SURFACE MOUNT NPN SILICON HIGH FREQUENCY TRANSISTOR

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Transcript:

FEATURES PART NUMBER NE6858 NE6859 NE6850 NE685 NE6859/9R EIAJ REGISTERED NUMBER SC505 SC500 SC959 SC955 SC957 PACKAGE OUTLINE 8 9 0 9 SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN TYP MAX MIN TYP MAX MIN TYP MAX MIN TYP MAX MIN TYP MAX ft NFMIN GNF MAG SE hfe ICBO IEBO CRE SURFACE MOUNT NPN SILICON HIGH FREQUENCY TRANSISTOR LOW COST SMALL AND ULTRA SMALL SIZE PACKAGES LOW VOLTAGE/LOW CURRENT OPERATION HIGH GAIN BANDWIDTH PRODUCT: ft of GHz NOISE FIGURES OF.5 db AT.0 GHZ DESCRIPTION The family of high frequency, low cost, surface mount devices are well suited for portable wireless communications and cellular radio applications. The NE685 series of high ft ( GHz) devices is suitable for very low voltage/low current, low noise applications. These products are ideal for applications up to. where low cost, high gain, low voltage, and low current are prime concerns. ECTRICAL CHARACTERISTICS (TA = 5 C) 8 (SOT STY) 0 (SOT STY) 9 (SOT STY) SILICON TRANSISTOR NE685 SERIES 9 ( PIN ULTRA SUPER MINI MOLD) (SOT STY) 9R (SOT R STY) Gain Bandwidth Product at VCE = V, IC = 0 ma, f =.0 GHz GHz Minimum Noise Figure at VCE = V, IC = ma, f =.0 GHz db.5.5.5.5.5.5.5.5.5.5 Associated Gain at VCE = V, IC = ma, f =.0 GHz db 8.5 7.5 7 7 7.5 Maximum Available Gain at VCE = V, IC = 0 ma, f =.0 GHz db 0 0.5 Insertion Power Gain at VCE = V, IC =0 ma, f =.0 GHz db 9 7 9 7 8.5 7 8 9 0 Forward Current Gain at VCE = V, IC = 0 ma 75 0 50 75 0 50 75 0 50 75 0 50 75 0 50 Collector Cutoff Current at VCB = 5 V, IE = 0 ma μa 0. 0. 0. 0. 0. Emitter Cutoff Current at VEB = V, IC = 0 ma μa 0. 0. 0. 0. 0. Feedback Capacitance at VCB = V, IE = 0 ma, f = MHz pf 0. 0.5 0. 0.7 0. 0.7 0. 0.7 0. 0.5 PT Total Power Dissipation mw 50 5 50 80 80 RTH(J-A) Thermal Resistance (Junction to Ambient) C/W 8 000 8 60 60 RTH(J-C) Thermal Resistance(Junction to Case) C/W 00 00 00 00 00 Notes:. Precaution: Devices are ESD sensitive. Use proper handling procedures.. Electronic Industrial Association of Japan.. Pulsed measurement, PW 50 μs, duty cycle %.. The emitter terminal should be connected to the ground terminal of the terminal capacitance bridge.

