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NEC钽电容规格书


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Correct Use of NeoCapacitor (Please Read)
[Notes] l Be sure to read "Notes on Using The NeoCapacitor" (p

29 - p32) and "Cautions" (p35) before commencing circuit design or using the capacitor. l Confirm the usage conditions and rated performance of the capacitor before use. l Ninety percent of the failure that occurs in this capacitor is caused by an increase in leakage current or short-circuiting. It is therefore important to make sufficient allowances for redundant wiring in the circuit design. [Quality Grades] NEC TOKIN devices are classified into the following quality grades in accordance with their application (for details of the applications, see p35). The quality grade of all devices in this document is "standard"; the devices in this document cannot be used for "special" or "specific" quality grade applications. Customers who intend to use a product or products in this document for applications other than those specified under the "standard" quality grade must contact an NEC TOKIN sales representative in advance (see the reverse side of the cover for contact details). l Standard: This quality grade is intended for applications in which failure or malfunction of the device is highly unlikely to cause harm to persons or damage to property, or be the source of any negative effects or problems in the wider community. l Special: This quality grade is intended for special applications that have common requirements, such specific industrial fields. Devices with a "special" quality grade are designed, manufactured, and tested using a more stringent quality assurance program than that used for "standard" grade devices. There is a high possibility that failure or malfunction of the device when being used for applications in this category will cause harm to persons or damage to property, or create negative effects or problems in the wider community. l Specific: Devices with a "specific" quality grade are designed, manufactured, and tested using a quality assurance program that is designated by the customer or that is created in accordance with the customer's specifications. There is an extremely high possibility that failure or malfunction of the device when being used for applications in this category will cause harm to persons or damage to property, or create serious problems in the wider community. Customers who use NEC TOKIN's products for these "specific" applications must conclude an individual quality agreement and/or development agreement with NEC TOKIN. A quality assurance program designated by the customer must also be determined in advance.

CONTENTS
What's NeoCapacitor ……………………………………………………………………… 3 PS/L Series (Ultra-low ESR) ……………………………………………………………… 4 PS/G Series (Single Digit ESR) ……………………………………………………… 19 27 29

Packaging ………………………………………………………………………………… Notes on Using The NeoCapacitor ……………………………………………………

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What's NeoCapacitor
Lead-free / Conform to RoHs
NeoCapacitor has the same structure as a conventional chip tantalum capacitor. It has a low-resistance cathode of conductive polymer as a substitute for manganese dioxide of a conventional capacitor. It features high permissible ripple current and effective noise reduction in a high frequency application with its ultra low ESR (equivalent series resistance). NeoCapacitor is manufactured in the factories certified by the International standards, the ISO9001 and the QS-9000. Conformity to RoHs is available by Lead-free plating.

(S ? m–1)

10 4 10 3 10 2 Anode
(tantalum)

Conductive polymer TCNQ
(organic semiconductor)

Manganese dioxide
(MnO 2)

Conductive glue 10 1 Silver paste

Electrolyte

Dielectric
(tantalum oxide)

Graphite layer Conductive polymer

NeoCapacitor's Structure

Features
Rich product line-up Small size (the same as conventional chip) Ultra Low ESR/low impedance Suitability for surface mounting High permissible ripple current Lead-free Type/In conformity to RoHs Self healing phenomenon when failed

Applications
DC / DC converter Suppression of oscillation for general purpose regulator Video camera Portable cassette / CD player Personal handy phone Game machine

(

Conductive polymer used for electrolyte is superior in insulating the damaged portion in comparison with the manganese oxide (used in conventional tantalum capacitor)

)
Capacitance Tolerance (%) ±20 DC Leakage Current ( A) 0.1 CV or 3, (J case, 10 A) whichever greater 0.1 CV or 3, whichever greater Dissipation Factor (%) 4 to 10 Features Ultra-low ESR Ultra-low ESR (Single digit ESR) ±20 10

Line Up of NeoCapacitor
Series Operating Temperature DC Rated Range (?C) Voltage Range (V) –55 to +105 2.5 to 16 Capacitance Range ( F) 2.2 to 1000 PS/L

PS/G

–55 to +105

2.5

330 to 680

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3

Specifications (PS / L Series)
Lead-free / Conform to RoHs Dimensions
J, P, A2 and A case
L W1

B3, B2 and V case
L W1

C2, C and D case
L W1

Z

Z Z Z Z Z

Unit : mm (inch)
Case code J P A2 A B3 B2 C2 C V D EIA code – 2012 3216L 3216H – 3528 – 6032 – 7343 L 1.6 ± 0.1 (0.061±0.004) 2.0 ± 0.2 (0.079±0.008) 3.2 ± 0.2 (0.126±0.008) 3.2 ± 0.2 (0.126±0.008) 3.5 ± 0.2 (0.138±0.008) 3.5 ± 0.2 (0.138±0.008) 6.0 ± 0.2 (0.138±0.008) 6.0 ± 0.2 (0.236±0.008) 7.3 ± 0.2 (0.287±0.008) 7.3 ± 0.2 (0.287±0.008) W1 0.8 ± 0.1 (0.031±0.004) 1.25 ± 0.2 (0.049±0.008) 1.6 ± 0.2 (0.063±0.008) 1.6 ± 0.2 (0.063±0.008) 2.8 ± 0.2 (0.110±0.008) 2.8 ± 0.2 (0.110±0.008) 3.2 ± 0.2 (0.126±0.008) 3.2 ± 0.2 (0.126±0.008) 4.3 ± 0.2 (0.169±0.008) 4.3 ± 0.2 (0.169±0.008) W2 0.6 ± 0.1 (0.024±0.004) 0.9 ± 0.1 (0.035±0.004) 1.2 ± 0.1 (0.047±0.004) 1.2 ± 0.1 (0.047±0.004) 2.2 ± 0.1 (0.087±0.004) 2.2 ± 0.1 (0.087±0.004) 2.2 ± 0.1 (0.087±0.004) 2.2 ± 0.1 (0.087±0.004) 2.4 ± 0.1 (0.094±0.004) 2.4 ± 0.1 (0.094±0.004) H 0.8 ± 0.1 (0.031±0.004) 1.1 ± 0.1 (0.043±0.004) 1.1 ± 0.1 (0.043±0.004) 1.6 ± 0.2 (0.061±0.008) 1.1 ± 0.1 (0.043±0.004) 1.9 ± 0.2 (0.075±0.008) 1.4 ± 0.1 (0.055±0.004) 2.5 ± 0.2 (0.098±0.008) 1.9 ± 0.1 (0.075±0.004) 2.8 ± 0.2 (0.110±0.008) Z 0.3 ± 0.15 (0.012±0.006) 0.5 ± 0.1 (0.020±0.004) 0.8 ± 0.2 (0.031±0.008) 0.8 ± 0.2 (0.031±0.008) 0.8 ± 0.2 (0.031±0.008) 0.8 ± 0.2 (0.031±0.008) 1.3 ± 0.2 (0.051±0.008) 1.3 ± 0.2 (0.051±0.008) 1.3 ± 0.2 (0.051±0.008) 1.3 ± 0.2 (0.051±0.008)

