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| 1 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com datasheet subject to change without notice. primary applications product description key features and performance measured performance 800 - 3000 mhz high ip3 dual phemt ? 800 - 3000 mhz frequency range ? <0.6 db noise figure ? gain 24 db @ 900 mhz, 19 db @ 1950 mhz, 18 db @ 2600 mhz ? bias conditions: 4 v/100 ma ? package dimensions: 2.0 x 2.0 x 0.9 mm ? base station ? wimax the triquint tga2602-sm is a packaged low noise dual phemt discrete device. the tga2602-sm operates from 800 - 3000 mhz. the tga2602-sm in the application circuit typically provides <0.6 db noise figure with a small signal gain of >19 db at 1950 mhz, >18 db at 2600 mhz.. the tga2602-sm is available in a low-cost, surface mount 6 lead 2 x 2 qfn style package and is ideally suited for base station and wimax applications. balanced amplifier evaluation boards are available tuned to 900, 1950, and 2600 mhz upon request. lead-free and rohs compliant. bias conditions: vd = 4 v, id = 100 ma, vg = -0.2 v typical
2 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com table ii recommended operating conditions table i absolute maximum ratings 1 / symbol parameter value notes v + positive supply voltage 5 v 1 / 2 / v - negative supply voltage -1 v to 0.5 v 1 / i + positive supply current (per channel) 100 ma 1 / 2 / | i - | negative supply current (per channel) 5 ma 1 / p in input continuous wave power +13 dbm 1 / 2 / p d power dissipation 500 mw 1 / 2 / t ch operating channel temperature 200 c 3 / t m mounting temperature (10 seconds) 260 c t stg storage temperature -65 to 150 c 1 / these ratings represent the maximum operable values for this device 2 / combinations of supply voltage, supply current, input power, and output power shall not exceed p d at a package base temperature of 80 c 3 / junction operating temperature will directly affect the device lifetime (tm). for maximum life, it is recommended that junction temperatures be maintained at the lowest possible levels. symbol parameter value v + positive supply voltage 4 v v - negative supply voltage -0.2 v typical i + positive supply current (balanced circuit) 100 ma i + positive supply current (single channel) 50 ma 3 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com table iii rf characterization table table iiia ? 900 mhz balanced amplifier (t a = 25 c, nominal) vd = 4 v, id = 100 ma parameter test conditions typ units small signal gain 850 ? 900 mhz 26 db input return loss 850 ? 900 mhz 27 db output return loss 850 ? 900 mhz 25 db noise figure 850 ? 900 mhz 0.75 db input toi 850 ? 900 mhz 5 dbm table iiib ? 1950 mhz balanced amplifier (t a = 25 c, nominal) vd = 4 v, id = 100 ma parameter test conditions min typ max units small signal gain 1950 mhz 18 19.5 24 db input return loss 1950 mhz 16 db output return loss 1950 mhz 25 db noise figure 1950 mhz 0.65 0.9 db input toi 1950 mhz 11 13.5 dbm 4 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com table iii rf characterization table table iiic ? 2600 mhz balanced amplifier (t a = 25 c, nominal) vd = 4 v, id = 100 ma parameter test conditions typ units small signal gain 2600 mhz 18 db input return loss 2600 mhz 27 db output return loss 2600 mhz 27 db noise figure 2600 mhz 0.70 db input toi 2600 mhz 12 dbm 5 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com table iv power dissipation and thermal properties median lifetime (tm) vs. channel temperature thermal information parameter test conditions t ch (c) jc (c/w) tm (hrs) jc thermal resistance (channel to backside of package) v d = 3.5 v i d = 100 ma p diss = 0.35 w t base = 70 c 97 48.6 2e+10 note: thermal transfer is conducted through the bottom of the tga2602-sm package into the printed circuit board. 6 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com measured data single channel 1950 mhz application circuit vd = 4 v, id = 50 ma (refer to page 21) 7 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com single channel 1950 mhz application circuit vd = 4 v, id = 50 ma (refer to page 21) measured data 8 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com single channel 1950 mhz application circuit vd = 4 v, id = 50 ma (refer to page 21) measured data 9 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 900 mhz balanced amplifier circuit vd = 4 v, id = 100 ma (refer to page 23) measured data 10 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 900 mhz balanced amplifier circuit vd = 4 v, id = 100 ma (refer to page 23) measured data 11 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 900 mhz balanced amplifier circuit vd = 4 v, id = 100 ma (refer to page 23) measured data 12 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 1950 mhz balanced amplifier circuit vd = 4 v, id = 100 ma (refer to page 24) measured data 13 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 