vmmk-3603 1 - 6 ghz positive gain slope low noise amplifer in smt package data sheet description the vmmk-3603 is a small and easy-to-use, broadband, positive gain slope low noise amplifer operating in various frequency bands from 1 to 6 ghz with typical noise fgure of 1.4 db. it is housed in the avago technologies industry- leading and revolutionary sub-miniature chip scale package (gaascap wafer scale leadless package) which is small and ultra thin yet can be handled and placed with standard 0402 pick and place assembly equipment. the vmmk-3603 provides a typical gain of 17 db with good linearity of +25 dbm typical oip3 and input and output return losses. it can be operated from 3 v to 5 v power supply. it is fabricated using avago technologies unique 0.25 m e-mode phemt technology which eliminates the need for negative gate biasing voltage. wlp0402, 1 mm x 0.5 mm x 0.25 mm attention: observe precautions for handling electrostatic sensitive devices. esd machine model = 50 v esd human body model = 300 v refer to avago application note a004r: electrostatic discharge, damage and control. pin connections (top view) note: m = device code y = month code features ? 1 x 0.5 mm surface mount package ? ultrathin (0.25 mm) ? wide frequency range: 1 to 6 ghz ? low noise fgure ? positive gain slope ? self-biasing: 3 to 5 v specifcations (5 ghz, vdd = 5 v, zin = zout = 50 ? ) ? small signal gain: 17 db typ. ? noise figure = 1.5 db typ. ? output 3 rd order intercept point = 25 dbm applications ? 2.4, 3.5, and 5-6 ghz wlan and wimax ? 802.16 & 802.20 bwa systems ? radar and ecm systems ? generic if amplifer my my output input input output amp
2 electrical specifcations table 1. absolute maximum rating [1] symbol parameters/condition unit absolute max vd supply voltage (rf output) [2] v 8 id supply current [2] ma 56 p in, max cw rf input power (rf input) [3] dbm 15 p diss total power dissipation mw 460 tch max channel temperature c +150 jc thermal resistance [4] c/w 95.3 notes 1. operation of this device above any one of these parameters may cause permanent damage 2. bias is assumed dc quiescent conditions 3. with the dc (typical bias) and rf applied to the device at board temperature tb = 25 c 4. thermal resistance is measured from junction to board using ir method table 2. dc and rf specifcations [1] t a = 25 c, vd = 5 v, freq = 5 ghz, z in = z out = 50 ? (unless otherwise specifed) symbol parameters/condition unit minimum typical maximum id [2] supply current ma 27 36 44 nf [2,3] noise figure db 1.5 1.9 ga [2,3] associated gain db 15.5 16.8 19.5 s11 [4] input return loss db -11 s22 [4] output return loss db -11 oip3 [4,5] output 3 rd order intercept point dbm 25 notes 1. losses of the test system have been de-embedded from fnal data 2. measured data obtained from wafer-probing using a g-s, s-g pyramid probe 3. nf and ga obtained from noise figure meter 4. s-parameters and oip3 data obtained using 300 m g-s-g probing on pcb substrate 5. oip3 test condition: center frequency = 5 ghz, 2 tone ofset = 10 mhz, pin = -25 dbm
