BC COMPONENTS DATA SHEET Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors Product specification Supersedes data of November 1997 File under BC Components, BC06 1999 Aug 10 BC Components , ,, , ,, Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors FEATURES • General purpose • Coupling and decoupling • Space saving. APPLICATIONS handbook, 4 columns In electronic circuits where non-linear change of capacitance with temperature is permissible and low losses are not essential, i.e. coupling and decoupling. Because of their small size the capacitors are suitable for use in circuitry with high component density. DESCRIPTION The capacitors consist of a thin rectangular ceramic plate, both sides of which are metallized. The tinned connecting leads are secured using a high melting point solder. The capacitors are encapsulated in epoxy lacquer, which is resistant to all commonly used cleaning solvents. They have small dimensions and narrow tolerances on the lead spacing. The leads are provided with a flange, which guarantees that the leads are free of lacquer, and its shape allows soldering gasses to escape freely, ensuring excellent solderability. This makes the capacitors suitable for both hand-mounting and automatic insertion. MAM122 Fig.1 Outlines. QUICK REFERENCE DATA DESCRIPTION Capacitance range Dielectric material Rated DC voltage Tolerance on capacitance Sectional specification Climatic category (IEC 60068) 1999 Aug 10 VALUE 2222 630 ..... 2222 640 ..... 180 to 6800 pF (E12 series) K2000 100 V ±10% IEC 60384-9 (2C2 and 2D1); EIA (X5S/X7T) 55/125/56 2 1000 to 15000 pF (E6 series) K5000 100 V +50%/−20% IEC 60384-9 (2E2); EIA (X5U) 55/105/21 2222 629 ..... 1000 to 47000 pF (E3 series) K14000 63 V +80%/−20% IEC 60384-9 (2F6); EIA (Y5V) 10/085/21 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors MECHANICAL DATA 0.6 2.54 W W 0.6 5.08 H H L L MSA532 2.54 0.3 MSA531 0.06 O 0.6 0.05 5.08 Dimensions in mm. For dimensions H, L and W see Tables 1 and 2. 0.5 0.1 0.06 O 0.6 0.05 Dimensions in mm. For dimensions H, L and W see Tables 1 and 2. Fig.2 Component outline style 1. Fig.3 Component outline style 2. 0.05 0.03 0 0.25 0.03 0.2 MSA535 - 1 (0.2 in pitch) 1.4 0.2 0 (0.1 in pitch) 1.3 0.3 0 0.4 1.0 0.1 Dimensions in mm. Fig.4 Detail of flange. 1999 Aug 10 3 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors Marking Physical dimensions The body of the capacitor is tan coloured. The capacitors also have a colour mark on top indicating the temperature dependency of the capacitance: Table 1 Capacitor dimensions and mass SIZE(1) yellow for type 2222 630 ..... H(2) (mm) W(2) (mm) MASS (g) STYLE 1 STYLE 2 I 3.6 (−1.1) 5.0 (−1.5) 6.3 (−1.8) ≈0.14 blue for type 2222 640 ..... IIA 3.9 (−1.4) 5.3 (−1.7) 6.7 (−2.0) ≈0.15 green for type 2222 629 ..... IIB 4.5 (−1.8) 6.0 (−2.1) 7.3 (−2.4) ≈0.15 The capacitance value is indicated by a marking code in a contrasting colour on the body. Refer to Tables 3, 4 and 5 for marking codes. III 5.3 (−1.8) 6.8 (−2.3) 8.1 (−2.6) ≈0.17 IV 6.2 (−2.0) 7.7 (−2.4) 9.0 (−2.7) ≈0.20 V 6.2 (−2.0) 10.3 (−2.8) 11.2 (−3.1) ≈0.23 Notes Mounting When bending, cutting or flattening, the leads should be relieved of the