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| 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax (508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com 1.002 cornell dubilier your source for capacitor solutions chip and smt capacitors general purpose filtering, bypassing, power supply decoupling ? +85 c, 2000 hour load life ? capacitance range: 0.1 f to 1500 f ? voltage range: 4.0 vdc to 100 vdc specifications highlights type avs smt aluminum electrolytic capacitors - general purpose, 85 c type avs capacitors are the best value for filter and bypass applications not requiring wide temperature performance or high ripple current. their vertical cylindrical cases facilitate automatic mounting and reflow soldering and type avs offers a significant cost savings over tantalum capacitors. 50/60 hz 120 hz 1 khz 10 khz & up 0.7 1.0 1.3 1.7 operating temperature: rated voltage: capacitance: d.f (@ 20 c): capacitance tolerance: leakage current: ripple current multipliers: -40 c to +85 c 4.0, 6.3, 10, 16, 25, 35, 50, 63 & 100 vdc 0.1 f to 1500 f see ratings table 20% @ 120 hz and +20 c 0.01 cv or 3 a @ +20 c, after two minutes (whichever is greater) case code d 0.5la 0.2 h (max) i (ref) w p (ref) k a 3.0 5.4 +.1,-.2 3.3 4.5 1.5 0.55 0.1 0.6 0.35 + 0.15/-0.20 b 4.0 5.4 +.1,-.2 4.3 5.5 1.8 0.65 0.1 1.0 0.35 + 0.15/-0.20 c 5.0 5.4 +.1,-.2 5.3 6.5 2.2 0.65 0.1 1.5 0.35 + 0.15/-0.20 d 6.3 5.4 +.1,-.2 6.6 7.8 2.6 0.65 0.1 1.8 0.35 + 0.15/-0.20 x 6.3 7.9 .3 6.6 7.8 2.6 0.65 0.1 1.8 0.35 + 0.15/-0.20 e 8.0 6.2 .3 8.3 9.5 3.4 0.65 0.1 2.2 0.35 + 0.15/-0.20 f8.010.2 .3 8.3 10.0 3.4 0.90 0.2 3.1 0.70 0.20 g 10.0 10.2 .3 10.3 12.0 3.5 0.90 0.2 4.6 0.70 0.20 outline drawing w.v. ( vdc) 4 6.3 10 16 25 35 50 63 100 -25 c / +20 c743222233 -40 c / +20 c1586443344 maximum impedance ratio @ 120 hz frequency case dimensions load life: shelf life: 2000 h @ +85 c ? capacitance: 20% df: 200% of limit dcl: 100% of limit 1000 h @ +85 c ? capacitance: 20% df: 200% of limit dcl: 100% of limit (mm) avs series marking 220 6 = 6.3 vdc 16 = 16 vdc 25 = 25 vdc, etc. capacitance ( f) s or a voltage series lot no. h l w p d 0.3 mm max. a i i k
1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax (508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com 1.003 chip and smt capacitors cornell dubilier your source for capacitor solutions max. max. max. max. dissipation esr @ ripple current size cap catalog dcl factor @ 120 hz/20 c120 hz/85 c case d x l quantity f number ( a) 120 hz (ohms) (ma) code (mm) per reel 22 avs226m04a12t 3.0 0.37 27.9 19 a 3x5.4 2000 33 avs336m04b12t 3.0 0.35 17.6 26 b 4x5.4 2000 47 avs476m04b12t 3.0 0.35 12.3 34 b 4x5.4 2000 100 avs107m04c12t 4.0 0.35 5.8 61 c 5x5.4 1000 220 avs227m04d16t 8.8 0.35 2.6 82 d 6.3x5.4 1000 22 avs226m06a12t 3.0 0.35 26.4 20 a 3x5.4 2000 22 avs226m06b12t 3.0 0.26 19.6 29 b 4x5.4 2000 33 avs336m06b12t 3.0 0.35 17.6 29 b 4x5.4 2000 47 avs476m06b12t 3.0 0.35 12.3 36 b 4x5.4 2000 47 avs476m06c12t 3.0 0.26 9.2 46 c 5x5.4 1000 100 avs107m06c12t 6.3 0.35 5.8 47 c 5x5.4 1000 100 avs107m06d16t 6.3 0.26 4.3 71 d 6.3x5.4 1000 220 