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  • 型号: MLP821M250EB1A
  • 制造商: Cornell Dubilier
  • 库位|库存: xxxx|xxxx
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MLP821M250EB1A产品简介:

ICGOO电子元器件商城为您提供MLP821M250EB1A由Cornell Dubilier设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 MLP821M250EB1A价格参考。Cornell DubilierMLP821M250EB1A封装/规格:铝电解电容器, 820µF 250V 铝电解电容器 扁平封装,焊片式 172 毫欧 85°C 时为 2000 小时。您可以下载MLP821M250EB1A参考资料、Datasheet数据手册功能说明书,资料中有MLP821M250EB1A 详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
产品目录

电容器

描述

CAP ALUM 820UF 250V 20% RADIAL铝质电解电容器 - 带引线 820uF 250V 20% FLATPACK

ESR

103 mOhms

ESR(等效串联电阻)

172 毫欧

产品分类

铝电容器

品牌

Cornell Dubilier

产品手册

点击此处下载产品Datasheet

产品图片

rohs

否含铅 / 不符合限制有害物质指令(RoHS)规范要求

产品系列

铝电解电容器,铝质电解电容器 - 带引线,Cornell Dubilier MLP821M250EB1AMLP

数据手册

点击此处下载产品Datasheet

产品型号

MLP821M250EB1A

不同温度时的使用寿命

85°C 时为 2000 小时

产品

Flat Pack Electrolytic Capacitors

产品培训模块

http://www.digikey.cn/PTM/IndividualPTM.page?site=cn&lang=zhs&ptm=20538http://www.digikey.cn/PTM/IndividualPTM.page?site=cn&lang=zhs&ptm=26268

产品目录绘图

产品种类

铝质电解电容器 - 带引线

其它名称

338-1386

加载寿命

2000 h

包装

托盘

商标

Cornell Dubilier

外壳宽度

1.75 in

外壳长度

3 in

大小/尺寸

3.000" 长 x 1.750" 宽(76.20mm x 44.45mm)

安装类型

底座安装

容差

20 %

封装

Bulk

封装/外壳

扁平封装, 焊片式

尺寸

3 in L x 0.5 in H

工作温度

-55°C ~ 85°C

应用

通用

引线类型

Straight

引线间距

1.000"(25.40mm)

引线间隔

1 in

最大工作温度

+ 85 C

标准包装

1

漏泄电流

0.002 uA

电压额定值DC

250 V

电容

820 uF

端接类型

Radial

类型

-

系列

MLP

纹波电流

4.9 A

表面贴装焊盘尺寸

-

阻抗

-

额定电压

250V

高度-安装(最大值)

0.500"(12.70mm)

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PDF Datasheet 数据手册内容提取

Type MLP 85 °C Flatpack, Ultra Long Life, Aluminum Electrolytic Very Low Profile The MLP’s high-energy storage and box-shape make it perfect for voltage holdup or filtering in military SEM-E modules, telecom circuit packs and computer cards. The MLP delivers up to 20 joules of energy storage in a 1/2” height with 50 year’s life at +45 ºC. You can readily heatsink it to double the ripple-current capability. The MLP is the square-peg component that fits the square-holes in electronic assemblies. Highlights - Low-profile replacement for snap-ins - Double the ripple capability with a heatsink - Nearly hermetic welded seal assures 50-year life - Withstands more than 80,000 feet altitude Specifications Temperature Range –55°C to +85°C ≤250 Vdc –40°C to +85°C ≥300 Vdc Rated Voltage Range 7.5 Vdc to 450 Vdc Capacitance Range 110 µF to 47,000 µF Capacitance Tolerance ±20% Leakage Current ≤ 0.002 CV µA, @ 25 °C and 5 min. Ripple Current Multipliers Ambient Temperature, No Heatsink 45 °C 55 °C 65 °C 75 °C 85 °C 1.00 0.90 0.75 0.56 0.27 Case Temperature 45 °C 55 °C 65 °C 75 °C 85 °C 3.79 3.32 2.77 2.08 1.00 Frequency 10 kHz 50 Hz 60 Hz120 Hz360 Hz 1 kHz 5 kHz & up 7.5 to 63 V 0.94 0.95 1.00 1.04 1.05 1.06 1.06 80 to 450 V 0.80 0.85 1.00 1.17 1.24 1.28 1.29 Low Temperature Characteristics Impedance ratio: Z ∕ Z –55⁰C +25⁰C ≤ 10 (7.5 - 20 Vdc) ≤ 2 (25 – 250 Vdc) Impedance ratio: Z ∕ Z –20⁰C +25⁰C ≤ 4 (300–450Vdc) Endurance Life Test 2000 h @ full load at +85 °C ∆ Capacitance ±10% ESR 200% of limit DCL 100% of limit Shelf Life Test 500 h at 85 °C Capacitance 100% of limit ESR 100% of limit DCL 100% of limit Vibration All case sizes: 10g. MIL-STD-202, Meth. 204,Sine Swept, EIEC 60068-2-6 CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800

