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nec's npn medium power microwave transistor ne46100 ne46134 features ? high dynamic range ? low im distortion: -40 dbc ? high output power : 27.5 dbm at typ ? low noise: 1.5 db typ at 500 mhz ? low cost part number ne46100 ne46134 eiaj 1 registered number 2sc4536 package outline 00 (chip) 34 symbols parameters and conditions units min typ max min typ max f t gain bandwidth product at v ce = 10 v, i c = 100 ma ghz 5.5 5.5 nf min minimum noise figure 3 at v ce = 10 v, i c = 50 ma, 500 mhz db 1.5 1.5 v ce = 10 v, i c = 50 ma, 1 ghz db 2.0 2.0 g l linear gain, v ce = 12.5 v, i c = 100 ma, 2.0 ghz db 9.0 v ce = 12.5 v, i c = 100 ma, 1.0 ghz db 8.0 |s 21e | 2 insertion power gain at 10 v, 50 ma, f = 1.0 ghz db 10.0 5.5 7.0 h fe dc current gain 2 at v ce = 10 v, i c = 50 ma 40 200 40 200 i cbo collector cutoff current at v cb = 20 v, i e = 0 ma . a 5.0 5.0 i ebo emitter cutoff current at v eb = 2 v, i c = 0 ma a 5.0 5.0 p 1db output power at 1 db compression, v ce = 12.5 v, i c = 100 ma, 2.0 ghz dbm 27.0 v ce = 12.5 v, i c = 100 ma, 1.0 ghz dbm 27.5 im 3 intermodulation distortion, 10 v, 100 ma, f1 = 1.0 ghz, f2 = 0.99 ghz, total p out = 20 dbm dbc -40.0 -40.0 r th (j-c) thermal resistance (junction to case) c/w 30 32.5 r th (j-a) thermal resistance (junction to ambient) c/w 312.5 notes: 1. electronic industrial association of japan. 2. pulsed: pw 350 ms, duty cycle 2% 3. rs = rl = 50 ? untuned description nec's ne461 series of npn silicon epitaxial bipolar transis- tors is designed for medium power applications requiring high dynamic range. this device exhibits an outstanding combina- tion of high gain and low intermodulation distortion, as well as low noise figure. the ne461 series offers excellent perfor- mance and reliability at low cost through nec's titanium, platinum, gold metallization system and direct nitride passiva- tion of the surface of the chip. devices are available in a low cost surface mount package (sot-89) as well as in chip form. ne46134 typical output power vs. input power f = 1.0 ghz, i c = 100 ma output power, p out (dbm) input power, p in (dbm) electrical characteristics (t a = 25 c) 5 10 15 20 25 30.0 28.0 26.0 24.0 22.0 20.0 18.0 16.0 14.0 12.0 5 v 10 v 12.5 v
absolute maximum ratings 1 (t a = 25 c) symbols parameters units ratings v cbo collector to base voltage v 30 v ceo collector to emitter voltage v 15 v ebo emitter to base voltage v 3 i c collector current ma 250 p t total power dissipation ne46100 2 w 3.75 ne46134 3 w 2.0 t j junction temperature ne46100 c 200 ne46134 c 150 t stg storage temperature ne46100 c -65 to +200 ne46134 c -65 to +150 ne46100, ne46134 colllector current vs. collector to emitter voltage collector to emitter voltage, v ce (v) collector current, i c (ma) notes: 1. operation in excess of any one of these parameters may result in permanent damage. 2. chip mounted on an infinite heat sink (see an-1001 for handling instructions). 