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SILICON TRANSISTOR NE680 SERIES NPN SILICON HIGH FREQUENCY TRANSISTOR FEATURES HIGH GAIN BANDWIDTH PRODUCT: ft = 0 GHz LOW NOISE FIGURE:.7 db at GHz.6 db at GHz HIGH ASSOCIATED GAIN:. db at GHz 8.0 db at GHz EXCELLENT LOW VOLTAGE LOW CURRENT PERFORMANCE DESCRIPTION The 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..0..0 PLEASE NOTE: The following part numbers from this datasheet are not recommended for new design. Please call sales office for details: NE680 NE6809R up to 6 GHz. The NE680 die is also available in six different low cost plastic surface mount package styles. The NE680's high ft makes it ideal for low voltage/low current applications, down to as low as 0. V / 0. ma. IC max for the NE680 series is ma. For higher current applications see the NE68 series. NF (db) Noise Figure, NE6808 NOISE FIGURE & ASSOCIATED GAIN vs. FREQUENCY 6V, ma V, ma 0 0 A ssociated Gain, G A (db ) B E 00 (CHIP) (MICRO-X) 8 (SOT STYLE) 9 ( PIN ULTRA SUPER MINI MOLD) 0 (SOT STYLE) (SOT STYLE) 9 (SOT STYLE) 9R (SOT R STYLE). 00 00 000 000 000 Frequency, f (GHz) California Eastern Laboratories

ELECTRICAL CHARACTERISTICS (TA = C) PART NUMBER NE68000 NE6808 NE6809 EIAJ REGISTERED NUMBER SC0 SC008 PACKAGE OUTLINE 00 (CHIP) 8 9 SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN TYP MAX MIN TYP MAX MIN TYP MAX ft Gain Bandwidth Product at VCE = 6 V, IC = 0 ma GHz 0 0 0 NF Noise Figure at VCE = 6 V, IC = ma, f = GHz db.6.7 f = GHz db.7..8.9 f = GHz db.6 GNF Associated Gain at VCE = 6 V, IC = ma, f = GHz db. f = GHz db. 0. 9.6 f = GHz db 8 MAG Maximum Available Gain at VCE = 6 V, IC = 0 ma f = GHz db 8. 9 8. f = GHz db 6..7.8 f = GHz db 0. 8. 7. SE Insertion Power Gain at VCE = 6 V, IC = 0 ma, f = GHz db 7. f = GHz db 0.. 7. 9.8 9. f = GHz db 7..6. hfe Forward Current Gain at VCE = 6 V, IC = 0 ma 0 00 0 0 00 0 VCE = V, IC = ma 80 60 ICBO Collector Cutoff Current at VCB = 0 V, IE = 0 ma µa.0.0.0 IEBO Emitter Cutoff Current at VEB = V, IC = 0 ma µa.0.0.0 CRE Feedback Capacitance at VCB = V, IE = 0 ma, f = MHz pf 0. 0.7 0. 0.7 PT Total Power Dissipation mw 00 0 00 RTH (J-A) Thermal Resistance (Junction to Ambient) C/W 8 000 RTH (J- C) Thermal Resistance (Junction to Case) C/W 0 00 00 ELECTRICAL CHARACTERISTICS (TA = C) PART NUMBER NE6800 NE680 NE680 NE6809/9R EIAJ REGISTERED NUMBER SC8 SC8 SC87 SC09 PACKAGE OUTLINE 0 9 SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN TYP MAX MIN TYP MAX MIN TYP MAX MIN TYP MAX ft Gain Bandwidth Product at VCE = 6 V, IC = 0 ma GHz 0 0 0 0 NF Noise Figure at VCE = 6 V, IC = ma, f = GHz db..6 f = GHz db.7.8.0.7..7. f = GHz db.9..6.6 GNF Associated Gain at VCE = 6 V, IC = ma, f = GHz db..0 f = GHz db 9. 9.0. f = GHz db.. 8 6. MAG Maximum Available Gain at VCE = 6 V, IC = 0 ma f = GHz db 7 7 8. 8 f = GHz db 0.9 0.9 6.. f = GHz db 6.8 6.7 0. 8.7 SE Insertion Power Gain at VCE = 6 V, IC = 0 ma, f = GHz db. 7. f = GHz db 8. 6.7 0.. 9.6 f = GHz db.6.7 7..9 hfe Forward Current Gain at VCE = 6 V, IC = 0 ma 0 00 0 0 00 0 0 00 0 VCE = V, IC = ma 0 00 0 ICBO Collector Cutoff Current at VCB = 0 V, IE = 0 ma µa.0.0.0.0 IEBO Emitter Cutoff Current at VEB = V, IC = 0 ma µa.0.0.0.0 Cre Feedback Capacitance at VCB = V, IE = 0 ma, f = MHz pf 0. 0.7 VCE = 0 V, IE = 0 ma, f = MHz pf 0. 0.8 0. 0.7 0. 0.8 PT Total Power Dissipation mw 0 00 90 00 RTH (J-A) Thermal Resistance (Junction to Ambient) C/W 8 60 0 60 RTH (J- C) Thermal Resistance (Junction to Case) C/W 00 00 00 00 Notes:. Electronic Industrial Association of Japan.. Pulsed measurement, PW 0 µs, duty cycle %.. The emitter terminal should be connected to the ground terminal of the terminal capacitance bridge.

