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2010 description the pc3242tb is a silicon germanium mono lithic integrated circuit designed as if amplifier for dbs lnb. this device exhibits low noise figur e and high power gain characteristics. this ic is manufactured using our uhsk3 (u ltra h igh s peed process) silicon germanium bipolar process. features ? low current : i cc = 4.3 ma typ. ? power gain : g p = 22 db typ. @ f = 1.0 ghz : g p = 22 db typ. @ f = 2.2 ghz ? gain flatness : g p = 0.4 db typ. @ f = 1.0 to 2.2 ghz ? noise figure : nf = 4.0 db typ. @ f = 1.0 ghz : nf = 4.0 db typ. @ f = 2.2 ghz ? high linearity : p o (1 db) = ? 7.5 dbm typ. @ f = 1.0 ghz : p o (1 db) = ? 9.5 dbm typ. @ f = 2.2 ghz ? supply voltage : v cc = +3.0 to +3.6 v ? port impedance : input/output 50 applications ? if amplifiers in dbs lnb, other l-band amplifiers, etc. ordering information part number order number package marking supplying form pc3242tb-e3 pc3242tb-e3-a 6-pin super minimold (pb-free) c3z ? embossed tape 8 mm wide ? pin 1, 2, 3 face the perforation side of the tape ? qty 3 kpcs/reel remark to order evaluation samples, please contact your nearby sales office. part number for sample order: pc3242tb data sheet caution observe precautions when handling because these devices are sensitive to electrostatic discharge. the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version. not all products and/or types are available in every country. please check with an nec electronics sales representative for availability and additional information. bipolar analog integrated circuit pc3242tb 3.3 v, silicon germanium mmic wide band amplifier document no. pu10803ej01v0ds (1st edition) date published march 2010 ns printed in japan
pin connections and in ternal block diagram pin no. pin name 1 input 2 gnd 3 gnd 4 output 5 gnd (top view) 3 2 1 4 5 6 c3z (bottom view) 4 5 6 3 2 1 (top view) 3 2 1 4 5 6 6 v cc product line-up of 5 v or 3.3 v-bias silicon mmic wide band amplifier (t a = +25c, v cc = +5.0 v or +3.3 v, z s = z l = 50 � ) part no. v cc (v) i cc (ma) g p (db) nf (db) p o (sat) (dbm) p o (1 db) (dbm) package marking pc2711tb +5.0 12.0 13.0 (1.0 ghz) 5.0 (1.0 ghz)
absolute maximum ratings parameter symbol conditions ratings unit supply voltage v cc t a = +25c 4.0 v total circuit current i cc t a = +25c 10 ma power dissipation p d t a = +85 c note 270 mw operating ambient temperature t a ? 40 to +85 c storage temperature t stg ? 55 to +150 c input power p in t a = +25c ? 10 dbm note mounted on double-sided copper-clad 50 50 1.6 mm epoxy glass pwb recommended operating range parameter symbol conditions min. typ. max. unit supply voltage v cc +3.0 +3.3 +3.6 v operating ambient temperature t a ? 40 +25 +85 c data sheet pu10803ej01v0ds 3 pc3242tb
electrical characteristics (t a = +25c, v cc = +3.3 v, z s = z l = 50 � , unless otherwise specified) parameter symbol test conditions min. typ. max. unit circuit current i cc no input signal 3.6 4.3 5.0 ma power gain 1 g p 1 f = 0.25 ghz, p in = ? 40 dbm 19 22 25 db power gain 2 g p 2 f = 1.0 ghz, p in = ? 40 dbm 19 22 25 power gain 3 g p 3 f = 1.8 ghz, p in = ? 40 dbm 19 22 25 power gain 4 g p 4 f = 2.2 ghz, p in = ? 40 dbm 19 22 25 gain 1 db compression output power 1 p o (1 db) 1 f = 1.0 ghz ? 10 ? 7.5 ? dbm gain 1 db compression output power 2 p o (1 db) 2 f = 2.2 ghz ? 12.5 ? 9.5 ? noise figure 1 nf1 f = 1.0 ghz ? 4.0 4.8 db noise figure 2 nf2 f = 2.2 ghz ? 4.0 4.8 isolation 1 isl1 f = 1.0 ghz, p in = ? 40 dbm 31 36.5 ? db isolation 2 isl2 f = 2.2 ghz, p in = ? 40 dbm 34 40.5 ? input return loss 1 rl in 1 f = 1.0 ghz, p in = ? 40 dbm 10 14 ? db input return loss 2 rl in 2 f = 2.2 ghz, p in = ? 40 dbm 6 8.5 ? output return loss 1 rl out 1 f = 1.0 ghz, p in = ? 40 dbm 8 11 ? db output return loss 2 rl out 2 f = 2.2 ghz, p in = ? 40 dbm 8 11 ? standard characteristics for reference (t a = +25c, v cc = +3.3 v, z s = z l = 50 � , unless otherwise specified) parameter symbol test conditions reference value unit power gain 5 g p 5 f = 2.6 ghz, p in = ? 40 dbm 20.5 db power gain 6 g p 6 f = 3.0 ghz, p in = ? 40 dbm 19 gain flatness � g p f = 1.0 to 2.2 ghz, p in = ? 40 dbm 0.4 db saturated output power 1 p o (sat) 1 f = 1.0 ghz, p in = ? 15 dbm ? 0.5 dbm saturated output power 2 p o (sat) 2 f = 2.2 ghz, p in = ? 15 dbm ? 4.0 k factor 1 k1 f = 1.0 ghz, p in = ? 40 dbm 2.5 ? k factor 2 k2 f = 2.2 ghz, p in = ? 40 dbm 3.4 ? output 3rd order intercept point 1 oip 3 1 f1 = 1 000 mhz, f2 = 1 001 mhz 1.5 dbm output 3rd order intercept point 2 oip 3 2 f1 = 2 200 mhz, f2 = 2 201 mhz ? 0.5 input 3rd order intercept point 1 iip 3 1 f1 = 1 000 mhz, f2 = 1 001 mhz ? 20 dbm input 3rd order intercept point 2 iip 3 2 f1 = 2 200 mhz, f2 = 2 201 mhz ? 22 2nd order intermodulation distortion im 2 f1 = 1 000 mhz, f2 = 1 001 mhz, p in = ? 40 dbm/tone 22 dbc 2nd harmonics 2f 0 f 0 = 1.0 ghz, p in = ? 40 dbm 28.5 dbc data sheet pu10803ej01v0ds 4 pc3242tb