3. packaged device mounted on 0.7 mm x 2.5 cm 2 double sided ceramic substrate (copper plating). ne46100, ne46134 ne46100, ne46134 noise figure vs. collector current v ce = 10 v, f = 1 ghz noise figure,nf(db) total power dissipation, p t (w) ne46100, ne46134 total power dissipation vs. ambient temperature collector current, ic (ma) ambient temperature, t a ( c) ne46134 typical noise parameters (t a = 25 c) freq. nf opt g a opt (ghz) (db) (db) mag ang rn/50 v cc = 10 v, i c = 50 ma 0.5 1.5 13.5 0.34 -176 0.09 typical performance curves (t a =25 c) insertion power gain, |s 21e | 2 (db) maximum available gain, mag (db) ne46134 insertion power gain and maximum available gain vs. collector current v ce = 10 v, f = 1 ghz collector current, i c (ma) r s = r l = 50 ? untuned mag |s 21 e | 2 0 50 100 300 10 8 6 4 2 0 0 10 20 100 80 60 40 20 0 i b = 0.6 ma 0.5 ma 0.4 ma 0.3 ma 0.2 ma 0.1 ma 0 50 100 150 200 85 87.5 4.0 3.75 3.0 2.0 1.0 0.4 ne46100 r th (j-c) 30?c/w with infinite heat sink ne46134 r th (j-c) 32.5?c/w with infinite heat sink ne46134 r th (j-a) 312.5?c/w with infinite heat sink 0 5 10 100 200 5 4 3 2 1 0
ne46100, ne46134 typical performance curves (t a = 25 c) collector current, i c (ma) total p in = 6.0 dbm f 1 = 1.0 ghz, f 2 = 0.99 ghz note: im 5 > than 58 db down from carrier for measured currents greater than 40 ma. collector current, i c (ma) 2 tone test total p in = 12.1 dbm f 1 = 1.0 ghz, f 2 = 0.99 ghz im 3 (dbc) im 5 (dbc) im 3 (dbc) -5 0 5 10 15 20 25 30 40.0 30.0 20.0 10.0 0.0 -10.0 -20.0 -30.0 -40.0 -50.0 1 tone 2 tone im 3 im 5 p out (total) ip 3 32.6 dbm p out /im(dbm) p out /im(dbm) input power, p in total (dbm) input power, p in total (dbm) gain bandwidth product, ft (ghz) collector current, i c (ma) 3 rd order intermodulation distortion, im 3 - (dbc) 2 nd order intermodulation distortion, im 2 + (dbc) 2 nd order intermodulation distortion, im 2 - (dbc) collector current, i c (ma) ne46134 3rd order intermodulation distortion, 2nd order intermodulation distortion (+ and -) vs. collector current ne46100, ne46134 gain bandwidth product vs. collector current v ce = 10 v ne46134 typical output power/intermodulation distortion vs. input power f = 1.0 ghz, v ce = 10 v, i c = 100 ma 2 tone test f 1 = 1.0 ghz, f 2 = 0.99 ghz ne46134 typical output power/intermodulation distortion vs. input power f = 1.0 ghz, v ce = 5 v, i c = 100 ma 2 tone test f 1 = 1.0 ghz, f 2 = 0.99 ghz ne46100, ne46134 intermodulation distortion vs. collector current f = 1.0 ghz, v ce = 10 v ne46100, ne46134 intermodulation distortion vs. collector current f = 1.0 ghz, v ce = 5 v 5 10 50 100 300 10 5 1 0.2 0.5 0 40 80 120 160 0 -10 -20 -30 -40 -50 -60 im 3 im 5 -5 0 5 10 15 20 25 30 40.0 30.0 20.0 10.0 0.0 -10.0 -20.0 -30.0 -40.0 -50.0 1 tone 2 tone im 3 im 5 p out (total) ip 3 32.6 dbm 0 40 80 120 160 0 -10 -20 -30 -40 -50 im 3 im 2 + im2- im 3 : v o = 110 db v/75 ? 2 tone each f = 2 x 190 mhz - 200 mhz im 2 +: v o = 105 db v/75 ? 2 tone each f = 90 mhz + 100 mhz im 2 -: v o = 105 db v/75 ? 2 tone each f = 190 mhz - 90 mhz 10 50 100 300 80 70 60 50 40 0
