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| MGA-565P8 20 dbm p sat high isolation bufer amplifer data sheet description the MGA-565P8 is designed for use in lo chains to drive high dynamic range passive mixers. it provides high isolation, high gain, and consistent output power. it is a gaas mmic, fabricated using avago technologies cost effective, reliable enhancement mode phemt (pseu - domorphic high electron mobility transistor) [1] process. this device is housed in the lpcc 2x2 mm package. this package ofers good thermal dissipation and rf charac - teristics. MGA-565P8 features a saturated power of 20 dbm (with 0 dbm input power) and reverse isolation in excess of 40 db at 2 ghz. the saturated output power can be set between 9 dbm and 20 dbm using an external resistor, with a corresponding adjustment in current consump - tion. notes: 1. enhancement mode technology employs a single positive v gs , eliminating the need of negative gate voltage associated with conventional depletion mode devices. 2. conform to jedec reference outline mo229 for drp-n pin connections and package marking features ? up to 3.5 ghz operating frequency ? 2:1 vswr input and output at 2ghz ? small package size: 2.0 x 2.0 x 0.75 mm lpcc [3] ? msl-1 and lead-free ? tape-and-reel packaging option available specifcations @ 2 ghz, v d = 5v, p in = 0 dbm ? p sat = 20 dbm ? i dsat = 67 ma ? isolation = 42 db ? small signal gain = 22 db applications ? vco bufer amplifer for cellular/pcs or other wireless infrastructures simplifed schematic note: package marking provides orientation and identifcation 1b = device code x = data code indicates the month of manufacture. pin 1 pin 2 pin 3 pin 4 pin 8 pin 7 pin 6 pin 5 1bx t op v iew pin 8 gnd ? (thermal/rf gnd) pin 7 ? (rfout/vd1) pin 6 (vd2) pin 5 (vd3) pin 1 gnd pin 2 (rfin) pin 3 gnd pin 4 gnd bottom v iew attention: observe precautions for handling electrostatic sensitive devices. esd machine model (class a) esd human body model (class 0) refer to avago application note a004r: electrostatic discharge damage and control. 7 1 , 3 , 4 , 8 i d 6 r b i a s v d 5 2 l o g n d r f o u t r f i n