ABSOLUTE MAXIMUM RATINGS (TA = C) DC POWER DERATING CURVES SYMBOLS PARAMETERS UNITS RATINGS 00 VCBO Collector to Base Voltage V 0 VCEO Collector to Emitter Voltage V 0 VEBO Emitter to Base Voltage V. IC Collector Current ma TJ Junction Temperature C 0 TSTG Storage Temperature C -6 to +0 Notes:. Operation in excess of any one of these parameters may result in permanent damage.. Maximum TJ for the NE680 is 00 C. Total Power Dissipation, PT (mw) 00 00 00 NE680 NE6809 NE6809 NE680 0 0 0 00 0 00 Ambient Temperature, TA ( C) TYPICAL PERFORMANCE CURVES (TA = C) NE680 INSERTION GAIN vs. COLLECTOR CURRENT NE680 INSERTION GAIN vs. COLLECTOR CURRENT Insertion Gain, S (db) Maximum Available Gain, MAG (db) Insertion Gain, S (db) 0 9 8 7 6 0 0 0 7 0 0 0 0 70 00 S MAG VCE = 6 V f = GHz f = GHz f = GHz Collector Current, IC (ma) NE6809 FORWARD INSERTION GAIN AND MAXIMUM AVAILABLE GAIN vs. FREQUENCY Insertion Gain, S (db) Insertion Gain, S (db) Maximum Available Gain, MAG (db) 0 8 6 0 0 0 0 NE680 VCE = 6 V f = GHz 7 0 0 0 0 70 00 Collector Current, IC (ma) NE680 FORWARD INSERTION GAIN AND MAXIMUM AVAILABLE GAIN vs. FREQUENCY S VCE = 6 V IC = 0 ma MAG 0 0 0. 0. 0. 0. 0.7 7 0 0. 0. 0. 0. 0.7 7 0 Frequency, f (GHz) Frequency, f (GHz)

TYPICAL PERFORMANCE CURVES (TA = C) FORWARD CURRENT GAIN vs. COLLECTOR CURRENT NE680 NOISE FIGURE vs. COLLECTOR CURRENT DC Forward Current Gain, hfe 00 00 00 00 70 0 0 0 VCE = 6 V Noise Figure, NF (db) VCE = 6 V f = GHz 0 0 7 0 0 0 0 7 0 0 Collector Current, IC (ma) Collector Current, IC (ma) NE680 NOISE FIGURE vs. COLLECTOR CURRENT GAIN BANDWIDTH PRODUCT vs. COLLECTOR CURRENT Noise Figure, NF (db) f = GHz f = GHz VCE = 6 V Gain Bandwidth Product, ft (GHz) 0 7 VCE = 6 V 0 7 0 0 Collector Current, IC (ma) 7 0 0 Collector Current, IC (ma) COLLECTOR TO BASE CAPACITANCE vs. COLLECTOR TO BASE VOLTAGE Collector to Base Capacitance, COB (pf) 0.7 0. 0. 0. 0. NE680 NE680 7 0 0 0 0 Collector to Base Voltage, VCB (V)

