C410C339J1G5CA7200_技术文档

MULTILAYER CERAMIC CAPACITORS/AXIAL & RADIAL LEADED

Multilayer ceramic capacitors are available in a

variety of physical sizes and configurations, including

leaded devices and surface mounted chips. Leaded

styles include molded and conformally coated parts

with axial and radial leads. However, the basic

capacitor element is similar for all styles. It is called a

chip and consists of formulated dielectric materials

which have been cast into thin layers, interspersed

with metal electrodes alternately exposed on opposite

edges of the laminated structure. The entire structure is

fired at high temperature to produce a monolithic

block which provides high capacitance values in a

small physical volume. After firing, conductive

terminations are applied to opposite ends of the chip to

make contact with the exposed electrodes.

Termination materials and methods vary depending on

the intended use.

TEMPERATURE CHARACTERISTICS

Ceramic dielectric materials can be formulated with

a wide range of characteristics. The EIA standard for

ceramic dielectric capacitors (RS-198) divides ceramic

dielectrics into the following classes:

Class III: General purpose capacitors, suitable

for by-pass coupling or other applications in which

dielectric losses, high insulation resistance and

stability of capacitance characteristics are of little or

no importance. Class III capacitors are similar to Class

II capacitors except for temperature characteristics,

Class I: Temperature compensating capacitors,

suitable for resonant circuit application or other appli-

cations where high Q and stability of capacitance char-

acteristics are required. Class I capacitors have

predictable temperature coefficients and are not

effected by voltage, frequency or time. They are made

from materials which are not ferro-electric, yielding

superior stability but low volumetric efficiency. Class I

capacitors are the most stable type available, but have

the lowest volumetric efficiency.

which are greater than

15%. Class III capacitors

have the highest volumetric efficiency and poorest

stability of any type.

KEMET leaded ceramic capacitors are offered in

the three most popular temperature characteristics:

C0G: Class I, with a temperature coefficient of 0

30 ppm per degree C over an operating

temperature range of - 55°C to + 125°C (Also

known as “NP0”).

X7R: Class II, with a maximum capacitance

change of 15% over an operating temperature

range of - 55°C to + 125°C.

Z5U: Class III, with a maximum capacitance

change of + 22% - 56% over an operating tem-

perature range of + 10°C to + 85°C.

Class II: Stable capacitors, suitable for bypass

or coupling applications or frequency discriminating

circuits where Q and stability of capacitance char-

acteristics are not of major importance. Class II

capacitors have temperature characteristics of 15%

or less. They are made from materials which are

ferro-electric, yielding higher volumetric efficiency but

less stability. Class II capacitors are affected by

temperature, voltage, frequency and time.

Specified electrical limits for these three temperature

characteristics are shown in Table 1.

SPECIFIED ELECTRICAL LIMITS

TEMPERATURE CHARACTERISTICS

PARAMETER

C0G

X7R

Z5U

Dissipation Factor: Measured at following conditions:

C0G — 1 kHz and 1 vrms if capacitance > 1000 pF

1 MHz and 1 vrms if capacitance ≤ 1000 pF

X7R — 1 kHz and 1 vrms* or if extended cap range 0.5 vrms

Z5U — 1 kHz and 0.5 vrms

0.15%

2.5%

4.0%

Dielectric Strength: 2.5 times rated DC voltage.

Pass Subsequent IR Test

Insulation Resistance (IR): At rated DC voltage,

whichever of the two is smaller

1,000 MΩ-µF

or 100 GΩ

1,000 MΩ-µF

or 100 GΩ

1,000 MΩ-µF

or 10 GΩ

Temperature Characteristics: Range, °C

Capacitance Change without

DC voltage

-55 to +125

30 ppm/°C

-55 to +125

15%

+10 to +85

+22%, -56%

0

* 1 MHz and 1 vrms if capacitance ≤ 100 pF on military product.

Table I

3

CERAMIC CONFORMALLY COATED/AXIAL & RADIAL

PERFORMANCE CHARACTERISTICS FOR STANDARD AND HIGH VOLTAGE

GENERAL SPECIFICATIONS

Working Voltage:

ENVIRONMENTAL

Vibration:

Axial (WVDC)

Radial (WVDC)

EIA RS-198, Method 304, Condition D (10-2000Hz; 20g)

Shock:

EIA RS-198, Method 305, Condition I (100g)

C0G – 50 & 100

X7R – 50 & 100

Z5U – 50 & 100

50, 100, 200, 500, 1k, 1.5k, 2k, 2.5k, 3k

50 & 100

Life Test:

