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| MGA-30116 150mhz C 1ghz ? watt high linearity amplifi er data sheet description avago technologies MGA-30116 is a high linearity ? watt pa with good oip3 performance and exceptionally good pae at p1db gain compression point, achieved through the use of avago technologies proprietary 0.25um gaas enhancement-mode phemt process. the adjustable temperature compensated internal bias circuit allowed the device to be operated at either class a or class ab operation the MGA-30116 is housed inside a standard 16 pin qfn 3x3 package. applications ? class a driver amplifi er for gsm/cdma base stations. ? general purpose gain block. component image 16 pins qfn 3x3 notes: package marking provides orientation and identifi cation 30116 = device part number yyww = work week and year of manufacture xxxx = last 4 digit of lot number features ? high linearity and p1db ? built in adjustable temperature compensated internal bias circuitry ? gaas e-phemt technology [1] ? standard qfn 3x3 package ? 5v supply ? excellent uniformity in product specifi cations ? tape-and-reel packaging option available ? msl-1 and lead-free ? high mttf for base station application specifi cations 900mhz; 5v, 202.8ma (typical) ? 17.0 db gain ? 44.1 dbm output ip3 ? 27.7 dbm output power at 1db gain compression ? 47.0% pae at p1db ? 2.0 db noise figure notes: 1. enhancement mode technology employs positive gate voltage, thereby eliminating the need of negative gate voltage associated with conventional depletion mode devices. 1 v m 2 vb ias 3 rf in 4 nc rf gn d 1 6 v g 15 gnd 14 nc 1 3 nc 12 v dd /rf ou t 11 v dd /rf ou t 1 0 nc 9 5 nc 6 nc 7 gnd 8 nc 30 11 6 yyww xxxx top view botto m view nc = no t connec t e d gnd attention: ob serve precautions for han d ling electrostatic sensitive d evices. esd machine model = 60 v esd human body model = 300 v refer to avago application note a004r: electrostatic discharge, damage and control.
2 notes: 1. operation of this device in excess of any of these limits may cause permanent damage. 2. thermal resistance measured using infra-red measurement technique. 3. this is limited by maximum vdd and ids. derate 30.3mw/ ? c for tc> 77.5 ? c. a b solute maximum r ating [1] t a = 25 ? c sym b ol p arameter units a b solute max. v dd,max device voltage, rf output to ground v 5.5 i ds,max device drain current ma 400 v ctrl,max control voltage v 5.5 p in,max cw rf input power dbm 22 p diss total power dissipation [3] w 2.2 t j, max junction temperature ? c 150 t stg storage temperature ? c -65 to 150 thermal resistance [2] ? jc = 33 ? c/w (vdd=5, ids=200ma, tc=85 ? c) e lectrical specifi cations [ 4 ] t a = 25 ? c, vdd =5v, vctrl =5v, rf performance at 900 mhz, measured on demo board (see fig. 7) unless otherwise specifi ed. sym b ol p arameter an