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r07ds0418ej0500 rev.5.00 page 1 of 18 may 09, 2012 preliminary datasheet rqa0004pxdqs silicon n-channel mos fet features ? high output power, high efficiency pout = +29.7 dbm, pae = 68% (f = 520 mhz) ? compact package capabl e of surface mounting outline 1. gate 2. source 3. drain 4. source 1 3 2, 4 1 2 3 4 renesas package code: plzz0004ca-a (package name : upak) note: marking is ?px?. absolute maximum ratings (ta = 25c) item symbol ratings unit drain to source voltage v dss 16 v gate to source voltage v gss 5 v drain current i d 0.3 a channel dissipation pch note 3 w channel temperature tch 150 ?c storage temperature tstg ?55 to +150 ?c note: value at tc = 25 ?c this device is sensitive to electro static discharge. an adequate care ful handling procedure is requested. r07ds0418ej0500 rev.5.00 may 09, 2012
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 2 of 18 may 09, 2012 electrical characteristics (ta = 25c) item symbol min. typ max. unit test conditions zero gate voltage drain current i dss ? ? 2 ? a v ds = 16 v, v gs = 0 gate to source leak current i gss ? ? 2 ? a v gs = 5 v, v ds = 0 gate to source cutoff voltage v gs(off) 0.3 0.6 0.9 v v ds = 6 v, i d = 1 ma forward transfer admittance |yfs| 0.3 0.43 0.6 s v ds = 6 v, i d = 0.3 a input capacitance ciss ? 10 ? pf v gs = 5 v, v ds = 0, f = 1 mhz output capacitance coss ? 5 ? pf v ds = 6 v, v gs = 0, f = 1 mhz reverse transfer capacitance crss ? 0.4 ? pf v dg = 6 v, v gs = 0, f = 1 mhz ? 25.1 ? dbm output power pout ? 0.33 ? w power added efficiency pae ? 65 ? % v ds = 3.7 v, i dq = 50 ma f = 174 mhz pin = +13 dbm (20 mw) ? 26.6 ? dbm output power pout ? 0.46 ? w power added efficiency pae ? 71 ? % v ds = 3.7 v, i dq = 50 ma f = 520 mhz pin = +13 dbm (20 mw) 28.7 29.7 ? dbm output power pout 0.74 0.93 ? w power added efficiency pae 60 68 ? % v ds = 6 v, i dq = 50 ma f = 520 mhz pin = +13 dbm (20 mw) main characteristics 50 100 150 200 0 0 0.1 0.2 0.3 246810 0.4 1.25 v 1.5 v 1.75 v v gs = 1.0 v maximum channel power dissipation curve case temperature t c (c) channel power dissipation pch (w) drain to source voltage v ds (v) drain current i d (a) typical output characteristics pulse test 5 4 2 1 3 2.0 v
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 3 of 18 may 09, 2012 0 2 4 6 8 10 12 v ds = 0 f = 1 mhz -5 -4 -3 -2 -1 0 5432 1 1000 1500 2000 0 5 10 15 20 30 msg |s21| 2 500 v ds = 6 v i d = 50 ma 25 11 0 0.1 0.1 10 1 v gs = 0 f = 1 mhz 0.1 10 110 0.1 1 v gs = 0 f = 1 mhz gate to source voltage v gs (v) input capacitance ciss (pf) input capacitance vs. gate to source voltage drain to gate voltage v dg (v) reverse transfer capacitance crss (pf) reverse transfer capacitance vs. drain to gate voltage output capacitance vs. drain to source voltage output capacitance coss (pf) maximum stable gain msg (db) forward transfer coefficient |s21| 2 (db) maximum stable gain,|s21| 2 vs. frequency frequency f (mhz) drain to source voltage v ds (v) 0 0.5 1.0 1.5 2.0 0.2 0.3 0.4 0.5 0.1 v ds = 6 v pulse test i d v ds = 6 v pulse test 0.01 0.1 1 0.1 1 gate to source voltage v gs (v) drain current i d (a) forward transfer admittance |y fs | (s) typical transfer characteristics drain current i d (a) forward transfer admittance vs. drain current forward transfer admittance |y fs | (s) |y fs |
