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| 1.5 � 18 ghz surface mount pseudomorphic hemt technical data atf-36163 features ?lead-free option available ?low minimum noise figure: 1 db typical at 12 ghz 0.6 db typical at 4 ghz ?associated gain: 9.4 db typical at 12 ghz 15.8 db typical at 4 ghz ?maximum available gain: 11 db typical at 12 ghz 17 db typical at 4 ghz ?low cost surface mount small plastic package ?tape-and-reel packaging option available applications � 12 ghz dbs downconverters ?4 ghz tvro downconverters ?s or l band low noise amplifiers surface mount package sot-363 (sc-70) additionally, the atf-36163 has low noise-resistance, which reduces the sensitivity of noise performance to variations in input impedance match. this feature makes the design of broad band low noise amplifiers much easier. the performance of the atf-36163 makes this device the ideal choice for use in the 2nd or 3rd stage of low noise cascades. the repeatable performance and consistency make it appropriate for use in ku-band direct broadcast satellite (dbs) tv systems, c-band tv receive only (tvro) lnas, multichannel multipoint distribution systems (mmds), x-band radar detector and other low noise amplifiers operating in the 1.5 C 18 ghz frequency range. this gaas phemt device has a nominal 0.2 micron gate length with a total gate periphery (width) of 200 microns. proven gold-based metallization system and nitride passivation assure rugged, reliable devices. description the agilent atf-36163 is a low- noise pseudomorphic high electron mobility transistor (phemt), in the sot-363 (sc-70) package. when optimally matched for minimum noise figure, it will provide a noise figure of 1 db at 12 ghz and 0.6 db at 4 ghz. pin connections and package marking drain source 36 source source gate source note: package marking provides orientation and identification. attention: observe precautions for handling electrostatic sensitive devices. esd machine model (class a) refer to agilent application note a004r: electrostatic discharge damage and control.
2 atf-36163 absolute maximum ratings [1] absolute symbol parameter units maximum v ds drain - source voltage v +3 v gs gate - source voltage v -3 v gd gate drain voltage v -3.5 i d drain current ma i dss p t total power dissipation mw 180 p in max rf input power dbm +10 t ch channel temperature c 150 t stg storage temperature c -65 to 150 thermal resistance: ch-c = 160 c/w note: 1. operation of this device above any one of these parameters may cause permanent damage. atf-36163 typical parameters t c = 25 c, z o = 50 ? , v ds = 2 v, i ds = 15 ma, (unless otherwise noted). symbol parameters and test conditions units typ. f min minimum noise figure ( source = opt ) f = 4 