ABSOLUTE MAXIMUM RATINGS (TA = 5 C) SYMBOLS PARAMETERS UNITS RATINGS VCBO Collector to Base Voltage V 9 VCEO Collector to Emitter Voltage V 6 VEBO Emitter to Base Voltage V.0 IC Collector Current ma 0 TJ Junction Temperature C 50 TSTG Storage Temperature C -65 to +50 Note:.Operation in excess of any one of these parameters may result in permanent damage. NE6858 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/50 VCE = V, IC = ma 500.00. 0.6 6 0.56 800.5 6.9 0.59 0. 000.0.66 0.56 9 0.0 500.5.0 0.5 8 0.7 000.50 8.67 0.7 5 0. 500.65 7. 0.0 65 0. VCE = V, IC = 5 ma 500.0.5 0.55 9 0.7 800.5 7.9 0.5 0. 000.5 5.7 0.9 7 0.8 500.5.87 0.6 0.5 000.60 9.57 0. 5 0. 500.75 7.90 0.6 60 0. VCE = V, IC = 0 ma 500.55.70 0. 5 0. 800.60 8. 0.0 0 0. 000.65 6.0 0.8 6 0.9 500.80.85 0. 0.7 000.90 0.60 0.0 50 0. 500.00 8.8 0.7 55 0. NE6859 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/50 VCE =.5 V, IC = 0. ma 500.07.6 0.80 7.70 800.5 8.6 0.79.55 000.55 6.7 0.75. VCE =.5 V, IC =.0 ma 500 0.87 6.9 0.7 0.80 800 0.99.8 0.67 7 0.65 000.08.0 0.6 6 0.6 500. 7.5 0.60 5 0.5 000.65 5.0 0.5 65 0. VCE = V, IC = 0 ma 500.05 9. 0.65 0.57 800. 5.8 0.58 7 0.50 000.7. 0.55 0.5 500. 9.9 0.50 7 0.8 000.5 7.5 0. 58 0. 500.75 5.5 0. 69 0. VCE = V, IC = 5.0 ma 500. 9. 0.58 0.5 800.0 5. 0.5 6 0.9 000.5.5 0.50 0.6 500.57 0.0 0. 6 0. 000.7 7.5 0.6 5 0.8 500.90 5.6 0.9 60 0. NE6850 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/50 VCE = 0.5 V, IC = 0.5 ma 500 0.95 0.87 0.8 5.0 800.05 7.8 0.75.0 000.0 6.9 0.7 0.86 VCE = 0.75 V, IC = 0.5 ma 500 0.97.8 0.8.5 800.5 8.6 0.76.00 000.5 7.6 0.7 0.8 VCE =.0 V, IC = 0.5 ma 500.0 8.7 0.85.69 800.0 6.8 0.80 5.65 000.5 6.67 0.75 6.6 VCE =.0 V, IC = 0.5 ma 500 0.95.9 0.78.0 800. 8.7 0.76 0.99 000.8 8.5 0.69 0.86 VCE =.0 V, IC = 0.75 ma 500 0.90.9 0.77 0.9 800.0 0.0 0.7 0.8 000.8 9. 0.67 0 0.69 VCE =.0 V, IC =.0 ma 500 0.88.8 0.75 0.8 800.00 0.96 0.7 0.76 000. 9.8 0.66 9 0.6 VCE =.0 V, IC =.0 ma 500 0.98 7.9 0.60 0 0.5 800.07.6 0.57 8 0.50 000.5.0 0.5 5 0.7 000.5 6. 0. 7 0.8 VCE =.5 V, IC = 0. ma 500.0 0.77 0.85.9 800.0 7.8 0.8.5 000.7 6.76 0.78 0.7 VCE =.5 V, IC = ma 500 0.85 5. 0.7 0.9 800.0.5 0.7 9 0.75 000.6 0.5 0.69 7 0.68 000.60 5.6 0.5 0.7 VCE =.5 V, IC = ma 500.08 8. 0.65 0.60 800.5.7 0.60 7 0.5 000..76 0.58 0.9 000.68 7.9 0.8 0 0. VCE = V, IC = ma 500.0 8.0 0.65 0 0.58 800.9.7 0.6 0.50 000.5.77 0.60 0.9 000.8 7.0 0.50 0 0. 000.7 5. 0. 8 0.

NE685 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/50 VCE = 0.5 V, IC = 0.5 ma 500 0.9.0 0.76 9.9 800. 0. 0.7 7 0.8 000. 9. 0.67 50 0.7 VCE =.0 V, IC = 0.5 ma 500 0.9.9 0.75 8. 800.0 0.87 0.7 5 0.89 000. 0.6 0.68 7 0.77 VCE =.0 V, IC =.0 ma 500 0.9.57 0.7 7 0.7 800.0.0 0.67 0.5 000. 0.9 0.6 5 0.50 VCE =.5 V, IC = ma 500 0.9 5.67 0.7 6 0.77 800.0.7 0.68 0 0.57 000..79 0.65 0.58 000.6.7 0.59 5 0.6 VCE =.5 V, IC = ma 500.07 8.7 0.6 0.5 800..0 0.55 9 0.9 000.0.5 0.56 5 0.0 000. 7.8 0. 0 0. 500.6 6.59 0. 69 0. NE685 SERIES NE6859 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/50 VCE =.5 V, IC = 0. ma 500.. 0.80 8.5 800.58 9.7 0.7.0 000.70 8.0 0.6.9 VCE =.5 V, IC =.0 ma 500 0.85 6. 0.7 7 0.66 800 0.98.6 0.6 9 0.50 000.07.0 0.5 0 0.8 500.9 7.8 0.8 55 0.9 000.5 6. 0.0 67 0. VCE =.5 V, IC =.0 ma 500.7 8. 0.6 9 0.6 800.0.9 0.5 9 0.8 000.9. 0. 0. 500.69 0.0 0. 8 0.0 000.00 7.6 0.7 0.5 500. 5.8 0.6-0. VCE = V, IC = 5.0 ma 500.7 9.5 0.57 7 0. 800.0 5.8 0. 5 0.8 000.50. 0. 6 0.5 500.8 0.9 0. 0.9 000. 8.6 0.9 0 0.6 500.7 6.8 0.7-0 0.

TYPICAL PERFORMANCE CURVES (TA = 5 C) Total Power Dissipation, PT (mw) Noise Figure, NF (db) Total Power Dissipation, PT (mw) 00 80 00 00 80 00 0 0 0 NE6858, NE6850 D.C. POWER DERATING CURVE FREE AIR INFINITE HEAT SINK 50 00 50 Ambient Temperature, TA (C ) NE685, NE6859 D.C. POWER DERATING CURVE FREE AIR INFINITE HEAT SINK 8. 0 50 00 50 Ambient Temperature, TA ( C) NOISE FIGURE vs. COLCTOR CURRENT 5 VCE = V f = GHz 0 5 0 0 50 Total Power Dissipation, PT (mw) Insertion Gain, SE (db) Insertion Gain, SE (db) Maximum Available Gain, MAG (db) 00 80 50 5 00 50 0 0 8 6 0 0 FREE AIR 50 NE6859 D.C. POWER DERATING CURVE INFINITE HEAT SINK 00 50 Ambient Temperature, TA (C ) VCE = V f = GHz INSERTION GAIN vs. COLCTOR CURRENT 5 0 0 50 Collector Current, IC (ma) FORWARD INSERTION GAIN AND MAXIMUM AVAILAB GAIN vs. FREQUENCY 50 VCE = V IC = 0 ma 0 0 0 0 MAG SE 0 0. 0. 0.5.0.0 5.0 Collector Current, IC (ma) Frequency, f (GHz)

