 % 70 d3(1) dB - typ. -40 typ. -30 PIN CONFIGURATION PINNING - SOT121B. PIN DESCRIPTION collector emitter base emitter handbook, halfpage 4 3 1 2 3 4 1 2 MLA876 Fig.1 Simplified outline. SOT121B. PRODUCT SAFETY This device incorporates beryllium oxide, the dust of which is toxic. The device is entirely safe provided that the BeO disc is not damaged. August 1986 2 Philips Semiconductors Product specification HF/VHF power transistor RATINGS Limiting values in accordance with the Absolute Maximum System (IEC 134) Collector-emitter voltage (VBE = 0) peak value Collector-emitter voltage (open base) Emitter-base voltage (open collector) Collector current (average) Collector current (peak value); f > 1 MHz R.F. power dissipation (f > 1 MHz); Tmb = 25 C Storage temperature Operating junction temperature VCESM VCEO VEBO IC(AV) ICM Prf Tstg Tj max. max. max. max. max. max. max. BLW78 70 V 35 V 4V 10 A 25 A 160 W 200 C -65 to +150 C 102 handbook, halfpage MGP543 handbook, halfpage 200 MGP544 IC (A) Prf (W) 150 derate by 0.79 W/K 10 Th = 70 C Tmb = 25 C 100 derate by 0.61 W/K 1 1 10 VCE (V) 102 50 0 50 Th (C) 100 I Continuous d.c. operation II Continuous r.f. operation III Short-time operation during mismatch Fig.2 D.C. SOAR. Fig.3 R.F. power dissipation; VCE 28 V; f > 1 MHz. THERMAL RESISTANCE (dissipation = 80 W; Tmb = 86 C; i.e. Th = 70 C) From junction to mounting base (d.c. dissipation) From junction to mounting base (r.f. dissipation) From mounting base to heatsink Rth j-mb(dc) Rth j-mb(rf) Rth mb-h = = = 1,45 K/W 1,06 K/W 0,2 K/W August 1986 3 Philips Semiconductors Product specification HF/VHF power transistor CHARACTERISTICS Tj = 25 C Collector-emitter breakdown voltage VBE = 0; IC = 50 mA Collector-emitter breakdown voltage open base; IC = 100 mA Emitter-base breakdown voltage open collector; IE = 5 mA Collector cut-off current VBE = 0; VCE = 35 V D.C. current gain(1) hFE VCEsat MHz(2) fT fT Cc Cre Ccf 20 to 85 typ. 2V IC = 5 A; VCE = 5 V Collector-emitter saturation voltage IC = 15 A; IB = 3 A Transition frequency at f = 100 -IE = 5 A; VCB = 28 V -IE = 15 A; VCB = 28 V Collector capacitance at f = 1 MHz IE = Ie = 0; VCB = 28 V Feedback capacitance at f = 1 MHz IC = 100 mA; VCE = 28 V Collector-flange capacitance Notes 1. Measured under pulse conditions: tp 300 s; 0,02. 2. Measured under pulse conditions: tp 50 s; 0,01. typ. 102 pF typ. 3 pF typ. 155 pF ICES < 5 mA V(BR)EBO > 4V V(BR)CEO > 35 V V(BR)CES > 70 V BLW78 typ. 370 MHz typ. 350 MHz August 1986 4 Philips Semiconductors Product specification HF/VHF power transistor BLW78 handbook, halfpage 75 MGP545 handbook, halfpage 600 MGP546 hFE 50 VCE = 28 V Cc (pF) 400 5V typ 25 200 0 0 5 IC (A) 10 0 0 20 VCB (V) 40 Fig.4 Typical values; Tj = 25 C. Fig.5 IE = Ie = 0; f = 1 MHz; Tj = 25 C. handbook, full pagewidth 750 MGP547 fT (MHz) 500 VCB = 28 V 20 V 250 0 0 5 10 15 20 -IE (A) 25 Fig.6 Typical values; f = 100 MHz; Tj = 25 C. August 1986 5 Philips Semiconductors