CERAMIC CAPACITORS MEDIUM VOLTAGE CAPACITORS IKV to 6KVDC E..A. CLASS Il & ill DE Series DIMENSIONS: mm MARKING* DE04, 05, 06 .0, 2KV 5.0, () pene] 3KV 6.0, BKV 7.0 DEO7, 06, 09 DE10 & Larger 2K rLSel @ Ky 00:Dete Code *Three-cigit capacitance code for values of 100pF and larger. SL and F have no temperature characteristic marking. PART NUMBERING SYSTEM TYPE LEADS TEMP. CHAR. CAPACITANCE TOL. VOLTAGE DEO4 05 B T t 1K CAPACITOR LEAD SPACING TEMPERATURE CHARACTERISTICS CAPACITANCE CAPACITANCE VOLTAGE TYPE AND 06=5 Class 1: Per standard ElA specifications. VALUE TOLERANCE Identified by a SIZE 07 =75 Ciass tl & il!: J= 25% one-digit number 10=10 TEMPERATURE RANGE: -25C to +85C K = +10% MAX. CAP. CHANGE OVER TEMP. RANGE: Z = +80, -20% B= 210% E= +20, -55% F = +30, -80% Note: B, E, F are JIS codes that are similar to EIA temperature characteristics YSP, Y5U and YSV respectively. *1KV-B *3KV-B PART NUMBER DIA (mm) LS{mm) | CAP (pF) PART NUMBER DIA(mm) | LS(mm) | CAP (pF) DE0405B101K1K 45 5 100 DE0507B101K3K 5 75 100 DE0405B151K1K 45 5 150 DE0507B151K3K 5 75 150 DE0405B221K1K 4.5 5 220 DE0507B221K3K 5 75 220 DE0405B331K1K 4.5 5 330 DE0607B331K3K 6 75 330 DE0505B471K1K 5 5 470 DE0707B471K3K 7 75 470 DE0605B681K1K 6 5 680 DE0807B681K3K 8 75 680 DE0605B102K1K 6 5 1000 DE0907B102K3K 9 75 1000 DE0805B152K1K 8 5 1500 DE1107B152K3K 11 75 1500 DE0905B222K1K 9 5 2200 DE1307B222K3K 13 75 2200 0E1005B332K1K 10 5 3300 DE1510B332K3K 15 10 3300 DE1205B472K1K 12 5 4700 DE1510B682K1K 15 10 6800 *6KV -B DE0910B101K6K 9 10 100 *2KV -B DE0910B151K6K 9 10 150 DE0405B101K2K 4.5 5 100 DE09108221K6K 9 10 220 DE0405B151K2K 45 5 150 DE0910B331 K6K 9 10 330 DE0405B221K2K 45 5 220 DE10108471K6K 10 10 470 DEO0505B331K2K 5 5 330 DE1110B681K6K 1 10 680 DE0605B471K2K 6 5 470 DE1310B102K6K 13 10 1000 DE0O705B681K2K 7 5 680 DE0805B102K2K 8 5 1000 DE0905B152K2K 9 5 1500 DE10058222K2K 10 5 2200 DE1205B332K2K 12 5 3300 DE1510B472K2K 15 10 4700 84 Printed from www.freetradezone.com, D OLF @ 63984565 0005924 135 a service of Partminer, Inc. This Material Copyrighted By Its Respective ManufacturerCERAMIC CAPACITORS MEDIUM VOLTAGE CAPACITORS IKV to 6KVDC ELA. CLASS Il & Ill DE Series *1KV-E DE050SE10221K 5 5 1000 DE0705E22221K 7 5 2200 DE0905E472Z1K 9 5 4700 DE1307E103Z1K 13 75 10000 *2KV-E DEO605E10222K 6 5 1000 DE0805E22222K 8 5 2200 DE1105E472Z2K 11 5 4700 OE1610E103Z2K 16 10 10000 *3KV-E DE0707E102Z23K 7 7.5 1000 DE1007E222Z23K 10 75 2200 DE1307E472Z3K 13 75 4700 *6KV-E DE1110E102Z6K 11 10 1000 DE1510E22276K 15 10 2200 *1KV-F DEO605F222Z1K 6 5 2200 DE0705F472Z1K. 7 5 4700 DE1005F103Z1K 10 5 10000 *2KV ~ F DEOS05F102Z2K 5 5 1000 DEO705F222Z72K 7 5 2200 DEO905F472Z2K 9 5 4700 DE1205F103Z2K 12 5 10000 * Available as standard through authorized Murata Electronics Distributors. SPECIFICATIONS: CLASS II & lil Test Conditions: Unless otherwise specified, measurements Life: Capacitors shall be subjected to a DC voltage equal to shall be made at +25C, +10C, a relative humidity no greater 150% of the rated working voltage for 1,000 hours at +85C. than 75%, and normal atmospheric pressure. After this test, dissipation factor shall not be more than twice ; . the stated initial value, and insulation resistance shail not be Capacitance: Capacitance shall be within the specified limits less than 2,000MQ. when measured at, or corrected to, a temperature of +20C, a RMS voltage between .05 and 5.0, and a frequency of 1KHz. Encapsulation: Ceramic disc is coated in an epoxy resin which conforms to UL94V-0. oO m e) > = oO 1?) 