avs227m06d16t 13.9 0.35 2.6 74 d 6.3x5.4 1000 330 avs337m06x16t 20.8 0.26 1.3 150 x 6.3x7.9 900 330 avs337m06e16t 20.8 0.35 1.8 300 e 8x6.2 1000 470 avs477m06f24t 29.6 0.35 1.2 380 f 8x10.2 500 1000 avs108m06f24t 63.0 0.35 0.6 500 f 8x10.2 500 1000 avs108m06g24t 63.0 0.35 0.6 700 g 10x10.2 500 1500 avs158m06g24t 94.5 0.35 0.4 700 g 10x10.2 500 22 avs226m10b12t 3.0 0.3 22.6 28 b 4x5.4 2000 33 avs336m10b12t 3.3 0.3 15.1 29 b 4x5.4 2000 33 avs336m10c12t 3.3 0.2 10.1 43 c 5x5.4 1000 47 avs476m10c12t 4.7 0.3 10.6 43 c 5x5.4 1000 100 avs107m10c12t 10.0 0.3 5.0 50 c 5x5.4 1000 100 avs107m10d16t 10.0 0.2 3.3 70 d 6.3x5.4 1000 220 avs227m10x16t 22.0 0.2 1.5 150 x 6.3x7.9 900 220 avs227m10e16t 22.0 0.26 2.0 250 e 8x6.2 1000 330 avs337m10f24t 33.0 0.26 1.3 330 f 8x10.2 500 470 avs477m10f24t 47.0 0.26 0.92 330 f 8x10.2 500 470 avs477m10g24t 47.0 0.26 0.92 400 g 10x10.2 500 1000 avs108m10g24t 100.0 0.26 0.43 580 g 10x10.2 500 10 vdc (13 vdc surge) 4 vdc (5 vdc surge) 6.3 vdc (8 vdc surge) 10 avs106m16a12t 3.0 0.18 29.9 20 a 3x5.4 2000 10 avs106m16b12t 3.0 0.16 26.5 28 b 4x5.4 2000 22 avs226m16b12t 3.5 0.26 19.6 28 b 4x5.4 2000 22 avs226m16c12t 3.5 0.16 12.1 39 c 5x5.4 1000 33 avs336m16c12t 5.3 0.26 13.1 35 c 5x5.4 1000 47 avs476m16c12t 7.5 0.26 9.2 39 c 5x5.4 1000 47 avs476m16d16t 7.5 0.16 5.6 70 d 6.3x5.4 1000 100 avs107m16d16t 16.0 0.26 4.3 70 d 6.3x5.4 1000 100 avs107m16e16t 16.0 0.2 3.3 200 e 8x6.2 1000 220 avs227m16x16t 35.2 0.16 1.2 150 x 6.3x7.9 900 220 avs227m16e16t 35.2 0.2 1.5 200 e 8x6.2 1000 220 avs227m16f24t 35.2 0.2 1.5 280 f 8x10.2 500 330 avs337m16f24t 52.8 0.2 1.0 320 f 8x10.2 500 330 avs337m16g24t 52.8 0.2 1.0 380 g 10x10.2 500 470 avs477m16f24t 75.2 0.2 0.71 320 f 8x10.2 500 470 avs477m16g24t 75.2 0.2 0.71 420 g 10x10.2 500 4.7 avs475m25a12t 3.0 0.16 56.5 12 a 3x5.4 2000 4.7 avs475m25b12t 3.0 0.14 49.4 22 b 4x5.4 2000 10 avs106m25b12t 3.0 0.20 33.2 22 b 4x5.4 2000 10 avs106m25c12t 3.0 0.14 23.2 28 c 5x5.4 1000 22 avs226m25c12t 5.5 0.20 15.1 35 c 5x5.4 1000 22 avs226m25d16t 5.5 0.14 10.6 55 d 6.3x5.4 1000 33 avs336m25c12t 8.3 0.2 10.0 42 c 5x5.4 1000 33 avs336m25d16t 8.3 0.14 7.0 65 d 6.3x5.4 1000 47 avs476m25d16t 11.8 0.20 7.1 70 d 6.3x5.4 1000 100 avs107m25x16t 25.0 0.14 2.3 150 x 6.3x7.9 900 100 avs107m25e16t 25.0 0.16 2.7 91 e 8x6.2 1000 100 avs107m25f24t 25.0 0.16 2.7 180 f 8x10.2 500 220 avs227m25f24t 55.0 0.16 1.2 140 f 8x10.2 500 220 avs227m25g24t 55.0 0.16 1.2 310 g 10x10.2 500 330 avs337m25f24t 82.5 0.16 0.8 150 f 8x10.2 500 330 avs337m25g24t 82.5 0.16 0.8 340 g 10x10.2 500 470 avs477m25g24t 117.5 0.16 0.6 360 g 10x10.2 500 25 vdc (31 vdc surge) 16 vdc (20 vdc surge) type avs ratings table smt aluminum electrolytic capacitors - general purpose, 85 c 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax (508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com 1.004 cornell dubilier your source for capacitor solutions chip and smt capacitors max. max. max. max. dissipation esr @ ripple current size cap catalog dcl factor @ 120 hz/20 c 120 hz/85 c case d x l quantity f number ( a) 120 hz (ohms) (ma) code (mm) per reel 2.2 avs225m35a12t 