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| broadcom - 1 - description avago technologies MGA-13316 is a two stage, easy-to-use gaas mmic low noise smplifier (lna). the lna has low noise with good input return loss and high linearity achieved through the use of avago technologies proprietary 0.25-m gaas enhancement-mode phemt process. minimum matching is required for input, output, and the inter-stage between the two lnas. it is designed for optimum use between 2.2 ghz to 4 ghz. mga-13116 is recommended for optimum performance at lower frequencies from 400 mhz to 1.5 ghz. mga-13216 is recommended for optimum performance at frequencies from 1.5 ghz to 2.5 ghz. all of these three products, mga-13116, mga-13216, and MGA-13316, share the same package and pinout configuration. at tention observe precautions for handling electrostatic sensitive devices. ? esd machine model = 90 v ? esd human body model = 600 v refer to avago applic ation note a004r: electrostatic discharge, damage and control . features ? low noise figure ? high gain ? high linearity performance ? excellent isolation ? gaas e-phemt technology ? low-cost small package size: 4.0 mm 4.0 mm 0.85 mm ? excellent uniformity in product specifications ? meets msl1, lead-free and halogen free specifications 2.5 ghz; q1: 5 v, 53 ma (typ) q2: 5 v, 116 ma (typ) ? 0.76 db noise figure ? 34.3 db gain ? 50.3 db rfout q1 to rfin q2 isolation ? 41.8 dbm output ip3 ? 23.5 dbm output power at 1db gain compression applications ? low noise amplifier for cellul ar infrastructu re, including gsm, cdma, td-lte, and w-cdma. ? other very low noise applications. MGA-13316 high gain, high linearity low noise amplifier data sheet
broadcom - 2 - MGA-13316 data sheet pin configuration and package marking pin configuration and package marking 4.0 mm 4.0 mm 0.85 mm 16-lead qfn figure 1 pin configuration and packing marking note package marking provides orientation and identification: 13316 = product code yyww = year and work week of manufacture xxxx = lot number figure 2 simplified schematic note enhancement mode technology uses positive gate bias, thereby eliminating the need of negative gate voltage associated with conventional depletion mode devices. nc pin 8 nc pin 7 nc pin 6 nc pin 5 pin 13 rfin q2 pin 14 nc pin 15 nc pin 16 rfout q1 pin 1 nc pin 2 vbias pin 3 rfin q1 pin 4 nc nc pin 12 rfout q2 pin 11 rfout q2 pin 10 nc pin 9 gnd all other pins nc C not connected avago 13316 yyww xxxx 1 2 3 4 10 11 12 9 16 15 14 13 5 6 7 8 q1 bias q1 q2 r4b c10 c8 r2 l3 r3 l1 c7 vdd1 c9b c1 c6 c3 l2 c5a c2 vdd2 c4 rfin rfout l4 r1 broadcom - 3 - MGA-13316 data sheet electrical specifications, electrical specifications 1 , 2 rf performance at v dd1 = 5 v, v dd2 = 5 v, 2.5 ghz, t a = 25c, measured on the demo board. table 1 absolute maximum rating, a t a = 25c a. operation of this device in excess of any of these limits may cause permanent damage. symbol parameter units absolute maximum v dd1 device voltage v 5.5 v dd2 device voltage v 5.5 i dd1 q1 drain current ma 90 p d power dissipation b b. this is limited by maximum vd and id. board temperature (t c ) is 25c. for t c >103c, derate the device power at 25 mw per c rise in board temperature adjace nt to package bottom. w1.19 p in,max cw rf input power dbm 20 t j,max junction temperature c 150 t stg storage temperature c C65 to 150 table 2 thermal resistance a a. thermal resistance measured usin g infra-red microscopy technique. (v dd1 = 5.0 v, i dd1 = 53 ma, v dd2 = 5.0 v, i dd2 = 116 ma), ? jc = 39.59c/w 1. measurements obtained using demo board described in figure 9 with component list in table 4 . input and output trace loss is not de-embedded from the measurement. 