test circuit c1 100 pf in 6 4 1 2, 3, 5 out gnd microstrip line c3 1 000 pf c4 1 000 pf c2 100 pf v cc z s = z l = 50 � microstrip line the application circuits and their parameters are for reference only and are not intended for use in actual design-ins. components of test circuit for measuring electrical characteristics type value c1, c2 chip capacitor 100 pf c3 chip capacitor 1 000 pf c4 feed-through capacitor 1 000 pf capacitors for the v cc , input and output pins capacitors of 1 000 pf are recommendable as the bypass capacitor for the v cc pin and the coupling capacitors for the input and output pins. the bypass capacitor connected to the v cc pin is used to minimize ground impedance of v cc pin. so, stable bias can be supplied against v cc fluctuation. the coupling capacitors, connec ted to the input and output pins, are used to cut the dc and minimize rf serial impedance. their capacitances are therefore selected as lower impedance against a 50 � load. the capacitors thus perform as high pass filters, s uppressing low frequencies to dc. data sheet pu10803ej01v0ds 5 pc3242tb
illustration of the test circuit assembled on evaluation board c3z 3 2 1 4 5 6 top view c4: feed-through capacitor (unit : mm) mounting direction c1 c2 c3 in out notes 1. 30 30 0.4 mm double sided 35 m copper clad polyimide board. 2. back side: gnd pattern 3. au plated on pattern 4. : through holes component list type value size c1, c2 chip capacitor 100 pf 1608 c3 chip capacitor 1 000 pf 1608 c4 feed-through capacitor 1 000 pf ? data sheet pu10803ej01v0ds 6 pc3242tb
typical characteristics (t a = +25 c, v cc = +3.3 v, z s = z l = 50 � , unless otherwise specified) 8 7 6 5 4 3 2 1 0 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 6.0 5.5 5.0 4.5 4.0 3.5 3.0 2.5 2.0 ?40 ?20 0 20 40 60 80 circuit current vs. supply voltage circuit current i cc (ma) supply voltage v cc (v) no input signal curcuit current vs. operating ambient temperature circuit current i cc (ma) operating ambient temperature t a ( c) frequency f (ghz) power gain vs. frequency power gain g p (db) isolation vs. frequency frequency f (ghz) output return loss vs. frequency frequency f (ghz) output return loss rl out (db) t a = + 85 c ? 40 c no input signal v cc = +3.3 v 0 ?5 ?10 ?15 ?20 ?25 ?30 ?35 ?40 input return loss vs. frequency input return loss rl in (db) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 frequency f (ghz) +3.0 v p in = ?40 dbm 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 0 ?5 ?10 ?15 ?20 ?25 ?30 ?35 ?40 ?45 ?50 p in = ?40 dbm isolation isl (db) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 0 ?5 ?10 ?15 ?20 ?25 ?30 ?35 ?40 p in = ?40 dbm 28 27 26 25 24 23 22 21 20 19 18 17 16 15 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 p in = ?40 dbm +3.3 v +3.3 v +3.6 v +25 c v cc = +3.6 v v cc = +3.6 v +3.3 v v cc = +3.6 v +3.0 v +3.3 v v cc = +3.0 v +3.0 v remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 7 pc3242tb
28 27 26 25 24 23 22 21 20 19 18 17 16 15 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 frequency f (ghz) power gain vs. frequency power gain g p (db) p in = ?40 dbm 0 ?5 ?10 ?15 ?20 ?25 ?30 ?35 ?40 input return loss vs. frequency input return loss rl in (db) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 frequency f (ghz) p in = ?40 dbm isolation vs. frequency frequency f (ghz) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 0 ?5 ?10 ?15 ?20 ?25 ?30 ?35 ?40 ?45 ?50 p in = ?40 dbm isolation isl (db) output return loss vs. frequency frequency f (ghz) output return loss rl out (db) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 0 ?5 ?10 ?15 ?20 ?25 ?30 ?35 ?40 p in = ?40 dbm 10 5 0 ?5 ?10 ?15 ?20 ?25 ?30 f = 1.0 ghz ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power vs. input power output power p out (dbm) input power p in (dbm) v cc = +3.6 v +3.0 v + 85 c +25 c t a = ? 40 c +25 c t a = + 85 c t a = + 85 c +25 c +3.3 v ? 40 c t a = + 85 c +25 c ? 40 c ? 40 c 10 5 0 ?5 ?10 ?15 ?20 ?25 ?30 f = 2.2 ghz ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power vs. input power output power p out (dbm) input power p in (dbm) v cc = +3.6 v +3.0 v +3.3 v remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 8 pc3242tb
