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nesg2101m05 nec's npn sige high frequency transistor m05 description nec's nesg2101m05 is fabricated using nec?s high voltage silicon germanium process (uhs2-hv), and is designed for a wide range of applications including low noise ampli?ers, medium power ampli?ers, and oscillators nec?s low pro?le, ?at lead style m05 package provides high frequency performance for compact wireless designs. california eastern laboratories ? high breakdown voltage sige technology v ceo = 5 v (absolute maximum) ? high output power: p 1db = 21 dbm at 2 ghz ? low noise figure: nf = 0.9 db at 2 ghz ? high maximum stable power gain: msg = 17 db at 2 ghz ? low profile m05 package: sot-343 footprint, with a height of only 0.59 mm flat lead style for better rf performance features part number nesg2101m05 package outline m05 symbols parameters and conditions units min typ max p 1db output power at 1 db compression point dbm 21 v ce = 3.6 v, i cq = 10 ma, f = 2 ghz g l linear gain, v ce = 3.6 v, i cq = 10 ma, f = 2 ghz db 15 nf noise figure at v ce = 2 v, i c = 10 ma, f = 2 ghz, db 0.9 1.2 z s = z sopt , zl = z lopt g a associated gain at v ce = 2 v, i c = 10 ma, f = 2 ghz, db 11.0 13.0 z s = z sopt , zl = z lopt nf noise figure at v ce = 2 v, i c = 7ma, f = 1 ghz, db 0.6 z s = z sopt , zl = z lopt g a associated gain at v ce = 2 v, i c = 7 ma, f = 1 ghz, db 19.0 z s = z sopt , zl = z lopt msg maximum stable gain 1 at v ce = 3 v, i c = 50 ma, f = 2 ghz db 14.5 17.0 |s 21e | 2 insertion power gain at v ce = 3 v, i c = 50 ma, f = 2 ghz db 11.5 13.5 f t gain bandwidth product at v ce = 3 v, i c = 50 ma, f = 2 ghz ghz 14 17 c re reverse transfer capacitance 2 at v cb = 2 v, i c = 0 ma, f = 1 mhz pf 0.4 0.5 i cbo collector cutoff current at v cb = 5v, i e = 0 na 100 i ebo emitter cutoff current at v eb = 1 v, i c = 0 na 100 h fe dc current gain 3 at v ce = 2 v, i c = 15 ma 130 190 260 electrical characteristics (t a = 25c) rf dc s 21 s 12 notes: 1. msg = 2. collector to base capacitance is measured by capacitance meter (automatic balance bridge method) when emitter pin is connected to the guard pin. 3. pulsed measurement, pulse width 350 s, duty cycle 2 %.
note: 1. operation in excess of any one of these parameters may result in permanent damage. 2. mounted on 38 x 38 x 0.4 mm (t) glass epoxy substrate symbols parameters units ratings v cbo collector to base voltage v 13.0 v ceo collector to emitter voltage v 5.0 v ebo emitter to base voltage v 1.5 i c collector current ma 100 p t 2 total power dissipation mw 500 t j junction temperature c 150 t stg storage temperature c -65 to +150 absolute maximum ratings 1 (t a = 25c) symbols parameters units ratings r th j-c junction to case resistance c/w tbd thermal resistance nesg2101m05 collector to base voltage, v cb (v) reverse transfer capacitance, c re (pf) typical performance curves (t a = 25c) base to emitter voltage, v be (v) collector current, ic (ma) collector current vs. base to emitter voltage reverse transfer capacitance vs. collector to base voltage ambient temperature, t a (c) total power dissipation, p tot (mw) total power dissipation vs. ambient temperature base to emitter voltage, v be (v) collector current, ic (ma) collector current vs. base to emitter voltage 700 500 600 400 200 300 100 0 25 50 75 100 125 150 mounted on polymide pcb (38 38 mm, t = 0.4 mm ) f = 1 mh z 1.0 0.6 0.8 0.2 0.4 0 2 4 6 8 1 0 v ce = 1 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 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 part number quantity supplying form NESG2101M05-T1-A 3 kpcs/reel ? pin 3 (collector), pin 4 (emitter) face the perfo - ration side of the tape ? 8 mm wide embossed taping ordering information