TYPICAL SCATTERING PARAMETERS (TA = 5 C) NE6858 VCE = 0.5 V, IC = 0.5 ma FREQUENCY S S S S K MAG GHz MAG ANG MAG ANG MAG ANG MAG ANG (db) 0. 0.995-7.00.89 70.500 0.00 88.600 0.997 -.900 0.0 7.87 0. 0.9-9.00.756 8.00 0.07 67.00 0.969 -.000 0.68.5 0.8 0.8-56.800.69 9.000 0.9 5.00 0.89 -.700 0. 9.7.0 0.78-69.00.50 06.00 0.5 5.800 0.85-5.500 0.0 8.5.5 0.6-99.500. 77.00 0.6 5.800 0.750-69.00 0.60 7.0.0 0.5-6.00.6 5.00 0.79-0.00 0.675-8.00 0.79 6.00.5 0.69-5.900.05.00 0.80 -.000 0.69-96.600 0.95 5.757.0 0. -79.00 0.965.800 0.8 -.900 0.58-08.00.097. VCE =.0 V, IC =.0 ma 0. 0.985-8.500.8 69.900 0.0 8.00 0.985-5.500 0.08.800 0. 0.97 -.500.9 6.500 0.086 66.00 0.956 -.00 0.7 5.8 0.8 0.77-6.700.879 7.800 0..00 0.87-5.00 0.7.009.0 0.696-76.000.65 05.00 0.65 5.500 0.789-5.00 0.0.06.5 0.56-05.900.60 78.600 0.9.800 0.675-70.500 0.6 0.5.0 0.0 -.000.798 56.600 0.0 7.00 0.60-8.800 0.8 9.6.5 0.6-60.00.559 7.700 0. -0.900 0.55-9.000 0.998 8.6.0 0.0 7.00.85.000 0.9-7.500 0.5-0.500.8 5.7.0 0.0 6.00.7-0.00 0.55-0.700 0.6-0.00.5.60 VCE =.5 V, IC =.0 ma 0. 0.986-7.00.65 70.500 0.08 8.900 0.996 -.00 0.0.8 0. 0.96-9.800.0 8.800 0.06 67.000 0.970 -.00 0.7 7.9 0.8 0.799-57.00.99.700 0.6 7.000 0.878-9.900 0.5.05.0 0.78-69.600.7 09.700 0.9 9.00 0.8-7.800 0.9.95.5 0.57-98.500.75 8.00 0.6.00 0.7-6.800 0.60.50.0 0.55 -.900.9 6.500 0.80.00 0.67-76.00 0.789 0.8.5 0.6-50.00.66.00 0.89.00 0.68-85.500 0.9 9.7.0 0. -7.900.7 5.900 0.96 -.00 0.586-96.00.0 6.805.0 0.70.900.5-5.00 0.6 -.500 0.50-8.800.07.685 VCE =.0 V, IC = 0 ma 0. 0.759 -.00.7 57.900 0.08 8.900 0.906-5.600 0.05 0.96 0. 0.5-68.600.95.600 0.07 6.800 0.66-0.900 0.597.7 0.8 0.9-0.700 8.0 88.00 0.068 5.600 0.7-5.00 0.890 0.770.0 0.8-6.600 6.66 79.00 0.079 50.00 0.5-55.00 0.965 9.6.5 0. -5.00.559 6.500 0. 5.00 0.98-6.600.0 5.07.0 0.080 69.00.7 6.00 0. 9.500 0.8-7.500.07..5 0.078 0.600.8.700 0.7 0.800 0.7-80.700.09 0.9.0 0.08 95.900.0 8.900 0.0.00 0.67-90.700.00 8.809.0 0.9 68.500.9-6.500 0.68.500 0. -.900.080 6.89 5.0 0.8 6.00.65 -.00 0. -7.000 0.08-55.700.070 5.8 Note:. Gain Calculations: MAG = (K ± K - ). When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S.8.6.5.. S 5 S 0 0. GHz 0 0 0..6.8.5. 5 0 S S 0. GHz -0-0 -. -5 - - -. - -.6 -.8 - -.5 Coordinates in Ohms Frequency in GHz (VCE =.5 V, IC = ma) 80 S 5 5 90 70 S S 5 S 0. GHz.05.00.05.00.05 S 0. GHz S S 5 0

