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| agilent mga-62563 current-adjustable, low noise amplifier data sheet description agilent�s mga-62563 is an economical, easy-to-use gaas mmic amplifier that offers excellent linearity and low noise figure for applications from 0.1 to 3 ghz. packaged in an minia- ture sot-363 package, it requires half the board space of a sot-143 package. one external resistor is used to set the bias current taken by the device over a wide range. this allows the designer to use the same part in several circuit positions and tailor the linearity performance (and current consumption) to suit each posi- tion. the mga-62563 is normally operating with id set in the 20- 80ma range the output of the amplifier is matched to 50 ? (below 2:1 vswr) across the entire band- width and only requires mini- mum input matching. the ampli- fier allows a wide dynamic range by offering a 0.9 db nf coupled with a +32.9 dbm output ip3. the circuit uses state-of-the-art e-phemt technology with proven reliability. on-chip bias circuitry allows operation from a single +3 v or +5v power supply. features ? single +3v or +5v supply ? high linearity ? low noise figure ? miniature package ? lead-free option available specifications at 500 mhz; 3v, 60 ma (typ.) ? 0.9 db noise figure ? 32.9 dbm oip3 ? 22 db gain ? 17.8 dbm p 1db pin connections and package marking note: package marking provides orientation and identification: 62 = device code x = date code indicates the month of manufacture. mga-86563 pkg outpu t and v d gnd 62x gnd gnd input 1 2 3 6 5 4 bias attention: observe precautions for handling electrostatic sensitive devices. esd machine model (class a) esd human body model (class 1a) refer to agilent application note a004r: electrostatic discharge damage and control.
2 mga-62563 absolute maximum ratings [1] absolute symbol parameter units maximum v d device voltage (pin 6) [2] v6 i d device current (pin 6) [2] ma 100 p in cw rf input power (pin 3) [3] dbm 21 i ref bias reference current (pin 4) ma 12 p diss total power dissipation [4] mw 600 t ch channel temperature c 150 t stg storage temperature c 150 ch_b thermal resistance [5] c/w 97 notes: 1. operation of this device above any one of these parameters may cause permanent damage. 2. bias is assumed at dc quiescent conditions. 3. with the dc (typical bias) and rf applied to the device at board temperature t b = 25 c. 4. total dissipation power is referred to lead "5" temperature. tc=92 c, derate pdiss at 10.3mw/ c for tc>92 c. 5. thermal resistance measured using 150 c liquid crystal measurement method. figure 1a. test circuit of the 0.5 ghz production test board used for nf, gain and oip3 measure- ments. this circuit achieves a trade-off between optimal nf, gain, oip3 and input return loss. circuit losses have been de-embedded from actual measurements. + _ 6.8 nh 100 pf 3 1 25 6 4 100 pf mga-62563 47 nh 68 pf 10 nf 3v 240 ? feedback id = i ds + i bias i bias i ds vd bias 1, 2, 5 4 3 r bias v bias input match 6 simplified schematic 3 note: 1. measured on the production test circuit 2. distribution data sample size is 250 samples taken from 5 different wafers. future wafers allocated to this product may have nominal values anywhere between upper and lower limits product consistency distribution charts at 3 v, 0.5 ghz, r bias = 240 ? [1, 2] figure 2. nf @ 0.5 ghz 3v 60 ma. usl=1.4, nominal=0.93. nf (db) frequency 0.6 0.8 1.4 150 120 90 60 30 0 1 1.2 cpk=2.45 stdev=0.06 +3 std figure 3. gain @ 0.5 ghz 3v 60 ma. usl=23.4, nominal=20.4, usl=22.0. gain (db) frequency 19 20 24 150 120 90 60 30 0 23 21 22 cpk=1.3 stdev=0.36 -3 std +3 std figure 4. oip3 @ 0.5 ghz 3v 60 ma. lsl=30, nominal=32.9. oip3 (dbm) frequency 29 30 32 35 120 100 80 60 40 20 0 31 33 34 cpk=1.9 stdev=0.51 -3 std figure 5. id @ 3v. lsl=47, nominal=77, usl=62.0. id (ma) frequency 47 52 62 77 120 