CEL NE680 SERIES handbook
Contents
1. 2 1 0 2 o3 010 41 25 0 1 EADS 2 3 4 T 47 2 Soo 20 02 0 65 2 065 1 NN Y S 0 6 0 60 0 65 N 1 4 PIN CONNECTIONS 04 005 1 Collector 03 2 Emitter x N 3 Base N NS 09201 4 Emitter NUN JN EE 1 4 40 10 a 7 0 to 0 1 0 15 0 05 PACKAGE OUTLINE 19 PACKAGE OUTLINE 19 RECOMMENDED P C B LAYOUT 1 6 0 1 4 0 8 0 1 gt 2 1 3 T 1 6 0 1 ds Y 2 6 01 05 84 3 DE AREE x 03100 LEAD 3 ONLY 1 3 1 1 0 PIN CONNECTIONS 0 5 1 Emitter M i 2 Base Y 1 ai osk 3 Collector Td Y mE 1 0 1 0100 1 0 15 0 05 PACKAGE OUTLINE 30 PACKAGE OUTLINE 30 RECOMMENDED P C B LAYOUT Il 21202 41 25 0 1 14 E i 20 02 0 65 13 t 0 30 05 3 X ALL LEADS b y 3 1 MARKING 1 3 PIN CONNECTIONS 0 65 0 15 1 Emitter UE NAN Y 2 Base i ES 7 3 Collector 1 0 8 E 40 10 lo 100 1 0 05 NE680 SERIES OUTLINE DIMENSIONS Units in mm PACKAGE OUTLINE 33 SOT 23 40 2 4 28 Y 40 10 if i T X ALL LEADS 40 10 4 05 o 15 PIN CONNECTIONS 12. NEO 00 CEL NEC s NPN SILICON HIGH NE680 FREQUENCY TRANSISTOR SERIES FEATURES LOW NOISE FIGURE 1 7 dB at 2 GHz 2 6 dB at 4 GHz HIGH ASSOCIATED GAIN 12 5 dB at 2 GHz 8 0 dB at 4 GHz EXCELLENT LOW VOLTAGE LOW CURRENT PERFORMANCE DESCRIPTION NEC s NE680 series of NPN epitaxial silicon transistors is designed for low noise high gain and low cost applications Both the chip and micro x versions are suitable for applications up to 6 GHz The NE680 die is also available in six different low cost plastic surface mount package styles The NE680 s high fr makes it ideal for low voltage low current applications down to as low as 0 5 V 0 5 mA IC max for the NE680 series is 35 mA For higher current applications see the NE681 series NE68018 NOISE FIGURE amp ASSOCIATED GAIN vs FREQUENCY T 25 6V 5 mA 23V 5 20 a E a 15 gt lt Li 25 o 5 6 p 29 5 9 amp 2 2 15 z lt 1 0 5 300 500 1000 2000 3000 Frequency f GHz HIGH GAIN BANDWIDTH PRODUCT 10 GHz 00 CHIP 35 MICRO X 18 SOT 343 STYLE 19 PIN ULTRA SUPER MINI MOLD 30 SOT 323 STYLE 33 SOT 23 STYLE 39 SOT 143 STYLE 39R SOT 143R STYLE California Eastern Laboratories NE680 SERIES ELECTRICAL CHARACTERISTICS
3. NE68039R T1 3000 Tape amp Reel Lead plating Life Support Applications These NEC products are not intended for use in life support devices appliances or systems where the malfunction of these products can reasonably be expected to result in personal injury The customers of CEL using or selling these products for use in such applications do so at their own risk and agree to fully indemnify CEL for all damages resulting from such improper use or sale California Eastern Laboratories Your source for NEC RF Microwave Optoelectronic and Fiber Optic Semiconductor Devices 4590 Patrick Henry Drive Santa Clara CA 95054 1817 408 988 3500 FAX 408 988 0279 www cel com DATA SUBJECT TO CHANGE WITHOUT NOTICE 08 04 2003 EC A Business Partner of NEC Compound Semiconductor Devices Ltd
4. 12 IKR Infinity PTF 0 0 08e 12 ISC 0 TR 0 635e 9 0 72e 9 NC 2 EG 111 0769 9 06 ATE i CoBPKG 0 17e 12 RB 17 9 AT 3 0 216 12 RaM Lex 0 196 9 IRB 4 01e 4 AF 1 Lcx 0 19e 9 HO 1088 Lex 0 19e 9 CJE 0 358e 12 VJE 0 71 MJE 0 5 MODEL RANGE CJC 0 162e 12 Frequency 0 05 to 3 0 GHz Bias VcE 1 V to 6 V Ic 1 mAto 15 mA E 0 79 Date 8 03 1 Gummel Poon Model NE680 SERIES NE68030 NONLINEAR MODEL SCHEMATIC CCBPKG Q1 Collector Base ud CcEPKG Emitter BJT NONLINEAR MODEL PARAMETERS UNITS Parameters Q1 Parameters Q1 Parameter Units IS 3 84e 16 MJC 0 64 time seconds BF 124 9 XCJC 0 capacitance