TYPICAL SCATTERING PARAMETERS (TA = 5 C) -.6 -.5 (VCE =.5 V, IC = ma) -.8-70 NE6859 VCE = 0.5 V, IC = 0.5 ma FREQUENCY S S S S K MAG GHz MAG ANG MAG ANG MAG ANG MAG ANG (db) 0. 0.98-7.500.790 69.00 0.0 85.00 0.999-6.00 0.06 7. 0. 0.9 -.700.7 6.00 0.7 66.600 0.967 -.00 0.69.65 0.8 0.88-59.00.59 6.800 0.9.600 0.88 -.00 0.59 8.99.0 0.779-7.00. 0.00 0. 5.800 0.8-9.00 0. 8.5.5 0.66-98.900.5 77.00 0.6 7.600 0.757-6.00 0.6 6.767.0 0.5 -.00.5 5.600 0.90.700 0.686-77.00 0.86 5.888.5 0.8-9.700.0.900 0.89-6.00 0.6-87.00.000 5.5.0 0.7 78.600 0.97 6.00 0.9-6.600 0.568-98.700..997 VCE =.0 V, IC =.0 ma 0. 0.97-7.900.9 69.00 0.0 8.00 0.998-5.000 0.56.56 0. 0.905-5.600.5.00 0.087 6.00 0.9 -.600 0.0 5.690 0.8 0.757-65.00.7 5.500 0.50 6.000 0.89 -.700 0.5.60.0 0.687-77.600.500 0.600 0.67 6.900 0.775-5.00 0.59.75.5 0.56-0.500.06 78.00 0.98.500 0.67-65.600 0.680 0.00.0 0.7-7.700.7 57.00 0.6.000 0.607-76.000 0.87 8.988.5 0. -55.00.5 8.00 0.8 5.000 0.56-8.000.07 6.89.0 0.5 7.00.67.800 0.5-0.500 0.96-9.000.7 5.76.0 0.80 0.00.7-9.00 0.8 -.00 0.87-0.900.0.7 VCE =.5 V, IC =.0 ma 0. 0.98-9.00. 69.500 0.00 8.00 0.996-6.000 0.070.5 0. 0.9 -.900.97 7.00 0.078 66.500 0.96 -.800 0.90 6.6 0.8 0.78-59.700.77 9.00 0.7 8.500 0.86-9.700 0.7.9.0 0.7-7.600.58 07.600 0. 9.600 0.88-6.700 0.50.78.5 0.566-97.00.0 8.700 0.7 5.900 0.77-59.900 0.65 0.86.0 0.8-9.900.78 6.000 0.90 7.00 0.659-69.500 0.8 9.7.5 0.6 -.800.56.800 0.0 0.000 0.609-77.700.0 7.997.0 0.7-69.700.5 7.00 0.7.500 0.56-86.900.7 6.005.0 0..00.9 -.600 0.58-5.00 0.65-0.900.6.97 VCE =.0 V, IC = 0 ma 0. 0.768 -.000.8 55.700 0.00 7.00 0.90-7.800 0.00 0.50 0. 0. -70.00.97.600 0.08 6.600 0.6 -.800 0.65.8 0.8 0. -98.00 7.96 87.00 0.076 55.00 0.5-9.00 0.95 9.88.0 0.8-07.00 6.09 78.700 0.089 5.500 0. -5.00 0.979 8.6.5 0.0 -.00.7 6.00 0.6 7.00 0.99-56.00.06.865.0 0.056-0.00.69 6.700 0.6 0.900 0.88-6.00.08.0.5 0.0-6.800.59.00 0.98.00 0.8-68.00.086 9.79.0 0.0 8.000. 0.700 0..600 0.57-76.700.090 7.97.0 0.9 68.00.809 -.00 0.06 6.00 0.60-0.000.078 6.07 5.0 0.9 9.800.58-9.00 0.75 -.000 0.6-6.600.05.760 See note on previous page..8.6.5.. S 5 S 0 0. GHz 0 0 0..6.8.5. 5 0 S -0 S 0. GHz -0 -. -5 - - -. - Coordinates in Ohms Frequency in GHz 80 5 S 5 90 5 S 0. GHz.05.00.05.00.05 S S 0. GHz 5 0

