C3225X7R2A225K - TDK - Datasheet.Directory

Issue date: April 2011

TDK MLCC

US Catalog

Version B11

C Series

Mid Voltage Application

Type: C1005 [EIA CC0402]

C1608 [EIA CC0603]

C2012 [EIA CC0805]

C3216 [EIA CC1206]

C3225 [EIA CC1210]

C4532 [EIA CC1812]

C5750 [EIA CC2220]

REMINDERS

Please read before using this product

SAFETY REMINDERS

TDK MLCC US Catalog Version B11Page 76

REMINDERS

1. If you intend to use aproduct listed in this catalog for apurpose that may cause loss of life or other

damage, you must contact our company’s sales window.

2. We may modify products or discontinue production of aproduct listed in this catalog without prior

notification.

3. We provide “Delivery Specification” that explain precautions for the specifications and safety of each

product listed in this catalog.We strongly recommend that you exchange these delivery specifications

with customers that use one of these products.

4. If you plan to export aproduct listed in this catalog, keep in mind that it may be arestricted item according

to the “Foreign Exchange and Foreign Trade Control Law”.In such cases, it is necessary to acquire export

permission in harmony with this law.

5. Any reproduction or transferring of the contents of this catalog is prohibited without prior permission from

our company.

6. We are not responsible for problems that occur related to the intellectual property rights or other rights of

our company or athird party when you use aproduct listed in this catalog.We do not grant license of

these rights.

7. This catalog only applies to products purchased through our company or one of our company’s official

agencies.This catalog does not apply to products that are purchased through other third parties.

TDK MLCC US Catalog Version B11Page 77

C Series

Mid Voltage Application

Type: C1005, C1608, C2012,

C3216, C3225, C4532, C5750

• Unique electrode design allows higher voltage

application in smaller case size

• SMT package will help down sizing and lightening of

the weight of the product

• A monolithic structure ensures superior mechanical

strength and reliability.

• High capacitance has been achieved through

precision technologies that enable the use of multiple

thinner ceramic dielectric layers.

• Owing to their low ESR and excellent frequency

characteristics, these products are optimally suited for

high frequency and high-density type power supplies.

• High-accuracy automatic mounting is facilitated

through the maintenance of very precise dimensional

tolerances.

• Low residual inductance assures superior frequency

characteristics.

• Low stray capacitance ensures high conformity with

nominal values, thereby simplifying the circuit design

process.

• Voltage rating of up to 630V

• High mechanical strength

• No polarity

Applications •Snubber in switching power supply

•Ringer cap in telephone set and modem

•Flash light in camera

•DSU/TA in ISDN lines

•HID (High Intensity Discharge Lamp)

•Output bypass in power supply

•Driver circuit in plasma display

•Noise bypass in automotive

•Other mid voltage applications

Features

Shape &

Dimensions

Dimensions in mm

Part Number

Construction

Series Name

C3216 X7R 2J 103 K T XXXX

Dimensions L x W (mm)

Temperature Characteristic

Rated Voltage (DC)

Nominal Capacitance (pF)

Capacitance Tolerance

Packaging Style

Internal Codes

The capacitance is expressed in three

digit codes and in units of pico Farads

(pF). The first and second digits identify

the first and second significant figures of

the capacitance. The third digit

identifies the multiplier. R designates a

decimal point.

Capacitance Code Capacitance

0R5 0.5pF

010 1pF

102 1,000pF (1nF)

105 1,000,000pF (1µF)

Tolerance Code Tolerance

J±5%

K±10%

M±20%

Packaging Code Style

TTape & Reel

Case Code Length Width

C1005 1.00 ±0.05 0.50 ±0.05

C1608 1.60 ±0.10 0.80 ±0.10

C2012 2.00 ±0.20 1.25 ±0.20

C3216 3.20 ±0.20 1.60 ±0.20

C3225 3.20 ±0.40 2.50 ±0.30

C4532 4.50 ±0.40 3.20 ±0.40

C5750 5.70 ±0.40 5.00 ±0.40

Temperature

Characteristics

Capacitance

Change

Temperature

Range

C0G 0±30 ppm/ºC -55 to +125ºC

X6S ±22% -55 to +105ºC

X7R ±15% -55 to +125ºC

X7S ±22% -55 to +125ºC

X7T +22/-33% -55 to +125ºC

Voltage Code Voltage (DC)

2A 100V

2E 250V

2W 450V

2J 630V

LBody Length

WBody Width

TBody Height

BTerminal Width

TDK MLCC US Catalog Version B11Page 78

Capacitance

Range Chart C1005 [EIA CC0402]

Capacitance Range Chart

Temperature Characteristics: X7R (±15%), X5R (±15%), Y5V (+22/-82%)

Rated Voltage: 100V (2A)

0.50 mm

Standard Thickness

Capacitance

(pF)

Cap

Code

Tolerance

X7S

(100V)

1,000 102 K: ±10%

M: ±20%

1,500 152

2,200 222

3,300 332

4,700 472

6,800 682

10,000 103

TDK MLCC US Catalog Version B11Page 79

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C1005X7S2A102K X7S 100V

1,000

±10% 0.50 ±0.05

C1005X7S2A102M X7S 100V

1,000

±20% 0.50 ±0.05

C1005X7S2A152K X7S 100V

1,500

±10% 0.50 ±0.05

C1005X7S2A152M X7S 100V

1,500

±20% 0.50 ±0.05

C1005X7S2A222K X7S 100V

2,200

±10% 0.50 ±0.05

C1005X7S2A222M X7S 100V

2,200

±20% 0.50 ±0.05

C1005X7S2A332K X7S 100V

3,300

±10% 0.50 ±0.05

C1005X7S2A332M X7S 100V

3,300

±20% 0.50 ±0.05

C1005X7S2A472K X7S 100V

4,700

±10% 0.50 ±0.05

C1005X7S2A472M X7S 100V

4,700

±20% 0.50 ±0.05

C1005X7S2A682K X7S 100V

6,800

±10% 0.50 ±0.05

C1005X7S2A682M X7S 100V

6,800

±20% 0.50 ±0.05

C1005X7S2A103K X7S 100V

10,000

±10% 0.50 ±0.05

C1005X7S2A103M X7S 100V

10,000

±20% 0.50 ±0.05

Class 2 (Temperature Stable)

Temperature Characteristics: X7S (-55 to +125ºC, ±22%)

Capacitance

Range Table C1005 [EIA CC0402]

TDK MLCC US Catalog Version B11Page 80

Capacitance

Range Chart C1608 [EIA CC0603]

Capacitance Range Chart

Temperature Characteristics: C0G (0 ±30ppm/ºC)

Rated Voltage: 250V (2E), 100V (2A)

Capacitance Range Chart

Temperature Characteristics: X7R (±15%), X7S (±22%)

Rated Voltage: 100V (2A)

0.80 mm

Standard Thickness

Capacitance

(pF)

Cap

Code

Tolerance

C0G

(250V)

(100V)

100 101 J: ±5%

120 121

150 151

180 181

220 221

270 271

330 331

390 391

470 471

560 561

680 681

820 821

1,000 102

1,200 122

Capacitance

(pF)

Cap

Code

Tolerance

X7R

X7S

(100V)

1,000 102 K: ±10%

M: ±20%

1,500 152

2,200 222

3,300 332

4,700 472

6,800 682

10,000 103

15,000 153

22,000 223

33,000 333

47,000 473

68,000 683

100,000 104

TDK MLCC US Catalog Version B11Page 81

Capacitance

Range Table C1608 [EIA CC0603]