farads NF 1 05 CJS 0 inductance henries VAF 11 9 VJS 0 75 resistance ohms IKF 0 027 MJS 0 voltage volts ISE 1 0e 14 FC 0 5 current amps NE 2 17 TF 8 7e 12 BR 1 XTF 18 ADDITIONAL PARAMETERS Lu 18 VIE 191 Parameters 68030 VAR Infinity ITF 0 082 Con 0 08e 12 IKR Infinity PTF 0 0 08e 12 ISC 0 TR 0 635e 9 LB 0 7e 9 NC 2 EG 1 11 1629 2 XIB 0 12 12 AH 2 CcEPKG 0 16e 12 CM 88 0 CBEPKG 0 04e 12 IRB 4 01e 4 AF 1 LEX 0 2e 9 105 Lox 0 2e 9 CJE 0 358e 12 020 9 VJE 0 71 MJE 0 5 MODEL RANGE CJC 0 162e 12 Frequency 0 05 to 3 0 GHz Bias Vce 2 5 V to 6 V lc 1 mAto 15 mA
5. Parameters Q1 Parameters Q1 Parameter Units IS 3 84e 16 MJC 0 64 time seconds BF 124 9 XCJC 0 capacitance farads NF 1 05 CJS 0 inductance henries VAF 11 9 VJS 0 75 resistance ohms IKF 0 027 MJS 0 voltage volts ISE 1 0e 14 FC 0 5 current amps NE 2 17 TF 8 7e 12 BR 1 XTF 18 ADDITIONAL PARAMETERS NH 1 08 191 Parameters 68018 VAR Infinity ITF 0 082 0 08e 12 IKR Infinity PTF 0 0 08e 12 ISC 0 TR 0 635e 9 lis 1 38e 9 NC 2 EG 1 11 2 55e 9 RE 0 6 XTB 0 T 0 8509 RB in 2 CCBPKG 0 14e 12 RBM 82 0 0 58e 12 IRB 4 01e 4 AF 1 Cicer 029012 RG 1036 Lex 0 18e 9 CJE 0 358e 12 Lex 04769 VJE on Lex 0 09e 9 MJE 0 5 CJC 0 162e 12 MODEL RANGE VJC 0 79 Frequency 0 05 to 5 0 GHz Bias VcE 1 V to 6 V lc 1 mAto 15 mA 1 Gummel Poon Model Date 5 31 96 NE680 SERIES NE68019 NONLINEAR MODEL SCHEMATIC CCBPKG Q1 Collector Base Emitter BJT NONLINEAR MODEL PARAMETERS UNITS Parameters Q1 Parameters Q1 Parameter Units IS 3 84e 16 MJC 0 64 time seconds BF 124 9 XCJC 0 capacitance farads NF 1 05 CJS 0 inductance henries VAF 11 9 VJS 0 75 resistance ohms IKF 0 027 MJS 0 voltage volts ISE 1 0e 14 FC 0 5 current amps NE 2 17 8 7 12 BR 1 XTF 18 ADDITIONAL PARAMETERS ia id vE 19 1 Parameters 68019 VAR ITF 0 082 0 08
6. SCHEMATIC Q1 CCB PKG LC PKG RC PKG COLLECTOR 0 1 ohms RB PKG LB PKG BASE 0 1 ohms PKG 0 2pF CBE PKG 0 05pF RE_PKG CBEX_PKG On ohms CCEX_PKG EMITTER BJT NONLINEAR MODEL PARAMETERS UNITS Parameters Q1 Parameters Q1 Parameter Units IS 3 84e 16 MJC 0 64 time seconds BF 124 9 XCJC 0 capacitance farads NF 1 05 CJS 0 inductance henries VAF 11 9 VJS 0 75 resistance ohms IKF 0 027 MJS 0 voltage volts ISE 1 0e 14 FC 0 5 current amps NE 2 17 8 7e 12 BR 1 XTF 18 MODEL RANGE Frequency 0 05 to 5 0 GHz 193 ME 13 1 Bias 6 V Ic 5 mA to 20 mA VAR Infinity ITF 0 082 Date 10 31 96 IKR Infinity PTF 0 ISC 0 TR 0 635e 9 NC 2 EG 1 11 RE 0 6 XTB 0 RB 17 9 XTI 3 RBM 1 02 KF 0 IRB 4 01e 4 AF 1 RC 10 5 CJE 0 358e 12 VJE 0 71 MJE 0 5 CJC 0 162e 12 VJC 0 79 1 Gummel Poon Model NE680 SERIES OUTLINE DIMENSIONS Units in mm NE68000 CHIP PACKAGE OUTLINE 35 Chip Thickness 160 um MICRO X E 0 35 0 01 4 3 8 MIN 048 ALL LEADS 0 5 0 06 r1 ry cy B 7 d PIN CONNECTIONS 1 Collector tiv 035 0 01 E 2 Emitter BASE 3 Base 2 55 0 2 4 V F VETT 4 Emitter 306 04058 4 18 69 T Y n 4 0 55 PACKAGE OUTLINE 18 PACKAGE OUTLINE 18 RECOMMENDED P C B LAYOUT
7. ta 25 c PART NUMBER NE68000 NE68018 NE68019 EIAJ REGISTERED NUMBER 25 5013 25 5008 PACKAGE OUTLINE 00 CHIP 18 19 SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN MAX MIN MIN TYP MAX fr Gain Bandwidth Product at 6 V 10 mA GHz 10 10 10 NF Noise Figure at 6 5 mA f 2 1 GHz dB 1 6 1 7 f 2 GHz dB 1 7 2 4 1 8 3 1 9 f 4 GHz dB 2 6 GNF Associated Gain at 6 V lc 5 mA f 1 GHz dB 14 13 5 f 2 GHz dB 12 5 10 2 9 6 f 4 GHz dB 8 MAG Maximum Available Gain at 6 V Ic 10 mA f 1 GHz dB 18 5 19 18 5 f 2 GHz dB 16 2 12 7 11 8 f 4 GHz