mga-13116 high gain, high linearity, very low noise amplifier data sheet description avago technologies mga-13116 is a two stage, easy-to- use gaas mmic low noise amplifier (lna). the lna has low noise with good input return loss and high linearity achieved through the use of avago technologies propri- etary 0.25 � m gaas enhancement-mode phemt process. minimum matching needed for input, output and the inter-stage between the two lna. it is designed for optimum use between 400 mhz to 1.5 ghz. for optimum performance at higher frequency from 1.5 ghz to 2.5 ghz, the mga-13216 is recommended. both mga-13116 & mga-13216 share the same package and pinout configuration. pin configuration and package marking 4.0 x 4.0 x 0.85 mm 3 16-lead qfn note: package marking provides orientation and identification 13116 = device part number yyww = work week and year of manufacture xxxx = lot number features �� optimum frequency of operation 400 mhz C 1.5 ghz �� very low noise figure �� high gain �� high linearity performance �� excellent isolation �� gaas e-phemt technology [1] �� low cost small package size: 4.0 x 4.0 x 0.85 mm 3 specifications 900 mhz; q1: 5 v, 55 ma (typ) q2: 5 v, 112 ma (typ) �� 0.51 db noise figure �� 38 db gain �� 52 db rfoutq1 to rfinq2 isolation �� 41.4 dbm output ip3 �� 23.3 dbm output power at 1db gain compression applications �� low noise amplifier for cellular infrastructure including gsm, cdma, and w-cdma. �� other very low noise applications. simplified schematic attention: observe precautions for handling electrostatic sensitive devices. esd machine model = 90 v esd human body model = 300 v refer to avago application note a004r: electrostatic discharge, damage and control. notes: enhancement mode technology employs positive gate bias, thereby eliminating the need of negative gate voltage associated with conventional depletion mode devices. c10 r2 l1 c8 r3 c9 r4 c7 l2 c2 c3 c4 c5 c1 c6 l3 r1 15 12 14 11 13 9 8 7 6 5 4 2 16 10 3 1 q1bias vdd1 vdd2 q1 q2 rfout rfin avag o 1 3 11 6 yyww xxxx 8 7 6 5 1 3 1 4 1 5 1 6 1 2 3 4 1 2 11 1 0 9 g n d p i n 2 p i n 3 p i n 1 0 p i n 11 p i n 1 3 p i n 1 6 v bias r f i n q 1 r fout q2 r fout q2 r f i n q2 r fout q 1 t o p view b o tt o m view all other p i c s nc C n ot c onnecte d
2 mga-13116 absolute maximum rating [1] ta = 25 c symbol parameter units absolute maximum vdd1 device voltage v 5.5 vdd2 device voltage v 5.5 idd1 q1 drain current ma 90 p d power dissipation (2) w 1.02 p in,max cw rf input power dbm 20 t j,max junction temperature c 150 t stg storage temperature c -65 to 150 thermal resistance [3] (v dd1 =5.0v, i dd1 =55ma, v dd2 =5.0v, i dd2 =112ma) � jc = 41.9c/w notes: 1. operation of this device in excess of any of these limits may cause permanent damage. 2. board temperature (t c ) is 25 c. for t c >100 c, derate the device power at 23.9 mw per c rise in board temperature adjacent to package bottom. 3. thermal resistance measured using infrared measurement technique. electrical specifications [1] rf performance at vdd1 = 5 v, v dd2 = 5 v, 900 mhz, t a = 25 c, measured on the demo board. symbol parameter and test condition units min. typ. max. idd1 current at q1 ma 42 55 69 idd2 current at q2 ma 92 112 131 nf noise figure db C 0.51 0.85 gain gain db 36.5 38 39.5 oip3 [2] output third order intercept point dbm 37.5 41.4 C op1db output power at 1 db gain compression dbm 22 23.3 C irl input return loss, 50 � source db C -19 C orl output return loss, 50 � load db C -12 C |s12| reverse isolation db C 48 C |isol 1-2 | isolation between q1s output pin & q2s input pin db C 52 C notes: 1. measurements obtained using demo board described in figure 7 with component list in table 1. input and output trace loss is not de-embedded from the measurement. 2. oip3 test condition: f tone1 = 900 mhz, f tone2 = 901 mhz with input power of -29 dbm per tone. 3. use proper bias, heatsink and derating to ensure maximum channel temperature is not exceeded. see absolute maximum ratings and application note for more details.