5 pa Oo 4 o a na Dissipation Factor, or (Ratio of Equivalent Series Resistance to Reactance): Dissipation Factor shall not be greater than 2.5% for B and E characteristics, or greater than 5% for F. TYPICAL TEMPERATURE CHARACTERISTICS Insulation Resistance: 10,000MQ. minimum when measured between terminals of capacitor 1 minute after application of a DC test voltage of 500 applied through a protective resistance which will timit the charging current to 50mA. Dietectric Strength: Capacitors shall be subjected to a DC voltage equal to 200% of their rated working voltage. This voltage shall be applied for 5, +1 seconds through a protective resistance that will limit the charging current to 50mA. Cap. Change % Humidity Resistance: After exposure for a period of 500 hours to an atmosphere of 95% relative humidity at a temperature of 40C, capacitor shall have a minimum 40-2000 of Ot insulation resistance of 1,000MQ. emp. D OF M 639484865 0005925 O71 a 85 Printed from www.freetradezone.com, a service of Partminer, Inc. This Material Copyrighted By Its Respective ManufacturerThe structure of the "Global Part Numbers that have been adopted since June 2001 and the meaning of each code are described herein. If you have any questions about details, inquire at your usual Murata sales office or distributor. Part Numbering High Voltage Ceramic Capacitors (250V-6.3kV) {Global Part Number) [x] [Nz] [al @Capacitance Tolerance @Product ID Product 1D DE High-voltage (250V - 6.3kV) / Safety Standard Recognized Ceramic Capaictors @Series Category Code Outline Contents A Class (char. SL) DC1-3.15kV Rated B Class2 DC1-3.15kV Rated Cc High-Voltage Class 1,2 DC6.3kV Rated High Temperature Guaranteed, H Low-dissipation Factor (char. R, C) First three digit (@Product ID and @Series Category) express "Series Name". @Temperature Characteristics Code - Capacitance Tolerance J +5% K +10% z +80%, 20% @Lead Style oe Dimensions(mm) Code. |g | ; tle | spacing | bead Diameter | racy A2 Vertical 5 A3 Crimp 7.5 @0.640.05 - A4 Long 10 B2 Vertical 5 B3 Crimp 7.5 20.6+0.05 - B4 Short 10 c1 5 @0.5+0.05 C3 Straight 75 J @0.6+0.05 - c4 Long 10 cD 7.5 20.50.05 Di 5 @0.5+0.05 Straight D3 Short 7.5 @0.6+0.05 _ DD 75 @0.5+0.05 N2 Vertical 5 12.7 N3 Crimp 75 20.6+0.05 15 nz | Taping 75 30 P2 i 5 12.7 Straight 0.640.095 | " P3 Taping 7.5 15 @Packaging Code Packaging A Ammo Pack B Bulk Code Temperature Cap.Change-. "| Temperature Characteristics; or Temp. Coeff. Range B3 B +10% E3 E +20%,55% |25to +85 F3 F +30%,80% I) _ C3 C 20% 25 to +85 +15%,30% +85 to +1250 +159 25 to +85C R3 R 5% 5 to +85 +15%,-30% +85 to +1250 1X SL +350 to 1000ppm/T | +20 to +85 @Rated Voltage Code _ Rated Voltage 2E DC250V 2H DC500V 3A DC1kV 3D DC2kV 3F DC3.15kV 3J DC6.3kV @Capacitance Expressed by three figures. The unit is pico-farad(pF). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two numbers. If there is a decimal point, it is expressed by the capital letter "R". In this case, all figures are significant digits.MSPECIFICATION AND TEST METHOD ftern = Specification Spar ree Testing Method Temp. Compensating High Dielectric Constant 1 | Operating Temperature Range =25 to +85 =25 to +85T _ 2 | Capacitance Within the specified tolerance. Within the specified tolerance. i a Te Ine) Sra vie at 20 with 160. 