dB 10 2 8 2 7 3 521 2 Insertion Power Gain at 6 V Ic 10 mA f 1 GHz dB 17 15 5 15 f 2 GHz dB 10 5 125 7 5 98 9 2 f 4 GHz dB 7 5 4 6 4 4 hFE Forward Current Gain at VcE 6 V Ic 10 mA 50 100 250 50 100 250 3 V Ilc 5 mA 80 160 Collector Cutoff Current at Vcs 10 V IE 0 mA uA 1 0 1 0 1 0 Emitter Cutoff Current at VEB 1V Ic 0 mA uA 1 0 1 0 1 0 Feedback Capacitance VcB 1 V le 0 mA f 1 MHz pF 0 3 0 7 0 3 0 7 PT Total Power Dissipation mW 400 150 100 RTH J A Thermal Resistance Junction to Ambient C W 833 1000 RTH J Thermal Resistance Junction to Case
8. 0 073 61 0 700 22 0 80 18 2 2000 0 225 136 2 601 77 0 121 59 0 583 29 1 09 11 5 3000 0 242 145 2 033 50 0 171 58 0 499 41 1 07 9 1 4000 0 359 117 1 655 31 0 226 54 0 434 64 1 00 8 6 5000 0 452 101 1 370 14 0 282 47 0 423 91 0 92 6 9 6000 0 536 91 1 172 0 0 340 41 0 420 116 0 84 5 4 6 V 10 mA 100 0 756 21 20 155 156 0 001 122 0 945 9 0 27 36 1 200 0 647 40 17 163 140 0 001 82 0 887 13 0 47 34 0 400 0 423 65 12 024 118 0 009 71 0 774 16 1 55 26 8 600 0 301 77 8 762 104 0 019 68 0 691 16 1 50 22 4 800 0 211 92 6 962 97 0 035 68 0 643 16 1 28 19 9 1000 0 143 108 5 674 89 0 051 71 0 614 17 1 18 17 9 2000 0 127 146 3 089 66 0 113 69 0 551 24 1 09 12 5 3000 0 251 120 2 207 46 0 179 64 0 477 37 1 01 10 3 4000 0 371 107 1 768 30 0 240 57 0 407 60 0 94 8 7 5000 0 462 95 1 471 13 0 298 49 0 392 88 0 87 6 9 6000 0 543 87 1 247 1 0 354 41 0 389 114 0 82 5 5 Note 1 Gain Calculations MAG S2tL 1 When K x 1 is undefined and MSG values are used MSG S2 51142 S2 A 811 S22 S21 S12 S12 542 2 512521 MAG Maximum Available Gain MSG Maximum Stable Gain NE680 SERIES NE68018 NONLINEAR MODEL SCHEMATIC Base Q1 BJT NONLINEAR MODEL PARAMETERS UNITS
9. 1 55 14 16 0 52 39 0 33 1500 1 71 11 15 0 48 58 0 30 2000 1 88 9 49 0 36 77 0 27 2500 2 06 7 89 0 30 88 0 23 3000 2 29 6 74 0 24 103 0 17 NE68035 TYPICAL NOISE PARAMETERS 25 FREQ NFoPT MHz dB dB MAG ANG Rn 50 Vce 6 V 5 mA 1000 1 2 19 21 0 30 65 0 37 2000 17 14 49 0 20 155 0 30 4000 2 6 9 12 0 22 128 0 33 NE68030 TYPICAL NOISE PARAMETERS 25 FREQ NFoPT MHz dB dB MAG ANG Rn 50 2 5 3 mA 500 1 32 12 79 0 79 21 1 60 800 1 48 12 59 0 72 40 1 43 1000 1 58 11 35 0 69 52 1 08 1500 1 82 5 87 0 64 64 0 92 2000 2 12 3 48 0 59 78 0 75 VcE 6V Ic 5mA 1000 1 52 16 93 0 46 126 0 15 2000 1 76 10 70 0 37 159 0 11 3000 2 25 7 56 0 36 132 0 14 4000 2 92 5 82 0 35 115 0 16 NE68033 TYPICAL NOISE PARAMETERS ta 25 FREQ NFopt Ga Topt MHz dB dB MAG ANG Rn 50 VcE 2 5V Ic 3mA 500 1 10 18 26 0 65 21 0 56 800 1 20 14 56 0 60 32 0 42 1000 1 27 13 26 0 52 43 0 39 1500 1 43 9 80 0 47 48 0 36 2000 1 64 7 76 0 39 53 0 32 VcE 6V Ic 5mA 500 1 35 19 25 0 60 17 0 60 1000 1 45 14 20 0 45 33 0 48 2000 1 70 9 18 0 22 42 0 45 3000 2 10 6 60 0 11 4 0 40 4000 2 55 5 22 0 18 63 0 47 NE68039 TYPICAL NOISE PARAMETERS 25 FREQ NFopt Ga Topt MHz dB
10. 48 2 120 27 1 561 69 0 1 07 11 8 2500 231 164 8 2 189 31 5 137 23 2 544 78 5 1 15 9 7 3000 223 139 5 1 876 16 9 165 18 5 539 87 7 1 13 8 4 6 5 100 838 17 7 13 662 163 3 012 80 3 965 9 5 0 13 30 6 400 610 61 4 10 216 124 3 037 61 1 819 28 3 0 42 24 4 800 381 99 4 6 605 94 4 063 48 9 661 40 1 0 73 20 2 1000 314 114 8 5 516 83 9 067 47 8 630 43 7 0 85 19 2 1500 223 149 1 3 855 63 0 092 43 1 587 54 1 0 97 16 2 2000 188 178 0 2 963 45 9 112 34 0 569 63 6 1 07 12 6 2500 185 153 8 2 417 30 3 130 33 0 567 72 1 1 10 10 8 3000 173 129 0 2 063 16 4 155 23 5 563 82 5 1 10 9 3 Note 1 Gain Calculations