v ce = 5 v, l c = 50 ma frequency s 11 s 21 s 12 s 22 k mag 2 (mhz) mag ang mag ang mag ang mag ang (db) 100 0.778 -137 26.776 114 0.028 30 0.555 -102 0.16 29.8 200 0.815 -159 14.407 100 0.035 29 0.434 -135 0.36 26.2 500 0.826 -177 5.855 84 0.040 38 0.400 -162 0.75 21.7 800 0.827 176 3.682 76 0.052 43 0.402 -169 0.91 18.5 1000 0.826 173 2.963 71 0.058 47 0.405 -172 1.02 16.3 1200 0.825 170 2.441 66 0.064 47 0.412 -174 1.08 14.0 1400 0.820 167 2.111 61 0.069 47 0.413 -176 1.17 12.4 1600 0.828 165 1.863 57 0.078 54 0.426 -177 1.15 11.4 1800 0.827 162 1.671 53 0.087 50 0.432 -178 1.14 10.6 2000 0.828 159 1.484 49 0.093 50 0.431 -180 1.17 9.5 2500 0.822 153 1.218 39 0.11 48 0.462 177 1.18 7.8 3000 0.818 148 1.010 30 0.135 46 0.490 174 1.16 6.3 3500 0.824 142 0.876 21 0.147 44 0.507 170 1.16 5.3 4000 0.812 137 0.762 13 0.168 38 0.535 167 1.14 4.3 v ce = 5 v, l c = 100 ma 100 0.778 -144 27.669 111 0.027 35 0.523 -114 0.27 30.2 200 0.820 -164 14.559 97 0.029 29 0.445 -144 0.42 27.0 500 0.832 -179 5.885 84 0.035 38 0.435 -166 0.81 22.2 800 0.833 175 3.691 76 0.048 45 0.435 -173 0.95 18.8 1000 0.831 172 2.980 71 0.056 51 0.437 -176 1.05 16.0 1200 0.836 169 2.464 67 0.061 52 0.432 -178 1.11 14.0 1400 0.829 166 2.121 61 0.072 53 0.447 -180 1.12 12.6 1600 0.831 164 1.867 58 0.080 54 0.445 179 1.14 11.4 1800 0.827 161 1.671 54 0.090 53 0.460 178 1.14 10.4 2000 0.830 159 1.499 49 0.096 52 0.456 176 1.15 9.6 2500 0.831 153 1.228 40 0.115 51 0.479 173 1.15 8.0 3000 0.821 147 1.018 31 0.134 48 0.504 170 1.18 6.3 3500 0.820 142 0.881 23 0.155 42 0.516 167 1.14 5.3 4000 0.812 136 0.779 14 0.170 41 0.543 164 1.16 4.2 notes: 1. s-parameters include bond wires. base: total 1 wire, 1 per bond pad, 0.0259" (658 m) long each wire. collector: total 1 wire, 1 per bond pad, 0.0182" (463 m) long each wire. emitter: total 2 wires, 1 per side, 0.0224" (569 m) long each wire. wire: 0.0007" (17.8 m) dia., gold. 2. gain calculations: ne46100, ne46134 typical common emitter scattering parameters 1 (t a = 25 c) coordinates in ohms frequency in ghz v ce = 5 v, i c = 50 ma ne46100 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 | , 0 ? +30 ? +60 ? +90 ? +120 ? +150? 180 ? -150 ? -120 ? -90 ? -60 ? -30 ? s 21 4 ghz s 12 4 ghz s 21 0.1 ghz s 21 0.1 ghz 10 15 20 25 .1 .15 .2 .25 .1 ghz s 22 .1 ghz s 22 4 ghz s 11 4 ghz j100 j50 j25 j10 0 -j10 -j25 -j50 -j100 100 50 10 s 11
typical common emitter scattering parameters 1 (t a = 25 c) ne46100, ne46134 coordinates in ohms frequency in ghz v ce = 8 v, i c = 50 ma ne46100 v ce = 8 v, l c = 50 ma frequency s 11 s 21 s 12 s 22 k mag 2 (mhz) mag ang mag ang mag ang mag ang (db) 100 0.773 -133 27.779 115 0.031 30 0.538 -99 0.20 29.5 200 0.808 -157 15.007 100 0.033 30 0.428 -132 0.36 26.6 500 0.824 -176 6.118 85 0.041 35 0.388 -160 0.70 21.8 800 0.823 177 3.841 76 0.050 42 0.388 -168 0.91 18.8 1000 0.822 173 3.095 71 0.060 50 0.388 -171 