ne663m04 npn silicon high frequency transistor features ? high gain bandwidth: f t = 15 ghz ? high power gain: is 21e i 2 = 11 db typ at 2 ghz ? low noise figure: nf = 1.2 db at 2 ghz ? high ip3: nf = 27 dbm at 2 ghz ? high maximum stable gain: 15 db @ 2 ghz ? low profile m04 package: sot-343 footprint, with a height of just 0.59 mm. flat lead style for better rf performance. nec's ne663m04 is fabricated using nec's uhs0 25 ghz f t wafer process. with a typical transition frequency of 19 ghz the ne663m04 is usable in applications from 100 mhz to 5 ghz. the ne663m04 provides excellent low voltage/low current performance. nec's low profile/flat lead style "m04" package is ideal for today's portable wireless applications. the ne663m04 is an ideal choice for lna and oscillator requirements in all mobile communication systems. description part number ne663m04 eiaj 1 registered number 2sc5509 package outline m04 symbols parameters and conditions units min typ max i cbo collector cutoff current at v ce = 5 v, i e = 0 a 0.6 i ebo emitter cutoff current at v eb = 1 v, i c = 0 a 0.6 h fe forward current gain 2 at v ce = 2 v, i c = 10 ma 50 70 100 f t gain bandwidth at v ce = 3 v, i c = 90 ma, f = 2 ghz ghz 13 15 |s 21e | 2 insertion power gain at v ce = 2 v, i c = 50 ma, f = 2 ghz db 8 11 msg maximum stable gain 4 at v ce = 2 v, i c = 50 ma, f = 2 ghz db 15 p1db output power at 1 db compression point at v ce = 2 v, i c = 70 ma 5 , f = 2 ghz dbm 17 ip 3 third order intercept point at v ce = 2 v, i c = 70 ma, f = 2 ghz dbm 27 nf noise figure at v ce = 2 v, i c = 10 ma, f = 2 ghz, z in = z opt db 1.2 1.7 cre feedback capacitance 3 at v cb = 2 v, i c = 0, f = 1 mhz pf 0.5 0.75 electrical characteristics (t a = 25 c) notes: 1. electronic industrial association of japan. 2. pulsed measurement, pulse width 350 s, duty cycle 2 %. 3. capacitance is measured by capacitance meter (automatic balance bridge method) when emitter pin is connected to the guard pi n. 4. msg = 5. collector current at p1db compression. dc rf s 21 s 12 m04 california eastern laboratories
ne663m04 note: 1. operation in excess of any one of these parameters may result in permanent damage. symbols parameters units ratings v cbo collector to base voltage v 15 v ceo collector to emitter voltage v 3.3 v ebo emitter to base voltage v 1.5 i c collector current ma 100 p t total power dissipation mw 190 t j junction temperature c 150 t stg storage temperature c -65 to +150 absolute maximum ratings 1 (t a = 25 c) freq. nf min g a opt (ghz) (db) (db) mag ang rn/50 typical noise parameters (t a = 25 ? c) 0.90 0.81 17.51 0.23 161.68 0.10 1.00 0.84 16.66 0.25 151.89 0.10 1.20 0.89 15.33 0.27 132.37 0.09 1.50 0.98 13.71 0.31 103.26 0.08 1.70 1.03 12.79 0.34 83.97 0.08 1.90 1.09 11.96 0.36 64.78 0.07 2.00 1.12 11.58 0.38 