MAG 921 1 When K 1 MAG is undefined and MSG values are used MSG ISAL 1 LAI Si 522 2 A S41 S22 S21 S12 5121 S12 2 S12 S21 MAG Maximum Available Gain MSG Maximum Stable Gain NE680 SERIES TYPICAL COMMON EMITTER SCATTERING PARAMETERS 25 Coordinates in Ohms Frequency in GHz VcE 2 5 V Ic 1 mA NE68019 2 5 V 1 mA FREQUENCY n S21 S12 S22 K MAG MHz MAG ANG MAG ANG MAG ANG MAG ANG dB 100 971 9 9 3 456 169 4 017 84 6 0 996 6 2 0 03 23 1 400 905 34 9 3 207 145 8 064 66 7 0 961 20 2 0 17 17 0 800 774 65 1 2 751 117 3 1110 46 1 0 869 36 6 0 37 14 0 1000 706 78 0 2 512 105 2 126 38 1 0 829 43 1 0 46 13 0 1500 564 106 1 2 043 80 0 146 25 4 0 751 54
11. 550 620 RTH J Thermal Resistance Junction to Case C W 200 200 200 200 Notes 3 The emitter terminal should be connected to the ground 1 Electronic Industrial Association of Japan 2 Pulsed measurement PW lt 350 us duty cycle lt 2 terminal of the 3 terminal capacitance bridge NE680 SERIES ABSOLUTE MAXIMUM RATINGS ta 25 C SYMBOLS PARAMETERS UNITS RATINGS VcBO Collector to Base Voltage V 20 Collector to Emitter Voltage V 10 VEBO Emitter to Base Voltage V 1 5 Ic Collector Current mA 35 TJ Junction Temperature 1502 Storage Temperature 65to 150 Notes 1 Operation in excess of any one of these parameters may result in permanent damage 2 Maximum Tu for the NE68035 is 200 C TYPICAL PERFORMANCE CURVES 25 C NE68035 INSERTION GAIN vs COLLECTOR CURRENT 11 10 2 6 5 4 3 2 2 5 7 10 20 30 50 70 Collector Current 1 mA NE68039 FORWARD INSERTION GAIN AND MAXIMUM AVAILABLE GAIN vs FREQUENCY 30 5 2112 ae 2z xz 2 25 2 145 5 22 25 5 oO gt 0 01 02 03 0507 2 5 7 10 Frequency f GHz Insertion Gain S21 2 dB Total Power Dissipation Pr mW 400 30
12. C W 120 200 200 ELECTRICAL CHARACTERISTICS 25 c PART NUMBER NE68030 NE68033 NE68035 NE68039 39R EIAJ REGISTERED NUMBER 25 4228 25 3585 25 3587 25 4095 PACKAGE OUTLINE 30 33 35 39 SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN TYP MAX MIN MAX MAX MIN MAX fr Gain Bandwidth Product 6 V Ic 10 mA GHz 10 10 10 10 NF Noise Figure at 6 V Ic 5 mA f 2 1 GHz dB 1 5 1 6 f 2 GHz dB 1 7 1 8 3 0 17 2 4 1 7 2 5 f 4 GHz dB 2 9 2 1 2 6 2 6 Associated Gain at 6 V lc 2 5 mA f 1 GHz dB 12 5 11 0 f 2 GHz dB 9 4 9 0 12 5 11 f 4 GHz dB 5 3 4 2 8 6 5 MAG Maximum Available Gain at Vce 6 V Ic 10 mA f 1 GHz dB 17 17 18 5 18 f 2 GHz dB 10 9 10 9 16 2 12 4 f 4 GHz dB 6 8 6 7 10 2 8 7 5216 2 Insertion Power Gain at VcE 6 V 10 mA f 1 GHz dB 13 5 13 17 14 5 f 2 GHz dB 8 5 6 7 10 5 12 5 9 6 f 2 GHz dB 3 6 3 7 7 5 4 9 hFE Forward Current Gain at Vce 6 V Ic 10 mA 50 100 250 50 100 250 50 100 250 VcE 3V Ic 5mA 50 100 250 Collector Cutoff Current at Vcs 10 IE 0 mA uA 1 0 120 1 0 1 0 Emitter Cutoff Current at VEB 1V Ic 0 mA uA 1 0 1 0 1 0 1 0 Cre3 Feedback Capacitance at lE 0 mA f 1 MHz pF 0 3 0 7 Vce 10 V IE 0 mA f 1 MHz pF 0 3 0 8 0 2 0 7 0 25 0 8 PT Total Power Dissipation mW 150 200 290 200 RTH J A Thermal Resistance Junction to Ambient C W 833 620
