part number ne687m13 eiaj 1 registered number 2sc5618 package outline m13 symbols parameters and conditions units min typ max f t gain bandwidth at v ce = 2 v, i c = 20 ma, f = 2 ghz ghz 9.0 14.0 v ce = 1 v, i c = 10 ma, f = 2 ghz ghz 7.0 12.0 nf noise figure at v ce = 2 v, i c = 3 ma, f = 2 ghz, z s = z opt db 1.4 2.0 v ce = 1 v, i c = 3 ma, f = 2 ghz, z s = z opt db 1.5 2.0 |s 21e | 2 insertion power gain at v ce = 2 v, i c = 20 ma, f = 2 ghz db 8.5 10.0 v ce = 1 v, i c = 10 ma, f = 2 ghz db 6.0 9.0 h fe forward current gain at v ce = 2 v, i c = 20 ma, note 2 70 130 i cbo collector cutoff current at v cb = 5 v, i e = 0 a 0.1 i ebo emitter cutoff current at v eb = 1 v, i c = 0 a 0.1 c re feedback capacitance at v cb = 2 v, i e = 0, f = 1 mhz, note 3 pf 0.4 0.8 ne687m13 nec's npn silicon transistor ? new miniature m13 package: ? small transistor outline ? 1.0 x 0.5 x 0.5 mm ? low profile / 0.50 mm package height ? flat lead style for better rf performance ? high gain bandwidth product: f t = 14 ghz ? low noise figure: nf = 1.4 db at 2 ghz features outline dimensions (units in mm) package outline m13 electrical characteristics (t a = 25 c) california eastern laboratories notes: 1. electronic industrial association of japan. 2. pulsed measurement, pulse width 350 s, duty cycle 2 %. 3. capacitance is measured with emitter and case connected to the guard terminal of the bridge. description nec's ne687m13 transistor is designed for low noise, high gain, and low cost requirements. this high f t part is well suited for very low voltage/low current designs for portable wireless communications and cellular radio applications. nec's new low profile/flat lead style "m13" package is ideal for today's portable wireless applications. 1. emitter 2. base 3. collector pin connections 0.125 +0.1 ?0.05 0.5?.05 0.1 0.1 0.2 +0.1 ?0.05 0.35 0.7 0.35 0.15 +0.1 ?0.05 0.15 +0.1 ?0.05 1.0 +0.1 ?0.05 0.5 +0.1 ?0.05 0.7?.05 1 2 3 w2 0.3 0.2 0.2 (bottom view)
notes: 1. operation in excess of any one of these parameters may result in permanent damage. 2. with device mounted on 1.08 cm 2 x 1.2 mm glass epoxy board. symbols parameters units ratings v cbo collector to base voltage v 5.0 v ceo collector to emitter voltage v 3.0 v ebo emitter to base voltage v 2.0 i c collector current ma 30 p t total power dissipation 2 mw 90 t j junction temperature c 150 t stg storage temperature c -65 to +150 absolute maximum ratings 1 (t a = 25 c) typical performance curves (t a = 25 c) ambient temperature, t a ( c) total power dissipation, p tot (mw) total power dissipation vs. ambient temperature collector to base voltage, v cb (v) reverse transfer capacitance, c re (pf) reverse transfr capacitance vs. collector to base voltage mounted on glass epoxy pcb (1.08 cm 2 1.0 mm (t) ) 300 250 200 150 90 100 50 0 25 50 75 100 125 150 f = 1 mhz 0.6 0.5 0.4 0.3 0.2 0.1 012345 35 30 25 20 15 10 5 012 3 4 100 a 200 a 400 a 500 a 300 a i b : 50 a step i b = 50 a ne687m13 base to emmiter voltage, v be (v) collector current, i c (ma) collector current vs. base to emitter voltage v ce = 2 v 100 10 1 0.01 0.001 0.1 0.0001 0.7 0.5 0.6 0.4 0.8 0.9 1.0 collector to emmiter voltage, v ce (v) collector current, i c (ma) collector current vs. collector to emitter voltage part number quantity ne687m13-a NE687M13-T3-A ordering information