55.22 0.07 2.20 1.18 10.88 0.40 36.16 0.07 2.50 1.28 9.95 0.43 7.75 0.07 3.00 1.44 8.69 0.49 -39.14 0.08 3.50 1.61 7.69 0.54 -85.46 0.12 4.00 1.79 6.88 0.58 -131.19 0.21 4.50 1.98 6.22 0.63 -176.35 0.38 v c = 2 v , i c = 5 ma part number quantity packaging NE663M04-T2-A 3000 tape & reel ordering information pin connections 1. emitter 2. collector 3. emitter 4. base outline dimensions (units in mm) package outline m04 4 1 3 2 2.05 0.1 1.25 0.1 +0.1 -0.06 +0.1 -0.08 0.40 +0.1 -0.05 0.30 (leads 1, 3, 4) 2.0 0.1 1.25 1.30 0.60 0.65 0.59 0.05 0.11 0.65 0.65 t80 v c = 2 v , i c = 10 ma v c = 2 v , i c = 20 ma 0.90 0.94 19.02 0.16 221.12 0.09 1.00 0.95 18.12 0.18 193.71 0.09 1.20 0.99 16.72 0.21 142.02 0.08 1.50 1.05 15.02 0.25 72.33 0.08 1.70 1.09 14.04 0.28 31.09 0.07 1.90 1.13 13.16 0.30 -5.96 0.07 2.00 1.15 12.75 0.31 -22.92 0.07 2.20 1.19 12.01 0.34 -53.71 0.07 2.50 1.26 11.02 0.38 -92.04 0.08 3.00 1.38 9.68 0.43 -135.03 0.10 3.50 1.50 8.62 0.49 -151.89 0.13 4.00 1.64 7.76 0.53 -142.61 0.20 4.50 1.78 7.06 0.57 -107.21 0.32 0.90 1.19 20.04 0.28 -174.55 0.08 1.00 1.20 19.10 0.29 -172.87 0.08 1.20 1.22 17.64 0.30 -169.46 0.08 1.50 1.26 15.89 0.32 -164.18 0.08 1.70 1.29 14.88 0.34 -160.56 0.08 1.90 1.32 13.98 0.35 -156.86 0.09 2.00 1.33 13.56 0.36 -154.97 0.09 2.20 1.37 12.78 0.38 -151.14 0.09 2.50 1.42 11.75 0.40 -145.23 0.10 3.00 1.51 10.34 0.44 -134.97 0.13 3.50 1.61 9.22 0.48 -124.18 0.18 4.00 1.72 8.32 0.52 -112.87 0.25 4.50 1.83 7.57 0.56 -101.03 0.35
ne663m04 typical performance curves (t a = 25 c) 50.000 40.000 30.000 20.000 10.000 0.000 200.0 400.0 600.0 800.0 1.000 1.200 v ce = 2v base to emitter voltage, v be (v) collector current, i c (ma) collector current vs. base to emitter voltage collector current, i c (ma) gain bandwidth, f t (ghz) gain bandwidth product vs. collector current 30 25 20 15 10 5 0 1 10 100 1000 v ce = 3.0 v collector to emitter voltage, v ce (v) feedback capacitance, c re (pf) feedback capacitance vs. collector to emitter voltage 1.00 0.80 0.60 0.40 0.20 0.00 0.0 1.0 2.0 3.0 4.0 5.0 freq. = 1 mhz collector current, i c (ma) dc forward current voltage, h fe dc forward current vs. collector current 0.01 0.1 1 10 100 200 150 100 50 0 v ce = 2.0 v collector to emitter voltage, v ce (v) collector current, ic (ma) collector current vs. collector to emitter voltage 100 80 60 40 20 0 1.0 2.0 3.0 3.5 5 a 150 a 300 a 450 a 600 a 750 a 900 a 1050 a ambient temperature, t a ( c) total power dissipation, p t (mw) dc power derating curves 400 350 300 250 200 150 190 330 100 50 0 25 50 75 100 125 150 when case temperature is specified mounted on ceramic substrate (15 15 mm, t = 0.6 mm) free air
