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| agilent MGA-61563 current-adjustable, low noise amplifier data sheet description agilent�s MGA-61563 is an economical, easy-to-use gaas mmic amplifier that offers excellent linearity and low noise figure for applications from 0.1 to 6 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-61563 is normally operating with id set in the 20- 60ma 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 1.2 db nf coupled with a +28.5 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 +3v or +5v power supply, while internal feedback ensures stability (k>1) over all frequencies. features ? single +3v or + 5v supply ? high linearity ? low noise figure ? miniature sot363 (sc70) package ? unconditionally stable ? lead-free option available specifications at 2 ghz; 3v, 41 ma (typ.) ? 28.5 dbm oip3 ? 1.2 db noise figure ? 16.6 db gain ? 15.8 dbm p 1db pin connections and package marking note: package marking provides orientation and identification: 6a = device code x = date code indicates the month of manufacture. mga-86563 pkg outpu t and v d gnd 6ax 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 0) refer to agilent application note a004r: electrostatic discharge damage and control.
2 MGA-61563 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 18 i ref bias reference current (pin 4) ma 10 p diss total power dissipation [4] mw 500 t ch channel temperature c 150 t stg storage temperature c 150 ch_b thermal resistance [5] c/w 115 notes: 1. operation of this device in excess of any one of these parameters may cause permanent damage. 2. assumes 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 x temperature. tc=92.5oc, derate p diss at 8.7mw/oc for tc>92.5oc. 5. thermal resistance measured using 150 c liquid crystal measurement method. figure 1. test circuit of the 2 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. + _ 1.2 nh 47 pf 1.2 pf co-planar with ground. length = 0.1 3 1 25 6 4 47 pf MGA-61563 47 nh 68 pf 10 nf 3v 620 ? 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 product consistency distribution charts at 3v, 2 ghz, r bias =620 ? [1, 2] 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. figure 2. nf @ 2 ghz 3v 40 ma. usl=1.8, nominal=1.17. nf (db) 1 1.1 1.2 1.3 1.4 150 120 90 60 30 0 cpk=5.7 stdev=0.03 frequency +3 std figure 3. gain @ 2 ghz 3v 40 ma. usl=18, lsl=15, nominal=16.6. gain (db) 14 15 16 17 19 150 120 90 60 30 0 18 cpk=1.3 stdev=0.36 +3 std -3 std frequency figure 4. oip3 @ 2 ghz 3v 40 ma. lsl=26, nominal=28.5. oip3(dbm) 26 27 28 29 31 60 50 40 30 20 10 0 30 cpk=1.6 stdev=0.50 -3 std frequency figure 5. id @ 3v. lsl=32, usl=48, nominal=41.0. i d (ma) 32 36 40 44 48 100 80 60 40 20 0 cpk=2.59 stdev=0.91 +3 std -3 std frequency figure 6. rbias vs. id (3v supply). i d (ma) rbias (ohm) 090 10 20 30 40 50 60 70 80 2200 2000 1800 1600 1400 1200 1000 800 600 400 200 0 figure 7. rbias vs. id (5v supply). i d (ma) rbias (ohm) 090 10 20 30 40 50 60 70 80 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 4 MGA-61563 electrical specifications rbias=620ohm 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 32 41 48 0.91 nf test [1,2] noise figure in test circuit [1] f = 2.047 ghz db 1.17 1.8 0.03 g test [1,2] associated gain in test circuit [1] f = 2.047 ghz db 15 16.6 18 0.36 oip3 test [1,2] ouput 3 rd order intercept in test circuit [1] f = 2 ghz dbm 26 28.5 0.5 nf 50 ? [3] noise