TYPICAL SCATTERING PARAMETERS (TA = 5 C) NE685 SERIES NE6850 VCE = 0.5 V, IC = 0.5 ma FREQUENCY S S S S K MAG GHz MAG ANG MAG ANG MAG ANG MAG ANG (db) 0. 0.986-6.00.89 7.000 0.00 8.600 0.997 -.000 0.098 7.875 0. 0.98 -.00.76 5.600 0. 7.00 0.96-5.800 0.07.65 0.8 0.8-7.00.6 8.00 0. 57.00 0.87-9.00 0.8 8.790.0 0.79-58.00.5 7.000 0.6 5.000 0.8-5.000 0.7 7.97.5 0.58-8.800.56 9.900 0.98 8.700 0.695-6.00 0.685 6.580.0 0.57-06.00.98 76.00 0. 0.900 0.607-5.900 0.86 5.89.5 0.68-0.00.09 6.700 0.0 7.00 0.5-6.00.00.0.0 0. -55.00.007 5.00 0.0 7.500 0.50-7.000.6.79 VCE =.0 V, IC =.0 ma 0. 0.986-7.00.56 70.00 0.05 85.700 0.99 -.800 0.08.8 0. 0.900-8.00. 50.600 0.098 7.00 0.99-8.00 0.0 5.8 0.8 0.75-5.00.766 6.000 0.67 58.000 0.8 -.000 0.8.9.0 0.65-6.00.5 5.00 0.90 5.900 0.77-7.00 0.56.6.5 0.6-87.00.070 9.800 0.8 5.00 0.609-6.00 0.7 9.580.0 0.9-09.00.75 79.00 0.8.00 0.5-5.900 0.9 8.8.5 0.58-5.00.57 66.600 0.65.00 0.58-59.00.05 6.69.0 0.9-60.00.58 57.00 0.85.800 0.9-65.00..58.0 0.0 9.000..00 0. 6.700 0.77-79.00.6.80 VCE =.5 V, IC =.0 ma 0. 0.975-6.900. 7.000 0.0 8.700 0.990 -.700 0.06.906 0. 0.905-6.00.07 5.00 0.078 7.00 0.98-6.00 0.0 6.0 0.8 0.756-8.000.779 8.00 0.8 60.800 0.8-8.000 0.0.00.0 0.68-57.00.569 8.500 0.56 56.00 0.79 -.00 0.506.66.5 0.509-75.600.098 00.000 0.88 5.600 0.679-8.900 0.77 0.76.0 0.87-89.500.76 85.500 0.08 50.00 0.66 -.00 0.909 9.79.5 0.89-0.00.550 7.500 0. 5.00 0.577-5.600.0 7.69.0 0.07 -.700.97 65.00 0.7 55.00 0.58-7.900.8 5.9.0 0.079-65.800.90 5.000 0.5 6.00 0.50-5.000..557 VCE =.0 V, IC = 0 ma 0. 0.76 -.00 0.90 5.700 0.00 8.600 0.90-5.900 0. 0.9 0. 0. -5.500.575.900 0.05 7.800 0.590 -.900 0.7.75 0.8 0. -6.500 6.9 96.00 0.09 7.000 0.57 -.00 0.96 8.5.0 0.8-6.500 5.06 90.00 0.09 70.500 0. -0.900 0.989 6.87.5 0. -57.800.60 80.700 0.57 7.00 0.96-0.600.05.50.0 0.090 -.600.805 7.600 0.0 70.700 0.89 -.00.05 0.009.5 0.086-7.00. 66.00 0.50 69.600 0.9 -.00.08 8..0 0.090-6.00.00 60.500 0.9 67.00 0.89-6.00.07 7.00.0 0.098 6.000.69 50.800 0.79 6.00 0.7 -.800.0 5.00 5.0 0.9 8.700..600 0.6 57.500 0.07-9.900.009. Note:. Gain Calculation: MAG = K - ). When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, S S.8.5.6.. 5 S S 0 0. GHz 0 0...6.8.5 5 0 0 S -0 S 0. GHz -0 -. -5 - - -. - -.6 -.5 -.8 - Coordinates in Ohms Frequency in GHz (VCE =.5 V, IC = ma) (K ± = S S - S S S S S 80 5 5 S 0. GHz 90 70. S 0. GHz.. S S 5. 5 0

TYPICAL SCATTERING PARAMETERS (TA = 5 C).8.6.5.. S 5 S 0. GHz 0 0 0 0..6.8.5. 5 0 S -0 0. GHz -0 -. S -5 - - -. Coordinates in Ohms Frequency in GHz - (VCE =.5 V, IC = ma) -.6 -.5 -.8 - NE685 70 VCE = 0.5 V, IC = 0.5 ma FREQUENCY S S S S K MAG GHz MAG ANG MAG ANG MAG ANG MAG ANG (db) 0. 0.97-5.500.90 70.500 0.05 85.600 0.998-5.00 0.089 7.9 0. 0.9-7.00.8 9.900 0.9 69.000 0.955-9.900 0.0.78 0.8 0.80-5.500.670.00 0. 5.000 0.856-6.00 0.96 8.76.0 0.70-6.900.58 0.500 0.5 5.00 0.80 -.800 0.86 7.9.5 0.560-90.700.8 85.700 0.99.600 0.686-56.800 0.68 6.68.0 0. -6.00.8 66.500 0.0.800 0.60-67.900 0.855 5.9.5 0.55 -.00.095 5.00 0.05 7.500 0.558-77.900.000 5.9.0 0. -7.000.00 9.00 0.9 7.00 0.5-89.000.5.0 VCE =.0 V, IC =.0 ma 0. 0.968-7.000.509 70.00 0.09 8.00 0.995-5.800 0.0 0.88 0. 0.887 -.00. 7.00 0.0 68.00 0.98 -.900 0..969 0.8 0.708-58.800.767 9.700 0.70 5.700 0.790-7.900 0..6.0 0.68-70.000.5 08.800 0.9 7.00 0.77 -.700 0.5.0.5 0. -96.00.06 86.00 0. 9.00 0.60-55.000 0.767 9.605.0 0.0 -.00.7 69.000 0. 6.000 0.5-6.00 0.98 8.76.5 0. -50.700.8 55.00 0.60 5.00 0.7-7.00.07 5.99.0 0.08 78.00.9.600 0.8 6.00 0.9-79.700..65.0 0. 5.700. 5.00 0.58 6.500 0.96-00.00.097.0 VCE =.5 V, IC =.0 ma 0. 0.965-6.600.50 70.700 0.0 8.800 0.997 -.900 0..6 0. 0.899-8.00.50 9.500 0.087 70.00 0.9-8.800 0. 5.7 0.8 0.75-5.600.85.00 0.6 55.900 0.8 -.00 0.9.88.0 0.67-6.000.68.700 0.66 50.800 0.767-8.00 0.59.979.5 0.59-88.00.5 90.500 0.96.00 0.65-8.00 0.75 0.7.0 0.0-0.600.797 7.00 0.6 0.500 0.576-55.900 0.9 9.0.5 0. -7.000.559 59.000 0. 0.00 0.5-6.900.05 6.8.0 0.85-67.900.0 7.600 0.58.900 0.98-70.00.06 5.78.0 0.0.00.9 8.900 0.7.900 0.59-88.600.06.97 VCE =.0 V, IC = 0 ma 0. 0.79 -.600.06 5.800 0.00 77.800 0.909-6.700 0.89 0.5 0. 0.70-58.00.6.00 0.056 68.700 0.570 -.900 0.76.0 0.8 0.80-70.900 6.80 9.00 0.096 68.900 0.8-6.00 0.960 8.57.0 0.0-7.700 5. 85.00 0.7 68.00 0.00-6.900 0.99 6.9.5 0.055-66.900.50 7.600 0.68 65.900 0.6-0.600.0..0 0.09 6.800.757 6.00 0.0 6.00 0. -5.900.07 9.798.5 0.05 6.700.7 5.00 0.70 57.600 0. -5.500.08 8.06.0 0.07 68.000.98 5.000 0.9 5.800 0.0-60.00.07 6.98.0 0.7 7.700.65 0.00 0.0.000 0.8-80.800.008 5.8 5.0 0.97 70.00. 6.00 0.9.800 0. -08.000 0.99.597 See notes on previous page. 80 5 S 5 90 S 0. GHz. 5 S 0. GHz... S 5 0

