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| 1 cgh40010 10 w, rf power gan hemt crees cgh40010 is an unmatched, gallium nitride (gan) high electron mobility transistor (hemt). the cgh40010, operating from a 28 volt rail, offers a general purpose, broadband solution to a variety of rf and microwave applications. gan hemts offer high effciency, high gain and wide bandwidth capabilities making the cgh40010 ideal for linear and compressed amplifer circuits. the transistor is available in both screw- down, fange and solder-down, pill packages. re v 4.0 C ma y 2015 features ? up to 6 ghz operation ? 16 db small signal gain at 2.0 ghz ? 14 db small signal gain at 4.0 ghz ? 13 w typical p sat ? 65 % effciency at p sat ? 28 v operation applications ? 2-way private radio ? broadband amplifers ? cellular infrastructure ? test instrumentation ? class a, ab, linear amplifers suitable for ofdm, w-cdma, edge, cdma waveforms package types: 440166, & 440196 pns: cgh40010f & cgh40010p subject to change without notice. www.cree.com/wireless
2 absolute maximum ratings (not simultaneous) at 25?c case temperature parameter symbol rating units conditions (vemr7svgispei v dss 84 volts exixssvgi:spxeki v gs volts storage temperature t stg operating junction temperature t j 225 maximum forward gate current i gmax 4.0 ma maximum drain current 1 i dmax 1.5 a soldering temperature 2 t s 245 screw torque 60 mrs thermal resistance, junction to case 3 r jc 8.0 case operating temperature 3,4 t c note: 1 current limit for long term, reliable operation 2 refer to the application note on soldering at gviigsq6(sgqirx0mfvev 3 measured for the cgh40010f at p diss = 14 w. 4 iiepwsxli4siv(mwwmtexmsr(ivexmrkvzisr4eki electrical characteristics (t c = 25?c) characteristics symbol min. typ. max. units conditions dc characteristics 1 gate threshold voltage v gs(th) v dc v ds = 10 v, i d = 3.6 ma gate quiescent voltage v gs(q) C C v dc v ds = 28 v, i d = 200 ma saturated drain current i ds 2.9 3.5 C a v ds = 6.0 v, v gs = 2.0 v (vemrsvgi&vieohsr:spxeki v br 120 C C v dc v gs : d = 3.6 ma rf characteristics 2 (t c = 25 ? c, f 0 = 3.7 ghz unless otherwise noted) small signal gain g ss 12.5 14.5 C db v dd = 28 v, i dq = 200 ma power output 3 p sat 10 12.5 C w v dd = 28 v, i dq = 200 ma (vemr)jgmirg 4 55 65 C % v dd = 28 v, i dq = 200 ma, p sat output mismatch stress vswr C C 10 : 1 y no damage at all phase angles, v dd = 28 v, i dq = 200 ma, p out = 10 w cw dynamic characteristics input capacitance c gs C 4.5 C pf v ds = 28 v, v gs :j1, output capacitance c ds C 1.3 C pf v ds = 28 v, v gs :j1, feedback capacitance c gd C 0.2 C pf v ds = 28 v, v gs :j1, notes: 1 measured on wafer prior to packaging. 