5.5 5.0 4.5 4.0 3.5 3.0 2.5 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 frequency f (ghz) noise figure vs. frequency noise figure nf (db) 5.5 5.0 4.5 4.0 3.5 3.0 2.5 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 frequency f (ghz) noise figure vs. frequency noise figure nf (db) t a = + 85 c +25 c ? 40 c 10 5 0 ?5 ?10 ?15 ?20 ?25 ?30 f = 1.0 ghz ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power vs. input power output power p out (dbm) input power p in (dbm) + 85 c t a = ? 40 c +25 c 10 5 0 ?5 ?10 ?15 ?20 ?25 ?30 f = 2.2 ghz ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power vs. input power output power p out (dbm) input power p in (dbm) + 85 c t a = ? 40 c +25 c v cc = +3.0 v +3.6 v +3.3 v 10.0 9.0 8.0 7.0 6.0 5.0 4.0 3.0 2.0 1.0 0.0 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 k factor vs. frequency frequency f (ghz) k factor k p in = ? 40 dbm v cc = +3.0 v +3.6 v +3.3 v remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 9 pc3242tb
p out im 3 v cc = +3.0 v f1 = 1 000 mhz f2 = 1 001 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 v cc = +3.0 v f1 = 2 200 mhz f2 = 2 201 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 v cc = +3.3 v f1 = 1 000 mhz f2 = 1 001 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 v cc = +3.3 v f1 = 2 200 mhz f2 = 2 201 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 v cc = +3.6 v f1 = 1 000 mhz f2 = 1 001 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 v cc = +3.6 v f1 = 2 200 mhz f2 = 2 201 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 10 pc3242tb
p out im 3 t a = ? 40 c f1 = 1 000 mhz f2 = 1 001 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 t a = ? 40 c f1 = 2 200 mhz f2 = 2 201 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 t a = +25 c f1 = 1 000 mhz f2 = 1 001 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 t a = +25 c f1 = 2 200 mhz f2 = 2 201 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 t a = +85 c f1 = 1 000 mhz f2 = 1 001 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) p out im 3 t a = +85 c f1 = 2 200 mhz f2 = 2 201 mhz 30 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 3 vs. input power output power p out (1 tone) (dbm) 3rd order intermodulation distortion im 3 (1 tone) (dbm) input power p in (1 tone) (dbm) remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 11 pc3242tb
output power, im 2 vs. input power output power p out (1 tone) (dbm) 2nd order intermodulation distortion im 2 (2 tone) (dbm) input power p in (1 tone) (dbm) v cc = +3.0 v f1 = 1 000 mhz f2 = 1 001 mhz p out im 2 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 im 2 vs. input power 2nd order intermodulation distortion im 2 (dbc) input power p in (1 tone) (dbm) v cc = +3.0 v f1 = 1 000 mhz f2 = 1 001 mhz 50 45 40 35 30 25 20 15 10 5 0 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 2 vs. input power output power p out (1 tone) (dbm) 2nd order intermodulation distortion im 2 (2 tone) (dbm) input power p in (1 tone) (dbm) v cc = +3.3 v f1 = 1 000 mhz f2 = 1 001 mhz p out im 2 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 im 2 vs. input power 2nd order intermodulation distortion im 2 (dbc) input power p in (1 tone) (dbm) v cc = +3.3 v f1 = 1 000 mhz f2 = 1 001 mhz 50 45 40 35 30 25 20 15 10 5 0 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 2 vs. input power output power p out (1 tone) (dbm) 2nd order intermodulation distortion im 2 (2 tone) (dbm) input power p in (1 tone) (dbm) v cc = +3.6 v f1 = 1 000 mhz f2 = 1 001 mhz p out im 2 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 im 2 vs. input power 2nd order intermodulation distortion im 2 (dbc) input power p in (1 tone) (dbm) v cc = +3.6 v f1 = 1 000 mhz f2 = 1 001 mhz 50 45 40 35 30 25 20 15 10 5 0 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 12 pc3242tb