0.99 17.2 1200 0.824 170 2.570 67 0.065 48 0.389 -173 1.05 14.6 1400 0.820 167 2.201 61 0.075 46 0.395 -175 1.06 13.2 1600 0.825 165 1.937 57 0.080 49 0.410 -176 1.09 12.0 1800 0.822 162 1.747 53 0.084 48 0.416 -177 1.15 10.9 2000 0.821 160 1.551 49 0.095 50 0.421 -179 1.15 9.8 2500 0.816 154 1.267 39 0.116 50 0.449 177 1.16 8.0 3000 0.817 148 1.051 30 0.128 45 0.474 175 1.17 6.7 3500 0.817 143 0.910 22 0.154 45 0.496 171 1.12 5.6 4000 0.807 137 0.800 13 0.169 40 0.527 168 1.13 4.6 v ce = 8 v, l c = 100 ma 100 0.771 -141 28.901 111 0.025 27 0.507 -109 0.23 30.6 200 0.816 -162 15.323 98 0.028 23 0.434 -142 0.38 27.4 500 0.823 -177 6.183 84 0.038 36 0.417 -165 0.76 22.1 800 0.822 176 3.889 76 0.047 48 0.419 -172 1.01 18.7 1000 0.824 172 3.124 71 0.057 49 0.418 -175 1.02 16.5 1200 0.822 169 2.605 67 0.064 54 0.422 -177 1.09 14.2 1400 0.816 166 2.223 62 0.073 56 0.426 -178 1.15 12.5 1600 0.821 164 1.962 58 0.079 54 0.435 180 1.15 11.6 1800 0.823 161 1.751 54 0.088 54 0.443 179 1.14 10.7 2000 0.823 159 1.563 50 0.097 55 0.438 177 1.17 9.6 2500 0.816 153 1.292 40 0.117 51 0.462 174 1.16 8.0 3000 0.814 148 1.061 31 0.134 48 0.491 171 1.18 6.5 3500 0.820 142 0.927 23 0.154 45 0.501 168 1.12 5.7 4000 0.807 137 0.814 15 0.170 41 0.529 165 1.15 4.4 v ce = 10 v, l c = 50 ma 100 0.780 -132 28.079 115 0.029 46 0.548 -99 0.21 29.8 200 0.809 -156 15.218 100 0.033 29 0.425 -131 0.34 26.7 500 0.819 -175 6.206 85 0.041 34 0.387 -159 0.70 21.8 800 0.817 177 3.888 76 0.048 42 0.386 -168 0.96 19.4 1000 0.821 174 3.136 71 0.060 48 0.385 -170 0.97 17.2 1200 0.821 171 2.596 67 0.063 47 0.388 -173 1.07 14.5 1400 0.814 168 2.236 62 0.068 53 0.394 -174 1.19 12.6 1600 0.819 165 1.976 58 0.075 50 0.401 -176 1.17 11.7 1800 0.816 162 1.769 53 0.084 51 0.413 -178 1.17 10.7 2000 0.819 160 1.565 49 0.094 49 0.416 -179 1.15 9.8 2500 0.815 154 1.290 39 0.116 51 0.439 178 1.14 8.2 3000 0.814 148 1.072 30 0.128 46 0.468 175 1.18 6.7 3500 0.819 143 0.920 22 0.150 44 0.488 173 1.12 5.8 4000 0.806 137 0.803 13 0.168 40 0.519 168 1.14 4.5 see notes on previous page. .1 ghz .1 ghz s 22 4 ghz s 11 4 ghz j100 j50 j25 j10 0 -j10 -j25 -j50 -j100 100 50 10 0 ? +30 ? +60 ? +90 ? +120 ? +150? 180 ? -150 ? -120 ? -90 ? -60 ? -30 ? s 21 4 ghz s 12 4 ghz s 21 0.1 ghz s 21 0.1 ghz 10 15 20 25 .1 .15 .2 .25
typical common emitter scattering parameters 1 (t a = 25 c) ne46100, ne46134 ne46100 v ce = 10 v, i c = 100 ma frequency s 11 s 21 s 12 s 22 k mag 2 (mhz) mag ang mag ang mag ang mag ang (db) 100 0.791 -139 29.278 112 0.027 30 0.508 -109 0.22 30.4 200 0.809 -161 15.503 98 0.027 32 0.433 -140 0.43 27.5 500 0.822 -177 6.280 84 0.037 43 0.414 -165 0.81 22.3 800 0.815 176 3.939 76 0.046 48 0.408 -171 1.02 18.5 1000 0.819 173 3.176 71 0.055 50 0.411 -174 1.05 16.2 1200 0.818 170 2.621 67 0.064 54 0.412 -176 1.11 14.1 1400 0.814 167 2.255 62 0.070 52 0.418 -178 1.16 12.7 1600 0.821 164 1.990 58 0.078 52 0.430 -180 1.14 11.8 1800 0.823 161 1.786 54 0.090 53 0.434 179 1.11 11.0 2000 0.819 159 