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C1608C0G2A101J C0G 100V

100

±5% 0.80 ±0.10

C1608C0G2A121J C0G 100V

120

±5% 0.80 ±0.10

C1608C0G2A151J C0G 100V

150

±5% 0.80 ±0.10

C1608C0G2A181J C0G 100V

180

±5% 0.80 ±0.10

C1608C0G2A221J C0G 100V

220

±5% 0.80 ±0.10

C1608C0G2A271J C0G 100V

270

±5% 0.80 ±0.10

C1608C0G2A331J C0G 100V

330

±5% 0.80 ±0.10

C1608C0G2A391J C0G 100V

390

±5% 0.80 ±0.10

C1608C0G2A471J C0G 100V

470

±5% 0.80 ±0.10

C1608C0G2A561J C0G 100V

560

±5% 0.80 ±0.10

C1608C0G2A681J C0G 100V

680

±5% 0.80 ±0.10

C1608C0G2A821J C0G 100V

820

±5% 0.80 ±0.10

C1608C0G2A102J C0G 100V

1,000

±5% 0.80 ±0.10

C1608C0G2A122J C0G 100V

1,200

±5% 0.80 ±0.10

C1608C0G2E101J C0G 250V

100

±5% 0.80 ±0.10

C1608C0G2E121J C0G 250V

120

±5% 0.80 ±0.10

C1608C0G2E151J C0G 250V

150

±5% 0.80 ±0.10

C1608C0G2E181J C0G 250V

180

±5% 0.80 ±0.10

C1608C0G2E221J C0G 250V

220

±5% 0.80 ±0.10

C1608C0G2E271J C0G 250V

270

±5% 0.80 ±0.10

C1608C0G2E331J C0G 250V

330

±5% 0.80 ±0.10

C1608C0G2E391J C0G 250V

390

±5% 0.80 ±0.10

C1608C0G2E471J C0G 250V

470

±5% 0.80 ±0.10

C1608C0G2E561J C0G 250V

560

±5% 0.80 ±0.10

C1608C0G2E681J C0G 250V

680

±5% 0.80 ±0.10

Class 1 (Temperature Compensating)

Temperature Characteristics: C0G (-55 to 125ºC, 0±30 ppm/ºC)

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C1608X7R2A102K X7R 100V

1,000

±10% 0.80 ±0.10

C1608X7R2A102M X7R 100V

1,000

±20% 0.80 ±0.10

C1608X7R2A152K X7R 100V

1,500

±10% 0.80 ±0.10

C1608X7R2A152M X7R 100V

1,500

±20% 0.80 ±0.10

C1608X7R2A222K X7R 100V

2,200

±10% 0.80 ±0.10

C1608X7R2A222M X7R 100V

2,200

±20% 0.80 ±0.10

C1608X7R2A332K X7R 100V

3,300

±10% 0.80 ±0.10

C1608X7R2A332M X7R 100V

3,300

±20% 0.80 ±0.10

C1608X7R2A472K X7R 100V

4,700

±10% 0.80 ±0.10

C1608X7R2A472M X7R 100V

4,700

±20% 0.80 ±0.10

C1608X7R2A682K X7R 100V

6,800

±10% 0.80 ±0.10

C1608X7R2A682M X7R 100V

6,800

±20% 0.80 ±0.10

C1608X7R2A103K X7R 100V

10,000

±10% 0.80 ±0.10

C1608X7R2A103M X7R 100V

10,000

±20% 0.80 ±0.10

C1608X7R2A153K X7R 100V

15,000

±10% 0.80 ±0.10

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%)

TDK MLCC US Catalog Version B11Page 82

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C1608X7R2A153M X7R 100V

15,000

±20% 0.80 ±0.10

C1608X7R2A223K X7R 100V

22,000

±10% 0.80 ±0.10

C1608X7R2A223M X7R 100V

22,000

±20% 0.80 ±0.10

C1608X7S2A333K X7S 100V

33,000

±10% 0.80 ±0.10

C1608X7S2A333M X7S 100V

33,000

±20% 0.80 ±0.10

C1608X7S2A473K X7S 100V

47,000

±10% 0.80 ±0.10

C1608X7S2A473M X7S 100V

47,000

±20% 0.80 ±0.10

C1608X7S2A683K X7S 100V

68,000

±10% 0.80 ±0.10

C1608X7S2A683M X7S 100V

68,000

±20% 0.80 ±0.10

C1608X7S2A104K X7S 100V

100,000

±10% 0.80 ±0.10

C1608X7S2A104M X7S 100V

100,000

±20% 0.80 ±0.10

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%), X7S (-55 to +125ºC, ±22%)

Capacitance

Range Table C1608 [EIA CC0603]

TDK MLCC US Catalog Version B11Page 83

Capacitance

Range Chart C2012 [EIA CC0805]

Capacitance Range Chart

Temperature Characteristics: C0G (0 ±30ppm/ºC)

Rated Voltage: 250V (2E), 100V (2A)

Capacitance Range Chart

Temperature Characteristics: X7R (±15%), X7S (±22%), X7T (+22/-33%)

Rated Voltage: 450V (2W), 250V (2E), 100V (2A)

0.60 mm

1.25 mm

0.85 mm

Standard Thickness

Capacitance

(pF)

Cap

Code

Tolerance

C0G

(250V)

(100V)

100 101 J: ±5%

220 221

470 471

820 821

1,000 102

1,200 122

1,500 152

1,800 182

2,200 222

2,700 272

3,300 332

3,900 392

4,700 472

Capacitance

(pF)

Cap

Code

Tolerance

X7R

X7S

X7T

(250V)

(100V)

(450V)

(250V)

1,000 102 K: ±10%

M: ±20%

1,500 152

2,200 222

3,300 332

4,700 472

6,800 682

10,000 103

15,000 153

22,000 223

33,000 333

47,000 473

68,000 683

100,000 104

150,000 154

220,000 224

330,000 334

470,000 474

1,000,000 105

TDK MLCC US Catalog Version B11Page 84

Capacitance

Range Table C2012 [EIA CC0805]

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C2012C0G2A101J C0G 100V

100

±5% 0.60 ±0.10

C2012C0G2A221J C0G 100V

220

±5% 0.60 ±0.10

C2012C0G2A471J C0G 100V

470

±5% 0.60 ±0.10

C2012C0G2A102J C0G 100V

1,000

±5% 0.60 ±0.10

C2012C0G2A122J C0G 100V

1,200

±5% 0.60 ±0.10

C2012C0G2A152J C0G 100V

1,500

±5% 0.60 ±0.10

C2012C0G2A182J C0G 100V

1,800

±5% 0.85 ±0.10

C2012C0G2A222J C0G 100V

2,200

±5% 0.85 ±0.10

C2012C0G2A272J C0G 100V

2,700

±5% 1.25 ±0.20

C2012C0G2A332J C0G 100V

3,300

±5% 1.25 ±0.20

C2012C0G2A392J C0G 100V

3,900

±5% 1.25 ±0.20

C2012C0G2A472J C0G 100V

4,700

±5% 1.25 ±0.20

C2012C0G2E101J C0G 250V

100

±5% 0.60 ±0.10

C2012C0G2E821J C0G 250V

820

±5% 0.60 ±0.10

C2012C0G2E102J C0G 250V

1,000

±5% 0.85 ±0.10

C2012C0G2E122J C0G 250V

1,200

±5% 0.85 ±0.10

C2012C0G2E152J C0G 250V

1,500

±5% 0.85 ±0.10

C2012C0G2E182J C0G 250V

1,800

±5% 1.25 ±0.20

C2012C0G2E222J C0G 250V

2,200

±5% 1.25 ±0.20

C2012C0G2E272J C0G 250V

2,700

±5% 1.25 ±0.20

Class 1 (Temperature Compensating)

Temperature Characteristics: C0G (-55 to 125ºC, 0±30 ppm/ºC)