13. EMITTER SCATTERING PARAMETERS 25 Coordinates in Ohms Frequency in GHz VcE 2 5 V Ic 1 mA NE68030 2 5 V Ic 1 mA FREQUENCY 511 S21 S12 S22 K MAG MHz MAG ANG MAG ANG MAG ANG MAG ANG dB 100 958 8 2 3 592 171 5 018 82 5 988 4 2 0 11 23 0 400 907 31 4 3 325 148 1 065 70 1 949 16 3 0 21 17 1 800 752 57 5 2 807 121 4 107 55 3 860 28 7 0 42 14 2 1000 672 68 0 2 541 110 8 122 50 3 814 33 2 0 53 13 2 1500 500 90 6 2 058 89 1 147 43 4 727 40 7 0 77 11 5 2000 371 108 7 1 705 71 5 157 41 1 687 46 7 0 99 10 4 2500 257 129 3 1 479 57 1 173 43 5 658 51 7 1 13 7 1 3000 472 41541 1331 45 0 194 46 5 638 56 6 1 18 5 8 2 5 V Ic 3 mA 100 907 14 6 9 563 166 7 018 75 1 983 8 1 0 19 27 3 400 706 47 3 7 296 131 3 056 64 8 832 23 2 0 43 21 1 800 461 72 5 4 9015 1032 084 57 3 687 31 8 0 74 17 7 1000 382 80 6 4 154 93 9 098 56 6 646 343 0 83 16 3 1500 238 95 8 2 979 76 9 131 56 1 585 37 7 1 00 13 6 2000 155 101 6 2 324 62 8 159 54 7 579 42 2 1 08 9 9 2500 078 107 6 1 940 51 3 194 54 2 570 47 0 1 09 8 2 3000 026 102 4 1 679 41 5 230 51 9 561 51 8 1 09 6 8 6 V 10 mA 100 769 21 7 20 130 156 0 015 80 5 936 10 5 0 25 31 3 400 403 60 5 11 068 113 0 039 69 4 679 20 7 0 77 24 5 600 281 70 3 7 969 100 1 052 70 5 6223 213 0 91 21 9 800 209 75 2 6 153 91 4 067 71 0 594 223 0 98 19 6 1000 158 77 4 4 995 84
14. VJC 0 79 Date 10 25 96 1 Gummel Poon Model NE680 SERIES NE68033 NONLINEAR MODEL SCHEMATIC Q1 CcBPKG Collector Base CcEPKG CBEPKG Emitter BJT NONLINEAR MODEL PARAMETERS UNITS Parameters Q1 Parameters Q1 Parameter Units IS 3 84e 16 MJC 0 64 time seconds BF 124 9 XCJC 0 capacitance farads NF 1 05 CJS 0 inductance henries VAF 11 9 VJS 0 75 resistance ohms IKF 0 027 MJS 0 voltage volts ISE 1 0e 14 FC 0 5 current amps NE 2 17 TF 8 7e 12 BR 1 XTF 18 ADDITIONAL PARAMETERS 188 AT 198 Parameters 68033 VAR Infinity ITF 0 082 0 08 12 IKR Infinity PTF 0 Dor 0 08e 12 ISC 0 TR 0 635e 9 Le 0 65e 9 NG 2 ES in Le 0 95e 9 RE B me 0 CcBPKG 0 1e 12 RB Tn ad B CCEPKG 0 1e 12 RM 1 02 9 CBEPKG 0 01e 12 IRB 4 01e 4 AF 1 Lex 0 3e 9 HO 105 Lox 0 5e 9 CJE 0 358e 12 Te 0 3e 9 VJE 0 71 MJE 0 5 MODEL RANGE CJC 0 162e 12 Frequency 0 05 to 3 0 GHz VIC 0 79 5 2 2 5 V to 6 V Ic 0 3 mA to 20 mA 1 Gummel Poon Model Note This nonlinear model utilized the latest data available See our Design Parameter Library at www cel com for this data NE680 SERIES NE68035 NONLINEAR MODEL
15. dB MAG ANG Rn 50 2 5 500 1 14 19 29 0 54 18 0 41 800 1 21 15 55 0 47 28 0 35 1000 1 26 14 04 0 42 39 0 29 1500 1 40 10 98 0 31 55 0 25 2000 1 62 9 34 0 16 97 0 19 VcE 6V Ic 5mA 500 1 5 20 60 0 52 3 0 52 1000 1 6 15 91 0 38 29 0 40 2000 1 7 10 82 0 18 81 0 26 3000 2 1 8 49 0 17 158 0 29 4000 2 6 7 21 0 40 116 0 31 NE680 SERIES TYPICAL COMMON EMITTER SCATTERING PARAMETERS 25 180 Coordinates in Ohms Frequency in GHz VcE 2 5 V Ic 1 mA NE68018 2 5 V Ic 1 mA FREQUENCY S11 S21 S12 S22 K MAG MHz MAG ANG MAG ANG MAG ANG MAG ANG dB 100 972 9 4 3 605 170 2 017 81 6 995 3 5 0 12 23 3 400 907 34 2 3 315 146 5 061 65 5 966 20 2 0 19 17 4 800 778 65 1 2 897 118 1 1104 45 6 1874 37 5 0 35 14 4 1000 706 78 9 2 678 105 8 1114 38 1 841 44 3 0 42 13 7 1500 561 111 0 2 173 78 7 1135 21 4 755 58 4 0 65 12 1 2000 457 139 5 1 800 56 6 147 11 8 712 70 4 0 82 10 9 2500 389 166 6 1 545 37 3 145 4 8 668 80 5 1 08 8 5 3000 356 167 0 1 358 20 7 150 24 651 90 6 1 20 6 9 2 5 V Ic mA 100 884 12 9 9 246 166 6 018 Tf 964 8 5 0 19 27 1 400 729 52 2 7 715 132 3 056 58 5 864 27 8 0 34 21 4 800 507 90 1 5 509 101 2 073 41 2 704 43 7 0 63 18 8 1000 430 105 8 4 722 89 8 087 38 3 657 48 3 0 71 17 3 1500 312 138 0 3 398 66 8 110 35 6 591 58 8 0 88 14 9 2000 259 167 5 2 645