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 4 of 18 may 09, 2012 evaluation circuit 1 (@v dd = 3.7 v tuning, f = 174 mhz) rf ou t r f in vgg vdd c1 c2 c4 c5 c7 l1 l2 l3 r1 c1, c2, c5, c10: 100 pf chip capacitor c3, c7: 1000 pf chip capacitor c4, c6: 1 16v chip tantalum capacitor c8, c9: 22 pf chip capacitor l1: 33 n h chip inductor l2: 10 n h chip inductor l3: 5.6 n h chip inductor r1: 200 chip resistor r2: 6.8 k chip resistor 50 50 c9 c6 c8 c10 c3 r2 rqa0004 output power, drain current vs. input power output power pout (dbm) input power pin (dbm) 0 5 10 25 30 0 0.1 0.2 0.3 -50510 20 0.15 0.05 v ds = 3.7v i dq = 50 ma f = 174 mhz i d pout 15 drain current id (a) 15 0.25 power gain, power added efficiency vs. input power power gain pg (db) input power pin (dbm) 0 10 20 30 35 0 20 40 60 70 -5 0 5 10 power added efficiency pae (%) pg 15 v ds = 3.7v i dq = 50 ma f = 174 mhz pae 5 25 15 50 30 10
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 5 of 18 may 09, 2012 frequency f (mhz) 130 140 150 160 170 180 output power, drain current vs. frequency power gain, power added efficiency, vs. frequency 140 150 160 170 180 frequency f (mhz) 130 idling current i dq (ma) 0 100 150 200 300 250 output power, drain current, vs. idling current 0 10 40 30 20 0 0.1 0.4 0.3 0.2 output power, drain current, vs. drain to source voltage drain to source voltage v ds (v) 0 20 0 0.2 0.4 30 10 0.1 0.3 5678 9 3 drain current id (a) 0 0.1 0.05 0.2 0 20 30 10 25 0 5 20 10 25 power added efficiency pae (%) 30 40 50 60 70 15 80 power gain pg (db) i d pout pg pae 40 4 output power pout (dbm) vds = 3.7 v f = 174 mhz p in = 13 dbm output power pout (dbm) output power pout (dbm) 0.3 345678 power gain, power added efficiency, vs. drain to source voltage 0 40 20 60 0 20 40 10 30 80 drain to source voltage v ds (v) power added efficiency pae (%) power gain pg (db) 9 idling current i dq (ma) 0 50 100 150 300 200 power gain, power added efficiency, vs. idling current 0 10 30 20 0 20 60 40 power added efficiency pae (%) 40 80 pout pg pout pg drain current id (a) drain current id (a) i d i d 15 5 0.25 0.15 i dq = 50 ma f = 174 mhz p in = 13 dbm i dq = 50 ma f = 174 mhz p in = 13 dbm 50 250 power gain pg (db) v ds = 3.7 v i dq = 50 ma pin = 13 dbm vds = 3.7 v f = 174 mhz p in = 13 dbm pae pae v ds = 3.7 v i dq = 50 ma pin = 13 dbm
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 6 of 18 may 09, 2012 evaluation circuit 2 (@v dd = 3.7 & 6.0v tuning, f = 520 mhz) rf out r f in vgg vdd c1 c2 c3 c5 c6 c12 c13 l1 l4 l2 l3 r1 c1, c4, c10, c14: 100 pf chip capacitor c2: 10 pf chip capacitor c3, c7: 2 pf chip capacitor c5, c12: 1000 pf chip capacitor c6, c11: 1 16v chip tantalum capacitor c8: 2200 p f chip capacitor c9: 3 pf chip capacitor c13: 8 pf chip capacitor l1, l2, l4: 5.6 n h chip inductor l3: 27 n h chip inductor l5: 4t ur ns d : 0 . 5 mm, 2 .4 mm e name l w i re r1: 6.8k chip resistor r2: 180 chip resistor 50 50 c14 c11 c9 c7 c8 c10 c4 l5 r2 rqa0004 output power, drain current vs. input power output power pout (dbm) input power pin (dbm) 0 5 10 25 30 0 0.1 0.2 0.3 -5 0 5 10 20 0.15 0.05 v ds = 3.7v i dq = 50 ma f = 520 mhz i d pout 15 drain current id (a) 15 0.25 power gain, power added efficiency vs. input power input power pin (dbm) 0 10 20 30 40 0 20 40 60 80 -5 0 5 10 power added efficiency pae (%) pae pg 15 v ds = 3.7v i dq = 50 ma f = 520 mhz power gain pg (db)