EIA RS-198, Method 201, Condition Dꢀ

?ꢀ200V

Temperature Characteristics:

C0G – 0 30 PPM / °C from - 55°C to + 125°C (1)

X7R – 15% from - 55°C to + 125°C

Z5U – + 22% / -56% from + 10°C to + 85°C

C0G – 200% of rated voltage @ +125°C

X7R – 200% of rated voltage @ +125°C

Z5U – 200% of rated voltage @ +85°C

Capacitance Tolerance:

Oꢀ500V

C0G – rated voltage @ +125°C

X7R – rated voltage @ +125°C

C0G – 0.5ꢀp, 1%, 2%, 5%, 10%

X7R – 10%, 20%, +80% / -20%, +100% / -0%

Z5U – 20%, +80% / -20%

Post Test Limits @ 25°C are:

Capacitance Change:

Construction:

Epoxy encapsulated - meets flame test requirements of UL

Standard 94V-0.

C0G (? 200V) – +3% or 0.25ꢀp, whichever is greater.

C0G (O 500V) – +3% or 0.50ꢀp, whichever is greater.

X7R – + 20% of initial value (2)

High-temꢀerature solder - meets EIA RS-198, Method 302,

Condition B (260°C for 10 seconds)

Z5U – + 30% of initial value (2)

Dissipation Factor:

Lead Material:

100% matte tin (Sn) with nickel (Ni) underꢀlate and steel core.

C0G – 0.15% maximum

X7R – 2.5% maximum

Z5U – 4.0% maximum

Insulation Resistance:

Solderability:

EIA RS-198, Method 301, Solder Temperature: 230°C ±±°Cꢀ

Dwell time in solder = 7 ½ seconds.

C0G – 10k Megohm or 100 Megohm x µp, whichever is less.

O1kV tested @ 500V.

X7R – 10k Megohm or 100 Megohm x µp, whichever is less.

O1kV tested @ 500V.

Z5U – 1k Megohm or 100 Megohm x µp, whichever is less.

Terminal Strength:

EIA RS-198, Method 303, Condition A (2ꢀ2kg)

Moisture Resistance:

ELECTRICAL

Capacitance @ 25°C:

EIA RS-198, Method 204, Condition A (10 cycles without

applied voltageꢀ)

Post Test Limits @ 25°C are:

Within specified tolerance and following test conditionsꢀ

C0G – > 1000ꢀp with 1.0 vrms @ 1 kHz

? 1000ꢀp with 1.0 vrms @ 1 MHz

X7R – with 1.0 vrms @ 1 kHz

Capacitance Change:

C0G (? 200V) – +3% or 0.25ꢀp, whichever is greater.

C0G (O 500V) – +3% or 0.50ꢀp, whichever is greater.

X7R – + 20% of initial value (2)

Z5U – with 1.0 vrms @ 1 kHz

Z5U – + 30% of initial value (2)

Dissipation Factor:

Dissipation Factor @ 25°C:

Same test conditions as capacitanceꢀ

C0G – 0.15% maximum

C0G – 0.25% maximum

X7R – 3.0% maximum

X7R – 2.5% maximum

Z5U – 4.0% maximum

Insulation Resistance:

C0G – 10k Megohm or 100 Megohm x µp, whichever is less.

?500V test @ rated voltage, O1kV test @ 500V.

X7R – 10k Megohm or 100 Megohm x µp, whichever is less.

O500V test @ rated voltage, >1kV test @ 500V.

Z5U – 1k Megohm or 100 Megohm x µp, whichever is less.

Insulation Resistance @ 25°C:

EIA RS-198, Method 104, Condition A <1kV

C0G – 100k Megohm or 1000 Megohm x µp, whichever is less.

?500V test @ rated voltage, O1kV test @ 500V

X7R – 100k Megohm or 1000 Megohm x µp, whichever is less.

?500V test @ rated voltage, O1kV test @ 500V

Z5U – 10k Megohm or 1000 Megohm x µp, whichever is less.

Thermal Shock:

EIA RS-198, Method 202, Condition B (C0G & X7R: -±±°C to

+12±°C); Condition A (Z±U: -±±°C to 8±°C)

Dielectric Withstanding Voltage:

EIA RS-198, Method 103

?200V test @ 250% of rated voltage for 5 seconds with current

limited to 50mA.

(1)+53

PPM

and

-30

PPM/

°C

from

+25°C

aging

to

-55°C,

+

60

10ꢀp.

500V test @ 150% of rated voltage for 5 seconds with current

limited to 50mA.

