?? 19-6309; rev 0; 5/12 ?? ??????? china.maximintegrated. com/max2612.related max2612-max2616???? (pa)???50 ? ?? + 19.5dbm??? ?????catv? ????40mhz4000mhz + 3v + 5.25v??? ??50 ?????y? 2mm x 3mm tdfn?? ? ?? ? lan ?? u ????? ? < 0.5db1ghz4ghz u 2.0db (f rfin = 2.0ghz) u 40mhz4000mhz?? u ??p in (?)?? u ??oip3 ? max2615 /max2616 +37dbm ? max2612 +35.2dbm ? max2613 +31.2dbm ? max2614 +30dbm u p1db + 19.5dbm (max2615/max2616) u 18.6db u ???(max2612/max2613/max2614/max2616) u ???oip3 (max2615) u 3.0v5.25v u ?2mm x 3mm tdfn? u ????esd?2.5kv hbm rfin rfout 220nh 470pf 10nf 3v to 5.25 v 10f 0.01f 0.01f n.c. v cc en / bias gnd max2612 max2613 max2614 max2616 rfin rfout 220nh 470pf 10nf 3v to 5.25 v 10f 0.01f 0.01f v cc en / bias gnd max2615 21.5ki ??????????????? ?????maxim?10800 852 1249 ()10800 152 1249 () maxim?china.maximintegrated.com max2612 -max2616 40mhz4ghz??
maxim integrated 2 v cc ,en/rbias, rfout to gnd ......................... -0.3v to +6.0v maximum input power (rfin) ....................................... +20dbm continuous power dissipation (t a = +70nc) tdfn (derates 16.7mw/nc above +70nc) ............. 1333.3mw operating temperature range .......................... -40nc to +85nc junction temperature ..................................................... +150nc storage temperature range ............................ -65nc to +160nc lead temperature (soldering, 10s) ................................ +300nc soldering temperature (reflow) ...................................... +260nc tdfn junction-to-ambient thermal resistance (b ja ) .......... 60nc/w junction-to-case thermal resistance (b jc ) ................... 11nc/w absolute maximum ratings note 1: package thermal resistances were obtained using the method described in jedec specification jesd51-7, using a four- layer board. for detailed information on package thermal considerations, refer to china.maximintegrated.com/thermal-tutorial. package thermal characteristics (note 1) dc electrical characteristics (max2612/max2613/max2614/max2615/max2616 ev kit, v cc = +5.0v, no rf input signals at rfin, t a =-40nc to +85nc, unless otherwise noted. typical values are at v rfout = +5v, t a = +25nc, unless otherwise noted.) (note 2) ac electrical characteristics (max2612/max2613/max2614/max2615/max2616 ev kit, v cc = +5v, t a = -40nc to +85nc, unless otherwise noted. typical values are at v rfout = +5v, t a = +25nc, unless otherwise noted.) (note 2) stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. these are stress ratings only, and functional opera- tion of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. parameter conditions min typ max units supply voltage dc voltage at rfout 3 5 5.25 v supply current max2612 69 ma max2613 51.2 max2614 40.6 max2615, r bias = 21.5ki 81.5 max2616 80.6 shutdown supply current en logic-low 7 fa rbias minimum max2615 10 ki parameter conditions min typ max units rfin frequency range 40 4000 mhz power gain f rfin = 1000mhz (note 3) max2612 18.3 db max2613 18.6 max2614 18.6 max2615 18.5 max2616 18.4 f rfin = 4000mhz (note 3) max2612 17.5 max2613 18.1 max2614 17.5 max2615 18.0 max2616 18.0 max2612 -max2616 40mhz4ghz??
maxim integrated 3 ac electrical characteristics (continued) (max2612/max2613/max2614/max2615/max2616 ev kit, v cc = +5v, t a = -40nc to +85nc, unless otherwise noted. typical values are at v rfout = +5v, t a = +25nc, unless otherwise noted.) (note 2) parameter conditions min typ max units gain flatness across band f rfin = 1000mhz < f rfout < 3000mhz (note 3) max2612 0.2 db max2613 0.1 max2614 0.15 max2615 0.15 max2616 0.1 f rfin = 1000mhz < f rfout < 4000mhz (note 3) max2612 0.8 max2613 0.5 max2614 1.1 max2615 0.5 max2616 0.4 noise figure f rfin = 2000mhz (note 3) max2612 2.1 2.65 db max2613 2 2.42 max2614 2 2.35 max2615 2.2 2.95 max2616 2.2 2.85 oip3 input tones at 1000mhz and 1001mhz at -15dbm/tone max2612 35.2 dbm max2613 31.2 max2614 29.7 max2615 37.6 max2616 37.2 output p1db f rfin = 1000mhz (note 3) max2612 18.2 dbm max2613 15.5 max2614 13.6 max2615 19.5 max2616 19.5 reverse isolation 40mhz < f rfout < 4000mhz 20 db rfin input return loss 40mhz < f rfout < 1000mhz max2612 15 db max2613 15 max2614 12 max2615 15 max2616 15 1000mhz < f rfout < 4000mhz max2612 12 max2613 8 max2614 8 max2615 12 max2616 12 max2612 -max2616 40mhz4ghz??