typical performance curves (t a = 25 c) ne663m04 frequency, f (ghz) maximum stable gain, msg (db) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable gain, insertion power gain, maximum available gain vs. frequency v ce = 2 v i c = 50 ma 40 35 20 25 30 5 10 15 0 0.1 1.0 10.0 mag msg |s 21e | 2 v ce = 2 v f = 1 ghz 25 20 15 10 5 0 -5 150 25 50 75 125 100 0 -15 0 -5 -10 5 10 15 p out i c output power collector current vs. input power input power p in (dbm) output power, p out (dbm) collector current, l c (ma) collector current, l c (ma) maximum stable gain, msg (db) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable gain, insertion power gain, maximum available gain vs. collector current mag 30 25 20 15 10 5 0 1 10 100 mag/msg (db) = 2.0 ghz s21 (db) = 2.0 ghz v ce = 2v f = 2 ghz collector current, i c (ma) maximum stable gain, msg (db) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable gain, insertion power gain, maximum available gain vs. collector current v ce = 2 v f = 1 ghz 30 15 20 25 10 5 0 110 100 mag msg |s 21e | 2 v ce = 2 v f = 2 ghz 25 20 15 10 5 0 -5 150 25 50 75 125 100 0 -15 0 -5 -10 5 10 15 p out i c output power collector current vs. input power input power p in (dbm) output power, p out (dbm) collector current, l c (ma)
typical performance curves (t a = 25 c) ne663m04 6.0 0.0 5.0 4.0 3.0 2.0 1.0 30 25 20 15 10 5 0 1 10 100 v ce = 2 v f = 1.5 ghz nf g a collector current, l c (ma) noise figure, nf (db) noise figure and associated gain vs. collector current associated gain, g a (db) collector current, l c (ma) noise figure, nf (db) noise figure and associated gain vs. collector current associated gain, g a (db) 6.0 0.0 5.0 4.0 3.0 2.0 1.0 30 25 20 15 10 5 0 110100 v ce = 2 v f = 1 ghz nf g a collector current, l c (ma) noise figure, nf (db) noise figure and associated gain vs. collector current associated gain, g a (db) 6.0 0.0 5.0 4.0 3.0 2.0 1.0 30 25 20 15 10 5 0 1 10 100 v ce = 2 v f = 2.5 ghz nf g a collector current, l c (ma) noise figure, nf (db) noise figure and associated gain vs. collector current associated gain, g a (db) 6.0 0.0 5.0 4.0 3.0 2.0 1.0 30 25 20 15 10 5 0 1 10 100 v ce = 2 v f = 2 ghz nf g a
ne663m04 frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) typical scattering parameters (t a = 25 c) note: 1. gain calculations: ne663m04 v c = 2 v, i c = 5 ma mag = maximum available gain msg = maximum stable gain 0.10 0.797 -25.94 13.442 161.76 0.028 72.37 0.936 -20.39 0.11 26.75 0.20 0.770 -51.57 12.398 147.44 0.051 59.73 0.851 -37.40 0.12 23.88 0.30 0.745 -73.20 11.178 135.11 0.067 49.51 0.760 -51.45 0.14 22.24 0.40 0.722 -91.15 10.009 124.78 0.078 41.79 0.679 -63.07 0.17 21.10 0.50 0.706 -106.11 8.939 116.19 0.085 35.66 0.613 -72.68 0.21 20.20 0.70 0.686 -128.20 7.164 102.82 0.095 27.05 0.517 -87.63 0.28 18.79 1.00 0.671 -150.55 5.409 88.20 0.101 19.02 0.434 -103.18 0.39 17.27 1.50 0.645 -176.33 3.740 70.86 0.105 12.58 0.345 -122.09 0.64 15.51 2.00 0.645 