INA Glass Capacitors CYFR 10,15, 20, 30 (HIGH RELIABILITY) APPLICATIONS: AVX style CYFR high reliability glass capacitors have failure rates among the lowest available. Outstanding stability, reliability and electrical performance are provided by the fused monolithic con- struction, which is virtually immune to environmental stresses. These capaci- tors meet or exceed all requirements of AVX specifications J-950 and J-951, which combine the most exacting fea- tures of many military specifications and substantially exceed most. PERFORMANCE CHARACTERISTICS Tolerance Available tolerances for each value of capacitance are shown in the Ordering Information table. For codes, refer to the Part Numbers paragraph. Temperature Coefficient +140 +25 ppm/C at 100 kHz. TC will track and retrace to within +5 ppm. Capacitance drift is less than 0.1% or 0.1 pF which- ever is greater. Voltage Coefficient zero. Losses Extremely low, and remain relatively low at elevated temperatures and high frequencies. Dissipation fac- 7o7b x ORE CYFR10 1 tre CYFR15 1S26>< By CYFR20 ; mee ets | CYFR30 7828 >< 103) = a ACTUAL SIZE Leads on tor is less than 0.001 at 1 kHz and within +0.031" 25C. 4 (= .79) } Life After 2,000 hours at 125C with _ Ww 150% of rated voltage applied, capa- { citance change is less than 0.5% or 0.5 pF dissipation factor is less than 4.125" 0.0015, and insulation resistance is (28.58) ee T I greater than 500,000 megohms. Insulation Resistance Greater than 500,000 megohms at 25C: greater than 10,000 megohms at 125C. Voltage/Temperature Ratings Vol- tage ratings are shown in the ordering information table. The operating tem- perature range is 55C to +125C with no derating required. ; ; _, Moisture Resistance Meets or ex- Dimensions Inches (Millimeters) ceeds all requirements of J-951 and case gaa Co Weight MIL-STD-202, Method 106 for 50 Size L w T 001 (0.03) (Grams) cycles. tani ; _ ; 344 + 047 172 + 031 078 + 031 020 Radiation Resistance | Tee cue CYFRIO 74 + 1.19) (4.37 + 79) (1.98 = 79) (81) 26 - 50. materiais and construction techniques CYERI5 469 + 047 266 + .031 109 * .047 020 75-12 involved with glass capacitors make (11.91 + 1.19} (6.76 + 79) (2.77 = 1.19) (51) f5-1.25 them ideal for use in radiation environ- CYFR20 734 * 062 422 = 047 141 + 047 025 250 - 4.00 ments. After a total dose of nearly 10 (18.64 = 1.57) 9 (10.72 1.19) (3.58 + 1.19) (63) rads (H,O) AVX glass capacitors exhibit 766 + 062 750 + 078 141 + 047 025 only (r ted change P capacitance CYFR30 0 (49.462157) (19.05 1.98) (3.58 + 1,19) (63) 5.00 - 7.00 (=.5%) and an 8% change in dissipation NOTE: Leads are solderable and weldable gold-plated Dumet. factor. Furthermore, glass capacitors can operate in fast neutron flux environ- Additional performance details are given ments of 10 N cm-sec-' and expe- in the AVX Performance Characteris- rience little or no damage in component tics of Multilayer Glass Dielectric parameters. Capacitors technical paper. > Sue mm 5292987 0005207 TI0 mm 12Glass Capacitors INNA Part Numbers and Ordering Information Capacitance AVX BDC Capacitance AVX bc Value Part Working Tolerances Value Part Working Tolerances (pF) Number Voltage Available (pF) Number Voltage Available STANDARD VALUES CYFR10 STANDARD VALUES CYFR15, con't. 0.5 CYFR10_* ORS ** 500 c 240 CYFR15 +241 2% 500 F.GJ 1.0 CYFR10__ 1RO__ 500 Cc 270 CYFR15__271__ 500 F.GJ 1.8 CYFR10__ 1R5__ 500 c 300 CYFR15__301__ 500 F.G.J 22 CYFR10__2R2__ 500 C.D 330 CYFR15__331__ 500 F.GJ 27 CYFR10__2R7__ 500 c 360 CYFR15__361__ 500 F.GJ 3.0 