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| the information in this document is subject to change without notice. silicon transistor p pp p PA828TF high-frequency low-noise amplifier npn silicon epitaxial twin transistor (with built-in 6-pin 2 u u u u 2sc5184) thin-type small mini mold 199 7 � document no. p12693ej1v0ds00 (1st edition) date published july 1997 n printed in japan preliminary data sheet pin configuration (top view) features ? low noise nf = 1.3 db typ. @ v ce = 2 v, i c = 3 ma, f = 2 ghz nf = 1.3 db typ. @ v ce = 1 v, i c = 3 ma, f = 2 ghz ? 6-pin thin-type small mini mold package adopted ? built-in 2 transistors (2 u 2sc5184) ordering information part number quantity packing style p PA828TF loose products (50 pcs) p PA828TF-t1 t ap i n g produ c ts (3 k p cs /reel) remar k if you require an evaluation sample, please contact an nec sales representative (unit sample quantity is 50 pcs). absolute maximum ratings (t a = 2 5 q q q q c) parameter symbol rating unit collector to base voltage v cbo 5v colle c tor to emitter voltage v ceo 3v emitter to base voltage v ebo 2v collector current i c 30 ma total power dissipation p t 90 in 1 element 180 in 2 elements mw junction temperature t j 150 c storage temperature t stg e 65 to +150 c caution is required concerning excess input, such as from stati c electricity , du e t o th e high-precision fabrication processes used for this device. embossed tape 8 mm wide. pin 6 (q1 base), pin 5 (q2 emitter), pin 4 (q2 base) face to perforation side of the tape. package drawings (unit: mm) b1 q1 q2 6 5 4 3 2 1 e2 b2 c1 e1 c2 pin connections 1. collecto r (q1) 2. emitte r (q1) 3. collecto r (q2) 4. base (q2) 5. emitte r (q2) 6. base (q1) r86 2.00?.2 1.30 0.60?.1 0 to 0.1 0.45 0.65 32 1 45 6 0.65 2.10?.1 1.25?.1 0.13?.05 0.22 +0.1 ?.05
p p p p PA828TF 2 electrical characteristics (t a = 25c) parameter symbol condition min. typ. max. unit collector cutoff current i cbo v cb = 5 v, i e = 0 0.1 p a emitter cutoff current i ebo v eb = 1 v, i c = 0 0.1 p a dc current gain h fe v ce = 2 v, i c = 20 ma note 1 70 140 gain bandwidth product (1) f t v ce = 2 v, i c = 20 ma, f = 2 ghz 9 11 ghz gain bandwidth product (2) f t v ce = 1 v, i c = 10 ma, f = 2 ghz 7 9 ghz feedback capacitance c re v cb = 2 v, i e = 0, f = 1 mhz note 2 0.4 0.8 pf insertion power gain (1) |s 21e | 2 v ce = 2 v, i c = 20 ma, f = 2 ghz 7 8.5 db insertion power gain (2) |s 21e | 2 v ce = 1 v, i c = 10 ma, f = 2 ghz 6 7.5 db noise figure (1) nf v ce = 2 v, i c = 3 ma, f = 2 ghz 1.3 2 db noise figure (2) nf v ce = 1 v, i c = 3 ma, f = 2 ghz 1.3 2 db h fe ratio h fe1 /h fe2 v ce = 2 v, i c = 20 ma h fe 1 = smaller h fe value among q1 and q2 h fe 2 = larger h fe value among q1 and q2 0.85 notes 1. pulse measurement p w d 350 p s, duty cycle d 2% 2. capacitance between collector and base measured with a capacitance meter (auto-balancing bridge method). emitter should be connected to the guard pin of capacitance meter. h fe classification rank kb marking r86 h fe value 70 to 140 p p p p PA828TF 3 typical characteristics (t a = 25 q q q q c) total power dissipation vs. ambient temperature collector