2 1iewvihmr,%14 3 p sat mwhirihew g = 0.36 ma. 4 (vemr)jgmirg4 out 4 dc cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 3 50 60 70 80 15 16 17 18 d r ai n ef f i ci en cy ( % ) ( w ) , gai n ( d b ) psat, gain, and drain efficiency vs frequency of the cgh40010f in the cgh40010-tb vdd = 28 v, idq = 200 ma 0 10 20 30 40 10 11 12 13 14 3.50 3.55 3.60 3.65 3.70 3.75 3.80 3.85 3.90 d r ai n ef f i ci en cy ( % ) p sa t ( w ) , gai n ( d b ) frequency (ghz) psat gain drain eff typical performance small signal gain and return loss vs frequency of the cgh40010 in the cgh40010-amp p sat , gain, and drain effciency vs frequency of the cgh40010f in the cgh40010-amp v dd = 28 v, i dq = 200 ma gain (db), return loss (db) cgh40010 nominal fixture performance s parameters 10 20 3.7 ghz 14.7 db 3.8 ghz 14.31 db 3.6 ghz 14.89 db 3.4 ghz 14.9 db 2.5 3 3.5 4 4.5 frequency (ghz) -20 -10 0 3.8 ghz -8.549 db 3. 7 ghz -7.49 db 3.6 ghz -7. 497 db 3. 4 ghz -10.65 db db(|s(2,1)|) fixture_2_g28v1l2w1_43_42 db(|s(1,1)|) fixture_2_g28v1l2w1_43_42 effciency gain p sat cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 4 typical performance swept cw data of cgh40010f vs. output power with source and load impedances optimized for drain effciency at 2.0 ghz v dd = 28 v, i dq = 200 ma swept cw data of cgh40010f vs. output power with source and load impedances optimized for drain effciency at 3.6 ghz v dd = 28 v, i dq = 200 ma 0 10 20 30 40 50 60 70 80 12 13 14 15 16 17 18 26 28 30 32 34 36 38 40 42 d r a i n e f f i c i e n c y ( % ) g ain ( d b) pout (dbm) swept cw data of cgh40015f vs. output power with source and load impedances optimized for drain efficiency at 2.0 ghz vdd = 28 v, idq = 200 ma, freq = 2.0 ghz 0 8 16 24 32 40 48 56 64 72 80 10 11 12 13 14 15 16 23 25 27 29 31 33 35 37 39 41 43 d r ai n ef f i ci en cy ( % ) gai n ( d b ) pout (dbm) swept cw data of cgh40015f vs. output power with source and load impedances optimized for drain efficiency at 3.6 ghz vdd = 28 v, idq = 200 ma, freq = 3.6 ghz cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 5 typical performance swept cw data of cgh40010f vs. output power with source and load impedances optimized for p1 power at 3.6 ghz v dd = 28 v, i dq = 200 ma simulated maximum available gain and k factor of the cgh40010f v dd = 28 v, i dq = 200 ma mag (db) k factor 0 6 12 18 24 30 36 42 48 54 60 8 9 10 11 12 13 14 23 25 27 29 31 33 35 37 39 41 43 d r ai n ef f i ci en cy ( % ) gai n ( d b ) pout (dbm) swept cw data of cgh40015f vs. output power with source and load impedances optimized for p1 power at 3.6 ghz vdd = 28 v, idq = 200 ma, freq = 3.6 ghz cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 6 typical noise performance simulated minimum noise figure and noise resistance vs frequency of the cgh40010f v dd = 28 v, i dq = 100 ma electrostatic discharge (esd) classifcations parameter symbol class test methodology human body model hbm 1a > 250 v jedec jesd22 a114-d charge device model cdm 1 < 200 v jedec jesd22 c101-c minimum noise figure (db) noise resistance (ohms) cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 7 source and load impedances frequency (mhz) z source z load 500 20.2 + j16.18 51.7 + j15.2 1000 8.38 + j9.46 41.4 + j28.5 1500 7.37 + j0 28.15 + j29 2500 3.19 - j4.76 19 + j9.2 3500 3.18 - j13.3 14.6 + j7.46 note 1. v dd = 28v, i dq = 200ma