100 80 60 40 20 0 57 67 72 cpk=2.39 stdev=2.09 -3 std +3 std figure 6. rbias vs. i d (3v supply). i d (ma) rbias (ohm) 090 10 20 40 50 70 80 30 60 2800 2600 2400 2200 2000 1800 1600 1400 1200 1000 800 600 400 200 0 figure 7. rbias vs. i d (5v supply). i d (ma) rbias (ohm) 090 10 20 40 50 70 80 30 60 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 wire supplying vbias from agilent 4142 direct to ground direct to ground 62x rf input blocking cap bias rf output 62x reference planes bias tee vdd supply from agilent 4142 figure 1b. a diagram showing the connection to the dut during an s and noise parameter mea- surement using an automated tuner system. 4 mga-62563 electrical specifications rbias=240ohm t c = 25 c, z o = 50 ? , v d = 3v (unless otherwise specified) symbol parameters and test conditions freq units min. typ. max. std dev id [1,2] device current ma 47 62 77 2.09 nf test [1,2] noise figure in test circuit [1] f = 0.5 ghz db 0.93 1.4 0.06 g test [1,2] associated gain in test circuit [1] f = 0.5 ghz db 20.4 22 23.4 0.36 oip3 test [1,2] ouput 3 rd order intercept in test circuit [1] f = 0.5 ghz dbm 30 32.9 0.51 oip3 50 ? [3] output 3 rd order intercept point in 50 ? system f = 0.1 ghz dbm 34.7 f = 0.2 ghz 34.7 f = 0.5 ghz 34.8 f = 1.0 ghz 33.5 0.51 f = 1.5 ghz 33 f = 2.0 ghz 32.3 f = 2.5 ghz 32 f = 3.0 ghz 31 p1db 50 ? [3] output power at 1db gain compression in 50 ? system f = 0.1 ghz dbm 18 f = 0.2 ghz 18 f =0.5 ghz 18 f = 1.0 ghz 17.6 f = 1.5 ghz 17.6 f = 2.0 ghz 17.7 f = 2.5 ghz 17.9 f = 3.0 ghz 17.7 notes: 1. guaranteed specifications are 100% tested in the production test circuit as shown in figure 1, the typical value is based on measurement of at least 500 parts from three non-consecutive wafer lots during initial characterization of this product. 2. circuit achieved a trade-off between optimal nf, gain, oip3 and input return loss. 3. parameter quoted at 50 ? is based on measurement of selected typical parts tested on a 50 ? input and output test fixture. 5 mga-62563 typical performance, v d = 3v, i ds = 60 ma at 50 ? input and output figure 8. gain vs. frequency (3v 60 ma). frequency (mhz) gain (db) 0 3000 500 1000 1500 2000 2500 25 20 15 10 5 0 -40 c 25 c 85 c figure 10. oip3 vs frequency (3v 60ma) frequency (mhz) oip3 (dbm) 0 3000 500 1000 1500 2000 2500 37 35 33 31 29 27 -40 c 25 c 85 c figure 11. op1db vs. frequency (3v 60 ma). frequency (mhz) op1db (dbm) 0 3000 500 1000 1500 2000 2500 24 22 20 18 16 14 -40 c 25 c 85 c figure 9. nf vs. frequency (3v 60 ma). frequency (mhz) nf (db) 0 3000 500 1000 1500 2000 2500 2 1.5 1 0.5 0 -40 c 25 c 85 c 6 mga-62563 typical performance, v d = 3v, i ds = 30 ma at 50 ? input and output figure 12. gain vs. frequency (3v 30 ma). frequency (mhz) gain (dbm) 0 3000 500 1000 1500 2000 2500 25 20 15 10 5 -40 c 25 c 85 c figure 13. nf vs. frequency (3v 30 ma). frequency (mhz) nf (dbm) 0 3000 500 1000 1500 2000 2500 2 1.5 1 0.5 0 -40 c 25 c 85 c figure 14. oip3 vs. frequency (3v 30 ma). frequency (mhz) oip3 (dbm) 0 3000 500 1000 1500 2000 2500 32 30 28 26 24 22 -40 c 25 c 85 c figure 15. op1db vs. frequency (3v 30 ma). frequency (mhz) op1db (dbm) 0 3000 500 1000 1500 2000 2500 22 20 18 16 14 12 -40 c 25 c 85 c 7 mga-62563 typical performance, v d = 5v, i ds = 60 ma at 50 ? input and output figure 16. gain vs. frequency (5v 60 ma). frequency (mhz) gain (dbm) 0 3000 500 1000 1500 2000 2500 25 20 15 10 5 -40 c 25 c 85 c figure 17. nf vs. frequency (5v 60 ma). frequency (mhz) gain (db) 0 3000 500 1000 1500 2000 2500 2 1.5 1 0.5 0 -40 c 25 c 85 c figure 18. oip3 vs. frequency (5v 60 ma). frequency (mhz) oip3 (dbm) 0 3000 500 1000 1500 2000 2500 45 41 37 33 29 25 -40 c 25 c 85 c figure 19. op1db vs. frequency (5v 60 ma). frequency (mhz) op1db (dbm) 0 3000 500 1000 1500 2000 2500 25 23 21 19 17 15 -40 c 25 c 85 c 8 mga-62563 typical performance, v d = 5v, i ds = 30 ma at 50 ? input and output figure 20. gain vs. frequency (5v 30 ma). frequency (mhz) gain (dbm) 0 3000 500 1000 1500 2000 2500 25 20 15 10 5 -40 c 25 c 85 c figure 21. nf vs. frequency (5v 30 ma). frequency (mhz) nf (db) 0 3000 500 1000 1500 2000 2500 2 1.5 1 0.5 0 -40 c 25 c 85 c figure 22. oip3 vs. frequency (5v 30 ma). frequency (mhz) oip3 (dbm) 0 3000 500 1000 1500 2000 2500 33 31 29 27 25 23 -40 c 25 c 85 c figure 23. op1db vs. frequency (5v 30 ma). frequency (mhz) op1db (db) 0 3000 500 1000 1500 2000 2500 22 20 18 16 14 12 -40 c 25 c 85 c 9 mga-62563 typical performance, freq=0.5 ghz, t c =25 c at 50 ? input and output figure 24. gain vs. id (500 mhz). id (ma) gain (db) 0 100 20 40 60 80 35 30 25 20 15 10 3v 5v figure 25. nf vs. id (500 mhz). id (ma) nf (db) 0 100 20 40 60 80 2 1.5 1 0.5 0 3v 5v figure 26. oip3 vs. id (500 mhz). id (ma) oip3 (dbm) 0 100 20 40 60 80 40 35 30 25 20 15 3v 5v figure 27. op1db vs. id (500 mhz). id (ma) op1db (dbm) 0 100 20 40 60 80 30 25 20 15 10 5 3v 5v 10 mga-62563 typical performance, freq=0.1 ghz, t c =25 c at 50 ? input and output figure 28. gain vs. id (100 mhz). id (ma) gain (db) 0 100 20 40 60 80 30 25 20 15 10 5 3v 5v figure 29. nf vs. id (100 mhz). id (ma) nf (db) 0 100 20 40 60 80 2 1.5 1 0.5 0 3v 5v figure 30. oip3 vs. id (100 mhz). id (ma) oip3 (dbm) 0 100 20 40 60 80 45 40 35 30 25 20 3v 5v figure 31. op1db vs. id (100 mhz). id (ma) op1db (dbm) 0 100 20 40 60 80 30 25 20 15 10 5 3v 5v 11 mga-62563 typical scattering parameters, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 60 ma freq. s 11 s 21 s 12 s 22 k-factor ghz mag. ang. db mag. ang. mag. ang. mag. ang. 0.1 0.185 -82.272 22.91 13.982 155.827 0.042 5.4 0.129 -164.437 1.09 0.2 0.187 -90.11 22.63 13.537 153.346 0.042 5.474 0.135 -168.363 1.1 0.3 0.193 -98.147 22.31 13.054 150.578 0.042 5.636 0.141 -172.09 1.12 0.4 0.203 -106.14 21.97 12.545 147.524 0.042 5.912 0.148 -175.737 1.15 0.5 0.217 -114.27 21.57 11.986 143.942 0.042 6.346 0.154 -179.503 1.17 0.6 0.233 -121.367 21.18 11.459 140.212 0.041 6.892 0.159 177.105 1.22 0.7 0.252 -127.882 20.78 10.945 136.065 0.041 7.583 0.163 173.986 1.25 0.8 0.272 -133.795 20.39 10.457 131.465 0.041 8.43 0.167 171.256 1.27 0.9 0.295 -138.842 20.02 10.021 126.434 0.041 9.417 0.171 168.886 1.3 1 0.317 -143.232 19.66 9.611 121.342 0.042 10.645 0.173 167.409 1.3 1.1 0.34 -147.643 19.26 9.179 116.107 0.042 12.083 0.175 166.393 1.32 1.2 0.358 -151.668 18.87 8.78 111.387 0.042 13.52 0.177 165.719 1.35 1.3 0.371 -154.625 18.48 8.397 106.965 0.043 14.99 0.172 164.894 1.36 1.4 0.378 -156.903 18.1 8.035 102.832 0.044 16.437 0.163 164.215 1.38 1.5 0.385 -159.101 17.71 7.684 98.886 0.045 17.798 0.153 164.02 1.4 1.6 0.392 -161.727 17.32 7.349 95.185 0.046 19.056 0.144 163.07 1.42 1.7 0.397 -164.752 16.92 7.015 91.424 0.048 20.227 0.132 162.822 1.42 1.8 0.4 -167.685 16.55 6.72 88.093 0.049 21.207 0.122 162.927 1.44 1.9 0.4 -170.686 16.19 6.446 84.931 0.051 22.085 0.113 163.177 1.44 2 0.4 -173.615 15.84 6.195 81.892 0.052 22.821 0.104 163.203 1.47 2.5 0.401 171.986 14.29 5.184 67.423 0.063 24.202 0.059 160.575 1.46 3 0.391 153.64 12.93 4.432 53.871 0.074 22.323 0.029 162.52 1.46 3.5 0.418 141.02 11.87 3.923 39.725 0.088 16.919 0.024 14.44 1.37 4 0.461 127.008 10.81 3.472 26.244 0.099 11.289 0.043 17.922 1.32 4.5 0.548 119.58 9.83 3.1 11.923 0.108 4.074 0.083 3.197 1.22 5 0.615 105.771 8.73 2.733 -1.958 0.119 -3.141 0.057 18.181 1.14 5.5 0.674 97.228 7.69 2.425 -13.281 0.126 -10.835 0.026 -8.344 1.05 6 0.701 85.967 7.26 2.308 -24.509 0.131 -17.126 0.096 123.432 1.01 6.5 0.698 77.659 6.44 2.099 -35.324 0.138 -24.617 0.165 105.103 1.06 7 0.69 66.448 6.33 2.072 -47.318 0.145 -31.049 0.259 92.547 1.06 7.5 0.677 55.492 5.55 1.895 -59.77 0.15 -39.087 0.284 78.001 1.14 8 0.673 45.318 5.18 1.816 -68.839 0.157 -45.822 0.294 70.774 1.14 9 0.718 26.713 4.61 1.701 -88.8 0.167 -62.304 0.323 48.33 1.07 10 0.778 15.285 4.14 1.61 -104.215 0.168 -76.006 0.364 24.415 0.99 figure 32. