FEATURES HIGH GAIN BANDWIDTH PRODUCT: ft of LOW VOLTAGE/LOW CURRENT OPERATION HIGH INSERTION POWER GAIN: SE = db @ V, 7 ma, GHz SE = db @ V, ma, GHz LOW NOISE:. db AT. GHz AVAILABLE IN SIX LOW COST PLASTIC SURFACE MOUNT PACKAGE STYLES DESCRIPTION SURFACE MOUNT NPN SILICON HIGH FREQUENCY TRANSISTOR The NE686 series of NPN epitaxial silicon transistors are designed for low voltage/low current, amplifier and oscillator applications. NE686's high ft make it an excellent choice for portable wireless applications up to. The NE686 die is available in six different low cost plastic surface mount package styles. ELECTRICAL CHARACTERISTICS (TA = C) Notes:. Precaution: Devices are ESD sensitive. Use proper handling procedures.. Electronic Industrial Association of Japan.. Pulsed measurement, PW μs, duty cycle %.. The emitter terminal should be connected to the ground terminal of the terminal capacitance bridge. 8 (SOT STYLE) (SOT STYLE) 9 (SOT STYLE) SILICON TRANSISTOR NE686 SERIES 9 ( PIN ULTRA SUPER MINI MOLD) (SOT STYLE) 9R (SOT R STYLE) PART NUMBER NE6868 NE6869 NE686 NE686 NE6869/9R EIAJ REGISTERED NUMBER SC8 SC8 SC79 SC77 SC78/78R PACKAGE OUTLINE 8 9 9/9R SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN TYP MAX MIN TYP MAX MIN TYP MAX MIN TYP MAX MIN TYP MAX ft Gain Bandwidth Product at VCE = V, IC = 7 ma, f =. GHz GHz. 7. 9.. ft Gain Bandwidth Product at VCE = V, IC = ma, f =. GHz GHz 8. 7 8. 8. 8. NFMIN Minimum Noise Figure at VCE = V, IC = ma, f =. GHz db.......... NFMIN Minimum Noise Figure at VCE = V, IC = ma, f =. GHz db.......... Insertion Power Gain at Se VCE = V, IC =7 ma, f =. GHz db 8. 7. 9 7. 9 9.. Se Insertion Power Gain at VCE = V, IC = ma, f =. GHz db 8. 7 9 7 8. 7 8. 7.. hfe Forward Current Gain at VCE = V, IC = 7 ma 7 7 7 7 7 ICBO Collector Cutoff Current at VCB = V, IE = ma na IEBO Emitter Cutoff Current at VEB = V, IC = ma na CRE Feedback Capacitance at VCB = V, IE = ma, f = MHz pf....... PT Total Power Dissipation mw RTH(J-A) Thermal Resistance (Junction to Ambient) C/W 8 8 6 6 RTH(J-C) Thermal Resistance(Junction to Case) C/W