3.0 0.14 105.6 8 a 3x5.4 2000 3.3 avs335m35a12t 3.0 0.14 70.4 10 a 3x5.4 2000 4.7 avs475m35b12t 3.0 0.12 42.4 22 b 4x5.4 2000 10 avs106m35b12t 3.5 0.16 26.5 22 b 4x5.4 2000 10 avs106m35c12t 3.5 0.12 19.9 30 c 5x5.4 1000 22 avs226m35c12t 7.7 0.16 12.1 36 c 5x5.4 1000 22 avs226m35d16t 7.7 0.12 9.1 60 d 6.3x5.4 1000 33 avs336m35d16t 11.6 0.16 8.0 60 d 6.3x5.4 1000 33 avs336m35e16t 11.6 0.14 7.0 130 e 8x6.2 1000 47 avs476m35d16t 16.5 0.16 5.6 70 d 6.3x5.4 1000 47 avs476m35e16t 16.5 0.14 4.9 165 e 8x6.2 1000 100 avs107m35x16t 35.0 0.12 2.0 130 x 6.3x7.9 900 100 avs107m35f24t 35.0 0.14 2.3 140 f 8x10.2 500 100 avs107m35g24t 35.0 0.14 2.3 210 g 10x10.2 500 220 avs227m35f24t 77.0 0.14 1.1 200 f 8x10.2 500 220 avs227m35g24t 77.0 0.14 1.1 310 g 10x10.2 500 330 avs337m35g24t 115.5 0.14 0.7 320 g 10x10.2 500 0.1 avs104m50a12t 3.0 0.14 2322 1 a 3x5.4 2000 0.1 AVS104M50B12T 3.0 0.12 1990 1 b 4x5.4 2000 0.22 avs224m50a12t 3.0 0.14 1055 2 a 3x5.4 2000 0.22 avs224m50b12t 3.0 0.12 905 2 b 4x5.4 2000 0.33 avs334m50a12t 3.0 0.14 704 3 a 3x5.4 2000 0.33 avs334m50b12t 3.0 0.12 603 3 b 4x5.4 2000 0.47 avs474m50a12t 3.0 0.14 494 5 a 3x5.4 2000 0.47 avs474m50b12t 3.0 0.12 424 5 b 4x5.4 2000 1 avs105m50a12t 3.0 0.14 232 8 a 3x5.4 2000 1 avs105m50b12t 3.0 0.12 199 10 b 4x5.4 2000 2.2 avs225m50a12t 3.0 0.14 106 10 a 3x5.4 2000 2.2 avs225m50b12t 3.0 0.12 90.5 16 b 4x5.4 2000 3.3 avs335m50b12t 3.0 0.12 60.3 16 b 4x5.4 2000 4.7 avs475m50b12t 3.0 0.14 49.4 18 b 4x5.4 2000 4.7 avs475m50c12t 3.0 0.12 42.4 23 c 5x5.4 1000 10 avs106m50c12t 5.0 0.14 23.2 27 c 5x5.4 1000 10 avs106m50d16t 5.0 0.12 19.9 35 d 6.3x5.4 1000 22 avs226m50d16t 11.0 0.14 10.6 60 d 6.3x5.4 1000 35 vdc (44 vdc surge) 50 vdc (63 vdc surge) 22 avs226m50e16t 11.0 0.12 9.1 120 e 8x6.2 1000 33 avs336m50x16t 16.5 0.12 6.0 85 x 6.3x7.9 900 33 avs336m50e16t 16.5 0.12 6.0 130 e 8x6.2 1000 33 avs336m50f24t 16.5 0.12 6.0 140 f 8x10.2 500 47 avs476m50x16t 23.5 0.12 4.2 90 x 6.3x7.9 900 47 avs476m50f24t 23.5 0.12 4.2 150 f 8x10.2 500 47 avs476m50g24t 23.5 0.12 4.2 160 g 10x10.2 500 100 avs107m50f24t 50.0 0.12 2.0 200 f 8x10.2 500 100 avs107m50g24t 50.0 0.12 2.0 250 g 10x10.2 500 220 avs227m50g24t 110.0 0.12 0.9 300 g 10x10.2 500 10 avs106m63d16t 6.3 0.18 29.9 35 d* 6.3x5.7 1000 22 avs226m63e16t 13.9 0.18 13.6 40 e 8x6.2 1000 22 avs226m63f24t 13.9 0.18 13.6 40 f 8x10.2 500 33 avs336m63f24t 20.8 0.18 9.1 45 f 8x10.2 500 47 avs476m63f24t 29.6 0.18 6.4 45 f 8x10.2 500 100 avs107m63g24t 63.0 0.18 3.0 60 g 10x10.2 500 3.3 avs335m2ae16t 3.3 0.18 90.4 50 e 8x6.2 1000 4.7 avs475m2ae16t 4.7 0.18 63.5 50 e 8x6.2 1000 4.7 avs475m2af24t 4.7 0.18 63.5 80 f 8x10.2 500 10 avs106m2ae16t 10.0 0.18 29.8 50 e 8x6.2 1000 10 avs106m2af24t 10.0 0.18 29.8 85 f 8x10.2 500 22 avs226m2af24t 22.0 0.18 13.6 70 f 8x10.2 500 22 avs226m2ag24t 22.0 0.18 13.6 90 g 10x10.2 500 33 avs336m2ag24t 33.0 0.18 8.0 90 g 10x10.2 500 63 vdc (75 vdc surge) 100 vdc (125 vdc surge) 12 = carrier tape width (mm) t = tape & reel b = bulk type avs part numbering system avs 106 m type capacitance capacitance tolerance 104 = 0.1 f 105 = 1.0 f 106 = 10 f 107 = 100 f 108 = 1000 f 16 b 12t voltage case code packaging information m = 20% 04 = 4 vdc 06 = 6.3 vdc 10 = 10 vdc 16 = 16 vdc 25 = 25 vdc 35 = 35 vdc 50 = 50 vdc 63 = 63 vdc 2a = 100 vdc ratings table smt aluminum electrolytic capacitors - general purpose, 85 c *overall case height (l dimension) is 5.7 mm 0.3 mm. 