(2)X7R

Z5U

dielectrics

exhibit

characteristics;

there

fore, it is highly recommended that caꢀacitors be deaged for 2

hours at 150°C and stabilized at room temꢀerature for 48

hours before caꢀacitance measurements are made.

O1000V test @ 120% of rated voltage for 5 seconds with current

limited to 50mA.

4

CERAMIC CONFORMALLY COATED/AXIAL

“AXIMAX”

CAPACITOR OUTLINE DRAWING

LL

L

D

LD

MAXIMUM DIMENSIONS—INCHES & (MILLIMETERS)

LD

+.001, -.003

(+.025, -.076)

STYLE

L

MAX

D

MAX

LL

MIN

C410

C412

C420

C430

C440

.170 (4.32)

.260 (6.60)

.290 (7.37)

.400 (10.16)

.100 (2.54)

.120 (3.05)

.100 (2.54)

.150 (3.81)

.020 (.51)

1.0 (25.4)

ORDERING INFORMATION

*

104

T A

U 5

5

C 410 C

M

CERAMIC

FAILURE RATE

A — Not Applicable

TERM MATERIAL

CASE SIZE

(See Table of Dimensions above)

T — 100% tin

H — SnPb

SPECIFICATION

C — Standard

C — 100% Sn

(

Not recommended for new design)

INTERNAL CONSTRUCTION

CAPACITANCE

5 — Standard

Expressed in Picofarad Code (pF)

First Two Digits — Significant Figures

Third Digit — Number of Zeros

DIELECTRIC

EIA Designation

G — C0G (NPO) — Ultra-Stable

R — X7R — Stable

CAPACITANCE TOLERANCE

J — ±5%

K — ±10%

M — ±20%

Z — –20 +80%

U — Z5U — General Purpose

RATED VOLTAGE

1 — 100 Volts

5 — 50 Volts

2 — 200 Volts

*Part Number Example: C410C104M5U5CA (14 digits – no spaces)

MARKING INFORMATION

Rated Voltage

Dielectric

5 - 50 volts

G – C0G/NP0

R – X7R

Manufacturer

(KEMET)

1 - 100 volts

U – Z5U

K5R

104K

AB

0537

Capacitance

Code

Capacitance

Tolerance

Lot

Date

Code

5

CERAMIC CONFORMALLY COATED/AXIAL

“AXIMAX”

RATINGS & PART NUMBER REFERENCE

ULTRA-STABLE TEMPERATURE CHARACTERISTIC – COG/NPO

Style

Cap

Tol

C410

WVDC

100

C412

WVDC

100

C420

WVDC

100

C430

WVDC

100

C440

WVDC

100

Cap

Code

Cap

50

200

50

200

50

200

50

200

50

200

1.0pF

1.5

109

159

189

229

279

339

399

479

569

689

829

100

120

150

180

220

270

330

390

470

560

680

820

101

121

151

181

221

271

331

391

471

561

681

821

102

122

152

182

222

272

332

392

472

562

682

822

103

123

153

J,K,M

1.8

2.2

2.7

3.3

3.9

4.7

5.6

6.8

8.2

10

12

15

18

22

27

33

39

47

56

68

82

100

120

150

180

220

270

330

390

470

560

680

820

1000

1200

1500

1800

2200

2700

3300

3900

4700

5600

6800

8200

.010uF

.012

.015

For packaging information, see pages 39 and 41.

6

CERAMIC CONFORMALLY COATED/AXIAL

“AXIMAX”

RATINGS & PART NUMBER REFERENCE

STABLE TEMPERATURE CHARACTERISTIC – X7R

Style

Cap

Tol

C410

WVDC

100

C412

WVDC

100

C420

WVDC

100

C430

WVDC

100

C440

WVDC

100

Cap

Code

Cap

50

200

50

200

50

200

50

200

50

200

10pF

12

100

120

150

180

220

270

330

390

470

560

680

820

101

121

151

181

221

271

331

391

471

561

681

821

102

122

152

182

222

272

332

392

472

562

682

822

103

123

153

183

223

273

333

393

473

563

683

823

104

124

154

184

224

274

334

394

474

564

684

K,M

15

18

22

27

33

39

47

56

68

82

100

120

150

180

220

270

330

390

470

560

680

820

1000

1200

1500

1800

2200

2700

3300

3900

4700

5600

6800

8200

.010uF

.012

.015

.018

.022

.027

.033

.039

.047

.056

.068

.082

.10

.12

.15

.18

.22

.27

.33

.39

.47

.56

.68

For packaging information, see pages 39 and 41.