ghz db 0.6 f = 12 ghz db 1.0 g a associated gain f = 4 ghz db 15.8 f = 12 ghz db 9.4 g max maximum available gain [1] f = 4 ghz db 17.2 f = 12 ghz db 10.9 p 1db output power at 1 db gain compression f = 4 ghz dbm 5 under the power matched condition f = 12 ghz dbm 5 v gs gate to source voltage for i ds = 15 ma v ds = 2.0 v v -0.2 note: 1. g max = mag for k > 1 and g max = msg for k 1, which is shown on the s-parameters tables. atf-36163 electrical specifications t c = 25 c, z o = 50 ? , v ds = 1.5 v, i ds = 10 ma, (unless otherwise noted). symbol parameters and test conditions units min. typ. max. nf noise figure [1] f =12.0 ghz db 1.2 1.4 [1] g gain at nf [1] f = 12.0 ghz db 9 10 g m transconductance v ds = 1.5 v, v gs = 0 v ms 50 60 i dss saturated drain current v ds = 1.5 v, v gs = 0 v ma 15 25 40 v p 10% pinchoff voltage v ds = 1.5 v, i ds = 10% of i dss v -1.0 -0.35 -0.15 bv gdo gate drain breakdown voltage i g = 30 a v -3.5 note: 1. measured in a test circuit tuned for a typical device. 3 atf-36163 typical noise parameters common source, z o = 50 ? , v ds = 1.5 v, i d = 10 ma freq. f min g a opt r n /z o ghz db db mag. ang. - 2 0.48 18.77 0.78 28 0.38 3 0.53 16.75 0.75 41 0.32 4 0.57 15.17 0.68 55 0.26 5 0.61 14.14 0.60 71 0.20 6 0.66 13.23 0.55 88 0.15 7 0.71 12.06 0.48 105 0.12 8 0.77 11.22 0.38 119 0.10 9 0.83 10.50 0.32 138 0.07 10 0.89 10.02 0.23 170 0.07 11 0.97 9.44 0.18 -141 0.09 12 1.05 8.92 0.20 -92 0.13 13 1.14 8.45 0.26 -46 0.21 14 1.24 8.12 0.36 -16 0.32 15 1.37 8.08 0.48 4 0.44 16 1.51 8.11 0.59 19 0.60 17 1.68 7.97 0.64 34 0.79 18 1.89 7.59 0.70 51 1.15 atf-36163 typical scattering parameters, common source, z o = 50 ? , v ds = 1.5 v, i d = 10 ma freq. s 11 s 21 s 12 s 22 kg max [1] ghz mag. ang. db mag. ang. db mag. ang. mag. ang. � db 0.5 0.99 -11 12.85 4.39 168 -37.72 0.01 79 0.51 -9 0.11 25.24 1 0.98 -22 12.70 4.31 158 -31.70 0.03 71 0.50 -18 0.17 22.26 2 0.96 -42 12.48 4.21 138 -26.02 0.05 55 0.48 -36 0.24 19.28 3 0.93 -61 12.37 4.15 118 -22.73 0.07 40 0.45 -53 0.33 17.56 4 0.87 -83 12.30 4.12 97 -20.45 0.10 23 0.40 -71 0.43 16.38 5 0.81 -106 12.16 4.06 76 -18.71 0.12 6 0.34 -92 0.51 15.43 6 0.75 -131 11.94 3.95 55 -17.52 0.13 -12 0.27 -116 0.58 14.73 7 0.67 -158 11.47 3.75 33 -16.77 0.15 -30 0.18 -144 0.69 14.12 8 0.61 176 11.01 3.55 12 -16.36 0.15 -45 0.10 174 0.79 13.69 9 0.57 143 10.47 3.34 -10 -15.97 0.16 -61 0.12 93 0.85 13.22 10 0.57 108 9.66 3.04 -32 -15.92 0.16 -77 0.22 53 0.91 12.80 11 0.59 76 8.53 2.67 -54 -16.48 0.15 -93 0.33 28 0.99 12.50 12 0.63 50 7.39 2.34 -74 -17.14 0.14 -106 0.41 9 1.07 10.65 13 0.67 26 6.10 2.02 -93 -18.27 0.12 -119 0.49 -8 1.18 9.64 14 0.72 6 4.81 1.74 -111 -19.74 0.10 -129 0.56 -22 1.30 8.99 15 0.78 -11 3.49 1.50 -128 -21.41 0.09 -138 0.63 -33 1.38 8.81 16 0.82 -24 2.20 1.29 -146 -23.10 0.07 -144 0.67 -43 1.44 8.70 17 0.87 -38 0.59 1.07 -164 -25.04 0.06 -151 0.73 -53 1.46 8.79 18 0.90 -52 -1.63 0.83 178 -29.12 0.04 -159 0.78 -65 1.80 8.58 note: 1. g max = mag for k > 1 and g max = msg for k 1. figure 1. atf-36163 minimum noise figure and associated gain vs. frequency for v ds = 1.5 v, i d = 10 ma. figure 2. maximum available gain, maximum stable gain & insertion power gain vs. frequency for v ds = 1.5 v, i d = 10 ma. 018 2.4 0 2 6 10 12 2.0 1.2 0.4 14 f min (db) frequency (ghz) 0.8 1.6 48 16 24 0 20 12 4 8 16 g a (db) 018 24 0 2 6 10 12 20 12 4 14 gain (db) frequency (ghz) 8 16 48 16 mag msg | s21 | 2 4 atf-36163 typical scattering parameters, common source, z o = 50 ? , v ds = 1.5 v, i d = 15 ma freq. s 11 s 21 s 12 s 22 kg max [1] ghz mag. ang. db mag. ang. db mag. ang. mag. ang. � db 0.5 0.99 -12 13.56 4.76 168 -38.42 0.01 79 0.45 -9 0.12 25.82 1 0.98 -22 13.40 4.68 157 -32.40 0.02 71 0.45 -18 0.18 22.86 2 0.96 -43 13.16 4.55 137 -26.56 0.05 56 0.43 -36 0.26 19.87 3 0.92 -63 13.00 4.47 116 -23.22 0.07 40 0.40 -52 0.35 18.13 4 0.86 -85 12.87 4.40 96 -21.01 0.09 24 0.35 -70 0.46 16.94 5 0.80 -108 12.68 4.30 75 -19.25 0.11 7 0.28 -92 0.55 15.98 6 0.74 -133 12.38 4.16 53 -18.13 0.12 -11 0.21 -116 0.62 15.25 7 0.66 -160 11.85 3.91 31 -17.39 0.14 -28 0.13 -146 0.74 14.62 8 0.59 173 11.33 3.68 11 -16.95 0.14 -42 0.06 156 0.84 14.14 9 0.56 141 10.74 3.44 -11 -16.54 0.15 -58 0.12 73 0.90 13.63 10 0.56 106 9.89 3.12 -33 -16.42 0.15 -73 0.23 44 0.95 13.16 11 0.59 74 8.74 2.74 -54 -16.83 0.14 -88 0.34 23 1.03 11.78 12 0.63 49 7.59 2.40 -74 -17.39 0.14 -102 0.42 6 1.10 10.62 13 0.68 25 6.29 2.06 -93 -18.42 0.12 -115 0.50 -10 1.19 9.72 14 0.73 5 5.01 1.78 -110 -19.74 0.10 -124 0.57 -23 1.29 9.15 15 0.79 -12 3.70 1.53 -127 -21.31 0.09 -133 0.64 -34 1.35 8.99 16 0.83 -25 2.43 1.32 -144 -22.85 0.07 -139 0.68 -44 1.39 8.93 17 0.87 -38 0.84 1.10 -163 -24.73 0.06 -148 0.73 -54 1.39 9.06 18 0.91 -53 -1.33 0.86 180 -28.87 0.04 -155 0.78 -66 1.67 8.92 note: 1. g max = mag for k > 1 and g max = msg for k 1. figure 3. atf-36163 minimum noise figure and associated gain vs. frequency for v ds = 1.5 v, i d = 15 ma. figure 4. maximum available gain, maximum stable gain & insertion power gain vs. frequency for v ds = 1.5 v, i d = 15 ma. 018 2.4 0 2 6 10 12 2.0 1.2 0.4 14 f min (db) frequency (ghz) 0.8 1.6 48 16 24 0 20 12 4 8 16 g a (db) 018 24 0 2 6 10 12 20 12 4 14 gain (db) frequency (ghz) 8 16 48 16 mag msg | s21 | 2 atf-36163 typical noise parameters common source, z o = 50 ? , v ds = 1.5 v, i d = 15 ma freq. f min g a opt r n /z o ghz db db mag. ang. - 2 0.49 18.87 0.84 28 0.38 3 0.54 17.20 0.74 42 0.31 4 0.58 15.75 0.66 57 0.25 5 0.63 