figure in 50 ? system f = 0.2 ghz db 1.4 f = 0.5 ghz 1.1 f = 1.0 ghz 0.9 f = 2.0 ghz 1.0 0.03 f = 3.0 ghz 1.4 f = 4.0 ghz 1.8 f = 5.0 ghz 2.3 f = 6.0 ghz 2.7 |s 21 | 2 [3] associated gain in 50 ? system f = 0.2 ghz db 21 f = 0.5 ghz 20 f = 1.0 ghz 19.3 f = 2.0 ghz 15.5 0.36 f = 3.0 ghz 12.4 f = 4.0 ghz 10.4 f = 5.0 ghz 8 f = 6.0 ghz 6.9 oip3 50 ? [3] output 3 rd order intercept point in 50 ? system f = 0.2 ghz dbm 29 f = 0.5 ghz 29.8 f = 1.0 ghz 30.5 f = 2.0 ghz 31.7 0.5 f = 3.0 ghz 30.9 f = 4.0 ghz 30.6 f = 5.0 ghz 30.6 f = 6.0 ghz 30.7 p1db 50 ? [3] output power at 1db gain compression in 50 ? system f = 0.2 ghz dbm 15.6 f = 0.5 ghz 15.5 f = 1.0 ghz 15.4 f = 2.0 ghz 15.1 f = 3.0 ghz 15.1 f = 4.0 ghz 14.8 f = 5.0 ghz 14.6 f = 6.0 ghz 14.6 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-61563 typical performance, v d = 3v, i ds = 40 ma at 50 ? input and output figure 8. s21 vs. frequency (3v 40 ma). frequency (ghz) s21 (db) 0 6000 1000 2000 3000 4000 5000 25 20 15 10 5 0 25 c -40 c 85 c figure 9. nf vs. frequency (3v 40 ma). frequency (ghz) nf (db) 0 6000 1000 2000 3000 4000 5000 3 2.5 2 1.5 1 0.5 0 25 c -40 c 85 c figure 10. oip3 vs. frequency (3v 40 ma). frequency (ghz) oip3 (dbm) 0 6000 1000 2000 3000 4000 5000 35 33 31 29 27 25 25 c -40 c 85 c figure 11. op1db vs. frequency (3v 40 ma). frequency (ghz) op1db (db) 0 6000 1000 2000 3000 4000 5000 17 16 15 14 13 12 25 c -40 c 85 c 6 MGA-61563 typical performance, v d = 3v, i ds = 20 ma at 50 ? input and output figure 12. s21 vs. freq (3v 20 ma). frequency (ghz) s21 (db) 0 6000 1000 2000 3000 4000 5000 25 20 15 10 5 0 25 c -40 c 85 c figure 13. nf vs. frequency (3v 20 ma). frequency (ghz) nf (db) 0 6000 1000 2000 3000 4000 5000 3 2.5 2 1.5 1 0.5 0 25 c -40 c 85 c figure 14. oip3 vs. frequency (3v 20 ma). frequency (ghz) oip3 (dbm) 0 6000 1000 2000 3000 4000 5000 28 26 24 22 20 18 25 c -40 c 85 c figure 15. op1db vs. frequency (3v 20 ma). frequency (ghz) op1db (db) 0 6000 1000 2000 3000 4000 5000 20 18 16 14 12 10 25 c -40 c 85 c 7 MGA-61563 typical performance, v d = 5v, i ds = 40 ma at 50 ? input and output figure 16. s21 vs. frequency (5v 40 ma). frequency (ghz) s21 (db) 0 6000 1000 2000 3000 4000 5000 25 20 15 10 5 0 25 c -40 c 85 c figure 17. nf vs. frequency (5v 40 ma). frequency (ghz) nf (db) 0 6000 1000 2000 3000 4000 5000 3 2.5 2 1.5 1 0.5 0 25 c -40 c 85 c figure 18. oip3 vs. frequency (5v 40 ma). frequency (ghz) oip3 (dbm) 0 6000 1000 2000 3000 4000 5000 40 36 32 28 24 20 25 c -40 c 85 c figure 19. op1db vs. frequency (5v 40 ma). frequency (ghz) op1db (dbm) 0 6000 1000 2000 3000 4000 5000 20 18 16 14 12 10 25 c -40 c 85 c 8 MGA-61563 typical performance, v d = 5v, i ds = 20 ma at 50 ? input and output figure 20. s21 vs. frequency (5v 20 ma). frequency (ghz) s21 (db) 0 6000 1000 2000 3000 4000 5000 25 20 15 10 5 0 25 c -40 c 85 c figure 21. nf vs. frequency (5v 20 ma). frequency (ghz) nf (db) 0 6000 1000 2000 3000 4000 5000 3 2.5 2 1.5 1 0.5 0 25 c -40 c 85 c figure 22. oip3 vs. frequency (5v 20 ma). frequency (ghz) oip3 (dbm) 0 6000 1000 2000 3000 4000 5000 35 31 27 23 19 15 25 c -40 c 85 c figure 23. op1db vs. frequency (5v 20 ma). frequency (ghz) op1db (db) 0 6000 1000 2000 3000 4000 5000 20 18 16 14 12 10 25 c -40 c 85 c 9 MGA-61563 typical performance, freq = 2 ghz, t c = 25 c at 50 ? input and output figure 24. gain vs. id (2 ghz). id (ma) gain (db) 0 100 20 40 60 80 18 16 14 12 10 8 6 4 2 0 vd 