d test con d ition units min. typ. max. ids quiescent current ma 165 202.8 240 ictrl vctrl current ma - 7 - gain gain db 15.5 17.0 18.5 oip3 [5] output third order intercept point dbm 41 44.1 - op1db output power at 1db gain compression dbm 26.2 27.7 - pae power added effi ciency % - 47.0 - nf noise figure db - 2.0 - s11 input return loss, 50 source db - -14 - s22 output return loss, 50 load db - -14 - s12 reverse isolation db - -23.5 - notes: 4. measurements at 900mhz obtained using demo board described in figure 6 and 7. 5. 900 mhz oip3 test condition: f rf1 - f rf2 = 10mhz with input power of -5dbm per tone measured at worse side band 6. use proper biasing, heat sink and de-rating to ensure maximum channel temperature is not exceeded. see absolute maximum rati ngs and application note (if applicable) for more details. 3 figure 5 . gain at 9 00mhz; lsl=1 5 . 5db , nominal =1 7 .0 db , usl=1 8 . 5db , c p k = 6. 858 st d ev = 0.0 729 notes: 1. distribution data sample size is 500 samples taken from 2 diff erent wafer lots and 3 diff erent wafers. future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 2. measurements were made on a characteriza tion test board, which represents a trade-off between optimal oip3, gain, p1db and pae. circuit trace losses have not been de-embedded from measurements above. p ro d uct consistency distri b ution charts [1, 2 ] figure 3. p 1 db at 9 00mhz; lsl, 2 6. 2db m, nominal= 27 . 7db m figure 1. i d s at 9 00mhz; lsl=16 5 ma, nominal = 2 0 2 . 8 ma, usl= 24 0ma c p k = 2 . 2 0 9 st d ev = 5 .61 2 c p k = 1.6 45 st d ev = 0.6 28 c p k = 27 . 78 st d ev = 0.01 8 st d ev =0.1 87 figure 2 . o i p 3 at 9 00mhz; lsl= 4 1 db , nominal= 44 .1 db m figure 4 . p a e at p 1 db 9 00mhz; nominal= 47 .0% 4 demo b oar d ( 75 0mhz to 1ghz) demo b oar d p art list circuit sym b ol size v alue p art num b er description l1 0402 10nh llp1005-fh10nc (toko) mlc inductor l2 0402 6.8nh llp1005-fh6n8c (toko) mlc inductor l3 0402 8.2nh ll1005-fhl8n2j (toko) mlc inductor l4 0402 15nh mlk1005s15nj (tdk) mlc inductor c1 0402 6pf c1005c0g1h060d (tdk) ceramic chip capacitor c2 0402 1.8pf grm1555c1h1r8cz01b (murata) ceramic chip capacitor c3 0402 4.3pf grm1555c1h4r3cz01b (murata) ceramic chip capacitor c4 0402 5.6pf grm1555c1h5r6cz01b (murata) ceramic chip capacitor c6 0402 100pf grm1555c1h101jz01b (murata) ceramic chip capacitor c7 0402 0.1uf grm155r71e103ka01b (murata) ceramic chip capacitor c8 0402 100pf grm1555c1h101jz01b (murata) ceramic chip capacitor c9 0805 2.2uf grm21br61e225ka12l (murata) ceramic chip capacitor c10 0402 100pf grm1555c1h101jz01b (murata) ceramic chip capacitor c11 0402 100pf grm1555c1h101jz01b (murata) ceramic chip capacitor note: rbias is used to lower the quiescent current. default is 0 ohm figure 6. demo b oar d an d application schematic ( 75 0mhz