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| 30 mhz to 6 ghz rf/if gain block data sheet ADL5610 rev. a document feedback information furnished by analog devices is believed to be accurate and reliable. however, no responsibility is assumed b y analog devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. specifications subject to change without notice. no license is granted by implication or otherwise under any patent or patent rights of analog devices. trademarks and registered trademarks are the property of their respective owners. one technology way, p.o. box 9106, norwood, ma 02062 - 9106, u.s.a. tel: 781.329.4700 ? 2013 analog devices, inc. al l rights reserved. technical support www.analog.com features fixed gain of 18.4 db broad operation from 30 mhz to 6 ghz high dynamic range gain block input and output internally matched to 50 integrated bias circuit oip3 of 38.8 dbm at 900 mhz p1db of 20. 4 dbm at 900 mhz noise figure of 2. 2 db at 900 mhz single 5 v power supply low quiescent current of 9 2 ma wide operating temperature range of ? 40 c to + 105 c thermally efficient sot - 89 package esd rating of 1.5 kv (class 1c) func tional block diagram figure 1 . general description the ADL5610 is a single - ended rf/if gain block amplifier that provides broadband operation from 30 mhz to 6 ghz. the ADL5610 provide s a low noise figure of 2 .2 db with a very high oip3 of more than 38 dbm simultaneously, which delivers a high dynamic range. the ADL5610 provides a gain of 18 db, which is stable over frequency , temperature, and power supply, and from device to device. the amplif ier is offered in the industry - standard sot - 89 package and is internally matched to 50 at the input and output, making the ADL5610 easy to implement in a wide variety of applications . the only external parts required are the input and output ac coupling capacitors, power supply decoupling capacitors, and bias inductor . the ADL5610 has a high esd rating of 1.5 kv (class 1c) and is fully specified for operation across a wide temperature range of ? 40 c to +105c. a fully populated rohs - compliant evaluation board is a vailable . gnd 1 2 bias 3 gnd ADL5610 (2) rfin rfout 1 1507-001
ADL5610 data sheet rev. a | page 2 of 16 table of contents features .............................................................................................. 1 functional block diagram .............................................................. 1 general description ......................................................................... 1 revision history ............................................................................... 2 specifications ..................................................................................... 3 typical scatte ring parameters (s - parameters) ......................... 5 absolute maximum ratings ............................................................ 7 thermal resistance ...................................................................... 7 esd cautio n .................................................................................. 7 pin configuration and function descriptions ............................. 8 typical performance characteristics ............................................. 