output power, im 2 vs. input power output power p out (1 tone) (dbm) 2nd order intermodulation distortion im 2 (2 tone) (dbm) input power p in (1 tone) (dbm) t a = ? 40 c f1 = 1 000 mhz f2 = 1 001 mhz p out im 2 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 im 2 vs. input power 2nd order intermodulation distortion im 2 (dbc) input power p in (1 tone) (dbm) t a = ? 40 c f1 = 1 000 mhz f2 = 1 001 mhz 50 45 40 35 30 25 20 15 10 5 0 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 2 vs. input power output power p out (1 tone) (dbm) 2nd order intermodulation distortion im 2 (2 tone) (dbm) input power p in (1 tone) (dbm) t a = +25 c f1 = 1 000 mhz f2 = 1 001 mhz p out im 2 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 im 2 vs. input power 2nd order intermodulation distortion im 2 (dbc) input power p in (1 tone) (dbm) t a = +25 c f1 = 1 000 mhz f2 = 1 001 mhz 50 45 40 35 30 25 20 15 10 5 0 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, im 2 vs. input power output power p out (1 tone) (dbm) 2nd order intermodulation distortion im 2 (2 tone) (dbm) input power p in (1 tone) (dbm) t a = +85 c f1 = 1 000 mhz f2 = 1 001 mhz p out im 2 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 im 2 vs. input power 2nd order intermodulation distortion im 2 (dbc) input power p in (1 tone) (dbm) t a = +85 c f1 = 1 000 mhz f2 = 1 001 mhz 50 45 40 35 30 25 20 15 10 5 0 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 13 pc3242tb
p out 2f 0 v cc = +3.0 v f = 1 000 mhz 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, 2f 0 vs. input power output power p out (dbm) 2nd harmonics 2f 0 (dbm) input power p in (dbm) p out 2f 0 v cc = +3.3 v f = 1 000 mhz 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, 2f 0 vs. input power output power p out (dbm) 2nd harmonics 2f 0 (dbm) input power p in (dbm) p out 2f 0 v cc = +3.6 v f = 1 000 mhz 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, 2f 0 vs. input power output power p out (dbm) 2nd harmonics 2f 0 (dbm) input power p in (dbm) p out 2f 0 t a = ? 40 c f = 1 000 mhz 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, 2f 0 vs. input power output power p out (dbm) 2nd harmonics 2f 0 (dbm) input power p in (dbm) p out 2f 0 t a = +25 c f = 1 000 mhz 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, 2f 0 vs. input power output power p out (dbm) 2nd harmonics 2f 0 (dbm) input power p in (dbm) p out 2f 0 t a = +85 c f = 1 000 mhz 20 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 output power, 2f 0 vs. input power output power p out (dbm) 2nd harmonics 2f 0 (dbm) input power p in (dbm) remark the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 14 pc3242tb
s-parameters (t a = +25 c, v cc = 3.3 v, p in = ? 40 dbm) s 11 ? frequency start : 100 mhz stop : 5 100 mhz 1 : 1 000 mhz 47.35 � 16.60 � 2 : 2 200 mhz 70.96 � 41.34 � 2 1 s 22 ? frequency start : 100 mhz stop : 5 100 mhz 1 : 1 000 mhz 86.47 � ?7.39 � 2 : 2 200 mhz 70.37 � 28.59 � 2 1 remarks 1. measured on the test circ uit of evaluation board. 2. the graphs indicate nominal characteristics. data sheet pu10803ej01v0ds 15 pc3242tb
s-parameters s-parameters and noise parameters are provided on our web site in a format (s2p) that enables the direct import of the parameters to microwave circuit simulators without the need for keyboard inputs. click here to download s-parameters. [rf and microwave] � [device parameters] url http://www.necel.com/microwave/en/ data sheet pu10803ej01v0ds 16 pc3242tb
package dimensions 6-pin super minimold (unit: mm) 0.90.1 0.7 0 to 0.1 0.15 +0.1 ?0.05 0.2 +0.1 ?0.05 2.0 +0.15 ?0.20 1.3 0.65 0.65 1.250.1 2.10.1 0.1 min. data sheet pu10803ej01v0ds 17 pc3242tb
notes on correct use (1) observe precautions for handling becaus e of electro-static sensitive devices. (2) form a ground pattern as widely as possible to minimize ground impedance (to pr event undesired oscillation). all the ground terminals must be connec ted together with wide ground pattern to decrease impedance difference. (3) the bypass capacitor should be attached to the v cc line. (4) the dc cut capacitor must be attached to input and output pin. recommended soldering conditions this product should be soldered and m ounted under the following recommended condi tions. for soldering methods and conditions other than those recommended bel ow, contact your nearby sales office. soldering method soldering conditions condition symbol infrared reflow peak temperature (package surface temperature) : 260 c or below time at peak temperature : 10 seconds or less time at temperature of 220 c or higher : 60 seconds or less preheating time at 120 to 