106 6 microwave mlc?s aq series aq avx style aq11, aq12, aq13, aq14 11 case size (see chart) e voltage code 5 = 50v 1 = 100v e = 150v 2 = 200v 9 = 300v 7 = 500v m 100 j a failure rate code a = not applicable 1 termination style code me packaging* code how to order temperature coefficient code m = +9020ppm/c (aq11/12/13/14) a = 030ppm/c (aq11/12/13/14) c = 15% (?j? termination only) (aq12/14) 1 = pd/ag (aq11/13 only) 7 = ag/ni/au (aq11/13 only) j = nickel barrier sn/pb (60/40) - (aq12/14 only) t = 100% tin (aq12/14 only) capacitance tolerance code b = .1 pf c = .25 pf d = .5 pf f = 1% g = 2% j = 5% k = 10% m = 20% n = 30% capacitance eia capacitance code in pf. first two digits = significant figures or ?r? for decimal place. third digit = number of zeros or after ?r? significant figures. 3a = 13" reel me = 7" reel re = 13" reel we = waffle pack these porcelain and ceramic dielectric multilayer capacitor (mlc) chips are best suited for rf/ microwave applications typically ranging from 10 mhz to 4.2 ghz. characteristic is a fine grained, high density, high purity dielectric material imper- vious to moisture with heavy internal palladium electrodes. these characteristics lend well to applications requiring: 1) high current carrying capabilities; 2) high quality factors; 3) very low equivalent series resistance; 4) very high series resonance; 5) excellent stability under stresses of changing volt- age, frequency, time and temperature. case length (l) width (w) thickness (t) band width (bw) aq11 .055.015 .055.015 .020/.057 .010 + .010 -.005 (1.40.381) (1.40.381) (.508/1.45) (.254 +.254 -.127) aq12 .055 + .015 - .010 .055.015 .020/.057 .010 + .010 -.005 (1.40+ .381 - .254) (1.40.381) (.508/1.45) (.254 +.254 -.127) aq13 .110.020 .110.020 .030/.102 .015.010 (2.79.508) (2.79.508) (.762/2.59) (.381.254) aq14 .110 + .020 - .010 .110.010 .030/.102 .015.010 (2.79 +.889 -.254) (2.79.508) (.762/2.59) (.381.254) mechanical dimensions: inches (millimeters) l w t a 101j bw packaging standard packaging = waffle pack (maximum quantity is 80) tape & reel: all tape and reel specifications are in compliance with eia rs481 (equivalent to iec 286 part 3). sizes sqca through sqcb, cdr11/12 through 13/14. ?8mm carrier ?7" reel: 0.040" thickness = 2000 pcs 0.075" thickness = 2000 pcs ?13" reel: 0.075" thickness = 10,000 pcs
107 6 microwave mlc?s aq series electrical specifications aq11, aq12, aq13, aq14 m & a c temperature coefficient (tcc) (m) +90 20 ppm/oc ( -55oc to +125oc) 15% (-55oc to 125oc) (m) +90 30 ppm/oc ( +125oc to +175oc) (a) 0 30 ppm/oc capacitance range (m) 0.1 pf to 1000 pf 0.001f to 0.1f (a) 0.1 pf to 5100 pf operating temperature 0.1 pf to 330 pf: from -55oc to +175oc -55c to +125c 360 pf to 5100 pf: from -55oc to +125oc quality factor (q) m dielectric a & b case greater than 10,000 at 1 mhz 2.5% @ 1khz a dielectric b case greater than 10,000 at 1 mhz 0.1 - 200 pf greater than 2,000 at 1 mhz 220 - 1000 pf greater than 2,000 at 1 khz 1100 - 5100 pf a dielectric a case greater than 10,000 at 1 mhz 0.1 - 100 pf greater than 2,000 at 1 mhz 110 - 1000 pf insulation resistance (ir) 0.1 pf to 470 pf 10 4 megohms min. @ 25oc at rated wvdc 10 6 megohms min. @ 25oc at rated wvdc 10 3 megohms min. @ 125oc at