MONOLITHIC CERAMIC CAPACITORS

!Note Please read rating and!caution (for storage and operating, rating, soldering and mounting, handling) in this PDF catalog to prevent smoking and/or burning, etc. C49E4.pdf 02.9.7 This catalog has only typical specifications. Therefore, you are requested to approve our product specification or to transact the approval sheet for product specificaion before ordering. Monolithic Ceramic Capacitors MONOLITHIC CERAMIC CAPACITORS Murata Manufacturing Co., Ltd. Cat.No.C49E-4

!Note C49E4.pdf 02.9.7 CONTENTS ing 2 Monolithic Ceramic Capacitors Lead Type 4 Marking 5 Temperature Compensating Type V 6 Temperature Compensating Type V 7 Temperature Compensating Type V 8 High Dielectric Constant Type 25V Characteristics 9 High Dielectric Constant Type 25V Characteristics 0 High Dielectric Constant Type V Characteristics 0 High Dielectric Constant Type V Characteristics High Dielectric Constant Type V Characteristics High Dielectric Constant Type V Characteristics 2 High Dielectric Constant Type V Characteristics 2 High Dielectric Constant Type V Characteristics 3 High Dielectric Constant Type V Characteristics 3 High Dielectric Constant Type V Characteristics 4 Specifications and Test Methods 5 Packaging 9 Notice 2 Recycled Paper

!Note C49E4.pdf 02.9.7 o ing The structure of the "Global s" that have been adopted since June 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. ) Monolithic Ceramic Capacitors (lead type) (Global ) RP q E w R e H r 04 t K y 2 u M i A0 o A!0 qproduct ID wseries/terminal Product ID Series/Terminal RP E Monolithic Ceramic Capacitors Lead Type etemperature Characteristics Code Temperature Characteristics Temperature Range Capacitance Change or Temperature Coefficient Operating Temperature Range 5C -55 to 25 C 0±30ppm/ C -55 to 25 C 6R R2H -55 to 85 C -220±60ppm/ C -55 to 25 C 7U U2J -55 to 85 C -7±20ppm/ C -55 to 25 C E4 0 to 85 C +22, -56% 0 to 85 C F5-30 to 85 C +22, -82% -30 to 85 C R7-55 to 25 C ±5% -55 to 25 C rrated Voltage Code E H 2A 2D Rated Voltage DC25V DCV DCV DCV tcapacitance 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. ilead Type Code Lead Type Lead Space A* Straight Long Bulk F=2.5mm B* Straight Long Bulk F=mm C* Straight Long Bulk other than above E* Straight Taping F=mm K* Incrimp Bulk F=mm M* Incrimp Taping F=mm P* Outcrimp Bulk F=2.5mm S* Outcrimp Taping F=2.5mm Lead style depends on individual standards. * indicates a figure. Continued on the following page. ycapacitance Tolerance Code C D J K M Z Capacitance Tolerance ±0.25pF ±0.5pF ±5% ±0% ±20% +80%, -20% Temperature Characteristics,R2H, U2J Capacitance Step V5pF : pf Step 6 to 9pF : pf Step U0 : E2 Series E6 Series E3 Series E3 Series usize Code 2 3 4 5 6 7 Size 3.5g3.0 mm g3.5 mm g4.5 mm 7.5g mm 7.5g7.5 mm 0.0g0.0 mm 2.5g2.5 mm 2

!Note C49E4.pdf 02.9.7 Continued from the preceding page. oindividual Specification Code Individual Specification Code A0 B0 C02 C03 D02 D03 E2 F03 F2 F4 X03 X3 Y03 Series (size) (mm) (mm) RPE_ (mm) (mm) (mm) RPE_ (mm) RPE_ (mm) (mm) (mm) (7.5xmm) (7.5xmm) (mm) (0.0x0.0mm) (2.5x2.5mm) (0.0x0.0mm) (0.0x0.0mm) (7.5xmm) (mm) (0.0x0.0mm) (2.5x2.5mm) (0.0x0.0mm) RPE_ (mm) (mm) (mm) Temperature Characteristics Type HiK HiK HiK HiK HiK TC/HiK HiK TC/HiK TC HiK TC TC TC/HiK Individual Specification Standard Type (small internal chip size of 2.0x.25mm) Standard Type (small internal chip size of 2.0x.25mm) Standard Type (Steel lead wire) Standard Type Standard Type (Steel lead wire) Standard Type Special Dimension Type (Special size of internal chip) Standard Type (Special size of internal chip) Special Dimension Type (LxW size of 0x8.5 is available.) Special Dimension Type (LxW size of 0x8.5 is available.) Standard Type (New Ceramic Material), (Special size of internal chip) Special Dimension Type (New Ceramic Material), (LxW size of 0x8.5 is available.) Standard Type (New Ceramic Material) Inner Electrode Base Metal Precious Metal Base Metal Base Metal Precious Metal Precious Metal Base Metal Precious Metal Precious Metal Precious Metal Precious Metal Precious Metal Precious Metal!0Packaging Code A B Packaging Ammo Pack Bulk 3

