06033J4R7QBWTR_技术文档

®

Accu-F / Accu-P

Thin-Film Technology

This accuracy sets apart these Thin-Film capacitors from

ceramic capacitors so that the term Accu has been

employed as the designation for this series of devices, an

abbreviation for “accurate.”

THE IDEAL CAPACITOR

The non-ideal characteristics of a real capacitor can be

ignored at low frequencies. Physical size imparts inductance

to the capacitor and dielectric and metal electrodes result in

resistive losses, but these often are of negligible effect on the

circuit. At the very high frequencies of radio communication

(>100MHz) and satellite systems (>1GHz), these effects

become important. Recognizing that a real capacitor will

exhibit inductive and resistive impedances in addition to

capacitance, the ideal capacitor for these high frequencies is

an ultra low loss component which can be fully characterized

in all parameters with total repeatability from unit to unit.

THIN-FILM TECHNOLOGY

Thin-film technology is commonly used in producing semi-

conductor devices. In the last two decades, this technology

has developed tremendously, both in performance and in

process control. Today’s techniques enable line definitions of

below 1μm, and the controlling of thickness of layers at 100Å

(10^-2μm). Applying this technology to the manufacture of

capacitors has enabled the development of components

where both electrical and physical properties can be tightly

controlled.

1

Until recently, most high frequency/microwave capacitors

were based on fired-ceramic (porcelain) technology. Layers

of ceramic dielectric material and metal alloy electrode paste

are interleaved and then sintered in a high temperature oven.

This technology exhibits component variability in dielectric

quality (losses, dielectric constant and insulation resistance),

variability in electrode conductivity and variability in physical

size (affecting inductance). An alternate thin-film technology

has been developed which virtually eliminates these vari-

ances. It is this technology which has been fully incorporated

into Accu-F^®and Accu-P^®to provide high frequency capaci-

tors exhibiting truly ideal characteristics.

The thin-film production facilities at AVX consist of:

• Class 1000 clean rooms, with working areas under

laminar-flow hoods of class 100, (below 100 particles

per cubic foot larger than 0.5μm).

• High vacuum metal deposition systems for high-purity

electrode construction.

• Photolithography equipment for line definition down to

2.0μm accuracy.

The main features of Accu-F^®and Accu-P^®may be summa-

rized as follows:

• Plasma-enhanced CVD for various dielectric deposi-

tions (CVD=Chemical Vapor Deposition).

• High purity of electrodes for very low and repeatable

ESR.

• High accuracy, microprocessor-controlled dicing saws

for chip separation.

• Highly pure, low-K dielectric for high breakdown field,

high insulation resistance and low losses to frequencies

above 40GHz.

• High speed, high accuracy sorting to ensure strict

tolerance adherence.

• Very tight dimensional control for uniform inductance,

unit to unit.

• Very tight capacitance tolerances for high frequency

signal applications.

TERMINATION

ALUMINA

SEAL

ELECTRODE

DIELECTRIC

ALUMINA

ACCU-P^®CAPACITOR

6

®

Accu-F / Accu-P

Thin-Film Chip Capacitors

®

ACCU-F TECHNOLOGY

ACCU-P TECHNOLOGY

The use of very low-loss dielectric materials, silicon dioxide

and silicon oxynitride, in conjunction with highly conductive

electrode metals results in low ESR and high Q. These

high-frequency characteristics change at a slower rate with

increasing frequency than for ceramic microwave capacitors.

Because of the thin-film technology, the above-mentioned

frequency characteristics are obtained without significant

compromise of properties required for surface mounting.

The main Accu-F^®properties are:

As in the Accu-F^®series the use of very low-loss dielectric

materials (silicon dioxide and silicon oxynitride) in conjunction

with highly conductive electrode metals results in low ESR and

high Q. At high frequency these characteristics change at

a slower rate with increasing frequency than conventional

ceramic microwave capacitors. Using thin-film technology, the

above-mentioned frequency characteristics are obtained with-

out significant compromise of properties required for surface

mounting. The use of high thermal conductivity materials

results in excellent RF power handling capabilities.

1

• Internationally agreed sizes with excellent dimensional

control.

• Small size chip capacitors (0603) are available.

• Tight capacitance tolerances.

• Low ESR at VHF, UHF and microwave frequencies.

• High stability with respect to time, temperature, frequency

and voltage variation.

The main Accu-P^®properties are:

• Enhanced RF power handling capability.

• Improved mechanical characteristics.

• Internationally agreed sizes with excellent dimensional control.

• Ultra Small size chip capacitors (0201) are available.

• Tight capacitance tolerances.

• Low ESR at UHF, VHF, and microwave frequencies.

• High-stability with respect to time, temperature, frequency

and voltage variation.

• Nickel/solder-coated terminations to provide excellent

solderability and leach resistance.

®

• High temperature nickel/solder-coated terminations as stan-

dard to provide excellent solderability and leach resistance.

ACCU-F FEATURES

Accu-F^®meets the fast-growing demand for low-loss

(high-Q) capacitors for use in surface mount technology espe-

cially for the mobile communications market, such as cellular

radio of 450 and 900 MHz, UHF walkie-talkies, UHF cordless

telephones to 2.3 GHz, low noise blocks at 11-12.5 GHz and

for other VHF, UHF and microwave applications.

Accu-F^®is currently unique in its ability to offer very

low capacitance values (0.1pF) and very tight capacitance

tolerances ( 0.05pF). Typically Accu-F^®will be used in small

signal applications in VCO’s, matching networks, filters, etc.

®

ACCU-P FEATURES

• Minimal batch to batch variability of parameters at high fre-

quency.

• The Accu-P^®has the same unique features as the Accu-F^®

capacitor such as low ESR, high Q, availability of very low

capacitance values and very tight capacitance tolerances.

• The RF power handling capability of the Accu-P^®allows for

its usage in both small signal and RF power applications.

• Inspection, test and quality control procedures in accor-

dance with ISO 9001, CECC, IECQ and USA MIL Standards

guarantee product of the highest quality.

Inspection test and quality control procedures in accordance

with ISO 9001, CECC, IECQ and USA MIL Standards yield

products of the highest quality.

• Hand soldering Accu-P^®: Due to their construction

utilizing relatively high thermal conductivity materials,

Accu-P’s have become the preferred device in R & D labs

and production environments where hand soldering is used.

Accu-P’s are available in all sizes and are electrically identi-

cal to their Accu-F counterparts.

APPLICATIONS

Cellular Communications

Radar Systems

Video Switching

Test & Measurements

Filters

VCO’s

Matching Networks

CT2/PCN (Cordless

Telephone/Personal Comm.

Networks)

Satellite TV

Cable TV

GPS (Global Positioning Systems)

Vehicle Location Systems

Vehicle Alarm Systems

Paging

APPLICATIONS

Cellular Communications

Radar Systems

Video Switching

Test & Measurements

Filters

VCO's

Matching Networks

RF Amplifiers

CT2/PCN (Cordless

Telephone/Personal Comm.

Networks)

Satellite TV

Cable TV

GPS (Global Positioning Systems)

Vehicle Location Systems

Vehicle Alarm Systems

Paging

APPROVALS

ISO 9001

Military Communications

APPROVALS

ISO 9001

Military Communications

7

®

Accu-F */ Accu-P

Thin-Film Chip Capacitors for

RF Signal and Power Applications

B₁

T

B₂

ACCU-P^®(Signal and Power Type Capacitors)

L

1

0201

0402*

0603*

0805*

1210

3.02 0.1

ACCU-F^®*(Signal Type Capacitors)

0.60 0.05

1.00 0.1

1.60 0.1

2.01 0.1

L

W

T

(0.023 0.0024 (0.039 0.00ꢀ4 (0.063 0.00ꢀ4 (0.079 0.00ꢀ4 (0.119 0.00ꢀ4

0.325 0.050 0.55 0.07 0.81 0.1 1.27 0.1 2.5 0.1

(0.0128 0.0024 (0.022 0.0034 (0.032 0.00ꢀ4 (0.050 0.00ꢀ4 (0.100 0.00ꢀ4

0.225 0.050 0.ꢀ0 0.1 0.63 0.1 0.93 0.2 0.93 0.2

0603

1.60 0.1

(0.063 0.00ꢀ4

0805

2.01 0.1

(0.079 0.00ꢀ4

L

W

T

0.81 0.1

(0.032 0.00ꢀ4

1.27 0.1

(0.050 0.00ꢀ4

(0.009 0.0024 (0.016 0.00ꢀ4 (0.025 0.00ꢀ4 (0.036 0.0084 (0.036 0.0084

+0.1

0.10 0.10

0.00

0.35 0.15

(0.01ꢀ 0.0064 (0.012 0.00ꢀ4 (0.017 0.00ꢀ4

0.35 0.15 0.30 0.1 0.ꢀ3 0.1

0.30 0.1

0.ꢀ3 0.1

0.63 0.1

(0.025 0.00ꢀ4

0.63 0.1

(0.025 0.00ꢀ4

-0.0

B₁

B₂

+0.00ꢀ

-0.000

(0.00ꢀ 0.00ꢀ4

(0.000

4

0.15 0.05

0.20 0.1

0.30 0.1

(0.012 0.00ꢀ4

0.30 0.1

(0.012 0.00ꢀ4

B

(0.006 0.0024 (0.008 0.00ꢀ4 (0.01ꢀ 0.0064 (0.012 0.00ꢀ4 (0.017 0.00ꢀ4

Not recommended for new designs. Accu-P’s

DIMENSIONS:

are recommended.

millimeters (inches)

Mount Black Side Up

DIMENSIONS: millimeters (inches)

*

HOW TO ORDER

0402

3

J

4R7

A

B

S

TR

Size

0201*

0402*

0603

0805

Voltage

Temperature Capacitance

Tolerance

for

Termination

Code

Packaging

Code

TR = Tape & Reel

Specification

Code

1 = 100V Coefficient (1)

Capacitance

A = Accu-F^®

technology

B = Accu-P^®

technology

5 = 50V

3 = 25V

Y = 16V

Z = 10V

J = 0 30ppm/ꢀC expressed in pF.

