NEC's NPN SILICON HIGH FREQUENCY TRANSISTOR NE68 SERIES FEATURES HIGH GAIN BANDWIDTH PRODUCT: ft = 8 GHz LOW NOISE FIGURE:. db at GHz.6 db at GHz HIGH ASSOCIATED GAIN: 5 db at GHz db at GHz LOW COST DESCRIPTION PLEASE NOTE: The following part numbers from this datasheet are not recommended for new design. Please call sales office for details: NE6835 NEC's NE68 series of NPN epitaxial silicon transistors are designed for low noise, high gain, low cost amplifier applications. Both the chip and micro-x versions are suitable for amplifier applications up to 4 GHz. The NE68 die is also available in six different low cost plastic surface mount package styles. NE68's unique device characteristics allow you to use a single matching point to simultaneously achieve both low noise and high gain. NOISE FIGURE, GAIN MSG AND MAG vs. FREQUENCY B (CHIP) 35 (MICRO-X) 8 (SOT 343 STYLE) E 3 (SOT 33 STYLE) 9 (3 PIN ULTRA SUPER MINI MOLD) 33 (SOT 3 STYLE) Minimum Noise Figure, NF min (db) 3... MSG VCE = 3 V, IC = 5 ma MAG GA NF Associated Gain, Maximum Stable Gain and Maximum Available Gain, GA, MSG, MAG (db) 39 (SOT 43 STYLE) 39R (SOT 43R STYLE).5.. 3. Frequency, f (GHz)
ELECTRICAL CHARACTERISTICS (TA = 5 C) PART NUMBER NE68 NE688 NE689 NE683 EIAJ REGISTERED NUMBER SC5 SC57 SC47 PACKAGE OUTLINE (CHIP) 8 9 3 SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN TYP MAX MIN TYP MAX MIN TYP MAX MIN TYP MAX ft Gain Bandwidth Product at VCE = 8 V, IC = ma GHz 9. 9. VCE = 3 V, IC = 7 ma GHz 7. 7. NF Noise Figure at VCE = 8 V, IC = 7 ma, f = GHz db..5.4.5 f = GHz db.6.3.8.6 GNF Associated Gain at VCE = 8 V, IC = 7 ma, f = GHz db 4 4 3.5 f = GHz db 9 SE Insertion Power Gain at VCE = 8 V, IC = ma, f = GHz db 7 3 5 4 3 f = GHz db 9 9 8 7.5 hfe Forward Current Gain at VCE = 8 V, IC = ma 5 5 5 5 VCE = 3 V, IC = 7 ma 8 6 4 4 ICBO Collector Cutoff Current at VCB = V, IE = ma µa.... IEBO Emitter Cutoff Current at VEB = V, IC = ma µa.... CRE 3 Feedback Capacitance at VCB = 3 V, IE = ma, f = MHz pf.45.9.45.9 VCB = V, IE = ma, f = MHz pf..7.5.8 RTH (J-A) Thermal Resistance (Junction to Ambient) C/W 8 833 833 PT Total Power Dissipation mw 6 5 5 ELECTRICAL CHARACTERISTICS (TA = 5 C) PART NUMBER NE6833 NE6835 NE6839/39R EIAJ REGISTERED NUMBER SC3583 SC364 SC494 PACKAGE OUTLINE 33 35 39 SYMBOLS PARAMETERS AND CONDITIONS UNITS MIN TYP MAX MIN TYP MAX MIN TYP MAX ft Gain Bandwidth Product at VCE = 8 V, IC = ma GHz 9. 9. 9. VCE = 3 V, IC = 7 ma GHz NF Noise Figure at VCE = 8 V, IC = 7 ma, f = GHz db.. f = GHz db.6.3 GNF Associated Gain at VCE = 8 V, IC = 7 ma, f = GHz db 3 3.5 f = GHz db SE Insertion Power Gain at VCE = 8 V, IC = ma, f = GHz db.5 5 f = GHz db 7 9 8.5 hfe Forward Current Gain at VCE= 8 V, IC = ma VCE = 3 V, IC = 7 ma 5 5 5 5 5 ICBO Collector Cutoff Current at VCB = V, IE = ma µa... IEBO Emitter Cutoff Current at VEB = V, IC = ma µa... CRE 3 Feedback Capacitance at VCB = V, IE = ma, f = MHz pf.35.9..7.5.8 RTH (J-A) Thermal Resistance (Junction to Ambient) C/W 65 59 65 PT Total Power Dissipation mw 95 Notes:. Electronic Industrial Association of Japan.. Pulsed (PW 35 ms, duty cycle %). 3. The emitter terminal should be connected to the ground terminal of the 3 terminal capacitance bridge.