typical performance curves (t a = 25 c) collector current, i c (ma) dc current gain, h fe dc current gain vs. collector current ne687m13 collector current, i c (ma) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current frequency, f (ghz) insertion power gain, |s 21e | 2 (db) maximum available gain, mag(db) maximum stable gain, msg(db) insertion power gain, mag, msg vs. frequency collector current, i c (ma) insertion power gain, |s 21e | 2 (db) maximum available gain, mag(db) maximum stable gain, msg(db) insertion power gain, mag, msg vs. collector current frequency, f (ghz) insertion power gain, |s 21e | 2 (db) maximum available gain, mag(db) maximum stable gain, msg(db) insertion power gain, mag, msg vs. frequency collector current, i c (ma) insertion power gain, |s 21e | 2 (db) maximum available gain, mag(db) maximum stable gain, msg(db) insertion power gain, mag, msg vs. collector current v ce = 2 v 1000 100 10 110 0.1 100 v ce = 2 v f = 2 ghz 16 14 12 10 8 6 4 2 0 10 1 100 v ce = 1 v i c = 10 ma 35 30 25 20 15 10 5 0 0.1 1 10 mag msg |s 21e | 2 v ce = 2 v i c = 10 ma 35 30 25 20 15 10 5 0 0.1 1 10 mag msg |s 21e | 2 v ce = 2 v f = 1 ghz 20 15 10 5 0 1 10 100 mag msg |s 21e | 2 v ce = 2 v f = 2 ghz 20 15 10 5 0 1 10 100 mag msg |s 21e | 2
typical performance curves (t a = 25 c) collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current ne687m13 collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current 5 4 3 2 1 0 20 16 12 8 4 0 1 10 100 v ce = 1 v f = 1 ghz g a nf 5 4 3 2 1 0 20 16 12 8 4 0 1 10 100 v ce = 2 v f = 1 ghz g a nf 5 4 3 2 1 0 20 16 12 8 4 0 1 10 100 v ce = 1 v f = 1.5 ghz g a nf 5 4 3 2 1 0 20 16 12 8 4 0 1 10 100 v ce = 2 v f = 1.5 ghz g a nf 5 4 3 2 1 0 20 16 12 8 4 0 1 10 100 v ce = 1 v f = 2 ghz g a nf 5 4 3 2 1 0 20 16 12 8 4 0 1 10 100 v ce = 2 v f = 2 ghz g a nf associated gain, g a (db) associated gain, g a (db) associated gain, g a (db) associated gain, g a (db) associated gain, g a (db) associated gain, g a (db)
ne687m13 typical scattering parameters ne687m13 v ce = 1 v, i c = 10 ma frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) 0.100 0.71 -28.83 21.86 158.87 0.02 76.89 0.86 -22.59 0.19 29.94 0.200 0.64 -56.70 19.01 141.86 0.04 64.05 0.75 -40.78 0.28 27.02 0.300 0.57 -77.87 16.05 129.44 0.05 57.48 0.63 -54.59 0.37 25.16 0.400 0.53 -94.58 13.57 120.29 0.06 54.28 0.54 -64.96 0.46 23.79 0.500 0.49 -107.39 11.62 113.50 0.06 52.33 0.47 -72.99 0.54 22.68 0.600 0.45 -120.85 9.91 108.06 0.07 51.39 0.37 -78.86 0.68 21.71 0.700 0.44 -129.42 8.73 103.77 0.07 51.70 0.33 -85.54 0.74 20.83 0.800 0.44 -135.99 7.80 100.31 0.08 52.15 0.30 -90.17 0.79 20.04 0.900 0.43 -141.83 7.02 97.30 0.08 52.52 0.28 -94.31 0.83 19.34 1.000 0.43 -146.64 6.38 