C≤2.0pF*

W = Nickel/Solder Coated

®

(-55ꢀC to

+125ꢀC)

K = 0 60ppm/ꢀC

(-55ꢀC to

(2 significant

digits + number Q = 0.03pF

of zeros) A = 0.05pF

for values <10pF, B = 0.1pF

letter R denotes C = 0.25pF

P = 0.02pF

Accu-F Sn63, Pb37

®

Accu-P 0402 Sn90, Pb10

1210*

* Accu-P ONLY

T = Nickel/High Temperature

Solder Coated

®

+125ꢀC)

Accu-P 0805**, 1210**

decimal point.

Example:

Sn96, Ag4

for

C≤3.0pF

Nickel/Solder Coated

68pF = 680

Q = 0.03pF

®

Accu-P 0603

8.2pF = 8R2

A = 0.05pF

B = 0.1pF

C = 0.25pF

Sn63, Pb37

**S = Nickel/Lead Free

Solder Coated

®

⁽¹⁾TC’s shown are per EIA/IEC Specifications.

Accu-P 0201, 0402, 0603

for

C≤5.6pF

A = 0.05pF

B = 0.1pF

C = 0.25pF

Sn100

**RoHS compliant

Not RoHS Compliant

for 5.6pF<C<10pF

B = 0.1pF

C = 0.25pF

D = 0.5pF

Engineering Kits Available

see pages 90-91

for

C≥10pF

F = 1ꢁ

G = 2ꢁ

J = 5ꢁ

LEAD-FREE COMPATIBLE

COMPONENT

For RoHS compliant products,

please select correct termination style.

* Tolerances as tight as 0.01pF are available. Please consult the factory.

ELECTRICAL SPECIFICATIONS

Operating and Storage Temperature Range

Temperature Coefficients⁽¹⁾

Capacitance Measurement

Insulation Resistance (IR)

Proof Voltage

-55ꢀC to +125ꢀC

30ppm/ꢀC dielectric code “J” / 0 60ppm/ꢀC dielectric code “K”

1 MHz, 1 Vrms

≥10¹¹Ohms (≥10¹⁰Ohms for 0201 and 0402 size)

2.5 U_Rfor 5 secs.

Zero

0

Aging Characteristic

Dielectric Absorption

0.01ꢁ

⁽¹⁾TC’s shown are per EIA/IEC Specifications.

8

®

Accu-F *

Signal Type Capacitors

Accu-F^®Capacitance Ranges (pF)

TEMP. COEFFICIENT CODE

“J” = 0 30ppm/ꢀC

TEMP. COEFFICIENT CODE

“K” = 0 60ppm/ꢀC

(2)

(-55ꢀC to +125ꢀC)

(-55ꢀC to +125ꢀ)

1

Size

Size Code

Voltage

Size

Size Code

Voltage

0603

50

0805

50

0603

50

0805

50

100

25

100

25

100

25

100

25

Cap in

pF⁽¹⁾

Cap

Cap in

pF⁽⁽¹⁾

Cap

code

0.1

0.2

0.3

0.ꢀ

0.5

0.6

0.7

0.8

0.9

—

0R1

0R2

0R3

0Rꢀ

0R5

0R6

0R7

0R8

0R9

0.1

0.2

0.3

0.ꢀ

0.5

0.6

0.7

0.8

0.9

—

0R1

0R2

0R3

0Rꢀ

0R5

0R6

0R7

0R8

0R9

1.0

1.2

1.5

—

1R0

1R2

1R5

1.0

1.2

1.5

—

1R0

1R2

1R5

1.8

2.2

2.7

—

1R8

2R2

2R7

1.8

2.2

2.7

—

1R8

2R2

2R7

3.3

3.9

ꢀ.7

—

3R3

3R9

ꢀR7

3.3

3.9

ꢀ.7

—

3R3

3R9

ꢀR7

5.6

6.8

8.2

—

5R6

6R8

8R2

5.6

6.8

8.2

—

5R6

6R8

8R2

10

12

15

—

100

120

150

10

12

15

—

100

120

150

18

22

27

—

180

220

270

18

22

27

—

180

220

270

33

39

ꢀ7

—

330

390

ꢀ70

33

39

ꢀ7

—

330

390

ꢀ70

56

68

82

—

560

680

820

56

68

82

—

560

680

820

100

120

150

—

101

121

151

100

120

150

—

101

121

151

(14

For capacitance values higher than listed in table,

please consult factory.

For capacitance values higher than listed in table,

please consult factory.

(24

TC shown is per EIA/IEC Specifications.

⁽²⁴TC shown is per EIA/IEC Specifications.

Intermediate values are available within the indicated range.

Not recommended for new designs.

Accu-P’s are recommended.

*

9

®

Accu-P

Signal and Power Type Capacitors

Accu-P^®Capacitance Ranges (pF)

TEMP. COEFFICIENT CODE

“K” = 0 60ppm/ꢀC (-55ꢀC to +125ꢀC)

Size

(2)

“J” = 0 30ppm/ꢀC (-55ꢀC to +125ꢀC)

Size

Size Code

Voltage

0201

0402

0603

0805

1210

Size Code

Voltage

805

100 50

1210

100 50 25 16 10 100 50 25 16 10 100 50 25 100 50 25 100 50

25 100 50⁽³⁾

Cap in

Cap

Cap in

Cap

pF⁽¹⁾

code

pF⁽¹⁾

code

1

0.1

0.2

0.3

0.ꢀ

0.5

0.6

0.7

0.8

0.9

—

0R1

0R2

0R3

0Rꢀ

0R5

0R6

0R7

0R8

0R9

0.1

0.2

0.3

0.ꢀ

0.5

0.6

0.7

0.8

0.9

—

0R1

0R2

0R3

0Rꢀ

0R5

0R6

0R7

0R8

0R9

1.0

1.1

1.2

1.3

1.ꢀ

1.5

1.6

1.7

1.8

1.9

—

1R0

1R1

1R2

1R3

1Rꢀ

1R5

1R6

1R7

1R8

1R9

1.0

1.1

1.2

1.3

1.ꢀ

1.5

1.6

1.7

1.8

1.9

—

1R0

1R1

1R2

1R3

1Rꢀ

1R5

1R6

1R7

1R8

1R9

2.0

2.1

2.2

2.3

2.ꢀ

2.5

2.6

2.7

2.8

2.9

—

2R0

2R1

2R2

2R3

2Rꢀ

2R5

2R6

2R7

2R8

2R9

2.0

2.1

2.2

2.3

2.ꢀ

2.5

2.6

2.7

2.8

2.9

—

2R0

2R1

2R2

2R3

2Rꢀ

2R5

2R6

2R7

2R8

2R9

3.0

3.1

3.2

3.3

3.ꢀ

3.5

3.6

3.7

3.8

3.9

—

3R0

3R1

3R2

3R3

3Rꢀ

3R5

3R6

3R7

3R8

3R9

3.0

3.1

3.2

3.3

3.ꢀ

3.5

3.6

3.7

3.8

3.9

—

3R0

3R1

3R2

3R3

3Rꢀ

3R5

3R6

3R7

3R8

3R9

ꢀ.0

ꢀ.1

ꢀ.2

ꢀ.3

ꢀ.ꢀ

ꢀ.5

ꢀ.6

ꢀ.7

—

ꢀR0

ꢀR1

ꢀR2

ꢀR3

ꢀRꢀ

ꢀR5

ꢀR6

ꢀR7

ꢀ.0

ꢀ.1

ꢀ.2

ꢀ.3

ꢀ.ꢀ

ꢀ.5

ꢀ.6

ꢀ.7

—

ꢀR0

ꢀR1

ꢀR2

ꢀR3

ꢀRꢀ

ꢀR5

ꢀR6

ꢀR7

5.1

5.6

6.2

—

5R1

5R6

6R2

5.1

5.6

6.2

—

5R1

5R6

6R2

6.8

7.5

8.2

—

6R8

7R5

8R2

6.8

7.5

8.2

—

6R8

7R5

8R2

9.1

10.0

11.0

—

9R1

100

110

9.1

10.0

11.0

—

9R1

100

110

12.0

13.0

1ꢀ.0

—

120

130

1ꢀ0

12.0

13.0

1ꢀ.0

—

120

130

1ꢀ0

15.0

16.0

17.0

—

150

160

170

15.0

16.0

17.0

—

150

160

170

18.0

19.0

20.0

—

180

190

200

18.0

19.0

20.0

—

180

190

200

21.0

22.0

2ꢀ.0

—

210

220

2ꢀ0

21.0

22.0

2ꢀ.0

—

210

220

2ꢀ0

27.0

30.0

33.0

—

270

300

330

27.0

30.0

33.0

—

270

300

330

39.0

ꢀ7.0

56.0

68.0

—

390

ꢀ70

560

680

39.0

ꢀ7.0

56.0

68.0

—

390

ꢀ70

560

680

⁽¹⁴For capacitance values higher than listed in table, please consult factory.

⁽²⁴TC shown is per EIA/IEC Specifications.

These values are produced with “K” temperature coefficient code only.

⁽¹⁴For capacitance values higher than listed in

table, please consult factory.

⁽²⁴TC shown is per EIA/IEC Specifications.

⁽³⁴For 50 volt range, please consult factory.

Intermediate values are available within the indicated range.

10

®

Accu-P

0201 Typical Electrical Tables

Self

250MHz

500MHz

750MHz

1000MHz

1250MHz

Capacitance Resonance

@ 1 MHz

(pF)

Frequency

(GHz)

Typical

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

0.8

1.2

1.8

2.2

3.3

3.9

4.7

5.6

6.8

9.1

7.6

6.3

5.7

4.6

4.3

3.9

3.6

3.3

0.84

1.21

1.84

2.23

3.29

3.91

4.71

5.62

6.77

2154

1375

1298

1355

1295

1902

1677

1391

1135

360

405

271

214

156

93

0.84

1.21

1.85

2.24

3.31

3.93

4.74

5.67

6.83

630

525

520

512

430

460

391

370

314

603

517

341

281

230

181

174

154

149

0.85

1.22

1.86

2.25

3.33

3.97

4.80

5.74

6.91

424

341

337

335

285

298

252

257

217

594

527

347

284

230

185

178

148

142

0.85

1.23

1.87

2.27

3.36

4.02

4.87

5.83

7.03

327

267

270

264

220

227

181

195

164

577

503

326

270

223

181

183

144

139

0.86

1.23

1.88

2.29

3.40

4.08

4.97

5.95

7.18

255

208

201

199

159

163

130

140

118

588

515

347

284

242

198

200

157

151

1

84

Self

1500MHz

1750MHz

2250MHz

2500MHz

2750MHz

Capacitance Resonance

@ 1 MHz

(pF)

Frequency

(GHz)

Typical

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

M

Typ.