current vs. dc base voltage 200 100 0 50 100 150 90 mw ambient temperature t a (?c) total power dissipation p t (mw) 50 40 30 20 10 0 0.5 1.0 v ce = 2 v dc base voltage v be (v) collector current i c (ma) collector current vs. collector to emitter voltage dc current gain vs. collector current 25 20 15 10 5 0 1.0 2.0 3.0 200 a 180 a 160 a 140 a 120 a 100 a 80 a 60 a 40 a i b = 20 a collector to emitter voltage v ce (v) collector current i c (ma) 180 mw 2 elements in total per element collector current i c (ma) dc current gain h fe 500 200 100 10 20 50 v ce = 2 v v ce = 1 v 1 2 5 10 20 50 100 m m m m m m m m m m p p p p PA828TF 4 noise figure vs. collector current feedback capacitance vs. collector to base voltage 3 2 1 1235710 collector current i c (ma) noise figure nf (db) v ce = 1 v v ce = 2 v f = 1 mhz 0.8 0.6 0.4 0.2 0 2.0 4.0 6.0 8.0 10.0 collector to base voltage v cb (v) feedback capacitance c re (pf) f = 2 ghz gain bandwidth product vs. collector current insertion power gain vs. collector current f = 2 ghz 15 10 5 123571020 gain bandwidth product f t (ghz) collector current i c (ma) v ce = 1 v v ce = 2 v 10 5 0 123571020 v ce = 1 v v ce = 2 v insertion power gain |s 21e | 2 (db) collector current i c (ma) f = 2 ghz p p p p PA828TF 5 s parameter q1 v ce = 2 v, i c = 1 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .98 e 6.87 2.42 171.77 .02 84.43 .99 e 4.42 .20 .96 e 13.71 2.40 164.17 .04 79.61 .99 e 8.84 .30 .95 e 20.79 2.42 157.17 .07 74.54 .97 e 12.97 .40 .92 e 27.69 2.39 150.27 .09 69.50 .95 e 17.23 .50 .90 e 34.82 2.39 143.98 .10 65.17 .92 e 21.05 .60 .87 e 42.10 2.36 138.23 .12 60.29 .90 e 25.13 .70 .83 e 49.35 2.34 132.19 .14 56.25 .87 e 28.47 .80 .80 e 56.87 2.32 126.78 .15 52.12 .84 e 32.22 .90 .76 e 64.78 2.32 120.75 .16 48.48 .81 e 34.98 1.00 .72 e 72.15 2.26 115.35 .17 45.16 .77 e 38.02 1.10 .68 e 80.50 2.25 110.20 .18 41.64 .75 e 40.84 1.20 .64 e 88.71 2.22 104.80 .18 38.79 .72 e 43.16 1.30 .60 e 97.33 2.16 99.84 .19 35.82 .69 e 45.68 1.40 .56 e 106.17 2.13 94.75 .19 33.51 .66 e 47.79 1.50 .53 e 115.63 2.10 89.64 .20 31.12 .63 e 49.93 1.60 .50 e 124.41 2.04 84.89 .20 29.04 .61 e 51.89 1.70 .47 e 133.52 1.99 80.39 .20 27.37 .59 e 53.75 1.80 .45 e 142.93 1.93 75.97 .20 25.64 .57 e 55.61 1.90 .44 e 152.17 1.87 71.81 .20 24.28 .55 e 57.34 2.00 .43 e 161.16 1.81 68.21 .20 23.31 .53 e 59.13 2.10 .42 e 170.55 1.77 63.89 .20 22.18 .51 e 60.65 2.20 .41 e 179.15 1.72 60.35 .20 21.50 .50 e 62.47 2.30 .42 173.21 1.66 56.62 .20 20.78 .48 e 64.18 2.40 .42 165.82 1.61 53.39 .20 20.36 .47 e 66.09 2.50 .43 158.63 1.57 50.02 .20 20.11 .46 e 67.98 2.60 .44 152.11 1.52 47.07 .20 20.00 .45 e 69.96 2.70 .45 146.49 1.47 43.96 .20 19.86 .43 e 72.10 2.80 .46 140.70 1.43 41.06 .20 20.11 .43 e 74.42 2.90 .47 135.62 1.39 38.16 .20 20.18 .42 e 76.70 3.00 .48 131.49 1.35 35.61 .20 20.44 .41 e 79.07 p p p p PA828TF 6 s parameter q1 v ce = 2 v, i c = 3 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .92 e 10.76 6.79 166.90 .02 81.64 .97 e 8.65 .20 .88 e 21.14 6.51 156.23 .04 74.96 .94 e 16.65 .30 .83 e 31.82 6.40 146.87 .06 68.78 .88 e 23.55 .40 .78 e 42.04 6.16 138.45 .07 63.27 .82 e 29.88 .50 .71 e 52.43 5.95 