1.585 50 0.097 52 0.429 177 1.15 9.8 2500 0.816 153 1.304 40 0.113 51 0.458 174 1.18 8.1 3000 0.812 148 1.085 31 0.139 47 0.484 171 1.13 6.7 3500 0.813 142 0.937 23 0.153 45 0.501 168 1.14 5.6 4000 0.802 137 0.824 15 0.168 42 0.520 165 1.18 4.3 v ce = 12.5 v, l c = 50 ma 100 0.759 -129 28.230 116 0.032 30 0.543 -96 0.21 29.5 200 0.806 -155 15.378 101 0.035 31 0.420 -130 0.35 26.4 500 0.815 -175 6.261 85 0.041 34 0.380 -159 0.71 21.9 800 0.813 178 3.926 76 0.052 44 0.379 -167 0.91 18.8 1000 0.814 174 3.179 71 0.058 45 0.375 -171 1.00 17.1 1200 0.816 171 2.629 67 0.067 47 0.382 -172 1.03 14.8 1400 0.810 168 2.266 62 0.071 46 0.385 -174 1.12 12.9 1600 0.817 165 1.993 58 0.079 47 0.400 -175 1.11 12.0 1800 0.816 163 1.770 53 0.087 49 0.408 -176 1.13 10.9 2000 0.817 160 1.592 49 0.090 51 0.408 -178 1.20 9.8 2500 0.811 154 1.301 40 0.109 50 0.441 179 1.20 8.0 3000 0.809 149 1.084 30 0.131 46 0.459 176 1.17 6.7 3500 0.811 143 0.934 22 0.150 45 0.482 172 1.15 5.6 4000 0.803 137 0.816 13 0.166 42 0.514 169 1.17 4.4 v ce = 12.5 v, l c = 100 ma 100 0.785 -138 29.375 112 0.027 25 0.510 -109 0.21 30.4 200 0.804 -160 15.593 98 0.030 32 0.421 -140 0.43 27.1 500 0.814 -177 6.318 84 0.040 42 0.401 -164 0.78 22.0 800 0.809 176 3.951 76 0.048 48 0.398 -171 1.02 18.3 1000 0.815 173 3.193 71 0.057 52 0.400 -174 1.05 16.1 1200 0.813 170 2.656 67 0.060 53 0.403 -177 1.17 14.0 1400 0.811 167 2.264 62 0.073 51 0.411 -178 1.13 12.7 1600 0.818 164 1.997 58 0.076 55 0.416 -180 1.19 11.6 1800 0.814 162 1.797 54 0.090 54 0.421 180 1.14 10.7 2000 0.813 160 1.613 49 0.094 50 0.424 178 1.18 9.8 2500 0.805 154 1.316 40 0.113 52 0.442 175 1.22 7.9 3000 0.813 148 1.091 31 0.133 46 0.470 172 1.15 6.7 3500 0.807 142 0.948 23 0.156 45 0.481 169 1.15 5.5 4000 0.802 137 0.826 14 0.164 40 0.510 166 1.19 4.4 notes: 1. s-parameters include bond wires. base: total 1 wire, 1 per bond pad, 0.0259" (658 m) long each wire. collector: total 1 wire, 1 per bond pad, 0.0182 ? (463 m) long each wire. emitter: total 2 wires, 1 per side, 0.0224" (569 m) long each wire. wire: 0.0007" (17.8 m) dia., gold. 2. 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 | ,
0.05 0.425 -99.7 32.606 124.1 0.026 62.0 0.578 -62.5 0.50 30.9 0.10 0.412 -136.7 18.679 105.2 0.037 62.5 0.358 -86.9 0.74 27.1 0.20 0.393 -166.1 9.787 91.7 0.060 64.4 0.230 -109.0 0.95 22.2 0.40 0.385 171.3 4.993 78.6 0.107 67.5 0.186 -126.9 1.05 15.3 0.60 0.387 156.0 3.382 69.5 0.154 65.9 0.188 -133.0 1.07 11.7 0.80 0.392 143.7 2.587 61.2 0.201 62.7 0.202 -135.1 1.08 9.4 1.00 0.392 133.1 2.123 53.7 0.245 58.8 0.221 -136.0 1.07 7.8 1.20 0.397 122.5 1.822 46.5 0.288 54.5 0.244 -136.4 1.06 6.5 1.40 0.391 113.1 1.620 39.8 0.327 50.1 0.271 -136.9 1.05 5.6 1.60 0.382 103.9 1.449 33.6 0.363 45.6 0.300 -137.3 1.05 4.7 1.80 0.375 95.6 1.325 28.4 0.394 41.8 0.328 -139.0 1.04 4.0 2.00 0.372 85.9 1.239 23.2 0.428 37.6 0.352 -139.7 1.03 3.5 2.20 0.359 76.6 1.161 17.8 0.456 33.3 0.378 -140.3 1.03 3.0 2.40 0.348 67.0 1.100 13.3 0.482 29.2 0.400 -141.1 1.02 2.6 2.50 0.340 61.9 1.075 11.2 0.494 27.3 0.411 -141.4 1.02 2.4 typical common emitter scattering parameters (t a = 25 c) coordinates in ohms frequency in ghz v ce = 5 v, i c = 50 ma ne46134 v ce = 5 v, i c = 50 ma frequency s 11 s 21 s 12 s 22 k mag 2 (ghz) mag ang mag ang mag ang mag ang (db) see notes on previous page. ne46100, ne46134 0.05 0.388 -112.1 34.051 120.8 0.022 64.0 0.523 -69.6 0.59 31.9 0.10 0.394 -146.4 18.931 103.0 0.035 65.0 0.324 -95.6 0.82 27.3 0.20 0.381 171.4 9.827 90.6 0.060 68.3 0.221 -119.6 0.98 22.1 0.40 0.384 168.4 5.002 78.2 0.111 69.5 0.189 -137.1 1.05 15.2 0.60 0.384 153.8 3.389 69.4 0.161 67.0 0.192 -142.3 1.07 11.6 0.80 0.389 141.8 2.595 61.3 0.209 63.1 0.203 -143.6 1.07 9.3 1.00 0.388 131.1 2.135 54.0 0.256 58.8 0.219 -143.5 1.06 7.7 1.20 0.389 120.2 1.833 46.9 0.300 54.2 0.239 -142.9 1.05 6.4 1.40 0.383 110.8 1.634 40.3 0.341 49.5 0.263 -142.4 1.04 5.5 1.60 0.373 101.1 1.464 33.9 0.377 44.8 0.290 -141.9 1.04 4.6 1.80 0.364 92.8 1.340 28.7 0.409 40.8 0.316 -142.9 1.04 3.9 2.00 0.359 82.9 1.257 23.5 0.443 36.4 0.338 -143.0 1.03 3.4 2.20 0.346 73.2 1.180 18.1 0.471 32.0 0.362 -143.1 1.03 3.0 2.40 0.334 63.2 1.121 13.4 0.497 27.7 0.384 -143.3 1.03 2.6 2.50 0.327 57.8 1.092 11.4 0.508 25.7 0.394 -143.4 1.03 2.3 v ce = 5 v, l c = 100 ma v ce = 8 v, l c = 50 ma 0.05 0.439 -95.9 33.732 125.2 0.024 61.2 0.594 -58.7 0.48 31.4 0.10 0.397 -133.0 19.510 106.0 0.036 62.2 0.363 -81.0 0.74 27.4 0.20 0.368 -162.9 10.263 92.2 0.058 65.1 0.227 -100.6 0.95 22.5 0.40 0.364 172.4 5.239 79.1 0.103 68.1 0.176 -117.2 1.05 15.7 0.60 0.363 156.6 3.545 70.0 0.150 66.3 0.178 -123.5 1.07 12.1 0.80 0.369 143.8 2.706 61.7 0.195 63.1 0.193 -126.3 1.07 9.8 1.00 0.368 132.9 2.216 54.3 0.238 59.3 0.215 -128.0 1.07 8.1 1.20 0.375 121.7 1.896 46.9 0.279 55.1 0.241 -129.2 1.06 6.8 1.40 0.371 112.8 1.681 40.3 0.319 50.8 0.270 -130.5 1.05 5.9 1.60 0.365 103.2 1.499 34.0 0.353 46.3 0.302 -131.7 1.04 5.0 1.80 0.360 94.9 1.368 28.9 0.384 42.6 0.331 -133.9 1.04 4.3 2.00 0.357 85.1 1.274 23.7 0.417 38.4 0.358 -135.1 1.03 3.8 2.20 0.345 75.4 1.191 18.1 0.445 34.2 0.385 -136.2 1.03 3.3 2.40 0.335 65.8 1.126 13.6 0.470 30.2 0.409 -137.3 1.02 2.9 2.50 0.331 60.7 1.094 11.7 0.482 28.3 0.421 -137.8 1.02 2.7 +120? +150? 180? +90? +60? +30? -120? -150? -90? -60? -30? 0? s 21 .05 ghz s 21 2.5 ghz s 12 .05 ghz s 12 2.5 ghz j50 j25 j10 0 -j10 -j25 -j50 -j100 j100 s 11 .05 ghz s 22 .05 ghz s 11 2.5 ghz s 22 2.5 ghz
typical common emitter scattering parameters (t a = 25 c) ne46100, ne46134 ne46134 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 | , mag = maximum available gain msg = maximum stable gain frequency s 11 s 21 s 12 s 22 k mag 2 (ghz) mag ang mag ang mag ang mag ang (db) notes: 1. the ne41634 was measured with the package mounted on a 0.030" thick rt duroid 5880 substrate. to avoid exceeding t j max when using poor thermal conducting substrates, use of a heat sink is recommended. for example: the thermalloy 7100d series heat sink