14.49 0.59 72 0.19 6 0.68 13.61 0.54 90 0.15 7 0.73 12.36 0.46 106 0.11 8 0.79 11.54 0.37 121 0.09 9 0.85 10.82 0.30 140 0.08 10 0.91 10.32 0.21 174 0.08 11 0.99 9.73 0.17 -133 0.10 12 1.07 9.22 0.20 -83 0.14 13 1.17 8.68 0.26 -40 0.22 14 1.27 8.41 0.38 -12 0.34 15 1.40 8.36 0.49 7 0.46 16 1.54 8.37 0.60 21 0.64 17 1.72 8.10 0.62 35 0.85 18 1.93 8.00 0.71 52 1.18 5 atf-36163 typical scattering parameters, common source, z o = 50 ? , v ds = 2.0 v, i d = 10 ma freq. s 11 s 21 s 12 s 22 k gmax [1] ghz mag. ang. db mag. ang. db mag. ang. mag. ang. � db 0.5 0.99 -11 13.06 4.50 168 -37.72 0.01 79 0.55 -9 0.11 25.46 1 0.99 -22 12.90 4.42 158 -32.04 0.03 71 0.55 -18 0.16 22.46 2 0.96 -42 12.69 4.31 138 -26.38 0.05 56 0.53 -35 0.24 19.50 3 0.93 -62 12.57 4.25 118 -22.97 0.07 40 0.50 -52 0.32 17.77 4 0.87 -83 12.51 4.22 97 -20.72 0.09 23 0.44 -70 0.42 16.61 5 0.81 -106 12.38 4.16 76 -18.94 0.11 6 0.38 -90 0.51 15.67 6 0.75 -131 12.15 4.05 55 -17.79 0.13 -12 0.31 -112 0.58 14.98 7 0.67 -157 11.70 3.84 33 -17.08 0.14 -30 0.21 -137 0.69 14.38 8 0.60 176 11.25 3.65 13 -16.65 0.15 -44 0.13 -168 0.79 13.96 9 0.57 144 10.73 3.44 -10 -16.25 0.15 -60 0.10 115 0.85 13.50 10 0.56 109 9.95 3.14 -32 -16.25 0.15 -76 0.18 61 0.91 13.10 11 0.58 77 8.86 2.77 -53 -16.77 0.15 -91 0.29 32 1.00 12.52 12 0.62 50 7.75 2.44 -73 -17.39 0.14 -104 0.37 12 1.08 10.82 13 0.67 26 6.49 2.11 -93 -18.56 0.12 -117 0.46 -5 1.19 9.85 14 0.72 6 5.24 1.83 -110 -19.91 0.10 -126 0.53 -19 1.31 9.24 15 0.78 -10 3.96 1.58 -128 -21.51 0.08 -134 0.60 -30 1.38 9.07 16 0.82 -24 2.68 1.36 -146 -23.10 0.07 -139 0.65 -40 1.42 9.03 17 0.87 -37 1.08 1.13 -165 -24.88 0.06 -147 0.71 -50 1.38 9.28 18 0.91 -52 -1.16 0.88 177 -28.64 0.04 -153 0.78 -63 1.63 9.06 figure 5. atf-36163 minimum noise figure and associated gain vs. frequency for v ds = 2.0 v, i d = 10 ma. figure 6. maximum available gain, maximum stable gain & insertion power gain vs. frequency for v ds = 2.0 v, i d = 10 ma. atf-36163 typical noise parameters common source, z o = 50 ? , v ds = 2.0 v, i d = 10 ma freq. f min g a opt r n /z o ghz db db mag. ang. - 2 0.46 18.60 0.84 28 0.38 3 0.50 16.75 0.76 41 0.31 4 0.54 15.55 0.67 56 0.25 5 0.59 14.20 0.61 70 0.20 6 0.63 13.37 0.55 88 0.15 7 0.68 12.12 0.49 103 0.12 8 0.74 11.35 0.39 118 0.10 9 0.80 10.59 0.33 135 0.07 10 0.86 10.11 0.23 165 0.07 11 0.94 9.57 0.17 -145 0.09 12 1.02 9.08 0.18 -93 0.12 13 1.11 8.59 0.24 -47 0.19 14 1.22 8.30 0.34 -16 0.30 15 1.35 8.29 0.47 5 0.42 16 1.51 8.32 0.58 19 0.57 17 1.69 8.07 0.60 34 0.76 18 1.92 7.68 0.66 50 1.10 018 2.4 0 2 6 10 12 2.0 1.2 0.4 14 f min (db) frequency (ghz) 0.8 1.6 48 16 24 0 20 12 4 8 16 g a (db) 018 24 0 2 6 10 12 20 12 4 14 gain (db) frequency (ghz) 8 16 48 16 mag msg | s21 | 2 note: 1. g max = mag for k > 1 and g max = msg for k 1. 