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 30 25 20 15 10 5 0 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.79 0.08 57.8 0.12 0.8 1 0.65 0.07 168.2 0.07 0.65 1.5 0.76 0.12 -176.7 0.07 0.77 2 0.87 0.13 149.3 0.08 0.89 2.5 0.93 0.16 -179 0.08 0.97 3 0.96 0.23 -164.8 0.08 1.06 3.5 1.11 0.24 -150 0.09 1.22 4 1.28 0.27 -142.7 0.11 1.43 4.5 1.36 0.33 -133.7 0.12 1.61 5 1.44 0.38 -123 0.15 1.79 5.5 1.47 0.43 -114 0.19 1.97 6 1.63 0.45 -103.6 0.25 2.2 6.5 1.69 0.5 -94.5 0.34 2.47 7 1.77 0.54 -85.3 0.43 2.71 7.5 1.94 0.58 -75.1 0.57 3.08 8 2.07 0.6 -64.9 0.77 3.42 8.5 2.25 0.64 -54.6 1 3.89 9 2.4 0.67 -45.9 1.28 4.31 9.5 2.25 0.75 -39.2 1.6 4.77 10 2.44 0.74 -34 1.91 5.14 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 60 ma 12 mga-62563 typical scattering parameters, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 30 ma freq. s 11 s 21 s 12 s 22 k-factor ghz mag. ang. db mag. ang. mag. ang. mag. ang. 0.1 0.229 -64.839 21.81 12.314 156.524 0.049 5.851 0.088 -127.44 1.06 0.2 0.225 -72.068 21.54 11.942 153.986 0.049 5.688 0.093 -135.628 1.08 0.3 0.224 -80.018 21.24 11.537 151.158 0.049 5.569 0.1 -143.242 1.09 0.4 0.227 -88.494 20.91 11.11 148.033 0.049 5.526 0.108 -150.147 1.11 0.5 0.234 -97.66 20.54 10.643 144.386 0.048 5.588 0.116 -156.622 1.15 0.6 0.246 -106.065 20.17 10.202 140.583 0.048 5.738 0.125 -161.903 1.17 0.7 0.261 -113.999 19.8 9.774 136.408 0.048 6.002 0.133 -166.307 1.19 0.8 0.28 -121.285 19.43 9.369 131.811 0.048 6.379 0.141 -169.879 1.22 0.9 0.302 -127.551 19.1 9.012 126.834 0.048 6.887 0.15 -172.861 1.23 1 0.324 -133.004 18.77 8.676 121.818 0.049 7.629 0.158 -174.888 1.23 1.1 0.348 -138.366 18.4 8.322 116.64 0.049 8.559 0.166 -176.589 1.24 1.2 0.367 -143.111 18.05 7.993 111.957 0.049 9.506 0.174 -178.07 1.26 1.3 0.38 -146.63 17.69 7.669 107.573 0.05 10.548 0.174 -179.151 1.27 1.4 0.39 -149.336 17.33 7.356 103.466 0.051 11.645 0.168 -179.685 1.28 1.5 0.399 -151.941 16.97 7.052 99.534 0.052 12.668 0.162 -179.868 1.29 1.6 0.407 -154.928 16.6 6.758 95.851 0.053 13.646 0.156 179.214 1.31 1.7 0.413 -158.278 16.21 6.466 92.108 0.054 14.581 0.148 179.163 1.33 1.8 0.416 -161.47 15.86 6.207 88.778 0.055 15.393 0.141 179.311 1.35 1.9 0.418 -164.666 15.51 5.965 85.613 0.057 16.142 0.134 179.509 1.36 2 0.417 -167.751 15.18 5.744 82.561 0.058 16.791 0.128 179.436 1.38 2.5 0.422 177.274 13.71 4.848 67.999 0.068 18.161 0.089 176.954 1.4 3 0.412 158.337 12.41 4.174 54.232 0.079 16.464 0.062 176.77 1.42 3.5 0.442 144.969 11.39 3.71 39.961 0.092 11.54 0.015 130.879 1.35 4 0.486 129.994 10.34 3.287 26.316 0.102 6.16 0.028 68.898 1.32 4.5 0.573 121.597 9.35 2.935 11.973 0.111 -0.792 0.063 24.183 1.21 5 0.638 107.123 8.25 2.585 -2.051 0.122 -7.727 0.057 50.418 1.13 5.5 0.696 98.232 7.18 2.285 -13.425 0.128 -15.159 0.026 55.253 1.05 6 0.721 86.681 6.73 2.169 -24.666 0.131 -21.346 0.124 119.497 1 6.5 0.713 78.214 5.85 1.961 -35.535 0.139 -28.725 0.191 103.907 1.06 7 0.704 66.96 5.7 1.927 -47.61 0.146 -34.963 0.287 91.799 1.06 7.5 0.687 55.912 4.88 1.753 -60.15 0.15 -42.644 0.31 77.221 1.16 8 0.68 45.807 4.47 1.673 -69.283 0.156 -49.076 0.318 69.627 1.18 9 0.725 27.162 3.85 1.558 -89.513 0.166 -65.125 0.343 47.128 1.1 10 0.787 15.674 3.34 1.469 -105.215 0.168 -78.788 0.382 23.467 1 figure 33. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 30 25 20 15 10 5 0 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.76 0.07 92.8 0.1 0.77 1 0.66 0.06 149.8 0.08 0.67 1.5 0.79 0.09 167.2 0.07 0.8 2 0.86 0.14 142.8 0.08 0.88 2.5 0.91 0.15 167.5 0.08 0.95 3 0.94 0.23 -174.7 0.07 1.03 3.5 1.07 0.24 -159.3 0.08 1.17 4 1.21 0.27 -148.9 0.09 1.35 4.5 1.28 0.32 -140.7 0.11 1.51 5 1.39 0.36 -129.5 0.13 1.69 5.5 1.43 0.4 -119.9 0.17 1.85 6 1.58 0.42 -109.1 0.21 2.05 6.5 1.63 0.48 -100.3 0.28 2.31 7 1.68 0.53 -91 0.35 2.51 7.5 1.86 0.56 -80.2 0.48 2.87 8 1.96 0.59 -69.4 0.65 3.18 8.5 2.15 0.63 -58.6 0.85 3.61 9 2.26 0.64 -51.5 1.12 4.02 9.5 2.15 0.75 -42.4 1.4 4.49 10 2.32 0.74 -37.5 1.69 4.87 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 30 ma 13 mga-62563 typical scattering parameters, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 20 ma freq. s 11 s 21 s 12 s 22 k-factor ghz mag. ang. db mag. ang. mag. ang. mag. ang. 0.1 0.274 -53.949 20.92 11.121 157.035 0.054 5.715 0.094 -80.83 1.05 0.2 0.265 -60.28 20.67 10.806 154.512 0.054 5.383 0.09 -91.02 1.07 0.3 0.259 -67.514 20.39 10.459 151.71 0.054 5.086 0.089 -102.192 1.08 0.4 0.257 -75.557 20.08 10.093 148.613 0.054 4.833 0.091 -113.483 1.1 0.5 0.258 -84.672 19.72 9.687 144.952 0.054 4.637 0.095 -124.7 1.12 0.6 0.264 -93.431 19.37 9.304 141.158 0.054 4.525 0.101 -133.965 1.14 0.7 0.275 -102.057 19.02 8.932 137.004 0.054 4.504 0.109 -141.605 1.16 0.8 0.29 -110.18 18.67 8.581 132.446 0.054 4.576 0.118 -147.841 1.18 0.9 0.31 -117.309 18.35 8.271 127.543 0.054 4.783 0.129 -152.991 1.19 1 0.331 -123.571 18.04 7.983 122.588 0.054 5.195 0.139 -156.749 1.2 1.1 0.354 -129.682 17.71 7.679 117.464 0.054 5.763 0.15 -160.026 1.21 1.2 0.372 -134.998 17.38 7.396 112.827 0.054 6.374 0.16 -162.849 1.22 1.3 0.387 -138.974 17.04 7.11 108.473 0.055 7.105 0.163 -164.481 1.22 1.4 0.397 -142.056 16.69 6.828 104.388 0.055 7.939 0.16 -165.092 1.25 1.5 0.407 -145.03 16.33 6.555 100.473 0.056 8.736 0.157 -165.37 1.26 1.6 0.416 -148.334 15.97 6.289 96.786 0.057 9.514 0.152 -166.308 1.28 1.7 0.423 -151.951 15.6 6.025 93.017 0.058 10.294 0.146 -166.218 1.3 1.8 0.427 -155.37 15.25 5.789 89.657 0.059 10.984 0.141 -166.034 1.32 1.9 0.428 -158.764 14.91 5.568 86.471 0.06 11.651 0.137 -165.814 1.34 2 0.428 -161.995 14.59 5.365 83.402 0.062 12.246 0.132 -165.841 1.35 2.5 0.432 -177.573 13.16 4.549 68.702 0.07 13.701 0.098 -166.888 1.41 3 0.422 162.92 11.89 3.933 54.632 0.08 12.332 0.073 -164.868 1.45 3.5 0.453 148.816 10.89 3.503 40.096 0.092 7.985 0.024 -165.023 1.39 4 0.497 133.003 9.85 3.108 26.107 0.102 3.027 0.013 108.515 1.35 4.5 0.584 123.794 8.87 2.777 11.49 0.111 -3.486 0.044 23.417 1.24 5 0.648 108.792 7.8 2.455 -2.939 0.121 -9.998 0.044 61.186 1.15 5.5 0.705 99.614 6.75 2.174 -14.677 0.128 -17.142 0.019 83.666 1.05 6 0.729 87.836 6.32 2.07 -26.088 0.131 -23.178 0.129 125.118 1 6.5 0.719 79.179 5.46 1.875 -37.227 0.138 -30.431 0.194 108.15 1.06 7 0.709 67.879 5.33 1.847 -49.36 0.144 -36.508 0.289 94.828 1.06 7.5 0.69 56.687 4.54 1.686 -62.033 0.148 -43.977 0.312 79.896 1.17 8 0.682 46.564 4.15 1.613 -71.166 0.155 -50.351 0.321 72.003 1.19 9 0.725 27.786 3.57 1.508 -91.211 0.164 -66.308 0.344 49.405 1.11 10 0.791 15.826 3.07 1.424 -106.691 0.166 -79.9 0.382 25.395 1 figure 34. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 25 20 15 10 5 0 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.83 0.1 83.2 0.11 0.85 1 0.71 0.06 133.5 0.08 0.71 1.5 0.81 0.09 151.9 0.07 0.82 2 0.88 0.15 133.2 0.08 0.91 2.5 0.93 0.16 160.2 0.08 0.97 3 0.98 0.23 179.7 0.07 1.07 3.5 1.1 0.24 -164.5 0.08 1.2 4 1.2 0.28 -154 0.09 1.36 4.5 1.29 0.33 -143.9 0.1 1.52 5 1.4 0.36 -132.8 0.12 1.71 5.5 1.46 0.4 -122.9 0.16 1.88 6 1.62 0.42 -112 0.21 2.1 6.5 1.68 0.47 -102.3 0.28 2.34 7 1.74 0.52 -92.9 0.35 2.56 7.5 1.92 0.55 -82.2 0.47 2.91 8 2.04 0.57 -71.5 0.65 3.23 8.5 2.22 0.61 -60 0.85 3.65 9 2.32 0.65 -52.5 1.13 4.09 9.5 2.2 0.75 -43.5 1.41 4.55 10 2.39 0.74 -38.6 1.71 4.94 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 20 ma 14 mga-62563 typical scattering parameters, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 40 ma freq. s 11 s 21 s 12 s 22 k-factor ghz mag. ang. db mag. ang. mag. ang. mag. ang. 0.1 0.22 -62.539 22.22 12.911 155.715 0.046 2.6 0.041 -117.254 1.09 0.2 0.214 -69.644 21.94 12.502 153.158 0.045 2.081 0.038 -129.6 1.12 0.3 0.212 -77.541 21.62 12.057 150.317 0.045 1.608 0.038 -142.653 1.14 0.4 0.214 -86.029 21.28 11.588 147.183 