Product specification HF/VHF power transistor APPLICATION INFORMATION R.F. performance in c.w. operation (unneutralized common-emitter class-B circuit); Th = 25 C f (MHz) 150 VCE (V) 28 PL (W) 100 PD (W) 25 (%) 70 zi () 0,74 + j1,35 BLW78 ZL () 4,30 + j0,60 handbook, full pagewidth L5 C1 50 C2 L1 L3 T.U.T. C4 L2 C3 C5 C6 L4 C8 50 C7 +VCC MGP548 Fig.7 Test circuit; c.w. class-B; f = 150 MHz. List of components: C1 = C2 = C7 = C8 = 5 to 100 pF film dielectric trimmer C3 = 203 pF; 2 x 82 pF and 39 pF multilayer ceramic chip capacitors (500 V, ATC(1)) in parallel C4 = 39 pF multilayer ceramic chip capacitor (500 V, ATC(1)) C5 = 1 nF feed-through capacitor C6 = 100 nF polyester capacitor L1 = strip (30 mm x 8 mm); bent to form inverted `U' shape with top 15 mm above heatsink, and bottom 5 mm above heatsink L2 = 1 H r.f. choke L3 = strip; shape as shown in Fig.8; 5 mm above heatsink L4 = strip (40 mm x 8 mm); bent in form , 25 mm at 15 mm above heatsink, 5 mm at 5 mm above heatsink L5 = strip (75 mm long; width 8 mm); 5 mm above base L1, L3, L4, and L5 are copper strips with a thickness of 0,6 mm. Heatsink: aluminium; 0,9 K/W At PL = 100 W and VCE = 28 V, the output power at heatsink temperatures between 25 C and 90 C relative to that at 25 C is diminished by typ. 0,12 W/K. Component layout on an aluminium heatsink for 150 MHz test circuit is shown in Fig.8. Note 1. ATC means American Technical Ceramics. August 1986 6 Philips Semiconductors Product specification HF/VHF power transistor BLW78 handbook, full pagewidth C5 L4 output 50 L5 C1 L1 L3 C7 C3 aluminium heatsink C8 C2 L2 C4 input 50 MGP549 Fig.8 Component layout on an aluminium heatsink for 150 MHz test circuit. Earthing bolts. August 1986 7 Philips Semiconductors Product specification HF/VHF power transistor BLW78 handbook, halfpage 150 MGP550 MGP551 handbook, halfpage 10 100 Gp PL (W) 100 Gp (dB) typ 5 (%) 50 50 0 0 20 PS (W) 40 0 0 50 100 PL (W) 0 150 Fig.9 VCE = 28 V; f = 150 MHz; Th = 25 C. Fig.10 VCE = 28 V; f = 150 MHz; Th = 25 C; typical values. handbook, halfpage 150 MGP552 PLnom (W) (VSWR = 1) 100 Th 70 C 90 C 50 0 1 10 VSWR The graph shows the permissible output power under nominal conditions (VSWR = 1) as a function of the expected VSWR during short-time mismatch conditions with heatsink temperatures as parameter. 102 Fig.11 R.F. SOAR; c.w. class-B operation; f = 150 MHz; VCE = 28 V; Rth mb-h = 0,2 K/W. August 1986 8 Philips Semiconductors Product specification HF/VHF power transistor OPERATING NOTE Below 50 MHz a base-emitter resistor of 4,7 is recommended to avoid oscillation. This resistor must be effective for r.f. only. BLW78 handbook, halfpage 3 ri, xi () 2 MGP553 xi ri ri 1 0 xi -1 -2 -3 0 100 f (MHz) 200 VCE = 28 V; PL = 100 W; Th = 25 C; typical values; class-B operation. Fig.12 Input impedance (series components). handbook, halfpage 6 MGP554 handbook, halfpage 30 MGP555 RL, XL () 4 RL Gp (dB) 20 typ 2 XL 10 0 0 100 f (MHz) 