7

CERAMIC CONFORMALLY COATED/AXIAL

“AXIMAX”

RATINGS & PART NUMBER REFERENCE

GENERAL PURPOSE TEMPERATURE CHARACTERISTIC – Z5U

Style

C410

WVDC

100

C412

WVDC

100

C420

WVDC

100

C430

WVDC

100

C440

WVDC

100

Cap

Code

Cap

Tol

Cap

50

200

50

200

50

200

50

200

50

200

1000pF

1200

1500

1800

2200

2700

3300

3900

4700

5600

6800

8200

.010uF

.012

.015

.018

.022

.027

.033

.039

.047

.056

.068

.082

.10

102

122

152

182

222

272

332

392

472

562

682

822

103

123

153

183

223

273

333

393

473

563

683

823

104

124

154

184

224

274

334

394

474

564

684

824

105

125

155

185

225

M,Z

M.Z

.12

.15

.18

.22

.27

.33

.39

.47

.56

.68

.82

1.0

1.2

1.5

1.8

2.2

For packaging information, see pages 39 and 41.

8

CERAMIC LEADED

PACKAGING INFORMATION

Ceramic Axial

Lead Tape and Reel Packaging

Figure 1

KEMET offers standard reeling of Molded and Conformally

Coated Axial Leaded Ceramic Capacitors for automatic insertion

or lead forming machines per EIA specification RS-296. KEMET’S

internal specification four-digit suffix, 7200, is placed at the end of

the part number to designate tape and reel packaging, ie:

C410C104Z5U5CA7200.

®

KEMET

Paper (50 lb.) test minimum is inserted between the layers of

capacitors wound on reels for component pitch ≤ 0.400".

Capacitor lead length may extend only a maximum of .0625"

(1.59mm) beyond the tapes' edges. Capacitors are centered in a

row between the two tapes and will deviate only ± 0.031

(0.79mm) from the row center. A minimum of 36" (91.5 cm) leader

tape is provided at each end of the reel capacitors. Universal

splicing clips are used to connect the tape. Standard reel

quantities are shown on page 41.

®

KEMET

Adhesive Tape

Kraft Paper

Interleaving

Figure 2

Figure 3

10.5" - 14"

(26.67 -

35.56cm)

.059" to .315"

Greater Than

Component

Length

*

.047" Max

(1.20)

Hub

See Table 1 (A)

1

3 / "

4

*

(82.6)

.655" ±0.010"

(16.6 ±0.25)

1

/ "

8

.250" Nom.

(6.35)

(3.18)

See Table 1

(B)

Dimensions in Inches & (Millimeters)

Table 1

Component

Body Diameter

Component

Pitch "A"

Inside Tape Spacing "B"

± 1.5mm (0.059")

0.020" or (±0.5mm)

I

III*

0" (0mm) to 0.197" (5mm)

0.197" or (5mm)

0.394" or (10mm)

2.062" (52.4mm)

0.197" (5.01mm) to 0.394: (10mm)

2.874" (73mm)

* Not Available for Conformally Coated Parts.

39

CERAMIC LEADED

PACKAGING INFORMATION

Ceramic Radial

Lead Tape and Reel Packaging

KEMET offers standard reeling of Molded and Conformally

Coated Radial Leaded Ceramic Capacitors for automatic

insertion per EIA specification RS-468. Parts are taped to a

tagboard carrier strip, and wound on a reel as shown in

Figure 1. Kraft paper interleaving is inserted between the

layers of capacitors on the reel. Ammopack is also available,

with the same lead tape configuration and package quantities.

Figure 1

®

KEMET

Carrier Strip

12"

(30.48 cm)

.059" to .315"

Greater Than

Over All

*

Height

®

of Taped

Components

Adhesive Tape

Hub

1

Kraft Paper

Interleaving

Carrier Tape

3 / "

4

(82.6)

.655" ±0.010"

(16.6 ±0.25)

1

/ "

8

(3.18)

(Note: Non-standard lead lengths

available in bulk only.)

Figure 3: Standard Reel

C330**

C340**

C6xx#

CK06**

CK05**

C317**

C322**

C323**

C315*

C320*

C056**

C066**

CKR06** CKR05**

C6xx#

C333**

C062**

C052**

∆H

P

2

P

1MM Max.

(.039")

H1

D0

P1

W

2

H

F

H0

W

0

Tape

Carrier

W

2

L

1

T

* Lead spacings are 2.54mm

(.10") center-to-center.

P

0

** Lead spacings are 5.08mm

(.20") center-to-center.

Figure 2: Lead Tape Configuration (See Table Below)

# See page 15 for exact lead

configuration for Series.