to 1ghz) 3 4 1 2 10 9 12 11 14 13 16 15 7 8 5 6 rfout l2 l1 rfin l4 l3 vdd vctrl rbias vdd vg rfgnd vm vbias rfin gnd gnd nc nc nc rfout nc nc nc nc c1 c2 c3 c4 c11 c7 c9 c8 c6 c10 vdd rfout top view 3 4 1 2 10 9 12 11 14 13 16 15 7 8 5 6 l2 l1 l4 l3 vdd vctrl rbias vdd vg rfgnd vm vbias rfin gnd gnd nc nc nc rfout nc nc nc nc c1 c2 c3 c4 c11 c7 c9 c8 c6 c10 vdd rfout top view 5 figure 7 . demo b oar d layout ? recommended pcb material is 10 mils rogers ro4350, with fr4 backing for mechanical strength. ? suggested component values may vary according to layout and pcb material. MGA-30116 typical p erformance ( 75 0mhz to 1ghz) t a = +25 ? c, vdd = 5v, vctrl =5v, input signal=cw unless stated otherwise. figure 8 . o ver temperature i d s vs frequency figure 9 . o ver temperature o i p 3 vs frequency 150 160 170 180 200 210 220 230 240 250 0.75 0.8 0.85 0.9 0.95 1 frequency (ghz) ids (ma) 38 39 40 41 42 43 44 45 46 47 48 0.75 0.8 0.85 0.9 0.95 1 frequency (ghz) oip3 (db) 190 85oc 25oc -40oc 85oc 25oc -40oc 6 MGA-30116 typical p erformance ( 75 0mhz to 1ghz) t a = +25 ? c, vdd = 5v, vctrl =5v, input signal=cw unless stated otherwise. figure 10. o ver temperature p 1 db vs frequency figure 1 2 . o ver temperature s11 vs frequency figure 1 4 . o ver temperature s1 2 vs frequency figure 11. o ver temperature gain vs frequency figure 13. o ver temperature s 22 vs frequency figure 1 5 . o ver temperature ac pr ( 9 00mhz) v s p out 85oc 25oc -40oc 24 25 26 27 28 29 30 31 0.75 0.8 0.85 0.9 0.95 1 frequency (ghz) p1db (dbm) 85oc 25oc -40oc 10 11 12 13 14 15 16 17 18 19 20 0.75 0.8 0.85 0.9 0.95 1 frequency (ghz) gain (db) 85oc 25oc -40oc -20 -18 -16 -14 -12 -10 -8 -6 -4 -2 0 0.75 0.8 0.85 0.9 0.95 1 frequency (ghz) s11 (db) -20 -18 -16 -14 -12 -10 -8 -6 -4 -2 0 0.75 0.8 0.85 0.9 0.95 1 frequency (ghz) s22 (db) -30 -29 -28 -27 -26 -25 -24 -23 -22 -21 -20 0.75 0.8 0.85 0.9 0.95 1 frequency (ghz) s12 (db) -65 -60 -55 -50 -45 -40 -35 -30 -25 15 16 17 18 19 20 21 22 23 24 output channel power (dbm) acpr (dbc) 85oc 25oc -40oc 85oc 25oc -40oc 85oc 25oc -40oc 3gpp wcdma test model 1+64dpch +/- 5mhz o?set 3gpp wcdma test model 1+64dpch +/- 5mhz o?set 7 s- p arameter ( vdd = 5v , v ctrl = 5v , t= 25 c, unmatche d 5 0 ohm) freq (ghz) s11 ( db ) s11 (ang) s 2 1 ( db )s 2 1 (ang) s1 2 ( db )s1 2 (ang) s 22 ( db )s 22 (ang) 0.1 0.819 -66.87 36.25 135.3 0.01439 56.48 0.351 -106.5 0.2 0.6424 -106.1 23.96 113.3 0.02695 48.02 0.4369 -140.2 0.3 0.5681 -130.9 17.2 101.3 0.03032 42.92 0.4617 -155.3 0.4 0.5316 -147 13.32 92.88 0.03406 41.9 0.4729 -164.7 0.5 0.5116 -159.1 10.8 86.62 0.03866 42.74 0.4766 -171.1 0.6 0.5009 -168.6 9.069 81.19 0.0432 42.68 0.4793 -176.5 0.7 0.4943 -176.6 7.799 76.55 0.04839 41.84 0.4773 179.4 0.8 0.4905 176.6 6.861 72.06 0.0529 41.61 0.4778 175.7 0.9 0.4873 170.4 6.112 68.09 0.0576 40.96 