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C2012X7R2A102K X7R 100V

1,000

±10% 0.85 ±0.10

C2012X7R2A102M X7R 100V

1,000

±20% 0.85 ±0.10

C2012X7R2A152K X7R 100V

1,500

±10% 0.85 ±0.10

C2012X7R2A152M X7R 100V

1,500

±20% 0.85 ±0.10

C2012X7R2A222K X7R 100V

2,200

±10% 0.85 ±0.10

C2012X7R2A222M X7R 100V

2,200

±20% 0.85 ±0.10

C2012X7R2A332K X7R 100V

3,300

±10% 0.85 ±0.10

C2012X7R2A332M X7R 100V

3,300

±20% 0.85 ±0.10

C2012X7R2A472K X7R 100V

4,700

±10% 0.85 ±0.10

C2012X7R2A472M X7R 100V

4,700

±20% 0.85 ±0.10

C2012X7R2A682K X7R 100V

6,800

±10% 0.85 ±0.10

C2012X7R2A682M X7R 100V

6,800

±20% 0.85 ±0.10

C2012X7R2A103K X7R 100V

10,000

±10% 0.85 ±0.10

C2012X7R2A103M X7R 100V

10,000

±20% 0.85 ±0.10

C2012X7R2A153K X7R 100V

15,000

±10% 1.25 ±0.20

C2012X7R2A153M X7R 100V

15,000

±20% 1.25 ±0.20

C2012X7R2A223K X7R 100V

22,000

±10% 1.25 ±0.20

C2012X7R2A223M X7R 100V

22,000

±20% 1.25 ±0.20

C2012X7R2A333K X7R 100V

33,000

±10% 1.25 ±0.20

C2012X7R2A333M X7R 100V

33,000

±20% 1.25 ±0.20

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%)

TDK MLCC US Catalog Version B11Page 85

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C2012X7R2A473K X7R 100V

47,000

±10% 1.25 ±0.20

C2012X7R2A473M X7R 100V

47,000

±20% 1.25 ±0.20

C2012X7R2A683K X7R 100V

68,000

±10% 0.85 ±0.10

C2012X7R2A683M X7R 100V

68,000

±20% 0.85 ±0.10

C2012X7R2A104K X7R 100V

100,000

±10% 1.25 ±0.20

C2012X7R2A104M X7R 100V

100,000

±20% 1.25 ±0.20

C2012X7R2E102K X7R 250V

1,000

±10% 0.85 ±0.10

C2012X7R2E102M X7R 250V

1,000

±20% 0.85 ±0.10

C2012X7R2E152K X7R 250V

1,500

±10% 0.85 ±0.10

C2012X7R2E152M X7R 250V

1,500

±20% 0.85 ±0.10

C2012X7R2E222K X7R 250V

2,200

±10% 0.85 ±0.10

C2012X7R2E222M X7R 250V

2,200

±20% 0.85 ±0.10

C2012X7R2E332K X7R 250V

3,300

±10% 0.85 ±0.10

C2012X7R2E332M X7R 250V

3,300

±20% 0.85 ±0.10

C2012X7R2E472K X7R 250V

4,700

±10% 0.85 ±0.10

C2012X7R2E472M X7R 250V

4,700

±20% 0.85 ±0.10

C2012X7R2E682K X7R 250V

6,800

±10% 1.25 ±0.20

C2012X7R2E682M X7R 250V

6,800

±20% 1.25 ±0.20

C2012X7R2E103K X7R 250V

10,000

±10% 1.25 ±0.20

C2012X7R2E103M X7R 250V

10,000

±20% 1.25 ±0.20

C2012X7R2E153K X7R 250V

15,000

±10% 1.25 ±0.20

C2012X7R2E153M X7R 250V

15,000

±20% 1.25 ±0.20

C2012X7R2E223K X7R 250V

22,000

±10% 1.25 ±0.20

C2012X7R2E223M X7R 250V

22,000

±20% 1.25 ±0.20

C2012X7S2A154K X7S 100V

150,000

±10% 0.85 ±0.10

C2012X7S2A154M X7S 100V

150,000

±20% 0.85 ±0.10

C2012X7S2A224K X7S 100V

220,000

±10% 0.85 ±0.10

C2012X7S2A224M X7S 100V

220,000

±20% 0.85 ±0.10

C2012X7S2A334K X7S 100V

330,000

±10% 1.25 ±0.20

C2012X7S2A334M X7S 100V

330,000

±20% 1.25 ±0.20

C2012X7S2A474K X7S 100V

470,000

±10% 1.25 ±0.20

C2012X7S2A474M X7S 100V

470,000

±20% 1.25 ±0.20

C2012X7S2A105K X7S 100V

1,000,000

±10% 1.25 ±0.20

C2012X7S2A105M X7S 100V

1,000,000

±20% 1.25 ±0.20

C2012X7T2E333K X7T 250V

33,000

±10% 1.25 ±0.20

C2012X7T2E473K X7T 250V

47,000

±10% 1.25 ±0.20

C2012X7T2E683K X7T 250V

68,000

±10% 1.25 ±0.20

C2012X7T2E104K X7T 250V

100,000

±10% 1.25 ±0.20

C2012X7T2W103K X7T 450V

10,000

±10% 0.85 ±0.10

C2012X7T2W153K X7T 450V

15,000

±10% 0.85 ±0.10

C2012X7T2W223K X7T 450V

22,000

±10% 1.25 ±0.20

C2012X7T2W333K X7T 450V

33,000

±10% 1.25 ±0.20

C2012X7T2W473K X7T 450V

47,000

±10% 1.25 ±0.20

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%), X7S (-55 to +125ºC, ±22%), X7T (-55 to +125ºC, +22/-33%)

Capacitance

Range Table C2012 [EIA CC0805]

TDK MLCC US Catalog Version B11Page 86

Capacitance

Range Chart C3216 [EIA CC1206]

Capacitance Range Chart

Temperature Characteristics: C0G (0 ±30ppm/ºC)

Rated Voltage: 630V (2J), 250V (2E), 100V (2A)

Capacitance Range Chart

Temperature Characteristics: X7R (±15%), X7S (±22%), X7T (+22/-33%)

Rated Voltage: 630V (2J), 450V (2W), 250V (2E), 100V (2A)

0.60 mm 1.30 mm

0.85 mm 1.15 mm 1.60 mm

Capacitance

(pF)

Cap

Code

Tolerance

X7R

X7S

X7T

(630V)

(250V)

(100V)

(630V)

(450V)

(250V)

1,000 102 K: ±10%

M: ±20%

1,500 152

2,200 222

3,300 332

4,700 472

6,800 682

10,000 103

15,000 153

22,000 223

33,000 333

47,000 473

68,000 683

100,000 104

150,000 154

220,000 224

330,000 334

470,000 474

1,000,000 105

2,200,000 225

Capacitance

(pF)

Cap

Code

Tolerance

C0G

(630V)

(250V)

(100V)

100 101 J: ±5%

120 121

150 151

180 181

220 221

270 271

330 331

390 391

470 471

560 561

680 681

820 821

1,000 102

1,200 122

1,500 152

1,800 182

2,200 222

2,700 272

3,300 332

3,900 392

4,700 472

5,600 562

6,800 682

8,200 822

10,000 103

Standard Thickness

TDK MLCC US Catalog Version B11Page 87

Capacitance

Range Table C3216 [EIA CC1206]