200 0 0 100 f (MHz) 200 VCE = 28 V; PL = 100 W; Th = 25 C; typical values; class-B operation. VCE = 28 V; PL = 100 W; Th = 25 C; typical values; class-B operation. Fig.13 Load impedance (series components). Fig.14 August 1986 9 Philips Semiconductors Product specification HF/VHF power transistor R.F. performance in s.s.b. class-A operation VCE = 26 V; Th = 40 C; f1 = 28,000 MHz; f2 = 28,001 MHz OUTPUT POWER W 35 (P.E.P.) Gp dB typ. 19,5 IC A 3 d3 dB typ. -40 BLW78 handbook, full pagewidth C10 C1 L5 C2 C11 50 L1 L2 T.U.T. R5 C3 C4 R3 C5 R7 L3 L4 C8 C12 C13 50 R2 R4 R6 C6 C9 +VCC BY206 C7 C14 R8 MGP556 BD136 R1 Fig.15 Test circuit; s.s.b. class-A; f = 28 MHz. August 1986 10 Philips Semiconductors Product specification HF/VHF power transistor List of components: C1 = 33 pF ceramic capacitor (500 V) C2 = 100 pF air dielectric trimmer (single insulated rotor type) C3 = 280 pF air dielectric trimmer (single non-insulated rotor type) C4 = 180 pF polystyrene capacitor C5 = C6 = C7 = 3,9 nF ceramic capacitor C8 = 2 x 33 pF ceramic capacitors in parallel (500 V) C9 = 330 nF polyester capacitor C10 = 82 pF ceramic capacitor (500 V) C11 = 100 pF air dielectric trimmer (single insulated rotor type) C12 = 180 pF air dielectric trimmer (single non-insulated rotor type) C13 = 150 pF polystyrene capacitor C14 = 390 nF polyester capacitor L1 = 72 nH; 3 turns Cu wire (1,0 mm); int. dia. 7 mm; length 4,8 mm; leads 2 x 5 mm L2 = Cu strip (28 mm x 5 mm x 0,2 mm); 18 mm at 3 mm above printed-circuit board L3 = Ferroxcube choke coil (cat. no. 4312 020 36640) L4 = 300 nH; 6 turns Cu wire (1,5 mm); int. dia. 12 mm; length 16 mm; leads 2 x 5 mm L5 = 330 nH; 7 turns Cu wire (1,5 mm); int. dia. 12 mm; length 20,8 mm; leads 2 x 5 mm R1 = 1,5 k ( 5%) carbon resistor (0,5 W) R2 = 100 ( 5%) carbon resistor (0,5 W) R3 = 68 ( 5%) carbon resistor (0,5 W) R4 = 100 wirewound potentiometer R5 = 33 ( 5%) carbon resistor (0,5 W) R6 = 0,68 ( 10%) wirewound resistor (7 W) R7 = 120 wirewound resistor (8 W) R8 = 10 ( 10%) carbon resistor (0,5 W) BLW78 August 1986 11 Philips Semiconductors Product specification HF/VHF power transistor BLW78 handbook, halfpage -30 MGP557 d3 (dB) -40 typ -50 -60 0 25 P.E.P. (W) 50 Fig.16 Intermodulation distortion as a function of output power; VCE = 26 V; IC = 3 A; f1 = 28,000 MHz; f2 = 28,001 MHz; Th = 40 C. August 1986 12 Philips Semiconductors Product specification HF/VHF power transistor R.F. performance in s.s.b. class-AB operation (linear power amplifier) VCE = 28 V; Th = 25 C; f1 = 28,000 MHz; f2 = 28,001 MHz OUTPUT POWER W 100 (P.E.P.) Note Gp dB typ. 19 dt % typ. 42 IC A typ. 4,3 d3(1) dB typ. -30 d5(1) dB typ. -37 BLW78 IC(ZS) mA 50 1. Stated intermodulation distortion figures are referred to the according level of either of the equal amplified tones. Relative to the according peak envelope powers these figures should be increased by 6 dB. handbook, full pagewidth C10 C1 L3 L1 C2 C3 C4 L2 R1 T.U.T. C7 L4 