nc. SEMICONDUCTOR TECHNICAL DATA Order this document by MMBR9/D The RF Line Designed for use in high gain, low noise small signal amplifiers. This series features excellent broadband linearity and is offered in a variety of packages. Fully Implanted Base and Emitter Structure Finger,. Micron Geometry with Gold Top Metal Gold Sintered Back Metal Available in tape and reel packaging options: T suffix =, units per reel IC = ma LOW NOISE HIGH FREQUENCY TRANSISTORS CASE, STYLE 6 SOT LOW PROFILE CASE 9, STYLE MRF97T REV Motorola, Inc. 999
MAXIMUM RATINGS Rating Symbol MRF97T Unit Collector Emitter Voltage VCEO Vdc Collector Base Voltage VCBO Vdc Emitter Base Voltage VEBO. Vdc Power Dissipation () TC = 7 C Derate linearly above Tcase = 7 C @ nc. PD(max)..9 Collector Current Continuous () IC ma Maximum Junction Temperature TJmax C Storage Temperature Tstg to + to + C.7. Watts mw/ C Thermal Resistance, Junction to Case RθJC C/W DEVICE MARKING = 7Z MRF97T = B ELECTRICAL CHARACTERISTICS (TA = C unless otherwise noted) Characteristic Symbol Min Typ Max Unit OFF CHARACTERISTICS () Collector Emitter Breakdown Voltage (IC =. ma, IB = ) Collector Base Breakdown Voltage (IC =. ma, IE = ) Emitter Cutoff Current (VEB =. V, IC = ) Collector Cutoff Current (VCB = V, IE = ) ON CHARACTERISTICS () DC Current Gain (VCE = 6. V, IC =. ma) DYNAMIC CHARACTERISTICS Collector Base Capacitance (VCB = V, IE =, f =. MHz) Current Gain Bandwidth Product (VCE = 6. V, IC = ma, f =. GHz) MRF97T V(BR)CEO Vdc V(BR)CBO Vdc IEBO. µadc ICBO. µadc hfe Ccb.. pf NOTES:. To calculate the junction temperature use TJ = (PD x RθJA) + TCASE. Case temperature measured on collector lead immediately adjacent to body of package.. IC Continuous (MTBF years).. Pulse width µs, duty cycle % pulsed. ft. 9. GHz
PERFORMANCE CHARACTERISTICS Conditions Insertion Gain (VCE = 6. V, IC = ma, f =. GHz) (VCE = 6. V, IC = ma, f =. GHz) (VCE =. V, IC = ma, f =. GHz) Maximum Unilateral Gain () (VCE =. V, IC = ma, f =. GHz) (VCE =. V, IC = ma, f =. GHz) (VCE =. V, IC = ma, f =. GHz) Noise Figure Minimum (Figure 9) (VCE = 6. V, IC =. ma, f =. GHz) (VCE = 6. V, IC =. ma, f =. GHz) (VCE = 6. V, IC =. ma, f =. GHz) Associated Gain at Minimum NF (Figure 9) (VCE = 6. V, IC =. ma, f =. GHz) (VCE = 6. V, IC =. ma, f =. GHz) (VCE = 6. V, IC =. ma, f =. GHz) Noise Figure ohm Source (VCE = 6. V, IC =. ma, f =. GHz) NOTE:. Maximum Unilateral Gain is GUmax = nc. S ( S )( S ) Symbol S GU max NFMIN GNF MRF97T Min Typ Max Min Typ Max. 7.... 7....... 9. Unit NF Ω.9..9. db db db db db
nc. TYPICAL CHARACTERISTICS CCB, CAPACITANCE (pf). f = MHz hfe, DC CURRENT GAIN VCE = V. ARCHIVE ft, INFORMATION GAIN BANDWIDTH PRODUCT (GHz). VCB, REVERSE VOLTAGE (V) 6 Figure. Collector Base Capacitance versus Voltage VCE = V 7 7 Figure. Gain Bandwidth Product versus Collector Current S, INSERTION GAIN (db) 6 6 Figure. DC Current Gain versus Collector Current VCE = V f = GHz 7 7 Figure. Insertion Gain versus Collector Current