C–V Value Reference by Case Code
Capacitance ( F) Rated voltage (V)

2.5 V 0E

4V 0G

6.3 V 0J

10 V 1A

16 V 1C A B2 B2 B2 [C2(70)] [V(70)] D, [V(70)]

2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 150 220 330 470 680 1000

225 335 475 685 106 156 226 336 476 686 107 157 227 337 477 687 108

J, P, A P P, A2, B2 A A, B3 C2, C B3, B2, C2 B2, C C, V, D D, [V(12)] D D

B3 B2 V, [C(25/18)] V D D

J J J, P A J, P A2, A P, A A, B2 P, A2, A A2, A, B2 A2, A, B2 B2, C A2, A, B3, B2 B3, B2, C A, B3, B2 B3, B2, C, [C2(70)] B3, B2, C B2, C, V, D B2, C, [C2(55)] V, D, [C(55)] B2, C, [C2(70)] V, D C, V, D, [C(18)] D V, D, [V(12)] D D

[ ]:Under development-specification to be determined. Numeral:ESR (m?) at 100kHz.
4

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Markings
J case P case A2 and A case
K J
DC rated voltage and Capacitance (See Marking code)
Polarity stripe (+)

B3 and B2 case
Production date code

C2, C, V and D case
Polarity stripe (+) Production date code

j

W6

NEK A A 7
NE for NeoCapacitor

S

J
DC rated voltage (e : 2.5 V G : 4 V J : 6.3 V) Capacitance code DC rated voltage N: 4 V, j : 6.3 V, A : 10 V C : 16 V Production date code Polarity stripe (+)

NEK
NE for NeoCapacitor

Capacitance code

Capacitance code N : 3.3 ?F, S : 4.7 ? F W : 6.8 ? F, A : 10 ? F larity stripe (+)

(

)

(

)

DC rated voltage e : 2.5 V, N: 4 V, j : 6.3 V A : 10 V, C : 16 V Polarity stripe (+)

(

)

A 8

A
Capacitance code DC rated voltage V, N: 4 ( e ::2.5 V, C : 16V, j : 6.3 V ) A 10 V

zJ case Marking codex
UR F 2.2 3.3 4.7 6.8 10 J 4V 6.3 V 10 V

zP case Marking codex
UR F 3.3 4.7 6.8 10 15 22 Je AG JG 4V 6.3 V NJ SJ WJ AJ 10 V

Capacitance code
Code Number Example) A 1 E 1.5 J 2.2 N 3.3 F) S 4.7 W 6.8 Code Multiplier 6 106 7 107 8 108 9 109

A7 = 1 × 107 = 107 (pF) = 10 (

Procuction date code
Month Year

Jan. a n A N

Feb. b p B P

Mar. c q C Q

Apr. d r D R

May e s E S

Jun. f t F T

Jul. g u G U

Aug. h v H V

Sep. j w J W

Oct. k x K X

Nov. l y L Y

Dec. m z M Z

2003 2004 2005 2006

(NOTE) Production date code will resume for beginning in 2007.

PART NUMBER SYSTEM
[Bulk]
PSL (18) D 0G 477 M
Special numbering for ESR spec. Maximum ESR in Milliohms @ 100 kHz ex. (18) shows 18 m? Capacitance tolerance ±20% Capacitance in pF First two digits represent significant figures. Third digit specifies number of zeros to follow. Rated voltage 0E: 2.5 V, 0G: 4 V, 0J: 6.3 V 1A: 10 V, 1C: 16 V Case code PS/L Series

[TAPE & REEL]
TE R PSLD0G477M 12
Packing orientation R: Cathode on the side of sprocket hole Tape and reel TE : 180mmφ reel Tape width 8 : 8 mm 12 : 12 mm

Part number of bulk (see left)

TL R

PSLD0G477M E
Tape and reel TL : 330mmφ reel

12
Indicates 330mmφ reel

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Performance Characteristics
No. 1 2 3 4 5 6 7 8 9 Item Operating temperature Rated voltage (V.dc) Derated voltage (V.dc) Surge voltage (V.dc) Capacitance Capacitance tolerance Dissipation Factor (DF) Leakage current (L. C) Equivalent series resistance (ESR) 2.5 2 3.3 4 3.3 5.2 Performance –55 to +105?C 6.3 5 8 2.2 to 1000 F ±20% Refer to rating on page 7 0.1 CV ( F × volts) or 3 A (J case, 10 greater Refer to rating on page 7 A), whichever is 10 8 13 16 12.8 20 Test Condition : Conform to IEC60384-1 Temperature : 85?C Temperature : 105?C Temperature : 85?C Frequency : 120 Hz Frequency : 120 Hz Same measuring condition as No.5 Voltage : Rated voltage for 5 min. Frequency : 100 kHz Temperature : 25?C Strength : 4.9 N Time Terminal strength : 10 ± 0.5 sec. (two direction) Visual There shall be no evidence of mechanical damage.