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 7 of 18 may 09, 2012 frequency f (mhz) 500 510 520 530 540 550 output power, drain current vs. frequency power gain, power added efficiency, vs. frequency 510 520 530 540 550 frequency f (mhz) 500 idling current i dq (ma) 0 100 150 200 300 250 output power, drain current, vs. idling current 0 10 40 30 20 0 0.1 0.4 0.3 0.2 output power, drain current, vs. drain to source voltage drain to source voltage v ds (v) 0 20 0 0.2 0.4 30 10 0.1 0.3 5678 9 3 drain current id (a) 0 0.1 0.05 0.2 0 20 30 10 25 v ds = 3.7 v i dq = 50 ma pin = 13 dbm 0 5 20 10 25 power added efficiency pae (%) 30 40 50 60 70 15 80 power gain pg (db) pg pae 40 4 output power pout (dbm) vds = 3.7 v f = 520 mhz p in = 13 dbm output power pout (dbm) output power pout (dbm) v ds = 3.7 v i dq = 50 ma pin = 13 dbm 0.3 345678 power gain, power added efficiency, vs. drain to source voltage 0 40 20 60 0 20 40 10 30 80 drain to source voltage v ds (v) power added efficiency pae (%) power gain pg (db) 9 idling current i dq (ma) 0 50 100 150 300 200 power gain, power added efficiency, vs. idling current 0 10 30 20 0 20 60 40 power added efficiency pae (%) 40 80 pout pg pout pg drain current id (a) drain current id (a) i d i d pae 15 5 0.25 0.15 i dq = 50 ma f = 520 mhz p in = 13 dbm i dq = 50 ma f = 520 mhz p in = 13 dbm 50 250 power gain pg (db) pout i d pae vds = 3.7 v f = 520 mhz p in = 13 dbm
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 8 of 18 may 09, 2012 500 510 520 530 5 4 0 550 output power, drain current vs . f requency power ga i n, power added e ffi c i ency, vs. frequency 510 520 530 5 4 0 550 f requency f (m h z) 500 idling current i dq (ma) 0 100 150 200 300 250 output power, drain current, vs . i dling current 0 10 40 30 20 0 0.1 0.4 0.3 0.2 drain current id (a) 0 0.1 0.2 0 20 40 10 30 0 5 20 10 25 power added e ff iciency pa e (%) 30 40 50 60 70 15 80 power ga i n pg (db) vds = 6 v f = 520 m h z p in = 13 dbm output power pout (dbm) output power pout (dbm) v ds = 6 v i dq = 50 ma pin = 13 dbm 0.4 idling current i dq (ma) 0 50 100 150 300 200 power ga i n, power added e ffi c i ency, vs . i dling current 0 10 30 20 0 20 60 40 power added e ff iciency pa e (%) 40 80 pg drain current id (a) i d 0.3 50 250 power ga i n pg (db) pout output power, drain current vs . i nput power output power pout (dbm) i nput power p i n (dbm) 0 10 40 0 0.1 0.2 0.4 - 50510 20 v ds = 6v i dq = 50 ma f = 520 m h z i d pout 15 drain current id (a) power ga i n, power added e ffi c i ency vs . i nput power power ga i n pg (db) i nput power p i n (dbm) 0 10 20 30 40 0 20 40 60 80 - 50510 power added eff iciency pa e (%) 15 v ds = 6v i dq = 50 ma f = 520 m h z 30 0.3 pg i d pg pout pa e f requency f (m h z) pa e pa e vds = 6v f = 520 m h z p in = 13 dbm v ds = 6 v i dq = 50 ma pin = 13 dbm
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 9 of 18 may 09, 2012 evaluation circuit 3 (@v dd = 3.7 v tuning, f = 800 to 870 mhz) 50 vdd 50 rf out 6.8 k 100 pf 100 pf 100 pf 100 pf 1 16v 7 pf 1 16 v vgg 200 18 nh 2.7 nh 1000 pf 1000 pf 20 pf rf in 10 pf 0 10 20 30 40 0 0.4 0.2 0.8 0.6 output power pout (dbm) drain current i d (a) 05 15 10 20 25 i nput power p i n (dbm) 05 15 10 20 25 i nput power p i n (dbm) pout i d v ds = 3.7 v i dq = 100 ma v ds = 3.7 v i dq = 100 ma 0 10 20 30 40 0 20 40 60 80 power ga i n pg (db) power added e ff iciency pa e (%) pa e pg f = 835 mhz f = 835 mhz f = 835 mhz 800 mhz 870 mhz 835 mhz 800 mhz 800 mhz 800 mhz 870 mhz 870 mhz f = 870 mhz power ga i n, power added e ffi c i ency vs . i nput power output power, drain current vs . i nput power