rated wvdc 10 5 megohms min. @ 125oc at rated wvdc 510 pf to 5100 pf 10 5 megohms min. @ 25oc at rated wvdc 10 4 megohms min. @ 125oc at rated wvdc working voltage (wvdc) see capacitance values table see capacitance values table dielectric withstanding voltage (dwv) 250% of rated wvdc for 5 secs 250% of rated wvdc for 5 secs (for 500v rated 150% of rated voltage) aging effects none <3% per decade hour piezoelectric effects none none capacitance drift (0.02% or 0.02 pf), whichever is greater not applicable themal shock mil-std-202, method 107, condition a moisture resistance mil-std-202, method 106 low voltage humidity mil-std-202, method 103, condition a, with 1.5 vdc applied while subjected to an environment of 85oc with 85% relative humidity for 240 hours life test mil-std-202, method 108, for 2000 hours at 125oc shock mil-std-202, method 213, condition j vibration mil-std-202, method 204, condition b immersion mil-std-202, method 104, condition b salt spray mil-std-202, method 101, condition b solderability mil-std-202, method 208 terminal strength mil-std-202, method 211 temperature cycling mil-std-202, method 102, condition c barometric pressure mil-std-202, method 105, condition b resistance to solder heat mil-std-202, method 210, condition c environmental characteristics avx sqlb will meet and exceed the requirements of eia-198, mil-prf-55681 and mil-prf-123
108 6 microwave mlc?s aq series available capacitance/size/wvdc/t.c. case length width thickness band width avail. term. 11 .055.015 (1.40.381) .055.015 (1.40.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) 1 & 7 12 .055.025 (1.40.635) .055.015 (1.40.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) j 13 .110.020 (2.79.508) .110.020 (2.79.508) .030/.102 (.762/2.59) .015.010 (.381.254) 1 & 7 14 .110 +0.035 -0.020 (2.79 +.889 -.508) .110.020 (2.79.508) .030/.102 (.762/2.59) .015.010 (.381.254) j table i: tc: m (+9020ppm/c) case size 11, 12, 13 & 14 dimensions: inches (millimeters) cap. pf cap. tol. wvdc 0.1 b 150 0.2 b 150 0.3 b,c 150 0.4 b,c 150 0.5 b, c, d 150 0.6 b, c, d 150 0.7 b, c, d 150 0.8 b, c, d 150 0.9 b, c, d 150 1.0 b, c, d 150 1.1 b, c, d 150 1.2 b, c, d 150 1.3 b, c, d 150 1.4 b, c, d 150 1.5 b, c, d 150 1.6 b, c, d 150 1.7 b, c, d 150 1.8 b, c, d 150 1.9 b, c, d 150 2.0 b, c, d 150 2.2 b, c, d 150 2.4 b, c, d 150 2.7 b, c, d 150 3.0 b, c, d 150 3.3 b, c, d 150 3.6 b, c, d 150 3.9 b, c, d 150 4.3 b, c, d 150 4.7 b, c, d 150 5.1 b, c, d 150 5.6 b, c, d 150 6.2 b, c, d 150 6.8 b, c, j, k, m 150 7.5 b, c, j, k, m 150 8.2 b, c, j, k, m 150 9.1 b, c, j, k, m 150 10 f, g, j, k, m 150 11 f, g, j, k, m 150 12 f, g, j, k, m 150 13 f, g, j, k, m 150 15 f, g, j, k, m 150 16 f, g, j, k, m 150 18 f, g, j, k, m 150 20 f, g, j, k, m 150 22 f, g, j, k, m 150 24 f, g, j, k, m 150 27 f, g, j, k, m 150 30 f, g, j, k, m 150 33 f, g, j, k, m 150 36 f, g, j, k, m 150 39 f, g, j, k, m 150 43 f, g, j, k, m 150 47 f, g, j, k, m 150 51 f, g, j, k, m 150 56 f, g, j, k, m 150 62 f, g, j, k, m 150 68 f, g, j, k, m 150 75 f, g, j, k, m 150 82 f, g, j, k, m 150 91 f, g, j, k, m 150 100 f, g, j, k, m 150 case: aq11, aq12 case: aq13, aq14 cap. pf cap. tol. wvdc 0.1 b 500 0.2 b 500 0.3 b,c 500 0.4 b,c 500 0.5 b, c, d 500 0.6 b, c, d 