npn sige rf transistor nesg2030m04 npn sige high frequency transistor m04 description nec's nesg2030m04 is fabricated using nec's state-of-the-art sige, wafer process. with a typical transition frequency of 60 ghz the nesg2030m04 is usable in applications from 100 mhz to over 10 ghz. maximum dc current input of 35 ma provides a device with a usable current range of 250 a to 25 ma. the nesg2030m04 provides excellent low voltage/low current performance. nec's new low profile/flat lead style "m04" package is ideal for today's portable wireless applications. the nesg2030m04 is an ideal choice for lna and oscillator requirements in all mobile communication systems. part number nesg2030m04 eiaj 1 registered number 2sc5761 package outline m04 symbols parameters and conditions units min typ max i cbo collector cutoff current at v cb = 5v, i e = 0 na 200 i ebo emitter cutoff current at v eb = 0.5 v, i c = 0 na 200 h fe dc current gain 2 at v ce = 2 v, i c = 5 ma 200 400 c re reverse transfer capacitance 3 at v cb = 2 v, i e = 0 ma, f = 1 ghz pf 0.17 0.22 nf noise figure at v ce = 2 v, i c = 5 ma, f = 2 ghz, z in = z opt db 0.9 1.1 g a associated gain at v ce = 2 v, i c = 5 ma, f = 2 ghz, z s = z opt ghz 16 msg maximum stable gain 4 at v ce = 2 v, i c = 20 ma, f = 2 ghz db 18 20 |s 21e | 2 insertion power gain at v ce = 2 v, i c = 20 ma, f = 2 ghz db 16 18 p 1db output power at 1 db compression point dbm 12 v ce = 2 v, i c = 20 ma, f = 2 ghz oip 3 third order intercept point, v ce = 2 v, i c = 20 ma, f = 2 ghz dbm 22 electrical characteristics (t a = 25 c) notes: 1. electronic industrial association of japan. 2. pulsed measurement, pulse width 350 s, duty cycle 2 %. 3. collector to base capacitance is measured by capacitance meter (automatic balance bridge method) when emitter pin is connect ed to the guard pin. 4. msg = dc rf s 21 s 12 ? sige technology: f t = 60 ghz process ? low noise figure: nf = 0.9 dbm at 2 ghz ? high maximum stable gain: msg = 20 db at 2 ghz ? new low profile m04 package: sot-343 footprint, with a height of only 0.59 mm flat lead style for better rf performance features date published: june 22, 2005 the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version.
note: 1. operation in excess of any one of these parameters may result in permanent damage. 2. mounted on 1.08 cm 2 ? 