2kHz Q Cz30pF | 21000 [BET OF a25% | iti ; 3 Dissipation Factor (D.F.) St C<30pF 0240042007 FT _D.F.=5.0% Same condition as capacitance. Between . . The insulation resistance shalt be measured with 500+50VDC 4 Feweance Lead wires 10000MQ min. 10000MQ min. within 60:5 sec. of charging. The capacitors shall not be damage when DC voltage of Between , - 200% of the rated voltage are applied between the lead Lead wires No failure. No failure. wires for 1 to 5 sec. (Charge/discharge currents50mA) The capacitor is placed in the container with meta! balls of Distectric diameter 1mm so that each iead 5 Strength wire, shortcircuited, is kept , approximately 2mm off the bails Body insutation No failure. No failure. own in We figure, and DC voltages of 1.3kV is applied for 1 to 5 sec. between capacitor lead wires and small metais. {Charge / discharge currents50mA, The capacitance measurement shall be made at each step specified in table. Capacitance change from the value of Te step 3 shall not exceed the limit specified ce i 2. [3 4 75] Cre] Temp. Coefficient B within: 10% [-siee_t - 6 | Temp Cc se] 350 to 1000pm/% E within? 22% [ 2042%c | -2543' [20t2'c | B52 | 20+2% | (Temp. Range : +20 to +85%) F within 22% Pre-treatment : Capacitor shall be stored at 85+2C for 1 hour, then placed at 2) roam condition for 24+2 hours before initial measurements. (B,E,F) |Appeerance | No marked defect. No marked defect. The itor shall firmly be soldered to the supporting lead ? Capacitance Within the specified tolerance. Within the specified tolerance. rea and yrange 1 Seam in total aoptitde ana apne 1 Resistance 7 minute in the rate of vibration change from 10Hz to 55Hz e F | St | Casper : oe joor20c") Ss . ESn ot and back to 10Hz is applied for a total of 6 hours; 2 hours aie pF: a each in 3 mutually perpendicular directions. LAppearance | No marked defect. No marked defect. The lead wire shall be immersed into the melted solder of 350410 (Body of 65 and under : 2704+5C) up to about 1.5 c B within+5% to 2mm from the main body for 3.5+0.5 sec. (Body of 05 withint2.5% E withint15% and under : 5+0.5sec.) . Change Ls. F withint20% Pre-treatment : Capacitor shall be stored at 85+2C for 1 hour, then placed at 2) room condition for 8 Effect 24+2 hours before initial measurements. Dielectric (8.E.F) eee ead Pass the item No. 5. Pass the item No. 5. Post-treatment : aapaction vation sy for 1 to 2 hours at wires) Post-treatment : Capacitor shall be stored for 24+2 hours at " 2) room condition. (B,E,F} [Appearance | No marked defect. No marked defect. Set the capacitor for 500 +7 hours at 40427 in 90 to 95% humidity. 8 within10% Cy ity ries Pre-tr 16 shall be stored at 85+2C for 1 Humidity Change Lose] withint5% E withine20% hour, then placed at 2) room condition for 9 (Under Steady F within30% 24+2 hours before initial measurements. State) a C230pF : G2350 aE D.F.<5.0% BLE.F) DF. | Sh C<30pF : Q2275+ 30 |--8-|_2 esse Post-treatment *FoPachtor shall be stored for 1 to 2 hours at 1K. -{ 1000MSt_min. 1000M2_min. | Apoearance | No marked defect. No marked defect. Apply the rated voltage for 500 *? hours at 40+2C in 90 to od 95% humidity. c B. within10% {Charge / discharge currents50mA) r within+7.5% E within+20% Pre-treatment : Capacitor shail be stored at 85242 for 1 Change [se FE within30% hour, then placed at 2} room condition for Humidity 24+2 hours before initial measurements. 