ESR

(ᒊΩ)

Typ.

C(eff)

(pF)

Typ.

Q

Typ.

ESR

(ᒊΩ)

0.8

1.2

1.8

2.2

3.3

3.9

4.7

5.6

6.8

9.1

7.6

6.3

5.7

4.6

4.3

3.9

3.6

3.3

0.86

1.24

1.90

2.32

3.45

4.16

5.08

6.11

7.38

204

155

148

145

119

122

99

611

565

388

320

266

216

213

166

155

0.87

1.26

1.92

2.34

3.50

4.25

5.23

6.31

7.63

168

129

123

101

103

83

631

577

395

322

263

214

212

164

158

0.88

1.28

1.96

2.41

3.63

4.46

5.55

6.76

8.22

141

92

96

93

74

75

60

64

54

587

570

395

329

277

224

221

174

166

0.89

1.30

1.99

2.46

3.73

4.63

5.83

7.16

8.74

126

89

83

81

64

50

53

44

571

566

396

328

276

223

222

175

169

0.90

1.31

2.02

2.50

3.84

4.79

6.10

7.56

9.29

122

81

74

72

55

56

43

45

37

532

558

397

330

281

225

224

141

173

108

93

91

76

11

®

Accu-P

0402 Typical Electrical Tables

Capacitance

Self

& Tolerance* Resonance Ref

Typ.

Q

Typ.

Ref

Typ.

Q

Typ. Ref Typ.

Typ.

Q

Typ.

Ref Typ. Typ.

Typ.

Ref

Typ.

Q

Typ.

@ 1 MHz

(pF)

Frequency

(GHz)

Typical

Freq C(eff)

(MHz) (pF)

ESR Freq C(eff)

(Ω) (MHz) (pF)

ESR Freq C(eff)

(Ω) (MHz) (pF)

ESR Freq C(eff)

(Ω) (MHz) (pF)

Q

ESR

(Ω)

Freq C(eff)

(MHz) (pF)

ESR

(Ω)