10

C/C 11 Surge voltage DF L.C Visual Characteris12 tics at high and low Temperature C/C DF C/C DF L.C C/C 13 Resistance to Soldering DF L.C Visual Cap. 14 Damp heat, steady state DF L.C Visual C/C DF L.C Visual C/C 16 Endurance 1 DF L.C Visual C/C 17 Endurance 2 DF L.C Visual 18 6 Maximum permissible ripple current

Refer to rating on page 7 Shall not exceed the value in No.7 Shall not exceed the value in No.8 There shall be no evidence of mechanical damage.
0 – 20 %

Shall not exceed the value in No.7
+ 50 % 0

Shall not exceed 150% of initial requirements 1.0 CV ( F × volts) or 30 A, whichever is greater Refer to rating on page 7 Shall not exceed 130% of the value in No.7 Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. +30% to -20% of rated capacitance Shall not exceed 150% of initial requirements Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 7 Shall not exceed the value in No.7 Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 7 Shall not exceed 150% of initial requirements. Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 7 Shall not exceed 300% of initial requirements. Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 7

Temperature : 85 ± 2?C Applied voltage : No. 4 Series resistance : 33 ? Duration of surge : 30 ± 5 sec. Time between surge : 5.5 min. Number of cycles : 1,000 Step Step Temperature 2 1 25 ± 2?C 3 2 –55 – 0 ?C Step 3 25 ± 2?C 4 0 4 105 +3 ?C Reflow soldering method 240?C, 10 sec. max.

Temperature : 40 ± 2?C Moisture : 90 to 95% R.H. Duration : 500
+24 0

Hr.

Par ts shall be temperature cycled over a temperature range of –55 to +105?C, five times c ontinuously as follows. Step 1 2 3 4 Temperature – 55 – 0 ?C 3 room temp. 105 +3 ?C 0 room temp. Time 30 ± 3 min. 10 to 15 min. 30 ± 3 min. 10 to 15 min.

15

Rapid change of temperature

Temperature Duration Applied voltage Temperature Duration Applied voltage

: 85 ± 2?C : 1000 : No. 2
+48 0 Hr.

: 105 ± 2?C : 1000 +48 Hr. 0 : No. 3

Frequency : 100 kHz

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Ratings
Rating Capacitance Case (V) Code ( ? F) 22 100 220 220 330 330 2.5 330 470 470 680 680 680 1000 10 10 10 22 22 22 33 47 47 68 68 100 100 100 100 150 150 150 220 4 220 220 220 220 220 220 220 220 220 220 220 220 330 330 330 470 470 470 470 680 6.3 2.2 3.3 P B3 B2 B2 V V V V V D D D D J P A P A2 B2 A A B3 C2 C B3 B2 B2 C2 B2 B2 C C C C V V V V V D D D D D D D D D D D D D J J Part Number PSLP0E226M PSLB30E107M PSLB20E227M PSLB20E227M(35) PSLV0E337M PSLV0E337M(15) PSLV0E337M(12) PSLV0E477M(15) PSLV0E477M(12) PSLD0E687M PSLD0E687M(15) PSLD0E687M(12) PSLD0E108M PSLJ0G106M PSLP0G106M PSLA0G106M PSLP0G226M PSLA20G226M PSLB20G226M PSLA0G336M PSLA0G476M PSLB30G476M PSLC20G686M PSLC0G686M PSLB30G107M PSLB20G107M PSLB20G107M(45) PSLC20G107M PSLB20G157M PSLB20G157M(35) PSLC0G157M PSLC0G227M PSLC0G227M(45) PSLC0G227M(25) PSLV0G227M PSLV0G227M(25) PSLV0G227M(18) PSLV0G227M(15) PSLV0G227M(12) PSLD0G227M PSLD0G227M(40) PSLD0G227M(25) PSLD0G227M(15) PSLD0G227M(12) PSLD0G337M PSLD0G337M(25) PSLD0G337M(15) PSLD0G477M PSLD0G477M(18) PSLD0G477M(15) PSLD0G477M(12) PSLD0G687M PSLJ0J225M PSLJ0J335M DC Leakage Current ( ? A) 5.5 25 55 55 82.5 82.5 82.5 117.5 117.5 170 170 170 250 10 4 4 8.8 8.8 8.8 13.2 18.8 18.8 27.2 27.2 40 40 40 40 60 60 60 88 88 88 88 88 88 88 88 88 88 88 88 88 132 132 132 188 188 188 188 272 10 10 DF (%) 6 8 8 8 10 10 10 10 10 10 10 10 10 4 6 6 6 6 8 6 6 8 8 9 8 8 8 9 8 8 9 9 9 9 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 4 4 ESR (m?) 300 80 45 35 25 15 12 15 12 25 15 12 25 600 500 500 300 300 300 500 200 80 55 100 80 70 45 55 45 35 100 55 45 25 45 25 18 15 12 55 40 25 15 12 40 25 15 25 18 15 12 25 600 600 DF (%) Permissible Ripple Current –55?C +105?C (mA rms.) 289 968 1374 1558 2236 2887 3227 2887 3227 2449 3162 3536 2449 129 224 387 289 447 532 387 612 968 1279 1049 968 1102 1374 1279 1374 1558 1049 1414 1563 2098 1667 2236 2635 2887 3227 1651 1936 2449 3162 3536 1936 2449 3162 2449 2887 3162 3536 2449 129 129 6 8 8 8 10 10 10 10 10 10 10 10 10 4 6 6 6 6 8 6 6 8 8 9 8 8 8 9 8 8 9 9 9 9 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 4 4 9 12 12 12 15 15 15 15 15 15 15 15 15 6 9 9 9 9 12 9 9 12 12 14 12 12 12 14 12 12 14 14 14 14 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 6 6 Capacitance Change
at Surge Voltageat at Resistance to Soldering Heat at Rapid Change of Temperature

at Endurance ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20%

±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20%

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Rating Capacitance Case (V) Code ( ? F) 3.3 4.7 4.7 6.8 6.8 10 10 10 15 15 15 22 22 22 22 33 33 33 47 47 47 6.3 47 68 68 68 100 100 100 100 150 150 150 150 150 150 150 150 150 220 220 220 330 330 2.2 3.3 4.7 4.7 6.8 10 6.8 10 10 10 15 15 P J P P A P A2 A A2 A B2 A2 A B3 B2 A B3 B2 B3 B2 B2 C B2 B2 C B2 B2 B2 C C C C V V V D D D V D D D D J A A2 A A B2 A2 A B2 B2 C