6 atf-36163 typical scattering parameters, common source, z o = 50 ? , v ds = 2 v, i d = 15 ma freq. s 11 s 21 s 12 s 22 k gmax [1] ghz mag. ang. db mag. ang. db mag. ang. mag. ang. � db 0.5 0.99 -12 13.85 4.93 168 -38.42 0.01 79 0.51 -9 0.12 26.10 1 0.98 -22 13.70 4.84 157 -32.40 0.02 71 0.50 -18 0.17 23.11 2 0.96 -43 13.45 4.70 137 -26.74 0.05 56 0.48 -35 0.26 20.13 3 0.92 -63 13.29 4.62 117 -23.48 0.07 40 0.45 -52 0.35 18.40 4 0.86 -85 13.16 4.55 96 -21.31 0.09 24 0.40 -69 0.46 17.22 5 0.79 -108 12.96 4.45 75 -19.58 0.11 7 0.33 -90 0.55 16.26 6 0.73 -133 12.67 4.30 53 -18.42 0.12 -10 0.26 -112 0.62 15.54 7 0.65 -160 12.13 4.04 32 -17.72 0.13 -28 0.17 -136 0.75 14.93 8 0.59 173 11.63 3.81 11 -17.27 0.14 -42 0.09 -171 0.84 14.46 9 0.55 141 11.06 3.57 -11 -16.83 0.14 -57 0.09 93 0.90 13.95 10 0.56 107 10.23 3.25 -32 -16.77 0.15 -72 0.19 51 0.96 13.50 11 0.58 75 9.11 2.86 -53 -17.14 0.14 -87 0.30 27 1.04 11.93 12 0.63 49 8.00 2.51 -73 -17.72 0.13 -99 0.38 9 1.11 10.85 13 0.68 26 6.75 2.17 -92 -18.71 0.12 -112 0.47 -7 1.20 10.00 14 0.73 6 5.49 1.88 -110 -20.00 0.10 -121 0.54 -20 1.30 9.45 15 0.78 -11 4.22 1.63 -127 -21.41 0.09 -129 0.61 -31 1.35 9.30 16 0.83 -24 2.99 1.41 -145 -22.73 0.07 -135 0.66 -41 1.36 9.31 17 0.88 -38 1.42 1.18 -164 -24.44 0.06 -143 0.72 -51 1.31 9.56 18 0.91 -52 -0.79 0.91 178 -27.96 0.04 -149 0.78 -63 1.50 9.44 note: 1. g max = mag for k > 1 and g max = msg for k 1. figure 7. atf-36163 minimum noise figure and associated gain vs. frequency for v ds = 2 v, i d = 15 ma. figure 8. maximum available gain, maximum stable gain & insertion power gain vs. frequency for v ds = 2 v, i d = 15 ma. atf-36163 typical noise parameters common source, z o = 50 ? , v ds = 2.0 v, i d = 15 ma freq. f min g a opt r n /z o ghz db db mag. ang. - 2 0.48 18.97 0.83 28 0.37 3 0.52 17.27 0.74 41 0.31 4 0.56 15.75 0.67 56 0.25 5 0.61 14.54 0.60 71 0.19 6 0.65 13.68 0.55 89 0.15 7 0.70 12.47 0.46 104 0.11 8 0.76 11.66 0.37 118 0.09 9 0.82 10.94 0.31 136 0.08 10 0.88 10.44 0.21 168 0.07 11 0.95 9.88 0.15 -137 0.09 12 1.03 9.38 0.18 -85 0.13 13 1.12 8.90 0.25 -41 0.21 14 1.23 8.63 0.36 -13 0.32 15 1.35 8.59 0.48 7 0.44 16 1.49 8.63 0.58 20 0.60 17 1.65 8.68 0.65 34 0.79 18 1.86 8.32 0.70 51 1.10 018 2.4 0 2 6 10 12 2.0 1.2 0.4 14 f min (db) frequency (ghz) 0.8 1.6 48 16 24 0 20 12 4 8 16 g a (db) 018 24 0 2 6 10 12 20 12 4 14 gain (db) frequency (ghz) 8 16 48 16 mag msg | s21 | 2 7 atf-36163 typical � off � scattering parameters, common source, z o = 50 ? ,v ds =0 v, v gs =0 v freq. s 11 s 21 s 12 s 22 ghz mag. ang. db mag. ang. db mag. ang. mag. ang. 0.5 0.998 -10 -46.02 0.01 80 -46.02 0.01 86 0.703 170 1 0.993 -20 -39.17 0.01 81 -39.17 0.01 83 0.701 160 2 