2. use proper bias, heatsink and derating to ensure maximum channel temperature is not exceeded. see table 1 and refer to the application note for more details. table 3 symbol parameter and test condition units min. typ. max. i dd1 current at q1 ma 40 53 68 i dd2 current at q2 ma 101 124 143 nf noise figure db 0.76 1.1 gain gain db 33 34.3 36.3 oip3 a a. oip3 test condition: f tone1 = 2500 mhz, f tone2 = 2501 mhz with input power of C27 dbm per tone. output third order intercept point dbm 37 41.8 op1db output power at 1 db gain compression dbm 22.1 23.5 irl input return loss, 50 ? source db C19.5 orl output return loss, 50 ? load db C10.5 |s12| reverse isolation db 50 |isol 1-2 | isolation between output pin to input pin db 50.3 broadcom - 4 - MGA-13316 data sheet product consistency distribution charts, product consistency distribution charts 1 , 2 1. data sample size is 11 kpcs samples taken from three different wafers. future wafers allocated to this product may have nomin al values anywhere between the upper and lower limits. 2. measurements are made on a production te st board that represents a trade-off betw een optimal gain, nf, oip3, and op1db. circu it losses have been de-embedded from actual measurements. figure 3 i dd1 @ 2.5 ghz, vdd1 = 5 v, lsl = 40 ma, nominal = 53 ma, usl = 68 ma figure 4 i dd2 @ 2.5 ghz, v dd2 = 5 v, lsl = 96 ma, nominal = 116 ma, usl = 138 ma lsl usl 40 50 60 70 lsl usl 90 100 110 120 130 140 figure 5 noise figure 2.5 ghz, v dd1 5 v, v dd2 5 v, nominal 0.76 db, usl 1.1 db figure 6 gain 2.5 ghz, v dd1 5 v, v dd2 5 v, lsl 33 db, nominal 34.3 db, usl 36.3 db usl 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 1.2 lsl 37 38 39 40 41 42 43 44 45 46 figure 7 oip3 2.5 ghz, v dd1 5 v, v dd2 5 v, lsl 37 dbm, nominal 41.8 dbm figure 8 op1db 2.5 ghz, v dd1 5 v, v dd2 5 v, lsl 22.1 dbm, nominal 23.5 dbm lsl 37 38 39 40 41 42 43 44 45 46 lsl 22 23 24 25 broadcom - 5 - MGA-13316 data sheet product consistency distribution charts, figure 9 demo board layout recommended pcb material is 10 mils rogers r04350. suggested component values may vary according to layout and pcb material. figure 10 demo board schematic diagram 1 2 3 4 10 11 12 9 16 15 14 13 5 6 7 8 q1 bias q1 q2 r4b c10 c8 r2 l3 r3 l1 c7 vdd1 c9b c1 c6 c3 l2 c5a c2 vdd2 c4 rfin rfout l4 r1 broadcom - 6 - MGA-13316 data sheet product consistency distribution charts, table 4 component list for 2.5 ghz matching part size value detail part number notes c1 402 1.8 pf (murata) grm1555c1h1r8cz01d dc blocking capacitor c2 402 100 pf (murata) grm1555c1h101jd01e dc blocking capacitor c3 402 2.7 pf (murata) mch155a2r7jk bypass capacitor c4 402 0.1 f (murata) grm155r61a104ka01d bypass capacitor c5a 603 2.2 f (murata) grm188r61a 225ke34d bypass capacitor c5b n/a n/a n/a not used c6 402 1000 pf (murata) grm155r71h102ka01e dc blocking capacitor c7 402 10 pf (murata) grm1555c1h100jz01e bypass capacitors c8 402 10 pf (murata) grm1555c1h100jz01e bypass capacitors c9a n/a n/a n/a not used c9b 402 4.7 f (murata) grm155r60e 475me760 bypass capacitors c10 402 4.7 f (murata) grm155r60e 475me760 bypass capacitors c11 n/a n/a n/a not used c12 n/a n/a n/a not used c13 n/a n/a n/a not used l1 402 6.8 nh (coilcraft) 0402cs-6n8xjbw input