Part Number PSLP0J335M PSLJ0J475M PSLP0J475M PSLP0J685M PSLA0J685M PSLP0J106M PSLA20J106M PSLA0J106M PSLA20J156M PSLA0J156M PSLB20J156M PSLA20J226M PSLA0J226M PSLB30J226M PSLB20J226M PSLA0J336M PSLB30J336M PSLB20J336M PSLB30J476M PSLB20J476M PSLB20J476M(70) PSLC0J476M PSLB20J686M PSLB20J686M(55) PSLC0J686M PSLB20J107M PSLB20J107M(45) PSLB20J107M(35) PSLC0J107M PSLC0J157M PSLC0J157M(55) PSLC0J157M(25) PSLV0J157M PSLV0J157M(25) PSLV0J157M(18) PSLD0J157M PSLD0J157M(40) PSLD0J157M(25) PSLV0J227M PSLD0J227M PSLD0J227M(40) PSLD0J337M PSLD0J337M(25) PSLJ1A225M PSLA1A335M PSLA21A475M PSLA1A475M PSLA1A685M PSLB21A685M PSLA21A106M PSLA1A106M PSLB21A106M PSLB21A156M PSLC1A156M

DC Leakage Current ( ? A) 3 10 3 4.2 4.2 6.3 6.3 6.3 9.4 9.4 9.4 13.8 13.8 13.8 13.8 20.7 20.7 20.7 29.6 29.61 29.61 29.61 42.84 42.84 42.84 63 63 63 63 94.5 94.5 94.5 94.5 94.5 94.5 94.5 94.5 94.5 138.6 138.6 138.6 207.9 207.9 10 3.3 4.7 4.7 6.8 6.8 10 10 10 15 15

DF (%) 6 4 6 6 6 6 6 6 6 6 8 6 6 8 8 6 8 8 8 8 8 9 8 8 9 8 8 8 9 9 9 9 10 10 10 10 10 10 10 10 10 10 10 4 6 6 6 6 8 6 6 8 8 9

ESR (m?) 500 600 500 500 800 500 500 500 200 500 300 300 500 80 300 200 80 300 80 200 70 100 200 55 100 70 45 35 100 100 55 25 45 25 18 55 40 25 45 55 40 40 25 600 800 500 800 800 500 200 300 300 300 200

DF (%) Permissible Ripple Current –55?C +105?C (mA rms.) 224 129 224 224 306 224 346 387 548 387 532 447 387 968 532 612 968 532 968 652 1102 1049 652 1243 1049 1102 1374 1558 1049 1049 1414 2098 1667 2236 2635 1651 1936 2449 1667 1651 1936 1936 2449 129 306 346 306 306 412 548 500 532 532 742 6 4 6 6 6 6 6 6 6 6 8 6 6 8 8 6 8 8 8 8 8 9 8 8 9 8 8 8 9 9 9 9 10 10 10 10 10 10 10 10 10 10 10 4 6 6 6 6 8 6 6 8 8 9 9 6 9 9 9 9 9 9 9 9 12 9 9 12 12 9 12 12 12 12 12 14 12 12 14 12 12 12 14 14 14 14 15 15 15 15 15 15 15 15 15 15 15 6 9 9 9 9 12 9 9 12 12 14

Capacitance Change
at Surge Voltageat at Resistance to Soldering Heat at Rapid Change of Temperature

at Endurance ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20%

±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20%

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Rating Capacitance Case (V) Code ( ? F) 22 22 22 33 33 33 47 47 47 47 10 47 68 68 100 100 100 150 150 220 220 220 3.3 4.7 16 6.8 10 47 B3 B2 C B3 B2 C B2 C C V D V D V V D D D D D D A B2 B2 B2 D

Part Number PSLB31A226M PSLB21A226M PSLC1A226M PSLB31A336M PSLB21A336M PSLC1A336M PSLB21A476M PSLC1A476M PSLC1A476M(55) PSLV1A476M PSLD1A476M PSLV1A686M PSLD1A686M PSLV1A107M PSLV1A107M(25) PSLD1A107M PSLD1A157M PSLD1A157M(40) PSLD1A227M PSLD1A227M(40) PSLD1A227M(25) PSLA1C335M PSLB21C475M PSLB21C685M PSLB21C106M PSLD1C476M

DC Leakage Current ( ? A) 22 22 22 33 33 33 47 47 47 47 47 68 68 100 100 100 150 150 220 220 220 5.2 7.5 10.8 16 75.2

DF (%) 8 8 9 8 8 9 8 9 9 10 10 10 10 10 10 10 10 10 10 10 10 6 8 8 8 10

ESR (m?) 80 300 150 80 200 100 70 100 55 60 100 60 100 45 25 55 55 40 55 40 25 800 600 600 100 70

DF (%) Permissible Ripple Current –55?C +105?C (mA rms.) 968 532 856 968 652 1049 1102 1049 1414 1443 1225 1443 1225 1667 2236 1651 1651 1936 1651 1936 2449 306 376 376 922 1464 8 8 9 8 8 9 8 9 9 10 10 10 10 10 10 10 10 10 10 10 10 6 8 8 8 10 12 12 14 12 12 14 12 14 14 15 15 15 15 15 15 15 15 15 15 15 15 9 12 12 12 15

Capacitance Change
at Surge Voltageat at Resistance to Soldering Heat at Rapid Change of Temperature

at Endurance ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20%

±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20% ±20%

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Typical Performance Characteristics
?PS/L

Series
Resistance to soldering (240?C, 10 sec. reflow)

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

10

10

1

1

0.1

0.1

0.01

Initial 6.8 ?F / 10 V

Final

0.01

Initial

Final

10 ? F / 10 V

A Case

B2

Case

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?PS/L

Series
Resistance to soldering (240?C, 10 sec. reflow)

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

10 10

1

1 0.1

0.01

Initial 33 ? F / 10 V

Final

0.1

Initial

Final

100 ?F / 10 V

C Case

D

Case

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?PS/L

Series
Damp heat, steady state (40?C, 90 to 95% R.H.)

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

10

10

1

1

0.1

0.1

0.01

Initial

240 h

500 h

1000 h

0.01

Initial

240 h

500 h

1000 h

6.8 ?F / 10 V

10 ? F / 10 V

A Case

B2

Case

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?PS/L

Series
Damp heat, steady state (40?C, 90 to 95% R.H.)