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com 0.01 0.1 1 10 100 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value ? 40 c 0 c 25 c 65 c 8 5 c 45 c ? 20 c 0.1 1 10 100 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value ? 40 c ? 20 c 0 c 25 c 45 c 8 5 c 65 c 0 0.2 0.4 0.6 0.8 1 1.2 1.4 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value 65 c 25 c 8 5 c 0 c ? 40 c 45 ? 20 c impedance vs. temperature and frequency 1500 f @ 6.3 vdc (10 x 10.2 mm) capacitance vs. temperature & frequency esr vs. temperature and frequency 0 0.2 0.4 0.6 0.8 1 1.2 1.4 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value 65 c 25 c 8 5 c 0 c ? 40 c 45 c ? 20 c 0.1 1 10 100 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value ? 40 c ? 20 c 0 c 25 c 45 c 8 5 c 65 c 0.01 0.1 1 10 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value ? 40 c 0 c 25 c 65 c 8 5 c 45 c ? 20 c capacitance vs. temperature & frequency esr vs. temperature and frequency impedance vs. temperature and frequency 100 f @ 16 vdc (6.3 x 5.4 mm) frequency (hz) frequency (hz) frequency (hz) frequency (hz) frequency (hz) frequency (hz) type avs typical performance curves smt aluminum electrolytic capacitors - general purpose, 85 c 1500 f @ 6.3 vdc (10 x 10.2 mm) 1500 f @ 6.3 vdc (10 x 10.2 mm) 100 f @ 16 vdc (6.3 x 5.4 mm) 100 f @ 16 vdc (6.3 x 5.4 mm) 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax (508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com 1.006 cornell dubilier your source for capacitor solutions chip and smt capacitors type avs 0.01 0.1 1 10 100 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value ? 40 c 0 c 25 c 65 c 85 c 45 c ? 20 c -20 -15 -10 -5 0 5 10 0 500 1,000 1,500 2,000 capacitance change (%) 10 f @ 16 vdc (4 x 5.4 mm ) 47 f @ 16 vdc ( 6.3 x 5.4 mm ) 330 f @ 16 vdc (10 x 10.2 mm) smt aluminum electrolytic capacitors - general purpose, 85 c 0 0.2 0.4 0.6 0.8 1 1.2 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value 65 c 25 c 85 c 0 c ? 40 c 45 c ? 20 c 0.1 1 10 100 10 100 1,000 10,000 100,000 1,000,000 ratio to 25 c, 120 hz value ? 40 c ? 20 c 0 c 25 c 45 c 85 c 65 c impedance vs. temperature and frequency esr vs. temperature and frequency capacitance vs. temperature & frequency 220 f @ 50 vdc (10 x 10.2 mm) -30 -25 -20 -15 -10 -5 0 5 10 -60 -40 -20 0 20 40 60 80 100 capacitance change (%) 100 f @ 6.3 vdc (6.3 x 5.4 mm ) 47 f @ 16vdc (6.3 x 5.4 mm ) 10 f @ 50vdc (6.3 x 5.4 mm) capacitance change with temperature (typical performance for avs series @ 120 hz) temperature ( c) 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 2 -60 -40 -20 0 20 40 60 80 100 d.f. (@ 120 hz) 100 f @ 6.3 vdc (6.3 x 5.4 mm ) 47 f @ 16 vdc (6.3 x 5.4 mm ) 10 f @ 50 vdc (6.3 x 5.4 mm ) dissipation factor vs. temperature temperature ( c) capacitance