match for nf l2 402 3.3 nh (toko) ll1005-fhl3n3s output match for q2 l3 402 6.8 nh (toko) ll1005-fhl6n8j output match for q1 l4 402 3.6 nh (coilcraft) 0402cs-3n6xjbw input match for q1 l5 n/a n/a n/a not used r1, r2 402 0 ohm (koa) rk73z1eltp bridging resistors r3 402 49.9 ohm (koa) rk73h1eltp49r9f stabilizing resistor for q1 r4a n/a n/a n/a not used r4b 402 3.6 kohm (rohm) mcr01j362 biasing resistor for q1 r5 n/a n/a n/a not used broadcom - 7 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz MGA-13316 typical performance in demoboard for 2.5 ghz t a = 25c, v dd1 = 5.0 v, v dd2 = 5.0 v, i dd1 = 53 ma, i dd2 = 116 ma figure 11 nf vs. frequency and temperature figure 12 gain vs. frequency and temperature -40 c 25 c 85 c 0.2 0.4 0.6 0.8 1 1.2 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3 3.1 nf (db) frequency (ghz) -40 c 25 c 85 c 20 25 30 35 40 1.5 2 2.5 3 3.5 4 gain (db) frequency (ghz) figure 13 oip3 vs. frequency and temperature f igure 14 op1db vs. frequency and temperature -40 c 25 c 85 c 34 36 38 40 42 44 46 48 50 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3 3.1 oip3 (dbm) frequency (ghz) -40 c 25 c 85 c 21 21.5 22 22.5 23 23.5 24 24.5 25 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3 3.1 op1db (dbm) frequency (ghz) figure 15 input return loss, output return loss, gain, and reverse isolation vs. frequency figure 16 k-factor vs. frequency and temperature rev isol irl orl gain 0 -70 -60 -50 -40 -30 -20 -10 10 20 30 40 012345 irl,orl,gain,rev isol (db) frequency (ghz) -40 c 25 c 85 c 0 0.5 1 1.5 2 2.5 3 3.5 4 5 4.5 0 2 4 6 8 101214161820 k-factor frequency (ghz) broadcom - 8 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz MGA-13316 typical performance in demoboard for 2.5 ghz t a = 25c, v dd1 = 5.0 v, v dd2 = 5.0 v, i dd1 = 53 ma, i dd2 = 116 ma figure 17 irl vs. frequency and temperature figure 18 orl vs. frequency and temperature -25 -20 -15 -10 -5 2 2.5 3 3.5 4 irl (db) frequency (ghz) -40 c 25 c 85 c -25 -20 -15 -10 -5 2 2.5 3 3.5 4 orl (db) frequency (ghz) -40 c 25 c 85 c figure 19 i dd1 vs. v dd1 and temperature figure 20 i dd2 vs. v dd2 and temperature 0 10 20 30 40 50 60 70 0123456 idd1 (ma) vdd1 (v) -40 c 25 c 85 c 0 20 40 60 80 100 120 140 160 0123456 idd2 (ma) vdd2 (v) -40 c 25 c 85 c figure 21 oip3 vs. output poer and temperature at 2.5 ghz 20 25 30 35 40 45 50 0 5 10 15 20 25 oip3 (dbm) pout (dbm) -40 c 25 c 85 c broadcom - 9 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz table 5 MGA-13316 q1 typical scattering parameters, vdd1 = 5 v, idd1 = 50 ma freq ghz s11 s21 s12 s22 mag. ang. mag. ang. mag. ang. mag. ang. 0.1 0.9476 C12.2632 34.5057 160.7532 0.0047 11.7831 0.5890 C19.3593 0.5 0.7044 C47.1391 21.9467 122.3275 0.0042 57.5859 0.3650 C23.2918 0.9 0.5242 C68.5640 15.4283 98.9990 0.0082 67.2825 0.3377 C27.1103 1.0 0.4951 C72.7375 14.2599 94.3046 0.0090 71.7130 0.3295 C28.6361 1.5 0.3999 C90.7648 10.3743 74.9007 0.0135 73.4180 0.2990 C38.7699 1.7 0.3773 C97.0091 9.3573 68.1636 0.0156 74.2662 0.2845 C44.4387 1.9 0.3628 C102.5217 8.5296 61.7988 0.0171 73.3113 0.2709 C51.0121 2.0 0.3568 C105.3332 8.1756 58.6806 0.0185 74.7631 0.2648 C54.4426 2.5 0.3462 C117.1978 6.7358 43.8914 0.0241 73.9083 0.2413 C74.2707 3.0 0.3480 C125.6487 5.7740 29.9534 0.0300 72.3617 0.2386 C96.7672 4.0 0.3658 C137.1290 4.5433 3.0393 0.0458 66.7425 0.2715 C139.7999 5.0 0.4085 C153.2931 3.7927 C25.8685 0.0650 56.1926 0.3428 176.4105 6.0 0.4702 C176.1741 3.1671 C57.5236 0.0866 40.6304 0.4772 