94.61 0.09 53.11 0.26 -99.34 0.88 18.67 1.200 0.42 -153.87 5.40 90.05 0.10 54.26 0.23 -106.29 0.94 17.49 1.400 0.42 -160.59 4.69 86.18 0.11 55.29 0.21 -113.29 0.99 16.45 1.600 0.42 -165.22 4.14 82.82 0.12 56.05 0.19 -118.74 1.03 14.43 1.800 0.42 -169.18 3.71 79.73 0.13 56.51 0.18 -123.68 1.06 13.15 2.000 0.41 -172.49 3.37 76.86 0.14 56.83 0.17 -128.17 1.08 12.13 2.500 0.40 179.29 2.76 70.23 0.16 56.91 0.16 -136.91 1.12 10.14 3.000 0.40 171.08 2.35 64.05 0.19 55.87 0.17 -143.47 1.14 8.61 3.500 0.39 161.33 2.05 58.49 0.21 54.71 0.18 -147.06 1.16 7.38 4.000 0.40 152.78 1.83 53.56 0.24 53.37 0.20 -147.25 1.16 6.41 4.500 0.39 146.02 1.66 49.23 0.26 52.04 0.22 -144.73 1.16 5.60 5.000 0.38 141.59 1.53 45.35 0.29 50.81 0.23 -140.61 1.15 4.94 5.500 0.36 138.25 1.44 41.63 0.31 49.38 0.23 -135.48 1.14 4.40 6.000 0.34 134.43 1.36 37.72 0.34 47.54 0.23 -133.06 1.13 3.90 coordinates in ohms frequency in ghz v ce = 1 v, i c = 10 ma mag = |s 21 | |s 12 | k - 1 ). 2 ( k ? = s 11 s 22 - s 21 s 12 when k 1, mag is undefined and msg values are used. msg = |s 21 | |s 12 | , k = 1 + | ? | - |s 11 | - |s 22 | 2 2 2 2 |s 12 s 21 | , note: 1. gain calculations: mag = maximum available gain msg = maximum stable gain j50 j100 j25 j10 0 -j10 -j25 -j50 -j100 10 50 100 25 s22 s11 +90o +45o +0o +0o 5 10 15 20 25 -45o -90o -135o +180o +135o s12 s21
ne687m13 typical scattering parameters ne687m13 v ce = 2 v, i c = 5 ma frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) 0.100 0.86 -14.28 13.53 167.49 0.02 80.25 0.94 -11.88 0.14 28.47 0.200 0.81 -31.85 12.83 155.13 0.04 71.73 0.89 -22.74 0.17 25.34 0.300 0.76 -46.05 11.91 144.78 0.05 65.56 0.82 -32.21 0.22 23.61 0.400 0.70 -59.23 10.91 135.97 0.06 60.40 0.75 -39.96 0.28 22.37 0.500 0.65 -70.68 9.95 128.54 0.07 56.24 0.68 -46.33 0.34 21.38 0.600 0.58 -82.92 8.87 121.33 0.08 52.47 0.58 -49.51 0.47 20.54 0.700 0.54 -91.97 8.07 116.01 0.08 50.58 0.53 -54.17 0.52 19.81 0.800 0.52 -99.97 7.39 111.61 0.09 49.44 0.48 -57.43 0.57 19.16 0.900 0.49 -107.10 6.76 107.73 0.09 48.55 0.44 -59.80 0.62 18.56 1.000 0.48 -113.24 6.24 104.20 0.10 47.85 0.41 -63.07 0.66 18.02 1.200 0.45 -123.52 5.38 98.29 0.11 47.62 0.36 -66.56 0.75 17.05 1.400 0.43 -132.69 4.72 93.40 0.11 47.64 0.32 -70.62 0.82 16.19 1.600 0.41 -139.56 4.20 89.17 0.12 48.14 0.29 -73.13 0.88 15.41 1.800 0.40 -145.30 3.78 85.45 0.13 48.60 0.27 -75.54 0.94 14.70 2.000 0.39 -150.12 3.45 82.00 0.14 49.16 0.25 -77.78 0.98 14.05 2.500 0.37 -161.26 2.84 74.35 0.16 50.11 0.22 -83.87 1.07 11.05 3.000 0.36 -171.52 2.42 67.39 0.18 50.31 0.21 -91.33 1.12 9.30 3.500 0.35 176.69 2.12 61.12 0.20 50.27 0.22 -98.64 1.15 7.96 4.000 0.34 166.32 1.88 55.53 0.22 49.84 0.23 -104.18 1.17 6.92 4.500 0.34 158.42 1.70 50.63 0.23 49.50 0.26 -106.91 1.18 6.08 5.000 0.34 153.42 1.56 46.37 0.25 49.25 0.28 -106.70 1.17 5.40 5.500 0.32 150.03 1.46 42.49 0.27 48.86 0.30 -104.89 1.16 4.85 6.000 0.30 146.33 1.38 38.57 0.30 48.07 0.31 -104.37 1.15 4.35 coordinates in ohms frequency in ghz v ce = 2 v, i c = 5 ma mag = |s 21 | |s 12 | k - 1 ). 2 ( k ? = s 11 s 22 - s 21 s 12 when k 1, mag is undefined and msg values are used. msg = |s 21 | |s 12 | , k = 1 + | ? | - |s 11 | - |s 22 | 2 2 2 2 |s 12 s 21 | , note: 1. gain calculations: mag = maximum available gain msg = maximum stable gain j50 j100 j25 j10 0 -j10 -j25 -j50 -j100 10 50 100 25 s22 s11 +90o +45o +0o +0o 5 10 15 -45o -90o -135o +180o +135o s12 s21