130.70 .09 59.72 .76 e 34.56 .60 .65 e 62.50 5.66 123.90 .10 55.61 .70 e 39.19 .70 .58 e 72.69 5.43 116.65 .10 53.36 .65 e 42.35 .80 .51 e 82.82 5.17 110.41 .11 51.17 .61 e 45.67 .90 .45 e 92.60 4.88 104.31 .12 49.32 .57 e 48.15 1.00 .40 e 102.47 4.60 98.90 .12 48.24 .53 e 50.32 1.10 .36 e 112.48 4.34 94.04 .13 47.06 .50 e 52.49 1.20 .32 e 122.73 4.09 89.32 .14 46.16 .47 e 54.24 1.30 .30 e 133.29 3.85 85.28 .14 45.46 .45 e 56.10 1.40 .27 e 144.06 3.64 81.23 .15 44.88 .43 e 57.94 1.50 .26 e 155.19 3.45 77.48 .15 44.14 .41 e 59.86 1.60 .25 e 165.56 3.26 74.10 .16 43.48 .39 e 61.58 1.70 .25 e 175.58 3.10 70.82 .16 42.97 .37 e 63.35 1.80 .26 174.75 2.95 67.58 .17 42.46 .35 e 65.35 1.90 .26 166.25 2.82 64.50 .17 41.71 .34 e 67.39 2.00 .27 158.59 2.69 61.59 .18 41.41 .32 e 69.29 2.10 .28 151.33 2.58 58.69 .19 40.78 .31 e 71.31 2.20 .29 145.02 2.47 56.03 .19 40.10 .30 e 73.78 2.30 .31 139.72 2.36 53.27 .20 39.55 .29 e 76.10 2.40 .32 134.63 2.28 50.82 .20 39.01 .28 e 78.86 2.50 .34 130.11 2.20 48.23 .21 38.47 .27 e 81.85 2.60 .35 126.08 2.12 45.78 .21 37.90 .26 e 84.98 2.70 .37 122.46 2.04 43.24 .22 37.28 .25 e 88.17 2.80 .38 119.06 1.97 41.09 .22 36.67 .24 e 91.66 2.90 .40 115.90 1.91 38.67 .23 35.90 .23 e 95.45 3.00 .41 113.18 1.85 36.49 .23 35.19 .22 e 99.22 p p p p PA828TF 7 s parameter q1 v ce = 2 v, i c = 5 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .87 e 14.09 10.64 163.29 .02 79.93 .95 e 11.97 .20 .81 e 27.42 9.95 150.51 .04 72.08 .88 e 22.31 .30 .73 e 40.88 9.52 139.49 .05 66.23 .79 e 30.28 .40 .64 e 53.67 8.93 129.93 .06 61.90 .71 e 36.76 .50 .55 e 65.97 8.31 121.13 .07 59.41 .64 e 41.09 .60 .48 e 77.45 7.63 113.73 .08 57.14 .58 e 45.05 .70 .40 e 88.32 7.00 106.72 .09 55.84 .53 e 47.68 .80 .34 e 99.03 6.43 100.97 .10 55.02 .49 e 50.09 .90 .30 e 109.36 5.89 95.86 .11 54.11 .45 e 52.09 1.00 .26 e 120.28 5.43 91.26 .11 53.70 .43 e 53.78 1.10 .23 e 131.28 5.02 87.25 .12 53.10 .40 e 55.60 1.20 .21 e 143.41 4.67 83.34 .13 52.72 .38 e 57.08 1.30 .20 e 155.46 4.36 79.89 .13 52.14 .36 e 58.90 1.40 .20 e 167.22 4.08 76.55 .14 51.70 .34 e 60.77 1.50 .20 e 178.69 3.84 73.31 .15 50.94 .32 e 62.84 1.60 .20 171.39 3.62 70.48 .15 50.53 .31 e 64.74 1.70 .21 162.38 3.42 67.63 .16 49.64 .30 e 66.88 1.80 .22 154.33 3.24 64.82 .17 48.93 .28 e 69.18 1.90 .23 147.57 3.08 62.01 .18 48.25 .27 e 71.53 2.00 .25 141.55 2.93 59.55 .18 47.47 .26 e 74.05 2.10 .26 136.15 2.81 57.06 .19 46.67 .25 e 76.68 2.20 .28 131.40 2.69 54.66 .20 45.88 .24 e 80.23 2.30 .29 127.31 2.58 52.10 .20 44.80 .23 e 83.11 2.40 .31 123.63 2.48 49.88 .21 44.22 .22 e 86.87 2.50 .32 120.25 2.38 47.59 .22 43.28 .21 e 90.62 2.60 .34 117.23 2.29 45.27 .22 42.22 .20 e 94.98 2.70 .36 114.23 2.21 42.96 .23 41.37 .19 e 99.37 2.80 .37 111.67 2.13 40.88 .23 40.49 .19 e 104.32 2.90 .39 109.21 2.07 38.78 .24 39.37 .18 e 109.07 3.00 .40 107.18 1.99 36.87 .25 38.39 .18 e 114.10 p p p p PA828TF 8 s parameter q1 v ce = 2 v, i c = 7 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .82 e 17.05 14.01 160.40 .02 78.68 .92 e 14.71 .20 .74 e 33.00 12.83 146.00 .04 70.70 .83 e 26.46 .30 .63 e 48.73 11.93 133.68 .05 65.62 .72 e 34.67 .40 .53 e 63.25 10.85 123.20 .06 62.00 .63 