nesg2101m05 base to emitter voltage, v be (v) collector current, ic (ma) typical performance curves (t a = 25c) collector to emitter voltage, v ce (v) collector current, ic (ma) collector current vs. collector to emitter voltage collector current vs. base to emitter voltage base to emitter voltage, v be (v) collector current, ic (ma) collector current vs. base to emitter voltage collector current, l c (ma) dc current gain, h fe dc current gain vs. collector current collector current, l c (ma) dc current gain, h fe dc current gain vs. collector current collector current, l c (ma) dc current gain, h fe dc current gain vs. collector current v ce = 3 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 v ce = 4 v 100 10 1 0.01 0.001 0.1 0.0001 0.7 0.5 0.6 0.4 0.8 0.9 1.0 100 40 50 60 70 80 90 10 20 30 0 1 2 3 4 5 6 i b = 50 a 300 a 500 a 350 a 400 a 450 a 200 a 150 a 100 a 250 a 1 000 100 10 1 0.1 10 100 v ce = 1 v 1 000 100 10 1 0.1 10 100 v ce = 2 v 1 000 100 10 1 0.1 10 100 v ce = 3 v
nesg2101m05 typical performance curves (t a = 25c) collector current, l c (ma) frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current insertion power gain, mag, msg vs. frequency frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. frequency insertion power gain, mag, msg vs. frequency frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) typical performance curves (t a = 25c) frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. frequency collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current collector current, l c (ma) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current collector current, l c (ma) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current collector current, l c (ma) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current collector current, l c (ma) dc current gain, h fe dc current gain vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current 1 000 100 10 1 0.1 10 100 v ce = 4 v v ce = 1 v f = 2 ghz 20 5 10 15 0 10 1 100 v ce = 2 v f = 2 ghz 20 5 10 15 0 10 1 100 v ce = 3 v f = 2 ghz 20 5 10 15 0 10 1 100 v ce = 4 v f = 2 ghz 20 5 10 15 0 10 1 100 v ce = 1 v i c = 50 ma 40 35 30 25 20 15 10 5 0 0.1 1 1 0 100 ma g ms g |s21e | 2
nesg2101m05 typical performance curves (t a = 25c) collector current, l c (ma) frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current insertion power gain, mag, msg vs. frequency frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. frequency insertion power gain, mag, msg vs. frequency frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) typical performance curves (t a = 25c) frequency, f (ghz) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. frequency collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current collector current, l c (ma) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current collector current, l c (ma) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current