applied load by supporting them at the capacitor body. Soldering conditions: 1. Unless indicated in Tables 3, 4 and 5, the thickness of the capacitors does not exceed 2.3 mm. 2. Tolerances are given between parentheses. PACKAGING For details refer to this handbook, chapter “Miniature ceramic plate capacitors”, section “General data”. max. 265 °C, max. 10 s. The capacitors are suitable for mounting on printed-circuit boards (hand-mounting or automatic insertion). ORDERING INFORMATION Table 2 Catalogue numbers PITCH P 2.54 mm (0.1 inch) 5.08 mm (0.2 inch) LEAD DIAMETER d 0.6 mm (0.024 inch) 0.6 mm (0.024 inch) CATALOGUE NUMBERS(1) STYLE 1 2 BULK PACKED L ≥ 13 mm L = 4 ±0.5 mm ON TAPE(2) (REEL) ON TAPE(2) (AMMOPACK) 2222 630 08... 2222 630 18... 2222 630 51... 2222 630 61... 2222 640 08... 2222 640 18... 2222 640 51... 2222 640 61... 2222 629 08... 2222 629 18... 2222 629 51... 2222 629 61... 2222 630 09... 2222 630 19... 2222 630 53... 2222 630 63... 2222 640 09... 2222 640 19... 2222 640 53... 2222 640 63... 2222 629 09... 2222 629 19... 2222 629 53... 2222 629 63... Notes 1. Catalogue number to be completed by adding the 3-digit suffix for required capacitance value, see Tables 3, 4 and 5. 2. H0 = 18.25 mm. 1999 Aug 10 4 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors Table 3 Preferred capacitance range for 2222 630 ..... CAPACITANCE VALUE (pF) SIZE (see Table 1) MARKING SUFFIX OF CATALOGUE NUMBER (see Table 2) 180 I(1) n18 181 220 I(1) n22 221 270 I n27 271 330 I n33 331 390 I n39 391 470 I n47 471 560 I n56 561 680 I n68 681 820 I n82 821 1000 I 1n0 102 1200 IIA 1n2 122 1500 IIA 1n5 152 1800 IIB 1n8 182 2200 IIB 2n2 222 2700 III 2n7 272 3300 III 3n3 332 3900 IV 3n9 392 4700 IV 4n7 472 5600 V 5n6 562 6800 V 6n8 682 Note 1. Maximum thickness 2.5 mm. 1999 Aug 10 5 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors Table 4 Preferred capacitance range for 2222 640 ..... CAPACITANCE VALUE (pF) SIZE (see Table 1) MARKING SUFFIX OF CATALOGUE NUMBER (see Table 2) 1 000 I 1n0 102 1500 I 1n5 152 2200 I 2n2 222 3300 IIA 3n3 332 4700 IIB 4n7 472 Table 5 6800 III 6n8 682 10000 IV 10n 103 15 000 V 15n 153 Preferred capacitance range for 2222 629 ..... CAPACITANCE VALUE (pF) SIZE (see Table 1) MARKING SUFFIX OF CATALOGUE NUMBER (see Table 2) 1000 I 1n0 102 2200 I 2n2 222 4700 I 4n7 472 10000 IIB 10n 103 22000 IV 22n 223 47000 V 47n 473 1999 Aug 10 6 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors ELECTRICAL CHARACTERISTICS Capacitors 2222 630 (colour mark yellow) The capacitors meet the essential requirements of “IEC 60384-8” (2C2 and 2D1) “EIA” (X5S and X7T). Unless stated otherwise all electrical values apply at an ambient temperature of 20 ±1 °C, an atmospheric pressure of 86 to 106 kPa and a relative humidity of 63 to 67%. DESCRIPTION VALUE Capacitance values measured at 1 kHz, 1 V 180 to 6800 pF; E12 series (see Table 3) Dielectric material K2000 Tolerance on capacitance, after 1000 hours ±10% Maximum capacitance change with respect to capacitance value at 20 °C +20 to −20% (see Fig.5) from −55 to +85 °C; +20 to −30% from −55 to +125 °C Rated DC voltage 100 V DC test voltage; duration 1 minute 300 V DC test voltage of