180 c : 120 30 seconds maximum number of reflow processes : 3 times maximum chlorine content of rosin fl ux (% mass) : 0.2%(wt.) or below ir260 wave soldering peak temperature (molten solder temperature) : 260 c or below time at peak temperature : 10 seconds or less preheating temperature (package surface temperature) : 120 c or below maximum number of flow processes : 1 time maximum chlorine content of rosin fl ux (% mass) : 0.2%(wt.) or below ws260 partial heating peak temperatur e (terminal temperature) : 350 c or below soldering time (per side of device) : 3 seconds or less maximum chlorine content of rosin fl ux (% mass) : 0.2%(wt.) or below hs350 caution do not use different soldering met hods together (except for partial heating). data sheet pu10803ej01v0ds 18 pc3242tb
the information in this document is current as of march, 2010. the information is subject to change without notice. for actual design-in, refer to the latest publications of nec electronics data sheets, etc., for the most up-to-date specifications of nec electronics products. not all products and/or types are available in every country. please check with an nec electronics sales representative for availability and additional information. no part of this document may be copied or reproduced in any form or by any means without the prior written consent of nec electronics. nec electronics assumes no responsibility for any errors that may appear in this document. nec electronics does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from the use of nec electronics products listed in this document or any other liability arising from the use of such products. no license, express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of nec electronics or others. descriptions of circuits, software and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. the incorporation of these circuits, software and information in the design of a customer's equipment shall be done under the full responsibility of the customer. nec electronics assumes no responsibility for any losses incurred by customers or third parties arising from the use of these circuits, software and information. while nec electronics endeavors to enhance the quality and safety of nec electronics products, customers agree and acknowledge that the possibility of defects thereof cannot be eliminated entirely. in addition, nec electronics products are not taken measures to prevent radioactive rays in the product design. when customers use nec electronics products with their products, customers shall, on their own responsibility, incorporate sufficient safety measures such as redundancy, fire-containment and anti-failure features to their products in order to avoid risks of the damages to property (including public or social property) or injury (including death) to persons, as the result of defects of nec electronics products. nec electronics products are classified into the following three quality grades: "standard", "special" and "specific". the "specific" quality grade applies only to nec electronics products developed based on a customer- designated "quality assurance program" for a specific application. the recommended applications of an nec electronics product depend on its quality grade, as indicated below. customers must check the quality grade of each nec electronics product before using it in a particular application. the quality grade of nec electronics products is "standard" unless otherwise expressly specified in nec electronics data sheets or data books, etc. if customers wish to use nec electronics products in applications not intended by nec electronics, they must contact an nec electronics sales representative in advance to determine nec electronics' willingness to support a given application. (note) ? ? ? ? ? ? m8e0904e (1) (2) "nec electronics" as used in this statement means nec electronics corporation and also includes its majority-owned subsidiaries. "nec electronics products" means any product developed or manufactured by or for nec electronics (as defined above). computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots. transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support). aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems and medical equipment for life support, etc. "standard": "special": "specific": pc3242tb
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