ABSOLUTE MAXIMUM RATINGS (TA = C) SYMBOLS PARAMETERS UNITS RATINGS VCBO Collector to Base Voltage V VCEO Collector to Emitter Voltage V VEBO Emitter to Base Voltage V IC Collector Current ma TJ Operating Junction Temperature C TSTG Storage Temperature C -6 to + Notes:. Operation in excess of any one of these parameters may result in permanent damage. NE6868 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/ VCE =. V, IC =. ma. 8.7.76.96 8. 7. 9 9..8 6.78.. 7. 7.97.7 6.6. 6. VCE =. V, IC =. ma..8 8. 7...6.7. 8.... 7..67..8 8.7...98 7. 6. VCE =. V, IC =. ma..96 6 8. 8.8.6 6.6. 8.7... 7..67..8 9...7.98 8. 6 VCE =. V, IC =. ma...9 8.7 9.. 7.. 7..8.8.7 6...8...9...7 8.78.7 6.9 NE6869 TYPICAL NOISE PARAMETERS (TA = C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/ VCE =. V, IC =. ma.96..76 6. 8...76...9.7.9. 6.69 7 8. VCE =. V, IC =. ma.9 7.9.7.9 8..8 9 8.8. 6 8. 9.78 6.78.6 7..9 6.7.8 6.. 7 8 VCE =. V, IC =. ma..9.9 8.8 6.88 8... 7......67 9.8..78 7.7. 6.7.8 6.. 7 VCE =. V, IC =. ma.68.7.. 8.7 7.9 8..7.7..8....9..9. 8.9. 6.9.9 7. 77. VCE =. V, IC =. ma.. 8 8.8 7.8 8. 6. 7..6..67..78 8.8. 6..8 7.. 7
NE686 Series TYPICAL PERFORMANCE CURVES (TA = ) Total Power Dissipation, PT (mw) Total Power Dissipation, PT (mw) NE6868, NE686 D.C. POWER DERATING CURVE FREE AIR Ambient Temperature, TA ( C) NE686, NE6869 D.C. POWER DERATING CURVE FREE AIR Ambient Temperature, TA ( C) Total Power Dissipation, PT (mw) NE6869 D.C. POWER DERATING CURVE FREE AIR Ambient Temperature, TA ( C) COLLECTOR CURRENT vs. COLLECTOR TO EMITTER VOLTAGE...6 µa 8 µa 6 µa µa µa µa 8 µa 6 µa µa IB = µa Collector to Emitter Voltage, VCE (V)
TYPICAL PERFORMANCE CURVES (TA = C) Insertion Power Gain Se (db) DC Current Gain, hfe 8 6 D.C. CURRENT GAIN vs. COLLECTOR CURRENT VCE = V VCE = V f = GHz COLLECTOR CURRENT vs. BASE TO EMITTER VOLTAGE VCE = V NE6868 INSERTION GAIN vs. COLLECTOR CURRENT V VCE = V Noise Figure, NF (db) Gain Bandwidth Product, ft (GHz) Feed-back Capacitance, CRE (pf) 8 6 8 6 NE6868 GAIN BANDWIDTH PRODUCT vs. COLLECTOR CURRENT f = GHz V VCE = V.. NE686 NOISE FIGURE vs. COLLECTOR CURRENT f = GHz VCE = V VCE = V NE686 FEED-BACK CAPACITANCE vs. COLLECTOR TO BASE VOLTAGE f = MHz.. Base to Emitter Voltage, VBE (V)... 6. 8.. Collector to Base Voltage, VCB (V)