3 45 55 50 65 60 lsl usl 0.2 0.3 0.4 0.6 0.7 0.5 0.8 usl 37 38 39 lsl usl 38 39 41 40 43 42 lsl 22 23 22.5 23.5 lsl lsl usl 100 110 120 130 product consistency distribution charts [1,2] figure 1. idd1 @ 900 mhz, vdd1 = 5 v, lsl = 42 ma, nominal = 55 ma, usl = 69 ma figure 3. noise figure @ 900 mhz, vdd1 = 5 v, vdd2 = 5 v, nominal = 0.51 db, usl = 0.85 db figure 4. gain @ 900 mhz, vdd1 = 5 v, vdd2 = 5 v, lsl = 36.5 db, nominal = 38 db, usl = 39.5 db figure 5. oip3 @ 900 mhz, vdd1 = 5 v, vdd2 = 5 v, lsl = 37.5 dbm, nominal = 41.4 dbm figure 6. op1db @ 900 mhz, vdd1 = 5 v, vdd2 = 5 v, lsl = 22 dbm, nominal = 23.3 dbm figure 2. idd2 @ 900 mhz, vdd2 = 5 v, lsl = 92 ma, nominal = 112 ma, usl = 131 ma notes: 1. data sample size is 10026 samples taken from 3 different wafers. future wafers allocated to this product may have nominal val ues anywhere between the upper and lower limits. 2. measurements are made on production test board which represents a trade-off between optimal gain, nf, oip3 and op1db. circuit losses have been de-embedded from actual measurements.
4 demo board layout demo board schematic figure 7. demo board layout diagram. figure 8. demo board schematic diagram. C recommended pcb material is 10 mils rogers r04350. C suggested component values may vary according to layout and pcb material. vdd2 mangrove gnd vdd1 gnd l2 l1 c2 c4 c3 in out c7 c1 r4a r2 l3 c6 c8 jan 2011 r1 c10 avago technologies c11 l4 r4b r3 c9a gnd vbias c12 r5 c5a c5b l5 c13 c9b c 1 0 r2 l1 c8 r3 c9 r4 c7 l 2 c2 c3 c4 c5 c 1 c6 l 3 r 1 1 5 1 2 1 4 11 1 3 9 8 7 6 5 4 2 1 6 1 0 3 1 q 1 bias v dd 1 v dd2 q 1 q2 r f ou t r fi n table 1. component list for 900mhz matching part size value detail part number notes c1, c6 0402 100pf (murata) grm1555c1h101jd01e dc blocking capacitors c2 0402 12pf (murata) mch155a120jk dc blocking capacitor c3 0402 10pf (murata) grm1555c1h100jz01e bypass capacitor c4 0402 0.1uf (murata) grm155r61a104ka01d bypass capacitor c5a 0603 2.2uf (murata) grm188r61a225ke34d bypass capacitor c7 0402 33pf (murata) grm1555c1h330jz01e bypass capacitor c9a, c9b n/a not used not used bypass capacitor c8, c10 0402 4.7uf (murata) grm155r60e475me760 bypass capacitors l1 0402 18nh (toko) ll1005-fhl18nj input match for nf l2 0402 39nh (toko) ll1005-fhl39nj output match for q2 l3 0402 39nh (toko) ll1005-fhl39nj output match for q1 r3, r1 0402 0 ohm (koa) rk73z1eltp bridging resistors r2 0402 10 ohm (rohm) mcr01j100 stabilizing resistor for q1 r4b 0402 6.8k ohm (koa) rm73b1e682j biasing resistor for q1