3 product consistency distribution charts at 5.0 ghz, vd = 5 v id @ vd = 5 v, mean = 36 ma, lsl = 27 ma, usl = 44ma nf @ 5 ghz, mean = 1.5 db, usl = 1.9 db gain @ 5ghz, mean = 16.8 db, lsl = 15.5 db, usl = 19.5 db (data obtained using noise figure analyzer) notes: distribution data based on 65 kpcs part sample size from mpv lots. future wafers allocated to this product may have nominal values anywhere between the upper and lower limits. 1.9 1.7 2.1 1 2 0.9 1.3 1.1 1.5 lsl usl usl lsl usl 0.023 0.025 0.032 0.036 0.04 0.044 0.048 20 18 19 17 16 15
4 vmmk-3603 typical performance t a = 25 c, z in = z out = 50 ? ; biasing by a broadband bias tee; s-param data obtained using 300 m gsg probing on pcb substrate, nf, ip3, and p1db obtained using eval board; losses calibrated out to the package reference plane. figure 1. small signal gain over bias figure 2. input return loss over bias figure 3. output return loss over bias figure 4. nf over bias figure 5. oip3 over bias figure 6. op1db over bias 0.0 3.0 6.0 9.0 12.0 15.0 18.0 21.0 0 1 2 3 4 5 6 7 8 9 10 frequency (ghz) s21 (db) -15.0 -12.0 -9.0 -6.0 -3.0 0.0 0 1 2 3 4 5 6 7 8 9 10 frequency (ghz) s11 (db) -30.0 -27.0 -24.0 -21.0 -18.0 -15.0 -12.0 -9.0 -6.0 -3.0 0.0 0 1 2 3 4 5 6 7 8 9 10 frequency (ghz) s22 (db) 0.8 1 1.2 1.4 1.6 1.8 2 0 1 2 3 4 5 6 7 frequency (ghz) nf (db) 10 15 20 25 30 1 2 3 4 5 6 frequency (ghz) oip3 (dbm) 4 7 10 13 16 1 2 3 4 5 6 frequency (ghz) p1db (dbm) 3 v 4 v 5 v 3 v 4 v 5 v 3 v 5 v 3 v 5 v 3 v 5 v 3 v 4 v 5 v
5 vmmk-3603 typical performance vd = 5 v unless noted, z in = z out = 50 ? , biasing by a broadband bias tee; over temp data obtained using eval board; losses calibrated out to the package reference plane. figure 7. id vs. vd over temp figure 8. gain over temp figure 9. nf over temp figure10. oip3 over temp figure 11. op1db over temp 10 15 20 25 30 35 40 45 2 3 4 5 6 vd (volts) id (ma) 0.6 0.8 1 1.2 1.4 1.6 1.8 2 2.2 0 1 2 3 4 5 6 7 frequency (ghz) nf (db) 4 7 10 13 16 1 2 3 4 5 6 frequency (ghz) p1db (dbm) 14 15 16 17 18 1 2 3 4 5 6 frequency (ghz) s21(db) 15 20 25 30 35 1 2 3 4 5 6 frequency (ghz) oip3 (dbm) 25 c -40 c +85 c 25 c -40 c +85 c 25 c -40 c +85 c 25 c -35 c +85 c 25 c -40 c +85 c
6 typical scattering parameters t a = 25 c, vd = 3 v, z in = z out = 50 ? unless noted. data obtained using 300 m g-s-g pcb substrate & broadband bias tees, losses calibrated out to the package reference plane. freq ghz s11 s21 s12 s22 db mag phase db mag phase db mag phase db mag phase 0.05 -0.2 0.977 -4.8864 19.2 9.153 -179.6516 -38.2 0.0123 91.3266 -7.7 0.4127 0.6165 0.1 -0.3 0.9706 -9.9273 19.3 9.2677 176.9829 -35.4 0.0169 75.7197 -7.3 0.431 -6.0822 0.2 -0.6 0.931 -19.6121 19.2 9.1431 170.3651 -30.1 0.0312 66.652 -7.4 0.4254 -17.5835 0.3 -1.2 0.8726 -28.1505 18.9 8.8217 165.3938 -27.3 0.0432 57.1804 -8.0 0.3971 -27.3636 0.4 -1.8 0.8098 -35.3755 18.5 8.4556 161.4364 -25.5 0.0533 48.1187 -8.8 0.3638 -35.3407 0.5 -2.5 0.7468 -41.2905 18.2 8.1299 158.4159 -24.3 0.061 40.9588 -9.6 0.3308 -41.8528 0.6 -3.1 0.701 -41.9333 17.6 7.5629 156.9294 -23.8 0.0645 35.7729 -9.8 0.3233 -37.1208 0.7 -3.7 0.6527 -45.824 17.3 7.3442 154.9164 -23.3 0.0687 30.5102 -10.6 0.2959 -40.3919 0.8 -4.3 0.6098 -49.2059 17.1 7.1755 153.0505 -22.8 0.0723 25.8161 -11.4 0.2699 -42.9121 0.9 -4.9 0.5718 -52.08 16.9 7.0187 151.3266 -22.5 0.0746 21.5702 -12.1 0.2487 -44.9453 1 -5.4 0.5385 -54.7877 16.8 6.9197 149.6624 -22.3 0.0767 18.0463 -12.9 0.2273 -46.2074 1.5 -7.5 0.4229 -65.4212 16.4 6.6173 141.4379 -21.8 0.0816 4.0387 -16.4 0.1522 -49.2137 2 -9.0 0.3552 -75.7226 16.3 6.5474 132.6275 -21.6 0.0831 -6.4352 -20.2 0.0975 -47.4521 2.5 -10.2 0.308 -81.3963 16.4 6.5943 123.4518 -21.6 0.0828 -14.7788 -22.4 0.0759 -43.3979 3 -11.3 0.2738 -91.3794 16.5 6.7138 113.3991 -21.8 0.0817 -22.0721 -26.7 0.0461 -22.5111 3.5 -12.1 0.2493 -103.0569 16.8 6.8955 102.6078 -21.9 0.0804 -29.1338 -26.9 0.045 26.9498 4 -12.6 0.2339 -115.7385 17.0 7.1158 90.9712 -22.0 0.0794 -35.6715 -22.3 0.0767 53.6397 4.5 -12.7 0.2322 -129.9118 17.4 7.3808 78.2102 -22.2 0.0778 -42.3765 -18.1 0.1244 59.6162 5 -12.2 0.2468 -145.5479 17.7 7.64 64.0695 -22.3 0.0765 -49.1329 -14.7 0.1836 56.8991 5.5 -10.9 0.2852 -160.1544 17.9 7.8875 48.8364 -22.6 0.0744 -55.7584 -12.1 0.2475 49.0542 6 -9.1 0.3497 -178.3697 18.1 7.9936 31.1873 -22.8 0.0726 -63.9077 -9.9 0.3195 39.2463 7 -5.5 0.5303 142.0171 17.2 7.2517 -8.7294 -23.8 0.0648 -82.9034 -7.1 0.4402 12.7602 8 -3.4 0.6782 104.6622 14.5 5.3295 -45.6505 -26.1 0.0494 -101.8767 -6.7 0.4647 -14.159 9 -2.5 0.7529 74.4856 10.8 3.4774 -73.6841 -29.1 0.035 -114.8967 -7.3 0.4338 -32.6621 10 -2.0 0.7925 51.7086 7.1 2.2691 -94.1122 -32.3 0.0242 -124.2559 -7.9 0.4012 -46.0125 11 -1.7 0.8225 33.4831 3.7 1.5278 -109.423 -36.0 0.0158 -131.9905 -8.5 0.3765 -55.8495 12 -1.5 0.8456 17.4077 0.6 1.069 -121.8166 -40.8 0.0091 -139.6964 -8.7 0.3655 -63.6328 13 -1.2 0.8722 4.7204 -2.5 0.7536 -131.9503 -53.2 0.0022 -142.2453 -8.7 0.3686 -70.3725 14 -1.1 0.8802 -7.1979 -5.1 0.5578 -140.5919 -54.0 0.002 0.5436 -8.6 0.3709 -77.0036 15 -1.0 0.8961 -17.3162 -7.5 0.4238 -148.3565 -50.2 0.0031 6.8353 -8.5 0.3737 -84.129 16 -0.8 0.9118 -27.6757 -9.7 0.3259 -155.8471 -42.0 0.0079 19.5505 -8.3 0.3841 -91.3885 17 -0.7 0.9244 -37.4873 -11.9 0.2546 -163.0428 -39.9 0.0101 15.9588 -8.1 0.3922 -97.2096 18 -0.6 0.9282 -46.3774 -14.0 0.199 -169.2785 -36.9 0.0143 2.392 -7.9 0.402 -103.6084 19 -0.6 0.9369 -55.4445 -15.9 0.1606 -174.9897 -37.6 0.0132 -10.438 -7.7 0.4107 -108.8462 20 -0.6 0.9385 -63.2833 -17.8 0.1288 178.771 -37.1 0.0139 -8.8364 -7.6 0.4181 -113.2307 21 -0.5 0.9455 -71.189 -19.9 0.1012 173.6276 -34.7 0.0185 -18.2437 -7.4 0.425 -117.8475 22 -0.5 0.9461 -77.8723 -21.3 0.0861 169.4539 -36.6 0.0148 -34.0351 -7.3 0.4314 -122.2301 23 -0.4 0.9518 -84.7844 -22.9 0.0718 162.3099 -37.7 0.013 -25.5129 -7.2 0.4363 -125.4319 24 -0.4 0.9516 -91.3249 -25.1 0.0555 157.727 -35.3 0.0171 -31.2849 -7.2 0.4362 -128.9087 25 -0.4 0.9543 -97.0884 -26.0 0.0504 150.9037 -38.6 0.0117 -36.8647 -7.2 0.4361 -132.6289