165.19 2.883 56.19 0.109 8.59 0.317 -134.76 0.82 14.21 2.50 0.650 149.02 2.346 42.81 0.113 5.53 0.304 -145.44 0.98 13.16 3.00 0.658 134.45 1.973 30.27 0.118 2.95 0.296 -155.25 1.11 10.18 3.50 0.672 121.30 1.702 18.51 0.123 0.37 0.293 -165.24 1.21 8.63 4.00 0.687 109.32 1.495 7.29 0.130 -2.38 0.294 -175.12 1.28 7.47 5.00 0.714 88.23 1.204 -13.63 0.145 -8.89 0.308 165.47 1.33 5.74 6.00 0.732 69.35 1.010 -32.90 0.164 -17.02 0.325 148.83 1.35 4.38 7.00 0.748 48.25 0.872 -52.12 0.184 -28.42 0.331 130.26 1.35 3.21 8.00 0.771 28.05 0.756 -70.66 0.201 -41.05 0.330 107.54 1.36 2.15 9.00 0.803 11.98 0.658 -88.06 0.215 -54.78 0.334 80.84 1.33 1.40 10.00 0.831 -1.70 0.582 -104.40 0.227 -68.60 0.361 54.14 1.29 0.84 11.00 0.850 -15.13 0.516 -120.66 0.233 -83.30 0.397 28.30 1.30 0.15 12.00 0.868 -30.05 0.460 -137.97 0.237 -99.71 0.438 1.90 1.30 -0.41 13.00 0.880 -46.23 0.399 -155.64 0.229 -117.00 0.483 -23.26 1.38 -1.27 14.00 0.891 -61.26 0.336 -172.84 0.212 -133.32 0.538 -47.62 1.53 -2.27 15.00 0.896 -72.09 0.282 171.65 0.194 -148.20 0.591 -70.54 1.71 -3.29 16.00 0.895 -83.61 0.237 156.87 0.178 -162.18 0.634 -89.80 1.99 -4.45 17.00 0.887 -96.20 0.201 141.03 0.161 -177.56 0.657 -107.95 2.47 -5.78 18.00 0.887 -107.53 0.163 124.81 0.140 168.44 0.677 -126.87 3.12 -7.17 j50 j25 j10 0 -j10 -j25 -j50 -j100 j100 0 s 11 18 ghz 50 100 s 11 0.1 ghz 10 25 s 22 0.1 ghz s 22 18 ghz 120? 90? 60? 30? 150? 180? -150? -120? -90? -60? -30? 0? s 21 0.1 ghz s 21 18 ghz s 12 18 ghz s 12 0.1 ghz 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 | ,
ne663m04 frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) typical scattering parameters (t a = 25 c) ne663m04 v c = 2 v, i c = 10 ma 0.10 0.663 -39.80 22.325 156.42 0.025 68.46 0.888 -30.08 0.14 29.44 0.20 0.648 -74.35 19.316 138.74 0.042 53.94 0.764 -53.61 0.17 26.62 0.30 0.643 -99.34 16.280 125.39 0.052 44.43 0.656 -71.64 0.22 24.92 0.40 0.640 -117.52 13.770 115.35 0.059 38.32 0.576 -85.71 0.28 23.70 0.50 0.639 -131.00 11.784 107.56 0.063 34.20 0.519 -96.85 0.34 22.72 0.70 0.639 -149.50 9.001 95.98 0.069 29.58 0.447 -113.49 0.44 21.17 1.00 0.638 -167.32 6.570 83.55 0.075 26.56 0.393 -129.82 0.58 19.41 1.50 0.628 171.19 4.472 68.88 0.085 25.54 0.339 -150.16 0.84 17.22 2.00 0.630 155.31 3.423 55.73 0.097 23.71 0.322 -162.53 0.97 15.49 2.50 0.635 140.87 2.776 43.46 0.109 20.80 0.313 -172.93 1.06 12.52 3.00 0.642 127.61 2.332 31.80 0.121 17.00 0.307 177.37 1.13 10.65 3.50 0.655 115.61 2.012 20.76 0.133 12.48 0.305 167.60 1.17 9.30 4.00 0.668 104.45 1.768 10.11 0.145 7.36 0.306 158.01 1.19 8.21 5.00 0.694 84.64 1.431 -10.04 0.168 -3.63 0.314 139.70 1.21 6.54 6.00 0.708 66.65 1.210 -28.98 0.189 -15.48 0.316 124.07 1.22 5.21 7.00 0.723 46.29 1.052 -48.29 0.208 -29.47 0.314 106.12 1.24 4.10 8.00 0.747 26.80 0.919 -67.26 0.221 -43.85 0.314 83.51 