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C3216C0G2A392J C0G 100V

3,900

±5% 0.60 ±0.10

C3216C0G2A472J C0G 100V

4,700

±5% 0.85 ±0.10

C3216C0G2A562J C0G 100V

5,600

±5% 0.85 ±0.10

C3216C0G2A682J C0G 100V

6,800

±5% 1.15 ±0.10

C3216C0G2A822J C0G 100V

8,200

±5% 1.15 ±0.10

C3216C0G2A103J C0G 100V

10,000

±5% 1.15 ±0.10

C3216C0G2E332J C0G 250V

3,300

±5% 0.85 ±0.10

C3216C0G2E392J C0G 250V

3,900

±5% 1.15 ±0.10

C3216C0G2E472J C0G 250V

4,700

±5% 1.15 ±0.10

C3216C0G2E562J C0G 250V

5,600

±5% 1.15 ±0.10

C3216C0G2E682J C0G 250V

6,800

±5% 1.60 ±0.30

C3216C0G2E822J C0G 250V

8,200

±5% 1.60 ±0.30

C3216C0G2J101J C0G 630V

100

±5% 0.60 ±0.10

C3216C0G2J121J C0G 630V

120

±5% 0.60 ±0.10

C3216C0G2J151J C0G 630V

150

±5% 0.60 ±0.10

C3216C0G2J181J C0G 630V

180

±5% 0.60 ±0.10

C3216C0G2J221J C0G 630V

220

±5% 0.60 ±0.10

C3216C0G2J271J C0G 630V

270

±5% 0.60 ±0.10

C3216C0G2J331J C0G 630V

330

±5% 0.60 ±0.10

C3216C0G2J391J C0G 630V

390

±5% 0.60 ±0.10

C3216C0G2J471J C0G 630V

470

±5% 0.85 ±0.10

C3216C0G2J561J C0G 630V

560

±5% 0.85 ±0.10

C3216C0G2J681J C0G 630V

680

±5% 0.85 ±0.10

C3216C0G2J821J C0G 630V

820

±5% 0.85 ±0.10

C3216C0G2J102J C0G 630V

1,000

±5% 0.85 ±0.10

C3216C0G2J122J C0G 630V

1,200

±5% 0.85 ±0.10

C3216C0G2J152J C0G 630V

1,500

±5% 1.15 ±0.10

C3216C0G2J182J C0G 630V

1,800

±5% 1.15 ±0.10

C3216C0G2J222J C0G 630V

2,200

±5% 1.15 ±0.10

C3216C0G2J272J C0G 630V

2,700

±5% 1.60 ±0.30

C3216C0G2J332J C0G 630V

3,300

±5% 1.60 ±0.30

Class 1 (Temperature Compensating)

Temperature Characteristics: C0G (-55 to 125ºC, 0±30 ppm/ºC)

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C3216X7R2A333K X7R 100V

33,000

±10% 1.15 ±0.10

C3216X7R2A333M X7R 100V

33,000

±20% 1.15 ±0.10

C3216X7R2A473K X7R 100V

47,000

±10% 1.15 ±0.10

C3216X7R2A473M X7R 100V

47,000

±20% 1.15 ±0.10

C3216X7R2A683K X7R 100V

68,000

±10% 1.60 ±0.30

C3216X7R2A683M X7R 100V

68,000

±20% 1.60 ±0.30

C3216X7R2A104K X7R 100V

100,000

±10% 1.60 ±0.30

C3216X7R2A104M X7R 100V

100,000

±20% 1.60 ±0.30

C3216X7R2A154K X7R 100V

150,000

±10% 1.60 ±0.30

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%)

TDK MLCC US Catalog Version B11Page 88

Capacitance

Range Table C3216 [EIA CC1206]

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C3216X7R2A154M X7R 100V

150,000

±20% 1.60 ±0.30

C3216X7R2A224K X7R 100V

220,000

±10% 1.15 ±0.10

C3216X7R2A224M X7R 100V

220,000

±20% 1.15 ±0.10

C3216X7R2A334K X7R 100V

330,000

±10% 1.30 ±0.15

C3216X7R2A334M X7R 100V

330,000

±20% 1.30 ±0.15

C3216X7R2A474K X7R 100V

470,000

±10% 1.60 ±0.30

C3216X7R2A474M X7R 100V

470,000

±20% 1.60 ±0.30

C3216X7R2A105K X7R 100V

1,000,000

±10% 1.60 ±0.30

C3216X7R2A105M X7R 100V

1,000,000

±20% 1.60 ±0.30

C3216X7R2E153K X7R 250V

15,000

±10% 1.15 ±0.10

C3216X7R2E153M X7R 250V

15,000

±20% 1.15 ±0.10

C3216X7R2E223K X7R 250V

22,000

±10% 1.15 ±0.10

C3216X7R2E223M X7R 250V

22,000

±20% 1.15 ±0.10

C3216X7R2E333K X7R 250V

33,000

±10% 1.60 ±0.30

C3216X7R2E333M X7R 250V

33,000

±20% 1.60 ±0.30

C3216X7R2E473K X7R 250V

47,000

±10% 1.60 ±0.30

C3216X7R2E473M X7R 250V

47,000

±20% 1.60 ±0.30

C3216X7R2E683K X7R 250V

68,000

±10% 1.60 ±0.30

C3216X7R2E683M X7R 250V

68,000

±20% 1.60 ±0.30

C3216X7R2E104K X7R 250V

100,000

±10% 1.60 ±0.30

C3216X7R2E104M X7R 250V

100,000

±20% 1.60 ±0.30

C3216X7R2J102K X7R 630V

1,000

±10% 1.15 ±0.10

C3216X7R2J102M X7R 630V

1,000

±20% 1.15 ±0.10

C3216X7R2J152K X7R 630V

1,500

±10% 1.15 ±0.10

C3216X7R2J152M X7R 630V

1,500

±20% 1.15 ±0.10

C3216X7R2J222K X7R 630V

2,200

±10% 1.15 ±0.10

C3216X7R2J222M X7R 630V

2,200

±20% 1.15 ±0.10

C3216X7R2J332K X7R 630V

3,300

±10% 1.15 ±0.10

C3216X7R2J332M X7R 630V

3,300

±20% 1.15 ±0.10

C3216X7R2J472K X7R 630V

4,700

±10% 1.15 ±0.10

C3216X7R2J472M X7R 630V

4,700

±20% 1.15 ±0.10

C3216X7R2J682K X7R 630V

6,800

±10% 1.15 ±0.10

C3216X7R2J682M X7R 630V

6,800

±20% 1.15 ±0.10

C3216X7R2J103K X7R 630V

10,000

±10% 1.15 ±0.10

C3216X7R2J103M X7R 630V

10,000

±20% 1.15 ±0.10

C3216X7R2J153K X7R 630V

15,000

±10% 1.30 ±0.15

C3216X7R2J153M X7R 630V

15,000

±20% 1.30 ±0.15

C3216X7R2J223K X7R 630V

22,000

±10% 1.30 ±0.15

C3216X7R2J223M X7R 630V

22,000

±20% 1.30 ±0.15

C3216X7R2J333K X7R 630V

33,000

±10% 1.60 ±0.30

C3216X7R2J333M X7R 630V

33,000

±20% 1.60 ±0.30

C3216X7S2A225K X7S 100V

2,200,000

±10% 1.60 ±0.30

C3216X7S2A225M X7S 100V

2,200,000

±20% 1.60 ±0.30

C3216X7T2E154K X7T 250V

150,000

±10% 1.30 ±0.15

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%), X7S (-55 to +125ºC, ±22%), X7T (-55 to +125ºC, +22/-33%)

TDK MLCC US Catalog Version B11Page 89

Capacitance

Range Table C3216 [EIA CC1206]

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C3216X7T2E224K X7T 250V

220,000

±10% 1.60 ±0.30

C3216X7T2W683K X7T 450V

68,000

±10% 1.30 ±0.15

C3216X7T2W104K X7T 450V

100,000

±10% 1.60 ±0.30

C3216X7T2J103K X7T 630V

10,000

±10% 0.85 ±0.10

C3216X7T2J153K X7T 630V

15,000

±10% 0.85 ±0.10

C3216X7T2J223K X7T 630V

22,000

±10% 1.15 ±0.10

C3216X7T2J333K X7T 630V

33,000

±10% 1.15 ±0.10

C3216X7T2J473K X7T 630V

47,000

±10% 1.60 ±0.30

Class 2 (Temperature Stable)

Temperature Characteristics: X7T (-55 to +125ºC, +22/-33%)

TDK MLCC US Catalog Version B11Page 90

Capacitance

Range Chart C3225 [EIA CC1210]

Capacitance Range Chart

Temperature Characteristics: C0G (0 ±30ppm/ºC)

Rated Voltage: 630V (2J), 250V (2E), 100V (2A)

Capacitance Range Chart

Temperature Characteristics: X7R (±15%), X7S (±22%), X7T (+22/-33%)

Rated Voltage: 630V (2J), 450V (2W), 250V (2E), 100V (2A)

1.25 mm

2.30 mm

2.00 mm

1.60 mm

Capacitance

(pF)

Cap

Code

Tolerance

C0G

(630V)

(250V)

(100V)

3,900 392 J: ±5%

4,700 472

5,600 562

6,800 682

10,000 103

15,000 153

22,000 223

33,000 333

47,000 473

Standard Thickness

Capacitance

(pF)

Cap

Code

Tolerance

X7R

X7S

X7T

(630V)

