SDC Series – Safety Ceramic Disc Capacitors Holy Stone Ceramic Disc Capacitors [ Safety Disc Capacitors – X1Y1& X1Y2] SDC Series This specification applies to the following Safety Standards that are recognized for Ceramic Capacitors used in Electronic Appliances. Applications Features Safety capacitors specially designed for use Operating temperature range guaranteed up in Modem, Facsimile, Telephone and other to 125℃(UL/CSA:85℃) electronic equipment for lighting and surge Safety capacitors specially designed for use protection, EMI filter and isolation. in Modem, Facsimile, Telephone and other Interference suppressor for AC line of electronic equipment for lighting and surge electronic equipment protection, EMI filter and isolation. The series is recognized by UL,CSA,TUV,CQC Coated with Flame-retardant epoxy resin (conforming to UL 94-0 standards) Suitable for automatic insertion RoHS compliant Halogen Free available Related Standards and Certificate Numbers Certificated Body Relation Standard Number Rated Voltage TUV IEC 60384-14 EN 60384-14 R50152938 UL CUL/CSA CB Report ENEC CQC UL 60384-14 CSA :E60384-14 IEC 60384-14 EN 60384-14 E300818 E300818 HU841-M1 HN69245677 HN69245678 HN69245679 X1:400 VAC Y2:250 VAC GB/T14472-1998 IEC 60384-14 CQC13001096459 /CQC13001096458 CQC13001096461/CQC13001096470 CQC13001086961/CQC13001086960 CQC13001095807 X1:440 VAC Y1:400 VAC X1:440 VAC Y1:250 VAC How To Order SDC SDC Product Code SDC: Safety Disc Ceramic Capacitor PP Dielectric Ex.: N : NP0 S : SL X : X7R P : Y5P Y : Y5V E : Y5U 101 101 Capacitance Unit : pF Ex.: 100 : 10x100 151 : 15x101 KK 50 50 Tolerance Class Ex.: J : ±5.0% K : ±10% M : ±20% Ex.: 10 : X1/Y1 50 : X1/Y2 22 Rated Voltage Ex.: 2: Y2 Cap:250V X1 Cap:400V 3: Y1 Cap:250V X1 Cap:440V 4: Y1 Cap:400V X1 Cap:440V - 33 - 77 AA Lead Space Lead Length Ex.: 5 : 5.00mm 6 : 6.35mm 7 : 7.50mm A : 10.0mm B : 12.5mm Ex.: H: 3.1mm C: 3.5mm S: 5.0mm M: 10mm L : 25mm min T : T&R A: Ammo Box 22 Lead Shape S Type 1:φ=0.50mm 2:φ=0.60mm 3:φ=0.65mm 4:φ=0.80mm D Type 9:φ=0.50mm A:φ=0.60mm B:φ=0.65mm C:φ=0.80mm SDC Series – Safety Ceramic Disc Capacitors Holy Stone Summary of Specifications Operation Temperature -25 ℃ ~ +125 ℃ Dielectric Strength X1:440 VAC / Y1:250 VAC : 4000VAC for 1 minute X1:440 VAC / Y1:400 VAC : 4000VAC for 1 minute X1:400 VAC / Y2:250 VAC : 2600VAC for 1 minute X1:440 VAC / Y1:250 VAC : 2pF to 4700pF Dissipation Factor X1:440 VAC / Y1:400 VAC : 2pF to 4700pF X1:400 VAC / Y2:250 VAC : 2pF to 10,000pF Class I , NP0/SL : Q ≥ 300 at 1MHz/1Vrms Class II , Y5P : DF ≤ 2.5% , Y5U/Y5V : DF ≤ 5.0% at 1KHz/1Vrms Insulation Resistance 10,000MΩ min. at 500Vdc Capacitance Range Dimensions D Type S Type T D T D Code s s Dimension D ± 5.0 1.0 mm F DR G DR G L L F ± ± ± 12.5 2.0 mm G 0.5 0.1mm / 0.6 0.1mm / 0.8 0.1mm T 8.0mm max. DR 4.0mm max. P -Y2 250VAC E/Y - Y 2 250VAC 0.6 SDCP471K502* 0.5 0.4 0.3 SDCP221K502* 0.2 SDCP101K502* 0.1 4.0 3.5 leakage current(mA) leakage current(mA) ± mm ( Typical Reference ) 0.7 1000 1500 Vrms 2000 2500 SDCY103M502* 3.0 2.5 SDCE472M502* 2.0 1.5 1.0 SDCE222M502* 0.5 0.0 0 500 mm F Leakage Current Characteristics 0 Φ 16.0mm max. 7.50±1.5 10.0±2.0 3000 SDCE102M502* 0 500 Capacitance Range 1000 1500 Vrms 2000 2500 3000 Body Diameter (max.) / Body Thickness (max.) NPO Y5P Y5P 822 103 682 472 392 332 222 202 8/8 8/8 8/8 9/8 9/8 9/8 9/8 10/8 Y5P SL 182 8/8 8/8 8/8 8/8 8/8 8/8 8/8 8/8 9/8 9/8 9/8 Y5U X1: 440VAC Y1: 400VAC 152 8/7 9/7 10/7 10/7 10/7 12/7 13/7 14/7 10/7 8/7 8/7 9/7 10/7 12/7 14/7 15/716/7 SL NPO 102 8/5 8/5 8/5 8/5 8/5 8/5 8/5 8/5 8/7 8/7 8/7 8/7 8/7 8/7 8/7 8/7 8/7 9/7 9/7 10/7 Y5U NPO 681 8/5 8/5 8/5 8/5 8/5 8/5 8/5 8/5 Y5V X1: 440VAC Y1: 250VAC 561 471 391 331 271 221 181 151 121 101 680 470 390 330 220 150 100 8/5 8/5 8/5 9/5 10/5 SL X1: 400VAC Y2: 250VAC 8R0 5R0 3R0 TC 2R0 Capacitance Range Class 10/8 12/8 8/8 9/8 10/8 10/8 11/813.5/814.5/815.5/8 8/8 8/8 8/8 8/8 8/8 8/8 9/8 9/8 9/8 9/8 10/8 8/8 8/8 Y5U 8/8 9/8 9/8 9/8 10/8 12/8 8/8 9/8 10/8 10/8 11/813.5/814.5/815.5/8 - 34 - SDC Series – Safety Ceramic Disc Capacitors Holy Stone Caution (Rating) (1) Operating Voltage Be sure to maintain the Vp-p value of the applied voltage or the Vo-p which contains a DC bias within the rated voltage range. When the voltage