Order this document by MRF1090MA/D SEMICONDUCTOR TECHNICAL DATA The RF Line Designed for Class B and C common base amplifier applications in short pulse TACAN, IFF, and DME transmitters. • Guaranteed Performance @ 1090 MHz, 50 Vdc Output Power = 90 Watts Peak Minimum Gain = 8.4 dB 90 W PEAK, 960 – 1215 MHz MICROWAVE POWER TRANSISTORS NPN SILICON • 100% Tested for Load Mismatch at All Phase Angles with 10:1 VSWR • Industry Standard Package • Nitride Passivated • Gold Metallized for Long Life and Resistance to Metal Migration • Internal Input Matching for Broadband Operation • Circuit board photomaster available upon request by contacting RF Tactical Marketing in Phoenix, AZ. CASE 332–04, STYLE 1 (MRF1090MA) MAXIMUM RATINGS Rating Symbol Value Unit Collector–Base Voltage VCBO 70 Vdc Emitter–Base Voltage VEBO 4.0 Vdc Collector–Current — Peak (1) IC 6.0 Adc Total Device Dissipation @ TC = 25°C (1) (2) Derate above 25°C PD 290 1.66 Watts W/°C Storage Temperature Range Tstg – 65 to +150 °C CASE 332A–03, STYLE 1 (MRF1090MB) THERMAL CHARACTERISTICS Characteristic Thermal Resistance, Junction to Case (3) Symbol Max Unit RθJC 0.6 °C/W ELECTRICAL CHARACTERISTICS (TC = 25°C unless otherwise noted) Characteristic Symbol Min Typ Max Unit Collector–Emitter Breakdown Voltage (IC = 25 mAdc, VBE = 0) V(BR)CES 70 — — Vdc Collector–Base Breakdown Voltage (IC = 25 mAdc, IE = 0) V(BR)CBO 70 — — Vdc Emitter–Base Breakdown Voltage (IE = 5.0 mAdc, IC = 0) V(BR)EBO 4.0 — — Vdc ICBO — — 5.0 mAdc hFE 10 30 — — OFF CHARACTERISTICS Collector Cutoff Current (VCB = 50 Vdc, IE = 0) ON CHARACTERISTICS DC Current Gain (4) (IC = 2.5 Adc, VCE = 5.0 Vdc) NOTES: (continued) 1. Pulse Width = 10 µs, Duty Cycle = 1%. 2. These devices are designed for RF operation. The total device dissipation rating applies only when the device is operated as RF amplifiers. 3. Thermal Resistance is determined under specified RF operating conditions by infrared measurement techniques. 4. 80 µs Pulse on Tektronix 576 or equivalent. REV 8 RF DEVICE DATA MOTOROLA Motorola, Inc. 1997 MRF1090MA MRF1090MB 1 ELECTRICAL CHARACTERISTICS — continued (TC = 25°C unless otherwise noted) Characteristic Symbol Min Typ Max Unit Cob — 12 16 pF Common–Base Amplifier Power Gain (VCC = 50 Vdc, Pout = 90 W pk, f = 1090 MHz) GPB 8.4 10.8 — dB Collector Efficiency (VCC = 50 Vdc, Pout = 90 W pk, f = 1090 MHz) η 35 40 — % Load Mismatch (VCC = 50 Vdc, Pout = 90 W pk, f = 1090 MHz, VSWR = 10:1 All Phase Angles) ψ DYNAMIC CHARACTERISTICS Output Capacitance (VCB = 50 Vdc, IE = 0, f = 1.0 MHz) FUNCTIONAL TESTS (Pulse Width = 10 µs, Duty Cycle = 1.0%) No Degradation in Power Output + – + C2 L1 RF INPUT C3 C4 L2 DUT Z1 Z2 Z3 50 Vdc RF OUTPUT C1 Z4 Z6 Z5 Z7 Z8 Z9 C1, C2 — 220 pF Chip Capacitor, 100–mil ATC C3 — 0.1 µF C4 — 47 µF/75 V L1, L2 — 3 Turns #18 AWG, 1/8″ ID Z1 – Z9 — Distributed Microstrip Elements, See Photomaster Board Material — 0.031″ Thick Glass Teflon, εr = 2.5 Figure 1. 