0.99 -37 -32.77 0.02 75 -32.77 0.02 76 0.70 139 3 0.98 -55 -28.64 0.04 67 -28.64 0.04 68 0.71 119 4 0.96 -74 -25.35 0.05 56 -25.19 0.06 57 0.73 99 5 0.94 -95 -22.62 0.07 42 -22.50 0.08 42 0.74 81 6 0.92 -118 -20.45 0.10 27 -20.45 0.10 27 0.75 63 7 0.89 -142 -18.79 0.12 11 -18.71 0.12 11 0.77 46 8 0.86 -168 -17.02 0.14 -6 -17.02 0.14 -5 0.78 30 9 0.84 162 -15.70 0.16 -24 -15.70 0.16 -24 0.81 16 10 0.83 128 -14.85 0.18 -44 -14.85 0.18 -44 0.83 3 11 0.83 94 -14.66 0.19 -64 -14.66 0.19 -64 0.84 -10 12 0.85 64 -14.85 0.18 -83 -14.85 0.18 -83 0.85 -22 13 0.86 36 -15.76 0.16 -101 -15.76 0.16 -101 0.87 -34 14 0.87 12 -17.14 0.14 -116 -17.08 0.14 -115 0.89 -44 15 0.90 -8 -18.71 0.12 -129 -18.71 0.12 -129 0.89 -53 16 0.93 -24 -20.45 0.10 -140 -20.45 0.10 -140 0.90 -62 17 0.93 -39 -23.35 0.07 -154 -23.10 0.07 -152 0.90 -71 18 0.93 -53 -27.96 0.04 -161 -28.18 0.04 -161 0.90 -81 atf-36163 typical � off � scattering parameters, common source, z o = 50 ? , v ds = 2.0 v, v gs = -1.5 v freq. s 11 s 21 s 12 s 22 ghz mag. ang. db mag. ang. db mag. ang. mag. ang. 0.5 0.97 -8 -34.89 0.02 82 -34.89 0.02 81 0.999 -7 1 0.98 -16 -28.87 0.04 74 -28.87 0.04 73 0.998 -14 2 0.99 -30 -22.85 0.07 59 -22.97 0.07 59 0.995 -29 3 0.98 -43 -19.33 0.11 44 -19.33 0.11 44 0.98 -43 4 0.97 -57 -16.71 0.15 29 -16.71 0.15 30 0.97 -57 5 0.96 -72 -14.42 0.19 14 -14.47 0.19 14 0.95 -74 6 0.94 -87 -12.62 0.23 -2 -12.65 0.23 -2 0.94 -91 7 0.92 -103 -10.90 0.29 -20 -10.96 0.28 -20 0.92 -107 8 0.89 -119 -9.60 0.33 -37 -9.63 0.33 -37 0.89 -125 9 0.85 -136 -8.09 0.39 -56 -8.09 0.39 -56 0.83 -148 10 0.79 -158 -6.73 0.46 -79 -6.73 0.46 -79 0.79 -174 11 0.74 177 -5.85 0.51 -106 -5.87 0.51 -106 0.75 156 12 0.72 149 -5.71 0.52 -136 -5.71 0.52 -136 0.73 123 13 0.71 114 -6.54 0.47 -170 -6.52 0.47 -170 0.74 86 14 0.75 74 -8.95 0.36 155 -8.92 0.36 156 0.79 50 15 0.82 35 -12.80 0.23 123 -12.69 0.23 123 0.85 18 16 0.89 5 -18.49 0.12 94 -18.20 0.12 95 0.90 -8 17 0.91 -21 -24.88 0.06 79 -24.44 0.06 84 0.91 -30 18 0.92 -42 -27.54 0.04 70 -27.96 0.04 69 0.90 -50 8 figure 9. smith chart with noise figure and available gain circles at 12 ghz, v ds = 1.5 v, i d = 10 ma. 11.5 db 1.9 db 1.4 db 1.3 db 1.2 db 1.1 db 10.5 db 9.5 db phase reference planes the positions of the reference planes used to measure s- parameters and to specify opt for the noise parameters are shown in figure 10. as seen in the illustration, the reference planes are located at the extremities of the package leads. reference planes test circuit figure 10. reference planes. sot-363 pcb layout a pcb pad layout for the minia- ture sot-363 (sc-70) package used by the atf-36163 is shown in figure 11 (dimensions are in inches). this layout provides ample allowance for package placement by automated assembly equipment. the layout is shown with a nominal sot-363 package footprint superimposed on the pcb pads. 0.026 0.079 0.018 0.039 figure 11. recommended pcb pad layout for agilent � s sc70 6l/sot-363 products (dimensions in inches). 