127.2305 7.0 0.5235 160.4259 2.4253 C89.2923 0.1022 22.5904 0.6697 93.7068 8.0 0.5567 142.9302 1.7724 C117.9984 0.1099 6.0176 0.7884 71.4942 9.0 0.5652 128.2157 1.3338 C143.5986 0.1175 C9.2834 0.8651 53.9815 10.0 0.5764 112.2267 1.0609 C169.8542 0.1303 C26.3840 0.9135 33.9307 11.0 0.6110 94.0142 0.8212 162.0386 0.1380 C46.0835 0.9153 9.5407 12.0 0.6359 74.4400 0.5789 137.9581 0.1302 C62.5887 0.9319 C4.7026 13.0 0.6909 61.5493 0.4055 119.0601 0.1192 C74.3752 1.0008 C6.4422 14.0 0.7561 55.5470 0.2934 102.1102 0.1122 C85.6306 0.9811 C8.8053 15.0 0.7687 49.0968 0.2247 82.2629 0.1099 C100.4473 0.9427 C20.3955 16.0 0.7709 25.7908 0.1633 55.9850 0.0967 C125.5991 0.9539 C37.7405 17.0 0.7710 C16.0165 0.0954 39.5175 0.0439 C147.7475 0.9593 C46.7449 18.0 0.1200 C24.7870 0.1282 27.9369 0.1451 C96.9288 0.9194 C57.6137 19.0 0.6142 21.6007 0.0644 10.0400 0.1137 C170.9741 0.9265 C68.6984 20.0 0.6121 C12.3158 0.0749 C32.7215 0.0722 C140.1984 0.8915 C78.5449 broadcom - 10 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz figure 22 rf reference planes note measurements are made on 10 mils rogers r04350 trl board. figure 20 shows the input and output reference plane for q1. table 6 MGA-13316 q1 typical noise parameters, v dd1 = 5 v, i dd1 = 50 ma freq ghz nfmin db gammaopt mag phiopt deg rn/50 1.50 0.46 0.29 43.20 0.06 1.70 0.45 0.30 63.30 0.06 1.90 0.58 0.27 66.60 0.06 2.00 0.54 0.26 84.50 0.06 2.20 0.53 0.21 88.20 0.05 2.50 0.60 0.17 112.90 0.05 2.70 0.67 0.17 160.50 0.04 2.90 0.68 0.17 157.80 0.05 3.30 0.68 0.24 -172.20 0.05 3.50 0.72 0.29 170.90 0.05 4.00 0.78 0.40 179.40 0.03 15 12 14 11 13 9 8 7 6 5 4 2 16 10 3 1 bias lna2 lna1 rf input reference plane rf output reference plane broadcom - 11 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz table 7 MGA-13316 q2 typical scattering parameters, v dd2 = 5 v, i dd2 = 116 ma freq ghz s11 s21 s12 s22 mag. ang. mag. ang. mag. ang. mag. ang. 0.1 0.8724 172.0353 0.1413 C112.7154 0.0036 65.3831 0.8292 174.6930 0.5 0.8474 140.1052 1.5607 C80.8803 0.0085 97.0757 0.7645 149.3051 0.9 0.6825 97.0606 5.6920 C123.6645 0.0248 87.8937 0.5485 118.0392 1.0 0.5865 84.1827 7.0773 C139.4571 0.0314 80.4474 0.4499 109.9115 1.5 0.1423 121.2420 9.6368 140.8404 0.0481 30.1766 0.2033 151.0622 1.7 0.2352 127.2011 9.0963 118.4115 0.0478 15.1099 0.2422 152.5525 1.9 0.2848 115.3972 8.5861 99.9577 0.0472 3.1298 0.2483 147.5974 2.0 0.2958 108.3752 8.3840 91.7925 0.0461 C2.5589 0.2433 145.1175 2.5 0.2456 63.8963 7.8317 54.1684 0.0418 C32.2292 0.1619 141.3232 3.0 0.1638 C29.4140 7.7532 16.1359 0.0323 C73.1124 0.1204 C176.1177 4.0 0.6964 177.8403 6.1643 C73.8377 0.0279 140.3060 0.2679 173.3761 5.0 0.9402 119.6485 2.6318 C158.0828 0.0383 76.6959 0.2333 C125.8671 6.0 0.9483 86.9076 0.8464 145.2466 0.0472 52.2933 0.4868 C153.4601 7.0 0.9468 63.6793 0.3393 111.7191 0.0506 33.7091 0.4904 C173.3753 8.0 0.9714 46.0950 0.1877 77.8816 0.0547 20.9620 0.5367 176.2551 9.0 0.9301 27.7972 0.1149 41.1122 0.0547 4.2118 0.6319 162.5823 10.0 0.8606 17.9019 0.0705 16.9907 0.0470 C5.3221 0.7125 149.2561 11.0 0.9721 14.0126 0.0539 1.3504 0.0437 C13.1746 0.7438 137.7980 12.0 0.9895 1.8829 0.0390 C18.8103 0.0355 C30.2990 0.7126 120.6736 13.0 0.9504 C6.3036 0.0253 C32.1307 0.0244 C43.2860 0.7159 94.6400 14.0 0.9976 C15.2859 0.0102 C36.7154 0.0105 C59.8362 0.7653 74.7833 15.0 1.0065 C24.3699 0.0098 103.9489 0.0089 122.0001 0.7641 64.9085 16.0 0.9938 C32.7298 0.0351 103.0363 0.0351 107.6657 0.7375 50.6656 17.0 0.9802 C44.7104 0.0714 86.2511 