TYPICAL SCATTERING PARAMETERS (TA = 5 C) -.6 (VCE =.5 V, IC = ma) -.5 -.8-70 NE6859 VCE = 0.5 V, IC = 0.5 ma FREQUENCY S S S S K MAG GHz MAG ANG MAG ANG MAG ANG MAG ANG (db) 0. 0.98 -.600.8 7.00 0.08 8.00 0.996 -.000 0. 8.6 0. 0.99 -.900.77 5.00 0. 7.600 0.977-5.000 0.9.0 0.8 0.89-9.500.68 9.000 0.0 56.000 0.88-9.00 0.9 9.67.0 0.77-6.500.69 7.900 0. 7.900 0.8-5.600 0.5 8.6.5 0.599-9.900.8 9.00 0.99.00 0.687-50.600 0.6 6.955.0 0.77-6.900.0 69.800 0.0 8.900 0.57-6.000 0.786 6.5.5 0. -60.00.80 5.000 0.0 9.800 0.86-75.500 0.9 5.805.0 0.5 7.800.0 7.00 0.9.00 0.0-88.700.07.506 VCE =.0 V, IC =.0 ma 0. 0.965-6.00.5 7.00 0.05 86.00 0.99 -.900 0.08.50 0. 0.906-9.000.55 5.00 0.088 7.600 0.95-7.600 0.86 5.8 0.8 0.75-56.00.000 6.600 0.56 55.00 0.8 -.00 0.79.80.0 0.667-69.00.80 6.000 0.79 8.00 0.757-8.00 0.69.95.5 0.78-0.00.6 9.800 0.7 6.900 0.600-5.500 0.67 0.9.0 0.69-8.00.960 7.000 0.6 8.900 0.88-6.00 0.86 9.9.5 0.9-7.000.68 57.500 0.8 5.800 0.05-7.00.006 8.0.0 0.59 60.600.57.00 0.7.00 0.9-85.900.9 5.6.0 0.5 6.000.7.900 0.68.000 0.0-7.800.99.709 VCE =.5 V, IC =.0 ma 0. 0.98 -.000.6 7.900 0.07 8.600 0.998 -.900 0.09.088 0. 0.9 -.700. 5.500 0.07 7.000 0.966 -.00 0.95 6.70 0.8 0.775-8.800.0.00 0.5 60.000 0.875-5.800 0.6.85.0 0.700-60.600.877.000 0.5 5.700 0.86-0.800 0.5.976.5 0.50-89.800.60 97.900 0.8.900 0.68 -.00 0.658.09.0 0.6 -.500.089 79.00 0.97 7.00 0.58-9.700 0.8 0.55.5 0.00-57.800.805 6.00 0.07.00 0.50-58.00 0.996 9.05.0 0.09 70.700.578 50.800 0.6.00 0.8-68.00.00 6.7.0 0.0 0.00.7 9.000 0.9.000 0.86-9.00.6.768 VCE =.0 V, IC = 0 ma 0. 0.79-0.700.5 58.500 0.06 80.00 0.9 -.700 0..7 0. 0.7-58.000.8 7.900 0.0 68.700 0.69 -.00 0.689.68 0.8 0.96-8.600 7.0 96.000 0.077 67.000 0.7 -.00 0.97 9.85.0 0. -9.600 6.8 89.00 0.09 65.700 0.6 -.900 0.98 8.5.5 0.060-55.000.50 76.00 0. 6.000 0.57-7.00.0.98.0 0.0.800.8 65.500 0.7 6.00 0.0 -.600.05.06.5 0.6 5.900.687 56.00 0.07 57.00 0.9-5.500.068 9.55.0 0.0 7.000.95 7.600 0.6 5.00 0.08-67.800.055 8.6.0 0.9 0.600.808.00 0..000 0.60 -.500.05 6.9 5.0 0.50 9.00.506 6.700 0.67.500 0.99-60.00.0 5.500 Note:. Gain Calculation: MAG = S S.8.5.6. S. 5 S S 0. GHz 0 0 0...6.8.5 5 0 0 S -0 0. GHz -0 -. (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 -. - -5 - - Coordinates in Ohms Frequency in GHz 80 5 5 90 S 0. GHz.. S 0. GHz S 5 S.. 5 0