maxim integrated 4 ac electrical characteristics (continued) (max2612/max2613/max2614/max2615/max2616 ev kit, v cc = +5v, t a = -40nc to +85nc, unless otherwise noted. typical values are at v rfout = +5v, t a = +25nc, unless otherwise noted.) (note 2) note 2: min and max values are production tested at t a = +85nc. min and max limits at t a = +25nc and t a = -40nc are guaranteed by design and characterization. note 3: min and max values are guaranteed by design and characterization at t a = +25nc. ? (max2612 /max2613/max2614/max2615/max2616 ev kit, v rfout = +5v, t a = +25nc .) parameter conditions min typ max units rfout output return loss 40mhz < f rfout < 1000mhz max2612 20 db max2613 15 max2614 12 max2615 20 max2616 20 1000mhz < f rfout < 4000mhz max2612 12 max2613 10 max2614 10 max2615 12 max2616 12 max2612 supply current vs. temperature max2612 toc01 temperature (c) supply current (ma) 50 0 67 68 69 70 66 -50 100 en pin unconnected v cc = 5v v cc = 4v v cc = 3v max2613 supply current vs. temperature max2612 toc02 temperature (c) supply current (ma) 50 0 50 51 52 53 49 -50 100 en pin unconnected v cc = 5v v cc = 4v v cc = 3v max2614 supply current vs. temperature max2612 toc03 temperature (c) supply current (ma) 50 0 39 40 41 42 38 -50 100 en pin unconnected v cc = 4v v cc = 5v v cc = 3v max2612 -max2616 40mhz4ghz??
maxim integrated 5 ?() (max2612 /max2613/max2614/max2615/max2616 ev kit, v rfout = +5v, t a = +25nc .) max2615 supply current vs. temperature max2612 toc04 temperature (c) supply current (ma) 50 0 80 81 82 83 79 -50 100 r bias = 21.5k i v cc = 5v v cc = 3v v cc = 4v max2616 supply current vs. temperature max2612 toc05 temperature (c) supply current (ma) 50 0 79 80 81 82 78 -50 100 v cc = 5v v cc = 3v v cc = 4v en pin unconnected max2612 gain vs. frequency max2612 toc06 frequency (mhz) power gain (db) 4000 3000 1000 2000 13 14 15 16 18 17 19 20 12 0 5000 en pin unconnected measurements done with de-embedded ev kit trace losses max2613 gain vs. frequency max2612 toc07 frequency (mhz) power gain (db) 4000 3000 1000 2000 13 14 15 16 18 17 19 20 12 0 5000 en pin unconnected measurements done with de-embedded ev kit trace losses max2614 gain vs. frequency max2612 toc08 frequency (mhz) power gain (db) 4000 3000 1000 2000 13 14 15 16 18 17 19 20 12 0 5000 en pin unconnected measurements done with de-embedded ev kit trace losses max2615 gain vs. frequency max2612 toc09 frequency (mhz) power gain (db) 4000 3000 1000 2000 13 14 15 16 18 17 19 20 12 0 5000 r bias = 21.5k i measurements done with de-embedded ev kit trace losses max2616 gain vs. frequency max2612 toc10 frequency (mhz) power gain (db) 4000 3000 1000 2000 13 14 15 16 18 17 19 20 12 0 5000 en pin unconnected measurements done with de-embedded ev kit trace losses max2612 gain vs. temperature max2612 toc11 temperature (c) 50 0 -50 100 power gain (db) 13 14 15 16 18 17 19 20 12 v cc = 5v v cc = 4v v cc = 3v en pin unconnected max2613 gain vs. temperature max2612 toc12 temperature (c) 50 0 -50 100 power gain (db) 13 14 15 16 18 17 19 20 12 v cc = 5v v cc = 4v v cc = 3v en pin unconnected max2612 -max2616 40mhz4ghz??
maxim integrated 6 ?() (max2612 /max2613/max2614/max2615/max2616 ev kit, v rfout = +5v, t a = +25nc .) max2614 gain vs. temperature max2612 toc13 temperature (c) 50 0 -50 100 power gain (db) 13 14 15 16 18 17 19 20 12 v cc = 5v v cc = 4v v cc = 3v en pin unconnected max2615 gain vs. temperature max2612 toc14 temperature (c) 50 0 -50 100 power gain (db) 13 14 15 16 18 17 19 20 12 v cc = 5v v cc = 4v v cc = 3v r bias = 21.5k i max2616 gain vs. temperature max2612 toc15 temperature (c) 50 0 -50 100 power gain (db) 13 14 15 16 18 17 19 20 12 v cc = 5v v cc = 4v v cc = 3v en pin unconnected max2612 oip3 vs. frequency max2612 toc16 temperature (c) oip3 (dbm) 3 2 25 30 35 40 20 14 v cc = 5v en pin unconnected t a = +85c t a = +25c t a = -40c max2613 oip3 vs. frequency max2612 toc17 frequency (ghz) oip3 (dbm) 3 2 25 30 35 40 20 14 v cc = 5v en pin unconnected t a = +85c t a = +25c t a = -40c max2614 oip3 vs. frequency max2612 toc18 frequency (ghz) oip3 (dbm) 3 2 25 30 35 40 20 14 v cc = 5v en pin unconnected t a = +85c t a = +25c t a = -40c max2615 oip3 vs. frequency max2612 toc19 frequency (ghz) oip3 (dbm) 3 2 25 30 35 40 20 14 v cc = 5v r bias = 21.5k i t a = +85c t a = +25c t a = -40c max2616 oip3 vs. frequency max2612 toc20 frequency (ghz) oip3 (dbm) 3 2 25 30 35 40 20 14 v cc = 5v en pin unconnected t a = +85c t a = +25c t a = -40c max2612 op1db vs. frequency max2612 toc21 frequency (ghz) op1db (dbm) 3 2 15 16 17 18 19 20 14 14 v cc = 5v en pin unconnected t a = +85c t a = -40c t a = +25c max2612 -max2616 40mhz4ghz??