2 MGA-565P8 absolute maximum ratings [1] absolute symbol parameter units maximum v d dc supply voltage v 8 p diss total power dissipation [2] mw 448 p in max. rf input power (vd = 5v) dbm 15 t ch channel temperature c 150 t stg storage temperature c -65 to 150 ch_b thermal resistance [3] c/w 91 esd (human body model) v 100 esd (machine model) v 30 notes: 1. operation of this device in excess of any one of these parameters may cause permanent damage. 2. board (package belly) temperature t b is 25c. derate 11 mw/c for t b > 109c. 3. channel-to-board thermal resistance measured using 150c liquid crystal measurement method. electrical specifcations t a = 25c, frequency = 2 ghz, r bias = 0 (unless specifed otherwise) symbol parameter and test condition units min. typ. max. p sat saturated power at 0 dbm input vd = 5v [1] dbm 18.5 20 vd = 3v dbm 17 i dsat saturation current vd = 5v [1] ma 58 67 vd = 3v ma 45 isl [1] reverse isolation db 42 50 gain small signal gain vd = 5v [1] db 20 21.8 23.5 vd = 3v 20 i ds small signal current (p in = -10 dbm) vd = 5v [1] ma 33 37 vd = 3v 27 rl [1] return loss input db -8 output -10 notes: 1. typical value determined from a sample size of 500 parts from 3 wafers. 2. measurement obtained using production test board described in the block diagram below. circuit losses have been de-embedded from actual measurements. figure 1. production test circuit schematic at 2 ghz. 2 2 p f 2 2 p f 8 4 3 1 2 7 b u f f e r a m p l i f i e r 2 2 p f 5 v 1 2 n h r b i a s + _ 1 0 0 0 p f 0 o h m 5 6 3 product consistency distribution charts at 2 ghz [1, 2] notes: 1. statistical distribution determined from a sample size of 500 parts from 3 wafers. 2. future wafers allocated to this product may have typical values anywhere between the minimum and maximum specifcation limits. gain (db) figure 2. gain distribution. ? lsl = 20.0 db, usl = 23.5 db. 19 23 20 21 22 24 200 160 120 80 40 0 cpk = 1.20 std. dev. = 0.46 psat (dbm) figure 3. psat distribution. ? lsl = 18.5 dbm, usl = 20.6 18 19.5 18.5 19 20 20.5 21 cpk = 1.2 std. dev. = 0.2 20 0 160 120 80 40 0 idsat (ma) figure 4. idsat distribution. ? lsl = 58.0 dbm, usl = 78.0 dbm. 58 7 0 62 66 7 4 7 8 160 120 80 40 0 cpk = 1.12 std. dev. = 2.7 isolation (db) figure 5. isolation distribution. ? lsl = 42.0 db, usl = 56.0 db. 42 51 45 48 54 57 240 ? 20 0 ? 160 ? 120 ? 80 ? 40 ? 0 cpk = 1.0 3 std. dev. = 2.0 4 MGA-565P8 typical performance curves (at 25c, 2 ghz, r bias = 0, unless specifed otherwise) figure 6. p out vs. p in , v d = 3v. p in (dbm) p out (dbm) 18 16 14 12 10 8 -10 -8 -6 -4 -2 0 2 4 25 c 85 c -40 c figure 7. p out vs. p in , v d = 5v. p in (dbm) p out (dbm) 21 ? 