16. 0 200 100 DC POWER DERATING CURVES NE68035 50 100 150 200 Ambient Temperature TA NE68033 INSERTION GAIN vs COLLECTOR CURRENT 12 VcE 6V f 2 GHz 10 P NE68033 S 8 c 5 6 c o 4 2 0 1 2 3 5 7 10 20 30 5070 100 Collector Current Ic mA NE68035 FORWARD INSERTION GAIN AND MAXIMUM AVAILABLE GAIN vs FREQUENCY 30 e B 25 lt gt 20 2 15 S T gt lt x 10 E 2 E 5 oO 0 1 0 2 03 0 50 7 1 2 3 5 7 10 Frequency f GHz NE680 SERIES TYPICAL PERFORMANCE CURVES 25 Noise Figure NF dB DC Forward Current Gain hFE Collector to Base Capacitance pF FORWARD CURRENT GAIN vs COLLECTOR CURRENT T VcE 6V 1 2 3 5 7 10 20 30 50 Collector Current 1 mA NE68035 NOISE FIGURE vs COLLECTOR CURRENT VcE 6V f 4 GHz f 2 GHz 1 2 3 5 7 10 20 Collector Current Ic mA COLLECTOR TO BASE CAPACITANCE vs COLLECTOR TO BASE VOLTAGE NE68033 NE68035 1 2 3 5 7 10 20
17. 12 2 S12 S21 MAG Maximum Available Gain MSG Maximum Stable Gain NE680 SERIES TYPICAL COMMON EMITTER SCATTERING PARAMETERS 25 Coordinates in Ohms Frequency in GHz 2 5 V Ic 3 mA 270 NE68039 2 5 V Ic mA FREQUENCY 511 S21 S12 S22 K MAG MHz MAG ANG MAG ANG MAG ANG MAG ANG dB 50 0 935 5 8 9 685 173 9 0 007 83 3 0 990 3 7 0 11 31 4 100 0 903 15 3 9 393 168 4 0 015 79 8 0 984 6 0 0 10 28 0 200 0 826 26 3 8 809 154 7 0 028 72 7 0 951 11 7 0 25 25 0 300 0 770 38 7 8 225 144 2 0 039 68 7 0 899 16 2 0 31 23 2 400 0 690 49 6 7 593 134 7 0 051 64 6 0 850 19 6 0 40 21 7 500 0 618 58 1 6 894 126 4 0 060 62 3 0 806 21 9 0 48 20 6 600 0 545 67 5 6 290 119 4 0 067 59 4 0 759 24 0 0 56 19 7 800 0 436 83 4 5 266 107 3 0 079 56 5 0 689 26 3 0 70 18 2 1000 0 353 98 2 4 489 98 4 0 089 56 3 0 688 27 6 0 81 17 0 1500 0 232 138 6 3 270 80 4 0 114 56 3 0 555 312 0 99 14 6 2000 0 217 177 0 2 573 66 5 0 138 57 7 0 502 36 5 1 08 11 0 2500 0 262 154 2 2 148 54 6 0 168 57 2 0 456 43 4 1 08 9 3 3000 0 314 136 1 1 860 44 2 0 201 56 8 0 428 53 6 1 05 8 3 VCE 6 V mA 100 0 918 10 8 888 168 0 001 81 0 989 5 0 29 39 5 200 0 891 22 8 546 158 0 003 76 0 981 8 0 26 34 5 400 0 757 41 7 606 141 0 024 71 0 915 14 0 32 25 0 600 0 634 55 6 430 125 0 045 65 0 822 18 0 54 21 5 800 0 511 68 5 638 115 0 057 62 0 757 20 0 69 20 0 1000 0 405 78 4 839 105
18. 2 079 70 8 582 23 3 1 04 16 8 1200 129 81 3 4 190 78 8 096 72 2 564 26 1 1 05 15 0 1400 087 81 5 3 651 74 8 112 70 8 551 26 6 1 06 13 6 1600 062 77 2 3 247 69 3 129 69 3 556 28 7 1 05 12 6 1800 041 71 7 2 915 64 9 142 68 2 555 30 6 1 05 11 8 2000 025 76 9 2 655 60 6 157 66 5 555 32 9 1 05 10 9 2500 022 34 5 2 171 541 5 192 63 8 549 38 7 1 05 9 2 3000 048 59 7 1 874 43 0 229 61 2 542 43 8 1 03 8 1 3500 080 65 8 1 658 35 3 270 58 0 530 50 4 1 01 7 3 4000 126 68 2 1 514 28 0 314 53 3 514 576 0 98 6 8 4500 41161 70 1 1 411 20 7 357 49 4 478 66 2 0 97 6 0 5000 232 68 1 1 330 13 9 406 45 0 426 76 0 0 95 5 2 Note 1 Gain Calculations MAG 1 When 1 MAG is undefined and MSG values are used MSG E K Har Sar 152212 A S11 S22 S21 S12 12 12 12 21 MAG Maximum Available Gain MSG Maximum Stable Gain NE680 SERIES TYPICAL COMMON EMITTER SCATTERING PARAMETERS 25 Coordinates in Ohms Frequency in GHz 2 5 V Ic 1 mA NE68033 2 5 V Ic 1 mA FREQUENCY 8 S21 S12 S22 K MAG MHz MAG ANG MAG ANG MAG ANG MAG ANG dB 100 967 8 2 3 635 170 6 019 81 5 990 4 1 0 14 22 8 400 903 29 4 3 254 147 9 069 71 0 948 16 8 0 23 16 7 800 732 53 1 2 758 121 3 116 56 2 846 29 0 0 48 13 8 1000 658 62 8 2 508 110 3 1131 51 9 801 33 5 0 58 12 8 1500 478 83 0 2 043 88 2 154 46 9 715 41 4 0 82 11 2 2000 3