0.044 1.201 0.039 -155.322 1.18 0.5 0.22 -95.298 20.89 11.075 143.514 0.043 0.89 0.041 -167.419 1.23 0.6 0.229 -103.863 20.5 10.59 139.683 0.043 0.698 0.043 -177.186 1.26 0.7 0.243 -112.001 20.1 10.12 135.429 0.042 0.643 0.045 174.82 1.31 0.8 0.259 -119.5 19.71 9.675 130.731 0.041 0.734 0.047 168.782 1.37 0.9 0.279 -125.972 19.35 9.281 125.639 0.041 1.042 0.048 164.393 1.4 1 0.299 -131.628 19 8.911 120.513 0.04 1.762 0.049 163.524 1.45 1.1 0.32 -137.177 18.61 8.521 115.245 0.039 2.85 0.048 164.901 1.51 1.2 0.336 -142.073 18.23 8.159 110.507 0.039 4.1 0.049 167.544 1.55 1.3 0.348 -145.665 17.84 7.801 106.06 0.039 5.603 0.043 170.928 1.59 1.4 0.356 -148.38 17.45 7.455 101.898 0.039 7.304 0.032 178.48 1.64 1.5 0.363 -150.989 17.05 7.121 97.936 0.039 9.091 0.024 -165.089 1.7 1.6 0.37 -154.012 16.65 6.8 94.219 0.039 10.88 0.019 -143.445 1.75 1.7 0.374 -157.396 16.23 6.481 90.464 0.04 12.735 0.02 -106.9 1.78 1.8 0.376 -160.639 15.85 6.2 87.131 0.04 14.442 0.027 -86.207 1.84 1.9 0.376 -163.914 15.47 5.939 83.969 0.041 16.084 0.035 -75.973 1.87 2 0.375 -167.082 15.12 5.699 80.94 0.042 17.612 0.043 -70.287 1.9 2.5 0.372 177.387 13.51 4.736 66.672 0.05 22.955 0.081 -58.59 1.9 3 0.356 158.01 12.14 4.047 53.37 0.059 24.196 0.112 -56.813 1.89 3.5 0.381 144.376 11.06 3.573 39.369 0.07 21.054 0.14 -52.546 1.75 4 0.423 129.789 10.03 3.175 25.905 0.08 17.196 0.146 -53.692 1.66 4.5 0.508 121.918 9.07 2.842 11.472 0.09 11.517 0.155 -54.803 1.49 5 0.576 107.907 8.06 2.528 -2.535 0.102 5.225 0.123 -67.978 1.35 5.5 0.639 99.362 7.06 2.255 -14.4 0.11 -2.316 0.122 -90.136 1.23 6 0.672 88.277 6.69 2.16 -25.888 0.122 -8.464 0.105 -150.094 1.1 6.5 0.672 79.728 5.92 1.976 -37.199 0.125 -15.947 0.121 162.804 1.18 7 0.668 68.454 5.81 1.953 -49.487 0.135 -22.415 0.187 127.855 1.15 7.5 0.657 57.275 5.12 1.803 -62.284 0.142 -30.896 0.213 108.129 1.22 8 0.655 47.003 4.75 1.728 -71.76 0.151 -38.436 0.231 98.412 1.2 9 0.704 28.227 4.24 1.629 -91.789 0.161 -55.934 0.261 73.264 1.09 10 0.772 16.7 3.85 1.558 -107.404 0.162 -68.84 0.298 44.421 0.98 figure 35. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 30 25 20 15 10 5 0 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 40 ma freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.75 0.05 89.7 0.1 0.75 1 0.67 0.06 157.9 0.08 0.67 1.5 0.78 0.1 174 0.07 0.79 2 0.87 0.13 147.1 0.08 0.9 2.5 0.95 0.15 174.2 0.08 0.98 3 0.98 0.22 -169.9 0.08 1.07 3.5 1.1 0.23 -153.6 0.09 1.2 4 1.25 0.26 -146.3 0.1 1.4 4.5 1.33 0.31 -138.5 0.12 1.54 5 1.42 0.36 -127.2 0.14 1.73 5.5 1.44 0.4 -117.8 0.18 1.88 6 1.61 0.43 -107.4 0.22 2.1 6.5 1.66 0.48 -97.8 0.3 2.36 7 1.7 0.53 -89.1 0.38 2.57 7.5 1.92 0.56 -78.4 0.51 2.94 8 2.03 0.58 -68.2 0.69 3.27 8.5 2.21 0.62 -57.2 0.91 3.7 9 2.34 0.65 -50.2 1.18 4.15 9.5 2.23 0.75 -41.6 1.48 4.64 10 2.43 0.75 -36.6 1.8 5.06 15 mga-62563 typical scattering parameters, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 30 ma freq. s 11 s 21 s 12 s 22 k-factor ghz mag. ang. db mag. ang. mag. ang. mag. ang. 0.1 0.237 -58.467 21.8 12.306 156.126 0.048 2.335 0.051 -78.66 1.09 0.2 0.23 -65.183 21.53 11.928 153.564 0.048 1.765 0.045 -87.521 1.11 0.3 0.227 -72.749 21.23 11.518 150.716 0.047 1.228 0.039 -99.059 1.14 0.4 0.226 -81.026 20.89 11.082 147.575 0.047 0.749 0.036 -112.979 1.16 0.5 0.23 -90.235 20.51 10.603 143.898 0.046 0.336 0.033 -129.188 1.21 0.6 0.238 -98.902 20.13 10.153 140.036 0.046 0.043 0.033 -143.928 1.24 0.7 0.25 -107.258 19.75 9.716 135.78 0.045 -0.127 0.034 -156.168 1.28 0.8 0.265 -115.042 19.37 9.304 131.095 0.044 -0.173 0.036 -165.43 1.33 0.9 0.284 -121.835 19.03 8.94 126.04 0.043 -0.043 0.039 -171.896 1.38 1 0.304 -127.797 18.69 8.602 120.95 0.043 0.462 0.041 -173.502 1.4 1.1 0.325 -133.627 18.32 8.246 115.706 0.042 1.306 0.044 -172.856 1.46 1.2 0.342 -138.742 17.97 7.914 110.976 0.042 2.313 0.047 -171.524 1.48 1.3 0.354 -142.508 17.6 7.583 106.528 0.042 3.581 0.044 -166.973 1.52 1.4 0.363 -145.389 17.22 7.259 102.357 0.041 5.063 0.038 -156.713 1.6 1.5 0.371 -148.151 16.83 6.946 98.374 0.041 6.652 0.034 -141.923 1.64 1.6 0.378 -151.305 16.45 6.644 94.631 0.042 8.268 0.032 -127.89 1.66 1.7 0.383 -154.816 16.04 6.342 90.832 0.042 9.963 0.034 -108.748 1.72 1.8 0.386 -158.161 15.67 6.075 87.455 0.043 11.558 0.039 -95.871 1.74 1.9 0.386 -161.511 15.31 5.827 84.258 0.043 13.115 0.045 -87.243 1.8 2 0.385 -164.738 14.96 5.6 81.188 0.044 14.587 0.052 -81.336 1.83 2.5 0.383 179.495 13.41 4.684 66.72 0.051 19.968 0.083 -65.882 1.86 3 0.368 159.885 12.09 4.023 53.234 0.06 21.459 0.111 -61.634 1.85 3.5 0.393 145.917 11.05 3.568 39.154 0.071 18.676 0.136 -55.813 1.72 4 0.435 130.892 10.05 3.179 25.626 0.081 15.046 0.14 -56.384 1.62 4.5 0.52 122.592 9.11 2.854 11.264 0.09 9.563 0.148 -56.648 1.46 5 0.588 108.322 8.1 2.541 -2.66 0.102 3.467 0.117 -69.997 1.32 5.5 0.65 99.592 7.11 2.266 -14.387 0.11 -3.953 0.117 -92.334 1.2 6 0.682 88.363 6.72 2.167 -25.768 0.122 -10.031 0.106 -153.954 1.07 6.5 0.68 79.738 5.93 1.979 -36.871 0.125 -17.411 0.125 160.43 1.16 7 0.675 68.426 5.8 1.949 -49 0.134 -23.769 0.193 126.821 1.14 7.5 0.663 57.213 5.06 1.791 -61.602 0.141 -32.118 0.218 107.343 1.21 8 0.659 46.972 4.67 1.711 -70.948 0.15 -39.536 0.236 97.607 1.21 9 0.707 28.23 4.07 1.597 -90.845 0.16 -56.781 0.265 72.633 1.11 10 0.774 16.694 3.6 1.513 -106.409 0.161 -69.865 0.303 44.117 1 figure 36. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 30 25 20 15 10 5 0 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.77 0.08 83.8 0.11 0.78 1 0.67 0.05 149.4 0.08 0.68 1.5 0.79 0.09 168.8 0.07 0.8 2 0.87 0.13 142.3 0.08 0.9 2.5 0.95 0.14 169.1 0.08 0.98 3 0.98 0.22 -173.6 0.08 1.06 3.5 1.09 0.23 -159.3 0.08 1.19 4 1.21 0.26 -148.7 0.1 1.35 4.5 1.29 0.31 -140.3 0.11 1.51 5 1.39 0.35 -129.6 0.13 1.68 5.5 1.42 0.39 -120.3 0.17 1.82 6 1.58 0.41 -109.2 0.21 2.03 6.5 1.62 0.47 -100 0.28 2.28 7 1.68 0.52 -90.7 0.35 2.49 7.5 1.88 0.55 -79.9 0.48 2.85 8 2 0.57 -69.8 0.65 3.17 8.5 2.17 0.62 -58.8 0.85 3.59 9 2.3 0.64 -51.3 1.12 4.03 9.5 2.25 0.72 -42.6 1.41 4.48 10 2.37 0.74 -37.8 1.7 4.91 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 30 ma 16 mga-62563 typical scattering parameters, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 20 ma freq. s 11 s 21 s 12 s 22 k-factor ghz mag. ang. db mag. ang. mag. ang. mag. ang. 0.1 0.276 -50.781 20.99 11.213 156.884 0.053 3.086 0.093 -52.766 1.07 0.2 0.266 -56.676 20.74 10.894 154.329 0.053 2.41 0.083 -58.024 1.09 0.3 0.259 -63.497 20.46 10.544 151.483 0.052 1.753 0.074 -64.698 1.12 0.4 0.255 -71.17 20.15 10.174 148.356 0.052 1.131 0.065 -72.808 1.14 0.5 0.254 -80.022 19.79 9.763 144.671 0.051 0.542 0.058 -83.072 1.18 0.6 0.257 -88.677 19.44 9.375 140.845 0.051 0.052 0.052 -94.078 1.2 0.7 0.265 -97.315 19.08 8.997 136.657 0.05 -0.34 0.05 -105.431 1.24 0.8 0.277 -105.608 18.73 8.641 132.057 0.05 -0.641 0.05 -116.715 1.27 0.9 0.294 -113.01 18.41 8.327 127.118 0.049 -0.769 0.052 -126.861 1.31 1 0.313 -119.584 18.1 8.038 122.134 0.049 -0.568 0.056 -133.663 1.32 1.1 0.332 -125.983 17.77 7.732 117 0.048 -0.093 0.062 -138.752 1.36 1.2 0.349 -131.536 17.44 7.446 112.349 0.048 0.54 0.067 -142.695 1.38 1.3 0.362 -135.667 17.09 7.154 107.971 0.047 1.412 0.068 -141.888 1.43 1.4 0.371 -138.843 16.73 6.864 103.851 0.047 2.497 0.066 -137.128 1.47 1.5 0.38 -141.9 16.37 6.583 99.905 0.047 3.676 0.065 -131.552 1.51 1.6 0.389 -145.323 16 6.311 96.172 0.047 4.908 0.063 -126.926 1.55 1.7 0.394 -149.051 15.62 6.037 92.39 0.047 6.242 0.063 -119.49 1.6 1.8 0.397 -152.57 15.26 5.794 89.022 0.048 7.499 0.065 -113.329 1.62 1.9 0.397 -156.063 14.91 5.566 85.817 0.048 8.774 0.067 -107.935 1.68 2 0.396 -159.406 14.58 5.357 82.739 0.049 10.021 0.07 -103.352 1.7 2.5 0.395 -175.583 13.08 4.508 68.14 0.055 14.801 0.083 -84.66 1.78 3 0.38 164.391 11.79 3.888 54.386 0.063 16.272 0.102 -74.77 1.81 