0.1 0.05

0.2 0.05

0.3 0.05

0.4 0.05

0.5 0.05

0.6 0.05

0.7 0.05

0.8 0.05

0.9 0.05

1.00 0.05

1.10 0.05

1.20 0.05

1.30 0.05

1.40 0.05

1.50 0.05

1.60 0.05

1.70 0.05

1.80 0.05

1.90 0.05

2.00 0.05

2.10 0.05

2.20 0.05

2.30 0.05

2.40 0.05

2.50 0.05

2.60 0.05

2.70 0.05

2.80 0.05

2.90 0.05

3.00 0.05

3.10 0.05

3.20 0.05

3.30 0.05

3.40 0.05

3.50 0.05

3.60 0.05

3.70 0.05

3.80 0.05

3.90 0.05

4.00 0.05

4.10 0.05

4.20 0.05

4.30 0.05

4.40 0.05

4.50 0.05

4.60 0.05

4.70 0.05

5.10 0.05

5.60 0.05

6.2 0.1

19.4

16.4

14.6

12.5

11.3

10.4

9.5

9.1

8.8

8

7.8

7.4

7

6.8

6.5

6.4

6.2

6

n/a

1.15 1283

1.22 1219

1.33 1153

1.42 1109

1.54 1061

1.63 1002

1.76

1.81

1.86

1.93

2.06

2.14

2.27

2.36

2.48

2.6

2.71

2.83

2.94

3.11

3.39

3.45

3.61

3.72

3.78

3.82

3.87

3.93

4

4.01

4.07

4.18

4.27

4.34

4.45

4.52

4.62

4.74

5.16

5.75

6.09

6.94

7.51

8.36

9.28

n/a

1.13

1.21

1.31

1.4

1.52

1.58

1.69

1.75

1.83

1.91

2.11

2.21

2.26

2.4

2.51

2.62

2.73

2.82

2.9

2.99

3.11

3.22

3.3

3.42

3.53

3.6

3.7

3.81

3.9

4.02

4.11

4.2

4.29

4.43

4.5

n/a

1.12 620

1.19 561

1.3

1.35 480

1.49 461

1.6

1.71 429

1.75 422

1.8

1.91 401

2.01 400

2.1

2.27 396

2.3 379

2.41 358

2.52 349

2.65 331

2.86 313

2.91 308

3.15 303

3.41 299

3.48 291

3.68 285

n/a

1

n/a

247

246

245

244

243

242

241

240

239

238

237

236

235

234

233

232

231

230

229

228

227

226

225

224

223

222

221

220

217

214

211

208

205

202

199

196

193

189

186

184

182

179

178

1.16 1635 0.34

1.25 1581 0.32

1.34 1538 0.30

1.42 1502 0.29

1.53 1476 0.28

1.63 1454 0.28

1.71 1448 0.27

1.85 1444 0.27

1.93 1430 0.26

2.01 1421 0.25

2.11 1410 0.24

2.21 1406 0.23

2.28 1406 0.22

2.32 1405 0.20

2.45 1404 0.19

2.49 1404 0.18

494

492

491

490

488

486

485

483

482

481

480

478

476

475

473

472

470

469

468

467

466

465

464

462

461

460

459

458

457

456

455

454

453

452

451

450

447

443

440

436

433

430

428

0.22 742

0.21 740

0.21 738

0.21 736

0.20 733

0.20 731

0.20 729

0.19 728

0.19 727

0.19 726

0.18 722

0.17 720

0.16 718

0.16 716

0.16 715

0.16 714

0.15 712

0.15 711

0.15 710

0.15 709

0.15 708

0.15 707

0.14 707

0.14 706

0.14 705

0.14 704

0.14 702

0.13 699

0.13 697

0.13 696

0.12 695

0.12 694

0.12 693

0.12 692

0.11 691

0.11 690

0.11 687

0.11 684

0.10 681

0.09 678

0.09 675

0.08 673

0.09 670

870

791

727

701

680

638

622

612

597

583

582

581

549

501

486

477

464

458

450

440

429

421

415

407

402

395

389

386

384

381

380

379

373

369

364

359

351

348

342

339

334

320

306

249

0.22

0.21

0.20

0.19

0.18

0.17

0.16

0.15

0.14

0.13

0.12

0.11

0.10

0.09

0.10

0.11

0.09

0.12

0.10

0.11

0.10

0.11

0.12

991

989

986

983

980

978

986

985

983

972

969

966

964

962

960

959

958

956

954

953

952

951

950

949

948

947

946

945

944

943

942

941

940

939

938

937

934

932

928

926

924

922

920

0.23 1240 1.14

0.24 1238 1.21

0.25 1234 1.33

0.24 1230 1.41

0.23 1229 1.53

0.23 1226 1.65

0.23 1224 1.77

0.22 1223 1.86

0.22 1220 1.91

0.21 1219 1.97

0.20 1215 2.11

0.19 1213 2.22

0.18 1212 2.35

0.18 1209

0.19 1208 2.53

0.19 1205 2.7

0.19 1204 2.85

0.19 1203

0.18 1202 3.12

0.18 1201 3.24

0.18 1201 3.33

0.18 1199 3.45

0.17 1198 3.58

0.17 1197 3.61

0.17 1196 3.78

0.16 1195 3.91

474

425

372

350

333

316

309

305

299

294

293

291

289

262

253

240

231

224

220

218

212

207

203

198

195

191

186

181

177

172

170

169

167

168

162

161

159

131

129

128

127

120

0.25

0.24

0.23

0.22

0.21

0.20

0.19

0.20

0.19

0.18

0.17

0.16

0.15

0.14

0.13

0.12

0.15

0.13

0.14

503

438

986

970

931

897

896

893

870

845

821

799

778

769

751

746

733

725

711

705

693

688

667

658

649

650

655

658

657

660

665

670

673

589

576

585

591

567

542

458

413

5.7

5.4

5.1

5

398

2.4

4.9

4.7

4.6

4.5

4.4

4.3

4.2

4.1

4

3.9

3.8

3.7

3.6

3.5

3.4

3.3

3

2.8

2.7

2.6

2.5

2.4

2.3

2.2

2.1

2

1.9

1.8

1.75

2.6

1402 0.16

2.84 1399 0.15

2.85 1395 0.15

2.87 1395 0.15

2.88 1392 0.14

3

2.9

1392 0.14

2.91 1391 0.14

2.92 1391 0.14

2.93 1390 0.14

2.95 1389 0.13

2.97 1382 0.13

2.99 1381 0.13

3.8

282

3.79 276

3.85 273

3.89 270

3.95 262

4.02 256

4.11 251

4.18 250

4.23 248

4.37 247

4.58 246

4.62 246

0.16 1194

0.16 1193

4

4.1

4

1380 0.13

0.16 1192 4.23

0.16 1191 4.37

0.16 1190 4.46

0.15 1190 4.52

0.15 1199 4.66

0.15 1195 4.75

0.14 1192 4.82

0.14 1190 4.96

0.14 1188 5.07

0.14 1186 5.18

0.14 1184 5.82

0.14 1182 6.62

0.12 1180 7.34

0.11 1177 8.22

0.10 1176 9.01

4.01 1379 0.13

4.09 1372 0.12

4.18 1370 0.12

4.27 1356 0.12

4.36 1355 0.12

4.44 1351 0.11

4.53 1350 0.11

4.62 1347 0.11

4.75 1343 0.11

5.19 1310 0.11

5.74 1297 0.11

6.31 1244 0.10

6.92 1202 0.09

7.57 1155 0.08

8.35 1116 0.08

9.23 1059 0.09

4.6

4.7

245

4.72

4.74

5.23

5.81

6.33

7.04

7.85

8.48

9.87

4.79 244

4.86 244

5.53 230

6.01 201

6.68 202

7.39 203

8.17 191

8.93 186

10.2 152

6.8 0.1

7.5 0.1

8.2 0.1

9.1 0.1

0.10 1174 10.04 118

0.11 1172 11.98

0.13 1171 13.75

0.12 1170 15.3

0.13 1168 17.63

0.11 1164 23.9

0.14 1167 23.1

0.16 1166 23.6

0.13 1161 34.7

0.12 1163 34.9

0.11 1164 35.2

0.11 1163 37.5

0.12 1162 39.1

0.13 1161 100.5

88

70

61

52

47

40

44

28

29

24

19

15

10.0 1ꢁ

11.0 1ꢁ

12.0 1ꢁ

13.0 1ꢁ

14.0 1ꢁ

15.0 1ꢁ

16.0 1ꢁ

17.0 1ꢁ

18.0 1ꢁ

19.0 1ꢁ

20.0 1ꢁ

22.0 1ꢁ

10.14 936

11.19 912

12.16 889

13.3

14.26 802

15.34 791

0.09

0.08

0.07

0.08

0.07

0.08

424 10.24 385

421 11.17 363

418

416 13.32 363

414 14.44 298

413 15.46 283

410

409 18.42 258

407 19.4 241

405 20.43 195

404 23.105 174

0.10 668 10.55 202

0.09 666 11.81 185

0.09 664 12.77 173

0.08 661

0.09 660 15.03 149

0.08 660 16.16 138

0.08 657

0.07 657 19.51 130

0.07 655 20.51 115

0.06 655

0.54 654

919 11.49 118

917 12.87 103

915 14.16 95

12.3

348

984

14.1

183

912

15.8 101

913 16.72 76.7

912 18.51 82

16.3

17.6

780

765

16.4

17.7

270

263

17.6

18.2

129

130

909

910

908

20.2

21.3

22.7 75.5

24.5

26.5

68

70

176.5 18.13 754

175

173

19.2

20.32 520

680

62

57

22.1

25

112

85.5

170.04 22.42 497.5 0.09

907 30.95 44

* Other tolerances are available, see page 8

12

®

Accu-P

0402 Typical Electrical Tables

Capacitance

Self

& Tolerance* Resonance Ref

Typ.

Q

Typ.

Ref

Typ. Typ.

Typ.

Ref Typ.

Typ.

Q

Typ.

Ref

Typ. Typ. Typ.

Ref

Typ.

Q

Typ.

@ 1 MHz

(pF)

Frequency

(GHz)

Typical

Freq C(eff)

(MHz) (pF)

ESR Freq C(eff)

(Ω) (MHz) (pF)

Q

ESR Freq C(eff)

(Ω) (MHz) (pF)

ESR Freq C(eff)

(Ω) (MHz) (pF)

Q

ESR

(Ω)

Freq C(eff)

(MHz) (pF)

ESR

(Ω)