change vs. time time (hours) frequency (hz) frequency (hz) frequency (hz) typical performance curves 220 f @ 50 vdc (10 x 10.2 mm) 220 f @ 50 vdc (10 x 10.2 mm) (typical performance for avs series @ 120 hz) (typical performance avs series) 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com avs, aha, afc, afk, ahd, aeb tape and reel specifications tape specifications a 0.2 p1 b 0.2 w 0.3 4 0.1 1.5 dia 1.75 0.1 f 0.1 0.4 t 0.2 component orientation polarity stripe (-) cathode case code w a b p1 f t a 12.0 3.4 3.5 8.0 5.5 5.8 b 12.0 4.7 4.6 8.0 5.5 5.8 c 12.0 6.0 6.0 12.0 5.5 5.8 d 16.0 7.0 7.0 12.0 7.5 5.8 x 16.0 7.0 7.0 12.0 7.5 8.4 e 16.0 8.7 8.7 12.0 7.5 6.8 f 24.0 8.7 8.7 16.0 11.5 11.0 g 24.0 10.7 10.7 16.0 11.5 11.0 case codewabcdfps j 32.0 10.7 10.7 14.5 14.5 14.2 20.0 28.4 k 32.0 10.7 10.7 14.5 18.5 14.2 20.0 28.4 h 32.0 14.0 14.0 18.0 14.5 14.2 24.0 28.4 l 32.0 14.0 14.0 18.0 17.5 14.2 24.0 28.4 p 44.0 17.5 17.5 23.0 17.5 20.2 28.0 40.4 r 44.0 19.5 19.5 26.0 17.5 20.2 32.0 40.4 s 44.0 19.5 19.5 26.0 22.5 20.2 32.0 40.4 u 44 17.5 17.5 23 22.5 20.2 28 40.4 0.2+0.05 0.75+0.1 2.00.1 4.00.1 ? 1.50.1 p0.1 b0.5 w0.3 s0.1 f0.1 1.750.1 a0.5 d0.2 0.5 c0.5 (mm) (mm) 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com avs, aha, afc, afk, ahd, aeb tape and reel specifications land pattern: reel specifications w case code a b c d e w t a, b size 3802 50 min 13.00.5 21.00.8 2.00.5 141 3.0 c, d, e, x size 3802 50 min 13.00.5 21.00.8 2.00.5 181 3.0 f, g size 3802 50 min 13.00.5 21.00.8 2.00.5 261 3.0 j, k, h, l size 3302 50 min 13.00.5 21.00.8 2.00.5 341 3.0 p, r, s, u size 3302 50 min 13.00.5 21.00.8 2.00.5 461 3.0 e c d r: 1.0 mm (.039 in.) a t b case codeabc a 0.6 2.2 1.5 b 1.0 2.5 1.6 c 1.5 2.8 1.6 d 2.2 3.0 1.6 e 2.2 4.5 1.6 f 3.2 4.0 2.0 g 4.6 4.3 2.0 j, k 4 4.5 2.0 h 4.0 5.7 2.0 l 4.0 5.7 2.0 p 6.0 6.5 2.5 r, u 6.0 6.5 2.5 s 6.0 7.5 2.5 1234567890123456789 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1234567890123456789 1234567890123456789 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1 23456789012345678 9 1234567890123456789 c b b a (mm) (mm) 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com avs, aha, afc, afk, ahd, aeb reflow solder & case dimensions outline drawing case dimensions reflow soldering temperature profile: (mm) *5.8 +0.1,-0.2 for afk and ahd series case peak max. time code temp ( c) @ 200 c (sec.) a, b, c, d, x 240 40 e, f, g, h 230 30 j, k, l, p r, s, u case code d 0.5 l a 0.2 h (max) i (ref) w p (ref) k a 3.0 5.4 +.1,-.2 3.3 4.5 1.5 0.55 0.1 0.6 0.35 + 0.15/-0.20 b 4.0 5.4 +.1,-.2 4.3 5.5 1.8 0.65 0.1 1.0 0.35 + 0.15/-0.20 c 5.0 5.4 +.1,-.2 5.3 6.5 2.2 0.65 0.1 1.5 0.35 + 0.15/-0.20 d 6.3 5.4 +.1,-.2 6.6 7.8 2.4 0.65 0.1 1.8 0.35 + 0.15/-0.20 x 6.3 7.9 .3 6.6 7.8 2.6 0.65 0.1 1.8 0.35 + 0.15/-0.20 e 8.0 6.2 .3 8.3 9.5 3.4 0.65 0.1 2.2 0.35 + 0.15/-0.20 f 8.0 10.2 .3 8.3 10 3.4 0.90 0.2 3.2 0.70 0.20 g 10.0 10.2 .3 10.3 12 3.5 0.90 0.2 4.6 0.70 0.20 h 12.5 13.5 .5 13.5 15 4.7 0.9 0.3 4.4 0.70 0.30 j 10 13.5 10.3 12 3.5 0.9 0.2 4.6 0.70 0.20 k 10 17.5 10.3 12 3.5 0.9 0.2 4.6 0.70 0.20 l 12.5 16.5 .5 13.5 