5 mga-13116 typical performance in demoboard for 900 mhz t a = 25 c, v dd1 = 5.0 v, v dd2 = 5.0 v, i dd1 = 55 ma, i dd2 = 112 ma figure 9. nf vs frequency and temperature figure 10. gain vs frequency and temperature figure 11. oip3 vs frequency and temperature figure 12. op1db vs frequency and temperature 0.0 0.2 0.4 0.6 0.8 1 .0 1 .2 300 500 700 900 11 00 1 300 1 500 n f ( d b) frequency (mhz) 25 30 35 40 45 50 300 500 700 900 11 00 1 300 1 500 o ip 3 ( d bm) frequency (mhz) 25 30 35 40 45 300 500 700 900 11 00 1 300 1 500 g ai n ( d b) frequency (mhz) 1 6 1 8 20 22 24 26 28 300 500 700 900 11 00 1 300 1 500 o p1 d b ( d bm) frequency (mhz) 85 c 25 c - 40 c 85 c 25 c - 40 c 85 c 25 c - 40 c 85 c 25 c - 40 c 0 1 2 3 4 5 6 7 8 9 1 0 02468 1 0 1 2 1 4 1 6 1 820 frequency (ghz) k - f a ctor 85 c 25 c - 40 c - 60 - 40 - 20 0 20 40 60 0 1 2345 i r l, or l, g ai n, r ev i s ol ( d b) frequency (ghz) s 11 s22 s2 1 s 1 2 figure 13. input return loss, output return loss, gain, & reverse isolation vs frequency figure 14. k-factor vs frequency and temperature
6 0 1 0 20 30 40 50 60 70 0 1 23456 i dd 1 (ma) v dd 1 (v) 0 20 40 60 80 1 00 1 20 1 40 0 1 23456 i dd2 (ma) v dd2 (v) 25 30 35 40 45 50 05 1 0 1 52025 o ip 3 ( d bm) pout ( d bm) 25 c - 40 c 85 c 25 c - 40 c 85 c 25 c - 40 c 85 c - 25 - 20 -1 5 -1 0 - 5 0 0.3 0.5 0.7 0.9 1 . 1 i r l ( d b) frequency (ghz) 85 c 25 c - 40 c - 25 - 20 -1 5 -1 0 - 5 0 0.3 0.5 0.7 0.9 1 . 1 or l ( d b) frequency (ghz) 85 c 25 c - 40 c mga-13116 typical performance in demoboard for 900 mhz t a = 25 c, v dd1 = 5.0 v, v dd2 = 5.0 v, i dd1 = 55 ma, i dd2 = 112 ma figure 15. irl vs frequency and temperature figure 16. orl vs frequency and temperature figure 17. idd1 vs vdd1 and temperature figure 18. idd2 vs vdd2 and temperature figure 19. oip3 vs output power and temperature at 900 mhz
7 mga-13116 q1 typical scattering parameters, vdd1 = 5 v, idd1 = 55 ma freq ghz s11 s21 s12 s22 mag. ang. mag. ang. mag. ang. mag. ang. 0.1 0.74 -41.90 28.09 145.39 0.02 63.40 0.29 -39.30 0.5 0.22 -84.68 11.81 105.49 0.05 60.13 0.14 1.62 0.9 0.14 -101.78 7.39 86.79 0.09 60.17 0.18 -12.75 1.0 0.13 -106.05 6.74 83.14 0.09 59.45 0.18 -16.99 1.5 0.10 -128.01 4.69 67.16 0.14 53.73 0.18 -35.56 1.9 0.09 -140.02 3.77 56.17 0.17 47.97 0.17 -50.36 2.0 0.09 -142.35 3.60 53.51 0.18 46.51 0.16 -53.64 2.5 0.08 -154.03 2.93 41.20 0.22 38.81 0.16 -73.64 3.0 0.06 -173.46 2.49 29.38 0.26 30.55 0.15 -91.93 4.0 0.04 129.28 1.92 6.91 0.33 13.36 0.12 -151.01 5.0 0.04 120.65 1.58 -14.44 0.40 -4.62 0.19 158.26 6.0 0.05 84.36 1.34 -35.13 0.45 -22.97 0.26 121.64 