ne687m13 typical scattering parameters ne687m13 v ce = 2 v, i c = 20 ma frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) 0.100 0.57 -36.15 31.49 154.52 0.01 71.95 0.81 -25.05 0.34 33.26 0.200 0.50 -67.88 25.71 135.92 0.03 66.14 0.67 -43.58 0.42 29.76 0.300 0.45 -90.13 20.68 123.67 0.03 60.45 0.54 -56.22 0.54 27.77 0.400 0.42 -106.56 16.96 115.24 0.04 59.44 0.46 -64.85 0.64 26.19 0.500 0.40 -118.50 14.25 109.26 0.05 59.55 0.39 -71.22 0.71 24.88 0.600 0.37 -131.65 12.07 104.60 0.05 60.02 0.30 -75.54 0.84 23.77 0.700 0.37 -139.21 10.55 100.88 0.06 60.94 0.26 -81.03 0.89 22.75 0.800 0.37 -144.73 9.37 97.86 0.06 61.83 0.24 -84.22 0.92 21.84 0.900 0.37 -149.66 8.41 95.24 0.07 62.31 0.21 -87.05 0.95 21.02 1.000 0.36 -153.80 7.62 92.90 0.07 62.97 0.20 -91.25 0.98 20.26 1.200 0.37 -159.66 6.43 88.88 0.08 63.94 0.17 -96.57 1.02 18.15 1.400 0.37 -165.38 5.56 85.48 0.09 64.61 0.15 -102.15 1.05 16.47 1.600 0.37 -169.31 4.90 82.45 0.10 64.72 0.14 -106.18 1.07 15.17 1.800 0.37 -172.61 4.39 79.67 0.11 64.87 0.13 -109.91 1.08 14.10 2.000 0.36 -175.37 3.98 77.07 0.13 64.81 0.12 -113.45 1.09 13.16 2.500 0.36 177.29 3.24 70.97 0.15 63.80 0.11 -121.12 1.11 11.27 3.000 0.35 169.69 2.75 65.26 0.18 62.10 0.12 -128.22 1.12 9.76 3.500 0.35 160.03 2.39 60.01 0.21 60.09 0.14 -133.08 1.12 8.53 4.000 0.36 151.53 2.12 55.28 0.23 58.20 0.16 -134.34 1.12 7.54 4.500 0.36 144.75 1.92 51.05 0.25 56.51 0.18 -132.06 1.12 6.71 5.000 0.35 140.37 1.76 47.24 0.28 54.88 0.20 -127.09 1.11 6.03 5.500 0.33 137.20 1.65 43.56 0.30 53.20 0.21 -120.86 1.10 5.48 6.000 0.31 133.76 1.55 39.78 0.33 51.20 0.21 -117.44 1.09 4.95 coordinates in ohms frequency in ghz v ce = 2 v, i c = 20 ma mag = |s 21 | |s 12 | k - 1 ). 2 ( k ? = s 11 s 22 - s 21 s 12 when k 1, mag is undefined and msg values are used. msg = |s 21 | |s 12 | , k = 1 + | ? | - |s 11 | - |s 22 | 2 2 2 2 |s 12 s 21 | , note: 1. gain calculations: mag = maximum available gain msg = maximum stable gain exclusive north american agent for nec rf, microwave & optoelectronic semiconductors california eastern laboratories ? headquarters ? 4590 patrick henry drive ? santa clara, ca 95054-1817 ? (408) 988-3500 ? telex 34-6393 ? fax (408) 988-0279 internet: http://www.cel.com 06/13/2002 data subject to change without notice life support applications these nec products are not intended for use in life support devices, appliances, or systems where the malfunction of these prod ucts 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. j50 j100 j25 j10 0 -j10 -j25 -j50 -j100 10 50 100 25 s22 s11 +90o +45o +0o +0o 10 20 30 40 -45o -90o -135o +180o +135o s12 s21
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