ABSOLUTE MAXIMUM RATINGS (TA = 5 C) SYMBOLS PARAMETERS UNITS RATINGS VCBO Collector to Base Voltage V VCEO Collector to Emitter Voltage V VEBO Emitter to Base Voltage V.5 IC Collector Current ma 65 TJ Operating Junction Temperature C 5 TSTG Storage Temperature C -55 to +5 3 Notes:. Operation in excess of any one of these parameters may result in permanent damage.. TJ for NE6835 and NE68 is C. 3. Maximum storage temperature for the NE6835 is -65 to +5 C. NE689 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/5 VCE =.5 V, IC =.3 ma 5.4 9.6.73 4.7 8.67 6.95.74 7..8 6..7 9.78 VCE =.5 V, IC = ma 5.97 3.86.66 43.46 8.9 9..59 48.35.3.9.56 89.3 5.7 7.99.5 3.6 VCE =.5 V, IC = 3 ma 5.9 7.9.49 39.8 8. 4.3.4 68.7..78.38 87.4 5.4.3.39 34.8.8 8.4.36 65. VCE = 3 V, IC = 5 ma 5. 9..37 43. 8. 5.57.3 7.5.9 3.9.3 89.3 5.4.5.33 39.9.7 9.8.3 66. 5.5 7.6.36-63.3 VCE = 8 V, IC = 7 ma 5..3.36 39. 8. 6.8.8 64.6.3 5..8 8.4 5.5.35.8 3..77..8 58. 5. 8.85.33-66.4 3.4 7.86.44-4.6 NE68 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/5 VCE = 8 V, IC = 7 ma 5.3 6.4. 9..45.54. 48.. 4.4. 78.5 4 3.5 7.76.4-5.85 NE683 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/5 VCE =.5 V, IC =.3 ma 5.48.3.74 43.35 8.9.5.7 79.9.5 9..69 99.6 5.7 4.46.66 6.38 VCE =.5 V, IC = ma 5. 4.69.65 45.4 8.6.73.6 8.3.4.9.56 99.4 5.8 7.4.53 3.7. 6.4.47 66. 5.75 4.89.49-66.8 VCE =.5 V, IC = 3 ma 5. 7.8.47 44.5 8.6 4.35.44 83..6.69.43.7 5.46 9.5.39 3..8 7.7.35 77. 5.5 6.3.35-77.9 VCE = 8 V, IC = 7mA 5.3.34.9 5.7.4 3.96.5 84.8.8 8.56.5 55.6 3.5 5.64.48-67. 4 3.6 4.5.67-35. NE6835 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/5 VCE = 8 V, IC = 7 ma. 7.33.8 7..6 3.6.37 6.5 4 3.4 9.5.5-39.7
NE6833 TYPICAL NOISE PARAMETERS (TA = 5 C) NE6839 TYPICAL NOISE PARAMETERS (TA = 5 C) FREQ. NFOPT GA ΓOPT FREQ. NFOPT GA ΓOPT (MHz) (db) (db) MAG ANG Rn/5 (MHz) (db) (db) MAG ANG Rn/5 VCE =.5 V, IC =.3 ma VCE =.5 V, IC =.3 ma 5..45.75 47.5 5. 4..78 47.8 8.69 7.7.74 7.97 8.45 8.4.75 7.84.95 5.96.68 88.7.67 8.37.68 95.56 5.5 3..63.34 VCE =.5 V, IC = ma VCE =.5 V, IC =. ma 5.9 5.7.63 44.43 5.9 4.5.68 47.4 8..3.56 7.6 8..57.63 7.34.6.66.53 98..35 9.9.57 87.3 5.7 8.85.49 45. 5.7 6.53.5.7. 7..57 78.7. 5.53.44 68. VCE =.5 V, IC = 3 ma VCE =.5 V, IC = 3 ma 5.88 8..45 44.5 5.86 6.37.54 47.4 8. 4.6.39 73.9 8..4.5 67..8 3.9.37 99.6.8.7.46 86.8 5.3.54.35 5.9 5.5 8.6.36 8..8 8.6.43-77.7.4 6.99.35 7. VCE = 8 V, IC = 7 ma 5.5.5.6 4.7.5 5.6.6 33.4 5.4.49. 76.9.6.48.3-65.4 3.5 8..53-3.48 4 3. 6.8.7 -.9 TYPICAL PERFORMANCE CURVES (TA = 5 C) Insertion Gain, SE (db) Maximum Available Gain, MAG (db) 3 5 5 5 FORWARD INSERTION GAIN AND MAXIMUM AVAILABLE GAIN vs. FREQUENCY NE6833 SE MAG SE MAG VCE = 8 V IC = ma NE68 NE6835 Insertion Gain, SE (db) 8 6 4 VCE = 8 V NE68 & NE6835 INSERTION GAIN vs. COLLECTOR CURRENT f = GHz f = 3 GHz f = 4 GHz...3.5.7 3 5 7 3 5 7 3 5 Frequency, f (GHz) Collector Current, IC (ma)