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

10 10

1

1 0.1

0.01

Initial

240 h

500 h

1000 h

0.1

Initial

240 h

500 h

1000 h

33 ? F / 10 V

100 ? F / 10 V

C Case

D

Case

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?PS/L

Series
Endurance (105?C, Rated Voltage)

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

10

10

1

1

0.1

0.1

0.01

Initial

240 h

500 h

1000 h

0.01

Initial

240 h

500 h

1000 h

6.8 ?F / 10 V

10 ? F / 10 V

A Case

B2

Case

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?PS/L

Series
Endurance (105?C, Rated Voltage)

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

30 20 10 0 – 10 –20 –30 0.20 0.15 0.10 0.05 0 100

10 10

1

1 0.1

0.01

Initial

240 h

500 h

1000 h

0.1

Initial

240 h

500 h

1000 h

33 ? F / 10 V

100 ? F / 10 V

C Case

D

Case

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?PS/L

Series

Impedance-frequency characteristics (Reference data)
100 PSLA0J106M 10

1

0.1

0.01 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

ESR-frequency characteristics (Reference data)
10 PSLA0J106M

1

0.1

0.01 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

Capacitance-frequency characteristics (Reference data)
15 PSLA0J106M

10

5

0 100

1K Frequency (Hz)

10K

100K

16

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?PS/L

Series

Impedance-frequency characteristics (Reference data)
100 PSLD1A107M 10

1

0.1

0.01 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

ESR-frequency characteristics (Reference data)
10 PSLD1A107M

1

0.1

0.01 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

Capacitance-frequency characteristics (Reference data)
150 PSLD1A107M

100

50

0 100

1K Frequency (Hz)

10K

100K

17

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?PS/L

Series

Impedance-frequency characteristics (Reference data)
100 PSLD0G337M 10

1

0.1

0.01 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

ESR-frequency characteristics (Reference data)
10 PSLD0G337M

1

0.1

0.01 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

Capacitance-frequency characteristics (Reference data)
500 14-% ( 400 .

300

200

100

0 100

1K Frequency (Hz)

10K

100K

18

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Specifications (PS/G Series)
Lead-free / Conform to RoHs

New Product
Dimensions
V, D case
L W1

Z

Z

Unit : mm (inch)
Case code V D EIA code – 7343 L W1 W2 H Z 4.3 ± 0.2 2.4 ± 0.1 1.9 ± 0.1 1.3 ± 0.2 7.3 ± 0.2 (0.287±0.008) (0.169±0.008) (0.094±0.004) (0.075±0.004) (0.051±0.008) 7.3 ± 0.2 4.3 ± 0.2 2.4 ± 0.1 2.8 ± 0.2 1.3 ± 0.2 (0.287±0.008) (0.169±0.008) (0.094±0.004) (0.110±0.008) (0.051±0.008)

C–V Value Reference by Case Code
Capacitance ( F) Rated voltage (V)

2.5 V V 9 V 9

220 330 470 680

D 9, 7 D 9, 7 D 7

Numeral: ESR (m?) at 100 kHz [ ]: Under development - specification to be determined

19

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Markings
V, D case
Polarity stripe (+) Production date code

NEK e S8
NE for NeoCapacitor

Capacitance code DC rated voltage (e : 2.5 V)

Capacitance code
Code Number Example) A 1 E 1.5 J 2.2 N 3.3 F) S 4.7 W 6.8 Code Multiplier 6 106 7 107 8 108

A7 = 1 × 107 = 107 (pF) = 10 (

Procuction date code
Month Year

Jan. a n A N

Feb. b p B P

Mar. c q C Q

Apr. d r D R

May e s E S

Jun. f t F T

Jul. g u G U

Aug. h v H V

Sep. j w J W

Oct. k x K X

Nov. l y L Y

Dec. m z M Z

2003 2004 2005 2006

(NOTE) Production date code will resume for beginning in 2007.

PART NUMBER SYSTEM
[Bulk]
PSG D M 7 0E 477
Special numbering for ESR spec. Maximum ESR in Milliohms @ 100 kHz ex. 7 shows 7 m? Capacitance tolerance ±20% Capacitance in pF First two digits represent significant figures. Third digit specifies number of zeros to follow. Rated voltage 0E: 2.5 V Case code PS/G Series

[TAPE & REEL]
TE R PSGD0E477M7 - 12
Packing orientation R: Cathode on the side of sprocket hole Tape and reel TE : 180mmφ reel Tape width 12 : 12 mm

Part number of bulk (see left)

TL E

PSGD0E477M7- 12
Tape and reel TL : 330mmφ reel

R
Indicates 330mmφ reel

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Performance Characteristics
No. 1 2 3 4 5 6 7 8 9 Item Operating temperature Rated voltage (V.dc) Derated voltage (V.dc) Surge voltage (V.dc) Capacitance Capacitance tolerance Dissipation Factor (DF) Leakage current (L. C) Equivalent series resistance (ESR) Performance –55 to +105?C 2.5 2 3.3 330 to 680 F ±22% Refer to rating on page 22 0.1 CV ( F × volts) or 3 A, whichever is greater Test Condition : Conform to IEC60384-1 Temperature : 85?C Temperature : 105?C Temperature : 85?C Frequency : 120 Hz Frequency : 120 Hz Same measuring condition as No.5 Voltage : Rated voltage for 5 min. Frequency : 100 kHz Temperature : 25?C Strength : 4.9 N Time Terminal strength : 10 ± 0.5 sec. (two direction) Visual There shall be no evidence of mechanical damage.

Refer to rating on page 22

10

C/C 11 Surge voltage DF L.C Visual Characteris12 tics at high and low Temperature C/C DF C/C DF L.C C/C 13 Resistance to Soldering DF L.C Visual Cap. 14 Damp heat, steady state DF L.C Visual C/C DF L.C Visual C/C 16 Endurance 1 DF L.C Visual C/C 17 Endurance 2 DF L.C Visual 18 Maximum permissible ripple current

Refer to rating on page 22 Shall not exceed the value in No.7 Shall not exceed the value in No.8 There shall be no evidence of mechanical damage.
0 – 20 %

Shall not exceed the value in No.7
+ 50 % 0

Shall not exceed 150% of initial requirements 1.0 CV ( F × volts) or 30 A, whichever is greater Refer to rating on page 22 Shall not exceed 130% of the value in No.7 Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. +30% to -20% of rated capacitance Shall not exceed 150% of initial requirements Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 22 Shall not exceed the value in No.7 Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 22 Shall not exceed 150% of initial requirements. Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 22 Shall not exceed 300% of initial requirements. Shall not exceed the value in No.8 There shall be no evidence of mechanical damage. Refer to rating on page 22

Temperature : 85 ± 2?C Applied voltage : No. 4 Series resistance : 33 ? Duration of surge : 30 ± 5 sec. Time between surge : 5.5 min. Number of cycles : 1,000 Step Step Temperature 2 1 25 ± 2?C 3 2 –55 – 0 ?C Step 3 25 ± 2?C 4 0 4 105 +3 ?C Reflow soldering method 240?C, 10 sec. max.