0.1 0.05

0.2 0.05

0.3 0.05

0.4 0.05

0.5 0.05

0.6 0.05

0.7 0.05

0.8 0.05

0.9 0.05

1.00 0.05

1.10 0.05

1.20 0.05

1.30 0.05

1.40 0.05

1.50 0.05

1.60 0.05

1.70 0.05

1.80 0.05

1.90 0.05

2.00 0.05

2.10 0.05

2.20 0.05

2.30 0.05

2.40 0.05

2.50 0.05

2.60 0.05

2.70 0.05

2.80 0.05

2.90 0.05

3.00 0.05

3.10 0.05

3.20 0.05

3.30 0.05

3.40 0.05

3.50 0.05

3.60 0.05

3.70 0.05

3.80 0.05

3.90 0.05

4.00 0.05

4.10 0.05

4.20 0.05

4.30 0.05

4.40 0.05

4.50 0.05

4.60 0.05

4.70 0.05

5.10 0.05

5.60 0.05

6.2 0.1

19.4

16.4

14.6

12.5

11.3

10.4

9.5

9.1

8.8

8

7.8

7.4

7

6.8

6.5

6.4

6.2

6

n/a

380

342

307

289

265

252

246

241

240

239

233

230

228

214

196

182

173

164

159

156

150

148

145

143

138

133

130

126

125

121

120

119

118

105

90

n/a

314

275

251

240

221

203

201

199

198

197

190

185

183

168

151

144

132

122

120

117

114

109

105

101

95

94

92

90

89

88

87

85

81

80

75

61

60

58

n/a

265

232

208

196

179

169

168

167

166

165

160

155

149

132

120

112

97

94

88

84

81

79

77

76

75

73

71

69

67

66

65

n/a

200

177

149

137

125

115

119

120

122

123

118

115

108

99

91

81

72

66

65

63

61

59

58

55

52

51

49

48

47

48

49

50

52

54

39

28

33

36

33

31

15

8

n/a

1

n/a

1489

1485

1483

1479

1477

1474

1472

1470

1469

1468

1466

1463

1461

1460

1459

1458

1455

1453

1451

1450

1449

1448

1447

1446

1445

1444

1443

1442

1441

1440

1439

1438

1437

1435

1434

1432

1430

1.18

1.29

1.37

1.45

1.6

1.72

1.81

1.92

1.98

2.06

2.12

2.31

2.47

2.51

2.6

2.77

2.85

3.18

3.25

3.33

3.49

3.61

3.7

3.79

4.01

4.11

4.2

4.28

4.44

4.72

4.8

4.92

5.01

5.17

5.28

5.41

5.49

5.6

0.25 1739 1.25

0.25 1735 1.33

0.25 1732 1.45

0.25 1729 1.58

0.25 1726 1.71

0.25 1724 1.82

0.24 1722 1.91

0.23 1719 1.99

0.22 1718 2.06

0.22 1717 2.19

0.21 1716 2.22

0.20 1714 2.43

0.20 1711 2.65

0.20 1709 2.81

0.25 1988 1.32

0.25 1986 1.41

0.25 1982 1.54

0.25 1980 1.66

0.25 1977 1.78

0.25 1974 1.94

0.24 1971 2.01

0.24 2240 1.38 229

0.24 2238 1.49 201

0.24 2234 1.59 173

0.24 2230 1.73 166

0.24 2229 1.88 154

0.24 2227 2.01 143

0.23 2493 1.41

0.24 2490 1.55

0.25 2488 1.62

0.25 2485 1.76

0.25 2483 1.89

0.25 2481 2.03

0.23

0.25

0.27

0.26

0.27

0.25

0.24

0.22

0.21

0.20

0.22

0.23

0.24

0.25

0.24

0.23

0.21

0.20

0.19

0.21

0.23

0.19

0.14

0.16

0.18

0.19

0.23 2226

2.1

142

0.24 2479

2.1

0.23 1970

2.1

0.22 2225 2.23 141

0.21 2223 2.34 141

0.21 2222 2.41 140

0.20 2220 2.62 138

0.20 2219 2.76 132

0.20 2217 2.91 126

0.19 2216 3.15 121

0.19 2215 3.42 109

0.19 2214 3.58

0.19 2212 3.73

0.20 2211 3.89

0.20 2210 3.97

0.20 2210 4.12

0.20 2209 4.26

0.20 2209 4.45

0.19 2208 4.62

0.20 2207 4.81

0.20 2206 4.93

0.19 2206 5.21

0.23 2478 2.23

0.22 2477 2.35

0.21 2476 2.42

0.21 2475 2.65

0.22 1969 2.24

0.21 1968 2.33

0.21 1968 2.51

0.21 1966 2.62

0.20 1964 2.83

0.20 1963 2.98

0.20 1962 3.16

0.20 1960 3.32

0.20 1957 3.51

0.20 1956 3.75

0.20 1956 3.93

0.20 1956 4.02

0.20 1955 4.21

5.7

5.4

5.1

5

0.2

2474 2.81

0.19 2473 2.91

0.19 2471 3.16

0.2

4.9

4.7

4.6

4.5

4.4

4.3

4.2

4.1

4

3.9

3.8

3.7

3.6

3.5

3.4

3.3

3

2.8

2.7

2.6

2.5

2.4

2.3

2.2

2.1

2

1.9

1.8

1.75

0.20 1708

3

2469 3.42

0.20 1706 3.12

0.20 1705 3.25

0.20 1703 3.47

0.20 1702 3.62

0.19 1702 3.77

0.19 1701 3.99

0.19 1700 4.16

0.19 1700 4.31

0.19 1699 4.47

0.19 1698 4.62

0.19 1697 4.78

0.19 1697 4.91

0.19 1696 5.05

0.19 1696 5.11

0.19 1695 5.26

0.18 1694 5.38

92

85

78

75

73

72

70

69

68

66

65

63

62

61

60

59

58

57

56

55

56

45

0.21 2468 3.66

0.22 2467 3.73

0.24 2466 3.89

0.24 2466 4.03

0.24 2466 4.17

0.24 2465 4.21

0.24 2465 4.33

0.23 2464 4.49

0.23 2464 4.66

0.22 2464 4.92

0.23 2463 5.15

0.22 2463 5.25

0.22 2462 5.41

0.22 2462 5.66

0.22 2461 5.82

0.21 2461 5.86

0.21 2460

0.21 2460 5.95

0.2

0.19 2458 6.23

0.18 2458 6.29

0.18 2457 6.35

0.20 1952

4.4

0.20 1952 4.62

0.20 1951 4.76

0.20 1950 4.92

0.20 1950 5.18

0.20 1949 5.34

0.20 2205

5.4

0.19 1949

5.5

0.20 2205 5.62

0.20 2204 5.78

0.21 2204 5.94

0.20 2203 6.03

0.19 2203 6.11

0.18 2203 6.24

0.18 2202 6.35

0.19 1948 5.61

0.19 1948 5.77

0.19 1947 5.81

0.19 1947 5.93

0.18 1946 6.05

0.18 1946 6.11

0.18 1945 6.23

0.18 1945 6.45

0.18 1944 6.66

0.18 1944 6.72

0.18 1943 7.97

0.17 1942 10.03

0.15 1941 11.52

0.13 1940 13.36

0.14 1939 15.06

0.13 1938 16.85

0.14 1937 28.35

0.16 1936 40.16

0.15 1935 66.25

0.14 1934 92.97

0.17 1934 125

0.21 1934 180.3

0.17 1933 244.5

0.17 1932

0.18 1693

5.5

5.9

0.18 1692 5.63

0.18 1692 5.78

0.18 1691 5.91

0.18 1691 6.04

0.17 1691 6.11

0.17 1690 6.23

0.17 1689 7.48

0.17 1687 8.75

0.15 1686 10.21

0.13 1684 11.43

0.13 1683 12.25

0.13 1682 14.43

0.13 1681 19.07

0.14 1680 26.51

0.15 1679 32.66

0.15 1678 43.51

0.13 1671 63.2

0.15 1677 122

0.14 1676 154

0.14 1670

64

63

60

51

48

45

40

38

25

11

8

5

3

2459 6.01

2459 6.12

0.18 2202

6.4

0.19 2201 6.52

0.17 2201 6.67

0.17 2200 6.71

0.19 2200 8.11

0.21 2199 10.42 37

0.18 2198 11.88 36

0.14 2196 13.72 37

0.13 2195 15.24 35

0.13 2195 16.65 32

0.15 2194 31.08 15

0.17 2194 45.46

0.17 2192 81.07

0.18 2192 123.19

0.18 2191

0.19 2191

0.16 2191

6.59

7.43

8.27

9.41

0.2

2456

8.1

0.22 2456 10.07

0.18 2455 11.02

0.14 2454 12.85

0.15 2454 13.66

0.14 2453 15.32

0.16 2452 29.91

0.18 2452 39.54

0.2

0.18

0.161

0.16

0.155

91

88

85

79

60

41

36

29

18

17

20

12

11

9

7

5

6.8 0.1

7.5 0.1

8.2 0.1

9.1 0.1

1429 10.05

1428 11.64

1427 13.39

1425

1424 20.09

1423 24.14

1417

1422 39.55

1421 38.93

1416

1415

1411 83.13

56

52

33

21

19

13

5

2

10.0 1ꢁ

11.0 1ꢁ

12.0 1ꢁ

13.0 1ꢁ

14.0 1ꢁ

15.0 1ꢁ

16.0 1ꢁ

17.0 1ꢁ

18.0 1ꢁ

19.0 1ꢁ

20.0 1ꢁ

22.0 1ꢁ

17.6

8

5

3

2451 61.28

2450 82.44

6

4

48.3

1

2

79.3

77.6

0.16 2191

0.16 2182

0.16 2181

0.16 2180

0.16 2178

0.14 1670

0.15 1675

0.15 1673

0.17 1932

0.16 1932

0.16 1930

1415

1415.3 78.8

79.6

78.5

4

0.15 1670.5

0.15 1927.5

* Other tolerances are available, see page 8

13

®

Accu-F / Accu-P

0603 Typical Electrical Tables

Capacitance

Self

Ref

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

MHz

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

MHz

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

MHz

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

& Tolerance* Resonance Freq.

@ 1 MHz

(pF)

Frequency MHz

(GHz)

0.1 0.05

0.2 0.05

0.3 0.05

0.4 0.05

0.5 0.05

0.6 0.10

0.7 0.10

0.8 0.10

0.9 0.10

1.0 0.10

1.1 0.10

1.2 0.10

1.3 0.10

1.4 0.10

1.5 0.10

1.6 0.10

1.7 0.10

1.8 0.10

1.9 0.10

2.0 0.10

2.1 0.10

2.2 0.10

2.4 0.25

2.7 0.25

3.0 0.25

3.3 0.25

3.6 0.25

3.9 0.25

4.3 0.25

4.7 0.25

5.1 0.25

5.6 0.25

6.2 0.25

6.8 0.25

7.5 0.50

8.2 0.50

9.1 0.50

10 5ꢁ

18.0

12.7

10.4

9.0

N/A

491

490

487

486

485

484

483

482

479

478

477

475

474

471

468

465

459

456

455

451

448

445

443

439

435

432

429

425

422

420

418

416

414

412

410

408

404

403

402

401

400

N/A

738

736

734

732

731

729

727

725

723

721

720

718

717

713

709

706

699

697

695

692

689

686

684

680

677

675

672

670

667

665

663

661

660

659

657

656

654

653

652

651

650

N/A

987

985

981

974

977

976

973

971

969

967

966

964

962

958

954

951

945

942

940

937

935

931

929

927

925

921

919

917

916

914

913

912

911

910

908

906

905

904

N/A

1

8.1

N/A

7.4

N/A

6.8

N/A

6.4

N/A

6.0

N/A

5.7

5.4

5.2

5.0

4.8

4.7

4.5

4.4

4.2

4.1

4.0

3.9

3.8

3.7

3.5

3.3

3.1

3.0

2.9

2.7

2.6

2.5

2.4

2.3

2.2

2.1

2.0

1.9

1.8

1.7

1.6

1.5

1.4

1.3

1.2

1.1

1.0

245

244

243

242

241

240

239

238

237

236

234

232

230

226

224

223

220

218

216

214

211

208

205

202

200

195

191

189

187

185

182

179

176

170

168

165

163

160

1.15/0.90

1.25/1.00

1.35/1.10

1.45/1.15

1.55/1.25

1.65/1.35

1.75/1.45

1.85/1.55

2.10/1.70

2.15/1.78

2.11/1.80

2.25/1.95

2.40/2.05

2.70/2.15

3.00/2.45

3.40/2.75

3.60/3.05

3.90/3.30

4.20/3.65

4.60/4.00

5.00/4.45

5.40/4.85

5.90/5.35

6.50/5.95

7.20/6.55

8.10/7.00

8.80/7.70

9.80/8.60

10.70/9.50

11.60/10.90

12.90/11.40

13.10/12.90

14.90/13.25

15.90/14.25

17.00/15.15

19.50/17.00

24.00/20.90

26.00/22.80

29.00/25.60

32.00/28.50

37.65/31.35

.280

.270

.260

.250

.240

.230

.220

.210

.205

.200

.190

.175

.160

.150

.130

.128

.125

.122

.120

.115

.110

.105

.100

.095

.090

.085

.080

.070

.066

.065

.064

1.10/0.90

1.25/1.00

1.35/1.05

1.45/1.15

1.55/1.25

1.65/1.35

1.75/1.45

1.85/1.60

2.10/1.70

2.15/1.80

2.11/1.80

2.25/1.98

2.45/2.05

2.75/2.15

3.10/2.45

3.40/2.75

3.70/3.05

4.25/3.35

4.35/3.70

4.80/4.05

5.20/4.45

5.70/4.89

6.10/5.35

6.90/5.95

7.25/6.55

8.10/7.00

8.80/7.70

10.95/8.65

11.60/9.50

12.20/10.60

13.40/11.50

14.00/13.00

16.90/14.00

17.50/15.30

18.00/15.90

20.20/17.10

25.00/20.90

30.00/23.00

36.00/27.00

40.00/30.00

45.00/33.00

.220

.210

.200

.190

.180

.170

.160

.155

.150

.145

.140

.125

.120

.119

.115

.117

.110

.105

.100

.099

.098

.097

.095

.090

.085

.080

1.10/0.90

1.11/1.00

1.40/1.05

1.45/1.15

1.45/1.25

1.65/1.35

1.75/1.45

1.85/1.60

2.10/1.70

2.15/1.80

2.11/1.80

2.35/1.98

2.42/2.05

2.80/2.15

3.10/2.45

3.40/2.75

3.70/3.05

3.90/3.35

4.90/3.75

5.10/4.05

5.30/4.50

6.00/4.90

6.15/5.40

7.10/6.00

7.50/6.60

8.20/7.00

9.00/7.70

12.00/9.00

12.50/9.60

13.20/10.50

14.60/11.90

16.00/13.50

19.00/15.00

21.00/16.50

22.00/17.00

23.70/19.00

28.00/21.00

N/A

.220

.210

.200

.190

.180

.170

.167

.165

.162

.160

.150

.145

.140

.130

.125

.120

.115

.110

.100

.10

1.15/0.90

1.25/1.00

1.35/1.05

1.45/1.15

1.55/1.25

1.70/1.35

1.80/1.50

1.90/1.60

2.15/1.70

2.20/1.80

2.25/1.90

2.35/2.00

2.45/2.10

2.80/2.15

3.15/2.48

3.60/2.80

3.80/3.10

4.10/3.40

5.15/3.75

5.30/4.05

5.50/4.55

6.20/5.00

6.50/5.50

8.00/6.10

9.00/6.65

9.50/7.05

10.00/7.80

13.00/9.10

16.00/9.90

17.00/10.00

18.00/12.00

21.00/14.00

26.00/15.00

29.00/17.00

30.00/18.00

33.00/21.00

39.00/21.50

N/A

.300

.290

.280

.270

.260

.250

.240

.230

.220

.210

.200

.190

.170

.165

.160

.150

.145

.140

.135

.130

.125

.120

11 5ꢁ

12 5ꢁ

13 5ꢁ

14 5ꢁ

15 5ꢁ

16 5ꢁ

18 5ꢁ

22 5ꢁ

24 5ꢁ

.10

27 5ꢁ

N/A

.10

N/A

30 5ꢁ

N/A

.10

N/A

33 5ꢁ

N/A

.10

N/A

* Other tolerances are available, see page 8

1ꢀ

®

Accu-F / Accu-P

0805 Typical Electrical Tables

Capacitance

Ref

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

MHz

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

MHz

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

MHz

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Self

& Tolerance* Resonance Freq.

