POLYMER Aluminum Electrolytic Capacitors
Murata Manufacturing Co., Ltd.'s series of polymer aluminum electrolytic capacitors are ideal for low ESR, high capacitance applications in a variety of commercial and industrial markets. Utilizing innovative design and manufacturing processes, the series provides a high level of performance allowing circuit designers to achieve excellent noise suppression, ripple absorption, and output smoothing in power management applications. Features Resin molded case structure utilizes multilayer aluminum foil for anode and solid conductive polymer for cathode High capacitance and Low ESR Excellent low impedance characteristics for noise suppression and decoupling. Stable capacitance with applied voltage/temperature/high frequencies. No voltage derating required Polarity bar (positive) noted on product Surface mount construction RoHS compliant Halogen free epoxy MSL 3 packaging Capacitor Map (Cap & ESR) Ta Capacitor (MnO) Al Capacitor (Can Type/Electrolyte) ESR (ohm) at khz 1 0.01 Ta Capacitor (Polymer) MLCC Al Capacitor (Can Type/Polymer) Series 0.001 1 0 00 Capacitance (µf) at 10Hz
Appearance External Dimensions L W Polarity Indicator Bar (+) Capacitance T Ex.) 0µF/V Rated Voltage S S W1 (in mm) Case Size EIA Metric D 733 D 733 L W T W1 S 7.3±0.3.3±0. ±.±0. 1.3±0. 7.3±0.3.3±0..8±0.3.±0. 1.3±0. 733 7.3±0.3.3±0.3.±0.3.±0. 1.3±0. Specifications Capacitance Range:.8 to 70µF Rated Voltage: to Vdc ESR: to 70mΩ Operating Temperature: -0 to 5 C Part Numbering (Part Number) qseries q D 0D 7 M 009 K 00 w e r t y u i tcapacitance Tolerance Product ID Polymer AI Electrolytic Capacitor Capacitance Tolerance M ±0% wdimension (LxWxT) (mm) L W T D 7.3±0.3.3±0. ± D 7.3±0.3.3±0..8±0.3 7.3±0.3.3±0.3.±0.3 erated Voltage Rated Voltage 0D 0E 0G 0J 0K 1A 1B 1C DC V DC.5V DC V DC V DC 8V DC V DC 1.5V DC V yesr Expressed by three-digit alphanumerics. The unit is milli-ohm (mω). If there is a decimal point, it is expressed by the capital letter "R". Ex.) upackaging K R5 009 0 iindividual Specification Expressed by two figures. ESR.5mΩ 9mΩ mω Packaging ø3mm Embossed Taping rcapacitance Expressed by three-digit numeric code. 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. Ex.) Capacitance 7 7 7 77 7µF µf 0µF 70µF 3
Product Lineup Capacitance Value (µf) Voltage (VDC) 1.5.8 D 70 D 8. 33 7 5 8 8 0 180 0 70 3 70 POLYMER & MLCC SOLUTIONS Case Size ESR (mω) D D D D 0 D 5 D 0 D 5 D 8 D D D 5 D 5 D 5 Mass Production D 5 D 0 0 D 0 D D D D D 1 D 9 D D POLYMER & MLCC SOLUTIONS D 1 D 9 D D D 7 8 POLYMER SOLUTIONS POLYMER SOLUTIONS D Characteristics Comparison of impedance frequency and capacitance characteristics of 3µF/V ESR or Z (mω) Capacitance Change (%) Low ESR & Z Stable Frequency Characteristic,000 0 Z 1,000 1 ESR 1 1,000 Frequency (khz) 0 Temperature Characteristics of Capacitance 0 - -0 - -0-50 -0-0 -0 0 0 0 0 80 10 Temperature ( C) Capacitance Change (%) Capacitance Change (%) 0-0 -0-0 -80-1 1,000 Frequency (khz) 0 DC Bias Characteristic 0 0 - -0 - -0 0 5 50 75 Bias Voltage / Rated Voltage (%) Series Al Capacitor Al Capacitor (Resin-Molded Chip Type / Polymer) (Can Type/Polymer) (Can Type/Electrolyte) Applications Market Application Circuit Application Computer Digital AV Notebook/Netbook Server Multi Function Printer Digital TV (LCD/Plasma) Audio/Video Game Console Set Top Box V Overall Power Management: Noise Supression Ripple Absorption Decoupling Target Power supply line around CPU, IC, etc. Power Supply I V IC on V CPU ESL ESR Cap Telecom Router Base Station Eliminates Ripple Smoothes Voltage Source t t Stabilizes Voltage Source t Eliminates High Frequency Noise from IC