Temperature : 40 ± 2?C Moisture : 90 to 95% R.H. Duration : 500
+24 0

Hr.

Par ts shall be temperature cycled over a temperature range of –55 to +105?C, five times c ontinuously as follows. Step 1 2 3 4 Temperature – 55 – 0 ?C 3 room temp. 105 +3 ?C 0 room temp. Time 30 ± 3 min. 10 to 15 min. 30 ± 3 min. 10 to 15 min.

15

Rapid change of temperature

Temperature Duration Applied voltage Temperature Duration Applied voltage

: 85 ± 2?C : 1000 : No. 2
+48 0 Hr.

: 105 ± 2?C : 1000 +48 Hr. 0 : No. 3

Frequency : 100 kHz 21

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Ratings
Rating Capacitance Case (V) Code ( ? F) 330 330 2.5 330 470 470 680 V D D D D D Part Number PSGV0E337M9 PSGD0E337M9 PSGD0E337M7 PSGD0E477M9 PSGD0E477M7 PSGD0E687M7 DC Leakage Current ( ? A) 82.5 82.5 82.5 117.5 117.5 170 DF (%) 10 10 10 10 10 10 ESR (m?) 9 9 7 9 7 7 DF (%) Permissible Ripple Current –55?C +105?C (mA rms.) 3726 4082 4629 4082 4629 4629 10 10 10 10 10 10 15 15 15 15 15 15 Capacitance Change
at Surge Voltageat at Resistance to Soldering Heat at Rapid Change of Temperature

at Endurance ±20% ±20% ±20% ±20% ±20% ±20%

±20% ±20% ±20% ±20% ±20% ±20%

22

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Typical Performance Characteristics
?PS/G

Series
Resistance to soldering (240?C, 10 sec. reflow)

30 20 10 0 – 10 –20 –30 20 15 10 5 0 100

30 20 10 0 – 10 –20 –30 20 15 10 5 0 1000

10

100

1

10

0.1

1

0.01

Initial

Final

0.1

Initial

Final

330 ?F / 2.5 V

470 ? F / 2.5 V

D Case

D

Case

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?PS/G

Series
Damp heat, steady state (40?C, 90 to 95% R.H.)

30 20 10 0 – 10 –20 –30 20 15 10 5 0 100

30 20 10 0 – 10 –20 –30 20 15 10 5 0 1000

10

100

1

10

0.1

1

0.01

Initial

240 h

500 h

1000 h

0.1

Initial

240 h

500 h

1000 h

330 ?F / 2.5 V

470 ? F / 2.5 V

D Case

D

Case

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?PS/G

Series
Endurance (105?C, Rated Voltage)

30 20 10 0 – 10 –20 –30 20 15 10 5 0 100

30 20 10 0 – 10 –20 –30 20 15 10 5 0 1000

10

100

1

10

0.1

1

0.01

Initial

240 h

500 h

1000 h

0.1

Initial

240 h

500 h

1000 h

330 ?F / 2.5 V

470 ? F / 2.5 V

D Case

D

Case

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?PS/G

Series
10 PSGD0E477M7 1

Impedance-frequency characteristics (Reference data)

100m

10m

1m 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

ESR-frequency characteristics (Reference data)
10 PSGD0E477M7 1

100m

10m

1m 100

1K

10K

100K Frequency (Hz)

1M

10M

100M

Capacitance-frequency characteristics (Reference data)
600 500 400 PSGD0E477M7 300 200 100 0 100

1K Frequency (Hz)

10K

100K

26

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Packaging
Plastic Tape Carrier
Sprocket hole D0 Emboss

A0

t K

D1

P1

P2

P0

Feed direction

Unit : mm (inch)
+ 0.1

Case Code J

W ± 0.3 (± 0.012)

F ± 0.05 (± 0.002)

E ± 0.1 (± 0.004)

P1 ± 0.1 (± 0.004)

P2 ± 0.05 (± 0.002)

P0 ± 0.1 (± 0.004)

D0 –0 ( + 0.004 ) –0

D 1 min.

t

A 0 ± 0.2 (± 0.008) 1.0 (0.039) 1.4 (0.055)

B 0 ± 0.2 (± 0.008) 1.8 (0.071) 2.2 (0.087)

K ±0.2 (± 0.008) 1.1 (0.043)

––

P

––

1.4 (0.055)

A2 (U) 8 (0.315) A 1.0 B3 (W) 1.75 (0.069) 2 (0.079) 4 (0.157) 1.5 (0.059) 3.2 (0.126) 3.3 (0.130) 3.8 (0.150) 1.4 (0.055) 2.1 (0.083) 1.7 0.3 (0.012) C 12 (0.472) V 5.5 (0.217) 8 (0.315) 1.5 0.4 (0.016) 0.3 (0.012) 4.6 (0.181) 4.8 (0.189) 7.7 (0.303) 2.4 (0.094) 3.3 (0.130) 3.7 (0.146) 6.4 (0.252) (0.067) 3.0 (0.118) 3.5 (0.138) 4 (0.157) 0.2 (0.008) 1.9 (0.075) 3.5 (0.138) 1.9 (0.075)

B2 (S)

C2

D

Leader and Trailer
End

Unit : mm (inch)
Start

No Components 160 (6.299) min.

Components

No Components 400 (15.748) min.