collector current, l c (ma) gain bandwidth product, f t (ghz) gain bandwidth product vs. collector current collector current, l c (ma) dc current gain, h fe dc current gain vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current v ce = 2 v i c = 50 ma 40 35 30 25 20 15 10 5 0 0.1 1 1 0 100 ma g msg |s21e | 2 v ce = 3 v i c = 50 ma 40 35 30 25 20 15 10 5 0 0.1 1 1 0 100 ma g msg |s 21e | 2 v ce = 4 v i c = 50 ma 40 35 30 25 20 15 10 5 0 0.1 1 1 0 100 ma g msg |s 21e | 2 v ce = 1 v f = 1 ghz 30 25 20 15 10 5 0 1 1 0 100 ma g msg |s 21e | 2 v ce = 2 v f = 1 ghz 30 25 20 15 10 5 0 1 1 0 100 ma g ms g |s 21e | 2 v ce = 1 v f = 2 ghz 30 25 20 15 10 5 0 1 1 0 100 mag ms g |s 21e | 2
nesg2101m05 typical performance curves (t a = 25c) collector current, i c (ma) collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current output power, collector cur - rent vs. input power collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current v ce = 2 v f = 2 ghz 30 25 20 15 10 5 0 1 1 0 100 mag ms g |s 21e | 2 v ce = 1 v f = 3 ghz 20 15 10 5 0 -5 -10 1 1 0 100 ma g ms g |s 21e | 2 v ce = 2 v f = 3 ghz 20 15 10 5 0 -5 -10 1 1 0 100 ma g ms g |s 21e | 2 v ce = 3 v f = 1 ghz 30 25 20 15 10 5 0 1 1 0 100 mag ms g |s 21e | 2 v ce = 4 v f = 1 ghz 30 25 20 15 10 5 0 1 1 0 100 ma g ms g |s 21e | 2 v ce = 3 v f = 2 ghz 30 25 20 15 10 5 0 1 1 0 100 ma g ms g |s 21e | 2
nesg2101m05 collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current insertion power gain, mag, msg vs. collector current collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) typical performance curves (t a = 25c) collector current, i c (ma) insertion power gain, is 21e i 2 (db) maximum available gain, mag (db) maximum stable power gain, msg (db) insertion power gain, mag, msg vs. collector current input power, p in (dbm) output power, p out (dbm) power gain, g p (db) output power, power gain, collector current, collector efficiency vs. input power input power, p in (dbm) output power, p out (dbm) power gain, g p (db) output power, power gain, collector current, collector efficiency vs. input power input power, p in (dbm) output power, p out (dbm) power gain, g p (db) output power, power gain, collector current, collector efficiency vs. input power v ce = 4 v f = 2 gh z 30 25 20 15 10 5 0 1 1 0 100 ma g msg |s 21e | 2 v ce = 3 v f = 3 ghz 20 15 10 5 0 -5 -10 1 1 0 100 ma g ms g |s 21e | 2 v ce = 4 v f = 3 ghz 20 15 10 5 0 -5 -10 1 1 0 100 mag ms g |s 21e | 2 v ce = 3.6 v, f = 1 ghz i cq = 10 ma 30 25 20 15 10 5 0 120 20 40 60 100 80 0 -20 -5 -10 -15 0 5 10 g p p out i c c v ce = 3.6 v, f = 2 ghz i cq = 10 ma 25 20 15 10 5 0 -5 120 20 40 60 100 80 0 -15 0 -5 -10 5 10 1 5 g p p out i c c v ce = 3.6 v, f = 3 ghz i cq = 10 ma 25 20 15 10 5 0 -5 120 20 40 60 100 80 0 -15 0 -5 -10 5 10 1 5 g p p out i c c