Part Number Listing Part Number (Murata) Rated Voltage (VDC) Cap. (µf) 10Hz /5 C Cap. Tolerance % Case Size L x W (mm) T (mm) ESR Max. (mω) khz / +5 C Leakage Current (CV) Ripple Current (Arms) khz / +0 to 5 C Min. Packaging Quantity (pcs) D0D7M0K00 ±0 D 733 0.0.0 D0D7M009K00 0 ±0 D 733 9 0.0 D0D7M009K00 0 ±0 D 733 9 0.0 D0D337M00K00 3 ±0 D 733 0.0 3.5 D0D337M007K00 3 ±0 D 733.8 7 0.0 3.5,500 D0D77M00K00 70 ±0 D 733.8 0.0 3.5,500 D0G8M00K00 8 ±0 D 733 0 0.0 D0G8M0K00 8 ±0 D 733 0.0.1 D0G7M0K00 0 ±0 D 733 0.0.1 D0G187M01K00 180 ±0 D 733.8 1 0.0.5,500 D0G7M0K00 0 ±0 D 733.8 0.0,500 0G337M008K00 3 ±0 733. 8 0.0 3.3,000 D0JM0K00 ±0 D 733 0.0 D0JM05K00 ±0 D 733 5 0.0 D0J33M05K00 33 ±0 D 733 5 0.0 1.8 D0J7M05K00 7 ±0 D 733 5 0.0 1.8 D0J8M0K00 8 ±0 D 733 0.0.0 D0J7M0K00 ±0 D 733 0.0.0 D0J7M0K00 0 ±0 D 733.8 0.0,500 0J7M0K00 0 ±0 733. 0.0,000 D1AM0K00 ±0 D 733 0.0 D1AM08K00 ±0 D 733 8 0.0 1. D1A33M05K00 33 ±0 D 733 5 0.0 1.8 D1A8M0K00 8 ±0 D 733.8 0.0.0,500 1A7M0K00 ±0 733. 0.0,000 1A7M0K00 0 ±0 733. 0.0,000 D1BM0K00 1.5 ±0 D 733 D1BM05K00 1.5 ±0 D 733 5 D1BM0K00 1.5 ±0 D 733 1. D1B33M05K00 1.5 33 ±0 D 733.8 5 1.8,500 D1B7M00K00 1.5 7 ±0 D 733.8 0.0,500 1B5M00K00 1.5 5 ±0 733. 0.0,000 1B7M01K00 1.5 ±0 733. 1.5,000 D1C85M070K00.8 ±0 D 733 70 D1CM00K00 ±0 D 733 0 D1CM00K00 ±0 D 733 0 D1CM0K00 ±0 D 733.8 1.,500 5
Specifications and Test Methods Item Operating Temperature Rated Voltage Leakage Current Capacitance Value Capacitance Tolerance Dissipation Factor ESR Allowable Ripple Current Surge Endurance Moisture Resistance Under Load Solderability Test Conditions Series resistor: 0 ohm Applied voltage: Rated Voltage Measuring after minutes of application Please conduct pre-conditioning below. * 10Hz at 5 C 10Hz at 5 C 10Hz at 5 C khz at 5 C Measuring Frequency: khz ±% Measuring Temperature: 0 to 5 C Test Cycle: 1,000 cycles Applied Voltage: Rated Voltage x 1.5 Test Temp.: 85 C for V to V products Test Temp.: 5 C for 1.5V to V products Test Temperature: 5 C ± C Applied Voltage: Rated Voltage Test Time: 1,000hrs +8hrs, -0hrs Test Temperature: 0 C ± C Relative Humidity: 90 to 95% Applied Voltage: Rated Voltage Test Time: 1,000hrs +8hrs, -0hrs Solder Temperature: 35 C ±5 C Immersion Time: 5s ±0.5s -0 to 5 C to V B 0.0CV for V to V products B CV for 1.5V to V products.8 to 70µF ±0% B 0.0 to 70 mω Characteristics Ranges from 1 to 3.5Arms; part number specific Leakage Current * Capacitance Change Dissipation Factor Leakage Current * Capacitance Change Dissipation Factor Leakage Current * Capacitance Change Dissipation Factor * Please conduct pre-conditioning below, if you have a doubt. Pre-conditioning: Temperature: room temp. Applied voltage: Rated Voltage Series resistor: 0 ohm Charge time: min. B 0.0CV for V to V products B CV for 1.5V to V products ±% of initial measured value B 0.0 B 0.0CV for V to V products B CV for 1.5V to V products ±% of initial