1.26 3.13 9.00 0.782 11.39 0.804 -85.30 0.230 -58.50 0.324 57.54 1.25 2.45 10.00 0.813 -1.86 0.713 -102.35 0.235 -72.67 0.353 33.08 1.23 1.95 11.00 0.835 -15.02 0.632 -119.34 0.236 -87.18 0.389 9.93 1.24 1.33 12.00 0.857 -29.76 0.565 -137.39 0.235 -103.15 0.427 -13.90 1.23 0.89 13.00 0.872 -45.91 0.492 -155.92 0.224 -119.67 0.469 -36.48 1.30 0.13 14.00 0.886 -60.93 0.416 -173.96 0.206 -135.20 0.519 -58.27 1.41 -0.76 15.00 0.894 -71.77 0.351 169.70 0.188 -149.43 0.567 -78.83 1.56 -1.71 16.00 0.894 -83.36 0.297 153.76 0.172 -162.57 0.604 -96.31 1.80 -2.82 17.00 0.887 -95.98 0.253 136.63 0.156 -177.56 0.623 -113.08 2.20 -4.11 18.00 0.889 -107.33 0.210 119.39 0.137 168.86 0.641 -130.90 2.73 -5.36 j50 j25 j10 0 -j10 -j25 -j50 -j100 j100 0 s 11 18 ghz 50 100 s 11 0.1 ghz 10 25 s 22 0.1 ghz s 22 18 ghz 120? 90? 60? 30? 150? 180? -150? -120? -90? -60? -30? 0? s 21 18 ghz s 12 18 ghz s 12 0.1 ghz s 21 0.1 ghz note: 1. gain calculations: mag = maximum available gain msg = maximum stable gain 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 | ,
frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) 0.10 0.511 -62.59 32.668 149.99 0.021 64.28 0.820 -41.69 0.21 31.84 0.20 0.556 -103.21 25.795 129.89 0.033 49.87 0.675 -71.53 0.27 28.96 0.30 0.588 -126.41 20.293 116.89 0.039 42.91 0.576 -92.40 0.35 27.15 0.40 0.604 -141.09 16.427 107.92 0.043 39.62 0.515 -107.59 0.43 25.81 0.50 0.614 -151.41 13.687 101.21 0.046 38.01 0.477 -118.94 0.51 24.69 0.70 0.624 -165.36 10.178 91.28 0.052 37.25 0.434 -134.83 0.63 22.90 1.00 0.628 -179.16 7.310 80.49 0.061 37.63 0.403 -149.46 0.78 20.80 1.50 0.626 162.65 4.944 67.58 0.076 38.22 0.374 -167.86 0.96 18.11 2.00 0.627 148.54 3.773 55.43 0.094 35.57 0.364 -178.99 1.04 14.83 2.50 0.632 135.29 3.056 43.88 0.111 31.04 0.358 171.39 1.08 12.66 3.00 0.637 122.90 2.565 32.81 0.128 25.47 0.354 162.03 1.11 10.99 3.50 0.649 111.59 2.212 22.25 0.143 19.40 0.353 152.55 1.13 9.72 4.00 0.662 101.04 1.945 12.02 0.157 12.86 0.355 143.21 1.14 8.67 5.00 0.684 82.04 1.577 -7.51 0.183 -0.54 0.362 125.05 1.15 7.02 6.00 0.696 64.55 1.340 -26.09 0.206 -14.22 0.358 108.76 1.16 5.71 7.00 0.709 44.69 1.171 -45.24 0.225 -29.64 0.353 90.45 1.18 4.63 8.00 0.733 25.69 1.026 -64.24 0.237 -45.10 0.354 67.93 1.19 3.70 9.00 0.768 10.70 0.901 -82.45 0.242 -60.56 0.368 42.82 1.19 3.06 10.00 0.800 -2.20 0.800 -99.73 0.243 -75.22 0.399 19.74 1.18 2.56 11.00 0.824 -15.12 0.712 -116.86 0.241 -89.93 0.431 -2.13 1.20 2.02 12.00 0.847 -29.73 0.640 -135.11 0.237 -105.89 0.465 -24.80 1.20 1.64 13.00 0.865 -45.76 0.559 -153.83 0.223 -122.16 0.501 -46.12 1.25 0.97 14.00 0.881 -60.72 0.477 -172.03 0.202 -137.26 0.543 -66.63 1.35 0.20 15.00 0.890 -71.56 0.405 171.44 0.184 -150.97 0.582 -85.93 1.48 -0.66 16.00 0.892 -83.14 0.347 155.32 0.168 -163.59 0.609 -102.49 1.67 -1.64 17.00 0.886 -95.81 0.300 137.77 0.152 -178.14 0.619 -118.53 2.02 -2.83 18.00 0.889 -107.13 0.252 120.16 0.133 168.73 0.630 -135.64 2.47 -3.97 ne663m04 v c = 2 v, i c = 20 ma ne663m04 typical scattering parameters (t a = 25 c) j50 j25 j10 0 -j10 -j25 -j50 -j100 j100 0 s 11 18 ghz 50 100 s 11 0.1 ghz 10 25 s 22 0.1 ghz s 22 18 ghz 120? 