0.476 172 1 0.4857 164.9 5.514 64.13 0.06263 39.99 0.4748 169 1.5 0.4835 142.2 3.737 46.16 0.08796 31.73 0.4576 155.1 2 0.4751 123.8 2.85 28.84 0.116 20.17 0.4279 141.7 2.5 0.4638 108.1 2.356 11.91 0.1442 7.589 0.3851 128.2 3 0.4474 93.43 2.038 -5.352 0.1734 -6.182 0.3323 112.6 3.5 0.433 78.93 1.808 -23.21 0.2033 -21.36 0.2701 93.95 4 0.429 64.65 1.624 -41.21 0.2311 -37.08 0.2136 69.63 4.5 0.4433 48.8 1.456 -60.71 0.2561 -54.46 0.1842 35.57 5 0.4797 33.04 1.299 -79.6 0.2706 -71.5 0.1845 -0.1869 5.5 0.5308 17.84 1.145 -98.31 0.2812 -88.72 0.1949 -28.5 6 0.5849 4.304 0.9923 -117 0.28 -105.5 0.1758 -50.71 6.5 0.6311 -6.453 0.8475 -134.2 0.2682 -121.8 0.09589 -63.29 7 0.6711 -15.37 0.6847 -151.2 0.25 -136.4 0.1006 46.42 7.02 0.6718 -15.54 0.6791 -151.4 0.2488 -136.8 0.1055 47.03 7.5 0.702 -22.92 0.5296 -161.9 0.2195 -145.6 0.3269 34.85 8 0.7192 -30.47 0.4375 -163.6 0.2083 -148.2 0.5113 11.84 8.5 0.7036 -38.8 0.4401 -164 0.2316 -150.2 0.5983 -9.504 9 0.6344 -44.46 0.4975 -172.7 0.2788 -159.9 0.5515 -29.89 9.5 0.623 -48.02 0.4827 163.9 0.2918 176.7 0.4055 -20.64 10 0.6313 -59.65 0.3887 164.1 0.2573 176.4 0.5668 -27.29 10.5 0.5825 -75.16 0.445 162.5 0.3127 172.2 0.5751 -46.67 11 0.5164 -91.87 0.5292 151.8 0.3834 161.5 0.5242 -66.71 11.5 0.4614 -109.1 0.6084 136.6 0.4587 145.2 0.4551 -90.35 12 0.4244 -125.4 0.668 119 0.5192 126.1 0.3841 -118.8 12.5 0.4056 -142.1 0.6845 101.1 0.5644 107.3 0.2985 -144.4 13.5 0.385 -156.5 0.7347 84.24 0.6157 90.41 0.3366 -168.2 14 0.3726 -176 0.7055 49.21 0.6262 53.26 0.4046 138 14.5 0.3731 166.5 0.736 33.92 0.6716 36.92 0.3906 113.9 15 0.3205 148.6 0.7673 16.35 0.7162 18.91 0.3296 95.44 15.5 0.2225 132.8 0.8008 -3.142 0.7613 -1.432 0.2269 86.25 16 0.08651 165.7 0.8194 -25.57 0.7898 -24.97 0.1099 119.9 16.5 0.2734 -144.7 0.776 -51.48 0.7658 -52.01 0.2566 174.7 17 0.5265 -164 0.6454 -76.43 0.6397 -78.62 0.5016 168 17.5 0.6917 176.9 0.4937 -95.96 0.5045 -99.26 0.6825 155.3 18 0.778 164.8 0.3822 -108.9 0.3851 -112.5 0.7874 146.4 18.5 0.8257 157.3 0.3054 -118.3 0.316 -122.4 0.8485 140.4 19 0.8475 153.3 0.2549 -124.5 0.261 -128.5 0.8782 137 19.5 0.8593 151.2 0.2233 -128.9 0.2331 -134.3 0.8881 134.9 20 0.8592 150.1 0.2099 -132.6 0.2211 -137.5 0.8915 133.4 note: circuit layout refer to figure 16. 8 s- p arameter test circuit figure 16. s- p arameter test circuit. vg vdd 11612a bias network 45 mhz-26.5 ghz 11612a bias network 45 mhz-26.5 ghz j2 rfout reference plane reference plane top view j1 rfin 3 4 1 2 10 9 12 11 14 13 16 15 7 8 5 6 vdd vg rfgnd vm vbias rfin gnd gnd nc nc nc rfout nc nc nc nc vdd rfout 9 s- p arameter ( vdd = 5v , v ctrl = 5v , t= 25 c, unmatche d 5 0 ohm), with l 4 = 1 5 nh, c6 = 100pf freq (ghz) s11 ( db ) s11 (ang) s 2 1 ( db )s 2 1 (ang) s1 2 ( db )s1 2 (ang) s 22 ( db )s 22 (ang) 0.1 0.2568 161.2 13.78 175.8 0.009444 101.7 0.2746 -34.24 0.2 0.1672 