nesg2101m05 typical performance curves (t a = 25c) collector current, i c (ma) collector current, i c (ma) noise figure, nf (db) noise figure, nf (db) noise figure, associated gain vs. collector current noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) typical performance curves (t a = 25c) 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 input power, p in (dbm) output power, p out (dbm) power gain, g p (db) output power, power gain, collector cur - rent, collector efficiency vs. input power 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 associated gain, g a (db) associated gain, g a (db) v ce = 3.6 v, f = 5.2 ghz i cq = 10 ma 25 20 15 10 5 0 -5 120 20 40 60 100 80 0 -10 5 0 -5 10 15 20 g p p out i c c 5 4 3 2 1 0 25 10 5 20 15 0 1 1 0 100 v ce = 1 v f = 1 ghz g a nf 5 4 3 2 1 0 25 10 5 20 15 0 1 1 0 100 v ce = 2 v f = 1 ghz g a nf 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 1 v f = 2 ghz g a nf 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 2 v f = 2 ghz g a nf 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 1 v f = 3 ghz g a nf associated gain, g a (db) associated gain, g a (db) associated gain, g a (db)
nesg2101m05 typical performance curves (t a = 25c) collector current, i c (ma) collector current, i c (ma) noise figure, nf (db) noise figure, nf (db) noise figure, associated gain vs. collector current noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current noise figure, associated gain vs. collector current collector current, i c (ma) noise figure, nf (db) typical performance curves (t a = 25c) 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 input power, p in (dbm) output power, p out (dbm) power gain, g p (db) output power, power gain, collector cur - rent, collector efficiency vs. input power 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 associated gain, g a (db) associated gain, g a (db) 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 2 v f = 3 ghz g a nf 5 4 3 2 1 0 25 10 5 20 15 0 1 1 0 100 v ce = 3 v f = 1 ghz g a nf 5 4 3 2 1 0 25 10 5 20 15 0 1 1 0 100 v ce = 4 v f = 1 gh z g a nf 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 3 v f = 2 ghz g a nf 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 4 v f = 2 gh z g a nf 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 3 v f = 3 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)
nesg2101m05 typical performance curves (t a = 25c) collector current, i c (ma) noise figure, nf (db) noise figure, associated gain vs. collector current associated gain, g a (db) 4 3 2 1 0 20 5 10 15 0 1 1 0 100 v ce = 4 v f = 3 ghz g a nf outline dimensions (units in mm) package outline m05 flat lead 4-pin thin type super minimold pin connections 1. base 2. emitter 3. collector 4. emitter 1 4 2 3 2.050.1 1.250.1 +0.1 -0.05 +0.1 -0.05 0.3 0 2.0 0.1 1.30 0.590.05 0.11 0.6 5 0.6 5 t1 j
typical scattering parameters (t a = 25c) frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) nesg2101m05 v c = 2 v, i c = 10 ma 0.200 0.789 -60.55 22.546 143.21 0.038 57.24 0.827 -44.95 0.112 27.77 0.400 0.728 -101.35 16.859 119.77 0.055 40.53 0.640 -74.08 0.191 24.83 0.600 0.640 -126.85 12.438 105.88 0.061 32.65 0.469 -90.20 0.384 23.06 0.800 0.625 -144.45 9.872 95.71 0.066 28.51 0.394 -104.59 0.481 21.73 0.900 0.623 -151.37 8.927 91.52 0.068 27.07 0.370 -110.30 0.522 21.16 1.000 0.618 -157.17 8.141 87.71 0.070 25.95 0.349 -116.15 0.569 20.67 1.100 0.616 -162.79 7.468 84.22 0.072 25.14 0.332 -121.03 0.613 20.19 1.200 0.615 -167.45 6.893 80.93 0.073 24.39 0.320 -125.84 0.651 19.74 1.300 0.613 -171.88 6.401 77.88 0.075 23.86 0.308 -130.30 0.694 19.33 1.400 0.612 -176.14 5.971 74.92 0.076 23.41 0.300 -134.44 0.731 18.94 1.500 0.613 -179.93 5.595 72.08 0.078 22.92 0.292 -138.47 0.766 18.56 1.600 0.613 176.51 5.262 69.40 0.080 22.49 