or thermal equivalent may be suitable. the above s parameters were measured without heat sink. 2. gain calculations: v ce = 10 v, l c = 50 ma 0.05 0.366 -103.2 35.884 122.0 0.022 60.3 0.533 -65.3 0.59 32.2 0.10 0.374 -141.4 20.121 103.8 0.033 64.0 0.329 -89.2 0.81 27.8 0.20 0.361 -168.7 10.486 91.2 0.058 68.5 0.214 -110.9 0.97 22.6 0.40 0.358 169.1 5.335 78.8 0.106 69.7 0.175 -128.0 1.05 15.7 0.60 0.363 154.2 3.610 70.1 0.154 67.3 0.179 -133.6 1.06 12.2 0.80 0.368 141.6 2.755 62.0 0.200 63.6 0.193 -135.3 1.07 9.8 1.00 0.369 130.7 2.257 54.7 0.245 59.4 0.211 -135.8 1.06 8.1 1.20 0.372 120.0 1.933 47.8 0.287 55.0 0.235 -135.9 1.05 6.9 1.40 0.366 110.4 1.713 41.1 0.327 50.4 0.262 -136.1 1.04 5.9 1.60 0.359 100.9 1.532 34.8 0.362 45.8 0.291 -136.3 1.04 5.0 1.80 0.353 92.4 1.397 29.7 0.393 41.9 0.319 -137.9 1.04 4.3 2.00 0.350 82.8 1.305 24.4 0.426 37.6 0.344 -138.5 1.03 3.8 2.20 0.339 73.3 1.220 19.0 0.453 33.3 0.370 -139.0 1.03 3.3 2.40 0.329 63.5 1.153 14.4 0.478 29.2 0.393 -139.7 1.02 2.9 2.50 0.324 58.2 1.120 12.3 0.490 27.2 0.403 -140.0 1.03 2.6 0.05 0.377 -101.0 36.164 122.1 0.022 66.4 0.536 -63.9 0.58 32.2 0.10 0.358 -139.9 20.301 103.9 0.034 66.5 0.327 -87.1 0.82 27.8 0.20 0.345 -167.5 10.586 91.2 0.058 68.1 0.209 -108.1 0.97 22.6 0.40 0.342 169.7 5.386 78.8 0.107 69.8 0.169 -125.0 1.05 15.7 0.60 0.349 154.1 3.646 70.1 0.155 67.3 0.173 -130.6 1.06 12.2 0.80 0.350 141.2 2.782 62.0 0.202 63.5 0.187 -132.5 1.06 9.8 1.00 0.351 130.1 2.278 54.8 0.247 59.3 0.206 -133.1 1.06 8.1 1.20 0.356 119.1 1.952 47.6 0.289 54.8 0.230 -133.3 1.05 6.9 1.40 0.350 109.5 1.729 41.0 0.329 50.2 0.258 -133.7 1.04 5.9 1.60 0.342 100.0 1.543 34.8 0.364 45.7 0.289 -134.1 1.04 5.0 1.80 0.337 91.1 1.409 29.6 0.395 41.6 0.318 -136.0 1.04 4.3 2.00 0.333 80.8 1.316 24.4 0.428 37.3 0.343 -136.6 1.03 3.8 2.20 0.323 70.8 1.229 18.8 0.455 33.0 0.370 -137.3 1.03 3.3 2.40 0.312 60.8 1.163 14.4 0.481 28.9 0.394 -138.1 1.02 2.9 2.50 0.308 55.2 1.132 12.2 0.492 26.9 0.406 -138.5 1.02 2.7 0.50 0.416 -90.3 34.060 125.4 0.025 60.6 0.589 -58.0 0.52 31.4 0.10 0.393 -132.0 19.738 106.2 0.035 60.6 0.365 -79.9 0.74 27.5 0.20 0.361 -162.4 10.390 92.3 0.057 65.0 0.226 -99.1 0.95 22.6 0.40 0.356 172.5 5.308 79.2 0.103 68.1 0.174 -115.3 1.05 15.8 0.60 0.356 156.9 3.589 70.1 0.149 66.3 0.176 -121.7 1.07 12.2 0.80 0.362 143.8 2.738 61.8 0.194 63.1 0.192 -124.7 1.07 9.9 1.00 0.365 132.9 2.241 54.4 0.237 59.3 0.213 -126.4 1.07 8.2 1.20 0.369 121.8 1.915 47.2 0.278 55.2 0.240 -127.8 1.06 6.9 1.40 0.363 112.5 1.698 40.5 0.317 50.9 0.269 -129.3 1.05 6.0 1.60 0.356 102.9 1.514 34.2 0.351 46.4 0.302 -130.5 1.05 5.0 1.80 0.354 94.7 1.380 29.0 0.382 42.7 0.332 -132.9 1.04 4.3 2.00 0.352 85.1 1.284 23.7 0.415 38.5 0.358 -134.2 1.03 3.9 2.20 0.341 75.1 1.200 18.3 0.442 34.4 0.386 -135.3 1.03 3.4 2.40 0.331 65.6 1.133 13.8 0.468 30.3 0.411 -136.5 1.02 3.0 2.50 0.324 60.5 1.101 11.8 0.479 28.4 0.422 -137.0 1.02 2.7 v ce = 10 v, l c = 100 ma v ce = 8 v, l c = 100 ma