measured value B 0.0 B 0.0CV for V to V products B CV for 1.5V to V products -0% and +50% of initial value B Terminal face should be covered 95% by new solder. Recommended Pb-Sn Reflow Profile Land Pattern Design 0 Temperature ( C) 50 00 0 0s max. 0s max. 1s max. 5 C 195 C Capacitor.0.8 50 0 Max temperature 5 C, two times. If Pb free > 5 C, please contact Murata for more details. Time (s) 8.8 (in mm) Packaging 1.75± + 1.5 0.0±.0± Polarity D (-) 17.5± ±0.3 5.5± B A B D C.0± 1.5 +0.5 0 8.0± A C (+) (in mm) Tape Slot 5.0mm 13.5±1.5 (in mm) Type A±0. Cavity Size (mm) B±0. C±0. D Minimum Qty. (pcs.) Reel Size Tape Width A B±0.5 C±0.5 D±0.5 D D.5 7.. 0.max..5 7. 3. 0.max.,500.5 7.. 0.max.,000 ø3 1 3max. 1
Cautions for Use Cautions <1> Polarity Polymer aluminum electrolytic capacitor is polarized. Please not to reverse the polarity when using. If reverse voltage is applied, it may damage the oxide film and the capacitor itself. <> Allowable Ripple Current Please not to apply ripple current exceeding the allowable value. If excessive current is applied, it may generate heat and the heat may damage the capacitor. The sum of DC voltage and the peak AC voltage shall not exceed the rated voltage. The sum of the DC voltage and the peak AC voltage shall not allow a voltage reversal. <3> Reflow Soldering q Please not to apply excessive force to the capacitor during insertion as well as after soldering. The excessive force may result in damage to electrode terminals and/or degradation of electrical performance. w Resistance testing to reflow soldering was conducted in accordance with the reflow profile described above. If this profile is adopted, reflow soldering can be repeated no more than two times. Storage Condition <1> This product meets MSL-3 (Moisture Sensitivity Level). <> Term of warranty for this product is two years after packaging in a moisture-proof bag, under the conditions below with sealed packaging. Recommended storage environment: Room temperature: 5- C Humidity: no more than 0%RH <3> Polymer aluminum electrolytic capacitors should be stored in a dry atmosphere, avoiding direct sunlight and condensation. If capacitors are kept at a higher humidity, the following problems may occur: q Leakage current will increase at the beginning of use and damage the circuit. w Moisture absorbed in a resin will evaporate and expand with heat of mounting and damage the mold resin. <> The capacitors should be kept dry using desiccators or any other methods after unsealing the moisture-proof packaging. If more than two weeks has passed under the recommended storage environment specified above after unsealing the packaging, it is recommended to apply voltage and to bake under the conditions below, as countermeasures against the problems q and w in <3> above respectively. q Recommended voltage conditions: Applied voltage: rated voltage Time: minutes Temperature: room temperature Current limiting resistance: 0Ω (series connection) w Recommended baking conditions: Temperature: 0(+0, -5) C Time: 8 hours Series Cross Reference Manufacturer P/N Prefix / Series Brand Series Name Panasonic EEF SP-Cap Kemet A700 AO-CAP Showa Denko A705 SDK-CAP Rubycon SXB, SXE, SW PC-CON NIC NSP, NPC Cornell Dublier ESR, SPA, SPSX, SPCX 7
Cat. No. C90E