NE6808 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/0 VCE = V, IC = ma 00. 0.7 0.6 0. 800.0 7. 0.9 0. 000..79 0. 0.9 000.90 9.96 0. 76 0.6 000.0 7.6 0.6 0 0. VCE = 6 V, IC = ma 00..0.7 0. 800.6 7.0.8 6 0. 000.6.6. 7 0. 000. 0.0. 8 0.7 000. 7.9.9 0. NE6809 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/0 VCE = V, IC = ma 00.6 9. 0. 8 0.7 800.7.7 0.8 0. 000..0 0.6 0. 00.7.0 0. 8 0.7 000.88 9.0 0. 7 0. 00.06 7. 0.7 86 0.8 000.9 6.0 0. 0 0. VCE = 6 V, IC = ma 00.6 9. 0.6 6 0.0 800.7.86 0. 0 0.6 000..6 0. 9 0. 00.7. 0.8 8 0.0 000.88 9.9 0.6 77 0.7 00.06 7.89 0.0 88 0. 000.9 6.7 0. 0 0.7 NE680 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/0 VCE = 6 V, IC = ma 000. 9. 0.0 6 0.7 000.7.9 0.0 0.0 000.6 9. 0. -8 0. NE6800 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/0 VCE =. V, IC = ma 00..79 0.79.60 800.8.9 0.7 0. 000.8. 0.69.08 00.8.87 0.6 6 0.9 000..8 0.9 78 0.7 VCE = 6 V, IC = ma 000. 6.9 0.6 6 0. 000.76 0.70 0.7-9 0. 000. 7.6 0.6-0. 000.9.8 0. - 0.6 NE680 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/0 VCE =. V, IC = ma 00.0 8.6 0.6 0.6 800.0.6 0.60 0. 000.7.6 0. 0.9 00. 9.80 0.7 8 0.6 000.6 7.76 0.9 0. VCE = 6 V, IC = ma 00. 9. 0.60 7 0.60 000..0 0. 0.8 000.70 9.8 0. 0. 000.0 6.60 0. - 0.0 000.. 0.8-6 0.7 NE6809 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/0 VCE =. V, IC = ma 00. 9.9 0. 8 0. 800.. 0.7 8 0. 000.6.0 0. 9 0.9 00.0 0.98 0. 0. 000.6 9. 0.6 97 0.9 VCE = 6 V, IC = ma 00. 0.60 0. 0. 000.6.9 0.8 9 0.0 000.7 0.8 0.8 8 0.6 000. 8.9 0.7-8 0.9 000.6 7. 0.0-6 0.

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = C)..6.8. 90. 0...6.8. 0 0 -. -. S GHz -.6 -.8 - S GHz -. S 0. GHz - - S 0. GHz - - 0 0-0 -0 Coordinates in Ohms Frequency in GHz (VCE =. V, IC = ma) 80 S GHz S 0. GHz. S 0. GHz 70 0. 0. S GHz 0 NE6808 VCE =. V, IC = ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 00.97-9..60 70..07 8.6.99 -. 00.907 -.. 6..06 6..966-0. 800.778-6..897 8..0.6.87-7. 000.706-78.9.678 0.8. 8..8 -. 00.6 -.0.7 78.7...7-8. 000.7-9..800 6.6.7.8.7-70. 00.89-66.6. 7...8.668-80. 000.6 67.0.8 0.7.0..6-90.6 VCE =. V, IC = ma 00.88 -.9 9.6 66.6.08 77.7.96-8. 00.79 -. 7.7..06 8..86-7.8 800.07-90..09 0..07..70 -.7 000.0-0.8.7 89.8.087 8..67-8. 00. -8.0.98 66.8.0.6.9-8.8 000.9-67..6 8..0 7..6-69.0 00. 6.8.89..7.. -78. 000. 9..876 6.9.6 8..9-87.7 VCE = 6 V, IC = ma 00.88-7.7.66 6..0 80..96-9. 00.60-6. 0.6..07 6..89-8. 800.8-99. 6.60 9..06 8.9.66-0. 000. -.8.6 8.9.067 7.8.60 -.7 00. -9..8 6.0.09..87 -. 000.88-78.0.96.9..0.69-6.6 00.8.8.7 0..0.0.67-7. 000.7 9.0.06 6....6-8. 0.. 0.9 7. 0.. 0..7 0.6. 0.8 0.9.08 8..0 6.9 0.9 7. 0.. 0.6 8.8 0.7 7. 0.88.9.07.8. 9.7. 8. 0. 0.6 0.. 0.7 0. 0.8 9. 0.97 6..07.6.0 0.8.0 9. Note:.Gain Calculations: MAG = S S (K ± When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S S K - ). MAG = Maximum Available Gain MSG = Maximum Stable Gain