TYPICAL PERFORMANCE CURVES (TA = 5 C) Total Power Dissipation, PT (mw) 4 3 DC POWER DERATING CURVES NE6833 NE6835 5 5 Ambient Temperature, TA ( C) Collector to Base Capacitance, COB (pf) 5. 3....7.5.3.. COLLECTOR TO BASE CAPACITANCE vs. COLLECTOR TO BASE VOLTAGE NE6833 NE6835 3 5 7 3 5 Collector to Base Voltage, VCB (V) FORWARD CURRENT GAIN vs. COLLECTOR CURRENT GAIN BANDWIDTH PRODUCT vs. COLLECTOR CURRENT DC Forward Current Gain, hfe 5 3 7 5 3 VCE = 8 V Gain Bandwidth Product, ft (GHz) 5 3 7 5 3 VCE = 8 V 3 5 7 3 5 Collector Current, IC (ma) 3 5 7 3 5 Collector Current, IC (ma) 3..5 NE6833 NOISE FIGURE vs. COLLECTOR CURRENT VCE = 8 V f = GHz 3..5 NE68 & NE6835 NOISE FIGURE vs. COLLECTOR CURRENT VCE = 8 V f = GHz Noise Figure, NF (db)..5. Noise Figure, NF (db)..5..5.5 3 5 7 3 5 3 5 7 3 5 Collector Current, IC (ma) Collector Current, IC (ma)
TYPICAL COMMON EMITTER SCATTERING PARAMETERS j -j j5 S 7 GHz j5 S 7 GHz 5 5 j S. GHz S. GHz -j5 -j Coordinates in Ohms Frequency in GHz - S 5-6 NE68 -j5 (VCE = 8 V, IC = 7 ma) -9 VCE = 8 V, IC = 7 ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db).87 -.8 9.53 63.9. 88.3.964-7..3 3..89-49.5 7.98 5.. 65.5.894-6.8.3 9. 5.74 -..63 3..38 4..69-7.4.8 5..7-39. 7.498.5.47 36.7.536-9..47. 5.689-56.6 5.8 9.4.49 33..483-8.6.7..686-67. 3.959 8..53 35..46-9..88 8.7 3.687 79.8.687 69.7.6 45.9.447-33.6. 4.4 4.693 7..48 59..7 48.7.449-4.6..8 5.699 66.6.66 49.8.8 53..454-48..7. 6.78 6..43 4..96 57..473-57..5 9.4 7.77 57..5 3.7.6 56.6.49-66.8.99.3 8.7 5.7.5 3.3.5 56.9.59-76..97 9.5 9.75 45.5.989 4..46 55.9.549-86.4.83 8.3.76 37.6.868 5.9.69 54.9.58-96..74 7..74 3..773 -..79 5.9.6-4.8.7 6.4.7 3.6.673-9.7.9 49..663-4..69 5.4 8 5-5 S. GHz 9 S. GHz 5 6...3 S 7 GHz S 7 GHz.4 3.5-3 VCE = 8 V, IC = ma.665-47. 38.3 54.. 9..885-5.. 35.4.664-85.3 3.89 35.9.7 7.3.753-6.. 3.6 5.663-35.8 6.975 8.9.5 45.4.54-3.8.45 8.3.663-6. 9.66 93..8 49.5.44-7..8 5. 5.667-7.7 6.3 84.9.36 49.6.377-6.3.97.3.669-78.4 4.67 78.3.4 53..369-6.6. 8.5 3.676 7.7 3. 67.9.54 59..36-3.6.5 4.6 4.686 67.3.36 58.6.7 6.6.36-38.5..5 5.693 6.6.93 5..86 63.5.37-45.8.9.8 6.75 59..643 4..3 65..386-55.5.8.3 7.79 54.5.433 33.3.3 63..45-65..94.7 8.77 49.4.66 5.4.33 6.6.433-74..9 9.8 9.76 43.5.34 6.7.53 6.4.464-84.5.84 8.7.733 35.9. 8.4.7 57.3.5-94.4.76 7.7.73 9.4.897.5.85 53.9.546-3..7 6.9.78..787-7..97 5.8.587 -.6.7 6. S-Parameters include bond wires. BASE: Total wire (s), per bond pad,." (39 µm) long each wire. COLLECTOR: Total wire (s), per bond pad,.8" (3 µm) long each wire. EMITTER: Total wire (s), per side,.94" (494 µm) long each wire. WIRE:.7" (7.7 µm) dia., gold. 