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 10 of 18 may 09, 2012 800 900 850 800 900 850 f requency f (m h z) f requency f (m h z) output power, drain current vs . f requency power ga i n, power added e ffi c i ency, vs. frequency v ds = 3.7 v i dq = 100 ma pin = +17 dbm v ds = 3.7 v i dq = 100 ma pin = +17 dbm i d pout pg pa e 0 20 40 30 10 output power pout (dbm) 0 10 40 30 20 power ga i n pg (db) 0 0.4 0.2 0.6 0.8 drain current i d (a) 0 20 40 60 80 power added eff iciency pa e (%) 56 3 4 56 3 4 drain to source voltage v ds (v) drain to source voltage v ds (v) output power, drain current, vs . drain to source voltage power ga i n, power added e ffi c i ency, vs . drain to source voltage f = 835 m h z i dq = 100 ma p in = +17 dbm f = 835 m h z i dq = 100 ma p in = +17 dbm pout i d pg pa e 10 40 30 20 0 10 40 30 20 0 output power pout (dbm) power ga i n pg (db) 0 0.4 0.2 0.8 0.6 drain current i d (a) 0 40 20 60 80 power added eff iciency pa e (%) f = 835 m h z v ds = 3.7 v p in = +17 dbm f = 835 m h z v ds = 3.7 v p in = +17 dbm pout i d pg pa e output power, drain current, vs . i dling current power ga i n, power added e ffi c i ency, vs . i dling current 0 50 100 200150 300250 idling current i dq (ma) 50 100 200150 300250 idling current i dq (ma) output power pout (dbm) 0 10 30 20 40 10 30 20 40 power ga i n pg (db) 0 0.2 0.8 0.6 0.4 drain current i d (a) 0 20 60 40 80 power added eff iciency pa e (%)
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 11 of 18 may 09, 2012 evaluation circuit 4 (@v dd = 3.7 v tuning, f = 890 to 950 mhz) 50 vdd 50 rf out 6.8 k 100 pf 100 pf 100 pf 100 pf 1 16v 7 pf 1 16 v vgg 200 18 nh 1.8 nh 1000 pf 1000 pf 20 pf rf in 24 pf output power pout (dbm) drain current i d (a) i nput power p i n (dbm) i nput power p i n (dbm) power ga i n pg (db) power added e ff iciency pa e (%) power ga i n, power added e ffi c i ency vs . i nput power output power, drain current vs . i nput power 0 10 20 30 40 0 0.4 0.2 0.8 0.6 05 15 10 20 25 0 5 1510 20 25 pout i d v ds = 3.7 v i dq = 50 ma v ds = 3.7 v i dq = 50 ma 0 10 20 30 40 0 20 40 60 80 pa e pg f = 920 mhz f = 890 mhz f = 920 mhz 950 mhz 890 mhz 950 mhz 920 mhz 890 mhz 950 mhz 950 mhz 920 mhz f = 890 mhz
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 12 of 18 may 09, 2012 f requency f (m h z) f requency f (m h z) output power, drain current vs . f requency power ga i n, power added e ffi c i ency, vs. frequency output power pout (dbm) power ga i n pg (db) drain current i d (a) power added eff iciency pa e (%) drain to source voltage v ds (v) drain to source voltage v ds (v) output power, drain current, vs . drain to source voltage power ga i n, power added e ffi c i ency, vs . drain to source voltage output power pout (dbm) power ga i n pg (db) drain current i d (a) power added eff iciency pa e (%) output power, drain current, vs . i dling current power ga i n, power added e ffi c i ency, vs . i dling current idling current i dq (ma) idling current i dq (ma) output power pout (dbm) power ga i n pg (db) drain current i d (a) power added eff iciency pa e (%) 850 950 900 850 950 900 v ds = 3.7 v i dq = 50 ma pin = +17 dbm v ds = 3.7 v i dq = 50 ma pin = +17 dbm i d pout pg pa e 0 20 40 30 10 0 10 40 30 20 0 0.4 0.2 0.6 0.8 0 20 40 60 80 56 3 4 56 3 4 f = 920 m h z i dq = 50 ma p in = +17 dbm f = 920 m h z i dq = 50 ma p in = +17 dbm pout i d pg pa e 10 40 30 20 0 10 40 30 20 0 0 0.4 0.2 0.8 0.6 0 40 20 60 80 f = 920 m h z v ds = 3.7 v p in = +17 dbm f = 920 m h z v ds = 3.7 v p in = +17 dbm pout i d pg pa e 0 50 100 200150 300250 50 100 200150 300250 0 10 30 20 40 10 30 20 40 0 0.2 0.8 0.6 0.4 0 20 60 40 80