1.0 mm (t) glass epoxy substrate symbols parameters units ratings v cbo collector to base voltage v 8.0 v ceo collector to emitter voltage v 2.3 v ebo emitter to base voltage v 1.2 i c collector current ma 35 p t 2 total power dissipation mw 80 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) collector current, l c (ma) dc current gain, hfe dc current gain vs. collector current collector to emitter voltage, v ce (v) collector current, ic (ma) collector current vs. collector to emitter voltage frequency, f (ghz) insertion power gain, |s 21e | 2 (db) insertion power gain vs. frequency v ce = 2 v i c = 20 ma 30 25 20 15 10 5 0 0.1110 collector current, i c (ma) gain bandwdth, f t (ghz) gain bandwidth vs. collector current 40 35 30 25 20 15 10 5 0 010100 v ce = 2 v f = 2 ghz symbols parameters units ratings r th j-c junction to case resistance c/w 150 thermal resistance 40 35 30 25 20 15 10 5 0 01 2 3 100 a 130 a 40 a i b = 10 a 160 a 70 a 190 a 1000 100 10 100 10 1 0.1 v ce = 2 v part number quantity nesg2030m04 50 pcs(non reel) nesg2030m04-t2 3 kpcs/reel ordering information (solder contains lead) part number quantity nesg2030m04-a 50 pcs(non reel) NESG2030M04-T2-A 3 kpcs/reel ordering information (pb-free) nesg2030m04
typical performance curves (t a = 25 c) collector current, i c (ma) maximum stable gain, msg (db) insertion power gain, is 21e i 2 maximum stable gain, insertion power gain vs. collector current v ce = 2 v f = 1 ghz 30 25 20 15 10 5 0 1 10 100 msg |s 21e | 2 collector current, i c (ma) maximum stable gain, msg (db) insertion power gain, is 21e i 2 maximum stable gain, insertion power gain vs. collector current v ce = 2 v f = 2 ghz 30 25 20 15 10 5 0 1 10 100 msg |s 21e | 2 input power, p in (v) output power, p out (dbm) output power, collector current vs. input power p out i c v ce = 2 v, f = ghz i cq = 5 ma(rf off) 25 20 15 10 5 0 -5 -10 -15 -20 -15 -10 -5 0 5 80 70 60 50 40 30 20 10 0 collector current, i c (ma) noise figure, nf (db) noise figure and associated gain vs. collector current 5 4 3 2 1 0 1 10 100 0 5 10 15 20 25 v ce = 2 v f = 1.5 ghz g a nf associated gain, g a (db) v ce = 2 v f = 5 ghz 30 25 20 15 10 5 0 1 10 100 mag |s 21e | 2 maximum available gain, insertion power gain vs. collector current insertion power gain, is 21e i 2 maximum available gain, mag (db) v ce = 2 v i cq = 5 ma f = 2 ghz offset = 1 mhz 70 60 50 40 30 20 10 0 -5 0 5 10 15 20 collector current, i c (ma) collector current, i c (ma) output power (each tone), p out (ma) third order intermodulation distortion, im3 (dbc) third order intermodulation distortion vs. output power nesg2030m04
nesg2030m04 typical performance curves (t a = 25 c) collector current, i c (ma) noise figure, nf (db) noise figure and associated gain vs. collector current collector current, i c (ma) collector current, l c (ma) noise figure, nf (db) noise figure, nf (db) noise figure and associated gain vs. collector current noise figure and associated gain vs. collector current 5 4 3 2 1 0 1 10 100 0 5 10 15 20 25 v ce = 2 v f = 3 ghz g a nf 5 4 3 2 1 0 1 10 100 0 5 10 15 20 25 v ce = 2 v f = 4 ghz g a nf 5 4 3 2 1 0 1 10 100 0 5 10 