!Note C49E4.pdf 02.9.7 Monolithic Ceramic Capacitors Monolithic Ceramic Capacitors Lead Type 3.5 max. 2.5 max. Features. The RPE series capacitors have small dimensions, large capacitance, and a capacity volume ratio of 0 micro F/cm cube, close to that of electrolytic capacitors. These do not have polarity. 2. These have excellent frequency characteristics and due to these small internal inductance are suitable for high frequencies. 3. These are not coated with wax so there is no change in their exterior appearance due to the outflow of wax during soldering or solvent during cleansing. 4. These are highly inflammable, having characteristics equivalent to the UL-94V-0 standard. RPE_ Series.5 max. 2.5±0.8 max. 3.0 max. 2 min. ø0.4±0.05 T max. in mm W max. W max. 2 min. ø0.5±0.05 P/2S Series P/3S Series 2.5±0.8 P/2S : W 3.5, W P/3S : W 4.5, W 6.3 Coating extension does not exceed the end of the lead bend. (in mm) L max. T max. L max. T max. W max. W max. W max. W max. 2 min. ø0.5±0.05 2 min. ø0.5±0.05 K/2M Series K/3M Series ±0.8 K/2M : L, W 3.5, W K/3M : L, W 4.5, W 6.3 : L 7.5, W, W 7.0 Coating extension does not exceed the end of the lead bend. (in mm) Series ±0.8 K/2M : L, W 3.5, W K/3M : L, W 4.5, W 6.3 : L 7.5, W, W 7.0 Coating extension does not exceed the end of the lead bend. (in mm) Lmax. Tmax. Lmax. Tmax..5max. Wmax..5max. 2min. Wmax. ø0.5±0.05 2min. ø0.5±0.05 F±0.8 F±0.8 Series : L 7.5, W 7.5, T 4.0, F : L 0.0, W 0.0, T 4.0, F : L 2.5, W 2.5, T, F 0.0 in mm Series Series : L 7.5, W 7.5, T 4.0, F : L 0.0, W 0.0, T 4.0, F : L 2.5, W 2.5, T, F 0.0 in mm Continued on the following page. 4

!Note C49E4.pdf 02.9.7 Continued from the preceding page. Dimensions Series RPE_ P/S K/M P/S K/M RPE_T Dimensions (mm) L W W T F d 3.5 7.5 7.5 0.0 2.5 0.0 3.0 3.5 3.5 4.5 4.5 7.5 0.0 2.5 8.5-6.3 6.3 7.0 - - - - 2.5 See rating table 4.0 4.0 4.0 2.5 2.5 2.5 0.0 0.4 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 Marking Manufacture's Identification * Nominal Capacitance Capacitance Tolerance * DC Rated Voltage * Temperature Characteristics * Symbol Code (except RPE_ series) Less then pf : Actual numbers pf and over : 3 digit numbers Symbol marking Symbol marking (except RPE R7/E4/F5_ type) Ex. V : 5 V : V : 6 Symbol marking (except RPE R7/E4/F6_ type) Ex. 5C : A, R7 : C 6R : R, E4 : E 7U : U, F6 : F Marking Example Char. 5C Type * * 6R/7U R7 E4 F6 RPE_ series 02J 5A 02J 5U 682M 682Z series M 02 J5A M 23 K5C M 333 M5E M 04 Z5F series series M 03 M 224 M 334 M 05 J5A K5C M5E Z5F series series series M 333 J5A M 05 M5C M 225 Z5E M 335 Z5F *Marked on both sides. * Marking for type ; Manufacture's identification, capacitance tolerance, rated voltage and temperature characteristics may be omitted by part No. Please contact Murata for details. 5

!Note C49E4.pdf 02.9.7 Temperature Compensating Type V RPE_ R2H (6R) U2J (7U) 7.5x 0.0x0.0 2.5x2.5 6 0.5pF 2.5.0pF 2.5 2.5 2.0pF 2.5 2.5 3.0pF 2.5 2.5 2.5 2.5 4.0pF 2.5 2.5 2.5 2.5 pf 2.5 2.5 2.5 2.5 6.0pF 2.5 2.5 2.5 2.5 7.0pF 2.5 2.5 2.5 2.5 8.0pF 2.5 2.5 2.5 2.5 9.0pF 2.5 2.5 2.5 2.5 0.0pF 2.5 2.5 2.5 2.5 2pF 2.5 2.5 2.5 2.5 5pF 2.5 2.5 2.5 2.5 8pF 2.5 2.5 2.5 2.5 22pF 2.5 2.5 2.5 2.5 27pF 2.5 2.5 2.5 2.5 33pF 2.5 2.5 2.5 2.5 39pF 2.5 2.5 2.5 2.5 47pF 2.5 2.5 2.5 2.5 56pF 2.5 2.5 2.5 2.5 68pF 2.5 2.5 2.5 2.5 82pF 2.5 2.5 2.5 2.5 pf 2.5 2.5 2.5 2.5 20pF 2.5 2.5 2.5 2.5 pf 2.5 2.5 2.5 2.5 80pF 2.5 2.5 2.5 2.5 220pF 2.5 2.5 2.5 2.5 270pF 2.5 2.5 2.5 2.5 330pF 2.5 2.5 2.5 2.5 390pF 2.5 2.5 2.5 2.5 470pF 2.5 2.5 2.5 2.5 560pF 2.5 2.5 2.5 2.5 680pF 2.5 2.5 2.5 820pF 2.5 2.5 2.5 0pF 2.5 2.5 2.5 pf 2.5 2.5 3.2 0pF 2.5 2.5 3.2 800pF 2.5 2.5 3.2 2pF 2.5 3.2 2700pF 3.2 3300pF 3.2 3900pF 3.2 4700pF 3.2 5600pF 3.2 6800pF 3.2 8pF 3.2 00pF 3.2 0pF 3.2 00pF 3.2 Continued on the following page.