in the 440166 package. note 2. optimized for power, gain, p sat and pae. note 3. when using this device at low frequency, series resistors should be used to maintain amplifer stability. cgh40010 power dissipation de-rating curve note 1. area exceeds maximum case operating temperature (see page 2). d z source z load g s 10 12 14 16 po w er d i ssi p ati o n ( w ) cgh40010f cw power dissipation de-rating curve 0 2 4 6 8 0 25 50 75 100 125 150 175 200 225 250 po w er d i ssi p ati o n ( w ) maximum case temperature (c) note 1 cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 8 cgh40010-amp demonstration amplifer circuit bill of materials designator description qty r1,r2 res,1/16w,0603,1%,0 ohms 1 r3 res,1/16w,0603,1%,47 ohms 1 r4 res,1/16w,0603,1%,100 ohms 1 c6 cap, 470pf, 5%,100v, 0603 1 c17 cap, 33 uf, 20%, g case 1 c16 cap, 1.0uf, 100v, 10%, x7r, 1210 1 c8 cap 10uf 16v tantalum 1 c14 cap, 100.0pf, +/-5%, 0603 1 c1 cap, 0.5pf, +/-0.05pf, 0603 1 c2 cap, 0.7pf, +/-0.1pf, 0603 1 c10,c11 cap, 1.0pf, +/-0.1pf, 0603 2 c4,c12 cap, 10.0pf,+/-5%, 0603 2 c5,c13 cap, 39pf, +/-5%, 0603 2 c7,c15 cap,33000pf, 0805,100v, x7r 2 j3,j4 conn sma str panel jack recp 1 j2 header rt>plz.1cen lk 2 pos 1 j1 header rt>plz .1cen lk 5pos 1 - pcb, ro4350b, er = 3.48, h = 20 mil 1 q1 cgh40010f or cgh40010p 1 cgh40010-amp demonstration amplifer circuit cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 9 cgh40010-amp demonstration amplifer circuit schematic cgh40010-amp demonstration amplifer circuit outline cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 10 typical package s-parameters for cgh40010 (small signal, v ds = 28 v, i dq = 100 ma, angle in degrees) frequency mag s11 ang s11 mag s21 ang s21 mag s12 ang s12 mag s22 ang s22 500 mhz 0.909 -123.34 17.19 108.22 0.027 21.36 0.343 -90.81 600 mhz 0.902 -133.06 14.86 101.82 0.028 15.60 0.329 -98.65 700 mhz 0.897 -140.73 13.04 96.45 0.028 10.87 0.321 -104.84 800 mhz 0.894 -146.96 11.58 91.78 0.029 6.84 0.317 -109.84 900 mhz 0.891 -152.16 10.41 87.61 0.029 3.33 0.316 -113.95 1.0 ghz 0.890 -156.60 9.43 83.82 0.029 0.19 0.318 -117.42 1.1 ghz 0.889 -160.47 8.62 80.31 0.029 -2.66 0.321 -120.40 1.2 ghz 0.888 -163.90 7.93 77.02 0.029 -5.28 0.326 -123.02 1.3 ghz 0.887 -166.99 7.34 73.90 0.029 -7.72 0.332 -125.36 1.4 ghz 0.887 -169.80 6.82 70.92 0.029 -10.01 0.338 -127.51 1.5 ghz 0.887 -172.39 6.38 68.05 0.029 -12.18 0.345 -129.50 1.6 ghz 0.887 -174.80 5.98 65.28 0.028 -14.24 0.353 -131.37 1.7 ghz 0.887 -177.07 5.63 62.59 0.028 -16.21 0.360 -133.15 1.8 ghz 0.887 -179.22 5.32 59.97 0.028 -18.09 0.369 -134.87 1.9 ghz 0.887 178.73 5.04 57.41 0.028 -19.91 0.377 -136.54 2.0 ghz 0.888 176.76 4.78 54.89 0.027 -21.66 0.385 -138.17 2.1 ghz 0.888 174.86 4.55 52.42 0.027 -23.35 0.393 -139.77 2.2 ghz 0.888 173.02 4.34 49.99 0.027 -24.98 0.402 -141.34 2.3 ghz 0.888 171.23 4.15 47.60 0.026 -26.56 0.410 -142.90 2.4 ghz 0.889 169.48 3.97 45.24 0.026 -28.08 0.418 -144.45 2.5 ghz 0.889 167.76 3.81 42.90 0.026 -29.55 0.426 -145.99 2.6 ghz 0.890 166.07 3.66 40.59 0.025 -30.98 