9 500 mhz to 6 ghz frequency band .......................................... 9 30 mhz to 500 mhz frequency band ..................................... 10 general ......................................................................................... 11 applications information .............................................................. 13 basic connections ...................................................................... 13 soldering information and recommended pcb land pattern ................................................................................ 14 w - cdma acpr performance ................................................ 14 evaluation board ............................................................................ 15 outline dimensions ....................................................................... 16 ordering g uide .......................................................................... 16 revision history 9 /13 rev . 0 to rev. a added figure 19 ; renumbered sequentially .............................. 11 changes to figure 29 ...................................................................... 14 updated outline dimensions ....................................................... 16 7/13 revision 0: initial version data she et ADL5610 rev. a | page 3 of 16 specifications v pos = 5 v and t a = 25c, unless otherwise noted. table 1. parameter test conditions/comments min typ max unit overall function frequency range 30 6000 mhz frequency = 30 mhz gain 18.1 db output 1 db compression point (p1db) 16.1 dbm output third - order intercept (oip3) f = 1 mhz, output power (p out ) = 3 dbm per tone 30.8 dbm noise figure 1 2.8 db frequency = 140 mhz gain 15.0 db vs. frequency 10 mhz 0.43 db vs. temperature ?40c t a +105c 0.33 db vs. supply 4.75 v to 5.25 v 0.04 db output 1 db compression point 16.0 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 29.3 dbm noise figure 1 2.6 db frequency = 350 mhz gain 18.1 db vs. frequency 10 mhz 0.04 db vs. temperature ?40c t a +105c 0.29 db vs. supply 4.75 v to 5.25 v 0.02 db output 1 db compression point 20.2 dbm output third - order intercept f = 1 mhz, output power (p out ) = 3 dbm per tone 34.6 dbm noise figure 1 2.1 db frequency = 700 mhz gain 18.4 db vs. frequency 50 mhz 0.02 db vs. temperature ?40c t a +105c 0.23 db vs. supply 4.75 v to 5.25 v 0.04 db output 1 db compression point 20.4 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 38.4 dbm noise figure 1 2.2 db frequency = 900 mhz gain 17.4 18.4 19.4 db vs. frequency 50 mhz 0.01 db vs. temperature ?40c t a +105c 0.22 db vs. supply 4.75 v to 5.25 v 0.05 db output 1 db compression point 20.4 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 38.8 dbm noise figure 2.2 db frequency = 1900 mhz gain 16.9 17.9 18.9 db vs. frequency 50 mhz 0.05 db vs. temperature ?40c t a +105c 0.23 db vs. supply 4.75 v to 5.25 v 0.11 db output 1 db compression point 20.1 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 38.7 dbm noise figure 1 2.5 db ADL5610 data sheet rev. a | page 4 of 16 parameter test conditions/comments min typ max unit frequency = 2140 mhz gain 17.8 db vs. frequency 50 mhz 0.03 db vs. temperature ?40c t a +105c 0.25 db vs. supply 4.75 v to 5.25 v 0.13 db output 1 db compression point 19.9 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 