3v vd 5v figure 25. nf vs. id (2 ghz). id (ma) nf (db) 0 100 20 40 60 80 4 3.5 3 2.5 2 1.5 1 0.5 0 vd 3v vd 5v figure 26. oip3 vs. id (2 ghz). id (ma) oip3 (dbm) 0 100 20 40 60 80 35 30 25 20 15 10 5 0 vd 3v vd 5v figure 27. op1db vs. id (2 ghz). id (ma) op1db (dbm) 0 100 20 40 60 80 19 18 17 16 15 14 13 12 11 10 vd 3v vd 5v 10 MGA-61563 typical performance, freq = 0.9 ghz, t c = 25 c at 50 ? input and output figure 28. gain vs. id (900 mhz). id (ma) gain (db) 0 100 20 40 60 80 25 20 15 10 5 0 vd 3v vd 5v figure 29. nf vs. id (900 mhz). id (ma) nf (db) 0 100 20 40 60 80 3.5 3 2.5 2 1.5 1 0.5 0 vd 3v vd 5v figure 30. oip3 vs. id (900 mhz). id (ma) oip3 (dbm) 0 100 20 40 60 80 40 35 30 25 20 15 10 5 0 vd 3v vd 5v figure 31. op1db vs. id (900 mhz). id (ma) op1db (db) 0 100 20 40 60 80 22 20 18 16 14 12 10 vd 3v vd 5v 11 MGA-61563 typical scattering parameters, t c = 25 c, z o = 50 ? , v d = 3v, 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 0.244 -52.826 21.78 12.271 158.389 0.051 3.716 0.072 -77.426 1.05 0.2 0.236 -58.111 21.57 11.976 156.012 0.05 3.134 0.065 -86.51 1.08 0.3 0.23 -64.265 21.33 11.649 153.359 0.05 2.551 0.06 -97.578 1.09 0.4 0.227 -71.238 21.06 11.296 150.415 0.05 2.01 0.056 -110.098 1.11 0.5 0.226 -79.33 20.75 10.904 146.968 0.049 1.489 0.055 -123.83 1.14 0.6 0.229 -87.315 20.45 10.527 143.4 0.049 1.064 0.056 -135.935 1.16 0.7 0.235 -95.355 20.13 10.154 139.497 0.049 0.721 0.058 -146.064 1.18 0.8 0.245 -103.135 19.82 9.798 135.232 0.048 0.467 0.063 -154.126 1.22 0.9 0.258 -110.09 19.54 9.482 130.652 0.048 0.347 0.068 -160.307 1.24 1 0.275 -116.228 19.27 9.193 125.989 0.047 0.51 0.073 -163.445 1.27 1.1 0.292 -122.194 18.98 8.888 121.13 0.047 0.928 0.079 -165.335 1.28 1.2 0.307 -127.351 18.69 8.601 116.692 0.047 1.513 0.084 -166.694 1.3 1.3 0.32 -130.903 18.39 8.308 112.463 0.046 2.307 0.083 -166.078 1.34 1.4 0.329 -133.391 18.08 8.015 108.444 0.046 3.321 0.078 -163.135 1.37 1.5 0.339 -135.838 17.76 7.727 104.561 0.046 4.462 0.073 -158.92 1.4 1.6 0.348 -138.798 17.43 7.442 100.879 0.046 5.633 0.068 -155.687 1.43 1.7 0.355 -142.049 17.09 7.152 97.114 0.046 6.951 0.062 -149.155 1.47 1.8 0.359 -145.16 16.76 6.89 93.742 0.047 8.269 0.059 -142.409 1.48 1.9 0.36 -148.258 16.45 6.643 90.533 0.047 9.619 0.058 -135.389 1.53 2 0.361 -151.227 16.14 6.412 87.449 0.048 10.948 0.057 -128.787 1.54 2.5 0.363 -165.518 14.73 5.45 72.871 0.054 16.239 0.059 -98.235 1.6 3 0.352 175.694 13.46 4.711 59.275 0.062 18.051 0.07 -80.793 1.61 3.5 0.38 161.243 12.45 4.195 45.386 0.073 15.785 0.085 -54.713 1.52 4 0.425 144.109 11.37 3.703 31.615 0.084 12.477 0.102 -49.393 1.43 4.5 0.51 134.382 10.45 3.329 18.734 0.095 5.411 0.096 -47.475 1.29 5 0.593 117.447 9.32 2.923 3.55 0.103 -1.829 0.088 -42.299 1.2 5.5 0.645 108.198 8.29 2.596 -6.214 0.112 -7.541 0.065 -76.731 1.12 6 0.699 95.764 7.93 2.493 -19.424 0.118 -14.437 0.044 170.599 1 6.5 0.681 86.306 6.96 2.229 -28.714 0.126 -20.93 0.115 128.986 1.09 7 0.688 75.175 6.86 2.203 -41.406 0.133 -29.043 0.194 102.725 1.06 7.5 0.665 63.103 5.97 1.989 -54.247 0.136 -36.279 0.217 85.554 1.19 8 0.656 53.026 5.58 1.902 -63.34 0.145 -42.738 0.23 78.813 1.2 9 0.701 33.219 4.92 1.762 -84.127 0.156 -59.549 0.262 54.067 1.11 10 0.762 21.101 4.43 1.666 -99.91 0.157 -74.343 0.307 28.064 1.03 figure 32. 