164.7 15.64 160.5 0.01771 93.57 0.4101 -66.49 0.3 0.1339 -153.1 16.74 141.1 0.02985 83.91 0.5896 -96.1 0.4 0.2804 -144.2 14.9 117.7 0.03976 67.74 0.6465 -126.2 0.5 0.3701 -158.3 12.01 102.7 0.04382 57.22 0.6219 -144.3 0.6 0.4127 -169.5 9.849 92.68 0.04783 54.35 0.5948 -155.9 0.7 0.434 -178.1 8.307 85.46 0.05033 50.56 0.5741 -164.1 0.8 0.4476 174.6 7.201 79.36 0.05531 48.96 0.5571 -170.5 0.9 0.456 168.5 6.349 74.28 0.05979 46.76 0.5467 -176 1 0.4621 162.9 5.684 69.52 0.06393 44.7 0.537 179.6 1.5 0.474 140.1 3.742 49.18 0.0896 34.64 0.5022 161.6 2 0.4713 122.3 2.861 31.48 0.1158 22.85 0.4649 146.8 2.5 0.4595 106.4 2.36 14.01 0.1449 9.838 0.4205 132.1 3 0.4391 93.36 2.029 -3.058 0.1725 -3.918 0.3676 116.7 3.5 0.43 78.17 1.806 -21.48 0.2036 -19.57 0.301 96.73 4 0.416 64.62 1.611 -40.19 0.2316 -35.9 0.2393 71.35 4.5 0.4298 53.2 1.464 -57 0.2534 -51.13 0.2033 41.6 5 0.4771 36.4 1.298 -78.1 0.2707 -70.57 0.1884 1.547 5.5 0.529 21.01 1.14 -97.23 0.2796 -87.99 0.185 -29.27 6 0.5852 7.048 0.9772 -116.3 0.2741 -105 0.1468 -54.03 6.5 0.6344 -4.632 0.8161 -134.1 0.2564 -121.2 0.04241 -50.92 7 0.6793 -14.22 0.6446 -149.4 0.2351 -133.6 0.1712 53.21 7.5 0.7121 -22.65 0.4994 -157.8 0.2102 -140.4 0.3948 31.35 8 0.7198 -30.56 0.4489 -158.4 0.2158 -142.5 0.5287 6.43 8.5 0.7155 -37.25 0.3997 -161.6 0.2157 -147.8 0.6248 -6.672 9 0.6895 -44.03 0.4167 -163.8 0.242 -151.7 0.6518 -21.27 9.5 0.6597 -51.88 0.4662 -169.9 0.287 -159.2 0.6371 -34.6 10 0.6101 -61.74 0.5308 179.8 0.3463 -169.5 0.596 -47.68 10.5 0.5423 -73.63 0.6054 167.2 0.4186 176.2 0.5318 -63.41 11 0.4595 -87.08 0.6852 149.4 0.4918 159.2 0.4226 -81.47 11.5 0.404 -98.92 0.7138 132 0.5402 140.2 0.359 -100.4 12 0.3637 -116.4 0.744 115.6 0.5821 121.9 0.3031 -125.5 12.5 0.3447 -131.9 0.767 97.51 0.623 103.1 0.2751 -154.6 13 0.3432 -151 0.784 79.81 0.6501 85.67 0.2787 176.6 13.5 0.3322 -171 0.7906 61.96 0.6802 67.27 0.3048 151.7 14 0.2999 170.4 0.776 43.77 0.6889 48.08 0.3259 133.6 14.5 0.2504 155.7 0.7477 27.31 0.6811 30.17 0.3555 116 15 0.211 147.3 0.7599 13.03 0.7052 15.74 0.3124 93.28 15.5 0.1448 140 0.8115 -5.748 0.7699 -3.878 0.1677 81.45 16 0.1042 -155.1 0.8283 -28.92 0.8003 -28.21 0.09555 169 16.5 0.3274 -145.4 0.769 -55.06 0.7618 -55.63 0.3365 -176.2 17 0.5576 -166.2 0.6286 -79.44 0.6235 -81.61 0.5759 169.1 17.5 0.7072 175.6 0.4753 -97.98 0.4856 -101.6 0.7331 155.1 18 0.7852 164.1 0.3653 -109.8 0.3679 -113.4 0.8093 146.1 18.5 0.8251 157 0.2913 -117.8 0.3018 -122.1 0.8536 140.4 19 0.844 153.6 0.2531 -123 0.2596 -127.1 0.877 137.2 19.5 0.8577 151.5 0.2235 -128.5 0.2327 -133.7 0.8891 135.3 20 0.8584 150.2 0.2104 -132 0.2192 -137.1 0.8957 133.5 note: circuit layout refer to figure 17, with l4 = 15 nh, c6 = 100pf 10 s- p arameter ( vdd = 5v , v ctrl = 5v , t= 25 c,unmatche d 5 0 ohm), with l 4 = 100nh, c6 = 1nf freq (ghz) s11 ( db ) s11 (ang) s 2 1 ( db )s 2 1 (ang) s1 2 ( db )s1 2 (ang) s 22 ( db )s 22 (ang) 0.1 0.5555 10.29 35.34 174.2 0.01595 110.7 0.4953 -65.36 0.2 0.5652 -85.53 27.11 125.1 0.02909 57.57 0.5617 -125.6 0.3 0.5267 -124 18.44 106.2 0.03285 48.87 0.5286 -148 0.4 0.508 -144.3 13.83 95.53 0.03656 46.17 0.5126 -160.7 0.5 0.4988 -157.9 11.03 88.31 0.04119 45.19 0.5023 -168.4 0.6 0.4939 -168.1 9.165 82.26 0.04457 44.09 0.4972 -174.9 0.7 0.491 -176.3 7.837 77.29 0.04883 43.54 0.49 -179.7 0.8 0.4886 176.9 6.869 72.51 0.05316 42.65 0.4852 176.2 0.9 0.4882 170.7 6.104 68.36 0.05725 41.06 0.4794 172.2 1 0.4864 164.6 5.426 63.68 0.06378 39.49 0.474 168.2 1.5 0.4837 142.8 3.708 45.42 0.08746 30.28 0.4467 153.3 2 0.4758 124.9 2.815 27.12 0.1145 18.41 0.3984 138.4 2.5 0.4643 110.1 2.305 8.764 0.1405 3.984 0.3289 123.2 3 0.4577 97.19 1.953 -9.91 0.161 -10.33 0.2475 106.1 3.5 0.4543 83.77 1.654 -30 0.1863 -26.26 0.1208 86.57 4 0.4629 71.65 1.32 -49.22 0.1997 -44.31 0.03653 -178 4.5 0.5275 55.55 1.034 -60.21 0.1803 -56.57 0.1689 165.4 5 0.5184 35.23 1.154 -72.72 0.2383 -64.62 0.1434 60.22 5.5 0.5989 22.32 0.8585 -95.63 0.2059 -84.56 0.1319 130.6 6 0.657 5.12 0.7102 -103.2 0.2058 -88.56 0.303 76.52 6.5 0.6875 -8.43 0.6763 -112.5 0.228 -98.33 0.4378 37.31 7 0.7137 -18.74 0.6198 -123.6 0.2438 -109.7 0.5354 14.7 7.5 0.7241 -27.56 0.5931 -133.6 0.2581 -120.6 0.602 -4.645 8 0.718 -34.72 0.5767 -143.5 0.2772 -131.7 0.619 -19.73 8.5 0.691 -40.68 0.574 -156 0.2962 -145 0.5626 -31.17 9 0.681 -46.15 0.5259 -162 0.294 -151.2 0.597 -34.04 9.5 0.6393 -53.84 0.585 -170.5 0.347 -160.2 0.5657 -48.44 10 0.5788 -62.6 0.6443 176.5 0.4063 -172.9 0.4858 -60.16 10.5 0.5028 -72.36 0.6962 161.6 0.4677 171.4 0.3994 -71.89 11 0.4265 -84.11 0.7372 145.1 0.5198 155.6 0.3199 -85.13 11.5 0.3683 -97.04 0.7685 128.3 0.574 137.7 0.2552 -104.2 12 0.335 -117 0.7789 112.7 0.6045 120.7 0.2232 -123.8 12.5 0.291 -137.5 0.8156 95.6 0.6712 102.2 0.2332 -159.9 13 0.2902 -156.5 0.8394 77.54 0.7033 83.72 0.2479 164.5 13.5 0.2995 -175.6 0.8415 59.73 0.728 65.05 0.2676 137.2 14 0.2998 166.6 0.8388 42.03 0.7442 46.45 0.2708 117.2 14.5 0.2813 150.2 0.8378 24.27 0.7641 27.53 0.2565 102 15 0.2247 137 0.8449 5.782 0.7925 8.6 0.1958 85.32 15.5 0.1216 146.5 0.8498 -15 0.8132 -13.14 0.06727 93.91 16 0.1879 -152.9 0.8167 -38.64 0.7948 -37.8 0.1754 -166.3 16.5 0.4125 -159.5 0.7132 -62.79 0.711 -63.33 0.4122 -179 17 0.6075 -175.1 0.5777 -84.42 0.5747 -86.65 0.618 166.5 17.5 0.7305 170.5 0.4383 -100.8 0.4495 -104.4 0.7513 153.2 18 0.795 161.6 0.3427 -111.1 0.3447 -114.9 0.8168 144.9 18.5 0.8315 156 0.2809 -119.2 0.2901 -123.2 0.8596 139.9 19 0.8501 152.7 0.2379 -124.7 0.2442 -128.7 0.8821 136.6 19.5 0.8572 150.8 0.2114 -129.4 0.2222 -134.3 0.8914 134.5 20 0.8568 149.6 0.2022 -132.8 0.2114 -137.5 0.8967 133.1 note: circuit layout refer to figure 17, with l4 = 100 nh, c6 = 1nf 11 s- p