36.8 dbm noise figure 1 2.7 db frequency = 2600 mhz gain 17.5 db vs. frequency 50 mhz 0.03 db vs. temperature ?40c t a +105c 0.28 db vs. supply 4.75 v to 5.25 v 0.15 db output 1 db compression point 18.7 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 33.5 dbm noise figure 1 2.8 db frequency = 3500 mhz gain 17.6 db vs. frequency 50 mhz 0.04 db vs. temperature ?40c t a +105c 0.45 db vs. supply 4.75 v to 5.25 v 0.19 db output 1 db compression point 17.4 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 29.4 dbm noise figure 1 3.0 db frequency = 4000 mhz gain 17.9 db vs. frequency 50 mhz 0.04 db vs. temperature ?40c t a +105c 0.84 db vs. supply 4.75 v to 5.25 v 0.24 db output 1 db compression point 16.4 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 27.6 dbm noise figure 1 3.2 db frequency = 5000 mhz gain 15.3 db vs. frequency 50 mhz 0.11 db vs. temperature ?40c t a +105c 1.27 db vs. supply 4.75 v to 5.25 v 0.33 db output 1 db compression point 15.7 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 26.1 dbm noise figure 4.4 db frequency = 5800 mhz gain 13.2 db vs. frequency 50 mhz 0.08 db vs. temperature ?40c t a +105c 1.36 db vs. supply 4.75 v to 5.25 v 0.33 db output 1 db compression point 12.5 dbm output third - order intercept f = 1 mhz, p out = 3 dbm per tone 21.2 dbm noise figure 1 6.1 db data she et ADL5610 rev. a | page 5 of 16 parameter test conditions/comments min typ max unit power interface supply voltage v pos 4.75 5 5.25 v supply current 92 118 ma vs. temperature ?40c t a +105c ? 6/+14 ma power dissipation 460 mw 1 noise figure specified includes printed circuit board (pcb) traces losses. typical scattering p arameters (s - parameters) v pos = 5 v and t a = 25c . table 2. frequency (mhz) s11 s21 s12 s22 magnitude (db) angle ( ) magnitude (db) angle () magnitude (db) angle () magnitude (db) angle () 30 ? 19.575 ? 21.758 18.186 + 167.401 ? 23.536 + 0.034 ? 12.040 ? 154.592 50 ? 13.194 + 17.280 + 16.748 + 158.342 ? 24.873 ? 11.954 ? 8.336 ? 158.609 100 ? 8.023 ? 17.286 + 13.552 + 168.911 ? 27.865 ? 5.368 ? 5.677 ? 189.790 200 ? 10.635 ? 67.774 + 16.801 + 171.154 ? 24.787 ? 2.040 ? 8.176 ? 225.737 300 ? 13.978 ? 93.402 + 17.960 + 154.322 ? 23.679 ? 16.582 ? 10.953 ? 237.962 400 ? 16.890 ? 111.950 + 18.355 + 138.243 ? 23.336 ? 29.568 ? 12.818 ? 242.287 500 ? 14.057 ? 140.270 + 18.204 ? 229.198 ? 23.467 ? 33.884 ? 10.083 + 104.308 600 ? 15.303 ? 160.894 + 18.339 ? 243.615 ? 23.322 ? 45.046 ? 10.629 + 98.947 700 ? 17.025 ? 180.268 + 18.416 ? 258.515 ? 23.214 ? 56.945 ? 11.317 + 95.056 800 ? 18.532 ? 198.771 + 18.434 ? 272.822 ? 23.143 ? 68.374 ? 11.700 + 91.300 900 ? 19.926 ? 216.383 + 18.425 ? 286.779 ? 23.102 ? 79.290 ? 11.891 + 87.191 1000 ? 21.266 ? 233.373 + 18.401 ? 300.434 ? 23.099 ? 90.132 ? 11.967 + 82.648 1100 ? 22.659 ? 248.512 + 18.366 ? 313.941 ? 23.071 ? 100.705 ? 11.951 + 77.917 1200 ? 24.210 ? 262.937 + 18.320 ? 327.244 ? 23.068 ? 111.189 ? 11.897 + 72.400 1300 ? 26.057 ? 274.666 + 18.272 ? 340.437 ? 23.063 ? 121.632 ? 11.812 + 66.929 1400 ? 28.536 ? 282.527 + 18.220 ? 353.552 ? 23.065 ? 131.946 ? 11.702 + 61.131 1500 ? 31.933 ? 279.454 + 18.166 ? 366.576 ? 23.063 ? 142.239 ? 11.599 + 55.505 1600 ? 34.750 ? 255.300 + 18.106 ? 379.548 ? 23.067 ? 152.499 ? 11.467 + 49.533 1700 ? 32.172 ? 220.241 + 18.046 ? 