!Note C49E4.pdf 02.9.7 Continued from the preceding page. RPE_ R2H (6R) U2J (7U) 7.5x 0.0x0.0 2.5x2.5 8000pF 4.0 20pF 4.0 27000pF 4.0 33000pF 4.0 39000pF 4.0 47000pF 56000pF 68000pF Temperature Compensating Type V RPE_ R2H (6R) U2J (7U) 7.5x 0.0x0.0 2.5x2.5.0pF 2.5 2.5 2.0pF 2.5 2.5 3.0pF 2.5 2.5 2.5 2.5 4.0pF 2.5 2.5 2.5 2.5 pf 2.5 2.5 2.5 2.5 6.0pF 2.5 2.5 2.5 2.5 7.0pF 2.5 2.5 2.5 2.5 8.0pF 2.5 2.5 2.5 2.5 9.0pF 2.5 2.5 2.5 2.5 0.0pF 2.5 2.5 2.5 2.5 2pF 2.5 2.5 2.5 2.5 5pF 2.5 2.5 2.5 2.5 8pF 2.5 2.5 2.5 2.5 22pF 2.5 2.5 2.5 2.5 27pF 2.5 2.5 2.5 2.5 33pF 2.5 2.5 2.5 2.5 39pF 2.5 2.5 2.5 2.5 47pF 2.5 2.5 2.5 2.5 56pF 2.5 2.5 2.5 2.5 68pF 2.5 2.5 2.5 2.5 82pF 2.5 2.5 2.5 2.5 pf 2.5 2.5 2.5 2.5 20pF 2.5 2.5 2.5 2.5 pf 2.5 2.5 2.5 2.5 80pF 2.5 2.5 2.5 2.5 220pF 2.5 2.5 2.5 2.5 270pF 2.5 2.5 2.5 2.5 330pF 2.5 2.5 2.5 2.5 390pF 2.5 2.5 2.5 2.5 470pF 2.5 2.5 2.5 2.5 560pF 2.5 2.5 2.5 2.5 680pF 2.5 2.5 2.5 820pF 2.5 2.5 3.2 Continued on the following page. 7

!Note C49E4.pdf 02.9.7 Continued from the preceding page. RPE_ R2H (6R) U2J (7U) 7.5x 0.0x0.0 2.5x2.5 0pF 2.5 3.2 pf 3.2 0pF 3.2 800pF 3.2 2pF 3.2 2700pF 3.2 3300pF 3.2 3900pF 3.2 4700pF 2.5 5600pF 3.2 6800pF 3.2 8pF 4.0 00pF 4.0 0pF 4.0 00pF 4.0 8000pF 4.0 20pF 4.0 27000pF 4.0 33000pF 4.0 39000pF 47000pF 56000pF Temperature Compensating Type V RPE_ R2H (6R) 7.5x 0.0x0.0 2.5x2.5.0pF 2.5 2.5 2.0pF 2.5 2.5 3.0pF 2.5 2.5 2.5 4.0pF 2.5 2.5 2.5 pf 2.5 2.5 2.5 6.0pF 2.5 2.5 2.5 7.0pF 2.5 2.5 2.5 8.0pF 2.5 2.5 2.5 9.0pF 2.5 2.5 2.5 0.0pF 2.5 2.5 2.5 2pF 2.5 2.5 2.5 5pF 2.5 2.5 2.5 8pF 2.5 2.5 2.5 22pF 2.5 2.5 2.5 27pF 2.5 2.5 2.5 33pF 2.5 2.5 2.5 39pF 2.5 2.5 2.5 47pF 2.5 2.5 2.5 56pF 2.5 2.5 2.5 Continued on the following page. 8