1090 MHz Test Circuit 120 f = 960 MHz Pout , OUTPUT POWER (WATTS pk) Pout , OUTPUT POWER (WATTS pk) 120 100 1090 MHz 80 1215 MHz 60 VCC = 50 V tp = 10 µs D = 1% 40 20 0 3 6 9 Pin, INPUT POWER (WATTS pk) 12 Figure 2. Output Power versus Input Power MRF1090MA MRF1090MB 2 15 Pin = 10.5 W pk 100 9 W pk 80 7.5 W pk 60 40 20 6 W pk 4.5 W pk VCC = 50 V tp = 10 µs D = 1% 960 1090 f, FREQUENCY (MHz) 1215 Figure 3. Output Power versus Frequency MOTOROLA RF DEVICE DATA 13 f = 1090 MHz tp = 10 µs D = 1% 100 Po = 90 W pk VCC = 50 V tp = 10 µs D = 1% Pin = 10.5 W pk 12 G PB , POWER GAIN (dB) Pout , OUTPUT POWER (WATTS pk) 120 9 W pk 80 7.5 W pk 60 40 11 10 9 6 W pk 4.5 W pk 20 0 5 10 15 25 35 20 30 VCC, SUPPLY VOLTAGE (VOLTS) 40 45 8 50 Figure 4. Output Power versus Supply Voltage 0 ZOL* f = 960 MHz 10 + j15 Zin 1215 f = 960 MHz + j20 1090 1090 15 1215 Pout = 90 W pk VCC = 50 V tp = 10 µs D = 1% + j10 1215 1090 f, FREQUENCY (MHz) Figure 5. Power Gain versus Frequency + j5.0 5.0 960 f MHz Zin Ohms ZOL* Ohms 960 1090 1215 2.8 + j13.2 7.4 + j11.4 4.7 + j7.5 7.6 + j3.5 7.6 + j4.0 7.7 + j4.5 ZOL* = Conjugate of the optimum load ZOL* = impedance into which the device ZOL* = output operates at a given output ZOL* = power, voltage, and frequency. Coordinates in Ohms Figure 6. Series Equivalent Input/Output Impedance Po = 90 W pk VCC = 50 V tp = 10 µs D = 1% f = 1090 MHz Figure 7. Typical Pulse Performance MOTOROLA RF DEVICE DATA MRF1090MA MRF1090MB 3 PACKAGE DIMENSIONS L NOTES: 1. DIMENSION K APPLIES TWO PLACES. 2. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1973. M 4 K 1 D 3 2 A N J H F –T– C U SEATING PLANE 8–32 UNC 2A E –B– 0.76 (0.030) T B M STYLE 1: PIN 1. 2. 3. 4. BASE EMITTER BASE COLLECTOR MILLIMETERS MIN MAX 6.86 7.62 6.10 6.60 16.26 16.76 4.95 5.21 1.40 1.65 2.67 4.32 1.40 1.65 0.08 0.18 15.24 ––– 2.41 2.67 45 _NOM 4.97 6.22 2.92 3.68 DIM A B C D E F H J K L M N U INCHES MIN MAX 0.270 0.300 0.240 0.260 0.640 0.660 0.195 0.205 0.055 0.065 0.105 0.170 0.055 0.065 0.003 0.007 0.600 ––– 0.095 0.105 45 _NOM 0.180 0.245 0.115 0.145 M CASE 332–04 ISSUE D (MRF1090MA) F NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: INCH. 4 1 K DIM A C D F H J K D 3 2 H SEATING PLANE A J C INCHES MIN MAX 0.270 0.290 0.115 0.135 0.195 0.205 0.095 0.105 0.050 0.070 0.003 0.007 0.600 ––– STYLE 1: PIN 1. 2. 3. 4. MILLIMETERS MIN MAX 6.86 7.36 2.93 3.42 4.96 5.20 2.42 2.66 1.27 1.77 0.08 0.17 15.24 ––– BASE EMITTER BASE COLLECTOR CASE 332A–03 ISSUE D (MRF1090MB) MRF1090MA MRF1090MB 4 MOTOROLA RF DEVICE DATA MOTOROLA RF DEVICE DATA MRF1090MA MRF1090MB 5 Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters which may be provided in Motorola data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. 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