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 13 of 18 may 09, 2012 s parameter (v ds = 3.6 v, i dq = 50 ma, zo = 50 ? ) s11 s21 s12 s22 f (mhz) mag ang (deg.) mag ang (deg.) mag ang (deg.) mag ang (deg.) 100 0.946 -40.3 15.41 148.7 0.021 69.4 0.784 -30.2 150 0.931 -58.4 12.58 136.4 0.029 46.8 0.744 -51.2 200 0.898 -74.0 11.57 126.4 0.034 36.1 0.700 -66.0 250 0.865 -87.5 11.08 117.4 0.037 27.8 0.657 -77.8 300 0.856 -99.2 10.15 109.2 0.038 20.8 0.640 -86.9 350 0.827 -108.7 9.91 102.2 0.039 14.1 0.615 -94.4 400 0.812 -116.8 9.44 95.7 0.040 8.9 0.601 -100.8 450 0.804 -122.6 8.78 90.2 0.040 4.0 0.595 -106.1 500 0.792 -128.2 8.15 84.9 0.040 -0.9 0.595 -110.9 550 0.791 -132.4 7.55 80.5 0.040 -4.6 0.596 -115.2 600 0.790 -136.4 7.00 76.4 0.039 -8.2 0.602 -119.1 650 0.787 -140.2 6.48 72.3 0.038 -11.5 0.608 -122.7 700 0.787 -143.7 6.03 68.5 0.038 -14.5 0.616 -125.9 750 0.788 -147.1 5.59 64.9 0.037 -17.6 0.626 -129.2 800 0.792 -150.0 5.22 61.3 0.036 -20.5 0.634 -132.1 850 0.797 -152.7 4.86 58.0 0.035 -23.1 0.643 -134.9 900 0.801 -155.2 4.54 54.7 0.034 -25.1 0.654 -137.6 950 0.807 -157.3 4.29 51.4 0.033 -27.5 0.664 -140.2 1000 0.812 -159.4 4.06 48.8 0.032 -29.7 0.675 -142.8 1050 0.817 -161.7 3.83 46.1 0.031 -31.6 0.686 -145.3 1100 0.827 -163.5 3.62 43.7 0.030 -33.7 0.695 -147.5 1150 0.834 -165.6 3.42 41.0 0.028 -35.1 0.704 -149.8 1200 0.840 -167.1 3.24 38.6 0.027 -36.6 0.714 -152.0 1250 0.846 -168.4 3.06 36.3 0.026 -38.2 0.723 -154.0 1300 0.845 -170.1 2.89 33.7 0.025 -39.6 0.733 -156.0 1350 0.839 -171.7 2.73 31.2 0.024 -40.9 0.740 -158.1 1400 0.843 -173.8 2.59 28.6 0.023 -41.9 0.749 -160.2 1450 0.847 -175.4 2.47 26.3 0.022 -43.0 0.755 -161.9 1500 0.850 -177.1 2.34 24.0 0.020 -43.9 0.760 -164.0 1550 0.852 -179.0 2.24 21.8 0.019 -44.6 0.768 -166.0 1600 0.858 179.6 2.13 19.7 0.018 -44.7 0.774 -167.8 1650 0.861 178.3 2.05 17.6 0.017 -45.2 0.777 -169.6 1700 0.863 176.8 1.96 15.4 0.016 -45.3 0.784 -171.7 1750 0.863 174.8 1.88 13.1 0.015 -44.9 0.792 -173.6 1800 0.873 173.0 1.81 10.9 0.014 -44.9 0.798 -175.3 1850 0.878 171.4 1.75 9.0 0.013 -43.7 0.800 -177.3 1900 0.886 170.2 1.68 7.3 0.012 -42.9 0.807 -179.3 1950 0.895 168.9 1.61 5.5 0.012 -41.0 0.816 179.1 2000 0.894 168.2 1.55 4.2 0.011 -38.6 0.818 177.6 2050 0.895 167.3 1.48 2.7 0.010 -35.6 0.822 175.6 2100 0.890 165.8 1.42 0.9 0.010 -33.6 0.830 173.8 2150 0.890 164.0 1.37 -1.1 0.009 -29.1 0.837 172.3 2200 0.896 162.6 1.32 -3.1 0.009 -24.1 0.838 170.7 2250 0.898 161.1 1.27 -5.2 0.008 -19.0 0.842 168.9 2300 0.902 159.8 1.22 -7.1 0.008 -12.8 0.848 167.1 2350 0.903 158.4 1.19 -9.0 0.008 -8.3 0.851 165.8 2400 0.901 157.4 1.15 -11. 0 0.008 -3.0 0.852 164.1 2450 0.895 155.9 1.11 -12. 6 0.008 2.0 0.855 162.4 2500 0.894 154.0 1.07 -14. 4 0.008 6.9 0.861 160.9
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 14 of 18 may 09, 2012 s parameter (v ds = 6 v, i dq = 10 ma, zo = 50 ? ) s11 s21 s12 s22 f (mhz) mag ang (deg.) mag ang (deg.) mag ang (deg.) mag ang (deg.) 100 0.973 -34.4 12.25 150.2 0.022 69.9 0.869 -20.3 150 0.931 -49.5 11.13 138.3 0.031 54.5 0.858 -35.1 200 0.913 -63.2 10.12 128.8 0.038 43.4 0.823 -45.4 250 0.896 -74.6 9.10 120.5 0.043 34.8 0.801 -54.6 300 0.892 -85.3 8.08 113.3 0.046 26.8 0.788 -62.5 350 0.878 -93.6 7.27 107.0 0.048 19.3 0.773 -70.0 400 0.870 -101.5 6.56 100.5 0.050 12.6 0.759 -77.0 450 0.861 -108.4 5.95 94.8 0.051 6.6 0.754 -83.0 500 0.853 -114.4 5.40 89.2 0.051 0.9 0.749 -88.6 550 0.853 -119.5 4.91 84.0 0.051 -3.9 0.747 -93.9 600 0.851 -124.3 4.50 79.0 0.050 -8.5 0.750 -98.8 650 0.845 -128.6 4.15 74.4 0.050 -12.8 0.752 -103.3 700 0.844 -132.8 3.79 70.0 0.048 -16.7 0.755 -107.5 750 0.846 -136.7 3.48 