500 0.7 b, c, d 500 0.8 b, c, d 500 0.9 b, c, d 500 1.0 b, c, d 500 1.1 b, c, d 500 1.2 b, c, d 500 1.3 b, c, d 500 1.4 b, c, d 500 1.5 b, c, d 500 1.6 b, c, d 500 1.7 b, c, d 500 1.8 b, c, d 500 1.9 b, c, d 500 2.0 b, c, d 500 2.2 b, c, d 500 2.4 b, c, d 500 2.7 b, c, d 500 3.0 b, c, d 500 3.3 b, c, d 500 3.6 b, c, d 500 3.9 b, c, d 500 4.3 b, c, d 500 4.7 b, c, d 500 5.1 b, c, d 500 5.6 b, c, d 500 6.2 b, c, d 500 6.8 b, c, j, k, m 500 7.5 b, c, j, k, m 500 8.2 b, c, j, k, m 500 9.1 b, c, j, k, m 500 10 f, g, j, k, m 500 11 f, g, j, k, m 500 12 f, g, j, k, m 500 13 f, g, j, k, m 500 15 f, g, j, k, m 500 16 f, g, j, k, m 500 18 f, g, j, k, m 500 20 f, g, j, k, m 500 22 f, g, j, k, m 500 24 f, g, j, k, m 500 27 f, g, j, k, m 500 30 f, g, j, k, m 500 33 f, g, j, k, m 500 36 f, g, j, k, m 500 39 f, g, j, k, m 500 43 f, g, j, k, m 500 47 f, g, j, k, m 500 51 f, g, j, k, m 500 56 f, g, j, k, m 500 62 f, g, j, k, m 500 68 f, g, j, k, m 500 75 f, g, j, k, m 500 82 f, g, j, k, m 500 91 f, g, j, k, m 500 cap. pf cap. tol. wvdc 100 f, g, j, k, m 500 110 f, g, j, k, m 300 120 f, g, j, k, m 300 130 f, g, j, k, m 300 150 f, g, j, k, m 300 160 f, g, j, k, m 300 180 f, g, j, k, m 300 200 f, g, j, k, m 300 220 f, g, j, k, m 200 240 f, g, j, k, m 200 270 f, g, j, k, m 200 300 f, g, j, k, m 200 330 f, g, j, k, m 200 360 f, g, j, k, m 200 390 f, g, j, k, m 200 430 f, g, j, k, m 200 470 f, g, j, k, m 200 510 f, g, j, k, m 150 560 f, g, j, k, m 150 620 f, g, j, k, m 150 680 f, g, j, k, m 150 750 f, g, j, k, m 150 820 f, g, j, k, m 150 910 f, g, j, k, m 150 1000 f, g, j, k, m 150
109 6 microwave mlc?s aq series available capacitance/size/wvdc/t.c. table ii: tc: a (030ppm/c) case size 11, 12, 13 & 14 dimensions: inches (millimeters) cap. pf cap. tol. wvdc 0.1 b 150 0.2 b 150 0.3 b,c 150 0.4 b,c 150 0.5 b, c, d 150 0.6 b, c, d 150 0.7 b, c, d 150 0.8 b, c, d 150 0.9 b, c, d 150 1.0 b, c, d 150 1.1 b, c, d 150 1.2 b, c, d 150 1.3 b, c, d 150 1.4 b, c, d 150 1.5 b, c, d 150 1.6 b, c, d 150 1.7 b, c, d 150 1.8 b, c, d 150 1.9 b, c, d 150 2.0 b, c, d 150 2.2 b, c, d 150 2.4 b, c, d 150 2.7 b, c, d 150 3.0 b, c, d 150 3.3 b, c, d 150 3.6 b, c, d 150 3.9 b, c, d 150 4.3 b, c, d 150 4.7 b, c, d 150 5.1 b, c, d 150 5.6 b, c, d 150 6.2 b, c, d 150 6.8 b, c, j, k, m 150 7.5 b, c, j, k, m 150 8.2 b, c, j, k, m 150 9.1 b, c, j, k, m 150 10 f, g, j, k, m 150 11 f, g, j, k, m 150 12 f, g, j, k, m 150 13 f, g, j, k, m 150 15 f, g, j, k, m 150 16 f, g, j, k, m 150 18 f, g, j, k, m 150 20 f, g, j, k, m 150 22 f, g, j, k, m 150 case: aq11, aq12 cap. pf cap. tol. wvdc 24 f, g, j, k, m 150 27 f, g, j, k, m 150 30 f, g, j, k, m 150 33 f, g, j, k, m 150 36 f, g, j, k, m 150 39 f, g, j, k, m 150 43 f, g, j, k, m 150 47 f, g, j, k, m 150 51 f, g, j, k, m 150 56 f, g, j, k, m 150 62 f, g, j, k, m 150 68 f, g, j, k, m 150 75 f, g, j, k, m 150 82 f, g, j, k, m 150 91 f, g, j, k, m 150 100 f, g, j, k, m 150 110 f, g, j, k, m 50 120 f, g, j, k, m 50 130 f, g, j, k, m 50 150 f, g, j, k, m 50 160 f, g, j, k, m 50 180 f, g, j, k, m 50 200 f, g, j, k, m 50 220 f, g, j, k, m 50 240 f, g, j, k, m 50 270 f, g, j, k, m 50 300 f, g, j, k, m 50 330 f, g, j, k, m 50 360 f, g, j, k, m 50 390 f, g, j, k, m 50 430 f, g, j, k, m 50 470 f, g, j, k, m 50 