Feed direction

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Reel

W1

B

D R

W2

Unit : mm (inch)
Tape Width A N min. C ± 0.5 ( ± 0.020) D B ± 0.5 ( ± 0.020) W1 9±1.0 180 –3 (7.09 –0.118 ) 12 mm
+0 +0

W2 11.4±1.0

R

8 mm

50 (1.969)

13 (0.512)

21±0.5 (0.827±0.020)

2 (0.079)

(0.354±0.039) (0.449±0.039) 13.0±1.0 15.4±1.0

1 (0.039)

(0.512±0.039) (0.606±0.039) 10.0 Max. 330±2.0 (12.99±0.079) 80 (3.150) 13 (0.512) 21±1.0 (0.827±0.039) 2 (0.079) 14.5 Max 1 (0.039)

8 mm

(0.394 Max.) (0.571 Max) 14.0 Max. 18.5 Max

12 mm

(0.551 Max.) (0.728 Max)

Case Code J P A2 (U) A B3 (W) B2 (S) C2 C V D

Dia. 180 mm 4000 3000 3000 2000 3000 2000 1000 500 1000 500

Dia. 330 mm — — 10000 9000 10000 5000 4000 2500 3000 2500

[ Quantity
28

per reel]

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Notes on Using The NeoCapacitor
The most of failure mode of NeoCapacitor is Short-Circuit and large leakage current. When you design an electric circuit, you should attend as follows.

1. Circuit design (1) Failure rate
The failure rate of NeoCapacitor depends on applied voltage and operating temperature. Use the following formula for estimating field failure rate. λ = λ 0 (V/V0) 3 ? 2
( T-T 0 ) /10

λ : Maximum field failure rate λ 0 : Basic failure rate (1% per 1000 h) T V T0 : Operating temperature : Applied voltage of actual use : 85?C

V0 : Rated voltage

(2) Permissible ripple current
Permissible ripple current shall be derated as follows. a. Temperature 25?C 85?C 105?C 10 KHz 100 KHz 500 kHz 1 MHz Rating value 0.9 times rating value 0.4 times rating 0.75 times rating value Rating value 1.1 times rating value 1.3 times rating value

value b. Frequency

(3) Reverse voltage
Do not apply reverse voltage since the capacitors are polarized.

(4) Derating
Apply appropriate voltage to the capacitors according to the failure rate estimation. It is recommended that the applied voltage be less than 80% of the rated voltage.

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2. Mounting (1) Reflow soldering
Keep in mind the following points when soldering the capacitor in a soldering oven or with a hot plate:

(a) Pattern design (In accordance with IEC61188)

Y

G Z Unit : mm (inch) X min. Y (reference) 1.0 (0.039) 0.9 (0.035)

Case J P A2 (U), A B3 (W), B2 (S) C2, C V, D

G max. 0.7 (0.028) 0.5 (0.02) 1.1 (0.043) 1.4 (0.055) 2.9 (0.114) 4.1 (0.161)

Z min. 2.5 (0.098) 2.6 (0.102) 3.8 (0.15) 4.1 (0.161) 6.9 (0.272) 8.2 (0.323)

1.2 (0.047) 1.05 (0.041) 1.5 (0.059) 1.35 (0.053) 2.7 (0.106) 1.35 (0.053) 2.7 (0.106) 2.0 (0.079)

2.9 (0.114) 2.05 (0.081)

The above dimensions are recommended. Note that if the pattern is too big, the component may not be mounted in place.

(b) Temperature and time
Keep the peak temperature and time to within the following conditions.
280 260 240 220 200 Recommended conditions 10 Time (sec.) 20

Whenever possible, perform preheating (at 150?C max.) for smooth temperature profile. To maintain the reliability, mount the capacitor at a low temperature and in a short time whenever possible. The peak temperature and time shown above are applicable when the capacitor is to be soldered in a soldering oven or with a hot plate. When the capacitor is soldered by means of infrared reflow soldering, the internal temperature of the capacitor may rise beyond the surface temperature.

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(2) Using soldering iron
When soldering the capacitor with a soldering iron, controlling the temperature at the tip of the soldering iron is very difficult. However, it is recommended that the following temperature and time be observed to maintain the reliability of the capacitor: lron temperature Time max. max. Iron power … 300?C max. 3 seconds 30 W …………………

…………

3. Cleaning
Generally, several organic solvents are used for flux cleaning of an electronic component after soldering. Many cleaning methods, such as immersion cleaning, rinse cleaning, brush cleaning, shower cleaning, vapor cleaning, and ultrasonic cleaning, are available, and one of these cleaning methods may be used alone or two or more may be used in combination. The temperature of the organic solvent may vary from room temperature to several 10?C, depending on the desired effect. If cleaning is carried out with emphasis placed only on cleaning effect, however, the marking on the electronic component cleaned may be erased, the appearance of the component may be damaged, and in the worst case, the component may be functionally damaged. It is therefore recommended that the NeoCapacitor be cleaned under the following conditions:

[Recommended conditions of flux cleaning]
(1) Cleaning solvent ........... Isopropyl alcohol (2) Cleaning method ......... Shower cleaning, rinse cleaning, vapor cleaning (3) Cleaning time .............. 5 minutes max. ? Ultrasonic cleaning This cleaning method is extremely effective for eliminating dust that has been generated as a result of mechanical processes, but may pose a problem depending on the condition. As a result of an experiment conducted by NEC TOKIN, it was confirmed that the external terminals of the capacitor were cut when it was cleaned with some ultrasonic cleaning machines. The cause of this phenomenon is considered metal fatigue of the capacitor terminals that occurred due to ultrasonic cleaning. To prevent the terminal from being cut, decreasing the output power of the ultrasonic cleaning machine or decreasing the cleaning time may be a possible solution. However, it is difficult to specify the safe cleaning conditions because there are many factors involved such as the conversion efficiency of the ultrasonic oscillator, transfer efficiency of the cleaning bath, difference in cleaning effect depending on the location in the cleaning bath, the size and quantity of the printed circuit boards to be cleaned, and the securing states of the components on the boards. It is therefore recommended that ultrasonic cleaning be avoided as much as possible. If ultrasonic cleaning is essential, make sure through experiments that no abnormality occur as a result of the cleaning. For further information, contact NEC TOKIN.