15 20 25 v ce = 2 v f = 5 ghz g a nf associated gain, g a (db) associated gain, g a (db) associated gain, g a (db) collector current, i c (ma) collector current, l c (ma) noise figure, nf (db) noise figure, nf (db) noise figure and associated gain vs. collector current noise figure and associated gain vs. collector current 5 4 3 2 1 0 1 10 100 0 5 10 15 20 25 v ce = 2 v f = 2 ghz g a nf 5 4 3 2 1 0 1 10 100 0 5 10 15 20 25 v ce = 2 v f = 2.5 ghz g a nf associated gain, g a (db) associated gain, g a (db)
nesg2030m04 outline dimensions (units in mm) package outline m04 flat lead 4-pin thin type super minimold pin connections 1. emitter 2. collector 3. emitter 4. base 4 1 3 2 2.05?0.1 1.25?0.1 +0.1 -0.06 +0.1 -0.05 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 t16 typical noise parameters (t a = 25 c) freq. nf min g a opt (ghz) (db) (db) mag ang rn/50 v ce = 2 v, i c = 5 ma 0.8 0.77 22.62 0.440 22.0 0.21 0.9 0.77 21.79 0.433 25.3 0.21 1.0 0.78 21.03 0.426 28.6 0.20 1.1 0.78 20.33 0.418 32.0 0.20 1.2 0.79 19.69 0.410 35.5 0.19 1.3 0.79 19.10 0.402 39.0 0.19 1.4 0.80 18.56 0.394 42.6 0.18 1.5 0.81 18.05 0.386 46.3 0.18 1.7 0.82 17.13 0.372 54.0 0.17 1.9 0.84 16.31 0.359 62.1 0.16 2.0 0.85 15.94 0.354 66.3 0.16 2.2 0.87 15.26 0.345 74.9 0.15 2.4 0.89 14.64 0.340 83.6 0.14 2.5 0.91 14.36 0.338 87.9 0.14 2.7 0.93 13.83 0.338 96.4 0.13 3.0 0.98 13.12 0.342 108.6 0.12 3.5 1.06 12.12 0.354 126.4 0.11 4.0 1.15 11.31 0.354 141.4 0.09 4.5 1.26 10.63 0.325 155.7 0.08 v ce = 2 v, i c = 10 ma 0.8 0.95 24.28 0.264 18.6 0.18 0.9 0.95 23.43 0.261 21.8 0.18 1.0 0.95 22.65 0.257 25.1 0.18 1.1 0.95 21.93 0.253 28.5 0.17 1.2 0.95 21.27 0.249 32.0 0.17 1.3 0.95 20.65 0.244 35.6 0.17 1.4 0.96 20.08 0.239 39.3 0.17 1.5 0.96 19.54 0.234 43.2 0.16 1.7 0.96 18.56 0.226 51.5 0.16 1.9 0.97 17.70 0.219 60.4 0.15 2.0 0.98 17.30 0.216 65.0 0.15 2.2 0.99 16.56 0.213 74.6 0.14 2.4 1.00 15.89 0.213 84.2 0.14 2.5 1.01 15.58 0.214 88.9 0.13 2.7 1.03 15.00 0.219 98.1 0.13 3.0 1.06 14.23 0.229 108.6 0.12 3.5 1.12 13.13 0.249 110.7 0.11 4.0 1.19 12.23 0.258 142.4 0.10 4.5 1.27 11.48 0.243 156.3 0.10 v ce = 2 v, i c = 20 ma 0.8 1.26 25.33 0.082 14.2 0.17 0.9 1.25 24.45 0.081 17.4 0.17 1.0 1.25 23.65 0.079 20.9 0.17 1.1 1.25 22.91 0.076 24.9 0.17 1.2 1.25 22.23 0.074 29.4 0.17 1.3 1.25 21.60 0.071 34.5 0.16 1.4 1.25 21.01 0.068 40.4 0.16 1.5 1.25 20.46 0.065 47.1 0.16 1.7 1.25 19.46 0.061 63.0 0.15 1.9 1.26 18.57 0.062 81.1 0.15 typical noise parameters (cont') freq. nf min g a opt (ghz) (db) (db) mag ang rn/50 v ce = 2 v, i c = 20 ma 2.0 1.26 18.16 0.064 90.1 0.15 2.2 1.27 17.40 0.072 106.5 0.15 2.4 1.28 16.71 0.083 119.5 0.14 2.5 1.28 16.39 0.090 124.8 0.14 2.7 1.30 15.79 0.105 133.5 0.14 3.0 1.32 14.97 0.128 143.2 0.13 3.5 1.36 13.81 0.159 154.7 0.13 4.0 1.42 12.84 0.175 164.5 0.12 4.5 1.48 12.02 0.169 176.7 0.12
