135 6 hi-q ? high rf power mlc surface mount capacitors for 600v to 7200v applications product offering hi-q ? , high rf power, surface mount mlc capacitors from avx corporation are characterized with ultra-low esr and dissipation factor at high frequencies. they are designed to handle high power and high voltage levels for applications in rf power amplifiers, inductive heating, high magnetic field environments (mri coils), medical and industrial electronics. how to order style hqcc hqce (l) length 5.84 +0.51 -0.25 9.65 +0.38 -0.25 (0.230 +0.020 -0.010) (0.380 +0.015 -0.010) (w) width 6.35 0.38 9.65 0.25 (0.250 0.015) (0.380 0.010) (t) thickness 3.68 (0.145) max. for max. capacitance values 680pf 4.32 (0.170) max. 4.19 (0.165) max. for capacitance values > 680pf (y) overlap 1.20 (0.040) max. 1.02 (0.040) max. dimensions millimeters (inches) l w t t hqcc avx style hqcc hqce hqlc hqle a voltage 300v = 9 500v = 7 1000v = a 1500v = s 2500v = w 3600v = j 5000v = k 7200v = m a temperature coefficient c0g = a p90 = m 271 capacitance code (2 significant digits + no. of zeros) examples: 4.7 pf = 4r7 10 pf = 100 100 pf = 101 1,000 pf = 102 j capacitance tolerance b = 0.1pf (<8.2pf) c = 0.25pf (<8.2pf) d = 0.50pf (<8.2pf) f = 1% ( � 10pf) g = 2% j = 5% k = 10% m = 20% a test level a = standard t termination* t = plated ni and sn (rohs compliant) j = 5% min pb 7 = plated ni and au a = axial ribbon m = microstrip h = cu/sn (non-magnetic) 1a packaging 1a = 7" reel* 6 = waffle pack *hqcc & hqce only style hqlc hqle (l) length 6.22 0.64 9.65 +0.89 -0.25 (0.245 0.025) (0.380 +0.035 -0.010) (w) width 6.35 0.38 9.65 0.25 (0.250 0.015) (0.380 0.010) (t) thickness 3.68 (0.145) max. for max. capacitance values 680pf 4.32 (0.170) max. 4.19 (0.165) max. for capacitance values 680pf (y) overlap n/a n/a (l l ) lead 12.7 min. 19.05 length (0.500) (0.750) (w l ) lead 6.10 0.127 8.89 0.25 width (0.240 0.005) (0.350 0.010) (t l ) lead 0.102 0.025 0.25 0.13 thickness (0.004 0.001) (0.010 0.005) lead high purity silver leads high purity silver leads material leads are attached with leads are attached with high temperature solder high temperature solder w l w lt l l t l w l w lt l l t l microstrip axial ribbon not rohs compliant lead-free compatible component for rohs compliant products, please select correct termination style. **rohs compliant
136 6 hqcc capacitance values (a dielectric) hi-q ? high rf power mlc surface mount capacitors for 600v to 7200v applications cap cap tol. rated code (pf) wvdc 1r0 1.0 1r2 1.2 1r5 1.5 1r8 1.8 2r2 2.2 2r7 2.7 b, c, d 2500 3r3 3.3 3r9 3.9 4r7 4.7 5r6 5.6 6r8 6.8 hqce capacitance values (a dielectric) cap cap tol. rated wvdc code (pf) standard extended 1r0 1.0 1r2 1.2 1r5 1.5 1r8 1.8 2r2 2.2 2r7 2.7 c, d 3r3 3.3 3600 7200 3r9 3.9 4r7 4.7 5r6 5.6 6r8 6.8 8r2 8.2 100 10 g, j, 120 12 k, m cap cap tol. rated wvdc code (pf) standard extended 150 15 180 18 220 22 270 27 330 33 390 39 7200 470 47 g, j, 3600 560 56 k, m 680 68 820 82 101 100 121 120 151 150 5000 181 180 cap cap