coating; duration 1 minute 300 V Insulation resistance at 100 V (DC) after 1 minute ≥4 000 MΩ Tan δ measured at 1 kHz, 1 V ≤3.5% Maximum voltage dependency of the capacitance between 0 and 40 V −5% Category temperature range −55 to +85 °C (2C2) and −55 to +125 °C (2D1) Storage temperature range −55 to +85 °C Ageing typical 1.5% per time decade Climatic category (IEC 60068) 55/125/56 1999 Aug 10 7 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors CCA943 60 handbook, full pagewidth ∆C C (%) 0 −60 −100 −50 0 50 100 T (°C) 150 Guaranteed limits 2C2 Typical spread Guaranteed limits 2D1 Fig.5 Typical capacitance change with respect to capacitance value at 20 °C as a function of temperature. CCA048 60 handbook, full pagewidth ∆C C (%) 40 20 0 −20 −40 −60 10 102 103 104 105 106 107 f (Hz) U = 1 V. Fig.6 Typical capacitance change with respect to the capacitance value at 1 kHz as a function of frequency. 1999 Aug 10 8 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors MSA527 100 ∆ C/C (%) 0 100 0 50 100 150 V DC (V) f = 1 kHz. U = 1 V. T = 20 °C. Fig.7 Typical capacitance change with respect to the capacitance value at 0 V as a function of DC voltage. MLB878 10 handbook, full pagewidth ∆ C/C (%) 0 10 20 30 40 60 100 50 50 1 nF to 6.8 nF; 100 V (DC) 470 pF; 100 V (DC) 1 nF to 6.8 nF; 50 V (DC) 470 pF; 50 V (DC) 1 nF to 6.8 nF; 10 V (DC) 470 pF; 10 V (DC) Fig.8 1999 Aug 10 0 100 T ( oC) 180 pF; 100 V (DC) Typical capacitance change with respect to the capacitance value at 0 V and 20 °C as a function of temperature at different DC voltages. 9 150 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors MLB877 10 handbook, full pagewidth tan δ (%) 5 0 100 50 0 50 100 o T ( C) 150 f = 1 kHz. U = 1 V. Fig.9 Typical tan δ as a function of temperature. MSA547 10 3 100 pF IZI (Ω) 10 2 1000 pF 10 6800 pF 1 10 1 1 10 2 10 Fig.10 Typical impedance Z as a function of frequency. 1999 Aug 10 10 f (MHz) 10 3 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors Capacitors 2222 640 (colour mark blue) The capacitors meet the essential requirements of “IEC 60384-9” (2E2), “EIA” (X5U). Unless stated otherwise all electrical values apply at an ambient temperature of 20 ±1 °C, an atmospheric pressure of 86 to 106 kPa and a relative humidity of 63 to 67%. DESCRIPTION VALUE Capacitance values measured at 1 kHz, 1 V 1000 to 15000 pF; E6 series (see Table 4) Tolerance on capacitance, after 1000 hours −20 to +50% Dielectric material K5000 Maximum capacitance change with respect to capacitance value at 20 °C +20 to −55% (see Fig.11) Rated DC voltage 100 V DC test voltage; duration 1 minute 300 V DC test voltage of coating; duration 1 minute 300 V Insulation resistance at 100 V (DC) after 1 minute ≥4 000 MΩ Tan δ measured at 1 kHz, 1 V ≤3.5% Category temperature range −55 to +105 °C Storage temperature range −55 to +85 °C Ageing typical 5% per time decade Climatic category (IEC 60068) 55/105/21 MSA520 0 ∆ C/C (%) 50 100 100 50 0 50 T ( oC) 100 f = 1 kHz. U = 1 V. Fig.11 Maximum capacitance change with respect to capacitance value at 20 °C as a function of temperature. 