15.0 4.7 0.90.3 4.4 0.70 0.30 p 16.0 16.5 .5 17.0 19.0 5.5 1.20.3 6.7 0.70 0.30 r 18.0 16.5 .5 19.0 21.0 6.5 1.20.3 6.7 0.70 0.30 s 18.0 21.5 .5 19.0 21.0 6.5 1.20.3 6.7 0.70 0.30 u 16.0 21.5 17.0 19.0 6.7 1.20.3 6.7 0.70 0.30 120 seconds preheat maximum time @ 200 c (see chart right) time 160 c 200 c peak temp. (see chart right) 5 seconds maximum h l w p d 0.3 mm max. a i i k 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com v-chip cleaning and coating guide below is a table discribing the usable solvents for cleaning a pc board containing v-chips. recommended symtoms solvent type name manufacturer use level of damage water distilled water 1 none alkaline aqua cleaner 210sep sanei 2 pine alpha st-100s aralaw a kasei kogyo 2 clean-thru 750h 2 surface active clean-thru 750l kao corporation 2 agent clean-thru 710m 2 sun-elec b-12 sanyo kasei 2 dk be-clean cw-5790 dai-ichi kogyo seiyaku 2 petroleum cold-cleaner p3-375 henkel hakusui 3 based techno-cleaner 219 seiwa sangyo 3 hydrocarbon axarel 32 mitsui dfc 3 alcohol base isopropyl alcohol 1 none techno-care frw-17 3 silicon base techno-care frw-17 toshiba corporation 3 (techno-care frv-100) 3 halogenated asashi-clean ak-225aes ashahi glass 3 hydrocarbon hcfc141b-ms dalkin kogyo 3 telpen base telpen-cleaner ec-7r nippon alpha metals 3 swelled seal contains cfc's subject to environmental regulations water base solvent base none, though marking ink may fade swellling on sealing rubber rinse and dry well after cleaning none if used in combination use level number 1 cleaning is possible 2 cleaning is possible (markings may fade) 3 cleaning is possible (use caution. 1 and 2 are better choices) recommendation do not use chlorine-based halogenated cleaning solvents, adhesives or coating agents. when halogenated chlorine-based solvents are used in the cleaning process, free clorine is liberated from the solvent. this chlorine causes corrosion and deterioration of the aluminum inside the capacitor dangers of ?free-chlorine?: after the solvent dries, the chlorine remains on the capacitor seal, the chlorine slowly permeates into the capacitor element causing corrosion and damage that happens slowly. it may take some time before a failure is apparent. a representation of the chemical reaction is on the following page. table 1 cleaning v-chips may be immersed for 5 minutes, safely, in level 1&2 solvents. use level 3 solvents with caution. 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com reaction of free-chlorine and aluminum combined free chlorine and hydrogen become hydrochloric acid, but it has high dissociation and most of it becomes chlorine ions. these chlorine ions react with the aluminum. the order of the reactions is represented below. 