9 package dimensions sc-70 6l/sot-363 e he d e a1 b a a2 q1 l c dimensions (mm) min. 1.15 1.80 1.80 0.80 0.80 0.00 0.10 0.15 0.10 0.10 max. 1.35 2.25 2.40 1.10 1.00 0.10 0.40 0.30 0.20 0.30 symbol e d he a a2 a1 q1 e b c l notes: 1. all dimensions are in mm. 2. dimensions are inclusive of plating. 3. dimensions are exclusive of mold flash & metal burr. 4. all specifications comply to eiaj sc70. 5. die is facing up for mold and facing down for trim/form, ie: reverse trim/form. 6. package surface to be mirror finish. 0.650 bcs part number ordering information no. of part number devices container atf-36163-tr1 3000 7" reel atf-36163-tr2 10000 13" reel atf-36163-blk 100 antistatic bag atf-36163-tr1g 3000 7" reel atf-36163-tr2g 10000 13" reel atf-36163-blkg 100 antistatic bag note: for lead-free option, the part number will have the character g at the end. 10 tape dimensions and product orientation for outline 63 device orientation user feed direction cover tape carrier tape reel end view 8 mm 4 mm top view 36 36 36 36 p p 0 p 2 f w c d 1 d e a 0 10 max. t 1 (carrier tape thickness) t t (cover tape thickness) 10 max. b 0 k 0 description symbol size (mm) size (inches) length width depth pitch bottom hole diameter a 0 b 0 k 0 p d 1 2.40 0.10 2.40 0.10 1.20 0.10 4.00 0.10 1.00 + 0.25 0.094 0.004 0.094 0.004 0.047 0.004 0.157 0.004 0.039 + 0.010 cavity diameter pitch position d p 0 e 1.55 0.10 4.00 0.10 1.75 0.10 0.061 + 0.002 0.157 0.004 0.069 0.004 perforation width thickness w t 1 8.00 + 0.30 - 0.10 0.254 0.02 0.315 + 0.012 0.0100 0.0008 carrier tape cavity to perforation (width direction) cavity to perforation (length direction) f p 2 3.50 0.05 2.00 0.05 0.138 0.002 0.079 0.002 distance width tape thickness c t t 5.40 0.10 0.062 0.001 0.205 + 0.004 0.0025 0.0004 cover tape www.agilent.com/semiconductors for product information and a complete list of distributors, please go to our web site. for technical assistance call: americas/canada: +1 (800) 235-0312 or (916) 788-6763 europe: +49 (0) 6441 92460 china: 10800 650 0017 hong kong: (65) 6756 2394 india, australia, new zealand: (65) 6755 1939 japan: (+81 3) 3335-8152(domestic/international), or 0120-61-1280(domestic only) korea: (65) 6755 1989 singapore, malaysia, vietnam, thailand, philippines, indonesia: (65) 6755 2044 taiwan: (65) 6755 1843 data subject to change. copyright ? 2004 agilent technologies, inc. obsoletes 5965-4747e november 15, 2004 5989-1915en |
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