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = C)..6.8. 90. S GHz S 0 0. GHz 0 0 0...6.8. 0 S 0. GHz -0-0 80 S GHz S 0. GHz S 0. GHz 0. S GHz 0 -. -. -.6 -.8 - S GHz -. - - - - Coordinates in Ohms Frequency in GHz (VCE =. V, IC = ma). 70 NE6809 VCE =. V, IC = ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 0.0. 0.7 7.0 0.7.0 0.6.0 0.68. 0.90 0..08 7.9.9 6. 00.97-9.9.6 69..07 8.6 0.996-6. 00.90 -.9.07.8.06 66.7 0.96-0. 800.77-6..7 7..0 6. 0.869-6.6 000.706-78.0. 0..6 8. 0.89 -. 00.6-06..0 80.0.6. 0.7 -.7 000. -0.7.7 9.. 7. 0.69-6.8 00.6-6.6.97 0.9.6. 0.68-7.6 000.0 7....76 9.9 0.6-79.9 VCE =. V, IC = ma 00.90 -. 9.9 6..08 8.0.968-9. 00.76 -. 7.9.0.07 60.9.88-8.7 800.0-87.. 00..08 6..68 -.7 000.8-00.0.9 89..09..68-6.9 00.0-6.. 67.8.6 6..8 -. 000. -9..0 0..8.0. -6. 00.7-77.0.00.7.6 8.. -67.6 000.9 0.7.8 0..9.6.07-7. VCE = 6 V, IC = ma 00.89-8.0.69 6.0.08 8..99-9.6 00.6-60.8 9.80..00 60.7.789-9. 800.86-9.9 6.06 9.8.067 9..69-9. 000.7-0..7 8.9.079 7..607 -. 00. -8..6 6..0..7-9. 000.9-9.7.786 7.9.7 9.9.6 -.7 00.0-78.6.98..6.0. -6. 000.09..989 0..8 8.9.7-70. 0.0 7. 0.. 0.6 8.0 0.7 6.8 0.9..08 0.9. 8.9. 7. 0. 8.8 0..9 0.79 9.7 0.87 8..0.6.09.6.0 9.80.0 8.0 Note:.Gain Calculations: MAG = S S (K ± When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S S K - ). MAG = Maximum Available Gain MSG = Maximum Stable Gain

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = C)..6.8. 90 S GHz. S 0. GHz 0 0 0...6.8. 0 0 -. -. -.6 S GHz -.8 - S GHz S 0. GHz -. - - - - -0-0 Coordinates in Ohms Frequency in GHz (VCE =. V, IC = ma) 80 S GHz S 0. GHz. 70 S 0. GHz 0. 0 NE6800 VCE =. V, IC = ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 00.98-8..9 7..08 8..988 -. 00.907 -.. 8..06 70..99-6. 800.7-7..807..07..860-8.7 000.67-68.0. 0.8. 0..8 -. 00.00-90.6.08 89..7..77-0.7 000.7-08.7.70 7..7..687-6.7 00.7-9..79 7..7..68 -.7 000.7 -...0.9 6..68-6.6 0..0 0. 7. 0.. 0.. 0.77. 0.99 0.. 7..8.8 VCE =. V, IC = ma 00.907 -.6 9.6 66.7.08 7..98-8. 00.706-7. 7.96..06 6.8.8 -. 800.6-7..9 0..08 7..687 -.8 000.8-80.6. 9.9.098 6.6.66 -. 00.8-9.8.979 76.9. 6..8-7.7 000. -0.6. 6.8.9.7.79 -. 00.078-07.6.90..9..70-7.0 000.06-0..679..0.9.6 -.8 VCE = 6 V, IC = 0 ma 00.769 -.7 0.0 6.0.0 80..96-0. 00.0-60..06.0.09 69..679-0.7 600.8-70. 7.969 00..0 70..6 -. 800.09-7. 6. 9..067 7.0.9 -. 000.8-77..99 8..079 70.8.8 -. 00.9-8..90 78.8.096 7..6-6. 00.087-8..6 7.. 70.8. -6.6 600.06-77..7 69..9 69..6-8.7 800.0-7.7.9 6.9. 68.. -0.6 000.0-76.9.6 60.6.7 66.. -.9 00.0..7..9 6.8.9-8.7 000.08 9.7.87.0.9 6.. -.8 00.080 6.8.68..70 8.0.0-0. 000.6 68.. 8.0... -7.6 00.6 70.. 0.7.7 9..78-66. 000. 68..0.9.06.0.6-76.0 0.9 7. 0.. 0.7 7.7 0.8 6..00.6.08 9.9.09 8..09 6.8 0.. 0.77. 0.9.9 0.98 9.6.0 6.8.0.0.06.6.0.6.0.8.0 0.9.0 9..0 8..0 7. 0.98 6.8 0.97 6.0 0.9. Note:.Gain Calculations: MAG = S S (K ± When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S S K - ). MAG = Maximum Available Gain MSG = Maximum Stable Gain