19. 3 2 20 629 162 3 008 75 9 972 8 0 0 16 33 9 500 534 96 2 12 610 115 8 027 53 3 746 22 7 0 52 26 8 1000 434 138 0 7 284 91 5 037 50 8 649 27 2 0 84 23 0 1500 401 160 0 5 035 77 3 046 52 5 625 32 3 1 02 19 6 2000 397 174 9 3 852 65 7 057 53 2 619 38 6 1 07 16 6 2500 394 173 1 3 133 55 4 068 52 7 622 45 5 1 09 14 8 3000 396 162 7 2 626 45 8 079 51 7 627 52 7 1 09 13 4 3500 393 153 2 2 261 36 7 091 50 0 637 60 1 1 07 12 3 4000 394 145 2 2 000 28 2 103 47 6 648 67 5 1 04 11 7 4500 392 137 3 1 785 19 8 115 45 3 660 75 0 1 01 11 3 5000 391 129 4 1 619 11 7 128 42 8 672 82 1 0 97 11 0 6 V Ic 20 mA 100 593 45 9 25 683 152 5 008 73 6 933 9 6 0 20 35 3 500 463 132 6 11 309 103 7 019 54 1 713 18 0 0 80 27 7 1000 443 163 8 6 056 83 9 029 58 6 672 22 6 1 09 21 4 1500 436 178 8 4 124 71 6 039 61 6 664 29 1 1 21 17 5 2000 443 170 3 3 140 60 8 051 62 0 665 36 5 1 20 15 2 2500 448 160 8 2 547 50 9 062 61 3 670 44 1 1 18 13 6 3000 453 152 3 2 132 41 5 074 60 0 677 52 0 1 13 12 4 3500 454 144 1 1 832 32 5 087 58 0 687 59 9 1 09 11 4 4000 459 136 7 1 618 24 0 099 55 4 697 67 8 1 03 11 1 4500 460 129 2 1 441 15 7 112 52 9 708 75 7 0 98 11 1 5000 461 121 6 1 304 7 7 127 50 2 718 83 1 0 92 10 1 Note 1 Gain Calculations MAG 92 1 When lt 1 MAG is undefined and MSG values are used MSG 1514 Sea A S11 S22 S21 S12 S12 S
20. 30 50 Collector to Base Voltage V Noise Figure NF dB Gain Bandwidth Product fr GHz NE68033 NOISE FIGURE vs COLLECTOR CURRENT 1 2 3 5 7 10 20 Collector Current Ic mA GAIN BANDWIDTH PRODUCT vs COLLECTOR CURRENT 10 6 V 7 5 3 2 1 1 2 5 7 10 20 Collector Current Ic mA NE680 SERIES NE68018 TYPICAL NOISE PARAMETERS 25 c FREQ NFopt Ga Topt MHz dB dB MAG ANG Rn 50 Vce 3 V Ic 5 mA 500 1 45 20 74 0 46 22 0 41 800 1 50 17 44 0 39 44 0 32 1000 1 55 15 79 0 34 54 0 29 2000 1 90 9 96 0 24 76 0 26 3000 2 40 7 26 0 16 130 0 12 Vce 6 V 5 500 1 5 21 20 47 21 0 44 800 1 6 17 50 38 36 0 31 1000 1 6 15 63 44 47 0 43 2000 2 1 10 20 32 81 0 27 3000 2 4 7 49 19 125 0 14 NE68019 TYPICAL NOISE PARAMETERS 25 FREQ NFopt Ga Topt MHz dB dB MAG ANG Rn 50 3 V 5mA 500 1 36 19 2 0 52 18 0 47 800 1 47 15 7 0 48 33 0 33 1000 1 55 14 0 0 46 41 0 31 1500 1 71 11 0 0 42 58 0 27 2000 1 88 9 0 0 32 75 0 22 2500 2 06 7 4 0 27 86 0 18 3000 2 29 6 0 0 22 103 0 12 6 Ic 5 mA 500 1 36 19 44 0 56 16 0 50 800 1 47 15 86 0 54 30 0 36 1000
21. 49 100 5 1 708 71 1 173 46 2 663 47 5 1 00 9 9 2500 242 114 6 1 507 56 5 194 48 6 633 53 4 1 10 7 0 3000 155 136 7 1 371 44 6 227 50 9 609 59 7 1 11 5 8 VCE 2 5 V mA 100 906 13 9 9 367 165 4 019 84 5 972 7 4 0 1 26 9 400 704 43 9 7 037 130 3 058 65 0 821 23 5 0 48 20 8 800 448 64 8 4 712 103 1 093 60 4 670 31 2 0 78 17 0 1000 370 71 3 3 960 93 7 106 59 8 632 33 1 0 88 15 7 1500 241 80 5 2 864 76 6 144 59 3 582 37 1 1 00 13 0 2000 167 85 7 2 263 63 0 181 58 0 563 41 8 1 05 9 6 2500 104 81 4 1 916 51 6 221 56 3 552 47 0 1 06 7 9 3000 065 78 4 1 700 41 6 264 53 4 541 53 3 1 03 7 0 6 10 50 817 10 6 21 366 168 2 006 85 7 974 5 5 0 13 35 5 100 769 21 7 20 130 156 0 015 80 5 936 10 5 0 25 31 3 200 628 40 1 16 661 136 5 024 71 6 826 17 6 0 48 28 4 400 403 60 5 11 063 113 0 039 69 4 679 20 7 0 77 24 5 600 281 70 3 7 969 100 1 052 70 5 623 21 3 0 91 21 9 800 209 75 2 6 153 91 4 067 71 0 594 22 3 0 98 19 6 1000 158 77 4 4 995 84 2 079 70 8 582 23 3 1 04 16 8 1200 129 81 3 4190 78 8 096 72 2 564 26 1 1 05 15 0 1400 087 81 5 3 651 74 3 12 70 8 551 26 6 1 06 13 6 1600 062 77 2 3 247 69 3 129 69 3 556 28 7 1 05 12 6 1800 041 71 7 2 915 649 142 68 2 555 30 6 1 05 11 8 2000 025 76 9 2 655 60 6 157 66 5 555 32 9 1 05 10 9 2500 022 34 5 2 171 51 5 192 63 8 549 38 7 1 05 9 2 3000 048 59 7 1 874 43 0 22