392.387 ? 23.070 ? 162.725 ? 11.381 + 43.914 1800 ? 27.781 ? 211.620 + 17.977 ? 405.225 ? 23.085 ? 173.046 ? 11.275 + 38.152 1900 ? 24.468 ? 218.185 + 17.916 ? 418.174 ? 23.047 ? 183.266 ? 11.132 + 32.216 2000 ? 21.613 ? 222.836 + 17.843 ? 430.638 ? 23.111 ? 193.454 ? 11.136 + 27.227 2100 ? 19.342 ? 232.483 + 17.783 ? 443.294 ? 23.127 ? 203.629 ? 11.017 + 21.933 2200 ? 17.343 ? 243.288 + 17.740 ? 455.878 ? 23.141 ? 213.605 ? 10.826 + 16.768 2300 ? 15.863 ? 253.959 + 17.682 ? 468.509 ? 23.139 ? 223.746 ? 10.670 + 10.889 2400 ? 14.592 ? 264.759 + 17.629 ? 481.088 ? 23.129 ? 233.823 ? 10.488 + 4.907 2500 ? 13.521 ? 275.854 + 17.583 ? 493.684 ? 23.123 ? 243.825 ? 10.295 ? 1.461 2600 ? 12.680 ? 286.432 + 17.533 ? 506.169 ? 23.114 ? 254.026 ? 10.160 ? 8.539 2700 ? 11.965 ? 296.744 + 17.494 ? 518.608 ? 23.122 ? 264.148 ? 10.022 ? 15.582 2800 ? 11.364 ? 307.385 + 17.466 ? 531.068 ? 23.105 ? 274.109 ? 9.909 ? 23.543 2900 ? 10.983 ? 318.098 + 17.441 ? 543.539 ? 23.013 ? 284.190 ? 9.885 ? 32.338 3000 ? 10.683 ? 328.063 + 17.448 ? 555.886 ? 22.967 ? 294.664 ? 9.958 ? 41.038 3100 ? 10.470 ? 338.914 + 17.468 ? 568.495 ? 22.910 ? 304.790 ? 10.016 ? 50.760 3200 ? 10.377 ? 349.594 + 17.503 ? 581.114 ? 22.848 ? 315.180 ? 10.207 ? 61.042 3300 ? 10.454 ? 360.106 + 17.556 ? 593.755 ? 22.757 ? 325.637 ? 10.506 ? 72.485 3400 ? 10.733 ? 371.185 + 17.609 ? 606.730 ? 22.674 ? 336.157 ? 10.842 ? 85.064 3500 ? 11.222 ? 381.299 + 17.683 ? 619.682 ? 22.581 ? 346.908 ? 11.291 ? 98.903 ADL5610 data sheet rev. a | page 6 of 16 frequency (mhz) s11 s21 s12 s22 magnitude (db) angle ( ) magnitude (db) angle () magnitude (db) angle () magnitude (db) angle () 3600 ? 11.851 ? 392.155 + 17.768 ? 633.032 ? 22.457 ? 358.060 ? 11.908 ? 114.642 3700 ? 12.849 ? 403.342 + 17.830 ? 646.607 ? 22.372 ? 369.044 ? 12.522 ? 132.684 3800 ? 14.417 ? 413.805 + 17.904 ? 660.333 ? 22.234 ? 380.712 ? 13.184 ? 153.495 3900 ? 16.531 ? 425.971 + 17.938 ? 674.447 ? 22.200 ? 392.377 ? 13.538 ? 177.923 4000 ? 19.249 ? 436.011 + 18.010 ? 689.430 ? 22.085 ? 405.026 ? 13.882 ? 202.196 4100 ? 24.999 ? 460.302 + 17.915 ? 704.472 ? 22.195 ? 417.459 ? 13.296 ? 228.659 4200 ? 32.089 ? 556.369 + 17.769 ? 719.835 ? 22.338 ? 430.127 ? 12.342 ? 252.450 4300 ? 21.011 ? 617.527 + 17.448 ? 735.470 ? 22.655 ? 442.759 ? 11.165 ? 273.722 4440 ? 14.797 ? 639.680 + 16.876 ? 750.505 ? 23.014 ? 453.711 ? 9.840 ? 292.336 4500 ? 10.740 ? 661.435 + 16.212 ? 763.011 ? 23.353 ? 463.267 ? 8.338 ? 310.540 4600 ? 8.451 ? 681.844 + 15.849 ? 773.947 ? 23.431 ? 472.943 ? 7.134 ? 329.131 4700 ? 7.237 ? 698.863 + 15.707 ? 785.709 ? 23.418 ? 483.451 ? 6.336 ? 346.718 4800 ? 6.447 ? 713.011 + 15.581 ? 798.441 ? 23.453 ? 494.525 ? 5.808 ? 362.618 4900 ? 5.907 ? 724.933 + 15.413 ? 811.388 ? 23.569 ? 505.774 ? 5.457 ? 377.358 5000 ? 5.507 ? 735.570 + 15.210 ? 824.332 ? 23.748 ? 516.626 ? 5.207 ? 391.101 5100 ? 5.147 ? 745.147 + 14.998 ? 837.253 ? 23.929 ? 527.665 ? 5.106 ? 404.171 5200 ? 4.964 ? 754.155 + 14.767 ? 850.018 ? 23.998 ? 538.788 ? 5.099 ? 416.123 5300 ? 4.929 ? 762.147 + 14.507 ? 862.399 ? 24.155 ? 548.537 ? 5.180 ? 428.050 5400 ? 4.758 ? 770.468 + 14.376 ? 874.651 ? 24.220 ? 559.477 ? 5.313 ? 440.141 5500 ? 4.735 ? 779.351 + 14.216 ? 887.558 ? 24.481 ? 568.644 ? 5.672 ? 453.016 5600 ? 4.686 ? 786.735 + 14.109 ? 900.141 ? 24.355 ? 579.878 ? 