19 ? 17 ? 15 ? 13 ? 11 -10 -8 -6 -4 -2 0 2 4 25 c 85 c -40 c figure 8. isolation vs p in , v d = 3v. rf input (dbm) isolation (db) 46 45 44 43 42 41 40 -10 -8 -6 -4 -2 0 2 4 6 figure 9. isolation vs. p in , v d = 5v. rf input (dbm) isolation (db) 46 45 44 43 42 41 40 -10 -8 -6 -4 -2 0 2 4 6 5 MGA-565P8 typical performance curves (r bias = 0, temperature variation) figure 10. p sat vs. frequency. ? (p in = 0 dbm, v d = 3v) frequency (mhz) p sat (dbm) 20 ? 19 ? 18 ? 17 ? 16 ? 15 ? 14 ? 13 ? 12 ? 11 10 3500 2000 800 25 c, 3v 85 c, 3v -45 c, 3v figure 12. i dsat vs. frequency. ? (p in = 0 dbm, v d = 3v) frequency (mhz) i dsat (ma) 55 ? 50 ? 45 ? 40 ? 35 ? 30 ? 25 ? 20 ? 15 ? 10 3500 2000 800 25 c, 3v 85 c, 3v -45 c, 3v figure 11. p sat vs. frequency. ? (p in = 0 dbm, v d = 5v) frequency (mhz) p sat (dbm) 24 ? 22 ? 20 ? 18 ? 16 ? 14 ? 12 ? 10 3500 2000 800 25 c, 5v 85 c, 5v -45 c, 5v figure 13. i dsat vs. frequency. ? (p in = 0 dbm, v d = 5v) frequency (mhz) i dsat (ma) 90 ? 80 ? 70 ? 60 ? 50 ? 40 ? 30 ? 20 ? 10 3500 2000 800 25 c, 5v 85 c, 5v -45 c, 5v figure 14. gain vs. frequency. ? (p in = -10 dbm, v d = 3v) frequency (mhz) gain (db) 28 ? 26 ? 24 ? 22 ? 20 ? 18 ? 16 ? 14 ? 12 ? 10 3500 2000 800 25 c, 3v 85 c, 3v -45 c, 3v figure 15. gain vs frequency. ? (p in = -10 dbm, v d = 5v) frequency (mhz) gain (db) 30 ? 28 ? 26 ? 24 ? 22 ? 20 ? 18 ? 16 ? 14 ? 12 ? 10 3500 2000 800 25 c, 5v 85 c, 5v -45 c, 5v 6 MGA-565P8 typical performance curves (r bias = 0, temperature variation), continued figure 16. isolation vs. frequency. ? (p in = -10 dbm, v d = 3v) frequency (mhz) isolation (db) 50 ? 48 ? 46 ? 44 ? 42 ? 40 ? 3 8 ? 3 6 3500 2000 800 25 c, 3 v 85 c, 3 v -45 c, 3 v figure 17. isolation vs. frequency. ? (p in = -10 dbm, v d = 5v) frequency (mhz) isolation (db) 50 ? 48 ? 46 ? 44 ? 42 ? 40 ? 3 8 3500 2000 800 25 c, 5v 85 c, 5v -45 c, 5v figure 18. second harmonics vs. frequency. (p in = 0 dbm, v d = 3v) frequency (mhz) 2nd harmonics (dbc) 3 0 ? 25 ? 20 ? 15 ? 10 ? 5 ? 0 3500 2000 800 25 c, 3 v 85 c, 3 v -45 c, 3 v figure 19. second harmonics vs. frequency. ? (p in = 0 dbm, v d = 5v) frequency (mhz) 2nd harmonics (dbc) 3 5 ? 3 0 ? 25 ? 20 ? 15 ? 10 ? 5 ? 0 3500 2000 800 25 c, 5v 85 c, 5v -45 c, 5v figure 20. i ds vs. frequency. ? (p in = -10 dbm, v d = 3v) frequency (mhz) i ds (ma) 45 ? 