!Note C49E4.pdf 02.9.7 Continued from the preceding page. RPE_ R2H (6R) 7.5x 0.0x0.0 2.5x2.5 68pF 2.5 2.5 2.5 82pF 2.5 2.5 2.5 pf 2.5 2.5 2.5 20pF 2.5 2.5 pf 2.5 80pF 3.2 220pF 3.2 270pF 3.2 330pF 3.2 390pF 3.2 470pF 3.2 560pF 3.2 680pF 3.2 820pF 3.2 0pF 3.2 pf 3.2 0pF 3.2 800pF 4.0 2pF 4.0 2700pF 4.0 3300pF 4.0 3900pF 4.0 4700pF 4.0 5600pF 4.0 6800pF 4.0 8pF 4.0 00pF 4.0 0pF 00pF 8000pF 20pF 27000pF High Dielectric Constant Type 25V Characteristics 25 (E).0µF 2.5 K/3M series only. 9

!Note C49E4.pdf 02.9.7 High Dielectric Constant Type 25V Characteristics 25 (E).0µF 2.5 K/3M series only. High Dielectric Constant Type V Characteristics RPE_ 0.0x0.0 2.5x2.5 220pF 2.5 2.5 330pF 2.5 2.5 470pF 2.5 2.5 680pF 2.5 2.5 0pF 2.5 2.5 0pF 2.5 2.5 2pF 2.5 2.5 3300pF 2.5 2.5 4700pF 2.5 2.5 6800pF 2.5 2.5 00pF 2.5 2.5 00pF 2.5 2.5 20pF 2.5 2.5 33000pF 2.5 3.2 47000pF 2.5 3.2 68000pF 2.5 3.2 0.0µF 2.5 3.2 0.5µF 3.2 0.22µF 3.2 0.33µF 2.5 0.47µF 3.2 0.68µF 3.2.0µF 3.2.5µF 4.0 2.2µF 4.0 3.3µF 0

!Note C49E4.pdf 02.9.7 High Dielectric Constant Type V Characteristics RPE_ 7.5x 0.0x0.0 0pF 2.5 2.5 2pF 2.5 2.5 4700pF 2.5 2.5 00pF 2.5 2.5 20pF 2.5 2.5 47000pF 2.5 2.5 0.µF 2.5 2.5 0.22µF 2.5 3.2 0.47µF 3.2.0µF 2.5 2.2µF 4.0 4.7µF 4.0 High Dielectric Constant Type V Characteristics RPE_ 7.5x 0.0x0.0 2.5x2.5 0pF 2.5 2.5 2pF 2.5 2.5 4700pF 2.5 2.5 00pF 2.5 2.5 20pF 2.5 2.5 47000pF 2.5 2.5 0.0µF 2.5 2.5 0.22µF 2.5 0.47µF 3.2.0µF 3.2 2.2µF 4.0 4.7µF

!Note C49E4.pdf 02.9.7 High Dielectric Constant Type V Characteristics RPE_ 7.5x 0.0x0.0 2.5x2.5 220pF 2.5 2.5 330pF 2.5 2.5 470pF 2.5 2.5 680pF 2.5 2.5 0pF 2.5 2.5 0pF 2.5 2.5 2pF 2.5 2.5 3300pF 2.5 2.5 4700pF 2.5 2.5 6800pF 2.5 2.5 00pF 2.5 2.5 00pF 2.5 20pF 3.2 33000pF 3.2 47000pF 3.2 68000pF 3.2 0.0µF 3.2 0.5µF 3.2 0.22µF 4.0 0.33µF 4.0 0.47µF 4.0 0.68µF 4.0.0µF 4.0.5µF 2.2µF High Dielectric Constant Type V Characteristics RPE_ 7.5x 0.0x0.0 2.5x2.5 0pF 2.5 2.5 2pF 2.5 2.5 4700pF 2.5 2.5 00pF 2.5 2.5 20pF 2.5 47000pF 2.5 0.0µF 2.5 0.22µF 4.0 0.47µF 4.0.0µF 4.0 2.2µF 2

!Note C49E4.pdf 02.9.7 High Dielectric Constant Type V Characteristics RPE_ 0.0x0.0 2.5x2.5 0pF 2.5 2.5 2pF 2.5 2.5 4700pF 2.5 2.5 00pF 2.5 2.5 20pF 2.5 47000pF 2.5 0.0µF 3.2 0.22µF 4.0 0.47µF 4.0.0µF 4.0 2.2µF High Dielectric Constant Type V Characteristics RPE_ 7.5x 0.0x0.0 2.5x2.5 220pF 2.5 2.5 330pF 2.5 2.5 470pF 2.5 2.5 680pF 2.5 2.5 0pF 2.5 2.5 0pF 2.5 2.5 2pF 2.5 2.5 3300pF 2.5 3.2 4700pF 2.5 3.2 6800pF 3.2 00pF 3.2 00pF 3.2 20pF 3.2 33000pF 3.2 47000pF 3.2 68000pF 3.2 0.0µF 4.0 0.5µF 4.0 0.22µF 4.0 0.33µF 4.0 0.47µF 4.0 0.68µF.0µF.5µF 3

!Note C49E4.pdf 02.9.7 High Dielectric Constant Type V Characteristics RPE_ 0.0x0.0 2.5x2.5 0pF 2.5 3.2 2pF 2.5 3.2 4700pF 3.2 00pF 2.5 20pF 3.2 47000pF 3.2 0.0µF 4.0 0.22µF 4.0 0.47µF 4