0.287 -142.03 0.797 18.19 1.700 0.612 173.28 4.969 66.77 0.081 22.12 0.282 -145.38 0.830 17.85 1.800 0.612 170.36 4.710 64.19 0.083 21.73 0.279 -148.48 0.856 17.52 1.900 0.612 167.10 4.470 61.72 0.085 21.34 0.276 -151.73 0.887 17.21 2.000 0.613 164.14 4.260 59.24 0.087 20.76 0.274 -154.58 0.910 16.91 2.100 0.613 161.30 4.067 56.96 0.089 20.30 0.272 -157.43 0.933 16.61 2.200 0.617 158.82 3.883 54.51 0.091 19.87 0.269 -159.83 0.948 16.31 2.300 0.616 155.93 3.723 52.25 0.092 19.47 0.268 -162.52 0.975 16.05 2.400 0.616 153.29 3.575 49.92 0.094 18.90 0.268 -164.76 0.995 15.79 2.500 0.618 150.71 3.437 47.73 0.096 18.25 0.268 -167.14 1.012 14.87 2.600 0.620 148.00 3.311 45.48 0.098 17.72 0.267 -169.01 1.025 14.31 2.700 0.618 145.67 3.195 43.27 0.100 17.10 0.268 -171.14 1.042 13.77 2.800 0.621 143.19 3.088 41.06 0.103 16.52 0.266 -172.97 1.053 13.38 2.900 0.621 140.77 2.983 38.89 0.104 15.93 0.267 -174.99 1.069 12.95 3.000 0.623 138.24 2.889 36.77 0.106 15.02 0.267 -176.60 1.079 12.63 3.200 0.626 133.27 2.718 32.52 0.111 13.69 0.268 -179.91 1.098 12.00 3.400 0.626 128.35 2.568 28.32 0.115 12.16 0.270 177.06 1.118 11.41 3.600 0.630 123.52 2.436 24.16 0.119 10.49 0.270 174.03 1.129 10.93 3.800 0.633 118.84 2.316 20.02 0.124 8.76 0.271 171.13 1.139 10.46 4.000 0.637 113.84 2.209 15.92 0.128 6.86 0.273 168.42 1.147 10.05 5.000 0.657 91.22 1.801 -4.45 0.149 -3.74 0.280 153.64 1.166 8.36 6.000 0.684 69.73 1.516 -24.91 0.168 -16.26 0.288 134.59 1.170 7.07 7.000 0.711 52.77 1.296 -43.46 0.183 -28.22 0.302 116.54 1.172 6.00 8.000 0.735 35.04 1.130 -61.62 0.195 -40.47 0.313 97.12 1.186 5.02 nesg2101m05 j50 j2 5 j1 0 0 -j10 -j25 -j50 -j10 0 j10 0 50 10 25 10 0 s 11 s 22 +90 o +135 o -135 o -90 o -45 o +45o +0 o .2 .4 .8 .6 1 +180 o s 12 s 21 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 | ,
typical scattering parameters (t a = 25c) frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) nesg2101m05 v c = 3 v, i c = 50 ma 0.200 0.572 -113.11 40.843 122.65 0.022 47.89 0.622 -81.31 0.326 32.65 0.400 0.588 -146.82 24.097 102.66 0.029 43.32 0.465 -115.51 0.535 29.25 0.600 0.565 -164.47 16.568 93.61 0.034 45.52 0.366 -135.31 0.766 26.89 0.800 0.571 -174.66 12.645 86.36 0.040 47.14 0.344 -148.51 0.864 25.01 0.900 0.575 -178.62 11.301 83.26 0.043 47.40 0.338 -153.30 0.896 24.21 1.000 0.574 177.67 10.218 80.41 0.046 47.66 0.334 -157.83 0.929 23.47 1.100 0.578 174.15 9.319 77.77 0.049 47.88 0.331 -161.79 0.952 22.77 1.200 0.579 171.23 8.556 75.23 0.052 47.76 0.329 -165.34 0.972 22.13 1.300 0.580 168.24 7.916 72.83 0.056 47.49 0.327 -168.83 0.990 21.52 1.400 0.582 165.28 7.362 70.48 0.059 47.26 0.327 -171.79 1.005 20.55 1.500 0.584 162.68 6.879 68.16 0.062 46.69 0.327 -174.83 1.017 19.65 1.600 0.586 160.14 6.455 65.95 0.066 46.07 0.328 -177.28 1.026 18.95 1.700 0.585 157.81 6.087 63.80 0.069 45.35 0.328 -179.74 1.035 18.31 1.800 0.586 155.73 5.759 61.61 0.072 44.60 0.328 177.91 1.041 17.76 1.900 0.586 153.15 5.462 59.51 0.076 43.97 0.329 175.52 1.051 17.21 2.000 0.588 150.78 5.196 57.39 0.079 42.87 0.330 173.57 1.056 16.75 2.100 0.590 148.53 4.960 55.46 0.082 41.96 0.330 171.41 1.059 16.31 2.200 0.594 146.68 4.730 53.32 0.086 40.87 0.329 169.50 1.060 15.93 2.300 0.593 144.30 4.533 51.36 0.089 39.88 0.331 167.46 1.067 15.49 2.400 0.593 142.02 4.351 49.30 0.092 38.91 0.331 165.70 1.071 