e 40.72 .50 .44 e 76.15 9.73 114.26 .07 60.73 .56 e 44.46 .60 .36 e 87.70 8.66 107.33 .08 59.44 .50 e 47.65 .70 .30 e 98.68 7.74 101.13 .08 58.70 .46 e 49.83 .80 .26 e 109.94 6.98 96.02 .09 58.45 .42 e 51.77 .90 .22 e 121.35 6.33 91.57 .10 58.02 .39 e 53.47 1.00 .20 e 133.61 5.79 87.48 .11 57.58 .37 e 54.96 1.10 .18 e 146.14 5.31 83.89 .12 57.18 .35 e 56.63 1.20 .17 e 159.26 4.92 80.50 .12 56.65 .33 e 58.16 1.30 .17 e 171.86 4.58 77.32 .13 55.98 .31 e 59.87 1.40 .17 176.63 4.27 74.26 .14 55.31 .30 e 61.97 1.50 .18 166.28 4.01 71.38 .15 54.65 .28 e 64.19 1.60 .19 157.38 3.77 68.66 .15 53.86 .27 e 66.38 1.70 .20 149.88 3.56 66.07 .16 53.13 .26 e 68.92 1.80 .21 143.24 3.38 63.48 .17 52.19 .25 e 71.37 1.90 .23 137.70 3.21 60.92 .18 51.24 .24 e 74.34 2.00 .24 132.73 3.06 58.46 .18 50.37 .23 e 77.26 2.10 .26 128.44 2.92 56.09 .19 49.52 .22 e 80.38 2.20 .27 124.40 2.79 53.79 .20 48.39 .21 e 84.26 2.30 .29 121.31 2.67 51.50 .21 47.37 .20 e 88.09 2.40 .30 118.20 2.57 49.41 .21 46.22 .19 e 92.30 2.50 .32 115.34 2.47 47.18 .22 45.21 .18 e 97.03 2.60 .34 112.78 2.38 45.18 .23 44.15 .18 e 101.80 2.70 .35 110.25 2.29 42.82 .23 43.16 .17 e 107.33 2.80 .37 108.03 2.21 40.87 .24 42.05 .17 e 112.84 2.90 .38 105.94 2.14 38.86 .25 40.88 .17 e 118.72 3.00 .39 104.18 2.06 36.86 .25 39.80 .16 e 124.46 p p p p PA828TF 9 s parameter q1 v ce = 2 v, i c = 10 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .75 e 21.25 18.39 156.90 .02 77.20 .89 e 17.80 .20 .64 e 40.55 16.34 140.45 .03 69.69 .77 e 30.80 .30 .51 e 58.49 14.49 126.78 .04 65.76 .65 e 38.64 .40 .41 e 73.72 12.55 116.10 .05 64.03 .56 e 43.82 .50 .32 e 86.53 10.81 107.94 .06 63.08 .49 e 46.87 .60 .26 e 98.65 9.39 101.73 .07 62.52 .44 e 49.28 .70 .22 e 110.38 8.27 96.47 .08 62.35 .40 e 50.98 .80 .19 e 122.98 7.38 92.04 .09 62.04 .37 e 52.53 .90 .16 e 136.32 6.63 88.10 .10 61.54 .34 e 53.99 1.00 .15 e 150.20 6.04 84.48 .10 61.35 .32 e 55.48 1.10 .14 e 164.12 5.53 81.17 .11 60.66 .30 e 57.10 1.20 .14 e 177.47 5.10 78.09 .12 59.95 .29 e 58.71 1.30 .15 170.71 4.73 75.15 .13 59.15 .27 e 60.60 1.40 .16 160.52 4.41 72.39 .14 58.38 .26 e 62.90 1.50 .17 152.02 4.13 69.70 .15 57.49 .25 e 65.42 1.60 .18 144.85 3.88 67.17 .16 56.48 .24 e 68.02 1.70 .20 138.84 3.67 64.75 .16 55.54 .23 e 70.84 1.80 .21 133.45 3.47 62.20 .17 54.52 .22 e 74.09 1.90 .23 129.28 3.29 59.90 .18 53.48 .21 e 77.36 2.00 .24 125.28 3.13 57.58 .19 52.37 .20 e 80.75 2.10 .26 121.80 2.99 55.23 .20 51.30 .19 e 84.72 2.20 .27 118.50 2.85 53.15 .20 50.15 .18 e 89.55 2.30 .28 116.06 2.73 50.91 .21 48.75 .18 e 94.27 2.40 .30 113.97 2.63 49.04 .22 47.87 .17 e 99.35 2.50 .32 111.91 2.53 46.95 .22 46.88 .16 e 104.52 2.60 .33 109.85 2.43 45.01 .23 45.56 .16 e 110.37 2.70 .35 107.73 2.35 42.94 .24 44.64 .15 e 116.16 2.80 .36 105.72 2.26 40.96 .25 43.33 .15 e 122.09 2.90 .38 103.86 2.19 38.82 .25 42.06 .15 e 128.50 3.00 .39 102.41 2.12 36.99 .26 40.73 .15 e 134.83 p p p p PA828TF 10 s parameter q1 v ce = 2 v, i c = 20 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .56 e 32.81 27.95 148.87 .02 75.30 .81 e 23.54 .20 .42 e 58.87 22.23 128.52 .03 70.35 .64 e 37.09 .30 .30 e 78.37 17.58 115.09 .04 68.59 .51 e 43.16 .40 .23 e 