Type MLP 85 °C Flatpack, Ultra Long Life, Aluminum Electrolytic Very Low Profile Vibration Test Level The specimens, while deenergized or operating under the load conditions specified, shall be subjected to the vibration amplitude, frequency range, and duration specified for each case size. Amplitude The specimens shall be subjected to a simple harmonic motion having an amplitude of either 0.06-inch double amplitude (maximum total excursion) or peak level specified above (XXg peak), whichever is less. The tolerance on vibration amplitude shall be ±10 percent. Frequency Range The vibration frequency shall be varied logarithmically between the approximate limits of 10 to 2,000 Hz. Sweep Time and Duration The entire frequency range of 10 to 2,000 Hz and return to 10 Hz shall be traversed in 20 minutes. This cycle shall be performed 12 times in each of three mutually perpendicular directions (total of 36 times), so that the motion shall be applied for a total period of approximately 12 hours. Interruptions are permitted provided the requirements for rate of change and test duration are met. Thermal Resistance Large Sides Case Length 1.5" 2.0" 3.0" Heatsinked Insulation ºC/W ºC/W ºC/W None 2.9 2.1 1.4 one Polyester 3.3 2.4 1.6 None 2.7 1.9 1.2 both Polyester 2.9 2.1 1.3 ESL <30 nH measured 1/4” from case at 1 MHz Weight Case EK 30 g typical Case EA 42 g typical Case EB 66 g typical Terminals 18 AWG copper wire with 60/40 tin-lead electroplate, 20 amps max Case Material Aluminum Double the Ripple Current Attach the MLP to an external heatsink and you can easily double the ripple current capability and assure long life through cooler operation. The broad, flat top and bottom on the MLP are ideal for cooling the capacitor and removing the heat caused by ripple current. Ripple Current Capability The ripple current capability is set by the maximum permissible internal core temperature, 88 ºC. This assures that the case does not inflate beyond 0.5 inch height. Air Cooled The ripple currents in the ratings tables are for 85 ºC case temperatures. For air temperatures without a heatsink use the multipliers Ambient Temperature, No Heatsink. Heatsink Cooled Temperature rise from the internal hottest spot, the core, to ambient air is ∆T = I2(ESR)(θcc + θca) where θcc is the thermal resistance from core to case and θca from case to ambient. To calculate maximum ripple capability with the MLP attached to a heatsink use the maximum core temperature and the values for θcc. Example As an illustration, suppose you operate an insulated MLP332M080EB1C in 65 ºC air and attach it to a commercial heatsink with a free-air thermal resistance of 2.7 ºC/W. Use a good thermal grease between the MLP and the heatsink, and the total thermal resistance is 2.7 +1.7 or 4.4 ºC/W. The power which would heat the core to 88 °C is (88-65)/4.4 or 5.2 W. For an ESR of 31 mΩ,5.2 W equates to a ripple current of 13 A. CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800