0.434 -147.53 2.7 ghz 0.890 164.39 3.53 38.30 0.025 -32.36 0.442 -149.06 2.8 ghz 0.890 162.74 3.40 36.03 0.025 -33.69 0.450 -150.59 2.9 ghz 0.891 161.10 3.28 33.78 0.024 -34.97 0.458 -152.12 3.0 ghz 0.891 159.46 3.17 31.55 0.024 -36.20 0.465 -153.65 3.2 ghz 0.892 156.21 2.97 27.12 0.023 -38.51 0.479 -156.72 3.4 ghz 0.893 152.96 2.79 22.73 0.022 -40.63 0.493 -159.80 3.6 ghz 0.893 149.69 2.64 18.38 0.022 -42.52 0.505 -162.90 3.8 ghz 0.894 146.38 2.50 14.05 0.021 -44.17 0.517 -166.03 4.0 ghz 0.894 143.03 2.38 9.72 0.020 -45.56 0.527 -169.19 4.2 ghz 0.894 139.61 2.28 5.40 0.019 -46.67 0.537 -172.39 4.4 ghz 0.895 136.11 2.18 1.07 0.019 -47.46 0.546 -175.64 4.6 ghz 0.895 132.53 2.09 -3.29 0.018 -47.90 0.554 -178.95 4.8 ghz 0.895 128.85 2.01 -7.68 0.017 -47.96 0.561 177.69 5.0 ghz 0.895 125.06 1.94 -12.10 0.017 -47.61 0.568 174.25 5.2 ghz 0.895 121.15 1.88 -16.58 0.016 -46.84 0.573 170.72 5.4 ghz 0.895 117.11 1.82 -21.12 0.016 -45.67 0.578 167.10 5.6 ghz 0.895 112.94 1.77 -25.73 0.015 -44.12 0.582 163.38 5.8 ghz 0.895 108.62 1.72 -30.42 0.015 -42.30 0.586 159.54 6.0 ghz 0.895 104.15 1.68 -35.20 0.015 -40.33 0.589 155.56 to download the s-parameters in s2p format, go to the cgh40010 product page and click on the documentation tab. cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 11 typical package s-parameters for cgh40010 (small signal, v ds = 28 v, i dq = 200 ma, angle in degrees) frequency mag s11 ang s11 mag s21 ang s21 mag s12 ang s12 mag s22 ang s22 500 mhz 0.911 -130.62 18.41 105.41 0.022 19.44 0.303 -112.24 600 mhz 0.906 -139.65 15.80 99.47 0.023 14.31 0.299 -119.83 700 mhz 0.902 -146.70 13.80 94.50 0.023 10.17 0.298 -125.50 800 mhz 0.899 -152.41 12.22 90.19 0.023 6.68 0.299 -129.85 900 mhz 0.898 -157.17 10.96 86.34 0.024 3.67 0.302 -133.28 1.0 ghz 0.896 -161.24 9.92 82.82 0.024 0.99 0.305 -136.05 1.1 ghz 0.896 -164.79 9.06 79.56 0.024 -1.41 0.309 -138.34 1.2 ghz 0.895 -167.95 8.33 76.49 0.024 -3.62 0.314 -140.30 1.3 ghz 0.895 -170.80 7.70 73.57 0.023 -5.66 0.320 -142.01 1.4 ghz 0.894 -173.41 7.17 70.78 0.023 -7.56 0.326 -143.54 1.5 ghz 0.894 -175.82 6.70 68.08 0.023 -9.35 0.332 -144.94 1.6 ghz 0.894 -178.09 6.28 65.47 0.023 -11.05 0.338 -146.24 1.7 ghz 0.894 179.78 5.92 62.92 0.023 -12.66 0.345 -147.48 1.8 ghz 0.894 177.75 5.59 60.43 0.023 -14.19 0.352 -148.68 1.9 ghz 0.894 175.81 5.30 57.99 0.023 -15.65 0.358 -149.84 2.0 ghz 0.894 173.94 5.04 55.59 0.022 -17.05 0.365 -150.99 2.1 ghz 0.894 172.13 4.80 53.23 0.022 -18.39 0.372 -152.12 2.2 ghz 0.894 170.37 4.58 50.91 0.022 -19.67 0.379 -153.26 2.3 ghz 0.895 168.65 4.38 48.61 0.022 -20.90 0.386 -154.39 2.4 ghz 0.895 166.96 4.20 46.33 0.021 -22.08 0.393 -155.54 2.5 ghz 0.895 165.30 4.03 44.08 0.021 -23.20 0.400 -156.69 2.6 ghz 0.895 163.66 3.88 41.84 0.021 -24.27 0.407 -157.85 2.7 ghz 0.895 162.04 3.74 39.63 0.021 -25.28 0.414 -159.03 2.8 ghz 0.895 160.43 3.60 37.43 0.020 -26.25 0.420 -160.22 2.9 ghz 0.896 158.83 3.48 35.24 0.020 -27.16 0.427 -161.42 3.0 ghz 0.896 157.24 3.37 33.06 0.020 -28.02 0.433 -162.64 3.2 ghz 0.896 154.06 