TYPICAL SCATTERING PARAMETERS (TA = C) NE6868 VCE =. V, IC =. ma NE686 SERIES FREQUENCY S S S S K MAG GHz MAG ANG MAG ANG MAG ANG MAG ANG (db)..98 -..7 7.9.8 8..998 -..88 9.88..96-9..77 6.6.69 7.9.988-7..99.9-8.9.667.. 6..9 -.8.7.8. 7-7.7.6.7 8.6.9 -....77-7..6 98.6.8. 6-9.. 8.98. 7-9.8 76....79-7..9 7.9. -..89 6..8.7-86.8.7 6.96.. -.. 8.7.7-9. 9-98. 6.8. -7..8 6. 9-9.7.99 -..8..98..9-6.8 9-7.8.9 -.7.87.98 VCE =. V, IC =. ma..9-6.. 7.. 8.8.99 -.9.9.6..9 -.9..8.7 7.8.976-9..7 7.6 -..7....99-6..77.98..799 -..879.7. 7.7 8 -...6. 69-7.8.9 9.9..79-6..7.96.. -9.8. 7.8 8..7-7.6 6.798. -..969.8.99 8. 7-87..79 9.9..78 -..78 9.. -. -97.9.97 9.6..7-76.. 8.7 -.. -9..7 6...7.6.97 -. 9 -.. -..6.69 VCE =. V, IC =. ma. 88-9. 8.9 69.. 86.7.98-7..8 7.. 6 -. 7... 66..9-7. 6. 9-6.8 6...88..78-6.8 6 8.6..7-7.8.6...6 9 -. 7.8..77-9..8 79.7. -67.9.78.8..7 -.8.7 6. 6. -78..9.6.. -.8.79.7 8 9..78-87...6..9-7.6.9..9.. -96..7 9...9 6.9.9.. -. 7-6.. 6.98..7 7..669 -..9 -. -.6. VCE =. V, IC =. ma. 88-8. 8. 69.6. 8..986-6.6 8.. 9 -.7 7.7..7 68..98 -.. 8-7. 6.9 6..8..78 -. 8.9.. -67..86..9 6.9.77 -..76 7.8. 9-87.7.89 8. 6. -6.8.77.679. -.. 6. 8.7-7..99.98.. -8..868 6.6.7.6. -8.8.999.67.. -7.9.7..78.7. -9..6 9.98..6-78.9..9. -. -9.7. 7.6. 66.6.77 -..78-7. -8.7.98 6.7 Note:. Gain Calculation: MAG = S S.8..6.. S S. GHz...6.8. S S -. GHz - -. (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 -. -.6 -.8 - -. - - - - Coordinates in Ohms Frequency in GHz (VCE = V, IC = ma) 8 S. GHz 9 S...... GHz S. S 7. 7
TYPICAL SCATTERING PARAMETERS (TA = C) NE6869 VCE =. V, IC =. ma FREQUENCY S S S S K MAG GHz MAG ANG MAG ANG MAG ANG MAG ANG (db)..978 -..76 7.7. 8.8.997 -.7.96 9.8..99 -..7..8 7.8.98-8..7. 97 -..67..7.96 -.9 9. 6 -..6..76 7..97 -. 9.8..78-7.. 96..7. 7-6.8 7.9. 7-9.. 7..9 6.8.79-68. 76 7...9 -.7. 6.8. 8-78. 9 6...7-9..6..98 -.6 9-88..99.9..7-67.9.88 7.9. -. 8 -.8.6....9. -.8. -9..98 -.6..66 VCE =. V, IC =. ma..96-6.. 7..8 8.9.99 -..9.6..9 -..99.9.68 7..97 -.7 6.7 6-6..96 9...9 99-8..9.79..78 -.6.76 8.. 6.9 6 -.9.89. 6-78..7 9.8.9.76-6..7. -97..6 7..7. 77-7. 8 9.989. -..87 7.. 9-8. 9...8 -.9.699.6...7-89..9 8.8. -69.7.. -9.. -..8.76...6-8.. -. -.9.6. VCE =. V, IC =. ma. 9-9. 8.6 69..6 8.6.977-8. 7...787-7. 7...6 6. 86-9. 8-6..668.8...7-8.. 7...8-7..989.9.. 8 -.7 6.. -9..7 78.9. 7. -6.6 9.9. -.989 6.8 8.9-7.9.9... -.. 6..97.8.9-7.6. 6..79 -... 8.. -8..6 8.66.. 68..8 6..9..9 -.9.86 6.6..7 7.87 -.. -.7. -7..8.769 See note on previous page..8.6... S S. GHz..6.8.. S S -. GHz - VCE =. V, IC =. ma -. -. -.6 -.8 - -. - - - - Coordinates in Ohms Frequency in GHz (VCE = V, IC = ma) 8 S. GHz 9 S. GHz..9-9. 8.8 69.. 8..98-7. 7.. -.8 7.6..6 66.8.9-7.8 6. 9-6..88..9.8.78-6..98 7.96.. -7...7 6.7 86 -.8.9 6.879.. -89..9 8.. 7.9.76-6..786.696.. -..7 6..9.7.9-69.6.9.999. -7..67 9..8-7..99.9. -.9.7.. 9.. -8. 9.8.. -68.9.98 9..76.9. -..7 6.8..9 96..69-7..7 -.9 -..7.9. 7. 7. S.. S