15.11 2.500 0.595 139.86 4.182 47.40 0.095 37.77 0.334 163.93 1.075 14.75 2.600 0.598 137.53 4.025 45.40 0.098 36.70 0.333 162.52 1.076 14.44 2.700 0.596 135.56 3.883 43.42 0.102 35.46 0.335 160.76 1.080 14.09 2.800 0.598 133.38 3.750 41.47 0.105 34.20 0.334 159.24 1.080 13.80 2.900 0.599 131.30 3.623 39.50 0.108 33.05 0.335 157.55 1.083 13.48 3.000 0.601 128.98 3.510 37.60 0.111 31.78 0.335 156.19 1.084 13.22 3.200 0.604 124.58 3.300 33.78 0.118 29.38 0.336 153.36 1.087 12.68 3.400 0.604 120.05 3.118 29.94 0.124 26.78 0.338 150.81 1.090 12.17 3.600 0.608 115.64 2.957 26.15 0.130 24.08 0.337 148.07 1.089 11.75 3.800 0.609 111.42 2.812 22.38 0.136 21.31 0.339 145.42 1.090 11.31 4.000 0.613 106.64 2.684 18.56 0.142 18.59 0.340 142.94 1.090 10.93 5.000 0.630 85.56 2.191 -0.52 0.169 4.19 0.345 128.61 1.089 9.30 6.000 0.655 65.39 1.847 -20.04 0.191 -11.37 0.357 110.41 1.089 8.03 7.000 0.681 49.45 1.588 -37.86 0.208 -25.62 0.369 92.60 1.094 6.97 8.000 0.706 32.47 1.394 -55.46 0.219 -39.67 0.379 73.61 1.105 6.06 nesg2101m05 j50 j2 5 j1 0 0 -j10 -j25 -j50 -j10 0 j10 0 50 10 25 10 0 s 22 s 11 +90 o +135 o -135 o -90 o -45 o +45o +0 o .2 .4 .8 .6 1 +180 o s 12 s 21 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 | ,
typical scattering parameters (t a = 25c) frequency s 11 s 21 s 12 s 22 k mag 1 ghz mag ang mag ang mag ang mag ang (db) nesg2101m05 v c = 3.6 v, i c = 10 ma 0.200 0.789 -57.89 22.895 144.36 0.036 58.70 0.837 -42.54 0.116 28.04 0.400 0.726 -98.15 17.340 121.13 0.053 42.11 0.649 -70.19 0.195 25.14 0.600 0.634 -123.23 12.889 106.94 0.059 34.42 0.476 -85.69 0.388 23.37 0.800 0.619 -141.61 10.285 96.59 0.064 30.25 0.397 -99.12 0.481 22.04 0.900 0.612 -148.55 9.304 92.38 0.066 29.03 0.369 -104.66 0.529 21.48 1.000 0.607 -154.90 8.480 88.48 0.068 27.89 0.345 -110.32 0.576 20.96 1.100 0.606 -160.48 7.794 84.91 0.070 27.18 0.328 -114.99 0.616 20.49 1.200 0.603 -165.23 7.205 81.64 0.071 26.60 0.313 -119.56 0.658 20.04 1.300 0.605 -169.91 6.687 78.44 0.073 25.96 0.301 -124.08 0.692 19.63 1.400 0.603 -173.86 6.244 75.51 0.075 25.57 0.291 -128.11 0.731 19.23 1.500 0.603 -177.86 5.852 72.66 0.076 25.20 0.283 -132.00 0.765 18.86 1.600 0.601 178.57 5.509 69.92 0.078 24.82 0.276 -135.75 0.800 18.51 1.700 0.603 175.17 5.203 67.24 0.079 24.50 0.270 -139.12 0.828 18.16 1.800 0.603 172.01 4.923 64.71 0.081 24.11 0.266 -142.52 0.858 17.82 1.900 0.602 168.75 4.677 62.23 0.083 23.81 0.262 -145.54 0.887 17.51 2.000 0.603 165.91 4.459 59.76 0.085 23.47 0.259 -148.55 0.911 17.21 2.100 0.605 162.98 4.256 57.44 0.086 23.03 0.257 -151.41 0.933 16.92 2.200 0.605 160.18 4.067 55.01 0.088 22.63 0.255 -154.00 0.956 16.63 2.300 0.605 157.54 3.898 52.69 0.090 22.17 0.253 -156.55 0.977 16.36 2.400 0.605 154.92 3.743 50.39 0.092 21.67 0.252 -158.93 0.996 16.09 2.500 0.606 152.29 3.600 48.17 0.094 21.18 0.252 -161.10 1.014 15.11 2.600 0.608 149.78 3.468 45.89 0.096 20.62 0.251 -163.46 1.028 14.56 2.700 0.607 147.22 3.345 43.72 0.098 20.15 0.251 -165.49 1.047 14.02 2.800 0.609 144.76 3.233 41.51 0.100 19.59 0.250 -167.54 1.060 13.61 2.900 0.610 142.18 3.127 39.34 0.102 19.01 0.250 -169.39 1.073 13.23 3.000 0.611 139.97 3.027 37.20 0.104 18.16 0.251 -171.29 1.084 12.89 3.200 0.613 134.84 2.849 32.93 0.108 16.95 0.251 -174.61 1.104 12.26 3.400 0.616 130.04 2.690 28.73 0.112 15.48 0.252 -177.81 1.122 