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 j5 j5 j 9 6 j - Coordinates in Ohms S -6 -j5 Frequency in GHz -9 NE689 (VCE =.5 V, IC = 3 ma) VCE =.5 V, IC =.3 ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 5.995-6..83 74..7 88..997 -.. 8.8.99 -.9.8 7.4.7 8.9.995-4.5.6 6..98-3.5.38 58.4.5 74..99-9.3. 3. 3.967-35.3. 49..78 65..989-4.3.5. 4.95-46..985 39..96 58.4.979-8... 5.99-57..95 3..4 5.4.96 -.5.3 9. 6.95-67..936..3 44.5.948-6.4.3 8.6 7.89-77..888.7.44 38.5.937-3..33 7.9 8.874-86..869 5..53 3.7.98-33.9.36 7.5 9.853-94.5.88 97..6 7.3.96-37..4 7..838 -.9.784 9.6.65.8.98-4.5.45 6.8 5.77-39..65 6..69.6.869-54.5.66 5.9.73-7.6.564 39..46 -.7.84-66.5.95 5.9 3.693 3..44 9..85 6..83-9..98.5 VCE =.5 V, IC =. ma 5.979-8.4 4.37 7.8.6 87.7.99 -.3.4 4.3.965-5.9 3.5 66.3.6 77.4.986-7.5..3.944-3. 3.384 55.6.49 7.9.97-3..9 8.4 3.95-44.6 3.34 45.3.69 6.3.949-9.4.5 6.7 4.877-57.8 3.69 34.8.9 54.9.98-4.6.7 5.3 5.836-7..855 5.6.4 45.7.883-9..5 4.4 6.8-8.8.67 6.9.5 4.8.85-33.4.8 3.7 7.77-9.3.5 9.. 34.6.8-37..33 3. 8.74 -..34..7 9.9.798-4.6.38.7 9.74 -.7.95 95..33 5.9.778-43.4.43..694-8.7.4 89.4.35.6.76-46.4.48.8 5.66-53.7.547 63.8.3 9..76-58..75.7.57 77.3.55 43.4.4 6.7.67-68..7 8.4 3.555 5.5.94.4.3..67-89.7.4 4.7 VCE =.5 V, IC = 3 ma 5.937-3..86 67.8.4 85..97-5.3.8 8.9.94 -.9 9.68 6.4.3 76.5.955 -.. 6..839-44.6 8.856 45.9.44 65.5.97 -.5.6 3. 3.77-63.4 7.858 33..6 55.3.83-9.5.5. 4.699-79.9 6.98.6.7 48.3.76-35.9.3 9.9 5.64-93.8 6.7..8 4.4.699-39.7.4 8.9 6.598-6. 5.458 4..86 38.7.65-43.3.48 8. 7.564-6.4 4.898 97.3.89 36.7.63-46..55 7.4 8.534-5.9 4.49 9..93 34..587-48..6 6.8 9.5-34. 4.3 85.5.95 33.3.565-5..69 6.3.494-4.6 3.696 8.6.99 3..549-5.3.74 5.7 5.438-7.6.68 59.5.3 9..58-59.9.99 3.6.49 6.4.4 4.8.3 8.7.485-67.6.5 9.6 3.4 7..474..87 4..448-85.5.6 6.5 See note on next page. -j 5 5 S 5 GHz -j5 S 5 GHz S.5 GHz S.5 GHz -j 8 5-5 S.5 GHz S.5 GHz 4 6 8..3 S 5 GHz S 5 GHz 3.5-3
TYPICAL COMMON EMITTER SCATTERING PARAMETERS NE6833 VCE = 8 V, IC = 7 ma Coordinates in Ohms Frequency in GHz (VCE = 8 V, IC = ma) FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db).8-7. 7.578 53.8.3 68.7.98 -.7.37 8.8.639-49. 4.3 34..39 69.8.783-9.9.46 5.6 5.344-83.3 7.67 5.5.65 67.8.579 -.5.8.7.7-3.4 4.6 86.7.9 73.5.49-7.7. 5. 5.5-44..87 75.3.6 74.8.454-7.8.5..98-76.3.54 66.. 74.7.438-6.9.4 9. 3.37 37.6.669 53..33 73..49 -..99 7.3 VCE = 8 V, IC = ma.744-3.7. 48.4.7 57.9.896-4.6.5 3..553-54.5 6.3 7.9.37 69..737 -.7.54 6.4 5.77-87. 8.93..6 7.6.54 -.9.88..34-5.8 4.84 85.3.9 76.3.46-7..4 4.7 5.9-46..98 75..65 75.9.43-6.5.4.3.79 8..35 66.5.7 75..43-6.8.3 9.3 3. 34..736 53.9.3 73.7.38 -.3.99 7.3 VCE = 8 V, IC = ma.594-43.3 9.85 38..3 6..79-9.4.57 33.5.389-66.3 9.8 7.5.35 73..64 -.6.69 7.4 5.75-95.5 8.683 96..57 74..48-6.5.98.8.89-7.5 4.5 8.3. 