(250V)

(100V)

(630V)

(450V)

(250V)

47,000 473 K: ±10%

M: ±20%

68,000 683

100,000 104

150,000 154

220,000 224

330,000 334

470,000 474

680,000 684

1,000,000 105

2,200,000 225

3,300,000 335

4,700,000 475

TDK MLCC US Catalog Version B11Page 91

Capacitance

Range Table C3225 [EIA CC1210]

Class 1 (Temperature Compensating)

Temperature Characteristics: C0G (-55 to 125ºC, 0±30 ppm/ºC)

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C3225C0G2A153J C0G 100V

15,000

±5% 1.30 ±0.15

C3225C0G2A223J C0G 100V

22,000

±5% 1.60 ±0.30

C3225C0G2A333J C0G 100V

33,000

±5% 2.00 ±0.20

C3225C0G2A473J C0G 100V

47,000

±5% 2.30 ±0.20

C3225C0G2E103J C0G 250V

10,000

±5% 1.60 ±0.30

C3225C0G2E153J C0G 250V

15,000

±5% 2.00 ±0.20

C3225C0G2J392J C0G 630V

3,900

±5% 1.30 ±0.15

C3225C0G2J472J C0G 630V

4,700

±5% 1.60 ±0.30

C3225C0G2J562J C0G 630V

5,600

±5% 1.60 ±0.30

C3225C0G2J682J C0G 630V

6,800

±5% 2.00 ±0.20

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C3225X7R2A334K X7R 100V

330,000

±10% 2.00 ±0.20

C3225X7R2A334M X7R 100V

330,000

±20% 2.00 ±0.20

C3225X7R2A474K X7R 100V

470,000

±10% 2.00 ±0.20

C3225X7R2A474M X7R 100V

470,000

±20% 2.00 ±0.20

C3225X7R2A684K X7R 100V

680,000

±10% 1.60 ±0.30

C3225X7R2A684M X7R 100V

680,000

±20% 1.60 ±0.30

C3225X7R2A105K X7R 100V

1,000,000

±10% 2.00 ±0.20

C3225X7R2A105M X7R 100V

1,000,000

±20% 2.00 ±0.20

C3225X7R2A225K X7R 100V

2,200,000

±10% 2.30 ±0.20

C3225X7R2A225M X7R 100V

2,200,000

±20% 2.30 ±0.20

C3225X7R2E104K X7R 250V

100,000

±10% 2.00 ±0.20

C3225X7R2E104M X7R 250V

100,000

±20% 2.00 ±0.20

C3225X7R2E154K X7R 250V

150,000

±10% 2.00 ±0.20

C3225X7R2E154M X7R 250V

150,000

±20% 2.00 ±0.20

C3225X7R2E224K X7R 250V

220,000

±10% 2.00 ±0.20

C3225X7R2E224M X7R 250V

220,000

±20% 2.00 ±0.20

C3225X7R2J473K X7R 630V

47,000

±10% 2.00 ±0.20

C3225X7R2J473M X7R 630V

47,000

±20% 2.00 ±0.20

C3225X7R2J683K X7R 630V

68,000

±10% 2.00 ±0.20

C3225X7R2J683M X7R 630V

68,000

±20% 2.00 ±0.20

C3225X7S2A335K X7S 100V

3,300,000

±10% 2.00 ±0.20

C3225X7S2A335M X7S 100V

3,300,000

±20% 2.00 ±0.20

C3225X7S2A475K X7S 100V

4,700,000

±10% 2.00 ±0.20

C3225X7S2A475M X7S 100V

4,700,000

±20% 2.00 ±0.20

C3225X7T2E334K X7T 250V

330,000

±10% 2.00 ±0.20

C3225X7T2W224K X7T 450V

220,000

±10% 2.00 ±0.20

C3225X7T2J104K X7T 630V

100,000

±10% 1.60 ±0.30

C3225X7T2J154K X7T 630V

150,000

±10% 2.00 ±0.20

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%), X7S (-55 to +125ºC, ±22%), X7T (-55 to +125ºC, +22/-33%)

TDK MLCC US Catalog Version B11Page 92

Capacitance

Range Chart C4532 [EIA CC1812]

Capacitance Range Chart

Temperature Characteristics: C0G (0 ±30ppm/ºC)

Rated Voltage: 630V (2J), 250V (2E), 100V (2A)

Capacitance Range Chart

Temperature Characteristics: X7R (±15%), X7S (±22%), X7T (+22/-33%)

Rated Voltage: 630V (2J), 450V (2W), 250V (2E), 100V (2A)

2.30 mm

3.20 mm

2.00 mm

2.50 mm

1.60 mm

Capacitance

(pF)

Cap

Code

Tolerance

C0G

(630V)

(250V)

(100V)

8,200 822 J: ±5%

10,000 103

15,000 153

22,000 223

33,000 333

47,000 473

68,000 683

100,000 104

Capacitance

(pF)

Cap

Code

Tolerance

X7R

X7S

X7T

(630V)

(250V)

(100V)

(630V)

(450V)

(250V)

68,000 683 K: ±10%

M: ±20%

100,000 104

150,000 154

220,000 224

330,000 334

470,000 474

680,000 684

1,000,000 105

1,500,000 155

2,200,000 225

4,700,000 475

Standard Thickness

TDK MLCC US Catalog Version B11Page 93

Capacitance

Range Table C4532 [EIA CC1812]

Class 1 (Temperature Compensating)

Temperature Characteristics: C0G (-55 to 125ºC, 0±30 ppm/ºC)

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C4532C0G2A473J C0G 100V

47,000

±5% 2.00 ±0.20

C4532C0G2A683J C0G 100V

68,000

±5% 2.50 ±0.30

C4532C0G2A104J C0G 100V

100,000

±5% 3.20 ±0.30

C4532C0G2E223J C0G 250V

22,000

±5% 1.60 ±0.30

C4532C0G2E333J C0G 250V

33,000

±5% 2.00 ±0.20

C4532C0G2E473J C0G 250V

47,000

±5% 3.20 ±0.30

C4532C0G2J822J C0G 630V

8,200

±5% 1.60 ±0.30

C4532C0G2J103J C0G 630V

10,000

±5% 1.60 ±0.30

C4532C0G2J153J C0G 630V

15,000

±5% 2.50 ±0.30

C4532C0G2J223J C0G 630V

22,000

±5% 3.20 ±0.30

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C4532X7R2A684K X7R 100V

680,000

±10% 2.30 ±0.20

C4532X7R2A684M X7R 100V

680,000

±20% 2.30 ±0.20

C4532X7R2A105K X7R 100V

1,000,000

±10% 2.30 ±0.20

C4532X7R2A105M X7R 100V

1,000,000

±20% 2.30 ±0.20

C4532X7R2A155K X7R 100V

1,500,000

±10% 2.30 ±0.20

C4532X7R2A155M X7R 100V

1,500,000

±20% 2.30 ±0.20

C4532X7R2A225K X7R 100V

2,200,000

±10% 2.30 ±0.20

C4532X7R2A225M X7R 100V

2,200,000

±20% 2.30 ±0.20

C4532X7R2E154K X7R 250V

150,000

±10% 1.60 ±0.30

C4532X7R2E154M X7R 250V

150,000

±20% 1.60 ±0.30

C4532X7R2E224K X7R 250V

220,000

±10% 2.30 ±0.20

C4532X7R2E224M X7R 250V

220,000

±20% 2.30 ±0.20

C4532X7R2E334K X7R 250V

330,000

±10% 2.30 ±0.20

C4532X7R2E334M X7R 250V

330,000

±20% 2.30 ±0.20

C4532X7R2E474K X7R 250V

470,000

±10% 2.30 ±0.20

C4532X7R2E474M X7R 250V

470,000

±20% 2.30 ±0.20

C4532X7R2J683K X7R 630V

68,000

±10% 1.60 ±0.30

C4532X7R2J683M X7R 630V

68,000

±20% 1.60 ±0.30

C4532X7R2J104K X7R 630V

100,000

±10% 2.30 ±0.20

C4532X7R2J104M X7R 630V

100,000

±20% 2.30 ±0.20

C4532X7S2A475M X7S 100V

4,700,000

±20% 2.30 ±0.20

C4532X7T2E684K X7T 250V

680,000

±10% 1.60 ±0.30

C4532X7T2E105K X7T 250V

1,000,000

±10% 2.50 ±0.30

C4532X7T2W334K X7T 450V

330,000

±10% 1.60 ±0.30

C4532X7T2W474K X7T 450V

470,000

±10% 2.30 ±0.20

C4532X7T2J154K X7T 630V

150,000

±10% 1.60 ±0.30

C4532X7T2J224K X7T 630V

220,000

±10% 2.00 ±0.20

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%), X7S (-55 to +125ºC, ±22%), X7T (-55 to +125ºC, +22/-33%)