90? 60? 30? 150? 180? -150? -120? -90? -60? -30? 0? s 21 18 ghz s 12 18 ghz s 12 0.1 ghz s 21 0.1 ghz note: 1. gain calculations: mag = maximum available gain msg = maximum stable gain 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 | ,
frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) 0.10 0.398 -104.22 42.854 142.81 0.016 60.32 0.721 -56.00 0.35 34.22 0.20 0.528 -136.04 30.624 121.99 0.023 50.18 0.592 -91.52 0.44 31.16 0.30 0.582 -151.58 22.856 110.09 0.028 47.02 0.524 -113.47 0.55 29.13 0.40 0.606 -161.14 18.001 102.32 0.031 46.92 0.490 -127.93 0.65 27.59 0.50 0.618 -167.97 14.776 96.56 0.035 47.65 0.471 -138.01 0.73 26.27 0.70 0.629 -177.73 10.827 87.94 0.042 49.21 0.450 -151.36 0.84 24.09 1.00 0.632 171.83 7.710 78.32 0.054 50.09 0.435 -163.25 0.93 21.57 1.50 0.634 156.26 5.203 66.66 0.074 49.10 0.421 -178.94 1.03 17.40 2.00 0.634 143.48 3.966 55.19 0.095 44.36 0.414 171.12 1.06 14.70 2.50 0.636 131.11 3.209 44.16 0.115 38.10 0.409 162.15 1.08 12.74 3.00 0.641 119.35 2.693 33.49 0.134 31.08 0.406 153.18 1.09 11.18 3.50 0.651 108.53 2.323 23.27 0.151 23.78 0.407 144.04 1.10 9.95 4.00 0.662 98.35 2.043 13.34 0.167 16.32 0.409 134.90 1.10 8.91 5.00 0.683 79.90 1.658 -5.70 0.195 1.47 0.417 116.89 1.11 7.28 6.00 0.692 62.75 1.414 -23.95 0.219 -13.32 0.412 100.10 1.12 5.98 7.00 0.703 43.23 1.238 -42.94 0.238 -29.58 0.406 81.52 1.14 4.92 8.00 0.726 24.55 1.087 -61.84 0.249 -45.81 0.410 59.26 1.15 4.02 9.00 0.761 9.96 0.958 -80.05 0.252 -61.86 0.427 34.83 1.16 3.39 10.00 0.793 -2.68 0.851 -97.33 0.252 -77.02 0.458 12.49 1.15 2.91 11.00 0.817 -15.44 0.759 -114.45 0.246 -91.95 0.488 -8.86 1.17 2.39 12.00 0.841 -29.91 0.683 -132.67 0.240 -108.07 0.519 -31.12 1.17 2.04 13.00 0.860 -45.82 0.599 -151.26 0.223 -124.29 0.550 -51.98 1.22 1.46 14.00 0.877 -60.78 0.513 -169.35 0.201 -139.20 0.587 -72.02 1.30 0.78 15.00 0.887 -71.51 0.439 174.30 0.181 -152.74 0.617 -90.88 1.41 0.01 16.00 0.890 -83.09 0.380 158.28 0.165 -164.85 0.636 -107.22 1.59 -0.88 17.00 0.885 -95.69 0.333 140.87 0.149 -179.20 0.638 -123.13 1.88 -1.93 18.00 0.888 -107.06 0.283 123.27 0.130 168.05 0.641 -140.04 2.28 -2.97 ne663m04 v c = 2 v, i c = 50 ma ne663m04 typical scattering parameters (t a = 25 c) j50 j25 j10 0 -j10 -j25 -j50 -j100 j100 0 s 11 18 ghz 50 100 s 11 0.1 ghz 10 25 s 22 0.1 ghz s 22 18 ghz 120? 90? 60? 30? 150? 180? -150? -120? -90? -60? -30? 0? s 21 18 ghz s 12 18 ghz s 12 0.1 ghz s 21 0.1 ghz note: 1. gain calculations: mag = maximum available gain msg = maximum stable gain 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 | , 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 01/16/2002 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.