nesg2030m04 typical scattering parameters (t a = 25 c) frequency s 11 s 21 s 12 s 22 mag 1 k ghz mag ang mag ang mag ang mag ang (db) nesg2030m04 v c = 2 v, i c = 5 ma 0.10 0.880 - 15.9 11.079 176.4 0.010 81.3 1.072 1.2 30.33 - 0.13 0.20 0.917 - 16.4 11.423 166.9 0.020 76.8 0.972 - 13.5 27.67 0.08 0.30 0.912 - 22.9 10.960 160.1 0.028 71.1 0.917 - 19.9 25.95 0.14 0.40 0.884 - 31.7 10.799 153.7 0.036 66.4 0.884 - 24.8 24.77 0.17 0.50 0.870 - 37.6 10.505 148.6 0.043 62.5 0.848 - 30.7 23.89 0.18 0.60 0.832 - 45.4 10.169 143.2 0.049 58.6 0.820 - 34.6 23.14 0.21 0.70 0.815 - 52.2 9.830 138.3 0.055 55.2 0.784 - 39.2 22.51 0.23 0.80 0.785 - 59.0 9.524 133.2 0.060 51.6 0.742 - 43.4 21.98 0.26 0.90 0.755 - 65.4 9.156 128.9 0.065 48.9 0.721 - 46.7 21.49 0.29 1.00 0.734 - 71.6 8.829 124.6 0.069 46.2 0.686 - 50.5 21.07 0.31 1.10 0.703 - 77.9 8.446 120.6 0.073 43.6 0.663 - 53.6 20.65 0.34 1.20 0.685 - 83.7 8.165 116.5 0.076 41.2 0.631 - 57.1 20.31 0.36 1.30 0.663 - 89.9 7.848 112.8 0.079 38.9 0.606 - 59.8 19.97 0.39 1.40 0.644 - 95.4 7.554 109.3 0.082 36.9 0.582 - 62.9 19.65 0.41 1.50 0.625 -100.9 7.255 105.9 0.084 35.0 0.560 - 65.5 19.36 0.44 1.60 0.608 -106.1 6.959 102.6 0.086 33.2 0.538 - 68.1 19.08 0.46 1.70 0.590 -111.5 6.714 99.5 0.088 31.6 0.521 - 70.5 18.82 0.49 1.80 0.577 -116.7 6.482 96.5 0.090 30.1 0.502 - 72.9 18.58 0.51 1.90 0.565 -121.4 6.206 93.7 0.091 28.7 0.486 - 74.8 18.33 0.54 2.00 0.552 -126.2 5.992 90.9 0.092 27.4 0.470 - 77.0 18.12 0.56 2.10 0.543 -131.2 5.811 88.1 0.094 26.0 0.454 - 79.2 17.92 0.58 2.20 0.533 -135.6 5.598 85.6 0.095 25.0 0.442 - 81.1 17.70 0.61 2.30 0.526 -140.1 5.404 83.2 0.096 23.9 0.429 - 82.4 17.50 0.63 2.40 0.521 -144.3 5.214 80.8 0.097 22.9 0.418 - 84.3 17.29 0.65 2.50 0.514 -148.5 5.052 78.4 0.098 22.0 0.407 - 85.7 17.11 0.68 2.60 0.511 -152.6 4.901 76.1 0.099 21.1 0.398 - 87.2 16.95 0.70 2.70 0.507 -156.5 4.748 73.8 0.100 20.3 0.386 - 88.8 16.76 0.72 2.80 0.504 -160.3 4.607 71.8 0.101 19.4 0.378 - 90.1 16.59 0.74 2.90 0.502 -163.7 4.463 69.6 0.102 18.7 0.369 - 91.4 16.42 0.76 3.00 0.498 -167.6 4.358 67.5 0.103 18.0 0.361 - 92.9 16.27 0.78 3.50 0.495 176.3 3.814 57.7 0.107 14.8 0.327 - 98.3 15.52 0.87 4.00 0.496 161.7 3.399 48.6 0.111 12.0 0.298 -102.6 14.85 0.95 4.50 0.502 148.2 3.067 39.8 0.116 9.5 0.273 -107.0 13.45 1.02 5.00 0.512 135.5 2.802 31.3 0.121 7.1 0.249 -111.5 12.05 1.07 5.50 0.526 123.3 2.577 22.9 0.125 4.3 0.226 -117.7 11.07 1.11 6.00 0.544 112.1 2.380 14.8 0.130 1.7 0.206 -125.8 10.30 1.15 6.50 0.564 101.8 2.198 6.7 0.134 - 1.4 0.192 -135.4 9.60 1.18 7.00 0.590 92.5 2.036 - 1.1 0.139 - 4.5 0.183 -147.1 9.05 1.19 8.00 0.645 76.9 1.746 - 16.1 0.144 - 10.7 0.179 -172.0 