11.69 3.600 0.617 125.12 2.552 24.58 0.116 13.94 0.253 179.23 1.138 11.17 3.800 0.621 120.40 2.427 20.47 0.120 12.13 0.255 176.30 1.146 10.73 4.000 0.624 115.57 2.315 16.31 0.124 10.28 0.256 173.50 1.156 10.31 5.000 0.645 92.70 1.886 -4.08 0.144 -0.33 0.264 158.38 1.180 8.62 6.000 0.674 71.09 1.587 -24.60 0.161 -12.96 0.271 139.17 1.186 7.33 7.000 0.703 54.11 1.354 -43.38 0.174 -25.46 0.286 120.42 1.192 6.25 8.000 0.730 36.29 1.179 -61.88 0.185 -38.34 0.296 100.19 1.206 5.30 nesg2101m05 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 | , j50 j2 5 j1 0 0 -j10 -j25 -j50 -j10 0 j10 0 50 10 25 10 0 s 22 s 11 +90 o +135 o -135 o -90 o -45 o +45o +0 o .2 .4 .8 .6 1 +180 o s 12 s 21
nesg2101m05 a business partner of nec compound semiconductor devices, ltd. 05/1 1 /2005 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. schematic additional parameters model test conditions frequency: 0.1 to 6 ghz bias: v ce = 2 v, i c = 5 ma to 40 ma date: 09/2003 parameters q1 parameters q1 is 3.64e-15 mjc 0.149 bf 309.7 xcjc 1 nf 1.079 cjs 0 vaf 56 vjs 0.75 ikf 233.9 mjs 0 ise 11.67e-15 fc 0.8 ne 1.648 tf 4e-12 br 20.01 xtf 10 nr 1.080 vtf 5 var 2.782 itf 0.5 ikr 54.57e-3 ptf 20 isc 1.024e-18 tr 0 nc 1.35 eg 1.11 re 1.6 xtb 1.3 rb 2.2 xti 5.2 rbm 0.05 kf 0 irb 1e-4 af 1 rc 4.8 cje 1.461e-12 vje 0.798 mje 0.137 cjc 489.9e-15 vjc 0.605 (1) gummel-poon model bjt nonlinear model parameters (1) base emitter collecto r l bpkg l b l epkg l e l cpkg c cbpkg c cb c ce c cepkg c bepkg q 1 parameters nesg2101m05 c cb 0.01 pf c ce 0.2 pf l b 0.16 nh l e 0.17 nh c cbpkg 0.45 pf c cepkg 0.02 pf c bepkg 0.05 pf l bpkg 0.8 nh l cpkg 1.2 nh l epkg 0.15 nh nonlinear model
4590 patrick henry drive santa clara, ca 95054-1817 telephone: (408 ) 9 19-250 0 facsimile : ( 40 8 ) 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 substance s i n 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 Ca indicates that the device is pb-free. the Caz 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 cels 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 substanc e per rohs concentration limit per rohs (values are not yet fixed) concentration contained in cel devices -a -a z lead (p b) < 1000 ppm not detected (*) mercury < 1000 ppm not detected cadmiu m < 100 ppm not detected hexavalent chromiu m < 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: informatio n p rovided by ce l o n its website or in other communications concertin g the substan ce content of its products represents knowledge and belief as of the date that it is provided. cel bases its know ledge and belief on informatio n provided by thir d p arties and makes no representation or warrant y as to the accura cy of such information. efforts are underw ay to better integrate information from third parties. cel has taken and continues to take reasonable steps to provide representative and ac curate information but ma y not have conducted destructive testing or chemical analysis on incoming ma terials and chemicals. cel and ce l suppliers consider certain information to be propri etar y, and thus cas numbers and other limited information may not be availabl e for release . in no event shall cels 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 wa rranties and liabilit y.

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