65.6 0.047 -20.3 0.761 -111.6 800 0.849 -140.2 3.22 61.6 0.046 -23.9 0.767 -115.4 850 0.853 -143.5 2.99 57.7 0.045 -27.1 0.772 -119.2 900 0.857 -146.4 2.78 53.9 0.043 -29.8 0.778 -122.7 950 0.860 -149.0 2.59 50.1 0.042 -32.9 0.785 -126.1 1000 0.867 -151.5 2.44 47.2 0.041 -35.5 0.792 -129.4 1050 0.870 -154.0 2.30 44.3 0.039 -38.2 0.798 -132.5 1100 0.875 -156.5 2.15 41.4 0.037 -40.8 0.805 -135.5 1150 0.883 -158.7 2.03 38.5 0.036 -43.1 0.811 -138.4 1200 0.888 -161.0 1.92 35.9 0.034 -45.2 0.818 -141.1 1250 0.890 -162.5 1.79 33.4 0.033 -47.4 0.823 -143.7 1300 0.890 -164.5 1.69 30.7 0.031 -49.1 0.830 -146.2 1350 0.886 -166.6 1.59 27.7 0.030 -51.1 0.834 -148.7 1400 0.886 -168.7 1.51 25.2 0.028 -52.6 0.840 -151.2 1450 0.886 -170.8 1.43 22.9 0.027 -54.4 0.843 -153.3 1500 0.889 -172.6 1.36 20.3 0.025 -56.0 0.846 -155.9 1550 0.891 -174.5 1.29 18.1 0.024 -57.4 0.851 -158.2 1600 0.895 -176.1 1.23 15.9 0.022 -58.5 0.855 -160.3 1650 0.898 -177.6 1.18 13.7 0.021 -59.9 0.855 -162.4 1700 0.896 -179.5 1.12 11.4 0.020 -60.8 0.859 -164.7 1750 0.897 178.5 1.08 9.3 0.019 -61.8 0.866 -166.9 1800 0.903 176.4 1.03 7.0 0.017 -62.7 0.869 -168.8 1850 0.911 174.8 0.99 4.9 0.016 -62.8 0.869 -171.0 1900 0.917 173.4 0.95 3.2 0.015 -63.2 0.874 -173.3 1950 0.926 172.0 0.91 1.5 0.014 -63.2 0.881 -175.1 2000 0.928 171.1 0.87 0.2 0.012 -63.1 0.879 -176.8 2050 0.925 170.1 0.83 -1.5 0.011 -61.7 0.883 -179.1 2100 0.918 168.7 0.80 -3.3 0.010 -60.9 0.888 179.0 2150 0.916 166.8 0.76 -5.3 0.009 -59.1 0.894 177.4 2200 0.918 165.3 0.73 -7.4 0.008 -55.0 0.894 175.6 2250 0.922 163.6 0.71 -9.4 0.007 -52.5 0.895 173.6 2300 0.921 162.2 0.68 -11. 4 0.007 -46.3 0.900 171.8 2350 0.923 160.6 0.65 -13. 3 0.006 -40.6 0.902 170.3 2400 0.920 159.7 0.63 -15. 2 0.006 -33.7 0.902 168.5 2450 0.913 158.0 0.61 -16. 8 0.005 -24.3 0.902 166.6 2500 0.911 156.0 0.59 -18. 6 0.005 -14.3 0.907 164.9
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 15 of 18 may 09, 2012 s parameter (v ds = 6 v, i dq = 25 ma, zo = 50 ? ) s11 s21 s12 s22 f (mhz) mag ang (deg.) mag ang (deg.) mag ang (deg.) mag ang (deg.) 100 0.959 -37.1 15.64 150.5 0.021 68.6 0.793 -24.9 150 0.921 -53.7 13.98 137.6 0.030 51.0 0.772 -42.1 200 0.900 -68.0 12.68 128.1 0.034 40.6 0.732 -54.4 250 0.880 -80.1 11.49 119.6 0.038 31.7 0.701 -64.6 300 0.875 -90.8 10.21 112.2 0.040 24.1 0.685 -73.2 350 0.857 -99.6 9.32 105.9 0.042 17.3 0.663 -80.8 400 0.844 -107.8 8.53 99.4 0.043 11.5 0.649 -87.5 450 0.836 -114.7 7.76 93.6 0.044 6.1 0.642 -93.1 500 0.827 -120.7 7.12 88.2 0.044 1.3 0.639 -98.3 550 0.824 -125.9 6.56 83.3 0.043 -3.1 0.637 -103.0 600 0.821 -130.4 6.06 78.7 0.043 -7.0 0.641 -107.4 650 0.818 -134.3 5.63 74.4 0.042 -10.7 0.645 -111.3 700 0.813 -138.3 5.20 70.4 0.041 -14.2 0.651 -115.1 750 0.816 -142.1 4.83 66.5 0.040 -17.5 0.659 -118.7 800 0.817 -145.5 4.50 62.6 0.040 -20.5 0.667 -122.0 850 0.820 -148.4 4.19 59.2 0.039 -23.3 0.674 -125.3 900 0.826 -150.9 3.93 55.7 0.037 -25.8 0.684 -128.3 950 0.830 -153.2 3.70 52.4 0.036 -28.5 0.693 -131.4 1000 0.834 -155.8 3.50 49.4 0.035 -30.8 0.703 -134.3 1050 0.841 -158.3 3.31 46.4 0.034 -33.1 0.713 -137.1 1100 0.847 -160.3 3.12 44.0 0.033 -35.4 0.722 -139.6 1150 0.852 -162.3 2.96 41.3 0.031 -37.3 0.730 -142.2 1200 0.856 -164.4 2.80 38.8 0.030 -39.1 0.739 -144.7 1250 0.865 -165.9 2.63 36.5 0.029 -41.0 0.747 -147.0 1300 0.862 -167.5 2.49 33.8 0.028 -42.5 0.756 -149.3 1350 0.860 -169.6 2.35 30.9 0.026 -43.9 0.762 -151.6 1400 0.860 -171.5 2.24 28.5 0.025 -45.5 0.771 -153.8 1450 0.862 -173.2 2.12 26.1 0.024 -46.8 0.777 -155.8 1500 0.863 -175.2 