is started to apply to the circuit or it is stopped applying, the irregular voltage may be generated for a transit period because of resonance or switching. Be sure to use a capacitor within rated voltage containing this irregular voltage. (2) Operating Temperature and Self-generated Heat Keep the surface temperature of a capacitor below the upper limit of its rated operating temperature range. Be sure to take into account the heat generated by the capacitor itself. When the capacitor is used in a high-frequency current, pulse current or the like, it may have the self-generated heat due to dielectric-loss. Applied voltage should be the load such as self-generated heat is within 20℃ on the condition of atmosphere temperature 25℃. When measuring, use a thermocouple of small thermal capacity-K of φ0.1mm and be in the condition where capacitor is not affected by radiant heat of other components and wind of surroundings. Excessive heat my lead to deterioration of the capacitor’s characteristics and reliability. (3) Test condition for withstanding Voltage I. Test Equipment Test equipment for AC withstanding voltage shall be used with the performance of the wave similar to 50/60 Hz sine waves. If a distorted sine wave or over load exceeding the specified voltage value is applied, a failure may be caused. II. Voltage Applied Method When the withstand voltage is applied, the capacitor’s leads or terminals shall be firmly connected to the output of the withstand voltage test equipment, and then the voltage shall be raised from near zero to the test voltage. If the test voltage is applied directly to capacitor, the test voltage should be applied at the *zero cross point. At the end of the test time, the test voltage shall be reduced to near zero, and then capacitor's lead or terminal shall be taken off the output of the withstand voltage test equipment. If the test voltage is not applied from the near zero voltage point and applied directly to capacitor, a surge voltage may arise, and cause the capacitor to fail. * ZERO CROSS is the point where voltage sine wave pass 0V.- See the right figure. (4) Fail-Safe It should be assumed that if the capacitor fails, it will fail in short circuit mode. Be sure to provide an appropriate fail-safe function, like a fuse in your circuit, if failure would cause an electric shock, fire or fumes. - 35 - SDC Series – Safety Ceramic Disc Capacitors Holy Stone Caution (Storage and operating condition) The insulating coating of capacitors does not form a perfect seal; therefore, do not use or store capacitors in a corrosive atmosphere, especially where chloride gas, sulfide gas, acid, alkali, salt are likely to be present. And avoid exposure to moisture. Before cleaning, bonding, or molding this product, verify that these processes do not affect product quality by testing the performance of a cleaned, bonded or molded product in the intended equipment. Store the capacitors where the temperature and relative humidity do not exceed 35°C and 75%RH. Use capacitors within 12 months. Caution (Soldering and Mounting) 1. Vibration and impact: Do not expose a capacitor or its leads to excessive shock or vibration during use. 2. Soldering: When soldering this product to a PCB/PWB, do not exceed the solder heat resistance specification of the capacitor. Subjecting this product to excessive heating could melt the internal junction solder and may result in thermal shocks that can crack the ceramic element. When soldering these capacitor with a soldering iron, it should be performed in following conditions. Temperature of iron-tip: 400 degrees C. max. Soldering iron wattage: 50W max. Soldering time: 3.5 sec. max. 3. Cleaning (ultrasonic cleaning): To perform ultrasonic cleaning, observe the following conditions. Rinse bath capacity: Output of 20 watts per liter or less. Rinsing time: 5 min maximum. Do not vibrate the PCB/PWB directly. Excessive ultrasonic cleaning may lead to fatigue destruction of the lead wires. Caution (Handling) Vibration and impact Do not expose a capacitor or its leads to excessive shock or vibration during use. Failure to follow the above cautions may result, in worst case, in a short circuit and cause fuming or partial dispersion where the product is used. - 36 -