arameter test circuit ( 4 00mhz C 7 00 mhz) figure 1 7 . s- p arameter test circuit. j1 rfin vdd vctrl 11612a bias network 45 mhz-26.5 ghz reference plane reference plane top view j2 rfout 3 4 1 2 10 9 12 11 14 13 16 15 7 8 5 6 vdd vg rfgnd vm vbias rfin gnd gnd nc nc nc rfout nc nc nc nc vdd rfout l4 = 15nh c6 = 100pf c10 = 100pf rbias =0 ohm 12 demo b oar d ( 4 00mhz to 7 00mhz) figure 1 8 . demo b oar d an d application schematic ( 4 00mhz to 7 00 mhz) demo b oar d p art list ( 4 00mhz to 7 00mhz) circuit sym b ol v alue p art num b er c1 10 pf murata grm155 series c2 10p murata grm155 series c3 1 nf murata grm155 series c4 100 nf murata grm155 series c5 1 nf murata grm155 series c6 1 nf murata grm155 series c7 1 nf murata grm155 series j1 142-0701-841 johnson edge launch sma female j2 142-0701-841 johnson edge launch sma female l1 22 nh toko ll1005 series l2 15 nh toko ll1005 series l3 100 nh toko ll1005 series l4 100 nh toko ll1005 series q1 mga30116 r1 0 r r2 390 r figure 1 9 . demo b oar d layout for 4 00mhz to 7 00mhz notes: 1. recommended pcb material is 10 mils rogers ro4350, with fr4 backing for mechanical strength. 2. suggested component values may vary according to layout and pcb material. 3 4 1 2 10 9 12 11 14 13 16 15 7 8 5 6 rfout l2 l1 rfin l4 l3 vdd vctrl r1 vdd vg rfgnd vm vbias rfin gnd gnd nc nc nc rfout nc nc nc nc c1 c2 j2 c3 c4 c6 c5 vdd rfout top view 3 4 1 2 10 9 12 11 14 13 16 15 7 8 5 6 r2 vdd vg rfgnd vm vbias rfin gnd gnd nc nc nc rfout nc nc nc nc vdd rfout c7 j1 13 MGA-30116 typical p erformance ( 4 00mhz to 7 00mhz) t a = +25c, vdd = 5v, vctrl =5v, input signal=cw unless stated otherwise. figure 2 0. o ver temperature s11 vs frequency figure 22 . o ver temperature s 22 vs frequency figure 24 . o ver temperature p 1 db vs frequency figure 2 1. o ver temperature s1 2 vs frequency figure 2 3. o ver temperature gain vs frequency figure 25 . o ver temperature o i p 3 vs frequency 24 25 26 27 28 29 30 31 0.4 0.45 0.5 0.55 0.6 0.65 0.7 frequency (ghz) -20 -18 -16 -14 -12 -10 -8 -6 -4 -2 0 0.40 0.45 0.50 0.55 0.60 0.65 0.70 frequency (ghz) s22(db) -20 -18 -16 -14 -12 -10 -8 -6 -4 -2 0 0.40 0.45 0.50 0.55 0.60 0.65 0.70 frequency (ghz) s11(db) 30 32 34 36 38 40 42 44 46 0.4 0.45 0.5 0.55 0.6 0.65 0.7 frequency (ghz) 6 8 10 12 14 16 18 20 0.4 0.45 0.5 0.55 0.6 0.65 0.7 frequency (ghz) -30 -29 -28 -27 -26 -25 -24 -23 -22 -21 -20 0.40 0.45 0.50 0.55 0.60 0.65 0.70 frequency (ghz) s12(db) -40c 25c 85c -40c 25c 85c -40c 25c 85c -40c 25c 85c -40c 25c 85c -40c 25c 85c gain (db) p1db (db) oip3 (db) 14 p c b layout an d stencil design notes: 1. all dimensions are in milimeters. p art num b er o r d ering information p art num b er no. of devices container MGA-30116-tr1g 1000 7 reel MGA-30116-tr2g 3000 13 reel MGA-30116-blkg 100 antistatic bag p ro d uct family o utput p ower frequency b an d 7 00mhz-1ghz 1. 