7.0 0.05 29.33 1.14 -54.64 0.48 -41.22 0.35 93.85 8.0 0.02 -178.29 0.99 -73.16 0.50 -59.29 0.43 81.24 9.0 0.10 169.39 0.88 -93.10 0.52 -79.56 0.46 62.32 10.0 0.10 178.95 0.74 -111.93 0.50 -99.40 0.45 33.79 11.0 0.13 134.83 0.65 -125.11 0.49 -114.26 0.54 25.75 12.0 0.28 108.23 0.61 -140.87 0.50 -131.91 0.65 19.97 13.0 0.49 103.82 0.51 -157.73 0.45 -151.15 0.62 18.93 14.0 0.62 94.39 0.43 -170.19 0.40 -166.05 0.69 11.24 15.0 0.71 71.83 0.37 172.53 0.36 174.21 0.79 -1.76 16.0 0.81 44.07 0.29 154.33 0.28 153.44 0.82 -10.61 17.0 0.87 17.53 0.20 139.72 0.20 136.55 0.82 -23.84 18.0 0.81 -19.41 0.11 165.37 0.11 162.20 0.89 -42.58 19.0 0.18 29.76 0.34 154.36 0.37 148.88 0.77 -60.35 20.0 0.82 19.19 0.26 126.89 0.27 117.97 0.85 -46.54 figure 20. notes: measurements are made on 10 mils rogers r04350 trl board. figure 20 shows the input and output reference plane for q1. 15 12 14 11 13 9 8 7 6 5 4 2 16 10 3 1 bias ln a 2 ln a 1 rf in p ut r efere n ce p lan e rf o ut p ut r efere n ce p lan e mga-13116 q1 typical noise parameters, vdd1 = 5 v, idd1 = 55 ma freq ghz fmin db opt mag. opt ang. rn/50 0.50 0.39 0.090 -21.8 0.0428 0.70 0.35 0.143 -39.2 0.0474 0.75 0.42 0.098 -48.2 0.0378 0.80 0.39 0.054 5.9 0.0402 0.90 0.42 0.064 7.3 0.0402 1.50 0.55 0.068 4.1 0.0538 1.70 0.60 0.074 70.4 0.0492 1.95 0.70 0.097 149 0.0392
8 mga-13116 q2 typical scattering parameters, vdd2 = 5 v, idd2 = 112 ma freq ghz s11 s21 s12 s22 mag. ang. mag. ang. mag. ang. mag. ang. 0.1 0.20 -171.18 11.59 167.44 0.04 0.06 0.49 176.27 0.5 0.22 157.18 11.23 138.79 0.04 -13.51 0.43 147.50 0.9 0.23 129.26 10.61 107.30 0.04 -28.06 0.30 129.04 1.0 0.23 120.60 10.45 99.56 0.04 -32.25 0.27 125.80 1.5 0.21 58.66 9.71 60.61 0.04 -58.34 0.12 129.80 1.9 0.26 -20.17 9.13 27.17 0.04 -88.98 0.12 176.29 2.0 0.30 -38.51 8.93 18.19 0.03 -98.40 0.14 179.35 2.5 0.59 -108.72 7.28 -28.35 0.03 -156.55 0.22 161.20 3.0 0.81 -159.33 5.00 -72.18 0.03 144.59 0.21 118.27 4.0 0.94 137.68 1.99 -137.97 0.03 89.64 0.22 -7.02 5.0 0.95 104.26 0.81 169.65 0.04 77.06 0.49 -86.96 6.0 0.93 79.07 0.32 123.70 0.05 57.14 0.69 -128.37 7.0 0.94 59.92 0.15 87.16 0.05 38.07 0.67 -154.44 8.0 0.96 44.90 0.09 55.20 0.06 23.86 0.65 -172.62 9.0 0.92 25.09 0.07 26.64 0.05 9.36 0.70 178.48 10.0 0.91 13.25 0.05 9.11 0.05 -1.10 0.73 168.17 11.0 0.93 11.43 0.03 2.49 0.04 -8.69 0.75 154.12 12.0 0.93 3.64 0.02 0.78 0.03 -24.56 0.78 135.37 13.0 0.81 -10.41 0.01 29.86 0.02 -45.74 0.82 116.24 14.0 0.90 -22.26 0.02 59.46 0.01 -137.08 0.80 94.18 15.0 0.99 -28.29 0.02 63.39 0.03 134.73 0.80 73.17 16.0 0.96 -29.34 0.04 107.89 0.06 111.70 0.75 60.30 17.0 0.95 -38.67 0.09 96.45 0.10 94.24 0.68 43.03 18.0 0.91 -58.96 0.18 70.31 0.18 69.07 0.67 12.84 19.0 0.81 -78.56 0.30 19.69 0.30 19.67 0.58 -39.24 20.0 0.65 -58.97 0.20 -20.26 0.21 -20.60 0.45 9.78 figure 21. notes: measurements are made on 10 mils rogers r04350 trl board. figure 21 shows the input and output reference plane for q2. 