7 typical scattering parameters t a = 25 c, vd = 5 v, z in = z out = 50 ? unless noted. data obtained using 250 m g-s-g pcb substrate & broadband bias tees, losses calibrated out to the package reference plane. freq ghz s11 s21 s12 s22 db mag phase db mag phase db mag phase db mag phase 0.05 -0.2 0.9765 -5.3473 19.8 9.7378 179.865 -41.0 0.0089 101.6421 -7.2 0.4351 -3.1298 0.1 -0.3 0.969 -10.4315 19.8 9.7954 176.3417 -35.4 0.0169 76.4418 -7.1 0.4395 -7.9442 0.2 -0.7 0.9274 -20.7156 19.6 9.6011 169.8445 -30.3 0.0305 65.854 -7.5 0.424 -18.0476 0.3 -1.2 0.8665 -29.613 19.3 9.2449 164.9479 -27.5 0.0423 55.4655 -8.1 0.3922 -26.6857 0.4 -1.9 0.8011 -37.1751 18.9 8.8561 161.1065 -25.8 0.0514 46.9769 -9.0 0.356 -33.6356 0.5 -2.6 0.7382 -43.3115 18.6 8.5166 158.0882 -24.7 0.0585 39.3595 -9.9 0.32 -39.0593 0.6 -3.2 0.692 -44.0449 18.0 7.9383 156.6006 -24.3 0.0613 33.9254 -10.0 0.3153 -33.3994 0.7 -3.8 0.6439 -48.1284 17.8 7.7203 154.5257 -23.8 0.0649 28.7538 -10.8 0.2874 -35.3222 0.8 -4.4 0.602 -51.7328 17.6 7.5547 152.582 -23.3 0.0682 24.1196 -11.6 0.2621 -36.6951 0.9 -5.0 0.565 -54.8713 17.4 7.3962 150.7578 -23.0 0.0706 19.7084 -12.4 0.2411 -37.3403 1 -5.5 0.5331 -57.8302 17.3 7.2968 148.9784 -22.8 0.0722 16.1648 -13.1 0.2204 -37.2186 1.5 -7.4 0.4246 -70.3244 16.9 6.9736 140.009 -22.3 0.0763 1.6183 -16.3 0.1525 -31.3163 2 -8.8 0.3619 -83.2252 16.7 6.854 130.4826 -22.2 0.0772 -9.1633 -18.8 0.1143 -16.0481 2.5 -10.0 0.3174 -92.634 16.7 6.8325 120.5905 -22.3 0.0768 -18.3171 -18.9 0.1135 -5.6824 3 -10.9 0.2844 -106.7897 16.7 6.8564 110.0668 -22.5 0.0749 -26.6003 -18.5 0.1195 10.6561 3.5 -11.6 0.263 -123.054 16.8 6.9151 99.0187 -22.7 0.0732 -33.7451 -17.0 0.142 21.9712 4 -12.0 0.2502 -140.3754 16.9 6.9917 87.4663 -23.0 0.071 -40.969 -15.1 0.1751 27.5352 4.5 -12.0 0.2507 -158.2552 17.0 7.0797 75.2214 -23.3 0.0685 -48.1875 -13.3 0.2151 28.9598 5 -11.6 0.2633 -176.0757 17.1 7.1631 62.193 -23.6 0.0658 -55.6692 -11.6 0.2629 27.4716 5.5 -10.8 0.2877 169.4924 17.2 7.2488 48.8057 -24.1 0.0622 -62.7037 -10.0 0.3145 22.774 6 -9.6 0.3314 154.7483 17.2 7.2799 33.8787 -24.6 0.0589 -70.5383 -8.6 0.3699 16.8808 7 -6.7 0.4614 127.6033 16.9 6.9966 0.4678 -25.9 0.0507 -87.777 -6.4 0.4766 -0.4897 8 -4.1 0.6221 100.0949 15.4 5.8749 -35.6531 -28.3 0.0383 -108.0513 -5.5 0.5292 -22.568 9 -2.6 0.7394 72.7048 12.4 4.1718 -68.1977 -31.9 0.0255 -123.9911 -5.9 0.5066 -40.9205 10 -1.9 0.7993 50.3166 8.9 2.7894 -93.3719 -36.4 0.0151 -135.8243 -6.7 0.4642 -54.412 11 -1.6 0.8348 32.1122 5.4 1.8683 -112.2912 -42.3 0.0077 -149.8587 -7.4 0.4279 -63.6579 12 -1.3 0.8576 16.1694 2.2 1.2907 -127.1685 -52.8 0.0023 174.2257 -7.8 0.4092 -70.3075 13 -1.1 0.8829 3.6129 -0.9 0.8968 -139.2016 -46.6 0.0047 47.2364 -7.8 0.4073 -75.9325 14 -1.0 0.8885 -8.2264 -3.7 0.6537 -149.3954 -42.9 