1950 mhz balanced amplifier circuit vd = 4 v, id = 100 ma (refer to page 24) measured data 14 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 1950 mhz balanced amplifier circuit vd = 4 v, id = 100 ma (refer to page 24) measured data 15 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com measured data 2600 mhz balanced amplifier circuit vd = 4 v, id = 100 ma ( refer to page 26) 16 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com measured data 2600 mhz balanced amplifier circuit vd = 4 v, id = 100 ma ( refer to page 26) pin = +8 dbm 17 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com measured data 2600 mhz balanced amplifier circuit vd = 4 v, id = 100 ma ( refer to page 26) 18 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com measured data 2600 mhz balanced amplifier circuit vd = 4 v, id = 100 ma ( refer to page 26) 19 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com package s-parameters single channel vd = 4 v, id = 50 ma 20 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com single channel 1950 mhz circuit schematic l1 l2 r2 r1 c7 c8 c1 c2 l3 l4 c11 c9 c12 c10 c5 c6 rf in a rf out b vg vg vd vd ml1 ml2 ml3 ml4 rf in b rf out a c3 c4 r3 r4 designator component c1,c2 22 pf capacitor c3,c4 4.7 pf capacitor c5,c6,c9,c10 10 pf capacitor c7,c8,c11,c12 1 uf capacitor l1,l2 22 nh inductor l3,l4 47 nh inductor r1,r2 2.2 kohm resistor r3,r4 10 ohm resistor 21 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com single channel 1950 mhz application board layout 22 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com balanced amplifier 900 mhz and 1500mhz circuit schematic 900mhz circuit 1950mhz circuit l1 l2 c4 c3 r2 r1 c7 c8 c1 c2 r5 l3 l4 c11 c9 c12 c10 c5 c6 r6 rf in rf out vg vg vd vd ml1 ml2 ml3 ml4 x1 x2 r3 r4 designator component c1,c2 22 pf capacitor c3,c4 4.7 pf capacitor c5,c6,c9,c10 10 pf capacitor c7,c8,c11,c12 1 uf capacitor l1,l2 22 nh inductor l3,l4 47 nh inductor r1,r2 2.2 kohm resistor r3,r4 10 ohm resistor r5,r6 50 ohm resistor 23 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 900 mhz balanced amplifier application board layout 24 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 1950 mhz balanced amplifier application board layout 25 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com balanced amplifier 2600 mhz circuit schematic l1 l2 r2 r1 c7 c8 c1 c2 r5 l3 l4 c9 c3 c4 r6 rf in rf out vg vg vd vd ml1 ml2 ml3 ml4 x1 x2 c6 c5 c10 r3 r4 designator description vendor c1, c2 4.7 pf (0603) c3, c4 10 pf (0603) c5, c6 1pf (0603) c7, c8, c9, c10 1 uf (0603) r1, r2, r3, r4 10 ohm (0603) r5, r6 50 ohm (0603) l1, l2, l3, l4 47 nh (0603) x1, x2 xc2500a-03 anaren designator impedance electrical length @ 2.6 ghz ml1, ml2 100 ohm 28 degree ml3, ml4 90 ohm 12 degree 26 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com 2600 mhz balanced amplifier application board layout 27 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com package pinout diagram bottom view top view dot indicates pin 1 gaas mmic devices are susceptible to damage from electrostatic discharge . proper precautions should be observed during handling, assembly and test. pin description 1 rf in a / vga 2,5 n/c 3 rf in b / vgb 4 rf out b / vdb 6 rf out a / vda 28 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com mechanical drawing 29 march 2011 ? rev c tga2602-sm triquint semiconductor: www. tri quint.com (972)994- 8465 fax (972)994-8504 info-mmw@tqs.com recommended surface mount package assembly proper esd precautions must be followed while handling packages. clean the board with acetone. rinse with alc ohol. allow the circuit to fully dry. triquint recommends using a conductive solder paste for attachment. follow solder paste and reflow oven vendors? recommendations when developing a solder reflow profile. typical solder reflow profiles are listed in the table below. hand soldering is not recommended. solder paste c an be applied using a stencil printer or dot placement. the volume of solder paste depends on pcb and component layout and should be well controlled to ensure consistent mechanical and electrical performance. this package has little tendency to self-align during reflow . clean the assembly with alcohol. gaas mmic devices are susceptible to damage from electrostatic discharge . proper precautions should be observed during handling, assembly and test. typical solder reflow profiles reflow profile snpb pb free ramp-up rate 3 c/sec 3 c/sec activation time and temperature 60 ? 120 sec @ 140 ? 160 c 60 ? 180 sec @ 150 ? 200 c time above melting point 60 ? 150 sec 60 ? 150 sec max peak temperature 240 c 260 c time within 5 c of peak temperature 10 ? 20 sec 10 ? 20 sec ramp-down rate 4 ? 6 c/sec 4 ? 6 c/sec ordering information part package style tga2602-sm 2x2 6 lead qfn |
Price & Availability of TGA2602-SM-15
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