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 0.65 0.02 84.7 0.09 0.65 1 0.59 0.05 146.6 0.08 0.6 1.5 0.71 0.09 154.5 0.08 0.72 2 0.81 0.1 135 0.09 0.83 2.5 0.86 0.12 166.7 0.08 0.89 3 0.91 0.18 -177.3 0.08 0.96 3.5 0.99 0.19 -161.8 0.09 1.05 4 1.11 0.23 -152.3 0.1 1.22 4.5 1.21 0.28 -141.5 0.11 1.38 5 1.29 0.32 -130.3 0.12 1.53 5.5 1.36 0.35 -121.5 0.16 1.68 6 1.47 0.39 -110.7 0.19 1.87 6.5 1.56 0.44 -100.5 0.26 2.1 7 1.58 0.48 -91.2 0.32 2.27 7.5 1.79 0.51 -80.2 0.43 2.61 8 1.88 0.54 -69.2 0.57 2.88 8.5 2 0.6 -58.7 0.76 3.3 9 2.14 0.63 -47.7 0.99 3.68 9.5 2.15 0.69 -41.9 1.22 4.09 10 2.16 0.71 -35.4 1.48 4.43 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 40 ma 12 MGA-61563 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 0.268 -48.517 21.29 11.602 158.574 0.054 4.469 0.092 -62.567 1.05 0.2 0.258 -53.469 21.09 11.332 156.225 0.053 3.812 0.083 -69.778 1.07 0.3 0.251 -59.275 20.85 11.03 153.589 0.053 3.14 0.075 -78.771 1.08 0.4 0.246 -65.933 20.59 10.704 150.671 0.053 2.503 0.069 -89.392 1.1 0.5 0.243 -73.772 20.29 10.339 147.255 0.052 1.867 0.065 -101.948 1.13 0.6 0.244 -81.634 19.99 9.99 143.707 0.052 1.318 0.063 -114.085 1.15 0.7 0.248 -89.688 19.69 9.645 139.832 0.051 0.836 0.064 -125.177 1.18 0.8 0.255 -97.59 19.38 9.314 135.602 0.051 0.435 0.068 -134.833 1.2 0.9 0.267 -104.804 19.11 9.021 131.063 0.051 0.201 0.073 -142.722 1.22 1 0.283 -111.271 18.84 8.752 126.423 0.05 0.265 0.079 -147.664 1.24 1.1 0.3 -117.585 18.56 8.469 121.591 0.05 0.555 0.087 -151.397 1.26 1.2 0.314 -123.03 18.28 8.202 117.173 0.05 0.989 0.094 -154.377 1.27 1.3 0.326 -126.855 17.98 7.929 112.956 0.049 1.629 0.095 -154.689 1.31 1.4 0.336 -129.586 17.68 7.654 108.945 0.049 2.492 0.092 -152.631 1.33 1.5 0.347 -132.266 17.36 7.381 105.063 0.049 3.452 0.089 -149.881 1.36 1.6 0.355 -135.421 17.04 7.111 101.376 0.049 4.442 0.085 -148.048 1.39 1.7 0.362 -138.83 16.7 6.837 97.605 0.049 5.577 0.081 -143.895 1.43 1.8 0.366 -142.061 16.38 6.589 94.237 0.05 6.72 0.079 -139.902 1.44 1.9 0.367 -145.269 16.06 6.353 91.02 0.05 7.91 0.077 -135.856 1.49 2 0.367 -148.31 15.75 6.134 87.927 0.051 9.081 0.076 -132.128 1.5 2.5 0.369 -162.886 14.37 5.228 73.233 0.056 13.854 0.069 -112.239 1.59 3 0.358 178.083 13.13 4.532 59.415 0.065 15.479 0.07 -95.256 1.6 3.5 0.387 163.252 12.14 4.044 45.371 0.075 13.321 0.071 -63.465 1.53 4 0.431 145.58 11.07 3.577 31.36 0.086 10.193 0.085 -52.459 1.44 4.5 0.516 135.43 10.15 3.218 18.295 0.097 3.143 0.079 -47.033 1.31 5 0.598 118.103 9.04 2.833 2.86 0.104 -3.984 0.075 -37.084 1.23 5.5 0.648 108.768 8.02 2.518 -7.048 0.113 -9.465 0.051 -77.715 1.14 6 0.702 96.188 7.7 2.426 -20.33 0.118 -16.213 0.05 153.974 1.02 6.5 0.683 86.691 6.75 2.175 -29.679 0.127 -22.597 0.128 124.845 1.1 7 0.69 75.529 6.67 2.156 -42.376 0.134 -30.746 0.209 100.751 1.06 7.5 0.666 63.34 5.81 1.952 -55.232 0.137 -37.846 0.231 83.842 1.19 8 0.657 53.281 5.44 1.871 -64.235 0.145 -44.143 0.243 76.982 1.2 9 0.703 33.453 4.82 1.741 -84.776 0.156 -60.778 0.273 52.604 1.12 10 0.763 21.176 4.33 1.647 -100.492 0.157 -75.625 0.318 27.144 1.03 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.77 0.11 63.4 0.12 0.79 1 0.62 0.05 129.5 0.08 0.62 1.5 0.72 0.07 153.9 0.08 0.73 2 0.82 0.1 129.6 0.09 0.83 2.5 0.87 0.12 159.3 0.08 0.89 3 0.9 0.17 178.3 0.08 0.95 3.5 0.97 0.19 -166.1 0.09 1.03 4 1.09 0.23 -155.1 0.09 1.19 4.5 1.2 0.27 -144.2 0.1 1.35 5 1.25 0.32 -132.2 0.12 1.48 5.5 1.34 0.35 -123 0.15 1.64 6 1.45 0.38 -113.4 0.18 1.81 6.5 1.55 0.43 -101.8 0.24 2.04 7 1.58 0.46 -92.6 0.3 2.19 7.5 1.75 0.5 -81.5 0.4 2.52 8 1.88 0.52 -70.5 0.54 2.79 8.5 2 0.59 -59.6 0.72 3.21 9 2.1 0.62 -49 0.93 3.57 9.5 2.07 0.7 -42.8 1.15 3.99 10 2.14 0.71 -36.3 1.4 4.31 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 30 ma figure 33. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 25 20 15 10 5 0 13 MGA-61563 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 0.317 -41.61 20.39 10.456 159.109 0.058 4.817 0.143 -45.403 1.04 0.2 0.306 -45.966 20.2 10.23 156.718 0.058 4.054 0.131 -50.236 1.06 0.3 0.296 -51.142 19.98 9.976 154.046 0.058 3.271 0.119 -56.144 1.07 0.4 0.288 -57.155 19.74 9.704 151.101 0.058 2.496 0.108 -63.134 1.08 0.5 0.281 -64.371 19.46 9.392 147.615 0.057 1.698 0.098 -71.761 1.11 0.6 0.278 -71.779 19.17 9.093 144.033 0.057 0.976 0.091 -80.944 1.13 0.7 0.278 -79.591 18.89 8.798 140.143 0.056 0.298 0.087 -90.694 1.16 0.8 0.282 -87.467 18.6 8.516 135.916 0.056 -0.314 0.086 -100.877 1.18 0.9 0.291 -94.88 18.35 8.268 131.414 0.056 -0.765 0.089 -110.691 1.19 1 0.304 -101.73 18.11 8.043 126.841 0.055 -0.94 0.094 -118.635 1.21 1.1 0.319 -108.492 17.85 7.804 122.074 0.055 -0.918 0.101 -125.589 1.22 1.2 0.332 -114.307 17.59 7.578 117.72 0.055 -0.746 0.109 -131.351 1.23 1.3 0.344 -118.555 17.31 7.34 113.555 0.054 -0.378 0.112 -133.452 1.26 1.4 0.354 -121.708 17.02 7.094 109.6 0.054 0.196 0.112 -132.928 1.28 1.5 0.365 -124.791 16.72 6.852 105.757 0.054 0.873 0.112 -132.032 1.3 1.6 0.374 -128.258 16.41 6.611 102.099 0.054 1.593 0.11 -131.702 1.33 1.7 0.38 -131.932 16.08 6.367 98.359 0.054 2.446 0.109 -129.768 1.36 1.8 0.384 -135.369 15.77 6.144 95.013 0.054 3.34 0.108 -128.085 1.39 1.9 0.385 -138.717 15.47 5.933 91.816 0.054 4.303 0.107 -126.452 1.43 2 0.385 -141.873 15.17 5.735 88.751 0.055 5.276 0.107 -125.046 1.45 2.5 0.386 -156.845 13.84 4.919 74.118 0.06 9.497 0.095 -116.467 1.54 3 0.372 -176.34 12.65 4.292 60.211 0.067 11.134 0.088 -105.677 1.6 3.5 0.401 168.241 11.64 3.818 46.163 0.076 9.198 0.077 -84.858 1.56 4 0.44 149.229 10.64 3.404 32.101 0.087 7.141 0.073 -65.916 1.48 4.5 0.523 138.325 9.7 3.054 18.83 0.098 0.17 0.062 -57.413 1.34 5 0.604 120.138 8.67 2.712 3.31 0.105 -6.954 0.059 -28.01 1.26 5.5 0.654 110.499 7.51 2.375 -7.142 0.112 -12.561 0.047 -80.372 1.19 6 0.705 97.495 7.15 2.279 -20.172 0.12 -18.203 0.052 155.488 1.04 6.5 0.686 88.014 6.21 2.045 -29.442 0.127 -23.665 0.132 131.406 1.13 7 0.689 76.575 6.14 2.027 -42.37 0.134 -32.387 0.22 103.966 1.09 7.5 0.666 64.483 5.3 1.84 -55.579 0.138 -39.614 0.245 86.823 1.22 8 0.655 53.916 4.84 1.746 -65.154 0.143 -46.431 0.258 77.488 1.27 9 0.701 34.103 4.22 1.626 -85.653 0.155 -62.116 0.281 53.258 1.17 10 0.763 21.618 3.77 1.544 -101.686 0.156 -76.563 0.324 27.685 1.06 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.83 0.16 73.5 0.14 0.87 1 0.65 0.06 102.7 0.09 0.65 1.5 0.75 0.08 130.2 0.08 0.76 2 0.84 0.11 116.9 0.09 0.85 2.5 0.89 0.13 146.5 0.09 0.91 3 0.92 0.17 169.2 0.08 0.97 3.5 0.99 0.19 -173.3 0.08 1.06 4 1.1 0.23 -159.9 0.09 1.21 4.5 1.19 0.27 -148 0.1 1.35 5 1.28 0.31 -136.6 0.11 1.5 5.5 1.35 0.34 -126.6 0.14 1.64 6 1.48 0.37 -116.7 0.17 1.83 6.5 1.57 0.41 -104.4 0.23 2.04 7 1.61 0.45 -95.6 0.29 2.2 7.5 1.8 0.49 -83.8 0.39 2.53 8 1.9 0.51 -72.7 0.52 2.79 8.5 2.04 0.58 -61.7 0.7 3.21 9 2.15 0.61 -50.6 0.9 3.55 9.5 2.14 0.67 -44 1.14 3.95 10 2.15 0.7 -37.2 1.39 4.29 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 3v, i ds = 20 ma figure 34. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 25 20 15 10 5 0 14 MGA-61563 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 0.258 -51.172 21.73 12.198 158.061 0.052 2.014 0.099 -40.087 1.05 0.2 0.25 -56.504 21.51 11.904 155.623 0.051 1.092 0.088 -41.652 1.08 0.3 0.244 -62.709 21.27 11.575 152.898 0.051 0.144 0.077 -43.544 1.09 0.4 0.24 -69.739 21 11.221 149.889 0.05 -0.783 0.067 -45.521 1.12 0.5 0.24 -77.893 20.69 10.827 146.375 0.05 -1.732 0.057 -47.607 1.14 0.6 0.243 -85.926 20.38 10.448 142.735 0.049 -2.589 0.048 -49.573 1.17 0.7 0.249 -94.008 20.06 10.073 138.745 0.048 -3.388 0.041 -51.583 1.21 0.8 0.259 -101.823 19.75 9.715 134.387 0.047 -4.111 0.036 -55.087 1.25 0.9 0.274 -108.855 19.46 9.397 129.712 0.046 -4.673 0.031 -60.334 1.28 1 0.291 -115.109 19.19 9.106 124.959 0.045 -4.885 0.03 -67.768 1.32 1.1 0.31 -121.201 18.89 8.797 120.01 0.044 -4.77 0.031 -76.35 1.35 1.2 0.325 -126.478 18.6 8.508 115.497 0.043 -4.403 0.033 -84.716 1.4 1.3 0.338 -130.224 18.29 8.209 111.193 0.042 -3.717 0.038 -81.521 1.45 1.4 0.349 -132.947 17.96 7.906 107.096 0.042 -2.688 0.046 -73.894 1.48 1.5 0.36 -135.631 17.63 7.608 103.15 0.041 -1.392 0.056 -69.713 1.53 1.6 0.369 -138.76 17.29 7.316 99.402 0.04 0.046 0.063 -66.588 1.6 1.7 0.377 -142.177 16.92 7.018 95.57 0.04 1.77 0.074 -63.873 1.64 1.8 0.381 -145.435 16.59 6.75 92.158 0.04 3.589 0.084 -62.939 1.69 1.9 0.383 -148.667 16.25 6.495 88.904 0.04 5.522 0.093 -62.666 1.74 2 0.384 -151.757 15.93 6.259 85.777 0.04 7.523 0.101 -62.671 1.79 2.5 0.388 -166.702 14.45 5.277 71.099 0.044 16.605 0.134 -62.685 1.87 3 0.377 174.185 13.14 4.537 57.53 0.052 21.513 0.158 -62.054 1.84 3.5 0.405 159.567 12.1 4.029 43.534 0.063 21.058 0.179 -57.887 1.66 4 0.45 142.877 11 3.547 29.723 0.074 18.662 0.194 -60.531 1.52 4.5 0.535 132.993 10.09 3.196 16.674 0.085 12.703 0.179 -66.476 1.33 5 0.615 116.64 8.97 2.808 1.33 0.095 5.687 0.158 -70.76 1.19 5.5 0.67 107.318 7.97 2.504 -8.953 0.105 -0.575 0.141 -91.464 1.07 6 0.719 95.017 6.79 2.184 -22.571 0.109 -7.968 0.107 -131.65 1.05 6.5 0.701 85.67 6.62 2.143 -32.187 0.12 -14.662 0.115 177.351 1.05 7 0.705 74.436 6.51 2.116 -44.867 0.128 -22.574 0.154 134.222 1.03 7.5 0.68 62.659 5.68 1.923 -57.763 0.133 -30.248 0.171 111.828 1.16 8 0.672 52.622 5.31 1.842 -67.109 0.142 -37.545 0.189 102.359 1.16 9 0.713 32.981 4.67 1.712 -87.656 0.153 -55.08 0.214 73.631 1.08 10 0.775 20.843 4.22 1.625 -103.367 0.154 -69.156 0.252 42.168 0.98 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.78 0.11 53.9 0.13 0.8 1 0.62 0.04 128.5 0.09 0.62 1.5 0.73 0.06 153.5 0.08 0.73 2 0.85 0.07 128.5 0.09 0.86 2.5 0.89 0.1 165.3 0.09 0.9 3 0.94 0.14 -176.9 0.09 0.9 3.5 1 0.16 -160 0.09 1.04 4 1.11 0.2 -151.4 0.1 1.19 4.5 1.2 0.24 -141 0.11 1.33 5 1.28 0.29 -129.1 0.13 1.47 5.5 1.33 0.33 -120.7 0.15 1.59 6 1.44 0.35 -110.4 0.19 1.75 6.5 1.51 0.4 -99.6 0.24 1.96 7 1.56 0.44 -90.9 0.3 2.12 7.5 1.73 0.48 -79.6 0.4 2.44 8 1.87 0.5 -68.5 0.53 2.71 8.5 1.98 0.57 -58.2 0.7 3.12 9 2.08 0.61 -47.5 0.9 3.49 9.5 2.06 0.68 -42 1.12 3.89 10 2.14 0.69 -35.9 1.37 4.22 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 40 ma figure 35. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 25 20 15 10 5 0 15 MGA-61563 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 0.282 -47.273 21.25 11.545 158.421 0.054 2.527 0.125 -36.093 1.05 0.2 0.272 -52.214 21.04 11.27 155.969 0.054 1.488 0.114 -37.862 1.07 0.3 0.264 -58.016 20.8 10.965 153.232 0.053 0.415 0.103 -39.985 1.09 0.4 0.259 -64.681 20.54 10.638 150.206 0.053 -0.65 0.091 -42.301 1.11 0.5 0.256 -72.528 20.23 10.272 146.663 0.052 -1.766 0.08 -44.918 1.14 0.6 0.256 -80.402 19.93 9.922 142.996 0.051 -2.788 0.071 -47.629 1.17 0.7 0.26 -88.469 19.63 9.578 139 0.05 -3.768 0.063 -50.716 1.21 0.8 0.268 -96.405 19.32 9.25 134.641 0.05 -4.68 0.056 -55.147 1.23 0.9 0.281 -103.674 19.05 8.961 129.987 0.049 -5.425 0.051 -60.877 1.26 1 0.297 -110.223 18.79 8.696 125.265 0.048 -5.785 0.05 -67.861 1.29 1.1 0.315 -116.613 18.5 8.417 120.35 0.047 -5.857 0.05 -75.638 1.32 1.2 0.33 -122.127 18.23 8.154 115.866 0.046 -5.678 0.052 -83.182 1.36 1.3 0.343 -126.084 17.93 7.878 111.58 0.045 -5.186 0.056 -82.888 1.4 1.4 0.354 -129.004 17.61 7.596 107.501 0.044 -4.359 0.062 -78.454 1.46 1.5 0.365 -131.861 17.29 7.319 103.564 0.043 -3.279 0.07 -75.544 1.51 1.6 0.375 -135.138 16.96 7.046 99.816 0.043 -2.061 0.077 -73.137 1.54 1.7 0.382 -138.684 16.61 6.766 95.994 0.042 -0.558 0.086 -70.555 1.62 1.8 0.387 -142.036 16.28 6.515 92.571 0.042 1.067 0.094 -69.368 1.66 1.9 0.389 -145.346 15.95 6.276 89.309 0.042 2.822 0.102 -68.763 1.7 2 0.389 -148.494 15.64 6.053 86.177 0.042 4.665 0.109 -68.463 1.75 2.5 0.393 -163.628 14.19 5.125 71.41 0.045 13.477 0.137 -67.173 1.88 3 0.381 177.076 12.92 4.427 57.703 0.052 18.694 0.159 -65.551 1.88 3.5 0.409 162.094 11.91 3.941 43.681 0.062 18.816 0.175 -60.851 1.72 4 0.453 144.8 10.84 3.483 29.8 0.073 16.991 0.189 -62.503 1.56 4.5 0.537 134.597 9.94 3.14 16.717 0.084 11.108 0.173 -68.306 1.37 5 0.617 117.757 8.85 2.769 1.308 0.094 4.307 0.153 -71.488 1.22 5.5 0.67 108.305 7.85 2.468 -8.99 0.104 -1.653 0.139 -92.844 1.1 6 0.72 95.794 7.38 2.34 -22.47 0.107 -8.815 0.107 -134.127 1 6.5 0.7 86.37 6.52 2.118 -32.009 0.119 -15.413 0.12 175.651 1.07 7 0.705 75.123 6.41 2.091 -44.651 0.127 -23.384 0.159 133.509 1.04 7.5 0.679 63.192 5.56 1.897 -57.508 0.133 -30.963 0.176 111.275 1.18 8 0.67 53.114 5.17 1.813 -66.739 0.142 -38.146 0.193 101.783 1.18 9 0.712 33.367 4.51 1.68 -87.168 0.152 -55.653 0.218 73.301 1.1 10 0.775 21.236 4.06 1.595 -102.74 0.154 -69.795 0.255 41.842 0.99 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.77 0.12 64.1 0.13 0.8 1 0.62 0.04 123.1 0.09 0.62 1.5 0.72 0.05 151.4 0.08 0.72 2 0.84 0.07 120 0.09 0.84 2.5 0.87 0.09 158.2 0.09 0.88 3 0.9 0.13 178.1 0.09 0.92 3.5 0.96 0.15 -164.5 0.09 1 4 1.07 0.19 -154.2 0.1 1.14 4.5 1.14 0.24 -144.3 0.11 1.26 5 1.22 0.28 -132.8 0.12 1.38 5.5 1.27 0.31 -122.6 0.14 1.5 6 1.37 0.34 -112.9 0.17 1.65 6.5 1.43 0.39 -101.4 0.22 1.83 7 1.49 0.43 -92.7 0.27 1.99 7.5 1.65 0.47 -81 0.36 2.29 8 1.77 0.5 -69.6 0.48 2.56 8.5 1.91 0.56 -59.6 0.63 2.96 9 2.01 0.59 -48.6 0.81 3.27 9.5 1.92 0.69 -43.2 1.01 3.68 10 2.06 0.68 -36.2 1.25 4 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 30 ma figure 36. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 25 20 15 10 5 0 16 MGA-61563 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 0.331 -40.707 20.31 10.36 158.971 0.059 2.846 0.185 -30.332 1.05 0.2 0.319 -44.963 20.12 10.137 156.547 0.059 1.7 0.172 -32.385 1.06 0.3 0.309 -50.03 19.9 9.887 153.841 0.058 0.505 0.159 -34.783 1.08 0.4 0.301 -55.929 19.66 9.616 150.853 0.058 -0.704 0.146 -37.412 1.1 0.5 0.294 -63.008 19.38 9.306 147.332 0.057 -1.994 0.133 -40.517 1.13 0.6 0.29 -70.33 19.09 9.01 143.712 0.056 -3.204 0.121 -43.825 1.16 0.7 0.29 -78.057 18.81 8.716 139.78 0.055 -4.392 0.112 -47.629 1.19 0.8 0.294 -85.875 18.52 8.437 135.504 0.054 -5.549 0.104 -52.456 1.22 0.9 0.303 -93.285 18.27 