Type MLP 85 °C Flatpack, Ultra Long Life, Aluminum Electrolytic Part Numbering System MLP 102 M 200 EB 0 A Type Capacitance Tolerance Rated Voltage Case Code Insulation Mounting Style MLP 821=820 µF M=±20% Vdc EK, L=1.5 in. 0 = bare can A = mounting tabs 102 = 1000 µF EA, L=2.0 in 1 = polyester B = four leads EB, L=3.0 in. C = two leads/no tabs D = hook leads/tabs Outline Drawings E = hook leads/no tabs Note: The polyester tape wrap may add up to 0.020 inches to the thickness and width of the capacitor. Style A: Mounting Tabs L+.375 .156 ±0.01 SLOT .188±.01 ±0.03 0.040 DIA, 18 AWG LEADS (TYP) Φ.156 ±0.01 1.001.75 Mounting tabs and negative ±0.01 ±0.01 lead are welded to the case. MAY BE SQUARE .375±.01 L±.02 1.5 MIN .036 .50 MAX .030 Style B: Four Leads 0.040 DIA,18 AWG LEADS (TYP) • Three negative leads are 1.00 1.75 welded to the case. ±0.01 ±0.01 + • 1.5 MIN L ±0.02 1.5 MIN 0.50 MAX Style C: No Tabs 0.040 DIA, 18 AWG (TYP) • The negative lead is welded 1.00 1.75 ±0.01 ±0.01 to the case. + • L ±0.02 1.5 MIN 0.50 MAX Style D: Hook Leads Φ0.040, 18 AWG LEADS L +0.375 (TYP) ±0.03 .188 ±0.01 Φ0.156 ±0.01 SLOT Φ.156 Mounting tabs and negative ±0.01 1.00 1.75 ±0.01 lead are welded to the case. ±0.01 MAY BE SQUARE Case Length Weight .375 Code L (in) (g) L ±0.01 0.02 EK 1.5 30 EA 2.0 42 .50 MAX EB 3.0 66 .036 .260 .030 ±0.01 CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800