6.142 ? 464.297 5700 ? 4.708 ? 793.953 + 13.986 ? 913.048 ? 24.406 ? 589.889 ? 6.809 ? 476.641 5800 ? 4.782 ? 800.356 + 13.873 ? 925.986 ? 24.277 ? 599.855 ? 7.749 ? 488.815 5900 ? 4.821 ? 807.419 + 13.750 ? 939.485 ? 24.360 ? 611.222 ? 8.867 ? 501.594 6000 ? 4.831 ? 812.689 + 13.663 ? 952.755 ? 24.108 ? 622.580 ? 10.361 ? 513.719 data she et ADL5610 rev. a | page 7 of 16 absolute maximum rat ings table 3. parameter rating supply voltage, v pos 6.5 v input power (50 impedance) 20 dbm internal power dissipation (pad soldered to ground ) 800 m w esd human body model ( hbm ) rating (esda/ jedec js -001-2011) 1.5 kv maximum junction temperature 150c operating temperature range ?40c to +105c storage temperature range ?65c to +150c stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. thermal resi stance table 4 lists the junction - to - air thermal resistance ( ja ) and the junction - to - case thermal resistance ( jc ) for the ADL5610 . table 4 . thermal resistance package type ja 1 jc 2 unit 3- lead sot - 89 (rk -3) 52 9 c/w 1 measured on the ADL5610 e valuation b oard. for more information about board layout, see the soldering information and recommended pcb land pattern section. 2 based on s imulation with a standard jedec board per jesd51 . esd caution ADL5610 data sheet rev. a | page 8 of 16 pin configuration an d function descripti ons figure 2 . pin configuration table 5. pin function descriptions pin o. nemonic description 1 rfin rf input. this pin requires a dc blocking capacitor. 2 gnd ground. connect this pin to a low impedance ground plane. 3 rfout rf output and supply voltage. dc bias is provided to this pin through an inductor that is connected to the external power supply. the rf path requires a dc blocking capacitor. epad exposed pad. the exposed pad encompasses pin 2 and the tab at the top side of the package. solder the exposed pad to a low impedance ground plane for electrical grounding and thermal transfer. rfin gnd rfout 1 2 3 gnd ADL5610 top view (not to scale) (2) notes 1. the exposed pad encompasses pin 2 and the tab at the top side of the package. solder the exposed pad to a low impedance ground plane for electrical grounding and thermal transfer. 1 1507-002 data she et ADL5610 rev. a | page 9 of 16 typical performance characteristics 500 m h z to 6 gh z frequency band figure 3 . noise figure, gain, p1db, and oip3 vs. frequency figure 4 . gain vs. frequency and temperature figure 5 . oip3 and p1db vs. frequency and temperature figure 6 . oip3 vs. output power (p out ) and frequency figure 7 . output return loss (s22), input return loss (s11), and reverse isolation (s12) vs. frequency figure 8 . noise figure vs. frequency and temperature 0 5 10 15 20 25 30 35 40 45 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 frequency (ghz) noise figure, gain, p1db, oip3 (db, dbm) p1db (dbm) oip3 (dbm) gain (db) noise figure (db) 11507-103 0 5 10 15 20 25 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 gain (db) frequenc y (ghz) +105c +85c +25c ?40c 1 1507-104 0 5 10 15 20 25 30 35 40 45 0 5 10 15 20 25 30 35 40 45 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 p1db (dbm) oip3 (dbm) frequency (ghz) +105c +85c +25c ?40c 11507-105 15 20 25 30 35 40 45 ?4 ?2 0 2 4 6 oip3 (dbm) p out per tone (dbm) 700mhz 900mhz 1900mhz 