TDK MLCC US Catalog Version B11Page 94

Capacitance

Range Chart C5750 [EIA CC2220]

Capacitance Range Chart

Temperature Characteristics: X7R (±15%), X7S (±22%), X7T (+22/-33%), X6S (±22%)

Rated Voltage: 630V (2J), 450V (2W), 250V (2E), 100V (2A)

2.30 mm

2.50 mm

1.60 mm

2.00 mm

Capacitance

(pF)

Cap

Code

Tolerance

X7R

X7S

X7T

X6S

(630V)

(250V)

(100V)

(630V)

(450V)

(250V)

(450V)

150,000 154 K: ±10%

M: ±20%

220,000 224

330,000 334

470,000 474

680,000 684

1,000,000 105

1,500,000 155

2,200,000 225

3,300,000 335

4,700,000 475

10,000,000 106

15,000,000 156

Standard Thickness

TDK MLCC US Catalog Version B11Page 95

Capacitance

Range Table C5750 [EIA CC2220]

TDK Part Number

(Ordering Code)

Temperature

Characteristics

Rated

Voltage

Capacitance

(pF)

Capacitance

Tolerance

Thickness

(mm)

C5750X7R2A105K X7R 100V

1,000,000

±10% 2.30 ±0.20

C5750X7R2A105M X7R 100V

1,000,000

±20% 2.30 ±0.20

C5750X7R2A155K X7R 100V

1,500,000

±10% 2.30 ±0.20

C5750X7R2A155M X7R 100V

1,500,000

±20% 2.30 ±0.20

C5750X7R2A225K X7R 100V

2,200,000

±10% 2.30 ±0.20

C5750X7R2A225M X7R 100V

2,200,000

±20% 2.30 ±0.20

C5750X7R2A335K X7R 100V

3,300,000

±10% 2.30 ±0.20

C5750X7R2A335M X7R 100V

3,300,000

±20% 2.30 ±0.20

C5750X7R2A475K X7R 100V

4,700,000

±10% 2.30 ±0.20

C5750X7R2A475M X7R 100V

4,700,000

±20% 2.30 ±0.20

C5750X7R2E334K X7R 250V

330,000

±10% 1.60 ±0.30

C5750X7R2E334M X7R 250V

330,000

±20% 1.60 ±0.30

C5750X7R2E474K X7R 250V

470,000

±10% 2.30 ±0.20

C5750X7R2E474M X7R 250V

470,000

±20% 2.30 ±0.20

C5750X7R2E684K X7R 250V

680,000

±10% 2.30 ±0.20

C5750X7R2E684M X7R 250V

680,000

±20% 2.30 ±0.20

C5750X7R2E105K X7R 250V

1,000,000

±10% 2.30 ±0.20

C5750X7R2E105M X7R 250V

1,000,000

±20% 2.30 ±0.20

C5750X7R2J154K X7R 630V

150,000

±10% 1.60 ±0.30

C5750X7R2J154M X7R 630V

150,000

±20% 1.60 ±0.30

C5750X7R2J224K X7R 630V

220,000

±10% 2.30 ±0.20

C5750X7R2J224M X7R 630V

220,000

±20% 2.30 ±0.20

C5750X7S2A106M X7S 100V

10,000,000

±20% 2.30 ±0.20

C5750X7S2A156M X7S 100V

15,000,000

±20% 2.50 ±0.30

C5750X7T2E155K X7T 250V

1,500,000

±10% 2.00 ±0.20

C5750X7T2E225K X7T 250V

2,200,000

±10% 2.50 ±0.30

C5750X7T2W684K X7T 450V

680,000

±10% 2.00 ±0.20

C5750X7T2W105K X7T 450V

1,000,000

±10% 2.50 ±0.30

C5750X7T2J334K X7T 630V

330,000

±10% 2.00 ±0.20

C5750X7T2J474K X7T 630V

470,000

±10% 2.50 ±0.30

C5750X6S2W105K X6S 450V

1,000,000

±10% 2.50 ±0.30

C5750X6S2W225K X6S 450V

2,200,000

±10% 2.50 ±0.30

Class 2 (Temperature Stable)

Temperature Characteristics: X7R (-55 to +125ºC, ±15%), X7S (-55 to +125ºC, ±22%), X7T (-55 to +125ºC, +22/-33%),

X6S (-55 to +105ºC, ±22%)

TDK MLCC US Catalog Version B11Page 96

General

Specifications C Series –Mid Voltage Application

No. Item Performance Test or Inspection Method

1External

Appearance

No defects which may affect

performance.

Inspect with magnifying glass (3×).

2Insulation

Resistance

10,000MΩor 500MΩ•μF min.

whichever smaller.

Apply rated voltage for 60s. As for the rated voltage

630V DC, apply 500V DC.

3Voltage Proof Withstand test voltage without

insulation breakdown or other damage.

Above DC voltage shall be applied for 1 to 5s. Charge /

discharge current shall not exceed 50mA.

4Capacitance Within the specified tolerance.

5 Q

(Class 1)

1,000 min. See No.4 in this table for measuring condition.

6Dissipation

Factor

(Class 2)

See No.4 in this table for measuring condition.

7Temperature

Characteristics

of Capacitance

(Class 1) Capacitance drift within ±0.2%

Temperature coefficient shall be calculated based on

values at 25ºC and 85ºC temperature.

Measuring temperature below 20ºC shall be -10ºC and

-25ºC.

Class Rated

Voltage

Apply voltage

Class 1 100V 3 ×rated voltage

Over 100V 1.5 ×rated voltage

Class 2 100V 2.5 ×rated voltage

Over 100V 1.5 ×rated voltage

Class Rated

Capacitance

Measuring

Frequency

Measuring

voltage

Class 1

1000pF and

under 1MHz±10%

0.5 -5 Vrms

Over 1000pF 1kHz±10%

Class 2

10uF and

under 1kHz±10% 0.5±0.2Vrms

1.0±0.2Vrms

Over 10uF 120Hz±20% 0.5±0.2 Vrms

T.C. D.F.

X7R

X7S

X7T

0.05 max.

0.025 max.

T.C. Temperature Coefficient

C0G 0 ±30 (ppm/ºC)

TDK MLCC US Catalog Version B11Page 97

General

Specifications C Series –Mid Voltage Application

No. Item Performance Test or Inspection Method

8Temperature

Characteristics

of Capacitance

(Class 2)

Capacitance Change (%) Capacitance shall be measured by the steps shown in

the following table after thermal equilibrium is obtained

for each step.

∆C be calculated ref. STEP 3 reading

9Robustness of

Terminations

No sign of termination coming off,

breakage of ceramic, or other abnormal

signs.

Reflow solder the capacitors on P.C. board (shown in

Appendix 1a or Appendix 1b) and apply a pushing

force of 2N (C1005) or 5N (C1608, C2012, C3216,

C3225, C4532, C5750) with 10±1s.

10 Bending No mechanical damage. Reflow solder the capacitors on P.C. board (shown in

Appendix 2a or Appendix 2b) and bend 1mm.

11 Solderability New solder to cover over 75% of

termination.

25% may have pin holes or rough spots

but not concentrated in one spot.

Ceramic surface of A sections shall not

be exposed due to melting or shifting of

termination material.

Completely soak both terminations in

solder at 235±5°C for 2±0.5s.