CYFR10__ 3RO__ 500 on) 390 CYFR15__391 __ 500 F.GJ 3.3 CYFR10__3R3__ 500 c 430 CYFR15__431__ 500 F.GJ 3.6 CYFR10__3R6__ 500 C.D 470 CYFR15__471__ 500 F.GJ 3.9 CYFR10__3R9__ 500 Cc 510 CYFR15__511__ 500 F.GJ 4.3 CYFR10__4R3__ 500 C.D 560 CYFRt5__561__ 300 F.GJ 47 CYFR10__4R7__ 500 c 620 CYFR15__621__ 300 F.GJ 51 CYFR10__5R1__ 500 c 680 CYFR15__681__ 300 F.GJ 5.6 CYFR10__5R6__ 500 Cc 750 CYFR15__751__ 300 F.GJ 6.2 CYFR10__6R2__ 500 CJ 820 CYFR15__821__ 300 F.GJ 68 CYFR10__6R8__ 500 C.J 910 CYFR15__911__ 300 F.GJ 75 CYFR10__7R5__ 500 CJ 1000 CYFR15__102__ 300 F.GJ 8.2 CYFRi0__8R2__ 500 CJ 1100 CYFR1IS__112__ 300 F.G.J 91 CYFR10__9R1__ 500 C.J 1200 CYFR15__122__ 300 F.GJ 10 CYFRI0__100 __ 500 CJ 11 CYFR10__110 __ 500 CJ STANDARD VALUES CYFR20 12 CYFRIO__120 __ 500 CJ 560 CYFR20_+_ 561 ** 500 F.GJ 13 CYFR10__130 _ 500 Gd 620 CYFR20__621__ 500 F.G.J 16 CYFR10__160 _ 500 GJ 680 CYFR20__681__ 500 F.GJ 16 CYFR10__ 160 __ 500 GJ 750 CYFR20__751__ 500 F.GJ 18 CYFR10__180 __ 500 Gi 820 CYFR20__821__ 500 F.GJ 20 CYFR10__200 __ 500 GJ 910 CYFR20__911__ 500 F.GJ 22 CYFRIO__220 __ 500 GJ 1000 CYFR20__102__ 500 F.GJ 24 CYFR10__240 __ 500 GJ 1100 CYFR20__112__ 500 F.GJ 27 CYFR10._ 270 __ 500 F.GJ 1200 CYFR20__122__ 500 F.G.J 30 CYFR10__300 __ 500 F.GJ 1300 CYFR20__132__ 500 F.GJ 33 CYFR10__ 330 __ $00 F.GJ 1500 CYFR20__152__ 500 F.GJ 36 CYFR10__360 __ 500 F.GJ 1600 CYFR20__162__ 500 F.GJ 39 CYFRI1O__ 390 __ 500 F.GJ 1800 CYFR20__182__ 500 F.GJ 43 CYFR10__430 __ S00 F.G.J 2000 CYFR20__.202__ 500 F.GJ 47 CYFR1O__470 __ 500 F.G.J 2200 CYFR20__222__ 500 F.GJ 51 CYFR10__510 __ 500 F.GJ 2400 CYFR20__242__ 500 F.GJ 56 CYFR10__560 __ 500 F.GJ 2700 CYFR20__272__ 500 F,GJ 62 CYFR10__620 __ 500 F.GJ 3000 CYFR20__302__ 500 F.GJ oe OVERIOD veo _ a pes 3300 CYFR20__.332__ 500 F,G.J _ G, 3600 CYFR20__362__ 300 F.GJ 82 CYFR10__ 820 _ S00 F.GJ 3900 CYFR20__392__ 300 F.GJ 91 CYFR10__910 _ 500 F.G.J 4300 CYFR20__432__ 300 F.GJ 400 CERIO nda 20 Pes 4700 CYFR20__472__ 300 F.GJ 120 CYERIOILID1 LL 500 Fay 5100 CYFR20__512__ 300 F.GJ 130 CYFR1IO__131 __ 500 F,G,J STANDARD VALUES CYFR30 leo evEBTO ley 200 Ped 3600 CYFR30_+_362 2+ 500 F.GJ 180 CYFRIO_181 300 FGJ 3900 CYFR30__392__ 500 F.G.J 200 CYFRIO_w201 300 FGJ 4300 CYFR30__432__ 500 F.GJ 390 CYFRIOWL 221 300 FG 4700 CYFR30__472__ 500 F.G.J 340 CYERIOLL O41 300 Fay 5100 CYFR30__512__ 500 F.GJ = 5600 CYFR30__562__ 500 F.GJ 6200 CYFR30__622__ 500 F.GJ STANDARD VALUES CYFR15 6800 CYFR30__682__ 300 FGJ 160 CYFR15_*.161 ++ 500 F.GJ 7500 CYFR30__752__ 300 F.G.J 180 CYFR15__181 __ 500 F.GJ 8200 CYFR30__822__ 300 F.GJ 200 CYFR15__201 __ 500 F.GJ 9100 CYFR30__912__ 300 F.G.J 220 CYFR15._221 __ 500 F.G.J 10000 CYFR30__103__ 300 F.GJ *Add S or G for lead finish **Add letter for tolerance code PART MARKING PART NUMBER EXPLANATION Test Level CYFR 10 G 101 J A A= J-950 Specification 9544 < . i Lt No designator = J-951 Specification =_ 101J z Gloss Gapnaiter | Capacitance Tolerance (See B) Case Size - Capacitance, Coded in pF (See A) 10.15. 20, 30 A. Capacitance Code is expressed 95 Year L : Fi . h in picofarads (pF). The first two ead Finis digits represent significant figures 44 Lot Code S = Solder Coated Dumet ; ss a : . G Gold Plated Dumet and the third digit specifies the B Tolerance Code: 101 Capacitance, Coded in pF (60 winch minimum) number of zeros to follow: i.e. 561 6 = + 96 oF J Tolerance e indicates 560 pF. For values below 5 + sopF G@=~+ 2% __ : 10 pF, R = decimal point: i.e. 1R5 F=+1% Jet 9 AVX- AVX Corporation indicates 1.5 oF. % 5% D S4E MM 5292987 0005208 1c? 13