510 f, g, j, k, m 50 560 f, g, j, k, m 50 620 f, g, j, k, m 50 680 f, g, j, k, m 50 750 f, g, j, k, m 50 820 f, g, j, k, m 50 910 f, g, j, k, m 50 1000 f, g, j, k, m 50 case: aq13, aq14 cap. pf cap. tol. wvdc 0.1 b 500 0.2 b 500 0.3 b,c 500 0.4 b,c 500 0.5 b, c, d 500 0.6 b, c, d 500 0.7 b, c, d 500 0.8 b, c, d 500 0.9 b, c, d 500 1.0 b, c, d 500 1.1 b, c, d 500 1.2 b, c, d 500 1.3 b, c, d 500 1.4 b, c, d 500 1.5 b, c, d 500 1.6 b, c, d 500 1.7 b, c, d 500 1.8 b, c, d 500 1.9 b, c, d 500 2.0 b, c, d 500 2.2 b, c, d 500 2.4 b, c, d 500 2.7 b, c, d 500 3.0 b, c, d 500 3.3 b, c, d 500 3.6 b, c, d 500 3.9 b, c, d 500 4.3 b, c, d 500 4.7 b, c, d 500 5.1 b, c, d 500 5.6 b, c, d 500 6.2 b, c, d 500 6.8 b, c, j, k, m 500 7.5 b, c, j, k, m 500 8.2 b, c, j, k, m 500 9.1 b, c, j, k, m 500 10 f, g, j, k, m 500 11 f, g, j, k, m 500 12 f, g, j, k, m 500 13 f, g, j, k, m 500 15 f, g, j, k, m 500 16 f, g, j, k, m 500 18 f, g, j, k, m 500 20 f, g, j, k, m 500 22 f, g, j, k, m 500 24 f, g, j, k, m 500 27 f, g, j, k, m 500 30 f, g, j, k, m 500 33 f, g, j, k, m 500 36 f, g, j, k, m 500 39 f, g, j, k, m 500 43 f, g, j, k, m 500 47 f, g, j, k, m 500 cap. pf cap. tol. wvdc 51 f, g, j, k, m 500 56 f, g, j, k, m 500 62 f, g, j, k, m 500 68 f, g, j, k, m 500 75 f, g, j, k, m 500 82 f, g, j, k, m 500 91 f, g, j, k, m 500 100 f, g, j, k, m 500 110 f, g, j, k, m 300 120 f, g, j, k, m 300 130 f, g, j, k, m 300 150 f, g, j, k, m 300 160 f, g, j, k, m 300 180 f, g, j, k, m 300 200 f, g, j, k, m 300 220 f, g, j, k, m 200 240 f, g, j, k, m 200 270 f, g, j, k, m 200 300 f, g, j, k, m 200 330 f, g, j, k, m 200 360 f, g, j, k, m 200 390 f, g, j, k, m 200 430 f, g, j, k, m 200 470 f, g, j, k, m 200 510 f, g, j, k, m 150 560 f, g, j, k, m 150 620 f, g, j, k, m 150 680 f, g, j, k, m 150 750 f, g, j, k, m 150 820 f, g, j, k, m 150 910 f, g, j, k, m 150 1000 f, g, j, k, m 150 1100 f, g, j, k, m 50 1200 f, g, j, k, m 50 1300 f, g, j, k, m 50 1500 f, g, j, k, m 50 1600 f, g, j, k, m 50 1800 f, g, j, k, m 50 2000 f, g, j, k, m 50 2200 f, g, j, k, m 50 2400 f, g, j, k, m 50 2700 f, g, j, k, m 50 3000 f, g, j, k, m 50 3300 f, g, j, k, m 50 3600 f, g, j, k, m 50 3900 f, g, j, k, m 50 4300 f, g, j, k, m 50 4700 f, g, j, k, m 50 5000 f, g, j, k, m 50 5100 f, g, j, k, m 50 table iii: tc: c (15%) case size 12 & 14 cap. pf cap. tol. wvdc 1000 k, m, n 50 1200 k, m, n 50 1500 k, m, n 50 1800 k, m, n 50 2000 k, m, n 50 cap. pf cap. tol. wvdc 2200 k, m, n 50 2700 k, m, n 50 3300 k, m, n 50 3900 k, m, n 50 4700 k, m, n 50 cap. pf cap. tol. wvdc 5100 k, m, n 50 5600 k, m, n 50 6800 k, m, n 50 8200 k, m, n 50 10000 k, m, n 50 case: aq12 cap. pf cap. tol. wvdc 5000 k, m, n 50 6800 k, m, n 50 8200 k, m, n 50 10000 k, m, n 50 12000 k, m, n 50 case: aq14 cap. pf cap. tol. wvdc 15000 k, m, n 50 18000 k, m, n 50 27000 k, m, n 50 33000 k, m, n 50 39000 k, m, n 50 cap. pf cap. tol. wvdc 47000 k, m, n 50 68000 k, m, n 50 82000 k, m, n 50 100000 k, m, n 50 case length width thickness band width avail. term. 11 .055.015 (1.40.381) .055.015 (1.40.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) 1 & 7 12 .055.025 (1.40.635) .055.015 (1.40.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) j 13 .110.020 (2.79.508) .110.020 (2.79.508) .030/.102 (.762/2.59) .015.010 (.381.254) 1 & 7 14 .110 +0.035 -0.020 (2.79 +.889 -.508) .110.020 (2.79.508) .030/.102 (.762/2.59) .015.010 (.381.254) j