2140mhz 2600mhz 3500mhz 5000mhz 4000mhz 5800mhz 11507-106 ?40 ?35 ?30 ?25 ?20 ?15 ?10 ?5 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 s-parameters (db) frequency (ghz) s22 s12 s11 11507-107 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 frequency (ghz) 0 1 2 3 4 5 6 7 8 noise figure (db) +105c +85c +25c ?40c 11507-108 ADL5610 data sheet rev. a | page 10 of 16 30 mh z to 500 mh z frequency band figure 9 . noise figure, gain, p1db, and oip3 vs. frequency, l ow f requency configuration figure 10 . gain vs. frequency and temperature, low frequency configuration figure 11 . oip3 and p1db vs. frequency and temperature, low frequency configuration figure 12 . oip3 vs. output power (p out ) and frequency, low frequency configuration figure 13 . output return loss (s22), input return loss (s11), and reverse isolation (s12) vs. frequency, low frequency configuration figure 14 . noise figure vs. frequency and temperature, low frequency configuration 0 5 10 15 20 25 30 35 40 45 0 50 100 150 200 250 300 350 400 450 500 noise figure, gain, p1db, oip3 (db, dbm) frequenc y (mhz) noise figure (db) gain (db) oip3 (dbm) p1db (dbm) 1 1507-109 0 5 10 15 20 25 0 50 100 150 200 250 300 350 400 450 500 gain (db) frequenc y (mhz) +105c +25c +85c ?40c 1 1507- 1 10 0 5 10 15 20 25 30 35 40 45 0 5 10 15 20 25 30 35 40 45 0 50 100 150 200 250 300 350 400 450 500 p1db (dbm) oip3 (dbm) frequency (mhz) +105c +25c +85c ?40c 11507-111 15 20 25 30 35 40 45 ?4 ?2 0 2 4 6 oip3 (dbm) p out per tone (dbm) 11507-112 30mhz 140mhz 350mhz ?35 ?30 ?25 ?20 ?15 ?10 ?5 0 0 50 100 150 200 250 300 350 400 450 500 frequency (mhz) s-parameters (db) s22 s11 s12 11507-113 0 1 2 3 4 5 6 7 8 0 50 100 150 200 250 300 350 400 450 500 noise figure (db) frequenc y (mhz) +105c +85c +25c ?40c 1 1507- 1 14 data she et ADL5610 rev. a | page 11 of 16 general figure 15 . supply current vs. temperature figure 16 . gain distribution at 900 mhz figure 17 . gain distribution at 1 900 mhz figure 18 . supply current vs. p out at 900 mhz figure 19 . supply current vs. p out and temperature , v cc = 5 v at 900 mhz figure 20 . gain distribution at 260 0 mhz 70 80 90 100 1 10 120 130 140 ?40 ?30 ?20 ?10 0 10 20 30 40 50 60 70 80 90 100 1 10 supp l y current (ma) temper a ture (c) 5v 5.25v 4.75v 1 1507-121 0 10 20 30 40 50 60 70 18.0 18.1 18.2 18.3 18.4 18.5 18.6 18.7 18.8 18.9 19.0 percen t age (%) gain (db) 1 1507-122 0 10 20 30 40 50 17.5 17.6 17.7 17.8 17.9 18.0 18.1 18.2 percen t age (%) gain (db) 1 1507- 1 17 80 85 90 95 100 105 1 10 ?5 0 5 10 15 20 supp l y current (ma) p out (dbm) 4.75v 5v 5.25v 1 1507-124 75 80 85 90 95 100 105 1 10 1 15 ?6 ?4 ?2 0 2 4 6 8 10 12 14 16 18 20 22 supp l y current (ma) p out (dbm) +25c ?40c +85c +105c 1 1507-219 0 10 20 30 40 50 60 17.1 17.2 17.3 17.4 17.5 17.6 17.7 17.8 percen t age (%) gain (db) 1 1507- 1 19 ADL5610 data sheet rev. a | page 12 of 16 figure 21 . gain distribution at 40 00 mhz figure 22 . p1db distribution at 900 mhz figure 23 . oip3 distribution at 900 mhz, p out = 3 dbm per tone figure 24 . noise figure distribution at 900 mhz figure 25 . single - tone harmonics vs. frequency, p out = 0 dbm 0 5 10 15 20 25 30 35 17.6 17.7 17.8 17.9 18.0 18.1 18.2 18.3 percen t age (%) gain (db) 1 1507-120 percen t age (%) 0 5 10 15 20 25 30 35 40 45 50 20.0 20.1 20.2 20.3 20.4 20.5 20.6 20.7 20.8 20.9 p1db (dbm) 1 1507-123 0 5 10 15 20 25 30 35 40 45 50 37.0 37.5 38.0 38.5 39.0 39.5 40.0 40.5 41.0 percen t age (%) oip3 (dbm) 1 1507-125 0 10 20 30 40 50 60 70 2.0 2.1 2.2 2.3 2.4 2.5 percen t age (%) noise figure (db) 1 1507-126 0 ?100 ?90 ?80 ?70 ?60 ?50 ?40 ?30 ?20 ?10 0 0.