Solder : H63A (JIS Z 3282)

Flux : Isopropyl alcohol (JIS K 8839)

Rosin (JIS K 5902) 25% solid solution.

No Voltage Applied

X7R: ±15%

X7S: ±22%

X7T: +22/-33% Step Temperature (ºC)

1Reference temp. ±2

2Min. operating temp. ±2

3Reference temp. ±2

4Max. operating temp. ±2

Pushing force

P.C. board

Capacitor

50 F

R230

45 45

A section

Unit: mm

TDK MLCC US Catalog Version B11Page 98

General

Specifications C Series –Mid Voltage Application

No. Item Performance Test or Inspection Method

12 Resistance to solder heat Completely soak both terminations in solder at

260±5ºC for 5±1s.

Preheating condition

Temp. : 150±10ºC

Time : 1 to 2min.

Flux: Isopropyl alcohol (JIS K 8839)

Rosin (JIS K 5902) 25% solid solution.

Solder: H63A (JIS Z 3282)

Leave the capacitor in ambient conditions for 6 to 24h

(Class 1) or 24±2h (Class 2) before measurement.

External

appearance

No cracks are allowed and terminations

shall be covered at least 60% with new

solder

Capacitance

Q (Class 1) 1,000 min.

D.F. (Class 2) Meet the initial spec.

Insulation

Resistance

Meet the initial spec.

Voltage

Proof

No insulation breakdown or other

damage.

13 Vibration Reflow solder the capacitor on a P.C. board (shown in

Appendix 1a or Appendix 1b) before testing.

Vibrate the capacitor with amplitude of1.5mm P-P

sweeping the frequencies from 10Hz to 55Hz and back

to 10Hz in about 1min.

Repeat this for 2h each in 3 perpendicular directions.

External

appearance

No mechanical damage.

Capacitance

Q (Class 1) 1,000 min.

D.F. (Class 2) Meet the initial spec.

Characteristics Change from the

value before test

Class 1 C0G ±2.5 %

Class 2

X7R

X7S

X7T

±7.5 %

Characteristics Change from the

value before test

Class 1 C0G ±2.5 %

Class 2

X7R

X7S

X7T

±7.5 %

TDK MLCC US Catalog Version B11Page 99

General

Specifications C Series –Mid Voltage Application

No. Item Performance Test or Inspection Method

14 Temperature cycle Reflow solder the capacitors on a P.C. board (shown in

Appendix 1a or Appendix 1b) before testing.

Expose the capacitor in the condition step1 through

step 4, and repeat 5 times consecutively.

Leave the capacitor in ambient conditions for 6 to 24h

(Class 1) or 24±2h (Class 2) before measurement.

External

appearance

No mechanical damage.

Capacitance

Q (Class 1) 1,000 min.

D.F. (Class 2) Meet the initial spec.

Insulation

Resistance

Meet the initial spec.

Voltage

Proof

No insulation breakdown or

other damage.

15 Moisture Resistance (Steady State) Reflow solder the capacitor on P.C. board (shown in

Appendix 1a or Appendix 1b) before testing.

Leave at temperature 40±2ºC, 90 to 95%RH for 500

+24,0h.

Leave the capacitor in ambient condition for 6 to 24h

(Class1) or 24±2h (Class 2) before measurement.

External

appearance

No mechanical damage.

Capacitance

Q (Class 1) 350 min.

D.F. (Class 2) Characteristics

X7R: 200% of initial spec. max.

X7S: 200% of initial spec. max

X7T: 200% of initial spec. max

Insulation

Resistance

1,000MΩor 50MΩ•μF min. whichever

smaller.

Characteristics Change from the

value before test

Class 1 C0G ±2.5 %

Class 2

X7R

X7S

X7T

±7.5 %

Step Temperature (ºC) Time (min.)

1Min. operating temp. ±330 ±3

2Reference Temp. 2 – 5

3Max. operating temp. ±230 ±2

4Reference Temp. 2 - 5

Characteristics Change from the

value before test

Class 1 C0G ±5 %

Class 2

X7R

X7S

X7T

±12.5 %

TDK MLCC US Catalog Version B11Page 100

General

Specifications C Series –Mid Voltage Application

No. Item Performance Test or Inspection Method

16 Moisture Resistance Reflow solder the capacitors on P.C. board (shown in

Appendix 1a or Appendix 1b) before testing.

Apply the rated voltage at temperature 40±2ºC and 90

to 95%RH for 500 +24,0h.

Charge/discharge current shall not exceed 50mA.

Leave the capacitor in ambient conditions for 6 to 24h

(Class 1) or 24±2h (Class 2) before measurement.

Voltage conditioning (only for class 2):

Voltage treat the capacitors under testing temperature

and voltage for 1 hour.

Leave the capacitors in ambient condition for 24±2h

before measurement.

Use this measurement for initial value.

External

appearance

No mechanical damage.

Capacitance

Q (Class 1) 200 min.

D.F. (Class 2) Characteristics

X7R: 200% of initial spec. max.

X7S: 200% of initial spec. max

X7T: 200% of initial spec. max

Insulation

Resistance

500MΩor 25MΩ•μF min.

whichever smaller.

17 Life Reflow solder the capacitor on P.C. board (shown in

Appendix 1a or Appendix 1b) before testing.

Apply voltage at 125±2ºC for 1,000 +48, 0h.

Applied voltage is 1xRV. Some items may be tested at

higher voltage (1.2x, 1.5x or 2xRV).

Charge/discharge current shall not exceed 50mA.

Leave the capacitors in ambient condition for 6 to 24h

(Class 1) or 24±2h (Class 2) before measurement.

Voltage conditioning (only for class 2):

Voltage treat the capacitor under testing temperature

and voltage for 1 hour.

Leave the capacitor in ambient conditions for 24±2h

before measurement.

Use this measurement for initial value.

External

appearance

No mechanical damage.

Capacitance

Q (Class 1) 350 min.

D.F. (Class 2) Characteristics

X7R: 200% of initial spec. max.

X7S: 200% of initial spec. max

X7T: 200% of initial spec. max

Insulation

Resistance

1,000MΩor 50MΩ•μF min.

whichever smaller.

*As for the initial measurement of capacitors (Class 2) on number 8, 12, 13, 14 and 15, leave capacitor at 150 –10, 0°C

for 1 hour and measure the value after leaving capacitor for 24±2h in ambient condition.

Characteristics Change from the

value before test

Class 1 C0G ±7.5 %

Class 2

X7R

X7S

X7T

±12.5 %

Characteristics Change from the

value before test

Class 1 C0G ±3 %

Class 2

X7R

X7S

X7T

±15 %

TDK MLCC US Catalog Version B11Page 101

General

Specifications C Series –Mid Voltage Application

Appendix -1a

P.C. Board for reliability test

Applied for C1005, C1608, C2012, C3216

Appendix -1b

P.C. Board for reliability test

Applied for C3225, C4532, C5750

Appendix -2a

P.C. Board for bending test

Applied for C1005

Appendix -2b

P.C. Board for bending test

Applied for C1608, C2012, C3216, C3225, C4532, C5750

100 mm

Solder Resist Copper

40 mm

Copper

Solder Resist

Slit

40 mm

100 mm

Solder Resist Copper

1.0 mm

40 mm

100 mm

1.0 mm

Solder resist

100 mm

Copper

40 mm

Material : Glass Epoxy (As per JIS C6484 GE4)

P.C. Board thickness : Appendix-2a 0.8mm

Appendix-1a, 1b, 2b 1.6mm

Copper (thickness 0.035mm)

Solder resist

Case Code Dimensions (mm)

JIS EIA a b c

C1005 CC0402 0.4 1.5 0.5

C1608 CC0603 1.0 3.0 1.2

C2012 CC0805 1.2 4.0 1.65

C3216 CC1206 2.2 5.0 2.0

C3225 CC1210 2.2 5.0 2.9

C4532 CC1812 3.5 7.0 3.7

C5750 CC2220 4.5 8.0 5.6

TDK MLCC US Catalog Version B11Page 102

Wave Soldering Unit: mm

Type

Symbol

C1608

[CC0603]