Type MLP 85 °C Flatpack, Ultra Long Life, Aluminum Electrolytic Very Low Profile Ratings ESR max Ripple (A) ESR max Ripple (A) 25 ºC (mΩ) Case @ 85 °C 25 ºC (mΩ) Case @ 85 °C Cap. Catalog Length Cap. Catalog Length (µF) Part Number 120 Hz 20 kHz 120 Hz 20 kHz (Inches) (µF) Part Number 120 Hz 20 kHz 120 Hz 20 kHz (Inches) 7.5 Vdc (10 Vdc Surge) 100 Vdc (125 Vdc Surge) 19,000 MLP193M7R5EK0A 76 66 4.2 4.5 1.5 1100 MLP112M100EK0A 112 78 3.5 4.2 1.5 28,000 MLP283M7R5EA0A 50 44 5.8 6.2 2.0 1600 MLP162M100EA0A 76 54 4.7 5.6 2.0 47,000 MLP473M7R5EB0A 30 26 9.1 9.8 3.0 2700 MLP272M100EB0A 46 33 7.4 8.7 3.0 10 Vdc (13 Vdc Surge) 150 Vdc (180 Vdc Surge) 17000 MLP173M010EK0A 77 67 4.2 4.5 1.5 500 MLP501M150EK0A 355 248 1.9 2.3 1.5 26000 MLP263M010EA0A 51 45 5.8 6.1 2.0 770 MLP771M150EA0A 238 166 2.7 3.2 2.0 43000 MLP433M010EB0A 30 27 9.0 9.6 3.0 1300 MLP132M150EB0A 143 100 4.2 5.0 3.0 16 Vdc (20 Vdc Surge) 200 Vdc (250 Vdc Surge) 13000 MLP133M016EK0A 81 69 4.1 4.4 1.5 400 MLP401M200EK0A 388 253 1.9 2.3 1.5 21000 MLP213M016EA0A 53 46 5.7 6.1 2.0 600 MLP601M200EA0A 261 168 2.6 3.2 2.0 38000 MLP383M016EB0A 31 27 9.0 9.6 3.0 1000 MLP102M200EB0A 158 100 3.8 5.0 3.0 20 Vdc (25 Vdc Surge) 250 Vdc (300 Vdc Surge) 9600 MLP962M020EK0A 84 69 4.0 4.4 1.5 330 MLP331M250EK0A 426 258 1.8 2.3 1.5 14000 MLP143M020EA0A 56 46 5.5 6.1 2.0 490 MLP491M250EA0A 285 172 2.4 3.1 2.0 24000 MLP243M020EB0A 33 27 8.7 9.6 3.0 820 MLP821M250EB0A 172 103 3.8 4.9 3.0 25 Vdc (30 Vdc Surge) 300 Vdc (350 Vdc Surge) 8000 MLP802M025EK0A 87 69 3.9 4.4 1.5 220 MLP221M300EK0A 597 393 1.5 1.9 1.5 12000 MLP123M025EA0A 57 46 5.5 6.1 2.0 330 MLP331M300EA0A 399 262 2.1 2.5 2.0 20000 MLP203M025EB0A 34 27 8.6 9.6 3.0 560 MLP561M300EB0A 240 157 3.2 4.0 3.0 35 Vdc (50 Vdc Surge) 350 Vdc (400 Vdc Surge) 5600 MLP562M035EK0A 90 70 3.4 4.4 1.5 150 MLP151M350EK0A 1000 734 1.2 1.4 1.5 8400 MLP842M035EA0A 59 46 5.4 6.1 2.0 220 MLP221M350EA0A 683 503 1.6 1.8 2.0 14000 MLP143M035EB0A 35 27 8.4 9.6 3.0 370 MLP371M350EB0A 420 310 2.3 2.8 3.0 50 Vdc (63 Vdc Surge) 400 Vdc (450 Vdc Surge) 4400 MLP442M050EK0A 97 70 3.7 4.4 1.5 130 MLP131M400EK0A 1320 970 1.0 1.2 1.5 6600 MLP662M050EA0A 62 46 5.2 6.1 2.0 200 MLP201M400EA0A 882 648 1.4 1.6 2.0 11000 MLP113M050EB0A 36 27 8.3 9.6 3.0 330 MLP331M400EB0A 530 390 2.1 2.5 3.0 63 Vdc (75 Vdc Surge) 420 Vdc (475 Vdc Surge) 2200 MLP222M063EK0A 101 76 3.7 4.2 1.5 130 MLP131M420EK0A 1320 970 1.0 1.2 1.5 3300 MLP332M063EA0A 64 50 5.2 5.8 2.0 200 MLP201M420EA0A 882 648 1.4 1.6 2.0 5600 MLP562M063EB0A 36 29 8.3 9.3 3.0 330 MLP331M420EB0A 530 390 2.1 2.5 3.0 80 Vdc (100 Vdc Surge) 450 Vdc (500 Vdc Surge) 1500 MLP152M080EK0A 106 77 3.6 4.2 1.5 110 MLP111M450EK0A 1456 1190 0.96 1.1 1.5 2100 MLP212M080EA0A 72 52 4.9 5.7 2.0 170 MLP171M450EA0A 973 797 1.3 1.5 2.0 3300 MLP332M080EB0A 44 31 7.5 9.0 3.0 280 MLP281M450EB0A 585 480 2.0 2.3 3.0 Typical Performance Curves 7.5 to 250 V, Operating Life in Kilohours vs Ripple Current 300 V and Up, Operating Life in Kilohours vs Ripple Current 1000 100 45 ºC h h 55 ºC g Life, k 45 ºC g Life, k 65 ºC n n perati100 55 ºC perati10 75 ºC d O 65 ºC d O 85 ºC pecte 75 ºC pecte Ex Ex 85 ºC 10 1 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 1.2 1.3 1.4 1.5 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 1.2 1.3 1.4 1.5 Rated Ripple-Current Multiple Rated Ripple-Current Multiple CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800