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 harmonics (dbc) frequency (ghz) h2 h3 1 1507-127 data she et ADL5610 rev. a | page 13 of 16 applications informa tion basic connections figure 26 shows the basic connections for operating the ADL5610 . the device supports operation from 30 mhz to 6 ghz. however, for optimal p erformance at lower frequency bands, the board configuration must be adjusted. tabl e 6 lists the recommended board configuration to operate the device at various frequency bands . figure 26 . basic connections a 5 v dc bias is supplied to the amplifier through the bias inductor connected to rfout (pin 3). decouple t he bias voltage using 68 pf, 1.2 nf, and 1 f power supply decoupling capacitors. the typical current consumption for the ADL5610 is 9 2 ma. at low frequencies, the device exhibits improved performance with the suggested setup configuration listed in tabl e 6 . figure 27 and figure 28 provide a comparison of the performance of the device at the 30 mhz to 500 mhz band when driven with the optimal setup configuration and the default setup configuration. figure 27 . noise figure, gain, p1db, and oip3 vs. frequency, 3 0 mhz to 500 mhz, comparison of performance with the optimized settings and the default configuration figure 28 . output return loss (s22), input return loss (s 11), and reverse isolation (s12) , 3 0 mhz to 500 mhz, comparison of performance with the optimized settings and the default configuration table 6 . recommended components for basic connections frequency band ac coupling capacitors (0402) dc bias inductor (0603hp) c1 (nf) c2 (nf) l1 (n h ) 500 mhz to 6 ghz 100 100 43 30 mhz to 500 mhz 100 100 1000 rfin gnd gnd rfout 1 2 (2) 3 ADL5610 l1 vpos gnd rfin c1 rfout c2 c6 1f c5 1.2nf c4 68pf 11507-222 0 5 10 15 20 25 30 35 40 45 0 50 100 150 200 250 300 350 400 450 500 noise figure, gain, p1db, oip3 (db, dbm) frequenc y (mhz) gain (db), de f au l t setu p configur a tion gain (db), low frequenc y configur a tion oip3 (dbm), de f au l t setu p configur a tion oip3 (dbm), low frequenc y configur a tion p1db (dbm), de f au l t setu p configur a tion p1db (dbm), low frequenc y configur a tion noise figure (db), de f au l t setu p configur a tion noise figure (db), low frequenc y configur a tion 1 1507-129 ?35 ?30 ?25 ?20 ?15 ?10 ?5 0 0 50 100 150 200 250 300 350 400 450 500 s p arameters (db) frequenc y (mhz) s12, de f au l t setu p configur a tion s12, low frequenc y configur a tion s 1 1, de f au l t setu p configur a tion s22, de f au l t setu p configur a tion s 1 1, low frequenc y configur a tion s22, low frequenc y configur a tion 1 1507-130 ADL5610 data sheet rev. a | page 14 of 16 soldering informatio n and recommended pcb land pattern figure 29 shows the recommended land pattern for the ADL5610 . to minimize thermal impedance, the exposed pad on the underside of the sot - 89 package is soldered to a ground plane, along with pin 2. if multiple ground layers exist, stitch the layers