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = C).8..6.. S 0. GHz 0 0 0...6.8. 0 0 -. -. -.6 S GHz NE680 VCE =. V, IC = ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 00.967-8..6 70.6.09 8..990 -. 00.90-9.. 7.9.069 7.0.98-6.8 800.7 -..78..6 6..86-9.0 000.68-6.8.08 0...9.80 -. 00.78-8.0.0 88.. 6.9.7 -. 000.9-00..708 7..7 6..66-7. 00. -.6.07 6..9 8.6.6 -. 000. -6.7.7.6.7 0.9.609-9.7 VCE =. V, IC = ma -.8 - S GHz -. S 0. GHz - - - - -0-0 Coordinates in Ohms Frequency in GHz (VCE =. V, IC = ma) 80 S GHz 90 S 0. GHz. 70 S GHz S 0. GHz 0. 0. 0..8 0. 6.7 0.8.8 0.8.8 0.8..00 9.9.0 7.0..8 0 00.906 -.9 9.67 6..09 8..97-7. 00.70 -.9 7.07 0..08 6.0.8 -. 800.8-6.8.7 0..09 60..670 -. 000.70-7..960 9.7.06 9.8.6 -. 00. -80..86 76.6. 9..8-7. 000.67-8.7.6 6.0.8 8.0.6 -.8 00.0-8..96.6. 6.. -7.0 000.06-78..700.6.6.. -. VCE = 6 V, IC = 0 ma 0.87-0.6.66 68..006 8.7.97 -. 00.769 -.7 0.0 6.0.0 80..96-0. 00.68-0. 6.66 6..0 7.6.86-7.6 00.0-60..06.0.09 69..679-0.7 600.8-70. 7.969 00..0 70..6 -. 800.09-7. 6. 9..067 7.0.9 -. 000.8-77..99 8..079 70.8.8 -. 00.9-8..90 78.8.096 7..6-6. 00.087-8..6 7.. 70.8. -6.6 600.06-77..7 69..9 69..6-8.7 800.0-7.7.9 6.9. 68.. -0.6 000.0-76.9.6 60.6.7 66.. -.9 00.0..7..9 6.8.9-8.7 000.08 9.7.87.0.9 6.. -.8 00.080 6.8.68..70 8.0.0-0. 000.6 68.. 8.0... -7.6 00.6 70.. 0.7.7 9..78-66. 000. 68..0.9.06.0.6-76.0 0. 6.9 0.8 0.8 0.78 7.0 0.88.7.00.0.0 9.6.06 7.9.0 7.0 0.. 0.. 0.8 8. 0.77. 0.9.9 0.98 9.6.0 6.8.0.0.06.6.0.6.0.8.0 0.9.0 9..0 8..0 7. 0.98 6.8 0.97 6.0 0.9. Note:.Gain Calculations: MAG = S S (K ± When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S S K - ). MAG = Maximum Available Gain MSG = Maximum Stable Gain

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = C). -. NE680 VCE = 6 V, IC = ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 00.869 -..86 67..009 8.8.989 -.8 0.07. 00.68-69.0 9.99 8..0.9.8 -. 0.6.6 000.8 -.7 6.0 00.6.07..706-0.0 0.6. 00.0-7.9.709 8.9.06..68 -. 0.8 9. 000. -6.8.68 70.8.06..6 -. 0.98 7.6 00.00-7.6.00 9.6.07..67-8.0.0.9 000.9 7.7.7 9..08.8.69 -.0.08. 00.8 6..8 9.8.09.9.66-6..0.8 000.8..97 0.9.0 0..6-69..08.0 00.76 6..7.. 8.9.66-76.7.07 0. 000.7 7.8.7.0.6 7.0.67-8.7.0 9.9 VCE = 6 V, IC = 0 ma 00.766 -. 0.69 6..008 7.9.97-8.0 0.6.9 00. -96..60.8.07..76 -.7 0. 6.8 000. -8.0 7.8 9..07 0.8.69-7. 0.8.0 00.0-60.0.0 77..06..6 -..0 9.6 000.97-7.9.8 6.7.07..69-8.6.07 6.6 00.9 7....068.7.6 -..09.8 000.96 6.7.66.8.079.7.67 -.7.09. 00.9..6 6.7.09 0.0.67-60..07. 000.9..000 8..0 7.6.68-67..0.7 00.9 7..78 9.8...660-7.0.0. 000.9 9..69.7.8.8.67-8. 0.97.0 VCE = 6 V, IC = 0 ma. -..6 -.6.8 S GHz -.8 -. -. S 0 0. GHz 0 0 0...6.8. 0 S GHz S 0. GHz - - - - -0-0 Coordinates in Ohms Frequency in GHz (VCE = 6 V, IC = ma) 00.9 -.9.68..008 7.6.9-9.6 0.0. 00.6 -.6.09 0.7.09..7-8.0 0.80 7.7 000. -6.8 6.06 8.9.09 8.6.67 -.6.09. 00.6-78.8. 7.6.09 6.6.66-9.. 7. 000. 70..0 60.8.0 6.0.66-6..0. 00.8 60.8.7 0.9.06 6..670 -..8.6 000.....07 60.0.677 -.0.. 00...8..087 8.0.687-9.9.09. 000.9 6.7.68.0.099..697-67.8.0. 00.60 9...7..9.708-7.7 0.98. 000.6.6.0 7.7.7 0..78-8. 0.9 0. 80 S GHz 90 S.0.0 0. GHz S 0. GHz 0 70 S GHz 0 Note:.Gain Calculations: MAG = S S (K ± When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S S K - ). MAG = Maximum Available Gain MSG = Maximum Stable Gain