8.09 1.21 9.00 0.700 65.4 1.499 - 30.0 0.149 - 16.8 0.185 163.7 7.32 1.20 10.00 0.751 55.9 1.293 - 43.0 0.151 - 23.1 0.190 141.0 6.69 1.19 11.00 0.789 46.7 1.141 - 55.2 0.155 - 29.3 0.205 121.6 6.26 1.16 12.00 0.809 37.0 1.040 - 66.6 0.163 - 35.4 0.228 111.6 6.00 1.11 note: 1. gain calculations: mag = maximum available gain msg = maximum stable gain j10 -j10 j25 -j25 j50 -j50 j100 -j100 vc = 2.000 v, ic = 5.000 ma 0.100 to 12.000ghz by 0.100 nesg2030m04 s 22 s 11 10 0 50 25 0.100 to 12.000ghz by 0.100 vc = 2.000 v, ic = 5.000 ma nesg2030m04 -150 -120 -90 -60 -30 +0 +30 +60 +90 +120 +150 +180 s 12 s 21
nesg2030m04 frequency s 11 s 21 s 12 s 22 mag 1 k ghz mag ang mag ang mag ang mag ang (db) typical scattering parameters (t a = 25 c) note: 1. gain calculations: nesg2030m04 v ds = 2 v, i ds = 10 ma mag = maximum available gain msg = maximum stable gain 0.10 0.843 - 18.3 17.945 175.1 0.010 82.5 1.060 - 0.7 32.56 - 0.11 0.20 0.861 - 21.3 18.266 163.8 0.019 73.7 0.951 - 17.8 29.85 0.12 0.30 0.842 - 29.5 17.254 155.5 0.026 67.8 0.882 - 25.7 28.15 0.19 0.40 0.802 - 40.1 16.649 148.2 0.034 63.3 0.835 - 32.1 26.93 0.22 0.50 0.776 - 47.3 15.854 142.3 0.040 58.8 0.790 - 39.3 26.01 0.25 0.60 0.730 - 56.4 15.040 136.3 0.045 55.3 0.749 - 44.1 25.26 0.28 0.70 0.704 - 64.0 14.268 131.0 0.050 52.3 0.706 - 49.5 24.57 0.31 0.80 0.667 - 71.6 13.490 125.7 0.054 49.3 0.656 - 54.5 24.01 0.35 0.90 0.635 - 78.8 12.769 121.3 0.057 46.6 0.629 - 58.3 23.51 0.38 1.00 0.610 - 85.4 12.100 117.0 0.060 44.6 0.591 - 62.6 23.03 0.41 1.10 0.581 - 92.3 11.435 113.0 0.063 42.6 0.563 - 66.1 22.59 0.45 1.20 0.561 - 98.2 10.861 109.2 0.065 41.0 0.532 - 70.0 22.20 0.48 1.30 0.541 -104.7 10.311 105.7 0.068 39.4 0.506 - 73.1 21.83 0.51 1.40 0.524 -110.4 9.810 102.4 0.070 38.0 0.482 - 76.5 21.47 0.54 1.50 0.508 -116.0 9.335 99.3 0.072 36.7 0.461 - 79.3 21.14 0.57 1.60 0.494 -121.3 8.887 96.3 0.074 35.5 0.440 - 82.3 20.82 0.60 1.70 0.481 -126.8 8.494 93.4 0.075 34.6 0.424 - 84.8 20.52 0.62 1.80 0.471 -132.0 8.130 90.7 0.077 33.7 0.407 - 87.6 20.25 0.65 1.90 0.462 -136.7 7.765 88.2 0.079 32.7 0.392 - 89.7 19.95 0.67 2.00 0.453 -141.5 7.450 85.7 0.080 32.0 0.378 - 92.2 19.68 0.70 2.10 0.448 -146.3 7.166 83.2 0.081 31.3 0.365 - 94.6 19.45 0.72 2.20 0.442 -150.6 6.881 80.9 0.083 30.6 0.354 - 96.8 19.19 0.75 2.30 0.439 -154.8 6.624 78.7 0.084 29.9 0.343 - 98.4 18.95 0.77 2.40 0.437 -158.9 6.378 76.5 0.086 29.2 0.333 -100.6 18.71 0.79 2.50 0.433 -162.8 6.156 74.4 0.087 28.8 0.323 -102.1 18.48 0.81 2.60 0.434 -166.7 5.954 72.4 0.089 28.1 0.316 -103.9 18.26 0.82 2.70 0.431 -170.3 5.751 70.3 0.090 27.6 0.306 -105.9 18.06 0.84 2.80 0.431 -173.8 5.571 68.4 0.091 27.2 0.300 -107.3 17.85 0.86 2.90 0.430 -177.0 5.391 66.5 0.093 26.6 0.291 -109.1 17.64 