tol. rated code (pf) wvdc 8r2 8.2 b, c, d 100 10 120 12 150 15 180 18 220 22 f, g, j 2500 270 27 k, m 330 33 390 39 470 47 560 56 cap cap tol. rated code (pf) wvdc 680 68 820 82 101 100 121 120 2500 151 150 f, g, j 181 180 k, m 221 220 271 270 331 330 1500 391 390 cap cap tol. rated code (pf) wvdc 471 470 1500 561 560 681 680 821 820 1000 102 1000 f, g, j 122 1200 k, m 152 1500 500 182 1800 222 2200 300 272 2700 hqcc capacitance values (m dielectric) cap cap tol. rated code (pf) wvdc 1r0 1.0 1r1 1.1 1r2 1.2 1r3 1.3 1r4 1.4 1r5 1.5 1r6 1.6 1r7 1.7 1r8 1.8 1r9 1.9 b, c, d 2500 2r0 2.0 2r1 2.1 2r2 2.2 2r4 2.4 2r5 2.7 3r0 3.0 3r3 3.3 3r6 3.6 3r9 3.9 4r3 4.3 4r7 4.7 cap cap tol. rated code (pf) wvdc 5r1 5.1 5r6 5.6 6r2 6.2 6r8 6.8 b, c, d 7r5 7.5 8r2 8.2 9r1 9.1 100 10 110 11 120 12 2500 130 13 150 15 160 16 180 18 f, g, j 200 20 k, m 220 22 240 24 270 27 300 30 330 33 360 36 cap cap tol. rated code (pf) wvdc 390 39 430 43 470 47 510 51 560 56 620 62 680 68 750 75 820 82 910 91 f, g, j 2500 101 100 k, m 111 110 121 120 131 130 151 150 161 160 181 180 201 200 221 220 241 240 271 270 cap cap tol. rated code (pf) wvdc 301 300 331 330 361 360 1500 391 390 431 430 471 470 511 510 561 560 621 260 681 680 f, g, j 751 750 k, m 1000 821 820 911 910 102 1000 112 1100 122 1200 152 1500 500 182 1800 222 2220 242 2400 300 272 2700 cap cap tol. rated wvdc code (pf) standard extended 221 220 271 270 3600 331 330 391 390 471 470 561 560 g, j, 2500 681 680 k, m 821 820 na 102 1000 122 1200 1000 152 1500 182 1800 222 2200 capacitance range 1.0pf to 2,700pf (25c, 1.0 0.2 vrms at 1khz, for 1000 pf use 1mhz) capacitance tolerances 0.10pf, 0.25pf, 0.50pf, 1%, 2%, 5%, 10%, 20% dissipation factor 25c 0.1% max (+25c, 1.0 0.2 vrms at 1khz, for 1000 pf use 1mhz) operating temperature range -55c to +125c temperature characteristic c0g: 0 30 ppm/c (-55c to +125c), p90: 90 30 ppm/c (-55c to +125c) insulation resistance 100k m min. @ +25c and 500vdc 10k m min. @ +125c and 500vdc dielectric strength 250% of wvdc for capacitors rated at 500 volts dc or less for 5 seconds. 150% of wvdc for capacitors rated at 1250 volts dc or less for 5 seconds. 120% of wvdc for capacitors rated above 1250 volts dc or less for 5 seconds. dielectric performance characteristics
137 6 q vs. capacitance hqcc 100000 10000 1000 100 10 1 10 100 1000 10000 capacitance (pf) q 30 mhz 150 mhz 500 mhz (typical) current rating vs. capacitance hqcc 100 10 1 0.1 1 10 100 1000 10000 capacitance (pf) rms current (amps) 150 mhz 30 mhz dotted line = power dissipation limited solid line = voltage limited (vrms) 500 mhz 10 mhz the current rating is based on a 65? mounting surface and a device thermal resistance ( � ) of 15?/w. a power dissipation of 4w will result in a case temperature of 125?. series resonance vs. capacitance hqcc 10000 1000 100 10 1 10 100 1000 10000 capacitance (pf) frequency (mhz) (typical) esr vs. capacitance hqcc 1 0.1 0.01 0.001 1 10 100 1000 10000 capacitance (pf) esr (ohms) 150 mhz 30 mhz (typical) 500 mhz hqcc performance characteristics (a dielectric) q vs. capacitance hqcc 100000 10000 1000 100 10 1 10 100 1000 10000 capacitance (pf) q 30 mhz 150 mhz 500 mhz (typical) esr vs. capacitance hqcc 1 0.1 0.01 0.001 1 10 100 1000 10000 capacitance (pf) esr (ohms) 150 mhz 30 mhz (typical) 500 mhz hqcc performance characteristics (m dielectric) hi-q ? high rf power mlc surface mount capacitors for 600v to 7200v applications