113 6 microwave mlc?s performance curves avx corporation 100 1000 frequency (mhz) 1 picofarad 10 picofarad 100 picofarad 1000 100 10 q 10000 typical q vs. frequency aq11/12 mil-prf-55681e - bg standard - m avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 0.1 0.01 esr (ohms) 1 typical esr vs. capacitance aq11/12 mil-prf-55681e - bg standard - m avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 1000 100 10 q 10000 typical q vs. capacitance aq11/12 mil-prf-55681e - bg standard - m avx corporation 100 1000 frequency (mhz) 100 picofarad 10 picofarad 3.3 picofarad 0.1 0.01 esr (ohms) 1 typical esr vs. frequency aq11/12 mil-prf-55681e - bg standard - m
114 6 microwave mlc?s performance curves avx corporation 100 1000 frequency (mhz) 10 picofarad 1 picofarad 47 picofarad 330 picofarad 1000 100 10 q 10000 typical q vs. frequency aq13/14 mil-prf-55681e - bg standard - m avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 0.1 0.01 esr (ohms) 1 typical esr vs. capacitance aq13/14 mil-prf-55681e - bg standard - m avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 1000 100 10 q 10000 typical q vs. capacitance aq13/14 mil-prf-55681e - bg standard - m avx corporation 100 1000 frequency (mhz) 100 picofarad 15 picofarad 1 picofarad 0.1 0.01 esr (ohms) 1 typical esr vs. frequency aq13/14 mil-prf-55681e - bg standard - m
115 6 microwave mlc?s performance curves avx corporation 100 1000 frequency (mhz) 1 picofarad 15 picofarad 100 picofarad 1000 100 10 q 10000 typical q vs. frequency aq11/12 mil-prf-55681e - bp standard - a avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 0.1 0.01 esr (ohms) 1 typical esr vs. capacitance aq11/12 mil-prf-55681e - bp standard - a avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 1000 100 10 q 10000 typical q vs. capacitance aq11/12 mil-prf-55681e - bp standard - a avx corporation 100 1000 frequency (mhz) 100 picofarad 15 picofarad 1 picofarad 0.1 0.01 esr (ohms) 1 typical esr vs. frequency aq11/12 mil-prf-55681e - bp standard - a
116 6 microwave mlc?s performance curves avx corporation 100 1000 frequency (mhz) 2 picofarad 15 picofarad 100 picofarad 1000 100 10 q 10000 typical q vs. frequency aq13/14 mil-prf-55681e - bp standard - a avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 0.1 0.01 esr (ohms) 1 typical esr vs. capacitance aq13/14 mil-prf-55681e - bp standard - a avx corporation 1 10 100 capacitance (pf) 250 mhz 500 mhz 1000 mhz 1000 100 10 q 10000 typical q vs. capacitance aq13/14 mil-prf-55681e - bp standard - a avx corporation 100 1000 frequency (mhz) 100 picofarad 47 picofarad 15 picofarad 0.1 0.01 esr (ohms) 1 typical esr vs. frequency aq13/14 mil-prf-55681e - bp standard - a
117 6 microwave mlc?s performance curves typical resonant frequency vs. capacitance avx aq11-14 (cdr11-14) parallel resonant frequency series resonant frequency aq11/12 aq11/12 aq13/14 aq13/14 10 1.0 0.1 1.0 10 100 1000 capacitance (pf) frequency (ghz) typical resonant frequency vs. capacitance avx 0603 10 1.0 0.1 1 10 100 1000 capacitance (pf) frequency (ghz) parallel resonant frequency series resonant frequency