3.16 28.74 0.019 -29.57 0.446 -165.13 3.4 ghz 0.896 150.87 2.98 24.44 0.019 -30.88 0.457 -167.69 3.6 ghz 0.896 147.66 2.82 20.16 0.018 -31.95 0.468 -170.31 3.8 ghz 0.897 144.41 2.68 15.89 0.018 -32.76 0.478 -173.00 4.0 ghz 0.897 141.10 2.56 11.61 0.017 -33.30 0.488 -175.77 4.2 ghz 0.897 137.72 2.45 7.33 0.017 -33.55 0.497 -178.61 4.4 ghz 0.897 134.26 2.35 3.03 0.017 -33.50 0.505 178.47 4.6 ghz 0.897 130.71 2.26 -1.31 0.016 -33.18 0.512 175.46 4.8 ghz 0.896 127.06 2.17 -5.68 0.016 -32.58 0.518 172.36 5.0 ghz 0.896 123.30 2.10 -10.09 0.016 -31.74 0.524 169.16 5.2 ghz 0.896 119.42 2.04 -14.57 0.016 -30.72 0.529 165.86 5.4 ghz 0.896 115.41 1.98 -19.10 0.016 -29.60 0.534 162.44 5.6 ghz 0.896 111.26 1.92 -23.71 0.016 -28.46 0.537 158.89 5.8 ghz 0.895 106.97 1.87 -28.40 0.017 -27.41 0.540 155.20 6.0 ghz 0.895 102.53 1.82 -33.19 0.017 -26.54 0.543 151.36 to download the s-parameters in s2p format, go to the cgh40010 product page and click on the documentation tab. cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 12 typical package s-parameters for cgh40010 (small signal, v ds = 28 v, i dq = 500 ma, angle in degrees) frequency mag s11 ang s11 mag s21 ang s21 mag s12 ang s12 mag s22 ang s22 500 mhz 0.914 -135.02 18.58 103.70 0.020 18.36 0.300 -126.80 600 mhz 0.909 -143.57 15.88 98.05 0.020 13.67 0.302 -133.51 700 mhz 0.906 -150.23 13.83 93.33 0.021 9.90 0.304 -138.40 800 mhz 0.904 -155.61 12.23 89.23 0.021 6.77 0.307 -142.08 900 mhz 0.903 -160.09 10.95 85.56 0.021 4.08 0.311 -144.94 1.0 ghz 0.902 -163.93 9.91 82.21 0.021 1.71 0.314 -147.23 1.1 ghz 0.901 -167.29 9.04 79.09 0.021 -0.41 0.319 -149.10 1.2 ghz 0.901 -170.29 8.31 76.15 0.021 -2.35 0.323 -150.69 1.3 ghz 0.900 -173.00 7.69 73.35 0.021 -4.12 0.328 -152.07 1.4 ghz 0.900 -175.50 7.15 70.66 0.021 -5.78 0.333 -153.29 1.5 ghz 0.900 -177.81 6.69 68.07 0.021 -7.32 0.338 -154.41 1.6 ghz 0.900 -179.98 6.27 65.54 0.021 -8.77 0.344 -155.44 1.7 ghz 0.900 177.96 5.91 63.08 0.020 -10.15 0.349 -156.43 1.8 ghz 0.899 176.00 5.59 60.67 0.020 -11.45 0.355 -157.38 1.9 ghz 0.899 174.12 5.30 58.30 0.020 -12.68 0.361 -158.30 2.0 ghz 0.899 172.31 5.04 55.97 0.020 -13.85 0.366 -159.22 2.1 ghz 0.899 170.54 4.80 53.67 0.020 -14.96 0.372 -160.14 2.2 ghz 0.900 168.83 4.58 51.40 0.020 -16.01 0.378 -161.06 2.3 ghz 0.900 167.15 4.39 49.16 0.019 -17.01 0.384 -161.99 2.4 ghz 0.900 165.49 4.21 46.94 0.019 -17.95 0.390 -162.93 2.5 ghz 0.900 163.87 4.04 44.73 0.019 -18.85 0.396 -163.88 2.6 ghz 0.900 162.26 3.89 42.54 0.019 -19.69 0.402 -164.86 2.7 ghz 0.900 160.66 3.75 40.37 0.019 -20.48 0.407 -165.85 2.8 ghz 0.900 159.08 3.62 38.21 0.019 -21.21 0.413 -166.86 2.9 ghz 0.900 157.51 3.50 36.05 0.018 -21.89 0.418 -167.89 3.0 ghz 0.900 155.93 3.39 33.91 0.018 -22.52 0.424 -168.95 3.2 ghz 0.900 152.79 3.18 29.65 0.018 -23.61 0.435 -171.12 3.4 ghz 0.900 149.64 3.00 25.40 0.017 -24.48 0.445 -173.38 3.6 ghz 0.900 146.45 2.85 21.17 0.017 -25.11 0.454 -175.73 3.8 ghz 0.900 143.23 2.71 16.93 0.017 -25.51 0.463 -178.17 4.0 ghz 0.900 139.94 2.58 12.69 0.017 -25.67 0.471 179.30 