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = C). -. (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 0 0.9 -.8 9.68 7.9 0.007 8. 0.990 -.7 0.. 00 0.90 -. 9.9 68. 0.0 79.8 0.98-6.0 0.0 8.0 00 0.86-6. 8.809.7 0.08 7.7 0.9 -.7 0..0 00 0.770-8.7 8.. 0.09 68.7 0.899-6. 0.. 00 0.690-9.6 7.9.7 0.0 6.6 0.80-9.6 0.0.7 00 0.68-8. 6.89 6. 0.060 6. 0.806 -.9 0.8 0.6 600 0. -67. 6.90 9. 0.067 9. 0.79 -.0 0.6 9.7 800 0.6-8..66 07. 0.079 6. 0.689-6. 0.70 8. 000 0. -98..89 98. 0.089 6. 0.68-7.6 0.8 7.0 00 0. -8.6.70 80. 0. 6. 0. -. 0.99.6 000 0.7-77.0.7 66. 0.8 7.7 0.0-6..08.0 00 0.6..8.6 0.68 7. 0.6 -..08 9. 000 0. 6..860. 0.0 6.8 0. -.6.0 8. VCE = 6 V, IC = ma 00 0.98-0 8.888 68 0.00 8 0.989-0.9 9. 00 0.89-8.6 8 0.00 76 0.98-8 0.6. 00 0.77-7.606 0.0 7 0.9-0..0 600 0.6-6.0 0.0 6 0.8-8 0.. 800 0. -68.68 0.07 6 0.77-0 0.69 0.0 000 0.0-78.89 0 0.07 6 0.700-0.80 8. 000 0. -6.60 77 0. 9 0.8-9.09. 000 0..0 0 0.7 8 0.99 -.07 9. 000 0.9 7.6 0.6 0. -6.00 8.6 000 0. 0.70 0.8 7 0. -9 0.9 6.9 6000 0.6 9.7 0 0.0 0.0-6 0.8. VCE = 6 V, IC = 0 ma. -..6 -.6.8 S 6 GHz -.8 -. -. S 0 0. GHz 0 0 0...6.8. 0 S 0. GHz S 6 GHz - - - - -0-0 Coordinates in Ohms Frequency in GHz (VCE =. V, IC = ma) 00 0.76-0. 6 0.00 0.9-9 0.7 6. 00 0.67-0 7.6 0 0.00 8 0.887-0.7.0 00 0. -6.0 8 0.009 7 0.77-6. 6.8 600 0.0-77 8.76 0 0.09 68 0.69-6.0. 800 0. -9 6.96 97 0.0 68 0.6-6.8 9.9 000 0. -08.67 89 0.0 7 0.6-7.8 7.9 000 0.7 6.089 66 0. 69 0. -.09. 000 0. 0.07 6 0.79 6 0.77-7.0 0. 000 0.7 07.768 0 0.0 7 0.07-60 0.9 8.7 000 0.6 9.7 0.98 9 0.9-88 0.87 6.9 6000 0. 87.7-0. 0.89-0.8. 80 S 6 GHz 90 S 0. GHz 70 S 6 GHz S 0. GHz NE6809 VCE =. V, IC = ma FREQUENCY S S S S K MAG 0. 0 Note:.Gain Calculations: MAG = S S (K ± When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S S K - ). MAG = Maximum Available Gain MSG = Maximum Stable Gain

NE6808 NONLINEAR MODEL SCHEMATIC CCBPKG Q CCB Base LBX LB LC CCE LCX Collector CBEPKG LE CCEPKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.8e-6 MJC 0.6 BF.9 XCJC 0 NF.0 CJS 0 VAF.9 VJS 0.7 IKF 0.07 MJS 0 ISE.0e- FC 0. NE.7 TF 8.7e- BR XTF 8 NR.0 VTF 9. VAR Infinity ITF 0.08 IKR Infinity PTF 0 ISC 0 TR 0.6e-9 NC EG. RE 0.6 XTB 0 RB 7.9 XTI RBM.0 KF 0 IRB.0e- AF RC 0.6 CJE 0.8e- VJE 0.7 MJE 0. CJC 0.6e- VJC 0.79 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 6808 CCB 0.08e- CCE 0.08e- LB.8e-9 LC.e-9 LE 0.8e-9 CCBPKG 0.e- CCEPKG 0.8e- CBEPK 0.9e- LBX 0.8e-9 LCX 0.7e-9 LEX 0.09e-9 MODEL RANGE Frequency: 0.0 to.0 GHz Bias: VCE = V to 6 V, IC = ma to ma Date: //96