22. 7 0 68 11 5 2000 453 130 7 1 721 59 1 155 17 5 0 695 63 8 0 90 10 5 2500 364 156 6 1 497 40 9 162 13 5 0 658 71 6 1 08 7 9 3000 303 174 5 1 355 24 5 176 9 9 0 624 79 9 1 19 6 2 VCE 2 5 V Ic 3 mA 100 905 15 3 9 292 165 2 018 81 0 968 9 4 0 10 27 1 400 726 52 5 7 492 131 0 057 60 9 848 28 7 0 34 21 2 800 505 87 4 5 221 100 5 083 46 2 684 42 7 0 63 18 0 1000 428 100 0 4 439 89 5 093 42 5 638 46 9 0 75 16 8 1500 302 126 3 3 211 67 8 116 36 3 582 54 4 0 95 14 4 2000 223 149 5 2 520 50 2 138 33 0 551 61 4 1 08 10 9 2500 172 177 0 2 100 34 7 163 28 4 532 67 6 1 13 8 9 3000 149 150 7 1 831 20 4 191 22 6 507 75 5 1 15 7 5 VcE 6 V Ic 5 mA 100 849 18 0 13 629 162 0 018 85 2 949 9 6 0 11 28 8 400 613 60 8 9 820 123 1 050 60 7 789 29 4 0 45 22 9 800 386 93 9 6 206 93 8 067 49 2 639 39 2 0 79 19 7 1000 317 105 5 5 157 83 9 079 47 3 607 42 2 0 87 18 1 1500 215 128 5 3 615 64 1 102 43 3 575 49 1 1 02 14 6 2000 149 149 7 2 786 47 9 127 39 9 563 55 7 1 09 11 6 2500 103 178 6 2 298 33 5 156 34 0 552 62 3 1 10 9 80 3000 092 143 3 1 989 20 1 185 28 9 537 70 2 1 10 8 40 Note 1 Gain Calculations MAG S2tL 1 When lt 1 MAG is undefined and MSG values are used MSG 1414 81142 522 A S11 S22 S21 S12 5121 S12 2 S12 S21 MAG Maximum Available Gain MSG Maximum Stable Gain NE680 SERIES TYPICAL COMMON
23. 9 61 2 542 43 8 1 03 8 1 3500 080 65 8 1 658 35 3 270 58 0 530 50 4 1 01 7 3 4000 126 68 2 1 514 28 0 1314 53 3 1514 57 6 0 98 6 8 4500 161 70 1 1411 207 357 49 4 478 66 2 0 97 6 0 5000 232 68 1 1 330 13 9 406 45 0 426 76 0 0 95 5 2 Note 1 Gain Calculations MAG 921 1 When K lt 1 MAG is undefined and MSG values are used MSG SZL 1 1412 151112 5222 S11 S22 S21 S12 S12 S12 2 S12 S21 MAG Maximum Available Gain MSG Maximum Stable Gain NE680 SERIES TYPICAL COMMON EMITTER SCATTERING PARAMETERS 25 180 Coordinates in Ohms Frequency in GHz VcE 6 V Ic 5 mA NE68035 VcE 6 V Ic 5 mA FREQUENCY S11 S21 S12 S22 K MAG MHz MAG ANG MAG ANG MAG ANG MAG ANG dB 100 869 13 4 12 862 167 5 009 83 8 989 5 8 0 07 31 4 500 682 69 0 9 959 128 3 034 55 9 834 22 2 0 36 24 6 1000 518 111 7 6 550 100 6 047 45 2 706 30 0 0 64 21 4 1500 440 137 9 4 709 83 9 056 43 5 658 35 4 0 85 19 3 2000 414 156 8 3 658 70 8 064 43 2 642 41 5 0 98 17 6 2500 400 171 6 3 004 59 6 073 43 2 637 48 0 1 04 14 9 3000 392 175 7 2 527 49 3 083 42 8 639 55 0 1 08 13 1 3500 385 164 5 2 182 39 8 093 41 9 646 62 2 1 10 11 8 4000 382 155 2 1 973 30 9 103 40 4 654 69 4 1 08 11 0 4500 376 146 2 1 733 22 3 114 38 9 664 76 7 1 07 10 3 5000 372 137 8 1 575 14 0 126 37 0 675 83 7 1 03 9 9 6 10 100 766 2
24. Emitter 2 Base ES 3 Collector 5 to 0 1 y 30 10 0 16 906 PACKAGE OUTLINE 39 0 2 28 03 02 1 5107 gt 40 10 0 4 0 05 EADS 2 3 4 LY 1 9 PIN CONNECTIONS m o oS 1 Collector 2 Emitter 3 Base 4 Emitter EC to 0 1 PACKAGE OUTLINE 39R 4 5 40 10 04 005 LEADS 1 3 4 PIN CONNECTIONS 1 Emitter FE 2 Collector 01 08 0160 06 3 Emitter 4 PACKAGE OUTLINE 33 RECOMMENDED P C B LAYOUT 24 2 PN 3 SIR 1 9 os NOS 1 1 0 PACKAGE OUTLINE 39 RECOMMENDED P C B LAYOUT 24 gt 2 3 1 9 N XC 1 0 1 10 PACKAGE OUTLINE 39 RECOMMENDED P C B LAYOUT 24 6 2 3 7 1 9 0 1 4 1 0 NE680 SERIES ORDERING INFORMATION PART NUMBER QUANTITY PACKAGING NE68800 100 Waffle Pack NE68018 T1 3000 Tape amp Reel NE68019 T1 3000 Tape amp Reel NE68030 T1 3000 Tape amp Reel NE68033 T1B 3000 Tape amp Reel NE68035 1 ESD Bag s NE68039 T1 3000 Tape amp Reel N Tm
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