@ 1 MHz

(pF)

Frequency MHz

(GHz)

0.1 0.05

0.2 0.05

0.3 0.05

0.4 0.05

0.5 0.05

0.6 0.10

0.7 0.10

0.8 0.10

0.9 0.10

1.0 0.10

1.1 0.10

1.2 0.10

1.3 0.10

1.4 0.10

1.5 0.10

1.6 0.10

1.7 0.10

1.8 0.10

1.9 0.10

2.0 0.10

2.1 0.10

2.2 0.10

2.4 0.25

2.7 0.25

3.0 0.25

3.3 0.25

3.6 0.25

3.9 0.25

4.3 0.25

4.7 0.25

5.1 0.25

5.6 0.25

6.2 0.25

6.8 0.25

7.5 0.05

8.2 0.05

9.1 0.05

10 5ꢁ

N/A

500

496

492

488

487

486

484

483

482

481

479

477

475

473

470

465

463

462

459

456

451

447

444

442

435

434

432

429

423

420

418

416

414

411

408

406

405

403

401

400

399

397

396

395

394

N/A

750

754

739

734

733

731

729

728

726

724

722

720

716

714

711

707

704

701

697

691

688

684

683

677

675

673

670

668

665

663

662

661

660

659

657

656

655

654

652

651

650

649

648

647

646

N/A

999

993

987

980

979

977

975

974

972

970

967

964

962

960

957

952

948

947

944

940

936

934

930

927

925

924

922

920

918

916

915

914

913

912

911

910

908

907

906

905

904

903

902

901

900

N/A

1

N/A

5.6

5.4

5.1

4.9

4.8

4.6

4.5

4.3

4.2

4.1

4.0

3.9

3.8

3.6

3.4

3.3

3.1

3.0

2.9

2.7

2.6

2.5

2.4

2.3

2.2

2.1

2.0

1.9

1.8

1.6

1.5

1.4

1.3

1.2

1.1

1.0

0.9

0.8

250

248

245

243

242

241

240

239

238

237

236

235

233

231

229

228

227

223

220

218

215

212

208

206

203

199

196

193

190

187

184

182

179

176

173

171

168

165

163

159

157

155

153

152

1.20/0.90

1.30/1.00

1.40/1.10

1.50/1.20

1.60/1.30

1.70/1.40

1.80/1.50

1.90/1.60

2.00/1.70

2.10/1.80

2.20/1.90

2.30/2.00

2.40/2.10

2.85/2.15

3.19/2.45

3.51/2.75

3.83/3.05

4.16/3.35

4.48/3.65

4.91/4.05

5.35/4.45

5.78/4.85

6.00/5.35

7.00/5.95

7.20/6.55

8.64/7.00

9.40/7.70

10.37/8.60

11.00/9.50

12.50/10.45

13.61/11.40

14.75/12.35

15.88/13.30

17.02/14.25

18.16/15.20

20.42/17.10

22.70/19.00

24.95/20.90

27.20/22.80

30.78/25.69

34.23/28.50

37.85/31.35

41.19/34.20

44.79/37.05

49.99/40.85

55.19/44.65

.320

.290

.270

.260

.240

.230

.220

.210

.200

.190

.180

.170

.160

.150

.140

.130

.120

.100

.090

.080

.070

.060

.050

1.20/0.90

1.30/1.00

1.40/1.10

1.50/1.20

1.60/1.20

1.70/1.40

1.85/1.50

1.95/1.60

2.05/1.70

2.15/1.80

2.30/1.90

2.40/2.00

2.60/2.10

3.13/2.29

3.47/2.55

3.76/2.86

4.04/3.10

4.35/3.42

4.67/3.72

5.11/4.13

5.52/4.53

5.94/4.94

6.82/5.40

7.52/6.00

8.21/6.88

9.02/7.10

9.83/7.90

10.88/8.76

11.92/9.76

13.23/10.50

14.50/11.90

15.80/13.00

17.22/14.00

18.56/15.19

19.90/16.28

22.69/18.57

25.38/20.78

28.08/21.00

31.31/25.61

36.10/32.20

40.58/33.20

46.65/35.00

52.22/38.00

59.08/47.08

70.50/53.04

81.99/59.00

.300

.270

.250

.230

.220

.210

.200

.190

.180

.170

.150

.140

.130

.120

.110

.100

.080

.070

.060

1.20/0.90

1.30/1.00

1.40/1.10

1.50/1.10

1.60/1.20

1.70/1.40

2.00/1.50

2.05/1.60

2.10/1.70

2.25/1.80

2.40/1.90

2.60/2.00

2.80/2.14

3.17/2.30

3.52/2.60

3.84/2.93

4.15/3.19

4.50/3.53

4.85/3.86

5.32/4.25

5.79/4.60

6.25/5.20

7.27/5.60

8.08/6.10

8.90/6.96

9.85/7.50

10.80/8.25

12.02/9.10

13.24/10.00

15.07/11.00

16.90/12.82

18.87/14.00

20.84/16.00

22.62/19.13

27.00/20.89

33.00/22.10

38.00/23.15

42.00/24.00

N/A

.270

.250

.240

.230

.220

.210

.200

.190

.170

.160

.150

.140

.120

.110

.100

.090

1.20/0.90

1.30/1.00

1.40/1.10

1.50/1.20

1.60/1.30

1.70/1.40

2.00/1.50

2.20/1.60

2.30/1.70

2.40/1.80

2.60/1.95

2.80/2.06

3.06/2.17

3.31/2.31

3.67/2.60

4.00/3.00

4.38/3.30

4.80/3.60

5.23/3.90

5.79/4.50

6.36/4.80

7.16/5.74

8.25/5.90

9.35/6.80

10.46/7.32

11.75/8.42

13.04/9.53

14.70/10.70

15.37/11.80

16.00/12.20

N/A

.300

.290

.280

.270

.260

.250

.240

.230

.220

.210

.200

.190

.180

.170

.160

.150

.140

.130

.120

.110

11 5ꢁ

12 5ꢁ

13 5ꢁ

N/A

14 5ꢁ

N/A

15 5ꢁ

N/A

16 5ꢁ

N/A

18 5ꢁ

N/A

20 5ꢁ

N/A

22 5ꢁ

N/A

24 5ꢁ

N/A

27 5ꢁ

N/A

30 5ꢁ

N/A

33 5ꢁ

N/A

36 5ꢁ

N/A

39 5ꢁ

N/A

43 5ꢁ

N/A

47 5ꢁ

N/A

* Other tolerances are available, see page 8

15

®

Accu-P

1210 Typical Electrical Tables

Capacitance

Self

Ref

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

(MHz)

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

(MHz)

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

Ref

Freq.

(MHz)

Effective

Capacitance

Max/Min

(pF)

Max

ESR

(Ω)

& Tolerance* Resonance Freq.

@ 1 MHz

(pF)

Frequency (MHz)

(GHz)

1.0 0.25

1.2 0.25

1.5 0.25

1.8 0.25

2.2 0.25

2.7 0.25

3.3 0.25

3.6 0.25

3.9 0.25

4.3 0.25

4.7 0.25

5.1 0.25

5.6 0.25

6.2 0.25

6.8 0.25

7.5 0.25

8.2 0.25

9.1 0.25

10 5ꢁ

4.98

4.55

4.07

9.71

9.96

2.70

2.60

2.50

2.40

2.30

2.20

2.10

2.00

1.90

1.80

1.70

1.60

1.50

1.40

1.30

1.20

1.10

1.00

0.98

0.96

0.92

0.91

0.88

0.85

0.84

0.82

0.80

0.77

0.73

0.70

247

245

242

240

237

233

229

228

227

223

220

218

215

212

208

206

203

199

196

193

190

185

183

182

180

176

173

171

168

166

164

163

162

161

159

158

157

155

153

152

1.23/0.75

1.32/0.95

.350

.310

.250

.200

.170

.140

.130

.120

.110

.100

.090

.080

.070

.060

495

491

486

482

476

466

463

462

458

456

451

447

441

442

435

434

432

429

423

420

418

416

415

414

411

408

406

405

403

402

401

400

399

398

397

396

395

1.34/0.86

1.45/1.00

.260

.240

.230

.200

.170

.140

.130

.120

.110

.100

.090

.080

.070

745

739

731

727

708

704

701

697

691

683

681

679

677

675

673

670

668

665

663

662

661

660

659

657

656

655

654

653

652

651

650

649

648

1.46/0.94

1.64/1.1

1.82/1.95

2.4/1.6

.280

.260

.250

.200

.180

.150

.140

.130

.120

.110

.100

.090

.080

.070

995

987

978

969

952

948

947

944

940

936

933

928

927

925

924

922

920

918

916

915

914

913

912

911

909

908

907

906

905

904

903

1.6/0.99

2.00/1.2

2.1/1.4

2.54/1.7

3.02/2.2

3.89/2.70

4.49/3.30

4.78/3.45

5.18/3.90

5.72/4.30

6.56/4.70

7.20/5.40

8.15/6.00

9.18/7.00

10.20/7.42

11.36/8.00

13.00/9.10

15.11/10.25

17.22/11.06

N/A

.350

.320

.270

.210

.200

.170

.160

.150

.140

.130

.120

.110

1.6/1.23

1.75/1.3

2.1/1.55

2.21/1.56

2.48/1.95

2.68/2.00

2.85/2.1

3.73/2.63

4.33/3.23

4.50/3.32

4.85/3.75

5.32/4.29

5.94/4.60

6.36/5.10

7.17/5.67

7.99/6.10

8.81/6.93

9.58/7.60

10.68/8.31

12.10/9.66

13.51/10.05

15.07/11.33

16.90/12.82

18.80/13.60

20.85/16.00

22.62/17.00

25.12/18.00

30.00/24.00

35.00/26.00

42.00/27.00

N/A

1

3.42/2.45

3.49/2.55

4.02/3.05

4.09/3.15

4.18/3.35

4.32/3.43

4.53/3.65

4.66/3.73

5.01/4.05

5.11/4.14

5.48/4.45

5.62/4.50

5.88/4.85

6.04/4.90

6.49/5.35

6.72/5.56

7.19/5.95

7.26/6.07

7.38/6.55

8.16/6.42

8.60/7.90

8.90/7.25

9.36/7.70

9.76/7.96

10.34/8.60

11.33/9.50

12.50/10.45

13.61/11.40

14.75/12.35

15.89/13.30

17.02/14.25

18.16/15.20

20.42/17.10

22.70/19.00

24.95/20.90

27.20/22.60

26.39/23.75

30.78/25.65

31.93/26.50

34.23/28.50

36.51/30.40

37.65/31.35

38.83/32.30

41.20/34.20

44.79/37.05

49.99/40.85

55.69/44.65

10.87/8.88

11.97/9.79

13.23/10.83

14.59/11.90

15.64/13.00

17.22/14.00

18.56/15.19

19.90/16.28

22.69/18.57

25.36/20.78

28.06/22.96

31.31/25.60

32.91/26.00

36.10/28.00

37.60/30.76

40.50/33.20

44.63/34.50

46.65/35.00

48.51/37.00

52.22/41.00

59.00/43.00

70.00/46.00

81.00/53.00

11 5ꢁ

12 5ꢁ

N/A

13 5ꢁ

N/A

14 5ꢁ

N/A

15 5ꢁ

N/A

16 5ꢁ

N/A

18 5ꢁ

N/A

20 5ꢁ

N/A

22 5ꢁ

N/A

24 5ꢁ

N/A

25 5ꢁ

N/A

27 5ꢁ

N/A

28 5ꢁ

N/A

30 5ꢁ

N/A

32 5ꢁ

N/A

33 5ꢁ

N/A

34 5ꢁ

N/A

36 5ꢁ

N/A

39 5ꢁ

N/A

43 5ꢁ

N/A

47 5ꢁ

N/A

* Other tolerances are available, see page 8

16

®

Accu-F / Accu-P

High Frequency Characteristics

Typical ESR vs. Frequency

®

Accu-P 0201

1000

900

800

700

0.8pF

1.8pF

600

500

1

400

300

2.2pF

3.3pF

200

100

4.7pF

6.8pF

0

500

1000

1500

2000

2500

3000

Frequency (MHz)