118 6 microwave mlc?s automatic insertion packaging tape & reel: all tape and reel specifications are in compliance with eia rs481 (equivalent to iec 286 part 3). sizes sqca through sqcb, cdr11/12 through 13/14. ?8mm carrier ?7" reel: 0.040" thickness = 2000 pcs 0.075" thickness = 2000 pcs ?13" reel: 0.075" thickness = 10,000 pcs reel dimensions : millimeters (inches) ?u? series - 402/0603/0805/1210 size chips ?8mm carrier ?7" reel: 0402 = 10,000 pcs 0603 & 0805 0.40" thickness = 4000 pcs 0805 . 0.040" thickness & 1210 = 2000 pcs ?13" reel: 0.075" thickness = 10,000 pcs tape a b* c d* n w 1 w 2 w 3 size (1) max. min. min. min. max. 7.9 min. + 1.0 8mm 8.4 -0.0 14.4 (.311) +.060 (.331 -0.0 ) (.567) 10.9 max. 330 1.5 13.00.20 20.2 50 (.429) (12.992) (. 059) (.512.008) (.795) (1.969) 11.9 min. +2.0 12mm 12.4 -0.0 18.4 (.469) (.488 +.076 ) (.724) 15.4 max. -0.0 (.607) embossed carrier configuration 8 & 12 mm tape only constant dimensions ta p e d 0 ep 0 p 2 tt 1 g 1 g 2 size max. +0.10 8mm 8.4 -0.0 1.75 0.10 4.0 0.10 2.0 0.05 0.600 0.10 0.75 0.75 +.004 and (.059 -0.0 ) (.069 .004) (.157 .004) (.079 .002) (.024) (.004) (.030) (.030) 12mm max. min. min. see see note 3 note 4 metric dimensions will govern. english measurements rounded and for reference only. (1) for tape sizes 16mm and 24mm (used with chip size 3640) consult eia rs-481 latest revision. variable dimensions tape size b 1 d 1 fp 1 rt 2 wa 0 b 0 k 0 max. min. min. see note 6 see note 5 see note 2 +0.3 8mm 4.55 1.0 3.5 0.05 4.0 0.10 25 2.5 max 8.0 -0.1 see note 1 +.012 (.179) (.039) (.138 .002) (.157 .004) (.984) (.098) (.315 -.004 8.2 1.5 5.5 0.05 4.0 0.10 30 6.5 max 12.0 .30 12mm (.323) (.059) (.217 .002) (.157 .004) (1.181) (.256) (.472 .012) see note 1 notes: 1. a 0, b 0, and k 0 are determined by the max. dimensions to the ends of the terminals extending from the component body and/or the body dimensions of the component. the clearance between the end of the terminals or body of the component to the sides and depth of the cavity (a 0, b 0, and k 0 ) must be within 0.05 mm (.002) min. and 0.50 mm (.020) max. the clearance allowed must also prevent rotation of the component within the cavity of not more than 20 degrees (see sketches c & d). 2. tape with components shall pass around radius ?r? without damage. the minimum trailer length (note 2 fig. 3) may require additional length to provide r min. for 12mm embossed tape for reels with hub diameters approaching n min. (table 4). 3. g 1 dimension is the flat area from the edge of the sprocket hole to either the outward deformation of the carrier tape between the embossed cavities or to the edge of the cavity whichever is less. 4. g 2 dimension is the flat area from the edge of the carrier tape opposite the sprocket holes to either the outward deformation of the carrier tape between the embossed cavity or to the edge of the cavity whichever is less. 5. the embossment hole location shall be measured from the sprocket hole controlling the location of the embossment. dimensions of embossment location and hole location shall be applied independent of each other. 6. b 1 dimension is a reference dimension for tape feeder clearance only. )
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