TYPICAL SCATTERING PARAMETERS (TA = C).8.6... S S. GHz..6.8.. S S -. GHz - -. NE686 VCE =. V, IC =. ma GHz MAG ANG MAG ANG MAG ANG MAG ANG (db)..98 -..67 7.. 8.7.99 -..99.9..9 -.8...9 7.8.99-8.9.9..78 -..87. 6. -. 6.88..7 -..67.8 9 6.6.788 -...9..7-67.... 8. 6 -. 6 9.87. -8..99 87..8.77-8.9.78 8.67.. -9..78 7.6 8.8-6..9 7.7. -98.. 6...9.7-68.8.98 6.99..7-7..6 7.9..7-76.7.7.998..8 9..7.8. 7.9-89.8.7.96 VCE =. V, IC =. ma. 87-8.7 67.7. 8.7.969-8.....78-6.7 7..78 66.7-8.7 6 9.7-6..78.8. 8. -. 76.966..9-7..86. 6.8 -..78.7.. -8.9.99 87.8.76.7.7-7.6.96.. -9..7 76.6...99-9.. 9...98-96.6.99 67....7 -.. 7.8.. -88..7 9. 8.6 -..8.7.. 7..8 6. 8..7-6.9..87..99 6.8... -6...7 VCE =. V, IC =. ma -. -.6 -.8 - -. - - - - Coordinates in Ohms Frequency in GHz (VCE = V, IC = ma). 6 -.6.69 6.. 8..99 -..9 7.9. -6.8 8.787..7 66.9.76 -..7.79-69..7 6.. -7..7 6.97.. -7.7.8 98.. 6.6.9-9.9.6..9-86.8. 8.8 6.9.7 -.9.99.78.. -9..69 7..7 9. -.6..8..7-9.. 6..7 7.. -6.. 8.8.. -8..98 6.8.7. -9.. 6.69..9 7.7.9.. 8.6.9-67...77..88 8..7..7-8..8.7 VCE =. V, IC =. ma. 98-9. 8. 68.6. 8..97-7.9..7..79 -.9 6.999 9.9.7 69. -7..7 9.7. -7..7.8. 6 -. 6.7. -6.. 6. 9..77 -.9.77.8..97-7..7 9..78 7..7-9. 96.6..9-8..99 78.7.7 6. -.6.988.78. -8..87 69.. 9 -.. 8...7-7..99 6.9.9..7 -..6 6.68..6 -..8 7.8.7 9..9-6.68.6..9..97 6...6.76-69..7. See note on next page 8 S. GHz 9 S. GHz. 7. 7 S S.... FREQUENCY S S S S K MAG
TYPICAL SCATTERING PARAMETERS (TA = C) NE686 VCE =. V, IC =. ma...9 -.8.86 7.. 8..99 -..9.7..96 -..6.79 7.8.98-7..96 6.79.79-9.7.9.. 6. 6 -. 6...7-7..7.8 7 7. -7..7.. -6..8.9. 8. 8-8.7 6... -78..7 8.6..8 8-7. 9.9.. -9..786 69. 6 9. -6..97 8.7.. -.67 7.6.9 7.6 8-7.. 6.8.. -.9.89 8..7.9. -87.6.79...9..6....9-7.9.7.86 VCE =. V, IC =. ma. 89-8. 8.89 67.. 8..97-7.6.7.9..7 -. 7.8 9.6.7 7. 7-6...9 -.8.76.8. 6.6 8-9. 6 6.7.. -9.9.7.. 9..9 -.9.76.6. -69.9.9 86..7 6.7-8.7.9.767. 6-7.6.6 7.6.7..9 -.... -78..8 6.6.9..79-8.6.8 8.9..6-7..9.9. 8.. -6.. 6.69..9 6.6.66.7. -8.6..98..99 7.6.6. 7.8 -.7..9 VCE =. V, IC =. ma. 6 -.9. 