!Note C49E4.pdf 02.9.7 Specifications and Test Methods No. Item Operating Temperature Range Temperature Compensating Type Y55 to W25 C 2 Rated Voltage See previous pages. Specification High Dielectric Constant Type : Y55 to W25 C : W0 to W85 C : Y30 to W85 C Test Method The rated voltage is defined the maximum voltage which may be applied continously to the capacitor. When AC voltage is superimposed on DC voltage, V P-P or V O-P, whichever is larger, shall be maintained within the rated voltage range. 3 Appearance No defects or abnormalities. Visual inspection. 4 Dimension and Marking See Dimensions Visual inspection. Vernier Caliper. 5 Dielectric Strength 6 Insulation Resistance Between Terminals Body Insulation Between Terminals No defects or abnormalities. No defects or abnormalities.,000mω min. or 0Ω F min. (whichever is smaller) 7 Capacitance Within the specified tolerance. :,000MΩ min. or 0Ω F min. (whichever is smaller) 0,000MΩ min. or 0Ω F min. } : (whichever is smaller) The capacitors shall not be damaged when DC voltages of 300 % of the rated voltage are applied between the terminals for to 5 seconds. (Charge/discharge current V ma) The capacitor is placed in a container with metal balls of diameter mm so that each terminal, short-circuited, is kept approximately 2mm from the balls as shown in the figure, and 2 % of the rated DC voltage is impressed for one to five seconds between capacitor terminals and metal balls. (Charge/discharge current V ma) Approx. 2mm Metal balls The insulation resistance shall be measured with a DC voltage not exceeding the rated voltage at normal temperature and humidity and within 2 minutes of charging. (Charge/Discharge current V ma) The capacitance, Q/DF shall be measured at 25 C at the frequency and voltage shown in the table. 8 Q/Dissipation Factor (D.F.) 30pF min. : Q U 0 30pF max. : Q U 400W20C C : Nominal capacitance (pf) : 0.025 max. } : 0.05 max. Item Char., R2H, U2J (0pF and Below), R2H, U2J (more than 0pF), ) Frequency T0.MHz T0.kHz T0.kHz Voltage 0.5 to 5Vrms T0.2Vrms 0.5T0.0.5Vrms 9 Capacitance Temperature Characteristics Capacitance Change Temperature Coefficient Capacitance Drift Within the specified tolerance. (Table A) Within the specified tolerance. (Table A) Within T0.2% or T0.05pF (Whichever is larger) Within the specified tolerance. (Table B) The capacitance change shall be measured after 5min. at each specified temperature stage. () Temperature Compensating Type The temperature coefficient is determined using the capacitance measured in step 3 as a reference. When cycling the temperature sequentially from step through 5 (Y55 to W25 C for ; Y55 to W85 C for other temp. coeffs.) the capacitance shall be within the specified tolerance for the temperature coefficient and capacitance change as Table A. The capacitance drift is caluculated by dividing the differences between the maximum and minimum measured values in step, 3 and 5 by the cap. value in step 3. Step 2 3 4 5 Temperature ( C) Y25T2 Y55T3 Y25T2 25T3 (for ) 85T3 (for other TC) Y25T2 (2) High Dielectric Constant Type The ranges of capacitance change compared with the 25 C value over the temperature ranges shown in the Table B shall be within the specified ranges. Continued on the following page. 5