3-48 4590 patrick henry drive santa clara, ca 95054-1817 telephone: (408) 919-2500 facsimile: ( 408 ) 988-0279 subject: compliance with eu directives cel certifies, to its knowledge, that semiconductor and laser products detailed below are compliant with the requirements of european union (eu) directive 2002/95/ec restriction on use of hazardous substances in electrical and electronic equipment (rohs) and the requirements of eu directive 2003/11/ec restriction on penta and octa bde. cel pb-free products have the same base part number with a suffix added. the suffix ? indicates that the device is pb-free. the ?z suffix is used to designate devices containing pb which are exempted from the requirement of rohs directive (*). in all cases the devices have pb-free terminals. all devices with these suffixes meet the requirements of the rohs directive. this status is based on cel? understanding of the eu directives and knowledge of the materials that go into its products as of the date of disclosure of this information. restricted substance per rohs concentration limit per rohs (values are not yet fixed) concentration contained in cel devices -a -az lead (pb) < 1000 ppm not detected (*) mercury < 1000 ppm not detected cadmium < 100 ppm not detected hexavalent chromium < 1000 ppm not detected pbb < 1000 ppm not detected pbde < 1000 ppm not detected if you should have any additional questions regarding our devices and compliance to environmental standards, please do not hesitate to contact your local representative. important information and disclaimer: information provided by cel on its website or in other communications concerting the substan ce content of its products represents knowledge and belief as of the date that it is provided. cel bases its knowledge and belief on information provided by third parties and makes no representation or warranty as to the accuracy of such information. efforts are underway t o better integrate information from third parties. cel has taken and continues to take reasonable steps to provide representative and ac curate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. cel and ce l suppliers consider certain information to be proprietary, and thus cas numbers and other limited information may not be available for release. in no event shall cel? liability arising out of such information exceed the total purchase price of the cel part(s) at issue s old by cel to customer on an annual basis. see cel terms and conditions for additional clarification of warranties and liability.
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