40 ? 3 5 ? 3 0 ? 25 ? 20 ? 15 ? 10 3500 2000 800 25 c, 3 v 85 c, 3 v -45 c, 3 v figure 21. i ds vs. frequency. ? (p in = -10 dbm, v d = 5v) frequency (mhz) i ds (ma) 70 ? 60 ? 50 ? 40 ? 3 0 ? 20 ? 10 3500 2000 800 25 c, 5v 85 c, 5v -45 c, 5v 7 MGA-565P8 typical performance curves (at 25c, 2 ghz, unless specifed otherwise) f i g u r e 2 2 . p s a t v s . r b i a s , p i n = 0 d b m f o r v d = 3 v a n d 5 v . r b i a s ( o h m ) p s a t ( d b m ) 2 5 2 0 1 5 1 0 5 0 3 0 6 0 9 0 1 5 0 0 1 2 0 3 v 5 v f i g u r e 2 3 . i d s a t v s . r b i a s , p i n = 0 d b m f o r v d = 3 v a n d 5 v . r b i a s ( o h m ) i d s a t ( m a ) 7 0 6 0 5 0 4 0 3 0 2 0 1 0 0 3 0 6 0 9 0 1 5 0 0 1 2 0 3 v 5 v f i g u r e 2 4 . g a i n v s . r b i a s , p i n = - 1 0 d b m f o r v d = 3 v a n d 5 v . r b i a s ( o h m ) g a i n ( d b ) 2 5 2 0 1 5 1 0 5 0 3 0 6 0 9 0 1 5 0 0 1 2 0 3 v 5 v f i g u r e 2 6 . i d s v s . r b i a s , p i n = - 1 0 d b m f o r v d = 3 v a n d 5 v . r b i a s ( o h m ) i d s ( m a ) 4 5 4 0 3 5 3 0 2 5 2 0 1 5 1 0 5 0 3 0 6 0 9 0 1 5 0 0 1 2 0 3 0 6 0 9 0 1 2 0 3 v 5 v 3 v 5 v 4 6 4 4 4 2 4 0 3 8 3 6 3 4 3 2 3 0 0 1 5 0 f i g u r e 2 5 . i s o l a t i o n v s . r b i a s , p i n = - 1 0 d b m f o r v d = 3 v a n d 5 v . r b i a s ( o h m ) i s o l a t i o n ( d b ) 8 MGA-565P8 typical scattering parameters (at 25c, v d = 5v, i d = 35 ma, r bias = 0) freq. s 11 s 21 s 12 s 22 k ghz mag. ang. db mag. ang. db mag. ang. mag. ang. 0.1 0.48 -82.9 33.7 48.51 20.3 -66.0 0.001 96.5 0.46 -27.5 12.7 0.2 0.19 -136.9 33.9 49.83 -21.5 -60.1 0.001 86.2 0.43 -34.8 8.1 0.3 0.08 127.4 33.5 47.25 -48.8 -56.0 0.002 61.1 0.40 -49.9 5.6 0.4 0.14 54.5 32.3 41.22 -70.5 -53.1 0.002 39.3 0.38 -61.2 4.6 0.5 0.20 23.2 32.2 40.90 -90.8 -52.6 0.002 26.6 0.36 -77.0 4.3 0.6 0.25 0.2 31.5 37.47 -109.9 -51.6 0.003 13.3 0.34 -89.5 4.1 0.7 0.29 -18.7 30.8 34.58 -127.1 -50.6 0.003 1.3 0.33 -101.8 4.0 0.8 0.33 -36.0 30.1 32.04 -143.8 -49.5 0.003 -9.5 0.32 -114.5 3.7 0.9 0.36 -54.3 29.3 29.32 -161.1 -48.0 0.004 -25.4 0.31 -129.7 3.3 1.0 0.36 -71.0 28.4 26.32 -176.0 -48.1 0.004 -44.9 0.27 -141.3 3.9 1.1 0.36 -85.0 27.7 24.18 170.1 -48.6 0.004 -56.7 0.25 -149.8 4.5 1.2 0.37 -98.1 27.1 22.60 156.4 -48.7 0.004 -66.7 0.24 -159.4 4.9 1.3 0.37 -111.5 26.4 21.01 142.3 -48.7 0.004 -75.9 0.24 -169.0 5.2 1.4 0.37 -124.1 25.8 19.56 129.1 -48.7 0.004 -85.4 0.23 -178.8 5.6 1.5 0.38 -135.9 25.3 18.36 116.2 -48.6 0.004 -94.0 0.22 171.5 6.0 1.6 0.38 -148.7 24.8 17.36 102.6 -48.5 0.004 -102.9 0.22 161.7 6.2 1.7 0.38 -160.8 24.2 16.26 89.5 -48.5 0.004 -111.9 0.21 151.9 6.6 1.8 0.38 -172.4 23.7 15.28 76.8 -48.4 0.004 -120.6 0.21 142.2 7.0 1.9 0.38 176.3 23.2 14.43 64.4 -48.3 0.004 -129.1 0.20 132.2 7.4 2.0 0.38 165.0 22.8 13.73 51.9 -48.3 0.004 -137.0 0.20 122.5 7.7 2.1 0.37 153.7 22.3 12.99 39.3 -48.1 0.004 -143.4 0.19 113.1 8.1 2.2 0.37 143.3 21.8 12.33 27.3 -46.8 0.005 -151.2 0.19 105.0 7.4 2.3 0.37 131.1 21.5 11.86 15.1 -47.0 0.004 -168.4 0.19 93.0 7.8 2.4 0.37 119.5 21.1 11.31 2.6 -47.5 0.004 -177.2 0.19 82.3 8.7 2.5 0.36 108.2 20.7 10.80 -9.6 -47.5 0.004 174.1 0.18 71.7 9.2 2.6 0.36 96.8 20.3 10.33 -21.5 -47.4 0.004 165.1 0.18 61.5 9.5 2.7 0.35 85.6 19.9 9.91 -33.7 -47.4 0.004 155.8 0.18 51.0 10.0 2.8 0.34 74.0 19.6 9.50 -45.9 -47.3 0.004 144.5 0.17 40.0 10.4 2.9 0.34 62.5 19.2 9.13 -58.1 -47.5 0.004 131.2 0.17 28.7 11.1 3.0 0.32 51.1 18.8 8.70 -70.3 -49.6 0.003 112.5 0.16 16.0 15.2 3.1 0.32 43.0 18.4 8.33 -81.6 -50.7 0.003 131.5 0.16 8.4 18.0 3.2 0.32 31.4 18.1 8.08 -93.5 -49.1 0.004 123.9 0.16 -0.7 15.4 3.3 0.31 19.7 17.8 7.78 -105.6 -48.8 0.004 113.8 0.16 -11.8 15.5 3.4 0.30 8.1 17.5 7.49 -117.6 -48.9 0.004 105.4 0.16 -21.8 16.4 3.5 0.30 -3.7 17.2 7.22 -129.7 -48.8 0.004 97.3 0.16 -31.9 16.8 3.6 0.29 -16.1 16.8 6.93 -142.1 -49.3 0.003 87.8 0.17 -42.7 18.8 3.7 0.27 -29.6 16.4 6.61 -153.3 -49.7 0.003 93.0 0.16 -68.1 20.8 3.8 0.25 -43.8 16.1 6.37 -165.9 -49.3 0.003 87.1 0.14 -70.2 21.0 3.9 0.22 -59.0 15.5 5.96 -178.3 -48.7 0.004 90.2 0.13 -77.6 21.5 4.0 0.14 -64.5 14.7 5.44 171.9 -45.6 0.005 91.4 0.14 -84.1 16.9 4.1 0.16 -41.6 14.6 5.37 165.1 -43.9 0.006 68.4 0.15 -95.7 13.8 4.2 0.22 -56.0 14.8 5.50 153.7 -43.7 0.007 42.7 0.15 -111.2 12.9 4.3 0.23 -73.2 14.7 5.42 141.0 -44.0 0.006 19.5 0.15 -124.9 13.6 4.4 0.22 -87.9 14.4 5.26 128.9 -44.3 0.006 7.6 0.15 -137.1 14.5 4.5 0.21 -99.6 14.1 5.06 117.2 -45.1 0.006 -21.7 0.14 -153.5 16.5 4.6 0.20 -110.4 13.7 4.86 106.0 -47.2 0.004 -55.1 0.13 -168.4 22.2 4.7 0.19 -111.2 13.6 4.77 96.6 -48.8 0.004 -176.2 0.09 -170.7 27.6 4.8 0.23 -127.2 13.6 4.76 83.4 -44.0 0.006 32.8 0.12 -175.4 15.6 4.9 0.22 -140.4 13.2 4.59 72.3 -47.0 0.004 5.6 0.11 170.3 22.9 5.0 0.21 -153.3 13.0 4.48 60.8 -46.4 0.005 -11.0 