6.8. 8.8.9-9.7.76 7.98. - 8.878.6 69..76 -..7. -7.6.8.7. 6. -9.7.796 7.8.. -6.9.9 96.. 6..7 -.7 77 6...9-66.6. 8. 9 6.9. -..986.6.. -6.7.7 69. 8..79-9..9 9.999..69-7..9 8.9..9 -.8. 8.8.. -..986 9.9.7..9-6.9.9 6.76..7 6..6..9.6.9-79...66.. 6.7. 9.8.77.. -.7.6.66 VCE =. V, IC =. ma. 9-7.9 8.6 67..8 8..978-7. 6.6..766 -. 7.9..66 7. 6 -..7.. -..8.6.9 6.9 8-7. 6.87. -..6..7 6 8 -..79.9.. -6.8. 88. 8 7.8.9-6..98.9..7-66.8.7 7.7.9. -..99.6..7-67.8.97 6.8.9.6.9 -.6.8 8.66.. -6.9...9 9. -6.8. 7.9.. -..6 8..7.. -76.8.8.6..68.7.7....96-97..8. Note:. Gain Calculation:.6.8. S S. GHz..6.8.. S - S. GHz - -. - - -. -.6 MAG = S (K ± When K, MAG is undefined and MSG values are used. MSG = S, K = + - S - S, = S S - S S S S S S MAG = Maximum Available Gain MSG = Maximum Stable Gain K - ). -.8 -. -. - - Coordinates in Ohms Frequency in GHz (VCE = V, IC = ma) 8 S. GHz S. GHz 9. 7. 7 S S....
OUTLINE DIMENSIONS (Units in mm).9 ±..6 ±... +. -..7 ±. LEAD CONNECTIONS. Emitter. Base. Collector. ±...9 ±. LEAD CONNECTIONS. Emitter. Base. Collector PACKAGE OUTLINE 8. LEAD CONNECTIONS. Collector. Emitter. Base. Emitter (SOT-) PACKAGE OUTLINE 9.. ±.. ±.. ±. +...6 ±. ±.. +. LEAD ONLY to.. +. PACKAGE OUTLINE (SOT-). ±.. ±. +.. (LEADS,, ) to.. +. MARKING.. +. (ALL LEADS) to.. +. OUTLINE 8 OUTLINE 9 OUTLINE...7.7...
OUTLINE DIMENSIONS (Units in mm).9 ±..9.9. to..9 ±..9.9 ±. PACKAGE OUTLINE (SOT-) +..8 -. +.. -. to.. +. (ALL LEADS) +. -. +. -.6 PACKAGE OUTLINE 9 (SOT-). +. -. +..8 +. -.. +. -. PACKAGE OUTLINE 9R (SOT-) +..9. +. -. to..8 +. -.. +. -. to. +.. (LEADS,, ).9 +. -.6.8 +.. (LEADS,, ) +. -.6 LEAD CONNECTIONS. Emitter. Base. Collector LEAD CONNECTIONS. Collector. Emitter. Base. Emitter LEAD CONNECTIONS. Emitter. Collector. Emitter. Base OUTLINE...9 OUTLINE 9.9 OUTLINE 9R.9.... NE686 SERIES...9
ORDERING INFORMATION PART NUMBER QUANTITY PACKAGING NE6868-T-A Tape & Reel NE6869-T-A Tape & Reel NE686-T Tape & Reel NE686-T Tape & Reel Note: NE6869-T Tape & Reel. Lead material: Cu NE6869R-T Tape & Reel Lead plating: PbSn EXCLUSIVE NORTH AMERICAN AGENT FOR RF, MICROWAVE & OPTOELECTRONIC SEMICONDUCTORS CALIFORNIA EASTERN LABORATORIES Headquarters 9 Patrick Henry Drive Santa Clara, CA 9-87 (8) 988- Telex -69 FAX (8) 988-79 DATA SUBJECT TO CHANGE WITHOUT NOTICE Internet: http://www.cel.com // -