nc. TYPICAL FORWARD INSERTION GAIN AND MAXIMUM UNILATERAL GAIN versus FREQUENCY S, INSERTION GAIN (db) GUmax, MAXIMUM UNILATERAL GAIN (db) S GUmax.....7 f, FREQUENCY (GHz) Figure 6. NF, NOISE FIGURE (db) VBE 6 VCE = V IC = ma CIRCUIT FIGURE 9 GNF, ASSOCIATED GAIN AT MINIMUM (db) 6 CIRCUIT FIGURE 9 7 Figure 7. Typical Noise Figure versus Collector Current NF Ω GNF VCE = 6 V IC = ma NFmin.....7 f, FREQUENCY, (GHz) VCE = 6 V Figure. Typical Noise Figure and Associated Gain versus Frequency NFmin at GHz NFmin at GHz VCE = 6 Vdc 6 NF, NOISE FIGURE (db) RF INPUT *BIAS NETWORK **SLUG TUNER D.U.T. **SLUG TUNER *BIAS NETWORK RF OUTPUT *HP9B **MICROLAB/FXR **SF N < GHz **SF IN GHz Figure. Functional Circuit Schematic (All Devices)
VCE IC f S S S S (Volts) (ma) (MHz) S φ S φ S φ S φ 6.. nc....9..6 6.6 9 6. 6.6..9. 7..7...7. 66 66...... 67.66...6 76.6 7....6 96 7 7..7... 6 7 7 6.7...6. 9 7 6 6.9..9.. 76 7 7....6 9 77 7..... 76 67 7 6.67..9..9 7 9 6 6.....9....7.6.......67.7.......7..7.. 9 6 7 6 76 6 9 7 6 7 7 77 7 9 7....6 7..7...9 6.7.6.9. 7.9...6....6.6...6 9 76 6 6 77.6 7. 7 97 7 9 77 7 9 76 7..7...............7....7....7.. 7 7 66 7 7 69 9 7 7 7 96 6 7 7 67 6 7 76 7 6 7 7 7 7 6..7...9...7..9...6....7...6.6...6.... 9 6 7 6 7 6 9 7 6 7 6 6 9 9 6.9.6...7 9 7 6 7.... 7 7 7..6... 7 7..7... 6 Table. Common Emitter S Parameters 6
+j nc. + j. +j + j.. 9 7...7 VCE = 6. V IC =. ma AREA OF INSTABILITY f (GHz) NF OPT (db) ΓMS NF OPT Rn... 6 9 K.6 j. + j.. j. + j. j j Figure 9. Constant Gain and Noise Figure Contours (f =. GHz) +j..6. +j VCE = 6. V IC =. ma AREA OF INSTABILITY f (GHz) NF OPT (db) ΓMS NF OPT Rn...6 K.97 j. j. j j Figure. Constant Gain and Noise Figure Contours (f =. GHz) MRF97T, T 7
nc. VCE (Vdc) IC (ma) f (MHz) NFmin (db) Γo (MAG, ANG) rn (ohms) 6...7..7 97... Table. MRF97T Typical Noise Parameters TYPICAL CHARACTERISTICS MRF97T C, CAPACITANCE (pf) Cib Cob Ccb... VR, REVERSE VOLTAGE (VOLTS) Figure. Capacitance versus Voltage hfe, DC CURRENT GAIN VCE = 6 V Figure. DC Current Gain versus Collector Current
ft, GAIN-BANDWIDTH PRODUCT (GHz) GAIN (db) 6. 6 VCE = V f = GHz Figure. Gain Bandwidth Product versus Collector Current VCE = 6 V IC = ma..... f, FREQUENCY (GHz) Figure. Insertion Gain and Maximum Stable Power Gain versus Frequency TYPICAL CHARACTERISTICS MRF97T MSG S VCE = 6. V IC =. ma VCE = 6. V IC =. ma f NF j. f NF (GHz) OPT Γ o R N K (GHz) OPT Γ o R N K j. j... db.7 97.9.. db.. INPUT j.. nc... GNF, ASSOCIATED GAIN (db) GNF, ASSOCIATED GAIN (db) 6 VCE = 6 V f = GHz NF Figure. Associated Gain versus Collector Current NF GNF... OUTPUT GNF f, FREQUENCY (GHz) VCE = 6 V IC = ma Figure 6. Noise Figure and Associated Gain versus Frequency Γ o j.. Γ ms Γo.. j. j. j. N F, NOISE FIGURE (db) NF, NOISE FIGURE (db) j... j..... AREA OF INSTABILITY j. j. j. j. j. j... Figure 7. Constant Gain and Noise Figure Contours f =. GHz.. Figure. Constant Gain and Noise Figure Contours f =. GHz 9