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4. Others
(1) (2) (3) Do not apply excessive vibration and shock to the capacitor. The solderability of the capacitor may be degraded by humidity. Store the capacitor at (–5 to +40?C) room temperature and (40 to 60% RH) humidity. Exercise care that no external force is applied to the tape packaged products (if the packaging material is deformed, the capacitor may not be automatically mounted by automatic insertion equipment).

5. In the case of Short-Circuit
The NeoCapacitor is heated and may generate smoke emission depending upon its excess current, time and other factors. When designing the circuit, provide as much margin as possible to maintain capacitor reliability.

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NeoCapacitor is a trademark of NEC TOKIN Corporation.

The information in this document is based on documents issued in Jul. 2004 at the latest. The information is subject to change without notice. For actual design-in, refer to the latest of data sheets, etc., for the most up-to-date specifications of the device. No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC TOKIN Corporation. NEC TOKIN Corporation assumes no responsibility for any errors which may appear in this document. NEC TOKIN Corporation does not assume any liability for infringement of patents, copyrights, or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. No license, either express, implied, or otherwise, is granted under any patents, copyrights, or other intellectual property rights of NEC TOKIN Corporation or others. While NEC TOKIN Corporation has been making a continuous effort to enhance the reliability of its electronic components, the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or property arising from a defect in an NEC TOKIN electronic component, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. NEC TOKIN devices are classified into the following three quality grades: "Standard," "Special," and "Specific." The Specific quality grade applies only to devices developed based on a customer-designated quality assurance program for a specific application. The recommended applications of a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application. Standard: Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment, and industrial robots Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment, and medical equipment (not specifically designed for life support) Specific: Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems, or medical equipment for life support, etc. The quality grade of NEC TOKIN devices is "Standard" unless otherwise specified in NEC TOKIN's data sheets or data books. If customers intend to use NEC TOKIN devices for applications other than those specified for Standard quality grade, they should contact an NEC TOKIN sales representative in advance. (Note) (1) "NEC TOKIN" as used in this statement means NEC TOKIN Corporation and also includes its majorityowned subsidiaries. (2) "NEC TOKIN electronic component products" means any electronic component product developed or manufactured by or for NEC TOKIN (as defined above).

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Global Sales Headquarters
Chiyoda First Bldg., 8-1, Nishi-Kanda 3-chome, Chiyoda-ku, Tokyo 101-8362, Japan Phone:81-3-3515-9220 Fax:81-3-3515-9221

Seoul Branch
Korea City Air-Terminal Bldg., 518,159-6, Samsung-Dong, Kangnam-ku, Seoul, Korea Phone:82-2-551-3651 Fax:82-2-551-3650

NEC TOKIN America Inc. (Headquarters & Western Area Sales)
32950 Alvarado-Niles Road, Suite 500, Union City, California 94587, U.S.A. Phone:1-510-324-4110 Fax:1-510-324-1762

Eastern Area Sales Office (Chicago Office)
9820 Capitol Drive, Wheeling, Illinois 60090, U.S.A. Phone:1-847-215-8802 Fax:1-847-215-8804

NEC TOKIN Hong Kong Ltd.
Level 3, Suite 301, Festival Walk, 80 Tat Chee Avenue, Kowloon Tong, Kowloon, Hong Kong Phone:852-2730-0028 Fax:852-2375-2508

NEC TOKIN Shanghai Co., Ltd.
Room 1508, Rui Jin Bldg., 205 Mao Ming Road (South), Shanghai 200020, China Phone:86-21-6415-0602 Fax:86-21-6472-6655

NEC TOKIN DongGuan Co.,Ltd.
B312#,MINGHE ELECTRONIC PLAZA SHANGSHA,CHANGAN TOWN,DONGGUAN CITY,GUANGDONG Phone:86-769-85388861 Fax:86-769-85388862

NEC TOKIN Shenzhen Co.,Ltd.
Room 512-515, Office Tower, Shun Hing Square, Di Wang Commercial Centre, 5002 Shen Nan East Road, Shenzhen 518008, China Phone:86-755-8246-5011 Fax:86-755-2588-2680

NEC TOKIN Singapore Pte. Ltd.
180 Cecil Street, #14-01/04 Bangkok Bank Building, Singapore 069546 Phone:65-6223-7076 Fax:65-6223-6093

Malaysia Branch
Unit B-07-12, Block B, Plaza Mont’ Kiara, 2, Jalan 1/ 70C, 50480 Kuala Lumpur, Malaysia Phone:60-3-6201-0702 Fax:60-3-6201-0712

Malaysia Branch Penang Office
Room 1,Level 3,Wisma Malvest 20B,Jalan Tun Dr.Awang,11900 Penang,Malaysia Phone:60-4-646-0368 Fax:60-4-646-3306

NEC TOKIN Thailand Co.,Ltd.
9th. Floor., No.3925, 54 B.B. Bldg., Sukhumvit 21 (Asoke) Road, Klongtoey Nua, Wattana, Bangkok 10110, Thailand Phone:66-2-260-7017 Fax:66-2-260-7016

NEC TOKIN Taiwan Co., Ltd.
Room 411, 4F, No.9, Lane 3, Ming Sheng W. Road, Taipei 104, Taiwan Phone:886-2-2521-3998 Fax:886-2-2521-3993

NEC TOKIN Europe GmbH
Hellersbergstrasse. 14, 41460 Neuss, Germany Phone:49-2131-1866-0 Fax:49-2131-186618

Munich Office
Sigmund-Riefler-Bogen 8,D-81829 Muenchen,Germany Phone:49-89-944-197-0 Fax:49-89-944-197-10

France Branch
9,Rue Paul Dautier,78142 Velizy-Villacoublay,France Phone:33-1-39-45-20-11 Fax:33-1-39-45-12-09

UK Branch
ECC Berkshire House, 252-256 Kings Road, Reading, Berkshire, RG1 4HP, U.K Phone:44-(0)-118-953-3722/3723 Fax:44-(0)-118-953-3724

Sweden Representative Office
Solkraftsvaegen 25,13570 Stockholm,Sweden Phone:46-8-712-91-00 Fax:46-8-712-91-10

? 2004 NEC TOKIN Corporation

For inquiry, Please call Sales Promotion Department (Japan)
Phone: 81-3-3515-9220 Fax: 81-3-3515-9221

http://www.nec-tokin.com
0503EDNE01VOL01E 2004 September P06 Printead in Japan

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