7 - 2 . 7 ghz 3.3-3. 9 ghz 0.5w MGA-30116 mga-30216 mga-30316 1w alm-31122 alm-31222 alm-31322 2w alm-32120 alm-32220 alm-32320 note: MGA-30116 operates from 400mhz to 1ghz. pcb land pattern (top view) stencil outline combined pcb & stencil layouts chamfer 0.24 0.325 1.550 0.560 chamfer 0.06 0.500 0.325 0.230 0.500 0.500 1.550 0.490 0.210 0.350 1.240 1.240 0.490 0.500 0.230 0.210 0.360 1.550 1.240 1.550 1.240 ? 0.260 chamfer 0.192 15 p ackage dimensions device o rientation tape dimensions notes: 1. all dimensions are in milimeters 2. dimensions are inclusive of plating 3. dimensions are exclusive of mold fl ash and metal burr c l 0.3 0.05 3.3 0.1 1.55 0.1 1.6 0.1 r 0.3 typical 1.55 0.05 2.0 0.1 [1] 4.0 0.1 [2] 1.75 0.1 5.5 0.1 [1] 12.0 0.3 3.3 0.1 8.0 0.1 notes: 1. measured from centerline of sprocket hole to centerline of pocket 2. cumulative tolerance of 10 sprocket holes is 0.20 3. all dimensions in millimeter unless otherwise stated user feed direction top view end view user feed direction cover tape carrier tape reel 30116 yyxx xxxx 30116 yyxx xxxx 30116 yyxx xxxx top view side view bottom view 3.00 0.10 3.00 0.10 pin 1 dot by marking 0.20 ref 0.00 0.05 0.85 0.05 30116 yyww xxxx 0.50 bsc 0.230.05 1.50 ref. 1.550.05 exp.dap pin #1 identification chamfer 0.30 x 45 0.400.05 1.550.05 exp.dap 16 ps 6 ps 6 back view ?178.00.5 ?55.00.5 6.25mm embossed letters lettering thickness: 1.6mm see detail "x" slot hole "b" slot hole(2x) 180 apart. slot hole "a": 3.00.5mm(1x) slot hole "b": 2.50.5mm(1x) ?13.0 65 45 r10.65 45 r5.2 embossed ribs raised: 0.25mm, width: 1.25mm 18.0* max. ?51.20.3 ?178.00.5 recycle logo front view 120 1.5 min. ?20.2 min. -0.2 +0.5 detail "x" -0.0 +1.5* 12.4 detail "y" (slot hole) 3.5 1.0 see detail "y" front back front back slot hole "a" ?178.00.5 r eel dimensions - 7 inch ps 6 2 1 12 11 10 9 8 7 2 0 3 5 4 6 6 ps ps 6 cpn 12mm mpn detail "x" recycle logo see detail "x" r19.00.5 ?12.30.5(3x) ?100.00.5 ?329.01.0 11.9-15.4** 18.4 max.* slot 5.00.5(3x) 12.4 +2.0* -0.0 16.0mm height x min. 0.4mm thick. embossed lettering embossed line (2x) 89.0mm length lines 147.0mm away from center point 7.5mm height embossed lettering date code esd logo ?16.0 7.5mm height embossed lettering hub ?100.00.5 ?329.01.0 20.2(min.) 1.5(min.) ?13.0 -0.2 +0.5 back view front view 2 0 12 10 8 7 11 9 1 3 4 6 5 2 r eel dimensions - 13 inch for product information and a complete list of distributors, please go to our web site: www.avagotech.com avago, avago technologies, and the a logo are trademarks of avago technologies in the united states and other countries. data subject to change. copyright ? 2005-2012 avago technologies. all rights reserved. av02-1063en - march 13, 2012 |
Price & Availability of MGA-30116
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