94.58 14.16 106.19 .05 68.35 .43 e 46.08 .50 .18 e 109.66 11.73 99.79 .06 68.61 .38 e 47.60 .60 .15 e 124.96 9.97 94.85 .07 68.48 .34 e 48.85 .70 .13 e 140.67 8.66 90.57 .08 68.04 .31 e 49.86 .80 .12 e 156.60 7.65 86.95 .08 67.57 .29 e 51.00 .90 .12 e 171.52 6.85 83.61 .09 66.89 .27 e 52.09 1.00 .13 175.13 6.20 80.43 .10 66.27 .26 e 53.64 1.10 .13 163.97 5.66 77.71 .11 65.45 .25 e 55.27 1.20 .15 154.42 5.21 74.78 .12 64.40 .24 e 57.12 1.30 .16 147.03 4.83 72.31 .13 63.42 .23 e 59.41 1.40 .17 140.47 4.49 69.76 .14 62.32 .22 e 62.02 1.50 .19 135.04 4.20 67.22 .15 61.17 .21 e 65.08 1.60 .20 130.59 3.95 64.99 .16 59.98 .20 e 68.14 1.70 .21 126.81 3.73 62.80 .17 58.57 .19 e 71.65 1.80 .23 123.18 3.52 60.44 .17 57.56 .18 e 75.39 1.90 .24 120.21 3.34 58.24 .18 56.02 .17 e 79.66 2.00 .26 117.40 3.17 55.90 .19 55.05 .17 e 83.64 2.10 .27 114.82 3.03 53.92 .20 53.52 .16 e 88.38 2.20 .28 112.46 2.89 51.91 .21 52.23 .15 e 94.64 2.30 .30 110.58 2.77 49.69 .21 50.93 .15 e 100.20 2.40 .31 108.94 2.66 47.74 .22 49.90 .14 e 106.66 2.50 .33 107.46 2.55 46.23 .23 48.66 .14 e 112.73 2.60 .34 105.83 2.46 44.04 .24 47.36 .14 e 119.23 2.70 .36 104.14 2.38 42.09 .24 46.17 .14 e 126.19 2.80 .37 102.49 2.29 39.95 .25 44.61 .14 e 132.72 2.90 .39 100.92 2.22 38.17 .26 43.48 .14 e 139.72 3.00 .40 99.59 2.14 36.41 .27 42.04 .14 e 146.05 p p p p PA828TF 11 s parameter q2 v ce = 2 v, i c = 1 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .98 e 6.74 2.44 171.33 .02 84.61 .99 e 4.39 .20 .96 e 13.51 2.41 163.49 .04 79.80 .98 e 8.74 .30 .94 e 20.37 2.43 156.32 .06 74.82 .96 e 12.93 .40 .92 e 27.07 2.39 149.41 .08 69.91 .94 e 17.05 .50 .89 e 33.96 2.39 143.02 .10 65.85 .91 e 20.67 .60 .86 e 40.84 2.37 137.27 .12 61.45 .88 e 24.51 .70 .83 e 47.75 2.34 131.22 .13 57.88 .85 e 27.55 .80 .80 e 54.58 2.32 125.82 .14 54.28 .81 e 30.99 .90 .76 e 61.78 2.31 119.93 .15 51.24 .78 e 33.61 1.00 .72 e 68.15 2.25 114.65 .16 48.38 .74 e 36.17 1.10 .68 e 75.40 2.24 109.63 .17 45.66 .71 e 38.83 1.20 .64 e 82.34 2.20 104.41 .18 43.56 .68 e 40.86 1.30 .61 e 89.46 2.15 99.72 .18 41.47 .65 e 43.15 1.40 .57 e 96.54 2.12 94.60 .19 39.81 .62 e 45.20 1.50 .54 e 103.94 2.09 90.06 .19 38.22 .60 e 47.35 1.60 .51 e 110.51 2.04 85.69 .20 36.90 .57 e 49.18 1.70 .48 e 117.50 1.98 81.41 .20 35.84 .54 e 51.11 1.80 .46 e 124.73 1.94 77.28 .20 34.52 .52 e 53.17 1.90 .44 e 131.81 1.89 73.42 .20 34.12 .50 e 54.98 2.00 .43 e 138.81 1.84 69.85 .21 33.47 .48 e 57.05 2.10 .41 e 145.59 1.81 65.84 .21 33.15 .46 e 58.98 2.20 .40 e 152.38 1.76 62.18 .21 32.61 .44 e 61.35 2.30 .40 e 158.62 1.71 58.78 .21 32.49 .42 e 63.57 2.40 .39 e 164.92 1.67 55.63 .22 32.58 .40 e 66.15 2.50 .39 e 171.15 1.64 52.42 .22 32.53 .38 e 68.86 2.60 .39 e 176.91 1.60 49.27 .22 32.66 .36 e 71.68 2.70 .40 177.60 1.56 46.17 .23 32.73 .35 e 74.91 2.80 .40 172.40 1.53 43.05 .23 32.98 .33 e 78.55 2.90 .40 167.39 1.49 40.32 .23 33.06 .31 e 82.01 3.00 .41 163.33 1.45 37.62 .24 33.20 .30 e 86.04 p p p p PA828TF 12 s parameter q2 v ce = 2 v, i c = 3 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .92 e 10.47 6.76 165.93 .02 82.05 .97 e 8.45 .20 .88 e 20.49 6.45 154.91 .04 75.09 .93 e 16.14 .30 .83 e 30.63 6.30 145.29 .06 70.11 .86 e 22.48 .40 .77 e 40.22 6.03 136.75 .07 65.40 .80 e 27.91 .50 .70 e 49.54 5.79 128.87 .08 62.38 .73 e 31.76 .60 .64 e 58.45 5.49 121.94 .09 59.22 .68 e 35.44 .70 .57 e 66.75 5.22 114.90 .10 57.58 .62 e 37.62 .80 .51 e 74.87 4.94 108.77 .11 56.19 .58 e 39.97 .90 .46 e 82.13 4.64 102.99 .12 54.96 .54 e 41.46 1.00 .41 e 89.08 4.36 97.91 .13 54.27 .50 e 42.75 1.10 .37 e 95.99 4.10 93.32 .13 53.56 .47 e 44.04 1.20 .34 e 102.50 3.87 88.99 .14 53.02 .44 e 44.99 1.30 .31 e 109.65 3.65 85.09 .15 52.49 .42 e 45.98 1.40 .29 e 116.40 3.45 81.35 .16 51.99 .39 e 47.12 1.50 .27 e 123.57 3.28 77.89 .16 51.26 .37 e 48.16 1.60 .25 e 130.78 3.12 74.56 .17 50.83 .35 e 49.18 1.70 .24 e 137.88 2.97 71.50 .18 50.47 .33 e 50.34 1.80 .24 e 145.39 2.84 68.40 .19 49.91 .31 e 51.49 1.90 .23 e 152.42 2.72 65.48 .20 49.22 .29 e 52.79 2.00 .23 e 159.55 2.61 62.61 .20 48.79 .28 e 54.18 2.10 .23 e 166.12 2.52 59.74 .21 47.95 .26 e 55.52 2.20 .23 e 172.60 2.42 57.16 .22 47.35 .24 e 57.44 2.30 .24 e 178.44 2.34 54.38 .23 46.58 .22 e 59.36 2.40 .25 175.70 2.26 51.87 .24 45.96 .21 e 61.25 2.50 .26 170.52 2.19 49.35 .24 45.28 .19 e 64.05 2.60 .27 165.72 2.12 46.80 .25 44.33 .17 e 66.72 2.70 .28 161.24 2.06 44.31 .26 43.50 .16 e 70.25 2.80 .29 157.30 2.00 41.90 .27 42.65 .14 e 74.78 2.90 .30 153.21 1.95 39.57 .28 41.59 .12 e 80.10 3.00 .31 150.49 1.89 37.22 .29 40.55 .11 e 86.71 p p p p PA828TF 13 s parameter q2 v ce = 2 v, i c = 5 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .87 e 13.54 10.54 162.00 .02 80.48 .94 e 11.69 .20 .80 e 26.19 9.77 148.74 .04 73.48 .87 e 21.26 .30 .72 e 38.63 9.27 137.38 .05 68.44 .77 e 27.99 .40 .63 e 49.88 8.60 127.63 .06 65.14 .69 e 32.99 .50 .54 e 59.78 7.92 118.86 .07 63.41 .62 e 35.87 .60 .47 e 68.54 7.20 111.69 .08 61.89 .56 e 38.30 .70 .41 e 75.97 6.55 105.17 .09 61.08 .51 e 39.59 .80 .35 e 82.95 5.99 99.70 .10 60.63 .47 e 40.79 .90 .31 e 89.34 5.47 94.96 .11 60.13 .44 e 41.55 1.00 .28 e 95.57 5.05 90.71 .12 59.77 .41 e 42.06 1.10 .25 e 102.01 4.67 86.94 .13 59.22 .38 e 42.76 1.20 .23 e 108.52 4.35 83.30 .14 58.88 .36 e 43.16 1.30 .21 e 115.80 4.07 80.07 .15 58.01 .34 e 43.71 1.40 .20 e 122.99 3.82 76.85 .16 57.68 .32 e 44.42 1.50 .18 e 130.79 3.60 73.93 .16 56.83 .30 e 45.15 1.60 .18 e 138.76 3.41 71.07 .17 56.28 .28 e 45.88 1.70 .17 e 146.39 3.24 68.27 .18 55.32 .27 e 46.69 1.80 .17 e 154.38 3.09 65.56 .19 54.45 .25 e 47.67 1.90 .18 e 161.58 2.95 63.00 .20 53.52 .23 e 48.82 2.00 .18 e 168.80 2.83 60.37 .21 52.64 .21 e 49.56 2.10 .18 e 175.19 2.72 57.83 .22 51.72 .20 e 51.08 2.20 .19 178.38 2.61 55.48 .23 50.71 .18 e 52.53 2.30 .20 173.15 2.51 53.00 .24 49.69 .17 e 53.99 2.40 .21 168.10 2.42 50.71 .25 48.71 .15 e 55.88 2.50 .22 163.35 2.35 48.33 .26 47.65 .13 e 58.20 2.60 .24 159.17 2.27 45.94 .26 46.48 .12 e 60.77 2.70 .25 155.13 2.20 43.64 .27 45.46 .10 e 63.87 2.80 .26 151.66 2.13 41.53 .28 44.18 .08 e 69.81 2.90 .28 148.18 2.08 36.18 .29 42.92 .07 e 75.78 3.00 .29 145.87 2.02 37.27 .30 41.79 .05 e 87.46 p p p p PA828TF 14 s parameter q2 v ce = 2 v, i c = 7 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .82 e 16.31 13.83 158.85 .02 80.20 .92 e 14.08 .20 .73 e 31.08 12.52 143.87 .04 