1999 Aug 10 11 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors MSA519 0 handbook, full pagewidth ∆ C/C (%) 25 50 0 25 50 75 VDC (V) 100 f = 1 kHz. U = 1 V. Fig.12 Typical capacitance change with respect to capacitance value at 20 °C as a function of DC voltage. MSA528 0 0V 20 V 40 V ∆ C/C (%) 60 V 80 V 100 V 50 100 100 50 0 50 T ( oC) f = 1 kHz. U = 1 V. Fig.13 Typical capacitance change with respect to the capacitance value at 0 V and 20 °C as a function of temperature at different DC voltages. 1999 Aug 10 12 100 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors MSA548 10 3 IZI (Ω) 10 2 1 nF 10 10 nF 1 10 1 1 10 2 10 f (MHz) 10 3 Fig.14 Typical impedance Z as a function of frequency. Capacitors 2222 629 (colour mark green) The capacitors meet the essential requirements of “IEC 60384-9” (2F6), “EIA” (Y5U). Unless stated otherwise all electrical values apply at an ambient temperature of 20 ±1 °C, an atmospheric pressure of 86 to 106 kPa and a relative humidity of 63 to 67%. DESCRIPTION VALUE Capacitance values measured at 1 kHz, 1 V 1000 to 47000 pF; E3 series (see Table 5) Tolerance on capacitance, after 1000 hours −20 to +80% Dielectric material K14000 Maximum capacitance change with respect to capacitance value at 20 °C +20 to −85% (see Figs 15 and 16) Rated DC voltage at 85 °C 63 V DC test voltage; duration 1 minute 200 V DC test voltage of coating; duration 1 minute 200 V Insulation resistance at 100 V (DC) after 1 minute ≥4000 MΩ Tan δ measured at 1 kHz, 1 V ≤3.5% Category temperature range −10 to +85 °C Storage temperature range −55 to +85 °C Ageing typical 5% per time decade Climatic category (IEC 60068) 10/085/21 1999 Aug 10 13 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors CCA041 120 ∆C C (%) 80 handbook, full pagewidth 40 0 −40 −80 −120 −100 −80 −60 −40 −20 0 20 40 60 80 100 T (°C) f = 1 kHz. U = 1 V. Fig.15 Typical capacitance change with respect to capacitance value at 20 °C as a function of temperature for capacitance value 1000 pF. CCA040 120 ∆C C (%) 80 handbook, full pagewidth 40 0 −40 −80 −120 −100 −80 −60 −40 −20 0 20 40 60 80 100 T (°C) f = 1 kHz. U = 1 V. Fig.16 Typical capacitance change with respect to capacitance value at 20 °C as a function of temperature for capacitance values 2200 pF to 47000 pF. 1999 Aug 10 14 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors CCA036 100 ∆C C (%) 0 −100 0 50 100 150 VDC (V) f = 1 kHz. U = 1 V. T = 20 °C. Fig.17 Typical capacitance change with respect to the capacitance value at 0 V as a function of DC voltage for capacitance values 2200 to 47000 pF. CCA037 100 ∆C C (%) 0 0V 20 V 40 V 60 V −100 −100 −50 0 50 100 T (°C) f = 1 kHz. U = 1 V. Fig.18 Typical capacitance change with respect to the capacitance value at 0 V and 20 °C as a function of temperature at different DC voltages for capacitance values 2200 to 47000 pF. 1999 Aug 10 15 BC Components Product specification Class 2, 63 V and 100 V (DC) (flanged types) Miniature ceramic plate capacitors CCA034 20 tan δ (%) 10 0 −100 −50 0 50 100 T (°C) f = 1 kHz. U = 1 V. Fig.19 Typical tan δ as a function of temperature for capacitance values 2200 to 47000 pF. CCA035 103 Z (Ω) 102 1 nF 10 10 nF 22 nF 1 10−1 1 102 10 103 f (MHz) Fig.20 Typical impedance Z as a function of frequency. 1999 Aug 10 16