0.88 3.00 0.430 179.5 5.238 64.6 0.095 26.2 0.285 -110.5 17.43 0.89 3.50 0.434 164.9 4.558 55.6 0.102 23.4 0.255 -117.4 16.51 0.96 4.00 0.439 151.7 4.043 47.1 0.110 21.0 0.229 -123.2 15.19 1.01 4.50 0.448 139.5 3.636 38.9 0.117 18.0 0.206 -129.4 13.59 1.05 5.00 0.462 128.0 3.310 30.9 0.125 14.7 0.184 -136.6 12.56 1.07 5.50 0.478 117.0 3.034 23.0 0.133 11.1 0.167 -146.4 11.69 1.10 6.00 0.498 106.8 2.795 15.3 0.140 7.4 0.155 -158.5 10.97 1.11 6.50 0.521 97.3 2.582 7.7 0.147 3.5 0.152 -172.3 10.32 1.12 7.00 0.549 88.8 2.391 0.2 0.152 - 0.5 0.155 173.5 9.78 1.13 8.00 0.609 74.5 2.052 - 14.1 0.160 - 8.7 0.175 147.8 8.83 1.14 9.00 0.670 63.9 1.767 - 27.6 0.164 - 16.5 0.199 125.4 8.07 1.14 10.00 0.724 55.1 1.530 - 40.3 0.167 - 24.1 0.218 104.0 7.43 1.13 11.00 0.765 46.3 1.352 - 52.4 0.169 - 31.6 0.240 87.7 6.97 1.12 12.00 0.786 36.9 1.238 - 63.6 0.174 - 38.7 0.253 79.4 6.66 1.09 j10 -j10 j25 -j25 j50 -j50 j100 -j100 v c = 2.000 v, ic = 10.000 ma 0.100 to 12.000ghz by 0.100 s 22 s 11 nesg2030m04 10 0 50 25 0.100 to 12.000ghz by 0.100 v c = 2.000 v, ic = 10.000 ma nesg2030m04 -150 -120 -90 -60 -30 +0 +30 +60 +90 +120 +150 +180 s 12 s 21
nesg2030m04 frequency s 11 s 21 s 12 s 22 mag 1 k ghz mag ang mag ang mag ang mag ang (db) 0.10 0.786 - 21.3 25.785 173.5 0.009 84.5 1.044 - 2.9 34.58 - 0.13 0.20 0.783 - 27.1 25.691 160.2 0.018 70.6 0.924 - 22.3 31.53 0.16 0.30 0.750 - 36.9 23.773 150.7 0.025 64.7 0.840 - 31.8 29.79 0.25 0.40 0.700 - 49.4 22.359 142.5 0.031 60.2 0.778 - 39.8 28.59 0.29 0.50 0.667 - 57.6 20.800 136.0 0.036 56.6 0.725 - 47.9 27.61 0.32 0.60 0.619 - 67.9 19.318 129.8 0.040 53.2 0.675 - 53.5 26.80 0.37 0.70 0.590 - 76.2 17.984 124.4 0.044 50.7 0.628 - 59.6 26.10 0.40 0.80 0.554 - 84.4 16.687 119.2 0.047 48.2 0.575 - 65.2 25.48 0.45 0.90 0.525 - 92.1 15.577 114.9 0.050 46.7 0.546 - 69.2 24.94 0.49 1.00 0.502 - 99.0 14.563 110.8 0.053 45.2 0.510 - 74.0 24.41 0.52 1.10 0.479 -106.4 13.636 107.0 0.055 43.8 0.482 - 77.8 23.95 0.56 1.20 0.462 -112.4 12.805 103.5 0.057 42.7 0.453 - 82.1 23.50 0.60 1.30 0.447 -119.0 12.055 100.2 0.059 41.8 0.429 - 85.5 23.08 0.63 1.40 0.435 -124.8 11.384 97.2 0.061 41.1 0.408 - 89.2 22.69 0.66 1.50 0.423 -130.5 10.772 94.3 0.063 40.2 0.390 - 92.3 22.32 0.69 1.60 0.414 -135.7 10.209 91.6 0.065 39.5 0.372 - 95.7 21.96 0.72 1.70 0.406 -141.2 9.703 89.0 0.067 38.9 0.358 - 98.3 21.61 0.74 1.80 0.401 -146.1 9.243 86.5 0.069 38.4 0.345 -101.5 21.27 0.76 1.90 0.395 -150.8 8.810 84.2 0.071 38.0 0.332 -103.9 20.95 0.79 2.00 0.391 -155.4 8.424 82.0 0.072 37.4 0.321 -106.7 20.65 0.81 2.10 0.389 -160.0 8.071 79.7 0.074 36.9 0.311 -109.3 20.37 0.83 2.20 0.387 -164.0 7.735 77.6 0.076 36.5 0.303 -111.8 20.05 0.85 2.30 0.386 -168.0 7.433 75.6 0.078 36.2 0.293 -113.8 19.79 0.87 2.40 