3.5 0.407 149.754 10.77 3.454 40.091 0.074 13.807 0.118 -63.62 1.7 4 0.449 133.82 9.76 3.075 26.308 0.083 10.436 0.118 -61.976 1.63 4.5 0.534 124.633 8.8 2.753 11.752 0.092 5.262 0.123 -58.73 1.47 5 0.6 109.771 7.78 2.448 -2.529 0.104 -0.451 0.093 -72.766 1.33 5.5 0.661 100.709 6.77 2.179 -14.499 0.111 -7.532 0.097 -96.992 1.22 6 0.692 89.216 6.37 2.083 -26.054 0.122 -13.423 0.102 -166.868 1.09 6.5 0.688 80.407 5.56 1.897 -37.379 0.125 -20.653 0.134 151.132 1.18 7 0.681 69.043 5.43 1.868 -49.653 0.134 -26.784 0.209 121.656 1.16 7.5 0.666 57.717 4.69 1.716 -62.476 0.141 -34.82 0.234 103.118 1.24 8 0.661 47.473 4.3 1.641 -71.899 0.149 -41.982 0.25 93.688 1.24 9 0.708 28.579 3.73 1.537 -92 0.159 -58.934 0.278 69.322 1.13 10 0.774 16.789 3.28 1.459 -107.719 0.161 -72.037 0.315 41.449 1.02 figure 37. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 25 20 15 10 5 0 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.81 0.1 90 0.11 0.83 1 0.7 0.05 129.3 0.08 0.71 1.5 0.82 0.08 150.1 0.08 0.83 2 0.9 0.13 132.1 0.08 0.92 2.5 0.94 0.15 158.4 0.08 0.98 3 0.98 0.22 180 0.07 1.06 3.5 1.1 0.23 -165 0.08 1.19 4 1.19 0.27 -153.6 0.09 1.34 4.5 1.28 0.31 -144.2 0.1 1.49 5 1.39 0.35 -132.9 0.12 1.66 5.5 1.42 0.39 -122.5 0.16 1.81 6 1.58 0.4 -112 0.2 2.01 6.5 1.64 0.46 -102.7 0.27 2.26 7 1.7 0.51 -93.5 0.33 2.47 7.5 1.9 0.54 -82.5 0.45 2.82 8 1.99 0.57 -71.3 0.62 3.15 8.5 2.17 0.6 -60.2 0.82 3.54 9 2.3 0.63 -52.6 1.09 3.98 9.5 2.11 0.75 -44 1.36 4.45 10 2.41 0.73 -38.5 1.67 4.85 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 20 ma 17 sot-363/sc-70 (jedec dfp-n) package dimensions device models refer to agilent�s web site www.agilent.com/view/rf refer to agilent�s web site for s-parameters at different biases. www.agilent.com/view/rf ordering information part number no. of devices container mga-62563-tr1 3000 7 reel mga-62563-tr2 10000 13reel mga-62563-blk 100 antistatic bag mga-62563-tr1g 3000 7" reel mga-62563-tr2g 10000 13" reel mga-62563-blkg 100 antistatic bag dimensions symbol min (mm) max (mm) e 1.15 1.35 d 1.80 2.25 he 1.80 2.40 a 0.80 1.10 a2 0.80 1.00 a1 0.00 0.10 e 0.650 bcs 0.650 bcs b 0.15 0.30 c 0.10 0.20 l 0.10 0.30 18 device orientation user feed direction cover tape carrier tape reel end vie w 8 mm 4 mm top view (package marking example orientation shown.) 6a 6a 6a 6a recommended pcb pad layout for agilent's sc70 6l/sot-363 products (dimensions in inches) tape dimensions www.agilent.com/semiconductors for product information and a complete list of distributors, please go to our web site. for technical assistance call: americas/canada: +1 (800) 235-0312 or (916) 788-6763 europe: +49 (0) 6441 92460 china: 10800 650 0017 hong kong: (65) 6756 2394 india, australia, new zealand: (65) 6755 1939 japan: (+81 3) 3335-8152(domestic/international), or 0120-61-1280(domestic only) korea: (65) 6755 1989 singapore, malaysia, vietnam, thailand, philippines, indonesia: (65) 6755 2044 taiwan: (65) 6755 1843 data subject to change. copyright ? 2004 agilent technologies, inc. november 17, 2004 5989-1812en p p 0 p 2 f w c d 1 d e a 0 10?max. t 1 (carrier tape thickness) t t (cover tape thickness) 10?max. b 0 k 0 description symbol size (mm) size (inches) length width depth pitch bottom hole diameter a 0 b 0 k 0 p d 1 2.40 ?0.10 2.40 ?0.10 1.20 ?0.10 4.00 ?0.10 1.00 + 0.25 0.094 ?0.004 0.094 ?0.004 0.047 ?0.004 0.157 ?0.004 0.039 + 0.010 cavity diameter pitch position d p 0 e 1.50 ?0.10 4.00 ?0.10 1.75 ?0.10 0.061 ?0.002 0.157 ?0.004 0.069 ?0.004 perforation width thickness w t 1 8.00 ?0.30 - 0.10 0.254 ?0.02 0.315 ?0.012 0.010 ?0.0005 carrier tape cavity to perforation (width direction) cavity to perforation (length direction) f p 2 3.50 ?0.05 2.00 ?0.05 0.138 ?0.002 0.079 ?0.002 distance width tape thickness c t t 5.40 ?0.10 0.062 ?0.001 0.205 ?0.004 0.0025 ?0.00004 cover tape |
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