0.0713 88.0832 0.7318 25.3774 18.0 0.9647 C57.3892 0.1406 55.3523 0.1406 55.7281 0.7347 C9.4297 19.0 0.9158 C61.5557 0.1291 C26.7187 0.1285 C26.765 2 0.2011 C33.2109 20.0 0.9422 C62.6624 0.1319 50.0625 0.1307 49.6143 0.5420 4.8232 broadcom - 12 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz figure 23 rf reference planes note measurements are made on 10 mils rogers r04350 trl board. figure 21 shows the input and output reference plane for q2. table 8 MGA-13316 q2 typical noise parameters, v dd2 = 5 v, i dd2 = 116 ma freq ghz nfmin db gammaopt mag phiopt deg rn/50 1.50 2.17 0.31 -87.10 0.30 1.70 2.11 0.21 -89.90 0.27 1.90 2.09 0.21 -95.10 0.25 2.00 2.00 0.19 -94.70 0.24 2.20 1.93 0.16 -105.80 0.23 2.50 2.06 0.14 -112.40 0.22 2.70 2.08 0.16 -129.40 0.21 2.90 2.08 0.15 -148.20 0.20 3.50 2.15 0.34 178.80 0.13 4.00 2.42 0.57 -163.60 0.09 15 12 14 11 13 9 8 7 6 5 4 2 16 10 3 1 bias lna2 lna1 rf input reference plane rf output reference plane broadcom - 13 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz figure 24 package dimensions figure 25 pcb land patterns and stencil design note all dimensions are in millimeters, and a 4-mil stencil thickness is recommended. pin #1 identification chamfer 0.30 x 45 0.40 0.10 4.00 0.10 0.00 C0.10 0.203 ref. 1.95 ref. 0.65 bsc 4.00 0.10 pin 1 dot by marking 2.70 0.10 exp.dap 2.70 0.10 exp.dap 0.85 0.10 top view side view bottom view avago 13316 yyww xxxx 0.30 0.10 land pattern stencil opening combination of land pattern & stencil opening 4.00 0.65 2.70 3.96 2.16 4.00 2.70 4.00 3.96 2.70 2.16 3.96 2.16 0.40 0.30 0.65 0.36 0.27 0.65 0.40 0.30 0.36 0.27 2.70 2.16 broadcom - 14 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz figure 26 device orientation figure 27 tape dimensions table 9 part number ordering information part number no. of devices container MGA-13316-tr1g 1000 7 reel MGA-13316-blkg 100 antistatic bag user feed direction top view end view user feed direction cover tape carrier tape reel avago 13316 yyww xxxx avago 13316 yyww xxxx avago 13316 yyww xxxx 10 max 10 max 4.25 0.10 4.25 0.10 1.13 0.10 5.50 0.05 1.75 0.10 8.00 0.10 ? 1.50 0.10 12.0 0.30 C0.10 ? 1.50 0.25 2.00 0.05 4.00 0.10 a. k. b. 0.279 0.02 broadcom - 15 - MGA-13316 data sheet MGA-13316 typical performance in demoboard for 2.5 ghz figure 28 reel dimensions (7-in. reel) ps 6 ps 6 back view ?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 ?178.00.5 for product information and a complete list of distributors, please go to our web site: www.broadcom.com . broadcom, the pulse logo, connecting everything, avago technologies, avago, and the a logo are among the trademarks of broadcom and/or its affiliates in the united states, certain other countries and/or the eu. copyright ? 2011C2016 by broadcom. all rights reserved. the term "broadcom" refers to broadcom limited and/or its subsidiaries. for more information, please visit www.broadcom.com . broadcom reserves the right to make changes without further notice to any products or data herein to improve reliability, function, or design. information furnished by broadcom is believed to be accurate and reliable. however, broadcom does not assume any liability arising out of the application or use of this information, nor the application or use of any product or circuit described herein, neither does it convey any license under its patent rights nor the rights of others. av02-3239en C november 18, 2016 |
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