!Note C49E4.pdf 02.9.7 Specifications and Test Methods Continued from the preceding page. No. Item Temperature Compensating Type Specification High Dielectric Constant Type Test Method As in the figure, fix the capacitor body, apply the force gradually to each lead in the radial direction of the capacitor until reaching 0N* and then keep applied the force for 0T seconds. Tensile Strength Termination not to be broken or loosened. 0 Terminal Strength F * 5N for L3.5gW3.0 (mm) Vibration Resistance 4 Temperature and Immersion Cycle Bending Strength Appearance Capacitance Q/D.F. 2 Solderability of Leads 3 Resistance to Soldering Heat Dielectric Strength (Between Terminals) Termination not to be broken or loosened. No defects or abnormalities. Within the specified tolerance. 30pF min. : Q U 0 30pF max. : Q U 400+20C C : Nominal capacitance (pf) No defects or abnormalities. : 0.025 max. } : 0.05 max. Solder is deposited on unintermittently immersed portion in axial direction covering 3/4 or more in circumferential direction of lead wires. Each lead wire shall be subjected to a force of 2.5N and then be bent 90 at the point of egress in one direction. Each wire is then returened to the original position and bent 90 in the opposite direction at the rate of one bend per 2-3 seconds. The capacitor is soldered securely to a supporting terminal and a 0 to 55Hz vibration of.5mm peakpeak amplitude is applied for six hours total, 2 hours in each mutually perpendicular direction. Allow minute to cycle the frequency from 0Hz to 55Hz and the converse. The terminal of a capacitor is dipped into a 25 % ethanol (JIS-K-80) solution of rosin (JIS-K-5902) and then into molten solder (JIS-H-434, H63A) of 235T5 C for 2 seconds T0.5 seconds. In both cases the depth of dipping is up to about.5mm to 2mm from the terminal body. Appearance No defects or abnormalities. The lead wire is immersed in the melted solder (JIS-H- : Within T7.5% 434, H63A).5mm to 2mm from the main body at Capacitance Within T2.5% or T0.25pF 270T5 C for 3T0.5 seconds (L3.5gW3.0 (mm) type) or Change (Whichever is larger) } : Within T20% 3T0 C for 3.5 seconds T0.5 seconds (all other types). The specified items are measured after 24 hours T2 hours (temperature compensating type) or 48 hours T4 hours (high dielectric type). Dielectric Strength (Between Terminals) Appearance Capacitance Change Q/D.F. Insulation Resistance No defects. No defects or abnormalities. Within T5% or T0.5pF (Whichever is larger) 30pF min. : Q U 3 5 0pF to 30pF : Q U 275W 2 C 0pF max. : Q U W0C C : Nominal capacitance (pf) 00MΩ or 0Ω F min. (Whichever is smaller) : Within T2.5% } : Within T30% : 0.05 max. } : 0.075 max. : 00MΩ or 0Ω F min. (Whichever is smaller) 0MΩ or Ω F min. } : (Whichever is smaller) Initial measurement for high dielectric constant type. The capacitors are heat treated for one hour at W Y0 0 C, allowed to set at room temperature for 48 hours T4 hours, and given an initial measurement. First, repeat the following temperature/time cycle five times : lowest operating temperature T3 C/30T3 minutes ordinary temperature/3 minutes max. highest operating temperature T3 C/30T3 minutes ordinary temperature/3 minutes max. Next, repeat twice the sucessive cycles of immersion, each cycle consisting of immersion in a fresh water at 65Y0 C W5 for 5 minutes and immersion in a saturated aqueous solution of salt at 0T3 C for 5 minutes. The capacitor is then promptly washed in running water, dried with a drying cloth, and allowed to sit at room temperature for 24 hours T2 hours (temperature compensating type) or 48 hours T4 hours (high dielectric type). Initial measurement for high dielectric constant type. The capacitors are heat treated for one hour at W Y0 0 C, allowed to sit at room temperature for 48 hours T4 hours, and given an initial measurement. Continued on the following page. 6

!Note C49E4.pdf 02.9.7 Continued from the preceding page. Specifications and Test Methods No. 5 8 Humidity (Steady State) 6 Humidity Load 7 High Temperature Load Solvent Resistance Item Appearance Capacitance Change Q/D.F. Insulation Resistance Appearance Capacitance Change Q/D.F. Insulation Resistance Appearance Capacitance Change Q/D.F. Insulation Resistance Appearance Marking Temperature Compensating Type No defects or abnormalities. Within T5% or T0.5pF (Whichever is larger) 30pF min. : Q U 3 5 0pF to 30pF : Q U 275W 2 C 0pF max. : Q U W0C C : Nominal capacitance (pf) 00MΩ or 0Ω F min. (Whichever is smaller) No defects or abnormalities. Within T5% or T0.5pF (Whichever is larger) 30pF min. : Q U 3 5 0pF to 30pF : Q U 275W 2 C 0pF max. : Q U W0C C : Nominal capacitance (pf) 00MΩ or 0Ω F min. (Whichever is smaller) No defects or abnormalities. Within T3% or T0.3pF (Whichever is larger) 30pF min. : Q U 3 5 0pF to 30pF : Q U 275W 2 C 0pF max. : Q U W0C C : Nominal capacitance (pf) 00MΩ or 0Ω F min. (Whichever is smaller) No defects or abnormalities. Legible Specification High Dielectric Constant Type : Within T2.5% } : Within T30% : 0.05 max. } : 0.075 max. : 00MΩ or 0Ω F min. (whichever is smaller) 0MΩ or Ω F min. } : (whichever is smaller) : Within T2.5% } : Within T30% : 0.05 max. } : 0.075 max. : 00MΩ or 0Ω F min. (whichever is smaller) 0MΩ or Ω F min. } : (whichever is smaller) : Within T2.5% } : Within T30% : 0.04 max. } : 0.075 max. : 00MΩ or 0Ω F min. (whichever is smaller) 0MΩ or Ω F min. } : (whichever is smaller) Test Method Set the capacitor for 0 hours W24 Y 0 hours at 40T2 C in 90 to 95% humidity. Remove and set for 24 hours T2 hours (temperature compensating type) and 48 hours T4 hours (high dielectric constant type) at room temperature, then measure. Initial measurement for high dielectric constant type The capacitors are heat treated for one hour at W Y0 0 C, allowed to sit at room temperature for 48 hours T4 hours and given an initial measurement. Apply the rated voltage for 0 hours W24 Y 0 hours at 40T2 C and in 90 to 95% humidity. Remove and set for 24 hours T2 hours (temperature compensating type) and 48 hours T4 hours (high dielectric constant type) at room temperature, then measure. The charge/discharge current is less than ma. Apply % of the rated voltage for 0 hours W48 Y 0 hours at the maximum operating temperature. Remove and set for 24 hours T2 hours (temperature compensating type) and 48 hours T4 hours (high dielectric comstant type) at room temperature, then measure. The charge/discharge current is less than ma. Initial measurement for high dielectric constant type A voltage treatment shall be given to the capacitor in which a DC voltage of % of the rated voltage is applied for one hour at the maximum operating temperature T3 C. Then set for 48 hours T4 hours at room temperature and conduct initial measurement. The capacitor shall be fully immersed, unagitated, in reagent at 20 to 25 C for 30 sec. T5 sec. and then remove gently. Marking on the surface of the capacitor shall immendiately be visually examined. Reagent : Isopropyl alcohol Table A Capacitance Change from 25 C (%) Char. Nominal Values (ppm/ C) * Y55 C Y30 C Y0 C Max. Min. Max. Min. Max. Min. Y220T30 0.58 Y0.24 0.40 Y0.7 0.25 Y0. R2H Y220T60 3.02 Y.28 2.08 Y0.88.32 Y0.56 U2J Y7T20 8.78 Y4 6.04 Y3.47 3.84 Y2.2 * : Nominal values denote the temperature coefficient within a range of 25 to 25 C (for )/85 C (for other TC). Table B Char. Temp. Range Reference Temp. Cap. Change Rate Y55 to W25 C Within T 5% W0 to W85 C 25 C Within W22 Y56% Y30 to W85 C Within W22 Y82% 7