1.) hydration of oxide film alo 3 + 3h 2 o > 2al(oh) 3 2.) reaction of hydrated oxide film and chlorine (dissolution of film) al(oh) 3 + 3hcl > alcl 3 + 3h 2 o 3.) reaction of aluminum and hydrochloric acid (dissolution of aluminum) al + 3hcl > alcl 3 + 3/2h 2 4.) precipitation of aluminum hydroxide alcl 3 + 3h 2 o > al(oh) 3 + 3hcl the entire reaction can be summerized as the following: al + al 2 o 3 + 3hcl 3 + 3h 2 o > 2al(oh) 3 + alcl 3 + alcl 3 + h3/2 therefore the compounds produced by the reactions are aluminum hydroxide and hydrochloric acid from reaction #4; the hydrochloric acid is not consumed and acts as a catalyst. cl cl cl c c h h h hcl cl cl c c h h hh + cl cl cc h h + hcl = chlorosen cl cl cc h h h cl + (2h) electrolysis reaction dichloroethane dicloroethylene fig. 1 decomposed reaction of cleaning solvents (free-chlorine) free-chlorine diagram: v-chip cleaning and coating guide 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com composition boiling point ( c) common name 1.1.1-trichloroethane 74.1 chlorosen trichloroethylene 87.2 trichlene tetrachloroethylene 121.1 perchloroethylene solvents that should not be used table 2 additional cleaning notes: 1.) solvents containing cfc?s destroy the ozone layer and should be avoided to protect the global environment. 2.) to avoid solvent residue between the capacitor?s seal and the pc board, make sure the assembly is dried thoroughly immediately after cleaning. v-chip cleaning and coating guide coating table 3 below is a list of coatings that are safe for use with v-chips manufacturer material coating material name acrylic taffi-1141, taffi-1147 urethane taffi-1154 acrylic humi seal 1b66 urethane humi seal 1a27 dow corning silicon perugan z, perugan c nihon zeon urethane quinate system 160b hitachi chemical boxy brown influence of coating materials coating materials are typically used for insulation, waterproofing, dustproofing and rustproofing. when coating materials are selected there are factors to prevent internal corrosion (chlorine reaction with aluminum) while the capacitor is functioning. the following steps will help prevent this damage to the capacitor. a.) corrosion reaction avoid halogen solvents which permeate the capacitor ? s seal, releasing chlorine which reacts with the aluminum inside the capacitor. b.) selecting a coating material it is necessary to select a coating material that contains no chlorine. the coating consists of the main ingredient which could be urethane resin, acrylic resin or other polymer, a solvent and other additives such as flameproofing agents. 1605 east rodney french blvd. new bedford, ma 02744 (508) 996-8564, fax(508) 996-3830 http://www.cornell-dubilier.com e-mail: cdenb@cornell-dubilier.com v-chip cleaning and coating guide the coating ? s solvent dries and diffuses into the rubber seal of the capacitor, therefore halogenated hydrocarbon solvents containing chloride should not be used. similar to the solvent, additives can permeate into the capacitor through the rubber seal. ingredients in many additives might not be listed, therefore use caution when choosing an additive. c.) other concerns solvents and additives are subject to change without notice. make sure ingredients are identified. avoid coating a substrate after cleaning it with a halogenated hydrocarbon. the coating will prevent the remaining solvent from diffusing which may cause corrosion. |
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