NE6809 NONLINEAR MODEL SCHEMATIC CCBPKG Q CCB Base LBX LB CCE LCX Collector LE CCEPKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.8e-6 MJC 0.6 BF.9 XCJC 0 NF.0 CJS 0 VAF.9 VJS 0.7 IKF 0.07 MJS 0 ISE.0e- FC 0. NE.7 TF 8.7e- BR XTF 8 NR.0 VTF 9. VAR Infinity ITF 0.08 IKR Infinity PTF 0 ISC 0 TR 0.6e-9 NC EG. RE 0.6 XTB 0 RB 7.9 XTI RBM.0 KF 0 IRB.0e- AF RC 0. CJE 0.8e- VJE 0.7 MJE 0. CJC 0.6e- VJC 0.79 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 6809 CCB 0.08e- CCE 0.08e- LB 0.7e-9 LE 0.76e-9 CCBPKG 0.7e- CCEPKG 0.e- LBX 0.9e-9 LCX 0.9e-9 LEX 0.9e-9 MODEL RANGE Frequency: 0.0 to.0 GHz Bias: VCE = V to 6 V, IC = ma to ma Date: 8/0

NE6800 NONLINEAR MODEL SCHEMATIC CCBPKG Q CCB Base LBX LB CCE LCX Collector CBEPKG LE CCEPKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.8e-6 MJC 0.6 BF.9 XCJC 0 NF.0 CJS 0 VAF.9 VJS 0.7 IKF 0.07 MJS 0 ISE.0e- FC 0. NE.7 TF 8.7e- BR XTF 8 NR.0 VTF 9. VAR Infinity ITF 0.08 IKR Infinity PTF 0 ISC 0 TR 0.6e-9 NC EG. RE 0.6 XTB 0 RB 7.9 XTI RBM.0 KF 0 IRB.0e- AF RC 0. CJE 0.8e- VJE 0.7 MJE 0. CJC 0.6e- VJC 0.79 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 6800 CCB 0.08e- CCE 0.08e- LB 0.7e-9 LE e-9 CCBPKG 0.e- CCEPKG 0.6e- CBEPKG 0.0e- LBX 0.e-9 LCX 0.e-9 LEX 0.e-9 MODEL RANGE Frequency: 0.0 to.0 GHz Bias: VCE =. V to 6 V, IC = ma to ma Date: 0//96

NE680 NONLINEAR MODEL SCHEMATIC CCBPKG Q CCB Base LBX LB CCE LCX Collector CBEPKG LE CCEPKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.8e-6 MJC 0.6 BF.9 XCJC 0 NF.0 CJS 0 VAF.9 VJS 0.7 IKF 0.07 MJS 0 ISE.0e- FC 0. NE.7 TF 8.7e- BR XTF 8 NR.0 VTF 9. VAR Infinity ITF 0.08 IKR Infinity PTF 0 ISC 0 TR 0.6e-9 NC EG. RE 0.6 XTB 0 RB 7.9 XTI RBM.0 KF 0 IRB.0e- AF RC 0. CJE 0.8e- VJE 0.7 MJE 0. CJC 0.6e- VJC 0.79 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 680 CCB 0.08e- CCE 0.08e- LB 0.6e-9 LE 0.9e-9 CCBPKG 0.e- CCEPKG 0.e- CBEPKG 0.0e- LBX 0.e-9 LCX 0.e-9 LEX 0.e-9 MODEL RANGE Frequency: 0.0 to.0 GHz Bias: VCE =. V to 6 V, IC = 0. ma to 0 ma Date: 7/97 Note: This nonlinear model utilized the latest data available. See our Design Parameter Library at www.cel.com for this data.