10 | Loading (BEF) Q Cz30pF : 2200 BOE D. F.s5.0% Post-treatment : Capacitor shall be stored for 1 to 2 hours at OF: | St | C<30pF : Q2100+ 47.C1) FE D.F.S87.5% 2) room condition. (SL) Post-treatment : Capacitor shall be stored at 852C for 1 . a hour, then placed at 2) room condition for LR 5O00M2Q min. 500MQ min. 24+2 hours. (B,E,F) [Appearance | No marked defect. No marked defect. Apply a DC voltage of 150% of the rated voltage for 1000 3 hours at a5+2. B withint10% (Charge/discharge SOMA) r withint3% E withint20% Pre-treatment : Capacitor shail be stored at 852C for 1 Change Ls | FE within30% hour, then placed at 2) room condition for 24+2 hours before initial measurements. 11 | Lite (B.E.F) Q C230pF : 2350 { BE ] D. F.54.0% ] Pp : Capacitor shall be stored for 1 to 2 hours at D.F. st C<30pF : Q2275+ $C) LE D.F.S7.5% | 2) room condition. (SL) Pos-treatment : Capacitor shall be stored at 85+2'C for 1 hour, then placed at 2) room condition for ER, 2000MQ min. 2000MQ min, 24+2 hours. (B,E,F) As a figure, fix the body of capacitor,apply a vies tensile weight gradually to each lead wire in fees) Pull the radial direction of capacitor up to 10N \ (1.0kgf} 5N (0.54kgf) for Lead diameter 6 4 Strength Lead wire shall not cut off. 0.5) and keep it for 1041 sec. 12 of Lead Capacitor shalt not be broken. Each lead wire shalt be subjected to 5N (0.51kgf) 2.5N (0.25kgf) for Lead diameter 60.5) weight and then a 90 Bending bend, at the paint of egress, in one direction, return to original position, and then a 90 bend in the opposite irection at the rate e bend in 2 t The tead wire of a capacitor shall be dipped into a methanol Lead wire shall be soldered with uniformly coated on the axial direction over of the solution of 25wt% rosin and then into motten solder of 13 | Solderbiity of Leads circumferential direction. 235+5C for 2+0.5 seconds. In both cases the depth of dipping fs up to about 1.5 to 2mm from the root of lead wires. 1) C expresses nominal capacitance value (pF) . 2) room condition temperature : 15 to 35, humidity : 45 to 75%, atmospheric pressure : 86 to 106kPa1. Operating Voltage When DC-rated capacitors are to be used in AC or ripple current circuits, be sure to maintain the Vp-p value of the applied voltage or the Vo-p which contains 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 these irregular voltage. When using the low-dissipation DEA/DEH series in a high-frequency and high-voltage circuit, be sure to read the instructions in item 4. Voltage DC Voltage DC+AC Voltage AC: Voltage Pulse Voltage (1) Pulse Voltage (2) Positional AVAVAN [| - measurement Vo-p Vo-p Vp-p Vp-p Vp-p 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. The allowable frequency should be in less than 300kHz in sine wave. Applied voltage should be the load such as self-generated heat is within 5 C in case of temperature characteristic SL and within 20C for other temperature characteristic on the condition of atmosphere temperature 25 C. When measuring, use a thermocouple of small thermal capacity-K of a0.1mm and be in the condition where capacitor is not affected by radiant heat of other components and wind of surround- ings. (Never attempt to perform measurement with the cooling fan running. Otherwise, accurate measurement cannot be ensured.) Before using the low-dissipation DEA/DEH series, be sure to read the instructions in item 4. 