72.60 .81 e 24.73 .30 .62 e 44.88 11.48 131.26 .05 68.63 .70 e 31.03 .40 .52 e 56.37 10.28 120.77 .06 66.33 .61 e 35.17 .50 .43 e 65.51 9.08 112.24 .07 65.41 .55 e 37.29 .60 .37 e 73.22 8.02 105.64 .08 64.65 .49 e 38.81 .70 .31 e 79.68 7.15 99.96 .09 64.16 .45 e 39.42 .80 .27 e 85.85 6.43 95.22 .10 63.84 .41 e 39.69 .90 .24 e 91.96 5.83 91.06 .11 63.27 .38 e 40.33 1.00 .21 e 97.97 5.33 87.23 .12 63.10 .36 e 40.45 1.10 .19 e 104.32 4.91 83.95 .13 62.37 .34 e 40.77 1.20 .17 e 111.26 4.56 80.63 .14 61.78 .32 e 40.91 1.30 .16 e 119.09 4.25 77.69 .15 60.94 .30 e 41.30 1.40 .15 e 126.82 3.98 74.75 .16 60.35 .28 e 41.80 1.50 .14 e 135.36 3.75 71.91 .17 59.27 .27 e 42.41 1.60 .14 e 143.98 3.54 69.32 .18 58.46 .25 e 43.05 1.70 .14 e 152.02 3.36 66.71 .19 57.56 .23 e 43.89 1.80 .14 e 160.48 3.20 64.28 .20 56.54 .22 e 44.59 1.90 .15 e 167.52 3.06 61.81 .20 55.40 .20 e 45.49 2.00 .16 e 174.81 2.93 59.35 .21 54.51 .19 e 46.25 2.10 .16 179.19 2.80 57.01 .22 53.36 .17 e 47.28 2.20 .17 173.23 2.69 54.64 .23 52.09 .15 e 48.52 2.30 .19 168.26 2.59 52.26 .24 50.84 .14 e 49.66 2.40 .20 163.59 2.50 50.03 .25 49.75 .12 e 51.03 2.50 .21 159.22 2.42 47.84 .26 48.61 .11 e 53.42 2.60 .22 155.66 2.34 45.62 .27 47.35 .09 e 55.58 2.70 .24 151.91 2.27 43.50 .28 46.19 .07 e 57.80 2.80 .25 148.68 2.20 41.24 .29 44.87 .05 e 63.33 2.90 .27 145.44 2.14 39.10 .30 43.57 .04 e 71.16 3.00 .28 143.38 2.07 37.17 .31 42.15 .02 e 89.77 p p p p PA828TF 15 s parameter q2 v ce = 2 v, i c = 10 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .75 e 19.94 18.04 155.05 .02 78.63 .88 e 16.88 .20 .63 e 37.17 15.75 137.91 .03 72.31 .75 e 27.99 .30 .50 e 51.43 13.66 124.24 .04 69.65 .63 e 33.45 .40 .40 e 61.93 11.63 113.99 .06 68.34 .54 e 36.33 .50 .33 e 69.47 9.93 106.39 .07 68.06 .48 e 37.48 .60 .28 e 76.10 8.60 100.66 .08 67.81 .43 e 38.05 .70 .24 e 81.76 7.55 95.75 .09 67.13 .40 e 38.12 .80 .21 e 87.66 6.74 91.57 .10 66.95 .37 e 38.22 .90 .18 e 93.58 6.07 87.88 .11 66.28 .34 e 38.12 1.00 .16 e 99.63 5.53 84.54 .12 65.72 .32 e 38.04 1.10 .14 e 106.61 5.07 81.36 .13 65.07 .30 e 38.26 1.20 .13 e 113.93 4.70 78.47 .14 64.27 .29 e 38.23 1.30 .12 e 122.95 4.38 75.61 .15 63.38 .27 e 38.44 1.40 .12 e 131.42 4.09 72.98 .16 62.56 .25 e 38.92 1.50 .11 e 140.96 3.85 70.36 .17 61.30 .24 e 39.44 1.60 .12 e 150.17 3.64 68.00 .18 60.41 .22 e 39.88 1.70 .12 e 158.80 3.45 65.54 .19 59.28 .21 e 40.33 1.80 .12 e 167.29 3.27 63.09 .20 58.03 .19 e 40.98 1.90 .13 e 174.00 3.13 60.80 .21 56.82 .18 e 41.90 2.00 .14 179.16 2.99 58.43 .22 55.73 .16 e 42.20 2.10 .15 173.55 2.86 56.12 .23 54.42 .15 e 43.12 2.20 .16 168.05 2.76 53.85 .24 53.25 .13 e 43.66 2.30 .17 163.79 2.66 51.62 .25 51.73 .12 e 44.54 2.40 .19 159.55 2.56 49.61 .26 50.61 .10 e 45.17 2.50 .20 155.56 2.48 47.37 .27 49.39 .08 e 46.33 2.60 .21 152.29 2.38 45.19 .28 47.95 .07 e 46.51 2.70 .23 148.78 2.31 42.99 .29 46.76 .05 e 47.10 2.80 .24 146.04 2.24 40.81 .30 45.28 .03 e 50.69 2.90 .26 143.20 2.18 38.94 .31 43.89 .01 e 48.82 3.00 .27 141.08 2.11 36.88 .31 42.38 0.00 134.74 p p p p PA828TF 16 s parameter q2 v ce = 2 v, i c = 20 ma, z 0 = 50 : frequency s 11 s 21 s 12 s 22 ghz mag. ang. mag. ang. mag. ang. mag. ang. .10 .56 e 29.15 27.12 146.32 .02 77.78 .80 e 21.74 .20 .41 e 48.92 20.90 125.74 .03 74.05 .63 e 31.76 .30 .31 e 60.35 16.10 113.19 .04 72.89 .51 e 34.75 .40 .24 e 68.27 12.87 104.89 .05 73.12 .44 e 35.38 .50 .19 e 74.29 10.65 98.93 .06 72.74 .39 e 34.92 .60 .16 e 80.26 9.05 94.42 .07 72.28 .36 e 34.40 .70 .14 e 85.96 7.87 90.42 .08 71.80 .33 e 33.68 .80 .12 e 92.36 6.97 86.91 .09 71.03 .31 e 33.35 .90 .11 e 99.97 6.25 83.77 .11 70.29 .29 e 33.01 1.00 .10 e 107.48 5.67 80.84 .12 69.37 .28 e 32.76 1.10 .09 e 116.81 5.19 78.17 .13 68.41 .26 e 32.72 1.20 .08 e 126.82 4.79 75.44 .14 67.25 .25 e 32.69 1.30 .08 e 138.28 4.46 73.03 .15 66.21 .24 e 32.69 1.40 .08 e 148.91 4.17 70.45 .16 65.13 .22 e 33.03 1.50 .09 e 159.16 3.92 68.12 .17 63.75 .21 e 33.54 1.60 .09 e 168.23 3.69 65.84 .18 62.57 .20 e 33.82 1.70 .10 e 175.51 3.50 63.56 .19 61.27 .18 e 34.18 1.80 .11 177.57 3.33 61.31 .20 59.98 .17 e 34.31 1.90 .12 172.34 3.17 59.18 .21 58.56 .16 e 34.89 2.00 .13 167.06 3.03 56.95 .22 57.22 .14 e 34.48 2.10 .15 163.12 2.91 54.84 .23 55.75 .13 e 34.89 2.20 .16 158.95 2.79 52.71 .24 54.34 .11 e 34.41 2.30 .17 155.66 2.68 50.45 .25 53.02 .09 e 33.91 2.40 .19 152.47 2.58 48.31 .26 51.60 .08 e 32.52 2.50 .20 149.55 2.50 46.34 .27 50.20 .06 e 30.22 2.60 .22 146.94 2.42 44.20 .28 48.59 .05 e 25.48 2.70 .23 144.10 2.33 42.05 .29 47.38 .03 e 14.13 2.80 .25 141.69 2.26 40.12 .30 45.92 .02 4.75 2.90 .26 139.23 2.20 38.08 .31 44.36 .02 62.68 3.00 .28 137.58 2.13 35.99 .32 42.85 .03 93.61 p p p p PA828TF 17 [memo] p p p p PA828TF 18 [memo] p p p p PA828TF 19 [memo] p p p p PA828TF no part of this document may be copied or reproduced in any form or by any means without the prior written consent of nec corporation. nec corporation assumes no responsibility for any errors which may appear in this document. nec corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. no license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of nec corporation or others. while nec corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. to minimize risks of damage or injury to persons or property arising from a defect in an nec semiconductor device, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. nec devices are classified into the following three quality grades: "standard", "special", and "specific". the specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. the recommended applications of a device depend on its quality grade, as indicated below. customers must check the quality grade of each device before using it in a particular application. standard: computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots special: 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) specific: aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. the quality grade of nec devices is "standard" unless otherwise specified in nec's data sheets or data books. if customers intend to use nec devices for applications other than those specified for standard quality grade, they should contact an nec sales representative in advance. anti-radioactive design is not implemented in this product. m4 96. 5 |
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