l!note C49E4.pdf 02.9.7 Specifications and Test Methods Capacitance-Temperature Chatacteristics Capacitance-DC Voltage Chatacteristics 0 +40 : MHz, Vrms : khz, Vrms : khz, 0.5Vrms Capacitance Change (%) 5 0 5 0 60 40 20 0 20 40 60 80 20 Temperature ( C) R2H U2J Capacitance Change C/C (%) +20 V 0 20 40 V 60 V 80 V 0 0 20 30 40 DC Voltage (VDC) Capacitance Change-Aging Capacitance-AC Voltage Chatacteristics : MHz : khz +0 Capacitance Change (%) 0 0 20 30 40, 0 00 Pass Time (Hr) Capacitance Change C/C (%) +80 +60 +40 +20 V V V 0 V 20 0 2 3 AC Voltage (Vrms) Capacitance-Resonant Frequency Impedance-Frequency Characteristics 0 0 Resonant Frepuency (MHz) 0 φ 0.5 l=2mm l=5mm l=0mm Inpedance (Ω) 0. µf 0.µF 0pF 0.0µF pf 0pF 0pF pf 0pF 0.0µF 0.µF µf Capacitance Temp. Compensating High Dielectric Constant 0.0 0 0 Frequency (MHz) 8

!Note C49E4.pdf 02.9.7 Packaging PACKAGING Two types of packaging for epoxy coated monolithic ceramic capacitors are available. (4) Incidental condition of taping (4)- Tape splicing If carrier tape has been cut :. BULK PAGING Minimum quantity * Size code Dimensions (LxW) 2 3 4 7.5x 5 6 0.0x0.0 7 2.5x2.5 Minimum quantity (pcs./bag) 0 Thickness (t ) 8mm Direction of feed Match the separated base tapes, and connect the back side with cellophane tape. Ensure that thickness (t) does not exceed.05mm. If hold down tape has been cut : Cellophane tape Hold down tape Base tape Please order with an integral multiple of the minimum quantity above. 2. TAPE CARRIER PACKAGING () Dimensions of Ammo Pack 20 to 30mm Thickness (t ) Direction of feed Hold down tape Hold down pape Base tape Overlap the hold down tape. Ensure that thickness (t) does not exceed.05mm. 240max. If both hold down tape and base tape have been cut : 5max. 340max. Make connection with hold down tape. (in mm) 25.4T0.5mm (2) Minimum quantity * Size and Leed code Dimensions (LxW) Minimum quantity (pcs./ammo Pack) 2S- 2M- 3S- 3M- 0 Hold down tape.4mm max. Base tape Hold down tape 4M- 7.5x 5E- 6E- 0.0x0.0 0 Please order with an integral multiple of the minimum quantity above. (3) Marking on Ammo Pack The following items are in the marking position on the side of the ammo pack. () (2) Quantity (3) Inspection No. (4) Manufacturer's name, or its abbreviation. (5) Other requirements. * "Minimum Quantity" means the numbers of units of each delivery or order. The quantity should be an integral multiple of the "minimum quantity". (Please note that the actual delivery quantity in a package may change sometimes.) Continued on the following page. 9

