Capacitors with Soldering Star 105 C B 43 592 High-performance type, LL grade High ripple current capability Construction Charge-discharge proof, polar Aluminum case, partially insulated Solder pins on mounting base that is securely welded to the case, ensuring perfect electrical contact Positive pole connection brought out axially at center Negative pole connected to two or three solder pins of the mounting base Features High reliability and long useful life Wide temperature range Excellent electrical characteristics High ripple current capability High vibration resistance Pinning ensures correct insertion Applications High-reliability equipment in industrial and automotive electronics Specifications and characteristics in brief Rated voltage UR 160 to 350 V- Surge voltage US 1,15 * UR (for UR 250 V-) 1,10 * UR (for UR = 350 V-) 10 to 220 F Rated capacitance CR Capacitance tolerance Useful life 40 C, UR 85 C, UR; I~max 105 C, UR; I~R Failure percentage Failure rate Voltage endurance test Leakage current Ilka (5 min, 20 C) - 10/+ 50 % T > 200 000 h (2,7 * I~R,105C) > 10 000 h > 4 000 h 1% (during useful life) 20 fit ( 20 * 10- 9/h) 2 000 h, 105 C (at UR) C R U R 0,7 I lka 0,3 A -------- -------- + 4 A F V Siemens Matsushita Components 305 B 43 592 Specifications and characteristics in brief Self-inductance LESL IEC climatic category d (mm) 12 14 16 18 l (mm) 30 LESL approx. (nH) 20 30 30 39,5 25 40 40 40 40 20 Detail specification in accordance with IEC 68-1 40/105/56 (-40 C/+105 C, 56 days damp heat test) similar to CECC 30301-049 Sectional specification IEC 384-4 Vibration resistance in accordance with IEC 68-2-6, test Fc: displacement amplitude 0,75 mm, frequency range 10 to 55 Hz, acceleration max. 10 g, duration 3 x 2 h 306 Siemens Matsushita Components B 43 592 Dimensional drawing Mounting holes d = 12 ... 14 mm d = 16 ... 25 mm Soldering star and supports are connected to the negative pole Positive pole Supporting pin rest KAL0107-D Dimensions (mm) dxl d max x l max a 0,1 c 0,1 Approx weight (g) Packing units (pieces) 12 x 30 14 x 30 16 x 30 18 x 39,5 13,5 x 33 15,5 x 33 17,5 x 33 19,5 x 40,8 12,5 14,5 16,5 18,5 3,0 5,7 7,9 9,8 15 480 480 300 200 25 x 40 26,5 x 42 25,5 3,5 26 128 The PC-board hole arrangement specified above is based on circular arcs. If, however, the mounting holes have to be matched to a standard drilling raster, a spacing of 1,27 mm (1/20) has proved to be sufficiently accurate if the following arrangements are used: d = 14 mm d = 12 mm 1,27 d = 16 mm KAL0357-R KAL0356-I o1,5+0,1 KAL0358-Z d = 25 mm d = 18 mm Not for new design For new design see type B 43 783, page 311 Siemens Matsushita Components KAL0359-8 KAL0362-S 307 B 43 592 Overview of available types UR (V-) 160 CR (F) Case dimensions d x l (mm) 250 350 12 x 30 12 x 30 22 12 x 30 14 x 30 16 x 30 47 16 x 30 18 x 39,5 18 x 39,5 100 18 x 39,5 25 x 40 25 x 40 220 25 x 40 10 The above capacitance and voltage ratings are available in smaller cases upon request. Other capacitance and voltage ratings are also available upon request. Technical data and ordering codes UR CR F Case dimensions dxl mm RESR, typ 100 Hz 20 C RESR, max 100 Hz 20 C Zmax 10 kHz 20 C I~max 100 Hz 40 C A I~max 100 Hz 85 C A I~R Ordering 100 Hz code1) 105 C A Short code V- 160 22 47 100 220 12 x 30 16 x 30 18 x 39,5 25 x 40 3,0 1,4 0,7 0,3 7,2 3,4 1,6 0,7 3,1 1,5 0,71 0,33 0,48 0,82 1,4 2,4 0,29 0,5 0,84 1,5 0,14 0,24 0,4 0,72 -A1226-T -A1476-T -A1107-T -A1227-T 250 10 22 47 100 12 x 30 14 x 30 18 x 39,5 25 x 40 5,0 2,5 1,2 0,54 13 6,4 3,0 1,4 6,5 2,9 1,4 0,7 0,37 0,54 1,0 1,8 0,23 0,34 0,63 1,1 0,11 0,16 0,3 0,53 -A2106-T -A2226-T -A2476-T -A2107-T 350 10 22 47 100 12 x 30 16 x 30 18 x 39,5 25 x 40 4,1 1,9 0,85 0,41 10 4,8 2,1 1,0 6,1 2,8 1,3 0,64 0,4 0,68 1,2 2,1 0,25 0,42 0,76 1,3 0,12 0,2 0,36 0,62 -A4106-T -A4226-T -A4476-T -A4107-T Not for new design. For new design see type B 43 783, page 311 1) To obtain the required ordering code, prefix the type number to the short code. E. g.: B43592-A1226-T 308 Siemens Matsushita Components B 43 592 Useful life versus ambient temperature TA under ripple current operating conditions 1) I~ I~R, 105C Permissible ripple current I~ versus frequency f Series capacitance CS at f = 100 Hz versus temperature T Typical behavior 1) Refer to page 34 for an explanation on how to interpret the useful life graphs. Siemens Matsushita Components 309 B 43 592 Impedance Z versus frequency f and temperature T for 100 F/250 V- Typical behavior Impedance Z versus frequency f Typical values at 20 C Impedance Z at f = 100 Hz versus temperature T Typical behavior Impedance Z at f = 10 kHz versus temperature T Typical behavior 310 Siemens Matsushita Components