S S S S VCE IC f (Vdc) (ma) (MHz) S φ S φ S φ S φ.. nc..99.9..69.6.6 9...9. 7. 7....6.77.79.79 66..7.9 9. 6.6.6..79.6.67..96 7. 69.6.99..9.9.96.9..66.76.7..9... 6...9.6.7.6.6.6.97. 96. 7. 79.. 6.9 6.77...6.79 6. 7.7 6.9 9.7 6.7 9.9..7.... 7. 6.6.9.7 7. 7..967.9.67..6.6... 6.9.97 6.. 6..7..6.6..667.9.7..6.9...9..7.79....7..96 9. 7.9.. 69.7 9. 7.7 9.9. 66.7 6.9.9 99.. 6.97 79..6..7.7 7.9 7.69 9. 6..6.6 6...9...79 7.7.9..97.66.696..6.69.66 6.7.6 6.9.7..9.9..7. 6...6. 9.6.9 6..6..7 9. 79.67 6..6..7.79 76. 6.6.9..6.9..9....7.....69.7..6...67.7.. Table. MRF97T Typical Common Emitter S Parameters 7.9.7 9..9 6. 69.6 6. 7.7. 66.7 69. 6. 6.9 6.7 7. 7.7 7. 67. 6.6 66.7 7. 76.7 7.97 6..9.79..7..76.7.7 7...96.7.6.9.....6.....6.6. 6..6 7.77.6.6 6. 6.9 7.9 7.79.69 6.7 7. 77.7 6. 6. 6. 7. 7.6 7.96 66.7 7. (continued)
MRF97T S S S S VCE IC f (Vdc) (ma) (MHz) S φ S φ S φ S φ.. nc..96.9..69..6 7.7.9 77..7 7....9.6... 67.6.7 6. 97. 67..9..6.... 7. 7.66..67..7.99.9.9.7.69.6 6......7..9.7.76..... 9.77. 76. 6.9 6. 6.7..6..7 6.. 9. 9.76 67..7..6.6... 77. 67. 7.. 6. 7..97.9.7.6..79 9.9.9.79 9...6..6.7.9..6.9.7.77..6.7..9....7.6.9.. 9.77.. 6.9. 7. 7..6 9..9 9.9.6 6.7 7. 66..9.7 67. 6..9 7.6. 7.9 69.9 6..7..97 6.77.7...6 6.67..9..76. 9.9..9.6.9...9.66.9..9 7. 7.9.6 67..9.79..7. 67.. 6. 6. 96.9. 67.7..6. 9.. 67.......7..7..69.9.96.77..6.6...9...6...9 7.7 6.. 7.9 6. 7.6 67.6 9.7 6. 67. 7.6 7. 6. 6. 6. 7.9 7.96 7 6.7 6.6 69. 7. 7. 7. Table. MRF97T Typical Common Emitter S Parameters (continued).9.7....7..6.....7..9.7.6.9.669.9.7...9.6.6.6.9.9.6 7.. 7. 6.7....6 9. 7..9 9. 7.7 9.. 6.6.6.7
nc. PACKAGE DIMENSIONS A L NOTES:. DIMENSIONING AND TOLERANCING PER ANSI Y.M, 9.. CONTROLLING DIMENSION: INCH.. MAXIMUM LEAD THICKNESS INCLUDES LEAD FINISH THICKNESS. MINIMUM LEAD THICKNESS IS THE MINIMUM THICKNESS OF BASE MATERIAL. V D. (.) V G S H A H L B G S C K CASE ISSUE AF, MMBR9ALT B C D R N J K CASE 9 ISSUE J MRF97T J INCHES MILLIMETERS DIM MIN MAX MIN MAX A..97.. B.7... C...9. D...7. G.7.7.7. H.... J..7..77 K....69 L...9. S..9..6 V.77.6..6 STYLE 6: PIN. BASE. EMITTER. COLLECTOR NOTES:. DIMENSIONING AND TOLERANCING PER ANSI Y.M, 9.. CONTROLLING DIMENSION: INCH. INCHES MILLIMETERS DIM MIN MAX MIN MAX A.7.7.. B.... C..9.9. D..6.. G.7... H.... J.... K.7 REF. REF L.6 BSC.6 BSC N. REF.7 REF R..9.. S.79.7.. V..6.. STYLE : PIN. BASE. EMITTER. COLLECTOR
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