C2012

[CC0805]

C3216

[CC1206]

A0.7 -1.0 1.0 -1.3 2.1 -2.5

B0.8 -1.0 1.0 -1.2 1.1 -1.3

C0.6 -0.8 0.8 -1.1 1.0 -1.3

• Recommended Soldering Land Pattern • Recommended Soldering Profile

Chip capacitor Solder land

Solder resist

Reflow Soldering Unit: mm

Type

Symbol

C1005

[CC0402]

C1608

[CC0603]

C2012

[CC0805]

A0.3 -0.5 0.6 -0.8 0.9 -1.2

B0.35 -0.45 0.6 -0.8 0.7 -0.9

C0.4 -0.6 0.6 -0.8 0.9 -1.2

Reflow Soldering Unit: mm

Type

Symbol

C3216

[CC1206]

C3225

[CC1210]

C4532

[CC1812]

C5750

[CC2220]

A2.0 -2.4 2.0 -2.4 3.1 -3.7 4.1 -4.8

B1.0 -1.2 1.0 -1.2 1.2 -1.4 1.2 -1.4

C1.1 -1.6 1.9 -2.5 2.4 -3.2 4.0 -5.0

Excessive

solder

Higher tensile

force on the chip

capacitor may

cause cracking.

Adequate

solder

Insufficient

solder

Small solder fillet

may cause

contact failure or

failure to hold the

chip capacitor to

the P.C. board.

• Recommended Solder Amount

Recommended soldering duration

Temp./

Dura.

Solder

Wave Soldering Reflow Soldering

Peak temp

(°C)

Duration

(sec.)

Peak temp

(°C)

Duration

(sec.)

Sn-Pb

Solder 250 max. 3 max. 230 max. 20 max.

Lead-Free

Solder 260 max. 5 max. 260 max. 10 max.

Recommended solder compositions

Sn-37Pb (Sn-Pb solder)

Sn-3.0Ag-0.5Cu (Lead Free Solder)

Preheating Condition

Soldering Case Size -JIS (EIA) Temp. (ºC)

Wave

soldering

C1608(CC0603), C2012(CC0805),

C3216(CC1206)

∆T ≤ 150

Reflow

soldering

C1005(CC0402), C1608(CC0603),

C2012(CC0805), C3216(CC1206)

∆T ≤ 150

C3225(CC1210), C4532(CC1812),

C5750(CC2220)

∆T ≤ 130

Manual

soldering

C1005(CC0402), C1608(CC0603),

C2012(CC0805), C3216(CC1206)

∆T ≤ 150

C3225(CC1210), C4532(CC1812),

C5750(CC2220)

∆T ≤ 130

Reflow Soldering

Manual soldering

(Solder iron)

∆T

Preheating

3sec. (As short as possible)

300

Temp

(ºC)

Wave Soldering

Peak

Temp

△T

Preheating Soldering Natural

cooling

Over 60 sec. Over 60 sec.

Peak Temp time

Temp. (ºC)

Maximum amount

Minimum amount

Soldering

Information

Temp (ºC)

∆T

Soldering Natural

cooling

Preheating

Peak

Temp

Over 60 sec.

Peak Temp time

C Series –Mid Voltage Application

TDK MLCC US Catalog Version B11Page 103

Packaging

Information C Series –Mid Voltage Application

• Carrier Tape Configuration

Paper carrier tape

Pitch hole

Top cover tape

Bottom cover tape

Plastic carrier tape

Top cover tape

Pitch hole

• Chip Quantity Per Reel and Structure of Reel (Paper & Plastic)

Case Code Chip

Thickness

Taping

Material

Chip quantity (pcs.)

JIS EIA φ178mm (7”) reel φ330mm (13”) reel

C1005 CC0402 0.50 mm Paper 10,000 50,000

C1608 CC0603 0.80 mm Paper 4,000 10,000

C2012 CC0805

0.60 mm Paper/Plastic 4,000 20,000

0.85 mm 10,000

1.25 mm Plastic 2,000

C3216 CC1206

0.60 mm Paper 4,000

10,000

0.85 mm Paper/Plastic

1.15 mm

Plastic 2,0001.30 mm

1.60 mm 8,000

C3225 CC1210

1.15 mm

Plastic

2,000 10,000

1.25 mm

2,000 8,0001.30 mm

1.60 mm

2.00 mm

1,000 5,0002.30 mm

2.50 mm

C4532 CC1812

1.60 mm

Plastic

1,000

3,000

2.00 mm

2.30 mm

500

2.50 mm

2.80 mm 2,000

3.20 mm

C5750 CC2220

1.60 mm

Plastic

1,000

3,000

2.00 mm

500

2.30 mm

2.50 mm

2.80 mm 2,000

• Peel Back Force (Top Tape)

0~15°

Carrier tape

Top cover tape

Direction & angle of pull

0.05 –0.7 N

• Carrier tape shall be flexible enough to be

wound around a minimum radius of 30mm with

components in tape.

• The missing of components shall be less than

0.1%

• Components shall not stick to the cover tape.

• The cover tape shall not protrude beyond the

edges of the carrier tape not shall cover the

sprocket holes.

Paper Carrier Tape & Reel

Plastic Carrier Tape & Reel

Drawing direction Leader

400mm min

Bulk

160mm min.

Chips Bulk

160mm min

TDK MLCC US Catalog Version B11Page 104

Additional

Information C Series –Mid Voltage Application

• Shape & Dimensions

Terminal electrode

Ceramic dielectric

Internal electrode

Case Code Dimensions (mm)

JIS EIA L W T B G

C1005 CC0402 1.00 0.50 0.50 0.25 0.35 min.

C1608 CC0603 1.60 0.80 0.80 0.20 0.30 min.

C2012 CC0805 2.00 1.20

0.60 0.20

min. 0.50 min.0.85

1.25

C3216 CC1206 3.20 1.60

0.60

0.20

min. 1.00 min.

0.85

1.15

1.30

1.60

C3225 CC1210 3.20 2.50

1.15 0.20

min.

1.00 min

1.25 0.30

min.

1.30

1.60 0.20

min.

2.00

2.30 0.30

min.

2.50

C4532 CC1812 4.50 3.20

1.60 0.20

min.

2.00 min

2.00

2.30

2.50 0.30

min.

2.80

3.20

C5750 CC2220 5.70 5.00

1.60

0.20

min. 2.00 min.

2.00

2.30

2.50

2.80

TDK Corporation established internal product environmental

assurance standards that include the six hazardous

substances banned by the EU RoHS Directive1enforced on

July 1, 2006 along with additional substances independently

banned by TDK and has successfully completed making

general purpose electronic components conform to the RoHS

Directive2.

No. NAME MATERIAL

Class 1 Class 2

(1) Ceramic Dielectric CaZrO3BaTiO3

(2) Internal Electrode Nickel (Ni)

(3)

Termination

Copper (Cu)

(4) Nickel (Ni)

(5) Tin (Sn)

• Inside Structure & Material System

• Environmental Information

1. Abbreviation for Restriction on Hazardous

Substances, which refers to the regulation EU

Directive 2002/95/EC on hazardous substances by

the European Union (EU) effective from July 1, 2006.

The Directive bans the use of six specific hazardous

substances in electric and electronic devices and

products handled within the EU. The six substances

are lead, mercury, cadmium, hexavalent chromium,

PBB (polybrominated biphenyls), and PBDE

(polybrominated diphenyl ethers).

2. This means that, in conformity with the EU Directive

2002/95/EC, lead, cadmium, mercury, hexavalent

chromium, and specific bromine-based flame

retardants, PBB and PBDE, have not been used,

except for exempted applications.

For REACH (SVHC : 15 substances according to ECHA /

October 2008) : All TDK MLCC do not contain these

15 substances.

For European Directive 2000/53/CE and 2005/673/CE :

Cadmium, Hexavalent Chromium, Mercury, Lead are

not contained in all TDK MLCC.

For European Directive 2003/11/CE : Pentabromodiphenyl-

ether, Octabromodiphenyl-ether are not contained in

all TDK MLCC.