0.11 160.7 22.1 5.1 0.21 -165.3 12.8 4.37 49.3 -46.9 0.005 -22.0 0.11 152.2 24.0 5.2 0.20 -177.2 12.6 4.25 37.7 -47.5 0.004 -28.1 0.11 142.3 26.3 5.3 0.20 170.5 12.3 4.14 26.2 -47.8 0.004 -30.1 0.11 132.3 28.3 5.4 0.19 158.7 12.1 4.02 14.7 -47.4 0.004 -25.1 0.12 124.4 27.7 5.5 0.19 146.7 11.8 3.90 3.4 -44.5 0.006 -27.6 0.13 113.5 20.3 5.6 0.18 135.4 11.6 3.79 -8.0 -42.6 0.007 -47.1 0.13 100.8 16.8 5.7 0.18 123.7 11.3 3.68 -19.4 -42.5 0.008 -66.0 0.14 88.9 17.1 5.8 0.18 111.4 11.0 3.56 -30.5 -43.2 0.007 -80.4 0.14 77.2 19.3 5.9 0.18 100.4 10.8 3.45 -41.7 -44.2 0.006 -85.9 0.14 70.6 22.1 6.0 0.18 88.9 10.4 3.32 -52.7 -44.1 0.006 -88.2 0.16 62.3 22.6 9 MGA-565P8 typical scattering parameters (at 25c, v d = 3v, i d = 20 ma, r bias = 0) freq. s 11 s 21 s 12 s 22 k ghz mag. ang. db mag. ang. db mag. ang. mag. ang. 0.1 0.53 -75.3 30.8 34.87 27.3 -62.9 0.001 105.7 0.48 -27.5 11.2 0.2 0.17 -116.2 31.1 35.82 -21.4 -55.2 0.002 89.1 0.45 -34.4 6.3 0.3 0.00 162.6 30.6 34.07 -47.6 -52.3 0.002 61.2 0.43 -53.8 5.0 0.4 0.12 26.9 29.4 29.48 -71.1 -50.5 0.003 36.9 0.40 -72.6 4.7 0.5 0.18 3.8 29.4 29.43 -89.6 -48.9 0.004 25.1 0.38 -83.5 3.9 0.6 0.24 -13.8 28.6 26.95 -108.7 -47.9 0.004 10.7 0.36 -97.1 3.8 0.7 0.28 -30.1 27.9 24.85 -126.0 -47.0 0.004 -3.0 0.34 -111.3 3.7 0.8 0.31 -45.9 27.2 22.90 -142.7 -46.2 0.005 -16.6 0.32 -125.3 3.6 0.9 0.33 -61.5 26.4 20.95 -159.2 -45.7 0.005 -30.3 0.30 -138.5 3.7 1.0 0.34 -75.5 25.6 19.15 -174.2 -45.4 0.005 -43.6 0.27 -150.8 4.0 1.1 0.35 -89.0 24.9 17.63 171.4 -45.3 0.005 -55.7 0.25 -162.2 4.3 1.2 0.36 -101.9 24.3 16.46 157.5 -45.2 0.005 -67.1 0.24 -173.9 4.5 1.3 0.37 -114.8 23.7 15.30 143.4 -45.2 0.005 -77.7 0.22 175.0 4.9 1.4 0.37 -127.0 23.1 14.25 130.1 -45.2 0.006 -88.0 0.21 164.8 5.2 1.5 0.37 -138.4 22.5 13.38 117.2 -45.1 0.006 -97.1 0.19 155.1 5.6 1.6 0.38 -150.8 22.1 12.67 103.7 -45.0 0.006 -106.8 0.19 144.7 5.8 1.7 0.37 -162.4 21.5 11.89 90.4 -45.0 0.006 -116.1 0.18 134.0 6.2 1.8 0.37 -173.8 21.0 11.20 77.8 -44.9 0.006 -125.0 0.16 124.2 6.6 1.9 0.37 175.2 20.5 10.59 65.3 -44.9 0.006 -134.0 0.16 114.5 6.9 2.0 0.37 164.3 20.1 10.09 52.7 -44.8 0.006 -142.2 0.15 104.7 7.2 2.1 0.37 153.2 19.6 9.57 40.0 -44.7 0.006 -150.0 0.14 94.9 7.6 2.2 0.37 142.9 19.1 9.05 27.9 -43.8 0.006 -157.7 0.14 87.3 7.3 2.3 0.37 131.2 18.8 8.75 15.6 -43.8 0.006 -172.5 0.13 76.1 7.5 2.4 0.36 119.9 18.4 8.35 3.1 -44.1 0.006 