79.6.44-3..3 5. 5.64-6.8 3.78 73.3.67 78.9.46-3.9.4.4.7 67..46 64.9. 74.9.44-3.8. 9.5 3. 3.5.774 53..3 7.4.379-9.4.98 7.4 VCE = 8 V, IC = 3 ma.557-46.9 3.97 35..7 65.9.836-7.4.5 3.5.354-7.7 9.96 5..9 73.4.664 -..67 8. 5.58 -.5 8.499 94.8.59 77.7.53-7.7.95.6.8-36. 4.363 8.7. 8.7.455-4.3.3 4.9 5.65-75. 3.9 7.7.67 8..48-4..3.5.76 56..348 65..9 77..45-4..3 9. 3.7 8.4.74 53..35 74..387-9.7.98 7.3 Note:. Gain Calculations: MAG = S S j -j j5 -j5 (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 j5 -j5 j j5 j5 S GHz 5 5 555 S GHz S. GHz -j5 S. GHz -j5 -j 8 5-5 S. GHz - 9 S 5-9 S GHz NE68 SERIES 6 S.5..5. GHz 5 S GHz -6 3 5-3
TYPICAL COMMON EMITTER SCATTERING PARAMETERS 5 GHz 5 GHz S S. GHz. GHz S. GHz S. GHz 5 GHz 5 GHz Coordinates in Ohms Frequency in GHz (VCE = 8 V, IC = ma) NE6835 VCE = 8 V, IC = 7 ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db).836-6. 8.47 6.4.4 73.6.959 -.3.6 3. 5.659-5..48 4.7.4 44.3.654-33..38 4.4.585-46. 6.65 9.3.5 38.3.5-38.5.68. 5.557-67. 4.555 75.5.58 39.3.47-43..93 8.9.56-8. 3.57 63.9.68 4.3.46-49.4. 6.4 3.56 59.6.43 43.4.88 43..468-64.3..4 4.56 4.8.854 5..3 4.9.49-8.4.7.6 5.563 7..56 8..4 38.7.5-96..98.3 VCE = 8 V, IC = ma.78-3. 4.97 57..3 73.4.937-3.9.5 3.6 5.69-7.6 3.5 9.6.36 44.6.58-35..47 5.6.558-54.7 7.33 87.5.45 43..457-38.5.79. 5.54-73. 4.95 73.9.55 45.8.45-4.6. 9.4.547 75.3 3.778 6.9.67 47.6.4-48.8.5 6. 3.549 56.5.59 43.3.9 47.4.48-63.7.9.7 4.55 4.6.99 5.5.9 44..45-79.7.5.9 5.55 5..69 8.7.49 39.4.486-95..96.4 VCE = 8 V, IC = ma.654-49.9 36.87 49.3. 67.4.877-9.. 35. 5.547-39.7 4.98.5.7 49..475-34.9.66 7.5.535-68. 7.96 83..38 53.7.39-35.7.95 3. 5.57-77.7 5.38 7.3.5 56..375-39.9.8 8.4.534 68.5 4.7 6..65 56.6.376-46.5.9 6. 3.54 5.9.78 4.7.94 53.4.389-6.9.7 3. 4.544 37..3 5.5.4 47.8.45-78...6 5.544.7.745 9..56 4.3.45-93.7.94.5 VCE = 8 V, IC = 3 ma MAG =.575-64. 43.45 44.. 64..83 -.9.6 36.3 5.539-5. 5.38 97.9.3 5.7.44-3.3.77 8..537-73.7 7.96 8..36 58.9.38-3.9..7 5.53 73.7 5.38 69.9.49 6.7.37-37.8. 8.3.54 65.5 4.58 6..64 6..374-44.9.9 6. 3.549 49.8.767 4.9.94 55.9.39-6.9.6 3. 4.55 35.7.8 4.9.5 49.8.46-77.4.. 5.553..73 8.5.57 4.9.453-93.3.9.4 Note:. Gain Calculations: 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 = 5 C). -..6 S 3 GHz..6 S 3 GHz 4 S.5 GHz 4-4 S.5 GHz - Coordinates in Ohms - Frequency in GHz 5 35 -.6 (VCE =.5 V, IC = 3 ma) - NE6839 7 VCE =.5 V, IC =.3 ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) 5.996-3.4.89 75..4 83..995 -..3 8.9.995 -.4.79 73..7 8.3.993 -.7.6 6..99 -.3.7 6.9.5 74.5.989-5.7.6 3.3 3.973-3.7.3 53.6.75 68.7.985-8.7.9.4 4.953-4..993 45.9.98 64.3.976 -.4.9. 5.93-5.3.99 37.. 59.3.965-3.8.5 9. 