typical common emitter scattering parameters (t a = 25 c) ne46100, ne46134 coordinates in ohms frequency in ghz v ce = 12.5 v, i c = 50 ma frequency s 11 s 21 s 12 s 22 k mag 2 (ghz) mag ang mag ang mag ang mag ang (db) ne46134 0.05 0.432 -91.9 34.139 125.6 0.024 63.0 0.586 -56.7 0.50 31.5 0.10 0.372 -129.4 19.834 106.3 0.036 63.5 0.362 -78.4 0.75 27.4 0.20 0.348 -161.2 10.443 92.4 0.058 65.4 0.223 -97.1 0.95 22.6 0.40 0.343 173.5 5.332 79.3 0.104 68.1 0.170 -112.8 1.05 15.8 0.60 0.343 157.1 3.610 70.1 0.150 66.3 0.172 -119.3 1.07 12.2 0.80 0.349 143.8 2.755 61.8 0.196 63.1 0.188 -122.4 1.07 9.9 1.00 0.352 132.4 2.254 54.4 0.239 59.2 0.210 -124.2 1.07 8.2 1.20 0.353 121.2 1.927 47.1 0.280 55.0 0.236 -125.8 1.06 6.9 1.40 0.350 111.6 1.710 40.4 0.320 50.7 0.267 -127.4 1.05 6.0 1.60 0.343 101.9 1.523 34.0 0.354 46.2 0.300 -128.9 1.04 5.0 1.80 0.339 93.1 1.388 29.0 0.385 42.4 0.330 -131.5 1.04 4.3 2.00 0.336 83.3 1.295 23.5 0.418 38.2 0.357 -132.7 1.03 3.9 2.20 0.325 73.3 1.206 18.1 0.445 34.0 0.386 -134.0 1.03 3.3 2.40 0.318 63.0 1.140 13.6 0.471 29.9 0.411 -135.3 1.02 3.0 2.50 0.314 57.3 1.109 11.7 0.482 28.0 0.423 -135.9 1.02 2.7 0.05 0.380 -100.0 36.475 122.4 0.021 64.3 0.530 -62.6 0.59 32.4 0.10 0.355 -137.9 20.531 104.1 0.033 65.0 0.324 -86.1 0.82 27.9 0.20 0.341 -167.1 10.702 91.3 0.058 68.3 0.208 -106.6 0.97 22.7 0.40 0.338 170.0 5.446 79.0 0.106 69.6 0.167 -123.6 1.05 15.8 0.60 0.339 154.4 3.684 70.2 0.154 67.2 0.170 -129.1 1.06 12.3 0.80 0.344 141.3 2.812 62.1 0.201 63.5 0.185 -131.1 1.06 9.9 1.00 0.346 130.1 2.302 54.9 0.246 59.3 0.204 -131.7 1.06 8.2 1.20 0.349 119.2 1.971 47.8 0.288 54.9 0.229 -132.1 1.05 7.0 1.40 0.345 109.4 1.748 41.2 0.327 50.3 0.257 -132.7 1.04 6.0 1.60 0.336 99.7 1.557 34.9 0.362 45.7 0.288 -133.1 1.04 5.1 1.80 0.330 91.1 1.420 29.7 0.393 41.7 0.317 -135.0 1.04 4.3 2.00 0.328 80.3 1.324 24.6 0.426 37.4 0.343 -135.8 1.03 3.8 2.20 0.320 70.4 1.240 19.0 0.453 33.1 0.370 -136.5 1.03 3.4 2.40 0.309 60.2 1.170 14.4 0.478 29.0 0.395 -137.3 1.02 2.9 2.50 0.305 54.5 1.140 12.2 0.489 27.0 0.406 -137.8 1.02 2.7 v ce = 12.5 v, l c = 50 ma v ce = 12.5 v, l c = 100 ma +120? +150? 180? +90? +60? +30? -120? -150? -90? -60? -30? 0? s 21 .05 ghz s 21 2.5 ghz s 12 .05 ghz s 12 2.5 ghz j50 j25 j10 0 -j10 -j25 -j50 -j100 j100 s 11 .05 ghz s 22 .05 ghz s 11 2.5 ghz s 22 2.5 ghz see notes on previous page
outline dimensions 46100 (chip) (units in m) thickness: 160 m bottom view top view lot number identifier part number identifier package outline 34 (sot-89) (units in mm) ne46100, ne46134 part number quantity packaging ne46100 100 waffle pack NE46134-T1-AZ 1000 tape & reel ordering information q x x x b c e 0.8 min 0.42 0.06 4.5 0.1 1.6 0.2 1.5 1.5 0.47 0.06 0.42 0.06 2.5 0.1 4.0 0.25 1.5 0.1 +0.03 - 0.05 0.41 3 2 1 e b c 450 115 85 190 e b 65 65 240 550 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 com p ound semiconductor devices, ltd . 07/30/2003
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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