0.0072 28.2504 -7.8 0.4067 -81.6577 15 -0.9 0.9029 -18.1508 -6.2 0.4898 -158.4144 -41.6 0.0083 19.5155 -7.8 0.4089 -87.9 16 -0.7 0.9173 -28.4392 -8.6 0.3727 -167.162 -38.0 0.0126 19.2396 -7.6 0.4188 -94.5239 17 -0.6 0.9284 -38.1504 -10.8 0.2876 -175.4717 -36.5 0.015 15.2695 -7.4 0.4264 -99.7235 18 -0.6 0.9313 -46.9227 -13.0 0.2227 176.9209 -34.8 0.0183 4.0748 -7.2 0.4356 -105.7808 19 -0.5 0.9389 -55.9194 -15.0 0.1778 170.0955 -35.3 0.0171 -7.7662 -7.1 0.4435 -110.7482 20 -0.5 0.9399 -63.6621 -17.0 0.1416 162.632 -35.3 0.0171 -8.2348 -6.9 0.4507 -114.8575 21 -0.5 0.946 -71.499 -19.2 0.1101 155.5804 -33.6 0.021 -16.9273 -6.8 0.4566 -119.3594 22 -0.5 0.9467 -78.2123 -20.7 0.092 150.8211 -35.3 0.0171 -30.2145 -6.7 0.4632 -123.5707 23 -0.4 0.9515 -85.0468 -22.3 0.0767 142.117 -36.1 0.0156 -25.443 -6.6 0.4678 -126.9413 24 -0.4 0.9513 -91.568 -24.6 0.0589 134.4502 -34.3 0.0193 -32.1079 -6.6 0.4674 -130.3008 25 -0.4 0.9531 -97.3009 -25.5 0.0531 127.8596 -37.2 0.0138 -33.6267 -6.6 0.4662 -134.0917
8 figure 14. biasing the vmmk-3603 figure 12. evaluation/test board (available to qualifed customers upon request) vmmk-3603 applications and usage information table 3. vmmk-3603 demo board bom component value dut vmmk-3603 c1 100 pf c2 8.2 pf c5 0.1 f c6 100 pf r1 820 ohms r2 10 ohms l1 10 nh biasing and operation the vmmk-3603 is biased with a positive supply connected to the output pin vd through an external user supplied bias decoupling network. nominal current draw is 22 ma. a typical biasing scheme is shown in figure 12. figure 13. example demonstration circuit of vmmk-3603 for broadband operation (1 ghz to 6 ghz). a layout of a typical demo board is shown in figure 14. the output bias decoupling network can be easily constructed using small surface mount components. the value of the output inductor can have a major efect on both low and high frequency operation. the demo board uses a 10 nh inductor that has a self resonant frequency higher than the maximum desired frequency of operation. if the self-resonant frequency of the inductor is too close to the operating band, the value of the inductor will need to be adjusted so that the self-resonant frequency is sig - nifcantly higher than the highest frequency of operation. a 10 ohm resistor is placed in series with the inductor to help provide greater bandwidth and to help with low frequency stability. to help with low frequency stability an 820 ohm resistor is used to shunt the input line to ground. 8.2 pf capacitors are used as dc blocks on the rf input and rf output lines. typically a passive component company like murata does not specify s parameters at frequencies higher than 5 or 6 ghz for larger values of inductance making it difcult to properly simulate amplifer performance at higher fre - quencies. it has been observed that the murata lqw15an series of 0402 inductors actually works quite well above their normally specifed frequency. the parallel combination