NE6858 NONLINEAR MODEL SCHEMATIC BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS 7e-6 MJC 0. BF 09 XCJC 0 NF CJS 0 VAF 5 VJS 0.75 IKF 0.9 MJS 0 ISE 7.9e- FC 0.5 NE.9 TF e- BR XTF 5. NR.08 VTF.58 VAR. ITF 0.0 IKR Infinity PTF 0 ISC 0 TR e-9 NC EG. RE. XTB 0 RB 0 XTI RBM 8. KF 0 IRB 0.009 AF RC 0 CJE 0.e- VJE 0.8 MJE 0.5 CJC 0.8e- VJC 0.75 () Gummel-Poon Model Base CBEPKG Emitter LC UNITS Q Parameter time capacitance inductance resistance voltage current ADDITIONAL PARAMETERS Parameters LC CBEPKG Collector Units seconds farads henries ohms volts amps NE6858 0.e- 0.e-.55e-9.5e-9 0.9e-9 0.066e- 0.e- 0.6e- 0.8e-9 0.8e-9 0.09e-9 MODEL RANGE Frequency: 0.05 to.0 GHz Bias: VCE = 0.5 V to.0 V, IC = 0.5 ma to 0 ma

NE6859 NONLINEAR MODEL SCHEMATIC BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS 7.0e-6 MJC 0. BF 09 XCJC 0 NF CJS 0 VAF 5 VJS 0.75 IKF 0.9 MJS 0 ISE 7.90e- FC 0.5 NE.9 TF.0e- BR XTF 5. NR.08 VTF.58 VAR. ITF 0.0 IKR Infinity PTF 0 ISC 0 TR.0e-9 NC EG. RE. XTB 0 RB 0 XTI RBM 8. KF 0 IRB 0.009 AF RC 0 CJE 0.e- VJE 0.8 MJE 0.5 CJC 0.8e- VJC 0.75 () Gummel-Poon Model Base Emitter UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 6859 Collector 0.e- 0.e- 0.9e-9 0.9e-9 0.7e- 0.e- 0.9e-9 0.9e-9 0.9e-9 Q MODEL RANGE Frequency: 0.05 to.0 GHz Bias: VCE = 0.5 V to.0 V, IC = 0.5 ma to 0 ma

NE6850 NONLINEAR MODEL SCHEMATIC BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS 7e-6 MJC 0. BF 09 XCJC 0 NF CJS 0 VAF 5 VJS 0.75 IKF 0.9 MJS 0 ISE 7.9e- FC 0.5 NE.9 TF e- BR XTF 5. NR.08 VTF.58 VAR. ITF 0.0 IKR Infinity PTF 0 ISC 0 TR e-9 NC EG. RE. XTB 0 RB 0 XTI RBM 8. KF 0 IRB 0.009 AF RC 0 CJE 0.0e- VJE 0.8 MJE 0.5 CJC 0.8e- VJC 0.75 () Gummel-Poon Model Base CBEPKG Emitter UNITS Parameter time capacitance inductance resistance voltage current Units seconds farads henries ohms volts amps ADDITIONAL PARAMETERS Parameters 6850 CBEPKG Q Collector 0.e- 0.e- 0.e-9.e-9 0.e- 0.0e- 0.0e- 0.e-9 0.e-9 0.e-9 MODEL RANGE Frequency: 0.05 to.0 GHz Bias: VCE = 0.5 V to V, IC = 0.5 ma to 0 ma Date: 0/5/96

NE685 NONLINEAR MODEL SCHEMATIC BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS 7e-6 MJC 0. BF 09 XCJC 0 NF CJS 0 VAF 5 VJS 0.75 IKF 0.9 MJS 0 ISE 7.9e- FC 0.5 NE.9 TF e- BR XTF 5. NR.08 VTF.58 VAR. ITF 0.0 IKR Infinity PTF 0 ISC 0 TR e-9 NC EG. RE. XTB 0 RB 0 XTI RBM 8. KF 0 IRB 0.009 AF RC 0 CJE 0.0e- VJE 0.8 MJE 0.5 CJC 0.8e- VJC 0.75 () Gummel-Poon Model Base CBEPKG Emitter UNITS Parameter time capacitance inductance resistance voltage current Units seconds farads henries ohms volts amps ADDITIONAL PARAMETERS Parameters 685 CBEPKG Q Collector 0.e- 0.e- 0.85e-9.5e-9 0.5e- 0.e- 0.05e- 0.e-9 0.e-9 0.e-9 MODEL RANGE Frequency: 0.05 to.0 GHz Bias: VCE = 0.5 V to 6 V, IC = 0.5 ma to 0 ma Date: 7/97