Type MLP 85 °C Flatpack, Ultra Long Life, Aluminum Electrolytic Very Low Profile Typical Performance Curves MLP 4400 µF 50 Vdc Ripple Life Test 85 ⁰C MLP 300 µF 400 Vdc Life Test 105 ⁰C 1.15 2.7 2.5 ESR 1.1 2.3 ESR e e Ratio to Initial Valu01..90551 Capacitance tio to Initial Valu11112.....35791 a R1.1 Capacitance 0.9 0.9 0 200 400 600 800 1000 1200 1400 1600 1800 2000 0 200 400 600 800 1000 1200 1400 1600 1800 2000 Test Hours 48 V and 1 A @ 60Hz Test Hours MLP 4400 µF 50 Vdc Life Test 85 ⁰C MLP 300 µF 400 Vdc Ripple Life Test 85 ºC 1.08 2.5 1.07 2.3 ue1.06 ESR e2.1 nitial Val11..0045 tial Valu11..79 ESR Ratio to I11..0023 atio to Ini11..35 R 1.01 1.1 Capacitance Capacitance 1 0.9 0 200 400 600 800 1000 1200 1400 1600 1800 2000 0 200 400 600 800 1000 1200 1400 1600 1800 2000 Test Hours Test Hours 391 V and 0.5 A @ 60 Hz Capacitance vs Temperature & Frequency MLP442M050EK1C Impedance vs Temperature and Frequency MLP331M400EB0A 1.2 100 85 ºC 65 ºC 45 ºC 25 ºC 1 ue 10 Val –40 °C 0 Hz 0.8 0 ºC Ω() 5 ºC, 12 0.6 –20 ºC dance 1 –20 °C o to 2 mpe 0 °C Rati 0.4 –40 ºC I0.1 25 °C 45 °C 0.2 65 °C 85 °C –55 ºC 0.01 10 100 1000 10000 100000 0 10 100 1000 10000 100000 Frequency (Hz) Frequency (Hz) CDM Cornell Dubilier • 140 Technology Place • Liberty, SC 29657 • Phone: (864)843-2277 • Fax: (864)843-3800

Notice and Disclaimer: All product drawings, descriptions, specifications, statements, information and data (collectively, the “Information”) in this datasheet or other publication are subject to change. The customer is responsible for checking, confirming and verifying the extent to which the Information con- tained in this datasheet or other publication is applicable to an order at the time the order is placed. All Information given herein is believed to be accurate and reliable, but it is presented without any guaran- tee, warranty, representation or responsibility of any kind, expressed or implied. Statements of suitability for certain applications are based on the knowledge that the Cornell Dubilier company providing such statements (“Cornell Dubilier”) has of operating conditions that such Cornell Dubilier company regards as typical for such applications, but are not intended to constitute any guarantee, warranty or representa- tion regarding any such matter – and Cornell Dubilier specifically and expressly disclaims any guarantee, warranty or representation concerning the suitability for a specific customer application, use, storage, transportation, or operating environment. The Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise provided by Cornell Dubilier with reference to the use of any Cornell Dubilier products is given gratis (unless otherwise specified by Cornell Dubilier), and Cornell Dubilier assumes no obligation or liability for the advice given or results obtained. Although Cornell Dubilier strives to apply the most stringent quality and safety standards regarding the design and manufacturing of its products, in light of the current state of the art, isolated component failures may still occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards (such as installation of protective circuitry or redundancies or other appropriate protective measures) in order to ensure that the failure of an electrical component does not result in a risk of personal injury or property damage. Although all product-related warnings, cautions and notes must be observed, the customer should not assume that all safety measures are indi- cated in such warnings, cautions and notes, or that other safety measures may not be required.