138 6 hi-q ? high rf power mlc surface mount capacitors for 600v to 7200v applications q vs. capacitance hqce 100000 10000 1000 100 1 10 100 1000 capacitance (pf) (1.0 pf to 400 pf) q 30 mhz (typical) esr vs. capacitance hqce 1 0.1 0.01 1 10 100 1000 capacitance (pf) (1.0 pf to 400 pf) esr (ohms) 30 mhz (typical) hqce performance characteristics current rating vs. capacitance hqcc 100 10 1 0.1 1 10 100 1000 10000 capacitance (pf) rms current (amps) 150 mhz 30 mhz dotted line = power dissipation limited solid line = voltage limited (vrms) 500 mhz 10 mhz the current rating is based on a 65? mounting surface and a device thermal resistance ( � ) of 15?/w. a power dissipation of 4w will result in a case temperature of 125?. series resonance vs. capacitance hqcc 10000 1000 100 10 1 10 100 1000 10000 capacitance (pf) frequency (mhz) (typical) capacitance change vs. temperture hqcc 1.5 1 0.5 0 -0.5 -1 -55 -35 -15 5 25 45 65 85 105 125 temperature (?) % change in capacitance tc = +90 ?0 ppm/?
139 6 hi-q ? high rf power mlc surface mount capacitors for 600v to 7200v applications q vs. capacitance hqce 1000 100 10 100 1000 10000 capacitance (pf) (430 pf to 2200 pf) q 30 mhz (typical) esr vs. capacitance hqce 0.1 0.01 0.001 100 1000 10000 capacitance (pf) (430 pf to 2200 pf) esr (ohms) 30 mhz (typical) current rating vs. capacitance hqce 100 10 1 0.1 1 10 100 1000 capacitance (pf) (1.0 pf to 400 pf) rms current (amps) 2 mhz 30 mhz dotted line = power dissipation limited solid line = voltage limited (vrms) 10 mhz the current rating is based on a 65? mounting surface and a device thermal resistance ( � ) of 12?/w. a power dissipation of 5w will result in a case temperature of 125?. series resonance vs. capacitance hqce 10000 1000 100 10 1 10 100 1000 10000 capacitance (pf) frequency (mhz) (typical) current rating vs. capacitance hqce 100 10 1 0.1 1 10 100 1000 capacitance (pf) (1.0 pf to 180 pf) rms current (amps) 2 mhz 30 mhz dotted line = power dissipation limited solid line = voltage limited (vrms) 10 mhz the current rating is based on a 65? mounting surface and a device thermal resistance ( � ) of 12?/w. a power dissipation of 5w will result in a case temperature of 125?. current rating vs. capacitance hqce 100 10 1 100 1000 10000 capacitance (pf) (430 pf to 2200 pf) rms current (amps) 2 mhz 30 mhz dotted line = power dissipation limited solid line = voltage limited (vrms) 10 mhz the current rating is based on a 65? mounting surface and a device thermal resistance ( � ) of 12?/w. a power dissipation of 5w will result in a case temperature of 125?.
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