6.99-6.5.8 9.9.38 53.5.949-6.4.8 8.6 8.86-79.9.98 4.3.67 4.7.98 -..37 7.4.89-98.5.87..84 33.4.888-5..45 6.8 5.744-4..79 7..9 4..88-35..66 5.8.73-73..63 5.7.55 3.4.8-46.3.85 5. 3.76 4..438 8.5.89 8.4.77-76.7.6.3 VCE =.5 V, IC =. ma 5.985-6.8 3.763 75.3.6 86.4.989 -.8. 3.7.97-4.8 3.648 7..9 8.4.98-4.8...94-7.5 3.497 59..5 74.3.963-9.5. 8.4 3.94-4.4 3.346 49.4.7 65.4.946-3.9.7 6.8 4.876-53.8 3.84 4.6.9 58.7.96-7.8. 5.4 5.88-65. 3.43 3.8.6 53.8.884 -.9.5 4.6 6.79-76.9.88 4..9 47.7.845-4..3 3.8 8.75-98.4.56 9.8.37 38.9.778-8.6.4.6.663-7.6.37 98.4.45 3.3.76-3.9.49.9 5.596-57.8.686 74.8.45 3.5.63-39.8.75.7.6 73.8.346 56.9.3 4.6.583-48.9.4 8.9 3.66 36.9.94 3.9.44 47.4.538-75.9. 5.4 VCE =.5 V, IC = 3 ma 5.96 -.7.46 7..5 84.7.975-4.6.7 8.4.895-3.5 9.954 64.8.7 79..97-9.6.5 5.7.89-4. 9. 48.6.46 67.6.9-8..9.9 3.755-6.3 8.67 36..6 57.7.86-4.5.9. 4.694-76.4 7.65 5.8.74 5.4.754-9.3.35 9.9 5.69-9. 6.39 7..83 49.8.69-3.3.43 8.8 6.574-3. 5.66 9.8.89 46.7.634-34.4.5 8. 8.5-5. 4.558 97.8.99 43.3.55-37..65 6.6.47-43.4 3.85 88.7.6 4..496-38.6.77 5.6 5.453-78.4.684 7.7.3 43.6.4-43.3.99 3.4.48 59.4.78 56.4.4 47.3.36-5.3. 9.7 3.567 3.6.44 34..97 49.7.3-78.6.8 6.9 8 35 S.5 GHz S.5 GHz 9.5 5 7.5 S 3 GHz S 3 GHz.5..5 45 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 = 5 C) NE6839 VCE = 8 V, IC = 7 ma FREQUENCY S S S S K MAG (MHz) MAG ANG MAG ANG MAG ANG MAG ANG (db) MAG =.764-8 7.86 56. 53.944 -.9 39.5.675-55 5.33 38.8 7.855-9.54 3.8 3.569-76.659 6.8 6.734 -.69 8.5 4.48-94.6 6.5 59.698-5.74 6.3 5.43-8.886 7.35 59.6-4.86 4. 6.398-7.696.43 58.589-4.86.5 7.374-33 6.888 97.46 59.53-6.99.8 8.354-4 6.73 93.56 59.5-5.97.4 9.339-5 5.4 88.55 6.493-8.3 7.7.33-59 4.963 85.66 6.493-5.5 7.4.333-66 4.576 8.69 6.488-8.8 6.5.343-74 4.64 78.76 6.457-7.9 5.7 3.33 8 3.9 76.8 63.467-9. 4.8 4.343 73 3.656 73.89 63.449-9.9 4.3 5.348 7 3.433 7.98 66.447-9.6 3.9.44 5.656 56.9 6.388-4.4.9 3.5 6.89 38.9 6.33-63. 9.8 4.595.46 7.56 5.3-95.88 7.5 5.65 97.9.37 44.343-6.83 5.5 Note:. Gain Calculations: 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
NE688 NONLINEAR MODEL SCHEMATIC PKG Q Base X LC LCX Collector CBEPKG LE LC PKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.7e-6 MJC.56 BF 85 XCJC NF. CJS VAF 5 VJS.75 IKF.55 MJS ISE.77e- FC.5 NE. TF 4e- BR XTF 3 NR VTF 5 VAR Infinity ITF. IKR Infinity PTF ISC TR.3e-9 NC EG. RE.6 XTB RB XTI 3 RBM 3.7 KF IRB.e-5 AF RC 8 CJE.e- VJE.77 MJE.5 CJC.8e- VJC.7 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 688.7e-.e-.6e-9 LC.54e-9 LE.83e-9 PKG.9e- PKG.5e- CBEPKG.5e- X.8e-9 LCX.8e-9 LEX.9e-9 MODEL RANGE Frequency:.5 to 5. GHz Bias: VCE =.5 V to 8. V, IC = 3 ma to ma Date: 5/9/96 Note:. This nonlinear model utilized the latest data available. See our Design Parameter Library at www.cel.com for this data.