!Note C49E4.pdf 02.9.7 Packaging Continued from the preceding page. (5) Taping dimensions Inside Crimp Type Taping Size and Leed code 2M 2M2 3M 3M2 4M 4M2 Straight Type Taping L R L R P P P2 P2 Size and Leed code 5E 5E2 6E 6E2 Outside Crimp Type Taping F P0 F P0 P P ød ød H Direction of feed H0 Direction of feed Dimensions (LxW) W2 W W0 ød0 W2 W W0 ød0 7.5x W t2 W Dimensions (LxW) h 0.0x0.0 S h2 T max. t Item Code Dimensions (mm) Pitch of Component Pitch of Sprocket Hole P P0 2.7 2.7T0.2 Lead Spacing 2.5 W0.4 F Y0.2 F W0.6 Y0.2 Length from Hole Center to Component Center P2 6.35T.3 P 3.85T0.7 Length from Hole Center to P 5.T0.7 (S) (S2) Lead 254T.5 Total length of components pitch Z 20 Body Dimension See Dimensions Deviation Along Tape, Left or Right Defect Carrier Tape Width Position of Sprocket Hole Lead Distance between Reference and Bottom Plane For Straight Lead Type Diameter of Sprocket Hole Lead Diameter Total Tape Thickness Total Thickness of Tape and Lead Wire Body Thickness S W W H0 H0 H D0 d t t2 T T2.0 8.0T0.5 9.0 W0 Y0.5 6.0T0.5 (M) (S) 20.0T0.5 (M2) (S2) 20T0.5 (E2), 7.5T0.5 (E) 4.0T0. 0.5T0.05 0.6T0.3.5 max. See Dimensions Deviation Across Tape h.0 max. h2.0 max. Portion to Cut in Case of L.0 W0 Y.0 Defect Protrusion Length Hold Down Tape Width Hold Down Tape Position Coating Extension R W0 W2 0.5 max..5 min..5t.5 See Dimensions P2 P P F H0 L W2 W W W0 R P0 ød ød0 Direction of feed Size and Leed code Dimensions (LxW) 2S 2S2 3S 3S2 (in mm) 20

!Note C49E4.pdf 02.9.7 Notice Notice (Soldering and Mounting). Allowable Conditions for Soldering Temperature and Time 300 280 qrpe_ w, 3, 4 e, 6, 7 2. Insertion of the Lead Wire () When soldering, insert the lead wire into the PCB without mechanically stressing the lead wire. (2) Insert the lead wire into the PCB with a distance appropriate to the lead space. Soldering Temp. ( C) 270 260 240 220 q w e 5 0 5 20 Accumulated Immersion Time (sec.) Perform soldering within tolerance range (shaded portion). 2

!Note Please read rating and!caution (for storage and operating, rating, soldering and mounting, handling) in this PDF catalog to prevent smoking and/or burning, etc. C49E4.pdf 02.9.7 This catalog has only typical specifications. Therefore, you are requested to approve our product specification or to transact the approval sheet for product specificaion before ordering. Note:. Export Control <For customers outside Japan> Murata products should not be used or sold for use in the development, production, stockpiling or utilization of any conventional weapons or mass-destructive weapons (nuclear weapons, chemical or biological weapons, or missiles), or any other weapons. <For customers in Japan> For products which are controlled items subject to the Foreign Exchange and Foreign Trade Law of Japan, the export license specified by the law is required for export. 2. Please contact our sales representatives or product engineers before using our products listed in this catalog for the applications listed below which require especially high reliability for the prevention of defects which might directly cause damage to the third party's life, body or property, or when intending to use one of our products for other applications than specified in this catalog. q Aircraft equipment w Aerospace equipment e Undersea equipment r Power plant equipment t Medical equipment y Transportation equipment (vehicles, trains, ships, etc.) u Traffic signal equipment i Disaster prevention / crime prevention equipment o Data-processing equipment!0 Application of similar complexity and/or reliability requirements to the applications listed in the above 3. Product specifications in this catalog are as of July 2. They are subject to change or our products in it may be discontinued without advance notice. Please check with our sales representatives or product engineers before ordering. If there are any questions, please contact our sales representatives or product engineers. 4. Please read rating and CAUTION (for storage and operating, rating, soldering and mounting, handling) in this catalog to prevent smoking and/or burning, etc. 5. This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product specification or transact the approval sheet for product specification before ordering. 6. Please read CAUTION and Notice in this catalog for safety. This catalog has only typical specifications. Therefore you are requested to approve our product specification or to transact the approval sheet for product specification, before ordering. 7. Please note that unless otherwise specified, we shall assume no responsibility whatsoever for any conflict or dispute that may occur in connection with the effect of our and/or third party's intellectual property rights and other related rights in consideration of your using our products and/or information described or contained in our catalogs. In this connection, no representation shall be made to the effect that any third parties are authorized to use the rights mentioned above under licenses without our consent. 8. No ozone depleting substances (ODS) under the Montreal Protocol are used in our manufacturing process. http://www.murata.com/ Head Office 2-26-0, Tenjin Nagaokakyo-shi, Kyoto 67-8555, Japan Phone: 8-75-95-9 International Division 3-29-2, Shibuya, Shibuya-ku, Tokyo -0002, Japan Phone: 8-3-5469-623 Fax: 8-3-5469-655 E-mail: intl@murata.co.jp