2.02 23.6 0.023 -48.1 0.781 -158.1 1550 0.866 -176.9 1.93 21.6 0.022 -49.2 0.788 -160.3 1600 0.871 -178.4 1.84 19.3 0.020 -49.9 0.793 -162.4 1650 0.875 -179.8 1.76 17.2 0.019 -50.8 0.796 -164.3 1700 0.873 178.5 1.68 14.8 0.018 -51.4 0.802 -166.5 1750 0.876 176.5 1.61 12.7 0.017 -51.4 0.810 -168.5 1800 0.883 174.5 1.56 10.4 0.016 -51.6 0.815 -170.3 1850 0.889 173.0 1.50 8.5 0.015 -51.7 0.816 -172.5 1900 0.897 171.7 1.44 6.7 0.014 -50.9 0.823 -174.6 1950 0.905 170.4 1.38 5.1 0.013 -50.1 0.832 -176.4 2000 0.909 169.7 1.33 3.6 0.012 -49.2 0.833 -178.0 2050 0.905 168.7 1.27 2.1 0.011 -47.0 0.837 179.9 2100 0.899 167.3 1.21 0.1 0.010 -45.2 0.843 177.9 2150 0.898 165.3 1.17 -1.8 0.009 -42.2 0.850 176.5 2200 0.902 163.9 1.12 -3.8 0.008 -37.3 0.851 174.7 2250 0.906 162.2 1.09 -6.0 0.008 -33.6 0.854 172.8 2300 0.908 160.9 1.05 -7.9 0.007 -28.1 0.860 171.0 2350 0.908 159.5 1.02 -9.8 0.007 -22.0 0.863 169.5 2400 0.907 158.5 0.98 -11. 5 0.007 -16.1 0.863 167.8 2450 0.898 157.1 0.95 -13. 3 0.007 -9.5 0.866 166.0 2500 0.898 154.9 0.92 -15. 0 0.007 -2.6 0.872 164.4
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 16 of 18 may 09, 2012 s parameter (v ds = 6 v, i dq = 50 ma, zo = 50 ? ) s11 s21 s12 s22 f (mhz) mag ang (deg.) mag ang (deg.) mag ang (deg.) mag ang (deg.) 100 0.960 -41.0 19.06 150.1 0.019 63.9 0.702 -28.7 150 0.916 -58.4 16.77 137.1 0.027 48.6 0.688 -48.7 200 0.892 -73.5 15.28 127.1 0.031 38.3 0.646 -62.4 250 0.868 -86.2 14.02 118.4 0.035 30.0 0.613 -73.4 300 0.860 -97.3 12.48 110.8 0.036 22.9 0.602 -82.6 350 0.840 -106.3 11.51 104.4 0.037 16.3 0.582 -90.1 400 0.825 -114.5 10.57 98.0 0.038 11.5 0.571 -96.7 450 0.816 -121.2 9.62 92.7 0.038 6.3 0.567 -102.2 500 0.810 -126.8 8.80 87.6 0.038 2.0 0.567 -107.1 550 0.806 -131.6 8.12 83.0 0.038 -2.0 0.569 -111.4 600 0.802 -135.9 7.49 78.8 0.037 -5.4 0.573 -115.4 650 0.797 -139.6 6.94 74.9 0.037 -8.7 0.578 -119.0 700 0.795 -143.4 6.44 71.2 0.036 -11.8 0.586 -122.3 750 0.797 -146.7 5.97 67.5 0.035 -14.7 0.596 -125.5 800 0.798 -149.7 5.57 64.0 0.035 -17.6 0.604 -128.4 850 0.806 -152.4 5.20 60.7 0.034 -19.9 0.612 -131.3 900 0.807 -155.0 4.89 57.4 0.033 -21.9 0.623 -134.0 950 0.811 -157.3 4.59 54.3 0.032 -24.5 0.632 -136.6 1000 0.817 -159.5 4.35 51.4 0.031 -26.4 0.645 -139.2 1050 0.822 -161.6 4.11 48.7 0.030 -28.4 0.655 -141.7 1100 0.831 -163.6 3.90 46.3 0.029 -30.5 0.666 -144.0 1150 0.834 -165.7 3.69 43.7 0.028 -32.1 0.674 -146.3 1200 0.842 -167.2 3.50 41.3 0.027 -33.4 0.685 -148.5 1250 0.846 -168.7 3.30 39.0 0.026 -35.1 0.695 -150.5 1300 0.848 -170.2 3.13 36.4 0.025 -36.5 0.703 -152.6 1350 0.842 -171.9 2.97 33.7 0.024 -37.5 0.711 -154.7 1400 0.843 -173.9 2.82 31.4 0.023 -38.5 0.721 -156.7 1450 0.844 -175.6 2.69 29.0 0.022 -40.1 0.727 -158.5 1500 0.849 -177.3 2.56 26.7 0.021 -40.5 0.733 -160.7 1550 0.849 -178.8 2.45 24.5 0.020 -41.3 0.740 -162.7 1600 0.857 179.6 2.33 22.4 0.018 -41.5 0.748 -164.6 1650 0.860 178.2 2.24 20.1 0.017 -42.1 0.752 -166.3 1700 0.860 176.8 2.15 17.9 0.017 -42.2 0.758 -168.4 1750 0.861 174.8 2.06 15.9 0.016 -42.1 0.767 -170.3 1800 0.870 172.9 1.99 13.6 0.015 -41.9 0.774 -172.1 1850 0.878 171.4 1.92 11.5 0.014 -40.8 0.776 -174.0 1900 0.884 170.1 1.84 9.8 0.013 -39.7 0.784 -176.1 1950 0.889 169.0 1.77 8.3 0.012 -38.1 0.793 -177.7 2000 0.895 168.3 1.71 6.7 0.011 -36.3 0.796 -179.3 2050 0.890 167.5 1.63 5.3 0.011 -33.9 0.799 178.7 2100 0.886 165.9 1.57 3.3 0.010 -31.3 0.808 176.8 2150 0.887 164.1 1.51 1.3 0.009 -27.8 0.816 175.3 2200 0.891 162.6 1.46 -0.7 0.009 -23.0 0.818 173.6 2250 0.895 161.2 1.40 -2.7 0.009 -19.0 0.822 171.8 2300 0.897 159.7 1.36 -4.8 0.008 -14.5 0.828 170.1 2350 0.898 158.5 1.31 -6.6 0.008 -9.8 0.833 168.6 2400 0.896 157.4 1.27 -8.5 0.008 -5.1 0.835 167.0 2450 0.890 155.8 1.23 -10. 4 0.008 -0.3 0.836 165.2 2500 0.890 154.0 1.19 -12. 1 0.008 5.2 0.843 163.6