3. Fail-Safe When capacitor would be broken, failure may result in a short circuit. Be sure to provide an appropriate fail-safe function like a fuse on your product if failure would follow an electric shock, fire or fume. Continued on the following page.Continued fram the preceding page. 4. Load Reduction and Self-generated Heat During Application of High-frequency and High-voaltage Since the heat generated by the low-dissipation capacitor itself is low, its allowable power is much higher than the general B characteristic. However, in case such an applied load that the self-heating temperature is 20C at the rated voltage, the allowable power may be exceeded. Therefore, when using the DEA/DEH series in a high- frequency and high-voltage circuit with a frequency of 1kHz or higher, make sure that the Vp-p values including the DC bias, do not exceed the applied voltage value specified in Table 1. Also make sure that the self-heating temperature (the difference between the capacitors surface temperature and the <Table 1> Allowable Conditions at High-frequency capacitor's ambient temperature ) at an ambient temperature of 25C does not exceed the value specified in Table 1. As shown in Fig. 2, the self-heating temperature depends on the ambient temperature. Therefore, if you are not able to set the ambient temperature to approximately 25C, please contact our sales representatives or product engineers. Failure to follow the above cautions (item 1 to 4) may result, worst case, in a short circuit and cause fuming or partial dispersion when the product is used. <Fig. 1> Relationship Between Applied Voltage and Seif-heating Temperature (Allowable Self-heating Temp. at 25C Ambient Temp.) Allowable Conditions Temp pC at High-frequency 3. Operating Series Char. Rated Environment \Vottage| Applied | Sel-heating Temp. | Temp, *2 Voltage (Max: (25C Ambient Temp) "1} R 250V 250Vp-p 10C Max. Cc 500V 500Vp-p 20C Max. 800Vp- 20C Max. "Vv +000; ; 5CM | jax. DEH PP 1400Vp-p 20C Max. R 2kV -25 to +85C 2000Vp-p 5C Max. 1600V; 20C Max. 3.15kV PP 3150Vp-p 5C Max. 1kV | 1000Vp-p DEA SL 2kV 2000Vp-p 5C Max. 3.15kV | 3150Vp-p DEH Series R Char. (DC Rated Voltage:1 to 3.15kV) 2 7 Io S : Port a 20 t oo & \\ Po Do , . aon F : fobodd 2 1s : \\: a s : Nobob: 2 , a aoe = 10 r mis 2 ' . . oo8 o : on re : 2 5 : \\ io 2 2 _ . . CT aT Sea 2 : Por bdrrin 400 1000 10000 Applied Voltage [Vp-p] *1 Fig. 1 shows the relationship between the applied voltage and the allowable self- heating temperature regarding 1 to 3.15kV rated voltage of the DEH series R characteristic. *2 When the ambient temperature is 85 to 125C, the applied voltage needs to be further reduced. if the DEA/DEH series needs to be used at an ambient temperature of 85 to 125C, please contact our sales representatives or product engineers. *3 Fig. 3 shows reference data on the allowable voltage-frequency characteristic for a sine wave voltage. <Fig. 2> Dependence of Self-heating Temperature on Ambient Temperature DEH Series C Char. and R Char. (DC Rated Voltage:1 to 3.15kV) 25 20 NO C Char. (500V) R