NE689 NONLINEAR MODEL SCHEMATIC PKG Q Base X LCX Collector LE PKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.7e-6 MJC.56 BF 85. XCJC NF. CJS VAF 5. VJS.75 IKF.55 MJS ISE.77e- FC.5 NE. TF 4.e- BR XTF 3 NR VTF 5 VAR Infinity ITF. IKR Infinity PTF ISC TR.3e-9 NC EG. RE.6 XTB RB XTI 3 RBM 3.7 KF IRB.e-5 AF RC 8 CJE.e- VJE.77 MJE.5 CJC.8e- VJC.7 UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 689.7e-.e-.3e-9 LE.85e-9 PKG.8e- PKG.e- X.9e-9 LCX.9e-9 LEX.9e-9 MODEL RANGE Frequency:.5 to 3. GHz Bias: VCE =.5 V to 8. V, IC =.3 ma to ma () Gummel-Poon Model
NE683 NONLINEAR MODEL SCHEMATIC PKG Q Base X LCX Collector CBEPKG LE PKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.7e-6 MJC.56 BF 85 XCJC NF. CJS VAF 5 VJS.75 IKF.55 MJS ISE.77e- FC.5 NE. TF 4e- BR XTF 3 NR VTF 5 VAR Infinity ITF. IKR Infinity PTF ISC TR.3e-9 NC EG. RE.6 XTB RB XTI 3 RBM 3.7 KF IRB.e-5 AF RC 8 CJE.e- VJE.77 MJE.5 CJC.8e- VJC.7 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 683.7e-.e-.5e-9 LE.8e-9 PKG.e- PKG.6e- CBEPKG.4e- X.e-9 LCX.8e-9 LEX.e-9 MODEL RANGE Frequency:.5 to 3. GHz Bias: VCE =.5 V to 8 V, IC =.3 ma to ma Date: //96 Note: This nonlinear model utilized the latest data available. See our Design Parameter Library at www.cel.com for this data.
NE6833 NONLINEAR MODEL SCHEMATIC PKG Q Base X LCX Collector CBEPKG LE PKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.7e-6 MJC.56 BF 85 XCJC NF. CJS VAF 5 VJS.75 IKF.55 MJS ISE.77e- FC.5 NE. TF 4e- BR XTF 3 NR VTF 5 VAR Infinity ITF. IKR Infinity PTF ISC TR.3e-9 NC EG. RE.6 XTB RB XTI 3 RBM 3.7 KF IRB.e-5 AF RC 8 CJE.e- VJE.77 MJE.5 CJC.8e- VJC.7 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 6833.7e-.e-.9e-9 LE.e-9 PKG.e- PKG.e- CBEPKG.e- X.3e-9 LCX.6e-9 LEX.3e-9 MODEL RANGE Frequency:. to 8. GHz Bias: VCE = V to 8 V, IC = ma to 3 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.