C12 C13 C11 50 50 C5 C8 temperature compensated bias (Ri < 0.1 ) C6 C9 R2 +VCC MGP558 Fig.17 Test circuit; s.s.b. class-AB; f = 28 MHz. List of components: C1 = C11 = 150 pF air dielectric trimmer (single insulated rotor type) C2 = 27 pF ceramic capacitor (500 V) C3 = C12 = 150 pF air dielectric trimmer (single non-insulated rotor type) C4 = 180 pF ceramic capacitor (500 V) C5 = C8 = 3,9 nF ceramic capacitor C6 = 150 F/6 V solid tantalum capacitor C7 = 150 pF ceramic capacitor (500 V) C9 = 100 nF polyester capacitor C10 = 750 pF mica dielectric trimmer (single insulated rotor type) C13 = 750 pF mica dielectric trimmer (single non-insulated rotor type) L1 = 3 turns enamelled Cu wire (1,0 mm); int. dia. 12 mm; length 12 mm L2 = Ferroxcube wide-band h.f. choke, grade 3B (cat. no. 4312 020 36640) L3 = 3 turns enamelled Cu wire (2,0 mm); int. dia. 12 mm; length 12 mm L4 = 2 turns enamelled Cu wire (2,0 mm); int. dia. 12 mm; length 8 mm R1 = 27 ( 10%) carbon resistor (0,5 W) R2 = 4,7 ( 10%) carbon resistor (0,5 W) August 1986 13 Philips Semiconductors Product specification HF/VHF power transistor BLW78 handbook, halfpage -20 MGP559 d3, d5 (dB) -30 d3 -40 d5 -50 0 50 P.E.P. (W) 100 Typical values; VCE = 28 V; IC(ZS) = 50 mA; f1 = 28,000 MHz; f2 = 28,001 MHz; Th = 25 C. Fig.18 Intermodulation distortion(1) as a function of output power. handbook, halfpage MGP560 10 MGP561 0 xi () handbook, halfpage 30 ri () xi Gp (dB) 20 -5 5 10 ri 0 1 0 1 10 102 10 f (MHz) VCE = 28 V; IC(ZS) = 50 mA; PL = 100 W (P.E.P.); Th = 25 C; ZL = 2,7 . -10 102 f (MHz) VCE = 28 V; IC(ZS) = 50 mA; PL = 100 W (P.E.P.); Th = 25 C; ZL = 2,7 . Fig.20 Input impedance (series components). Fig.19 Power gain as a function of frequency. Figs 19 and 20 are typical curves and hold for an unneutralized amplifier in s.s.b. class-AB operation. August 1986 14 Philips Semiconductors Product specification HF/VHF power transistor PACKAGE OUTLINE Flanged ceramic package; 2 mounting holes; 4 leads BLW78 SOT121B D A F q U1 C B H L b c 4 3 w2 M C A p U2 D1 U3 w1 M A B 1 H 2 Q 0 5 scale 10 mm DIMENSIONS (millimetre dimensions are derived from the original inch dimensions) UNIT mm inches A 7.27 6.17 0.286 0.243 b 5.82 5.56 c 0.16 0.10 D D1 F 2.67 2.41 H 28.45 25.52 L 7.93 6.32 p 3.30 3.05 Q 4.45 3.91 q 18.42 U1 24.90 24.63 0.98 0.97 U2 6.48 6.22 0.255 0.245 U3 12.32 12.06 0.485 0.475 w1 0.51 0.02 w2 1.02 45 0.312 0.130 0.249 0.120 0.175 0.725 0.154 0.04 12.86 12.83 12.59 12.57 0.229 0.006 0.219 0.004 0.506 0.505 0.105 1.120 0.496 0.495 0.095 1.005 OUTLINE VERSION SOT121B REFERENCES IEC JEDEC EIAJ EUROPEAN PROJECTION ISSUE DATE 97-06-28 August 1986 15 Philips Semiconductors Product specification HF/VHF power transistor DEFINITIONS Data Sheet Status Objective specification Preliminary specification Product specification Limiting values BLW78 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. August 1986 16 |
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