of the 100 pf and 0.1 f capaci - tors provide a low impedance in the band of operation and at lower frequencies and should be placed as close as possible to the inductor. the low frequency bypass provides good rejection of power supply noise and also provides a low impedance termination for third order low frequency mixing products that will be generated when multiple in-band signals are injected into any amplifer. amp input vdd output output pad ground pad input pad 50 ohm line 50 ohm line 100 pf 0.1 f 10 nh 8.2 pf 820 8.2 pf 10
9 s parameter measurements the s-parameters are measured on a 0.016 inch thick ro4003 printed circuit test board, using g-s-g (ground signal ground) probes. coplanar aveguide is used to provide a smooth transition form the probes to the device under test. the presence of the ground plane on top of the test board results in excellent grounding at the device under test. a combination of solt (short C open C load C thru) and trl (thru C refect C line) calibration tech - niques are used to correct for the efects of the test board, resulting in accurate device s parameters. package and assembly note for detailed description of the device package, handling and assembly, please refer to application note 5378. ordering information part number devices per container container VMMK-3603-BLKG 100 antistatic bag vmmk-3603-tr1g 5000 7 reel package dimension outline reel orientation device orientation dimensions symbol min (mm) max (mm) e 0.500 0.585 d 1.004 1.085 a 0.225 0.275 not e: all dimensions ar e in mm a e d top view end view ? my ? my ? my ? my 8 mm 4 mm user feed direction notes: ?m? = device code ?y? = month code esd precautions note: these devices are esd sensitive. the following pre - cautions are strongly recommended. ensure that an esd approved carrier is used when die are transported from one destination to another. personal grounding is to be worn at all times when handling these devices. for more detail, refer to avago application note a004r: electro- static discharge damage and control. user feed direction carrier tape reel
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. av02-2919en - december 26, 2012 notice: 1. 10 sprocket hole pitch cumulative tolerance is 0.1 mm. 2. pocket position relative to sprocket hole measured as true position of pocket not pocket hole. 3. ao & bo measured on a place 0.3 mm above the bottom of the pocket to top surface of the carrier. 4. ko measured from a plane on the inside bottom of the pocket to the top surface of the carrier. 5. carrier camber shall be not than 1 m per 100 mm through a length of 250 mm. unit: mm symbol spec. k1 C po 4.00.10 p1 4.00.10 p2 2.00.05 do 1.550.05 d1 0.50.05 e 1.750.10 f 3.500.05 10po 40.00.10 w 8.00.20 t 0.200.02 note: 2 p2 note: 1 po do b b note: 2 e f w a a p1 d1 r0.1 ao 5 (max) scale 5:1 a�a section ao = 0.730.05 mm bo = 1.260.05 mm ko = 0.35 +0.05 mm +0 scale 5:1 b�b section 5 (max) bo ko t tape dimensions
|