together using vias. figure 29 . recommend ed land pattern the land pattern on the ADL5610 evaluation board provides a measured thermal resistance ( ja ) of 5 2 c/w. to measure ja , the temperature at the top of the sot - 89 package is sense d with an ir temperature gun. thermal simulation suggests a junction temperature that is 10c higher than the top - of - package temperature. with additional measurements of the ambient temperature and input/output (i/o) power, ja can be determined. w - cdma acpr performance figure 30 shows a plot of the adjacent channel power ratio (acpr) vs. p out for the ADL5610 . the signal type used is a single wideband code division multiple access (w - cdma) carrier (test model 1 - 64) at 2140 mhz. this signal is generated by a very low acpr source. acpr is measured at the output by a high dynamic range spectrum analyzer that incorporates an instrument n oise correction function. figure 30 . acpr vs. p out , single w - cdma carrier (test model 1 - 64) at 2140 mhz the ADL5610 achieve s an acpr of ?8 1 dbc at an output power level of ? 5 dbm, at which point the device noise and not distortion begins to dominate the power in the adjacent channels. at an output power level of 5 dbm, acpr is still very low at ?6 5 dbc. 1 1507-229 3.00mm 3.48mm 1.80mm 5.37mm 0.20mm 0.762mm 0.635mm 0.62mm 0.86mm 0.86mm 1.50mm 1.27mm 0 ?90 ?80 ?70 ?60 ?50 ?40 ?30 ?20 ?10 ?20 ?15 ?10 ?5 0 10 5 acpr at 5mhz carrier offset (dbc) p out (dbm) 1 1507-138 data she et ADL5610 rev. a | page 15 of 16 evaluation board figure 31 shows the ADL5610 evaluation board layout . figure 32 shows the schematic for the evaluation board. the board is powered by a single 5 v supply. table 7 lists the components used on the evaluation board. power can be applied to the board through clip - on terminals (vcc and gnd ). figure 31 . evaluation board layout (to p) figure 32 . evaluation board schematic table 7 . evaluation board configuration options component description default value c1, c2 ac coupling capacitors c1, c2 = 100 n f, 0402 l1 dc bias inductor l1 = 43 nh, 0603 (coilcraft 0603hp or equivalent) r5 bias resistor r5 = 0 , 0402 v cc and gnd clip - on terminals for power supply not applicable c4, c5, c6 power supply decoupling capacitors c4 = 68 pf, 0603 ; c5 = 1.2 nf, 0603; c6 = 1 f, 1206 11507-327 rfin gnd gnd rfout 1 2 (2) 3 ADL5610 l1 43nh vcc gnd rfin c1 100nf rfout c2 100nf c6 1f c5 1.2nf c4 68pf 11507-228 r5 0? ADL5610 data sheet rev. a | page 16 of 16 outline dimensions figure 33 . 3 - lead small outline transistor package [sot - 89] (rk - 3) dimensions shown in m illimeters ordering guide model 1 temperature range package description package option ADL5610 arkz - r7 ?40c to +10 5c 3 - lead sot - 89, 7 tape and reel rk - 3 ADL5610 - evalz evaluation board 1 z = rohs compliant part. compliant to jedec standards to-243 4.25 3.94 4.60 4.40 1.75 1.55 1.50 ty p 3.00 ty p end view 2.60 2.30 1.20 0.75 1 2 (2) 3 2.29 2.14 0.56 0.36 0.52 0.32 1.60 1.40 0.44 0.35 t op view bottom view 2.413 2.380 2.337 1.270 1.252 1.219 0.635 0.569 0.508 09-12-2013-c pkg-003480 ? 2013 analog devices, inc. all rights reserved. trademarks and registered trademarks are the property of their respective owners. d11507 - 0 - 9/13(a) |
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