178.3 0.12 64.7 8.2 2.5 0.35 108.8 18.1 7.99 -9.2 -44.2 0.006 169.9 0.12 53.6 8.7 2.6 0.35 97.8 17.7 7.65 -21.2 -44.1 0.006 161.0 0.11 43.9 9.0 2.7 0.35 86.8 17.3 7.34 -33.5 -44.0 0.006 151.0 0.11 34.0 9.3 2.8 0.34 75.7 17.0 7.04 -45.8 -43.8 0.006 140.5 0.10 23.2 9.7 2.9 0.33 64.4 16.6 6.76 -58.0 -43.9 0.006 128.6 0.10 12.0 10.2 3.0 0.32 53.6 16.2 6.45 -70.2 -45.1 0.006 115.1 0.10 -0.7 12.5 3.1 0.32 44.9 15.9 6.20 -81.7 -45.5 0.005 119.6 0.09 -8.0 13.5 3.2 0.32 33.7 15.6 6.00 -93.8 -44.6 0.006 111.0 0.09 -15.5 12.6 3.3 0.31 22.3 15.2 5.78 -106.0 -44.4 0.006 101.1 0.09 -26.4 12.9 3.4 0.31 11.3 14.9 5.56 -118.0 -44.5 0.006 91.5 0.08 -34.8 13.5 3.5 0.30 -0.1 14.6 5.35 -130.0 -44.5 0.006 82.2 0.09 -43.1 14.2 3.6 0.29 -11.9 14.2 5.15 -142.1 -45.1 0.006 72.4 0.10 -54.3 15.8 3.7 0.28 -24.4 14.0 5.00 -154.1 -45.1 0.006 76.0 0.10 -92.6 16.4 3.8 0.27 -37.4 13.6 4.79 -166.8 -44.5 0.006 63.6 0.06 -97.0 16.1 3.9 0.25 -51.6 13.1 4.53 -179.4 -44.9 0.006 56.0 0.05 -99.7 18.2 4.0 0.20 -66.7 12.5 4.21 168.6 -45.2 0.006 58.1 0.05 -100.9 20.6 4.1 0.13 -63.3 11.7 3.85 159.7 -43.6 0.007 61.7 0.06 -101.1 19.3 4.2 0.18 -48.6 11.8 3.87 152.0 -43.5 0.007 39.9 0.06 -115.6 18.7 4.3 0.21 -64.6 11.8 3.89 140.0 -43.2 0.007 13.8 0.06 -132.4 17.7 4.4 0.22 -80.1 11.6 3.80 127.7 -43.6 0.007 2.6 0.06 -143.7 18.9 4.5 0.21 -91.4 11.3 3.66 116.0 -44.3 0.006 -23.8 0.06 -165.6 21.2 4.6 0.21 -102.3 10.9 3.52 104.7 -44.2 0.006 -50.6 0.05 172.5 22.0 4.7 0.20 -105.6 10.7 3.42 95.0 -44.9 0.006 -115.3 0.02 156.2 24.6 4.8 0.24 -120.3 10.6 3.41 82.1 -44.4 0.006 4.5 0.04 -175.3 23.0 4.9 0.23 -133.3 10.3 3.28 71.1 -44.6 0.006 -34.5 0.03 166.0 24.5 5.0 0.22 -146.0 10.1 3.20 59.8 -43.8 0.006 -47.7 0.03 164.1 23.1 5.1 0.22 -158.0 9.8 3.10 48.4 -44.1 0.006 -61.1 0.03 166.9 24.6 5.2 0.22 -170.0 9.6 3.01 37.0 -44.8 0.006 -72.7 0.03 162.5 27.4 5.3 0.21 177.7 9.3 2.92 25.6 -45.9 0.005 -82.5 0.04 157.3 32.4 5.4 0.21 165.5 9.0 2.82 14.3 -48.1 0.004 -84.1 0.04 153.6 43.1 5.5 0.20 152.8 8.7 2.73 3.4 -48.1 0.004 -64.4 0.06 139.9 44.3 5.6 0.20 142.6 8.5 2.66 -7.4 -44.2 0.006 -70.4 0.06 125.5 29.2 5.7 0.20 131.3 8.2 2.58 -18.6 -43.0 0.007 -90.9 0.07 111.2 26.2 5.8 0.20 118.6 8.0 2.50 -29.4 -43.7 0.007 -109.0 0.08 97.5 29.4 5.9 0.19 106.8 7.7 2.43 -40.0 -45.6 0.005 -115.0 0.09 89.2 37.4 6.0 0.19 94.9 7.5 2.36 -50.3 -46.4 0.005 -106.5 0.12 73.1 42.2 10 2 x 2 lpcc (jedec dfp-n) package dimensions ordering information part number no. of devices container MGA-565P8-tr1 3000 7 reel MGA-565P8-tr2 10000 13reel MGA-565P8-blk 100 antistatic bag device models refer to the avago technologies web site d e 8 7 6 5 a d 1 e 1 p e p i n 1 r l b d i m e n s i o n s a r e i n m i l l i m e t e r s d i m e n s i o n s m i n . 