Char. (1 to 3.15kV) || Self-heating Temperature [C] n Y Po, 0 * = 0 20 (25) 40 60 80 100 Ambient Temperature [C] DEH Series R Char. (DC Rated Voltage:250V) and DEA Series SL Char. (DC Rated Voltage:1 to 3.15kV) 20 = a p__] R Char. (250V) | i a oe SL Char. (1 to 3.15kV) 0 0 20 (25) 40 60 80 100 Ambient Temperature [C] Self-heating Temperature [C] 3 Continued on the following page. [AlContinued from the preceding page. <Fig. 3> Allowable Voltage (Sine Wave Voltage) - Frequency Characteristic (At Ambient Temperature of 85C or less) Because of the influence of harmonics, when the applied to the allowable voitage for a sine wave whose fundamental voltage is a rectangular wave or pulse wave voltage (instead frequency is twice as large as that of the rectangular wave or of a sine wave voltage), the heat generated by the capacitor pulse wave. This allowable voltage, however, varies is higher than the value obtained by application of the sine depending on the voltage and current waveforms. wave with the same fundamental frequency. Therefore, you are requested to make sure that the self- Roughly calculated for reference, the allowable voltage for a heating temperature is not higher than the value specified in rectangular wave or pulse wave corresponds approximately Table 1. DEH Series R Char. (DC Rated Voltage:250V) DEH Series C Char. (DC Rated Valtage:500V) 10000 10000 Allowable Voltage [V(peak to peak)) Allowable Voltage (V(peak to paak)] 1000 -- 1000 os (500) _ pain 1000pF (250) - to 2200pF 2200F aeeee tet 4700pF i i 10000pF i 100 100 4 1 1000 1 Frequency [kHz} Frequency [kHz} DEH Series R Char. (DC Rated Voltage:1kV) DEH Series R Char. (DC Rated Voltage:2kV) 10000 10000 1000 1000 Allowable Voltage [V(peak to peak)] Allowable Voltage [V(peak to peak)] 100 100 1 10 100 Frequency [kHz] Frequency [kHz} DEH Series R Char. (DC Rated Voltage:3.15kV) 10000 (3150) t= 1000 220pF 470pF 1000pF 2200pF Allowable Voltage [V(peak to peak)] 100 1 0 Frequency [KHz} Continued on the follawing page.NMI Continued from the preceding page. <Fig. 3 (continue)> Allowable Voltage (Sine Wave Voltage) - Frequency Characteristic (At Ambient Temperature of 85C or less) Because of the influence of harmonics, when the applied approximately to the allowable voltage for a sine wave voltage is a rectangular wave or pulse wave voltage whose fundamentai frequency is twice as large as that of (instead of a sine wave voltage), the heat generated by the rectangular wave or pulse wave. the capacitor is higher than the value obtained by This allowable voltage, however, varies depending on the application of the sine wave with the same fundamental voltage and current waveforms. frequency. Therefore, you are requested to make sure that the self- Roughly calculated for reference, the allowabie voltage heating temperature is not higher than the value specified for a rectangular wave or pulse wave corresponds in Table 1. DEA Series SL Char. (DC Rated Voltage : 1kV) DEA Series SL Char. (DC Rated Voltage : 2kV) 10000 10000 = 2 oa Oo 1000 Allowable Voltage [V(peak to peak)} Allowable Voltage [V(peak to peak)] we ereepeee 100 100 1 Frequency [kHz] Frequency [kHz] DEA Series SL Char. (DC Rated Voitage : 3.15kV) 10000 wnbente wehiete sawwcchocclacdbede (3150) Allowable Voltage [V(peak to peak)] 2 8 100 1 10 100 1000 Frequency [kHz]