Ceramic Radial Tape and Reel Dimensions in Millimeters & (Inches)

Nominal

mm (inch)

Tolerance

mm (inch)

Nominal

mm (inch)

Tolerance

mm (inch)

Dimension

Symbol

Dimension

Symbol

Sprocket Hole Diameter

Do

4.0 (.157)

12.7 (.500)

± 0.2 (.008)

± 0.3 (.012)

Height to Seating

Plane (formed leads) (2)

Component Alignment

H0

7301

7303

7301

7303

16.0 (.630) 18.0 (.709) ±0.5 (.020) Minimum

Sprocket Hole Pitch

Component Pitch

Lead Spacing (1)

P0

P

∆h

L1

t

4.0 (.157)

1.0 (.039)

0.7 (.051)

1.5 (.059)

18.0 (.709)

5.0 (.197)

3.0 (.118)

±0.2 (.008)

Maximum

±0.2 (.008)

Maximum

Lead Protrusion

Composite Tape

Thickness

Overall Tape and

Lead Thickness

Carrier Tape Width

F

5.08

(.20)

3.81

2.54

(.10)

5.08

+0.6 -0.2

(+.024 -.008)

± 0.7 (.028)

Sprocket Hole Center

to Lead Center (1)

Sprocket Hole Center

to Component Center

Height to Seating Plane

(straight leads) (2)

P1

P2

H

T

(.150)

(.200)

6.35 (.250)

± 1.3 (.051)

W

W0

W2

+1.0 - 0.5

(+.039 -.020)

Minimum

Hold-Down Tape

Width

Hold-Down Tape

Location

7301

7303

7301

7303

16.0 (.630) 18.0 (.709) ±0.5 (.020) Minimum

32.2 (1.27) Maximum

Component Height

Above Tape Center

H1

Maximum

(1) Measured at the egress from the carrier tape, on the component side.

(2) Determined by a 4 digit suffix placed at the end of the part number, as follows:

7301 =

7303 =

Recommended for parts with formed leads.

Recommended for parts with straight leads.

Example: C322C104K5R5CA7301

Example: C320C104K5R5CA7303

40

CERAMIC LEADED

PACKAGING INFORMATION

CERAMIC PACKAGING

Standard (1)

Bulk

Quantity

Ammo

Pack

Quantity

Standard

Reel

Quantity

KEMET

Series

Military

Style

Military

Specification

Reel

Size

C114C-K-G

C124C-K-G

C192C-K-G

C202C-K

C222C-K

C052C-K-G

C062C-K-G

C114G

CK12, CC75

CK13, CC76

CK14, CC77

CK15

MIL-C-11015/

MIL-PRF-20

200/Box

100/Box

25/Box

5000

3000

500

12"

N/A

12"

N/A

12"

N/A

12"

CK16

10/Tray

300

CK05, CC05

CK06, CC06

CCR75

100/Bag

200/Box

100/Box

25/Box

2000

1500

2000

1500

5000

3000

500

MIL-PRF-20

C124G

CCR76

C192G

CCR77

C202G

CC78-CCR78

CC79-CCR79

CCR05

C222G

10/Tray

300

C052/56G

C062/66G

C512G

100/Bag

Footnote (2)

200/Box

100/Box

25/Box

1700

1500

N/A

CCR06

CC07-CCR07

CC08-CCR08

CKR11

C522G

N/A

C114T

MIL-PRF-39014

5000

3000

500

C124T

CKR12

C192T

CKR14

C202T

CKR15

C222T

CKR16

10/Tray

300

C052/56T

C062/66T

C31X

CKR05

100/Bag

500/Bag

250/Bag

100/Bag

50/Bag

1700

1500

2500

1500

1000

N/A

CKR06

2500

1500

1000

N/A

C32X

C33X

C340

C350

C410

300/Box

200/Box

300/Box

200/Box

Footnote (2)

500/Bag

250/Bag

100/Bag

50/Bag

4000

2000

5000

2500

N/A

C412

C420

C430

C440

C512

N/A

C522

N/A

C617

1000

500

C622/C623

C627/C628

C630/C631

C637/C638

C640/C641

C642/C643

C647/C648

C657/C658

C667/C668

500

50/Bag

500

NOTE: (1) Standard packaging refers to number of pieces per bag, tray or vial.

(2) Quantity varies. For further details, please consult the factory.

41


型号：	C410C339J1G5CA7200
厂家：	KEMET CORPORATION
描述：	CAPACITOR, CERAMIC, MULTILAYER, 100V, C0G, 0.0000033uF, THROUGH HOLE MOUNT, AXIAL LEADED 电容器
文件：	总9页 (文件大小：159K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

C410C339J1G5CA7200 [KEMET]

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