NE6835 NONLINEAR MODEL SCHEMATIC _PKG Q.pF BASE RB_PKG. ohms _PKG.5nH.45nH.7pF LC.96 nh.pf LC_PKG.5nH RC_PKG. ohms COLLECTOR _PKG CBE_PKG.5pF LE_PKG.38nH.pF CBEX_PKG RE_PKG. ohms X_PKG.pF EMITTER.pF BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.7e-6 MJC.56 BF 85. XCJC NF. CJS VAF 5. VJS.75 IKF.55 MJS ISE.77e- FC.5 NE. TF 4e- BR XTF 3 NR VTF 5 VAR Infinity ITF. IKR Infinity PTF ISC TR.3e-9 NC EG. RE.6 XTB RB XTI 3 RBM 3.7 KF IRB.e-5 AF RC 8 CJE.e- VJE.77 MJE.5 CJC.8e- VJC.7 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps MODEL RANGE Frequency:.5 to 5. GHz Bias: VCE = 8. V, IC = 7 ma to 3 ma Date: //96
NE6839 NONLINEAR MODEL SCHEMATIC PKG Q Base X LC LCX Collector CBEPKG LE PKG LEX Emitter BJT NONLINEAR MODEL PARAMETERS () Parameters Q Parameters Q IS.7e-6 MJC.56 BF 85. XCJC NF. CJS VAF 5. VJS.75 IKF.55 MJS ISE.77e- FC.5 NE. TF 4.e- BR. XTF 3. NR. VTF 5. VAR Infinity ITF. IKR Infinity PTF ISC TR.3e-9 NC. EG. RE.6 XTB RB. XTI 3. RBM 3.7 KF IRB.e-5 AF. RC 8. CJE.e- VJE.77 MJE.5 CJC.8e- VJC.7 () Gummel-Poon Model UNITS Parameter Units time seconds capacitance farads inductance henries resistance ohms voltage volts current amps ADDITIONAL PARAMETERS Parameters 6839.7e-.e-.88e-9 LC.79e-9 LE.7e-9 PKG.65e- PKG.65e- CBEPKG.e- X.39e-9 LCX.39e-9 LEX.e-9 MODEL RANGE Frequency:. to 3. GHz Bias: VCE =.5 V to 8. V, IC =.3 ma to 7 ma Date: 6/7/96
OUTLINE DIMENSIONS (Units in mm) NE68 (CHIP) (Chip Thickness: 6 mm).35±..3 BASE EMITTER.3φ..35±.. ±. PACKAGE OUTLINE 8 PACKAGE OUTLINE 8 RECOMMENDED P.C.B. LAYOUT. ±..5 ±. +..3 -.5 (LEADS, 3, 4) 3.65 3.65.3.6.6.65.8 +..4 -.5.3.9 ±. 4 to..5 +. -.5 PIN CONNECTIONS. Collector. Emitter 3. Base 4. Emitter.5.7 4.6 ±..5. +. -. PACKAGE OUTLINE 9 PACKAGE OUTLINE 9 RECOMMENDED P.C.B. LAYOUT.6 ±..8 ±. 3.3 +. -.5 LEAD 3 ONLY PIN CONNECTIONS. Emitter. Base 3. Collector.6.3 3.5..75 ±.5.6 to..5 +. -.5.6 PACKAGE OUTLINE 3 PACKAGE OUTLINE 3 RECOMMENDED P.C.B. LAYOUT. ±..5 ±.. ±..65.3 3.3 +. -.5 (ALL LEADS).7 3.5.9 ±. MARKING PIN CONNECTIONS. Emitter. Base 3. Collector.6.8.65.3 to..5 +. -.5
OUTLINE DIMENSIONS (Units in mm).9 ±..95.9 PACKAGE OUTLINE 33 (SOT-3).8 +. -.3 3.4 +. -.5 (ALL LEADS) PACKAGE OUTLINE 33 RECOMMENDED P.C.B. LAYOUT.4 3. to.4.8 +..5 -..65 +. -.5 PIN CONNECTIONS. Emitter. Base 3. Collector.8..95.9 to..6 +. -.6 PACKAGE OUTLINE 35 (MICRO-X) E 3.8 MIN ALL LEADS.5±.6 C B +.6. -.4 E.55±. φ. 45.8 MAX PIN CONNECTIONS.Collector. Emitter 3. Base 4. Emitter.55 PACKAGE OUTLINE 39.8 +. -.3.5 +. -. +..4 -.5 (LEADS, 3, 4) PACKAGE OUTLINE 39 RECOMMENDED P.C.B. LAYOUT.4.9 ±..95 3 3.9.85. +. -..6 +. -.5.8 4.6 +. -.6 PIN CONNECTIONS.Collector. Emitter 3. Base 4. Emitter.9. 5 to. 5. 4
OUTLINE DIMENSIONS (Units in mm) PACKAGE OUTLINE 39R.6 +. -.5.8 +. -.3.5 +. -. PACKAGE OUTLINE 39R RECOMMENDED P.C.B. LAYOUT.4.85 3 3.8.9 ±..95. +. -..8 4 +..4 -.5 (LEADS, 3, 4).6 +. -.6 PIN CONNECTIONS. Emitter. Collector 3. Emitter 4. Base.9. 4. 5 5 to. ORDERING INFORMATION PART QUANTITY PACKAGING NUMBER NE68 Waffle Pack NE688-T 3 Tape & Reel NE689-T 3 Tape & Reel NE683-T 3 Tape & Reel NE6833-TB 3 Tape & Reel NE6835 ESD Bag NE6839-T 3 Tape & Reel NE6839R-T 3 Tape & Reel 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. /6/3 A Business Partner of NEC Compound Semiconductor Devices, Ltd.