0.387 -171.7 7.147 73.6 0.080 35.5 0.286 -116.1 19.53 0.88 2.50 0.386 -175.4 6.886 71.7 0.082 35.2 0.279 -118.1 19.25 0.90 2.60 0.389 -178.9 6.649 69.8 0.083 34.6 0.272 -120.2 19.02 0.91 2.70 0.388 177.9 6.413 67.9 0.085 34.1 0.265 -122.3 18.76 0.92 2.80 0.389 174.7 6.207 66.1 0.088 33.5 0.260 -124.1 18.51 0.93 2.90 0.390 171.7 6.003 64.3 0.089 33.3 0.254 -126.1 18.27 0.95 3.00 0.391 168.5 5.819 62.6 0.091 32.7 0.249 -127.7 18.05 0.96 3.50 0.399 155.4 5.046 54.1 0.101 30.0 0.226 -136.1 16.90 1.00 4.00 0.407 143.5 4.465 46.1 0.111 27.0 0.205 -143.5 14.98 1.03 4.50 0.418 132.5 4.009 38.3 0.121 23.4 0.187 -152.0 13.81 1.05 5.00 0.432 122.0 3.642 30.7 0.131 19.4 0.171 -161.7 12.87 1.07 5.50 0.450 112.0 3.333 23.1 0.139 15.1 0.163 -173.7 12.05 1.08 6.00 0.472 102.6 3.066 15.6 0.148 10.9 0.164 173.3 11.36 1.09 6.50 0.496 93.8 2.832 8.3 0.155 6.2 0.172 160.4 10.73 1.09 7.00 0.525 85.9 2.621 1.1 0.162 1.6 0.186 148.1 10.20 1.10 8.00 0.588 72.5 2.251 - 12.7 0.170 - 7.4 0.221 127.1 9.26 1.10 9.00 0.651 62.5 1.940 - 25.9 0.175 - 16.1 0.254 107.8 8.49 1.10 10.00 0.707 54.3 1.682 - 38.3 0.177 - 24.6 0.282 88.7 7.85 1.10 11.00 0.750 45.8 1.488 - 50.2 0.178 - 32.8 0.306 73.7 7.36 1.09 12.00 0.771 36.6 1.367 - 61.2 0.182 - 40.3 0.316 64.9 7.01 1.08 note: 1. gain calculations: nesg2030m04 v ds = 2 v, i ds = 20 ma mag = maximum available gain msg = maximum stable gain typical scattering parameters (t a = 25 c) j10 -j10 j25 -j25 j50 -j50 j100 -j100 v c = 2.000 v, ic = 20.000 ma 0.100 to 12.000ghz by 0.100 0 10 50 25 s 22 s 11 nesg2030m04 0.100 to 12.000ghz by 0.100 v c = 2.000 v, ic = 20.000 ma nesg2030m04 -150 -120 -90 -60 -30 +0 +30 +60 +90 +120 +150 +180 -150 -120 -90 -60 -30 +0 +30 +60 +90 +120 +150 +180 s 21 s 12
nesg2030m04 nesg2030m04 nonlinear model schematic base emitter collector l bx l b l ex l e l cx l c c cbpkg c cb c ce c cepkg c bepkg parameters nesg2030m04 c cb 0.07e-12 c ce 0.05e-12 l b 0.9e-9 l c 0.5e-9 l e 0.14e-9 c cbpkg 0.001e-12 c cepkg 0.2e-12 c bepk 0.1e-12 l bx 0.2e-9 l cx 0.2e-9 l ex 0.1e-9 additional parameters model range frequency: 0.1 to 12 ghz bias: v ce = 0.5 v to 3 v, i c = 1 ma to 30 ma date: 12/2001 parameters q1 parameters q1 is 2.42e-13 mjc 0.16 bf 382 xcjc 1 nf 1.025 cjs 0 vaf 87 vjs 0.75 ikf 100 mjs 0 ise 5.2e-13 fc 0.5 ne 2.806 tf 3e-12 br 15.7 xtf 2 nr 1.02 vtf 0.1 var 1.307 itf 0.001 ikr 0.037 ptf 0 isc 9e-14 tr 50e-12 nc 2.194 eg 1.11 re 2.2 xtb 0 rb 4 xti 3 rbm 1 kf 120e-15 irb 0.007 af 1.37 rc 4.2 cje 0.4e-12 vje 0.98 mje 0.25 cjc 0.12e-12 vjc 0.63 (1) gummel-poon model bjt nonlinear model parameters (1) 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. a business partner of nec compound semiconductor devices, ltd.
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