4.2 ghz 0.900 136.58 2.47 8.43 0.016 -25.60 0.479 176.67 4.4 ghz 0.899 133.14 2.38 4.15 0.016 -25.32 0.486 173.94 4.6 ghz 0.899 129.61 2.29 -0.17 0.016 -24.85 0.492 171.12 4.8 ghz 0.899 125.97 2.21 -4.53 0.016 -24.24 0.498 168.18 5.0 ghz 0.898 122.23 2.13 -8.94 0.016 -23.54 0.503 165.13 5.2 ghz 0.898 118.36 2.07 -13.41 0.016 -22.80 0.507 161.96 5.4 ghz 0.898 114.36 2.01 -17.95 0.017 -22.11 0.511 158.66 5.6 ghz 0.897 110.22 1.95 -22.56 0.017 -21.54 0.514 155.22 5.8 ghz 0.897 105.94 1.90 -27.26 0.018 -21.16 0.517 151.63 6.0 ghz 0.897 101.51 1.86 -32.04 0.019 -21.04 0.519 147.87 to download the s-parameters in s2p format, go to the cgh40010 product page and click on the documentation tab. cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 13 product dimensions cgh40010f (package type 440166) product dimensions cgh40010p (package type 440196) cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 14 product ordering information order number description unit of measure image cgh40010f gan hemt each cgh40010p gan hemt each CGH40010F-TB test board without gan hemt each cgh40010f-amp test board with gan hemt installed each cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. 15 disclaimer specifcations are subject to change without notice. cree, inc. believes the information contained within this data sheet to be accurate and reliable. however, no responsibility is assumed by cree for any infringement of patents or other rights of third parties which may result from its use. no license is granted by implication or otherwise under any patent or patent rights of cree. cree makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose. typical parameters are the average values expected by cree in large quantities and are provided for information purposes only. these values can and do vary in different applications and actual performance can vary over time. all operating parameters should be validated by customers technical experts for each application. cree products are not designed, intended or authorized for use as components in applications intended for surgical implant into the body or to support or sustain life, in applications in which the failure of the cree product could result in personal injury or death or in applications for planning, construction, maintenance or direct operation of a nuclear facility. for more information, please contact: cree, inc. 4600 silicon drive durham, north carolina, usa 27703 www.cree.com/rf sarah miller marketing cree, rf components 1.919.407.5302 ryan baker marketing & sales cree, rf components 1.919.407.7816 tom dekker sales director cree, rf components 1.919.407.5639 cgh40010 rev 4.0 cree, inc. 4600 silicon drive durham, north carolina, usa 27703 usa tel: +1.919.313.5300 fax: +1.919.869.2733 www.cree.com/rf copyright ? 2006-2015 cree, inc. all rights reserved. the information in this document is subject to change without notice. cree and the cree logo are registered trademarks of cree, inc. |
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