Typical SRF vs. Capacitance

®

Accu-P 0201

8

7

6

5

4

3

2

1

0

3

4

5

6

7

8

9

10

SRF (GHz)

Typical Q vs. Frequency

®

Accu-P 0201

1000

0.8pF

Q

100

1.8pF

3.9pF

4.7pF

6.8pF

10

500

1000

1500

2000

2500

3000

Frequency (MHz)

17

®

Accu-F / Accu-P

High Frequency Characteristics

Typical ESR vs. Frequency

® ®

®

Accu-P 0402

Accu-F /Accu-P 0603

1

0.25

1.0pF

0.2

2.2pF

2.7pF

10pF

0.15

1

0.1

4.7pF

0.1

10pF

22pF

0.05

0

500

1000

Frequency (MHz)

Measured on Boonton 34A

1500

2000

2500

0.01

0

0.5

Measured on Boonton 34-A

(34-A limits measurements to 3GHz)

1

1.5

2

2.5

3GHz

Typical Q vs. Frequency

® ®

®

Accu-P 0402

Accu-F /Accu-P 0603

10000

1000

100

10

10000

1000

1 pF

2.2 pF

4.7 pF

100

10

10 pF

10pF

22pF

2.7pF

1

0

500

1000

1500

2000

2500

3000

0

0.5

Measured on Boonton 34-A

(34-A limits measurements to 3GHz)

1

1.5

2

2.5

3GHz

Frequency (MHz)

Typical Self Resonant Frequency vs. Capacitance

®

Accu-F /Accu-P 0603

Accu-P 0402

GHz

10

8

7

6

5

4

3

2

1

0

1

0

2

4

6

8

10

12

0.1

CAPACITANCE (pF)

1

10

100

pF

Measured on Wiltron 360 Vector Analyzer

L (self inductance)

0.78 nH

~

NOTE

L and SRF are obtained from the measured increase in

effective capacitance as the frequency is increased

Measured on the Boonton 34-A

18

®

Accu-F / Accu-P

High Frequency Characteristics

Typical ESR vs. Frequency

Accu-F /Accu-P 0805

Typical ESR vs. Frequency

®

Accu-P 1210

1

1pF

3.3pF

1

0.1

10pF

33pF

0.01

0

0.5

Measured on Boonton 34-A

(34-A limits measurements to 3GHz)

1

1.5

2

2.5

3GHz

0

0.5

Measured on Boonton 34-A

(34-A limits measurements to 3GHz)

1

1.5

2

2.5

3GHz

Typical Q vs. Frequency

Accu-F /Accu-P 0805

Typical Q vs. Frequency

®

Accu-P 1210

10000

1000

10000

1000

100

10

100

10

1pF

3.3pF

2.5

10pF

33pF

0

0.5

1

1.5

2

3GHz

0

0.5

1

1.5

2

2.5

3GHz

Measured on Boonton 34-A

(34-A limits measurements to 3GHz)

Measured on Boonton 34-A

(34-A limits measurements to 3GHz)

Typical Self Resonant Frequency vs. Capacitance

®

Accu-P 1210

Accu-F /Accu-P 0805

GHz

10

GHz

10

1

0.1

1

10

100

pF

1

10

100

pF

L (self inductance)

1.02 nH

~

L (self inductance)

NOTE

0.82 nH

~

NOTE

L and SRF are obtained from the measured increase in

effective capacitance as the frequency is increased

Measured on the Boonton 34-A

19

®

Accu-F / Accu-P

Environmental / Mechanical Characteristics

ENVIRONMENTAL CHARACTERISTICS

TEST

CONDITIONS

REQUIREMENT

Life (Endurance)

MIL-STD-202F Method 108A

125ꢀC, 2U_R,1000 hours

No visible damage

Δ C/C ≤ 2ꢁ for C≥5pF

Δ C ≤ 0.25pF for C<5pF

Accelerated Damp

85ꢀC, 85ꢁ RH, U_R, 1000 hours

No visible damage

Heat Steady State

MIL-STD-202F Method 103B

Δ C/C ≤ 2ꢁ for C≥5pF

Δ C ≤ 0.25pF for C<5pF

1

Temperature Cycling

MIL-STD-202F Method 107E

MIL-STD-883D Method 1010.7

-55ꢀC to +125ꢀC, 15 cycles – Accu-P^®

-55ꢀC to +125ꢀC, 5 cycles – Accu-F^®

No visible damage

Δ C/C ≤ 2ꢁ for C≥5pF

Δ C ≤ 0.25pF for C<5pF

Resistance to Solder Heat

IEC-68-2-58

260ꢀC 5ꢀC for 10 secs

C remains within initial limits

MECHANICAL CHARACTERISTICS

TEST

CONDITIONS

REQUIREMENT

Solderability

IEC-68-2-58

Components completely immersed in a

solder bath at 235ꢀC for 2 secs.

Terminations to be well tinned, minimum 95ꢁ

coverage

Leach Resistance

IEC-68-2-58

Components completely immersed in a

solder bath at 260 5ꢀC for 60 secs.

Dissolution of termination faces ≤15ꢁ of area

Dissolution of termination edges ≤25ꢁ of length

Adhesion

A force of 5N applied for 10 secs.

No visible damage

MIL-STD-202F Method 211A

Termination Bond Strength

IEC-68-2-21 Amend. 2

Tested as shown in diagram

No visible damage

Δ C/C ≤ 2ꢁ for C≥5pF

Δ C ≤ 0.25pF for C<5pF

D

D = 3mm Accu-P

D = 1mm Accu-F

45mm

Robustness of Termination

IEC-68-2-21 Amend. 2

A force of 5N applied for 10 secs.

55Hz to 2000Hz, 20G

No visible damage

High Frequency Vibration

MIL-STD-202F Method 201A,

®

204D (Accu-P only)

Storage

12 months minimum with components

stored in “as received” packaging

Good solderability

Average capacitance with histogram printout for

capacitance distribution;

QUALITY & RELIABILITY

Accu-P^®is based on well established thin-film technology

and materials.

IR and Breakdown Voltage distribution;

Temperature Coefficient;

Solderability;

• ON-LINE PROCESS CONTROL

Dimensional, mechanical and temperature stability.

This program forms an integral part of the production cycle

and acts as a feedback system to regulate and control

production processes. The test procedures, which are

integrated into the production process, were developed

after long research work and are based on the highly

developed semiconductor industry test procedures and

equipment. These measures help AVX to produce a con-

sistent and high yield line of products.

QUALITY ASSURANCE

The reliability of these thin-film chip capacitors has been

studied intensively for several years. Various measures

have been taken to obtain the high reliability required today

by the industry. Quality assurance policy is based on well

established international industry standards. The reliability

of the capacitors is determined by accelerated testing

under the following conditions:

• FINAL QUALITY INSPECTION

Life (Endurance)

Accelerated Damp

Heat Steady State

125ꢀC, 2U_R, 1000 hours

Finished parts are tested for standard electrical parameters

and visual/mechanical characteristics. Each production lot

is 100ꢁ evaluated for: capacitance and proof voltage at

2.5 U_R. In addition, production is periodically evaluated for:

85ꢀC, 85ꢁ RH, U_R,

1000 hours.

20

®

Accu-F / Accu-P

Performance Characteristics RF Power Applications

ESR and therefore RF heating. Values of ESR for

RF POWER APPLICATIONS

In RF power applications capacitor losses generate heat. Two

factors of particular importance to designers are:

Accu-P^®capacitors are significantly less than those of

ceramic MLC components currently available.

• Minimizing the generation of heat.

• Dissipating heat as efficiently as possible.

HEAT DISSIPATION

• Heat is dissipated from a capacitor through a variety of

paths, but the key factor in the removal of heat is the

thermal conductivity of the capacitor material.

• The higher the thermal conductivity of the capacitor, the

more rapidly heat will be dissipated.

• The table below illustrates the importance of thermal

conductivity to the performance of Accu-P^®in power

applications.

CAPACITOR HEATING

• The major source of heat generation in a capacitor in RF

power applications is a function of RF current (I) and ESR,

from the relationship:

Power dissipation = I²_RMSx ESR

• Accu-P^®capacitors are specially designed to minimize

1

PRODUCT

MATERIAL

Alumina

Magnesium Titanate

THERMAL CONDUCTIVITY W/mK

Accu-P^®

18.9

6.0

Microwave MLC

Power Handling

®

Accu-P 10pF

Amps

8

6

4

Data used in calculating the graph:

Thermal impedance of capacitors:

0402

0603

0805

1210

17ꢀC/W

12ꢀC/W

6.5ꢀC/W

5ꢀC/W

1210

0805

0603

0402

Thermal impedance measured using RF generator,

amplifier and strip-line transformer.

2

0

ESR of capacitors measured on Boonton 34A

0

200 400 600 800 1000 1200 1400MHz

The thermal impedance expresses the temperature difference

in ꢀC between chip center and termination caused by

a power dissipation of 1 watt in the chip. It is expressed in

ꢀC/W.