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 17 of 18 may 09, 2012 s parameter (v ds = 6 v, i dq = 100 ma, zo = 50 ? ) s11 s21 s12 s22 f (mhz) mag ang (deg.) mag ang (deg.) mag ang (deg.) mag ang (deg.) 100 0.972 -45.9 22.91 149.6 0.019 65.4 0.615 -34.3 150 0.920 -64.3 19.70 136.4 0.024 48.3 0.597 -55.7 200 0.888 -80.4 17.99 125.8 0.028 37.6 0.560 -70.8 250 0.860 -93.9 16.78 116.9 0.031 29.8 0.534 -82.5 300 0.847 -104.9 14.91 109.3 0.032 23.1 0.517 -91.7 350 0.827 -113.3 13.65 103.1 0.033 16.8 0.517 -99.6 400 0.816 -120.8 12.39 97.3 0.033 11.9 0.511 -106.1 450 0.809 -126.9 11.24 92.4 0.033 7.4 0.512 -111.3 500 0.799 -132.3 10.23 87.7 0.033 3.3 0.513 -115.9 550 0.800 -136.7 9.38 83.4 0.033 -0.3 0.518 -120.0 600 0.801 -140.6 8.68 79.5 0.033 -3.5 0.524 -123.5 650 0.792 -144.0 8.00 75.9 0.032 -6.6 0.531 -126.7 700 0.788 -147.5 7.41 72.3 0.032 -9.3 0.540 -129.7 750 0.790 -150.6 6.89 68.9 0.031 -11.7 0.550 -132.5 800 0.793 -153.5 6.42 65.6 0.031 -14.3 0.558 -135.0 850 0.798 -156.1 5.99 62.3 0.030 -16.5 0.567 -137.5 900 0.801 -158.5 5.62 59.1 0.029 -18.3 0.578 -139.8 950 0.805 -160.5 5.31 56.1 0.028 -20.2 0.588 -142.2 1000 0.809 -162.7 5.03 53.5 0.027 -21.9 0.601 -144.5 1050 0.814 -164.5 4.77 51.1 0.027 -23.6 0.612 -146.5 1100 0.823 -166.3 4.51 48.5 0.026 -25.4 0.622 -148.5 1150 0.829 -168.2 4.29 45.9 0.025 -26.6 0.632 -150.6 1200 0.835 -169.7 4.08 43.7 0.024 -27.9 0.643 -152.6 1250 0.837 -171.0 3.85 41.5 0.023 -28.9 0.653 -154.3 1300 0.836 -172.5 3.65 39.0 0.022 -30.3 0.662 -156.1 1350 0.834 -174.2 3.47 36.4 0.021 -30.8 0.670 -158.1 1400 0.835 -176.1 3.31 33.9 0.021 -31.5 0.681 -159.9 1450 0.837 -177.8 3.15 31.6 0.020 -32.5 0.688 -161.4 1500 0.839 -179.4 3.00 29.4 0.019 -33.0 0.694 -163.4 1550 0.844 179.0 2.88 27.2 0.018 -33.2 0.702 -165.3 1600 0.849 177.7 2.75 25.1 0.017 -32.9 0.711 -167.0 1650 0.850 176.5 2.64 23.1 0.016 -32.8 0.715 -168.7 1700 0.850 174.9 2.53 20.8 0.015 -32.6 0.722 -170.6 1750 0.854 173.0 2.44 18.5 0.015 -31.9 0.731 -172.5 1800 0.861 171.4 2.36 16.4 0.014 -31.0 0.738 -174.1 1850 0.868 170.0 2.27 14.4 0.013 -29.7 0.741 -175.9 1900 0.875 168.7 2.19 12.6 0.012 -28.0 0.749 -177.9 1950 0.881 167.5 2.11 11.0 0.012 -26.0 0.759 -179.4 2000 0.886 166.8 2.03 9.6 0.011 -24.3 0.763 179.0 2050 0.882 166.0 1.95 8.0 0.011 -21.0 0.768 177.1 2100 0.878 164.6 1.87 6.2 0.010 -18.4 0.776 175.3 2150 0.877 163.1 1.80 4.2 0.010 -15.2 0.785 174.0 2200 0.883 161.5 1.74 2.2 0.010 -10.2 0.787 172.3 2250 0.891 159.9 1.68 0.1 0.009 -6.5 0.792 170.6 2300 0.892 158.6 1.63 -1.9 0.010 -2.2 0.799 168.9 2350 0.896 157.7 1.58 -3.8 0.009 1.0 0.804 167.5 2400 0.892 156.4 1.53 -5.7 0.009 4.1 0.806 166.0 2450 0.885 155.1 1.47 -7.5 0.010 7.7 0.810 164.3 2500 0.884 153.0 1.43 -9.4 0.010 11.4 0.816 162.7
rqa0004pxdqs preliminary r07ds0418ej0500 rev.5.00 page 18 of 18 may 09, 2012 package dimensions 4.5 0.1 1.8 max 1.5 0.1 0.44 max 0.44 max 0.48 max 0.53 max 1.5 1.5 3.0 2.5 0.1 4.25 max 0.8 min 1 0.4 (1.5) (2.5) (0.4) (0.2) previous code plzz0004ca-a upak / upakv mass[typ.] 0.050g sc-62 renesas code jeita package code unit: mm package name upak ordering information orderable part number quan tity shipping container rqa0004pxtl-e 1000 pcs. ? 178 mm reel, 12 mm emboss taping ?
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