0 . 7 0 0 0 . 2 2 5 1 . 9 0 . 9 5 1 . 9 1 . 5 5 0 . 2 5 0 . 2 n o m . 0 . 7 5 0 . 0 2 0 . 2 0 3 r e f 0 . 2 5 2 . 0 1 . 0 0 2 . 0 1 . 6 0 0 . 3 0 0 . 5 0 b s c 0 . 2 5 0 . 4 r e f m a x . 0 . 8 0 0 . 0 5 0 . 2 7 5 2 . 1 1 . 0 5 2 . 1 1 . 6 5 0 . 3 5 0 . 3 s y m b o l a a 1 a 2 b d d 1 e e 1 l e p l 1 p i n 1 2 3 4 1 b x t o p v i e w e n d v i e w s i d e v i e w b o t t o m v i e w a 2 a a 1 11 device orientation pcb land patterns and stencil design p c b l a n d p a t t e r n s t e n c i l o u t l i n e d r a w i n g c o m b i n e d p c b a n d s t e n c i l l a y o u t s 2 . 8 0 0 0 . 9 0 0 0 . 2 5 0 0 . 5 0 0 0 . 7 0 0 0 . 6 0 0 0 . 2 5 0 1 . 6 0 0 0 . 2 8 0 p i n 1 2 . 7 2 0 0 . 8 3 0 0 . 2 2 0 0 . 3 2 0 1 . 5 4 0 0 . 5 0 0 0 . 2 5 0 0 . 6 3 0 0 . 6 2 5 p i n 1 0 . 5 0 0 2 . 8 0 0 2 . 7 2 0 0 . 9 0 0 0 . 8 3 0 0 . 2 5 0 0 . 2 2 0 1 . 6 0 0 1 . 5 4 0 0 . 7 0 0 0 . 6 2 5 u s e r f e e d d i r e c t i o n c o v e r t a p e c a r r i e r t a p e r e e l 8 m m 4 m m 1 b x 1 b x 1 b x 1 b x for product information and a complete list of distributors, please go to our web site: www.avagotech.com avago, avago technologies, and the a logo are trademarks of avago technologies in the united states and other countries. data subject to change. copyright ? 2005-2009 avago technologies. all rights reserved. obsoletes 5989-1805en av02-0039en - april 14, 2009 tape dimensions p 0 p f w d 1 e p 2 a 0 10 max t 1 k 0 d + + t t 10 max b 0 description symbol size (mm) size (inches) length width depth pitch bottom hole diameter a 0 b 0 k 0 p d 1 2.30 0.05 2.30 0.05 1.00 0.05 4.00 0.10 1.00 + 0.25 0.091 0.004 0.091 0.004 0.039 0.002 0.157 0.004 0.039 + 0.002 cavity diameter pitch position d p 0 e 1.50 0.10 4.00 0.10 1.75 0.10 0.060 0.004 0.157 0.004 0.069 0.004 perforation width thickness w t 1 8.00 + 0.30 0.254 0.02 0.315 0.012 8.00 C 0.10 0.315 0.004 0.010 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 5.4 0.10 0.062 0.001 0.205 0.004 0.0025 0.0004 cover tape |
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