maxim integrated 7 ?() (max2612 /max2613/max2614/max2615/max2616 ev kit, v rfout = +5v, t a = +25nc .) max2613 op1db vs. frequency max2612 toc22 frequency (ghz) op1db (dbm) 3 2 13 14 15 16 17 18 12 14 v cc = 5v en pin unconnected t a = +85c t a = +25c t a = -40c max2614 op1db vs. frequency max2612 toc23 frequency (ghz) op1db (dbm) 3 2 11 12 13 14 15 16 10 14 v cc = 5v en pin unconnected t a = +85c t a = +25c t a = -40c max2615 op1db vs. frequency max2612 toc24 frequency (ghz) op1db (dbm) 3 2 15 16 17 18 19 20 14 14 v cc = 5v r bias = 21.5k i t a = -40c t a = +25c t a = +85c max2616 op1db vs. frequency max2612 toc25 frequency (ghz) op1db (dbm) 3 2 15 16 17 18 19 20 14 14 v cc = 5v en pin unconnected t a = -40c t a = +85c t a = +25c noise figure vs. frequency max2612 toc26 frequency (mhz) noise figure (db) 1k 100 1.7 1.9 2.1 2.3 2.5 2.7 2.9 3.1 3.3 3.5 1.5 10 10k max2615 max2616 max2612 max2614 max2613 note 4 frequency (mhz) input return loss (db) 1k 100 10 10k input return loss vs. frequency max2612 toc27 -50 -40 -30 -20 -10 0 -60 max2614 max2616 max2615 max2612 max2613 output return loss vs. frequency max2612 toc28 frequency (mhz) output return loss (db) 1k 100 -30 -20 -10 0 -40 10 10k max2616 max2612 max2615 max2614 max2613 max2615 r bias resistance vs. supply current max2612 toc29 r bias (ki) i cc (ma) 10 100 1000 1 10 100 max2612 -max2616 40mhz4ghz??
maxim integrated 8 ? 1, 3, 6, 8 gnd ?pcb? 2 rfin ??0.01 f???????50 ? 4 en/rbias ??(max2612/max2613/max2614/max2616)????????? ??y????????????? ?()???????10a???? rbias (max2615)?21.5k ??????k?oip3??? ?? ? 5 v cc ????470pf10nf????v cc ??10 f? ??esr > 2nf????? 7 rfout ???220nh??0.01 f?? ep ???3 x 3pcb???(1368)?1?? ?? 1 + 3 ep 4 86 5 gnd gnd v cc max2612?max2616 2 7 rfout gnd gnd en /r bias rfin tdfn top view max2612 -max2616 40mhz4ghz??
maxim integrated 9 ? + ??(pb)/rohs??? * ep = ?? ?? ?????(?)? china. maximintegrated.com/packages ????+ #-?rohs???????? ?????rohs???? ?? max2615??? max2612/max2613/max2614/max2616??? ?max2615?rbias (4)? ??max2615??? ???r bias ?10k ???150ma ?r bias ?69k ???37.5ma? ?????????? ?? lte?max261x???? ?oip3? ?(2mm x 3mm tdfn)????? ????phemtingap gaas??????? ? max261x????????????? ?? + 20dbm????? ?????rf? ? ?? -? max2612eta+ -40nc to +85nc 8 tdfn-ep* max2613eta+ -40nc to +85nc 8 tdfn-ep* max2614eta+ -40nc to +85nc 8 tdfn-ep* max2615eta+ -40nc to +85nc 8 tdfn-ep* max2616eta+ -40nc to +85nc 8 tdfn-ep* ? ? ?? 8 tdfn-ep t823+1 20-0174 90-0091 max2612 -max2616 40mhz4ghz??
?? maximmaxim????????maxim??????????? ???(??)?????? maxim integrated 160 rio robles, san jose, ca 95134 usa 1-408-601-10 00 10 ? 2012 maxim integrated maxim?maxim integratedmaxim integrated products, inc.? maxim 8328 100083 ?800 810 0310 010-6211 5199 010-6211 5299 ? ? ? ?? 0 5/12 max2612 -max2616 40mhz4ghz??
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