NE680 NONLINEAR MODEL SCHEMATIC CCB_PKG Q 0.pF BASE RB_PKG 0. ohms LB_PKG 0.nH LB 0.nH 0.07pF CCB 6800 LC 0.96nH CCE 0.0pF LC_PKG 0.nH RC_PKG 0. ohms COLLECTOR CCE_PKG CBE_PKG 0.0pF LE_PKG 0.8nH 0.pF CBEX_PKG RE_PKG 0. ohms CCEX_PKG 0.pF EMITTER 0.pF BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.8e-6 MJC 0.6 BF.9 XCJC 0 NF.0 CJS 0 VAF.9 VJS 0.7 IKF 0.07 MJS 0 ISE.0e- FC 0. NE.7 TF 8.7e- BR XTF 8 NR.0 VTF 9. VAR Infinity ITF 0.08 IKR Infinity PTF 0 ISC 0 TR 0.6e-9 NC EG. RE 0.6 XTB 0 RB 7.9 XTI RBM.0 KF 0 IRB.0e- AF RC 0. CJE 0.8e- VJE 0.7 MJE 0. CJC 0.6e- VJC 0.79 UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps MODEL RANGE Frequency: 0.0 to.0 GHz Bias: VCE = 6 V, IC = ma to 0 ma Date: 0//96 () Gummel-Poon Model

OUTLINE DIMENSIONS (Units in mm) NE68000 (CHIP) (Chip Thickness: 60 µm) PACKAGE OUTLINE (MICRO-X) E 0.±0.0 0. 0.±0.06 C.8 MIN ALL LEADS B BASE EMITTER 0φ 0.06 0.±0.0 +0.06 0. -0.0 E.±0. φ. PIN CONNECTIONS.Collector. Emitter. Base. Emitter.8 MAX 0..0 ± 0. PACKAGE OUTLINE 8 PACKAGE OUTLINE 8 RECOMMENDED P.C.B. LAYOUT. ± 0.. ± 0. +0.0 0. -0.0 (LEADS,, ) 0.6 0.6. 0.6 0.60 0.6 0.8 +0.0 0. -0.0 0. 0.9 ± 0. PIN CONNECTIONS. Collector. Emitter. Base. Emitter. 0 to 0. 0. +0.0-0.0.7.6 ± 0. 0. 0. +0. -0.0 PACKAGE OUTLINE 9 PACKAGE OUTLINE 9 RECOMMENDED P.C.B. LAYOUT.6 ± 0. 0.8 ± 0. 0. +0.0-0.0 LEAD ONLY..0 0.7 ± 0.0 0.6 PIN CONNECTIONS. Emitter. Base. Collector 0.6 0.6 0. 0 to 0. 0. +0. -0.0 PACKAGE OUTLINE 0. ± 0.. ± 0. PACKAGE OUTLINE 0 RECOMMENDED P.C.B. LAYOUT.0 ± 0. 0.6. 0. +0. -0.0 (ALL LEADS).7 0. 0.9 ± 0. MARKING PIN CONNECTIONS. Emitter. Base. Collector 0.6 0.8 0.6. 0 to 0. 0. +0.0-0.0

OUTLINE DIMENSIONS (Units in mm) PACKAGE OUTLINE (SOT-) +0..8-0..9 ± 0. 0.9 0. +0.0-0.0.9 (ALL LEADS) PACKAGE OUTLINE RECOMMENDED P.C.B. LAYOUT.. to. 0.8 +0.. -0. 0 to 0. 0.6 +0.0-0. 0.6 +0.0-0.06 PIN CONNECTIONS. Emitter. Base. Collector PACKAGE OUTLINE 9 PACKAGE OUTLINE 9 RECOMMENDED P.C.B. LAYOUT.8 +0. -0.. +0. -0. +0.0 0. -0.0 (LEADS,, ) 0.8.0. 0.9.9.9 ± 0. 0.9.9 0.8. +0. -0. 0.6 +0.0-0.0 0.8 0.6 +0.0-0.06 PIN CONNECTIONS. Collector. Emitter. Base. Emitter.9.0 0 to 0. PACKAGE OUTLINE 9R PACKAGE OUTLINE 9 RECOMMENDED P.C.B. LAYOUT 0.6 +0.0-0.0.8 +0. -0.. +0. -0...0 0.8.8.9 ± 0. 0.9. +0. -0. 0.8 0 to 0. +0.0 0. -0.0 (LEADS,, ) 0.6 +0.0-0.06 PIN CONNECTIONS. Emitter. Collector. Emitter. Base.9.0.0

ORDERING INFORMATION PART NUMBER QUANTITY PACKAGING NE68800 00 Waffle Pack NE6808-T-A 000 Tape & Reel NE6809-T-A 000 Tape & Reel NE6800-T-A 000 Tape & Reel NE680-TB-A 000 Tape & Reel NE680 ESD Bag NE6809-T-A 000 Tape & Reel NE6809R-T 000 Tape & Reel Note:. Lead material: Cu Lead plating: SnBi -.%Bi Typ. 08/0/00-8

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