NE6859 NONLINEAR MODEL SCHEMATIC Parameters Q Parameters Q IS 7e-6 MJC 0. BF 09 XCJC 0 NF CJS 0 VAF 5 VJS 0.75 IKF 0.9 MJS 0 ISE 7.9e- FC 0.5 NE.9 TF e- BR XTF 5. NR.08 VTF.58 VAR. ITF 0.0 IKR Infinity PTF 0 ISC 0 TR e-9 NC EG. RE. XTB 0 RB 0 XTI RBM 8. KF 0 IRB 0.009 AF RC 0 CJE 0.e- VJE 0.8 MJE 0.5 CJC 0.8e- VJC 0.75 () Gummel-Poon Model Base BJT NONLINEAR MODEL PARAMETERS () CBEPKG Emitter LC UNITS Q Parameter time capacitance inductance resistance voltage current ADDITIONAL PARAMETERS Parameters 6859 LC CBEPKG Collector 0.e- 0.e-.e-9 0.7e-9 0.99e-9 0.08e- 0.08e- 0.0e- 0.9e-9 0.9e-9 0.e-9 Units seconds farads henries ohms volts amps MODEL RANGE Frequency: 0.05 to.0 GHz Bias: VCE = 0.5 V to.0 V, IC = 0.5 ma to 0 ma Date: 6//96

OUTLINE DIMENSIONS (Units in mm).6 ± 0. 0.5 0. +0. -0.0 0.75 ± 0.05 0.6.0 ± 0. 0.65. 0.9 ± 0. PACKAGE OUTLINE 8 (SOT-) PACKAGE OUTLINE 9 0.5. ± 0..5 ± 0..0 ± 0. 0.65 0.65 0.9 ± 0. 0.60 0.65 +0.0 0. 0..6 ± 0. 0.8 ± 0. 0. +0.0 AD ONLY 0 to 0. 0.5 +0. PACKAGE OUTLINE 0 (SOT-). ± 0..5 ± 0. MARKING +0.0 0. (ADS,, ). 0 to 0. 0.5 +0.0 AD CONNECTIONS. Emitter. Base. Collector 0. +0. (ALL ADS) 0 to 0. 0.5 +0.0 AD CONNECTIONS. Collector. Emitter. Base. Emitter AD CONNECTIONS. Emitter. Base. Collector.5 0.6 0.6 OUTLINE 8 RECOMMENDED P.C.B. LAYOUT OUTLINE 9 RECOMMENDED P.C.B. LAYOUT OUTLINE 0 RECOMMENDED P.C.B. LAYOUT 0.6 0.8..7.7 0.8 0.5 0.65 0.6.0.

OUTLINE DIMENSIONS (Units in mm).9 ± 0. 0.95.9. to. 0.8.9 ± 0. 0.95. +0. -0..9 ± 0. 0.85 PACKAGE OUTLINE (SOT-) +0..8-0. +0..5-0. 0 to 0. PACKAGE OUTLINE 9 (SOT-) 0.6 +0.0 0.8 5.8 +0. -0..5 +0. -0. 0. +0.0 (ALL ADS) 0.65 +0.0-0.5 0.6 +0.0-0.06 PACKAGE OUTLINE 9R (SOT-) 0.6 +0.0 0.85 0.95. +0. -0. 0.8 5 0 to 0..8 +0. -0..5 +0. -0. 5 0 to 0. 5 +0.0 0. (ADS,, ).9 0.6 +0.0-0.06.8 +0.0 0. (ADS,, ) 0.6 +0.0-0.06 AD CONNECTIONS. Emitter. Base. Collector AD CONNECTIONS. Collector. Emitter. Base. Emitter AD CONNECTIONS. Emitter. Collector. Emitter. Base OUTLINE RECOMMENDED P.C.B. LAYOUT 0.8.0. 0.95 OUTLINE 9 RECOMMENDED P.C.B. LAYOUT OUTLINE 9R RECOMMENDED P.C.B. LAYOUT..9.9..0.0.9.0.0

ORDERING INFORMATION PART NUMBER QUANTITY PACKAGING NE6858-T-A 000 Tape & Reel NE6859-T-A 000 Tape & Reel NE6850-T-A 000 Tape & Reel NE685-T-A 000 Tape & Reel Note: NE6859-T-A 000 Tape & Reel. Lead material: Cu NE6859R-T 000 Tape & Reel Lead plating: PbSn EXCLUSIVE NORTH AMERICAN AGENT FOR RF, MICROWAVE & OPTOECTRONIC SEMICONDUCTORS CALIFORNIA EASTERN LABORATORIES Headquarters 590 Patrick Henry Drive Santa Clara, CA 9505-87 (08) 988-500 Telex -69 FAX (08) 988-079 DATA SUBJECT TO CHANGE WITHOUT NOTICE -06 Internet: http://www.cel.com 0//00

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