8.191 130.948 0.054 -6.523 0.097 -58.097 1.24 1 0.316 -100.155 18.03 7.968 126.318 0.053 -7.137 0.094 -64.409 1.26 1.1 0.331 -106.942 17.77 7.733 121.496 0.052 -7.508 0.093 -71.291 1.29 1.2 0.344 -112.823 17.51 7.51 117.077 0.051 -7.647 0.093 -77.932 1.32 1.3 0.357 -117.203 17.23 7.271 112.853 0.05 -7.501 0.096 -80.117 1.35 1.4 0.368 -120.52 16.93 7.021 108.827 0.049 -7.029 0.101 -79.373 1.4 1.5 0.379 -123.767 16.62 6.776 104.931 0.048 -6.314 0.107 -78.854 1.44 1.6 0.389 -127.358 16.3 6.531 101.213 0.047 -5.473 0.111 -78.207 1.5 1.7 0.396 -131.175 15.96 6.282 97.413 0.046 -4.37 0.118 -76.956 1.56 1.8 0.4 -134.737 15.65 6.057 94.01 0.046 -3.118 0.124 -76.359 1.6 1.9 0.402 -138.207 15.33 5.842 90.761 0.045 -1.695 0.13 -76.042 1.67 2 0.402 -141.477 15.03 5.641 87.643 0.045 -0.143 0.135 -75.885 1.72 2.5 0.404 -157.085 13.63 4.804 72.875 0.047 8.011 0.153 -74.696 1.88 3 0.389 -176.871 12.4 4.169 58.96 0.053 13.668 0.169 -72.122 1.92 3.5 0.417 167.303 11.41 3.718 44.745 0.062 14.795 0.178 -67.081 1.79 4 0.458 148.948 10.34 3.29 30.571 0.072 13.936 0.188 -67.525 1.66 4.5 0.541 137.725 9.43 2.963 17.214 0.083 8.672 0.17 -73.406 1.45 5 0.619 120.137 8.36 2.618 1.451 0.092 2.399 0.149 -75.625 1.3 5.5 0.672 110.331 7.35 2.33 -9.183 0.102 -3.087 0.139 -97.024 1.17 6 0.722 97.526 7.02 2.243 -22.946 0.106 -10.004 0.113 -138.094 1.03 6.5 0.701 87.871 6.05 2.006 -32.817 0.118 -16.47 0.13 175.134 1.11 7 0.705 76.467 5.95 1.983 -45.703 0.126 -24.412 0.169 134.908 1.08 7.5 0.678 64.317 5.12 1.803 -58.887 0.131 -31.864 0.184 112.812 1.23 8 0.667 54.179 4.75 1.728 -68.247 0.141 -38.968 0.199 103.027 1.23 9 0.71 34.216 4.16 1.614 -88.806 0.151 -56.487 0.221 74.675 1.13 10 0.776 21.827 3.75 1.54 -104.552 0.152 -70.39 0.257 43.118 1.01 freq f min opt opt r n/50 nf@50 ? ghz db mag. ang. db 0.5 0.8 0.12 71.2 0.13 0.83 1 0.64 0.04 103.7 0.09 0.64 1.5 0.74 0.05 128.4 0.09 0.74 2 0.84 0.08 107.3 0.1 0.85 2.5 0.88 0.1 143.3 0.09 0.89 3 0.91 0.13 167.4 0.09 0.93 3.5 0.95 0.15 -173.7 0.09 0.99 4 1.04 0.19 -160.6 0.09 1.11 4.5 1.12 0.23 -148.9 0.1 1.23 5 1.19 0.27 -137 0.11 1.34 5.5 1.26 0.3 -126.7 0.13 1.47 6 1.34 0.32 -116.7 0.16 1.6 6.5 1.43 0.37 -104.8 0.21 1.79 7 1.48 0.4 -95.8 0.25 1.92 7.5 1.65 0.45 -84.2 0.33 2.22 8 1.72 0.48 -72.6 0.44 2.44 8.5 1.87 0.55 -61.5 0.59 2.85 9 1.99 0.58 -50 0.76 3.16 9.5 1.94 0.66 -44.5 0.95 3.54 10 1.99 0.68 -37.7 1.16 3.84 typical noise parameters at 25 c, t c = 25 c, z o = 50 ? , v d = 5v, i ds = 20 ma figure 37. mag vs. frequency. frequency (ghz) mag (db) 012 2 4 6 8 10 25 20 15 10 5 0 17 sot-363/sc-70 (jedec dfp-n) package dimensions ordering information part number no. of devices container MGA-61563-tr1 3000 7 reel MGA-61563-tr2 10000 13reel MGA-61563-blk 100 antistatic bag MGA-61563-tr1g 3000 7" reel MGA-61563-tr2g 10000 13" reel MGA-61563-blkg 100 antistatic bag 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 note: for lead-free option, the part number will include the letter "g" at the end. 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 recommended pcb pad layout for agilent's sc70 6l/sot-363 products 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 (dimensions in inches) tape dimensions 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 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. obsoletes 5988-9855en november 17, 2004 5989-1811en |
Price & Availability of MGA-61563
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