1 5 1 2 1 4 11 1 3 9 8 7 6 5 4 2 1 6 1 0 3 1 bias l n a 2 l n a1 r f output r eference pl a ne r f i nput r eference pl a ne mga-13116 q2 typical noise parameters, vdd2 = 5 v, idd2 = 112 ma freq ghz fmin db � opt mag. � opt ang. rn/50 0.50 1.70 0.165 -13.2 0.2946 0.70 1.76 0.129 -2.3 0.2590 0.75 1.76 0.11 -8.7 0.2528 0.80 1.69 0.129 -3.4 0.2526 0.90 1.63 0.108 2.7 0.2392 1.50 1.82 0.079 23.2 0.2460 1.70 1.90 0.116 65.2 0.2350 1.95 1.88 0.133 88.7 0.2376
9 package dimensions pcb land patterns and stencil design p in #1 i d entific a tion ch am fer 0.30 x 45 0.40 0.10 4.00 0.10 0.00 ?0.10 0.203 r ef . 1.95 r ef . 0.65 b s c 4.00 0.10 p in 1 do t by m a r king 2.70 0.10 ex p . dap 2.70 0.10 ex p . dap 0.85 0.10 to p view si d e view b otto m view a v ag o 13116 yyww xxxx 0.30 0.10 notes: 1. all dimensions are in milimeters. 2. 4 mil stencil thickness recommended. l a n d pa ttern stencil o p enin g co mb in a tion of l a n d pa ttern & stencil o p enin g 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
10 device orientation tape dimensions user fee d d irection to p view en d view user fee d d irection cover t ap e c a rrier t ap e reel a v ag o 13116 yyww xxxx a v ag o 13116 yyww xxxx a v ag o 13116 yyww xxxx 10 ma x10 ma x 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 part number ordering information part number no. of devices container mga-13116-tr1g 1000 7 reel MGA-13116-BLKG 100 antistatic bag
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 ? 2005-2011 avago technologies. all rights reserved. av02-2877en - december 19, 2011 reel dimensions (7 inch reel) p s 6 p s 6 ba ck view ?178.00.5 ?55.00.5 6.25 mm e mb osse d letters letterin g thickness: 1.6 mm see d et a il "x" slot hole "b" slot hole(2x) 180 apa rt. slot hole "a": 3.00.5 mm (1x) slot hole "b": 2.50.5 mm (1x) ?13.0 65 45 r10.65 45 r5.2 e mb osse d ri b s r a ise d : 0.25 mm, wi d th: 1.25 mm 18.0* ma x. ?51.20.3 ?178.00.5 recycle lo g o front view 120 1.5 m in. ?20.2 m in. -0.2 +0.5 d et a il "x" -0.0 +1.5* 12.4 d et a il "y" (sl o t h o l e ) 3.5 1.0 see d et a il "y" front ba ck front ba ck slot hole "a" ?178.00.5
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