THERMAL IMPEDANCE

Thermal impedance of Accu-P^®chips is shown below com-

pared with the thermal impedance of Microwave MLC’s.

CAPACITOR TYPE

Accu-P^®

CHIP SIZE

0805

1210

THERMAL IMPEDANCE (°C/W)

6.5

5

Microwave MLC

0505

1210

12

7.5

®

ADVANTAGES OF ACCU-P

PRACTICAL APPLICATION

IN RF POWER CIRCUITS

The optimized design of Accu-P^®offers the designer of RF

power circuits the following advantages:

• Reduced power losses due to the inherently low ESR of

• There is a wide variety of different experimental methods

for measuring the power handling performance of a

capacitor in RF power circuits. Each method has its

own problems and few of them exactly reproduce the

conditions present in “real” circuit applications.

• Similarly, there is a very wide range of different circuit appli-

cations, all with their unique characteristics and operating

conditions which cannot possibly be covered by such

“theoretical” testing.

Accu-P^®.

• Increased power dissipation due to the high thermal

conductivity of Accu-P^®.

• THE ONLY TRUE TEST OF A CAPACITOR IN ANY PARTICULAR

APPLICATION IS ITS PERFORMANCE UNDER OPERATING

CONDITIONS IN THE ACTUAL CIRCUIT.

21

®

Accu-F / Accu-P

Application Notes

GENERAL

HANDLING

Accu-F^®and Accu-P^®SMD capacitors are designed for

soldering to printed circuit boards or other substrates. The

construction of the components is such that they will with-

stand the time/temperature profiles used in both wave and

reflow soldering methods.

SMD capacitors should be handled with care to avoid damage

or contamination from perspiration and skin oils. The use of

plastic tipped tweezers or vacuum pick-ups is strongly recom-

mended for individual components. Bulk handling should

ensure that abrasion and mechanical shock are minimized. For

automatic equipment, taped and reeled product gives the

ideal medium for direct presentation to the placement

machine.

1

CIRCUIT BOARD TYPE

COMPONENT PAD DESIGN

The circuit board types which may be used with Accu-F^®and

Component pads must be designed to achieve good

joints and minimize component movement during reflow

soldering. Pad designs are given below for both wave and

reflow soldering.

Accu-P^®are as follows:

Accu-F^®: All flexible types of circuit boards

(eg. FR-4, G-10).

Accu-P^®: All flexible types of circuit boards

(eg. FR-4, G-10) and also alumina.

For other circuit board materials, please consult factory.

The basis of these designs is:

a. Pad width equal to component width. It is permissible to

decrease this to as low as 85ꢁ of component width but

it is not advisable to go below this.

b. Pad overlap 0.5mm beneath large components. Pad

overlap about 0.3mm beneath small components.

c. Pad extension of 0.5mm for reflow of large components

and pad extension about 0.3mm for reflow of small com-

ponents. Pad extension about 1.0mm for wave soldering.

WAVE SOLDERING

DIMENSIONS: millimeters (inches)

1.5

(0.059)

1.5

(0.059)

5.0

(0.197)

0.8

(0.031)

0.26

1.2

(0.047)

1.25

(0.049)

4.0

(0.157)

(0.010)

2.0

(0.079)

0.40

1.0

(0.039)

(0.016)

2.1

(0.083)

0.5

(0.020)

1.06

(0.042)

3.1

(0.122)

3.1

(0.122)

0.6

(0.024)

0.7

(0.028)

0.40

(0.016)

0.8

(0.031)

0.34

(0.013)

1.5

(0.059)

1.25

(0.049)

1.2

(0.047)

1.5

(0.059)

0.55

(0.022)

1.25

(0.049)

0.8

(0.031)

0.8

(0.031)

2.5

(0.098)

0603

0805

1210

Accu-P^®

0201

Accu-P^®

0402

Accu-P^®

0603

Accu-F^®

Accu-P^®

Accu-F^®

Accu-P^®

REFLOW SOLDERING

DIMENSIONS: millimeters (inches)

1.0

(0.039)

1.0

4.0

(0.157)

0.26

(0.010)

0.8

0.85

(0.039)

(0.031)

(0.033)

0.26

(0.010)

2.0

(0.079)

0.6

3.0

(0.024)

2.3

(0.091)

2.3

(0.091)

0.6

(0.024)

(0.118)

0.7

(0.028)

1.7

(0.068)

1.0

(0.039)

0.78

(0.030)

0.5

(0.020)

0.85

(0.033)

0.8

(0.031)

0.6

(0.024)

0.34

(0.013)

0.26

(0.010)

1.0

(0.039)

1.0

(0.039)

0.8

(0.031)

0.8

(0.031)

0.55

(0.022)

1.25

(0.049)

2.5

(0.098)

0603

0805

1210

Accu-P^®

0201

Accu-P^®

0402

Accu-P^®

0603

Accu-P^®

Accu-F^®

Accu-P^®

Accu-F^®

22

®

Accu-F / Accu-P

Application Notes

PREHEAT & SOLDERING

CLEANING RECOMMENDATIONS

The rate of preheat in production should not exceed 4ꢀC/

second and a recommended maximum is about 2ꢀC/second.

Temperature differential from preheat to soldering should not

exceed 100ꢀC.

For further specific application or process advice, please consult

AVX.

Care should be taken to ensure that the devices are

thoroughly cleaned of flux residues, especially the space

beneath the device. Such residues may otherwise become

conductive and effectively offer a lossy bypass to the device.

Various recommended cleaning conditions (which must be

optimized for the flux system being used) are as follows:

Cleaning liquids. . . . . . . i-propanol, ethanol, acetylacetone,

water and other standard PCB

1

COOLING

cleaning liquids.

After soldering, the assembly should preferably be allowed

to cool naturally. In the event of assisted cooling, similar

conditions to those recommended for preheating should be

used.

Ultrasonic conditions . . power-20w/liter max.

frequency-20kHz to 45kHz.

Temperature . . . . . . . . . 80ꢀC maximum (if not otherwise

limited by chosen solvent system).

Time . . . . . . . . . . . . . . . 5 minutes max.

HAND SOLDERING & REWORK

Hand soldering is permissible. Preheat of the PCB to 150ꢀC is

required. The most preferable technique is to use hot air sol-

dering tools. Where a soldering iron is used, a temperature

controlled model not exceeding 30 watts should be used and

set to not more than 260ꢀC.

STORAGE CONDITIONS

Recommended storage conditions for Accu-F^®and

Accu-P^®prior to use are as follows:

Temperature . . . . . . . . . . 15ꢀC to 35ꢀC

Humidity . . . . . . . . . . . . . ≤65ꢁ

Air Pressure . . . . . . . . . . 860mbar to 1060mbar

RECOMMENDED SOLDERING

PROFILE

IR REFLOW

WAVE SOLDERING

3–5 seconds

220

260

240

220

200

180

160

140

120

100

80

60

40

Assembly exits heat–

210

200

190

180

170

160

150

140

130

120

110

100

90

no forced cooldown

100°C

Additional soak time

to allow uniform

heating of the

substrate

Natural

Cooling

186°C solder melting

temperature

Assembly enters the

preheat zone

45-60 sec.

above solder

melting point

Enter Wave

Time (seconds)

Soak time

20

80

1) Activates the flux

2) Allows center of board

temperatures to catch up with

corners

70

0

10

20

30

40

50

60

70

80

90 100 110 120

60

50

40

30

20

0

0.5

1

1.5

2

2.5

3

3.5

4

4.5

Time (mins)

VAPOR PHASE

Transfer from

preheat with

min. delay &

temp. loss

Preheat

Reflow

215°C

200

180

160

140

120

100

80

200

180

160

140

120

100

80

Duration varies

Natural

Cooling

with thermal mass

of assembly

10–60 secs typical

Enter

Vapor

60

40

20

0

10

20

30

40

50

60

70

Time (minutes)

Time (seconds)

23

®

Accu-F /Accu-P

Automatic Insertion Packaging

TAPE & REEL

All tape and reel specifications are in compliance with EIA 481-1-A.

(equivalent to IEC 286 part 3).

• 8mm carrier

• Reeled quantities: Reels of 3,000 per 7" reel or 10,000 pieces per 13" reel

0201 and 0402 = 5,000 pieces per 7" reel and 20,000 pieces per 13" reel

1

REEL

DIMENSIONS: millimeters (inches)

(1)

A

B

C

D

E

F

G

180 1.0

(7.087 0.039)

1.5 min.

(0.059 min.)

13 0.2

(0.512 0.008)

20.2 min.

(0.795 min.)

50 min.

(1.969 min.)

9.6 1.5

(0.370 0.050)

14.4 max.

(0.567 max.)

Metric dimensions will govern.

Inch measurements rounded and for reference only.

(14 330mm (13 inch4 reels are available.

G MAX.

B*

C

A

E

F

D*

FULL RADIUS

*DRIVE SPOKES OPTIONAL

IF USED, ASTERISKED

DIMENSIONS APPLY.

CARRIER

DIMENSIONS: millimeters (inches)

A

B

C

D

E

F

+0.1

8.0 0.3

(0.315 0.012)

3.5 0.05

(0.138 0.002)

1.75 0.1

(0.069 0.004)

2.0 0.05

(0.079 0.002)

4.0 0.1

(0.157 0.004)

1.5_-0.0

(0.059_-0.000)

+0.00ꢀ

NOTE: The nominal dimensions of the component compartment (W,L4 are derived from the component size.

10 PITCHES

CUMULATIVE

E

TOLERANCE ON

TAPE 0.2

D

F

C

TOP

TAPE

W

B

A

L

P = 4mm except 0201 and 0402 where P = 2mm

P

CENTER LINES

OF CAVITY

DIRECTION OF FEED

NOTE: AVX reserves the right to change the information published herein without notice.

2ꢀ


型号：	06033J4R7QBWTR
厂家：	KYOCERA AVX
描述：	High purity of electrodes for very low and repeatable 高纯度的电极，用于非常低的和可重复
文件：	总19页 (文件大小：217K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

06033J4R7QBWTR [KYOCERA AVX]

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