VC060303A100WP [KYOCERA AVX]

METAL-OXIDE VARISTOR (MOV),2.3V V(RMS),1A I(TM),CHIP / DIE;


型号：	VC060303A100WP
厂家：	KYOCERA AVX
描述：	METAL-OXIDE VARISTOR (MOV),2.3V V(RMS),1A I(TM),CHIP / DIE 电阻器
文件：	总24页 (文件大小：784K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

GENERAL DESCRIPTION

The AVX TransGuard Transient Voltage Suppressors (TVS)

with unique high-energy multilayer construction represents

state-of-the-art overvoltage circuit protection. Monolithic

multilayer construction provides protection from voltage

transients caused by ESD, lightning, NEMP, inductive switch-

ing, etc. True surface mount product is provided in EIA

industry standard packages. Thru-hole components are

supplied as conformally coated axial devices.

TRANSGUARD^®DESCRIPTION

TransGuard products are zinc oxide (ZnO) based ceramic

semiconductor devices with non-linear voltage-current charac-

teristics (bi-directional) similar to back-to-back zener diodes.

They have the added advantage of greater current and energy

handling capabilities as well as EMI/RFI attenuation. Devices

are fabricated by a ceramic sintering process that yields a

structure of conductive ZnO grains surrounded by electrically

insulating barriers, creating varistor-like behavior.

The number of grain-boundary interfaces between conduct-

ing electrodes determines “Breakdown Voltage” of the

device. High voltage applications such as AC line protection

require many grains between electrodes while low voltage

requires few grains to establish the appropriate breakdown

voltage. Single layer ceramic disc processing proved to be a

viable production method for thick cross section devices

with many grains, but attempts to address low voltage

suppression needs by processing single layer ceramic disc

formulations with huge grain sites has had limited success.

AVX, the world leader in the manufacture of multilayer

ceramic capacitors, now offers the low voltage transient

protection marketplace a true multilayer, monolithic surface

mount varistor. Technology leadership in processing

thin dielectric materials and patented processes for

precise ceramic grain growth have yielded superior energy

dissipation in the smallest size. Now a varistor has voltage

characteristics determined by design and not just cell sorting

whatever falls out of the process.

Multilayer ceramic varistors are manufactured by mixing

ceramic powder in an organic binder (slurry) and casting it

into thin layers of precision thickness. Metal electrodes are

deposited onto the green ceramic layers which are then

stacked to form a laminated structure. The metal electrodes

are arranged so that their terminations alternate from one

end of the varistor to the other. The device becomes a

monolithic block during the sintering (firing) cycle providing

uniform energy dissipation in a small volume.

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

PART NUMBER IDENTIFICATION

Surface Mount Devices

Axial Leaded Devices

Important: For part number identification only, not for

construction of part numbers.

Important: For part number identification only, not for

construction of part numbers.

The information below only defines the numerical value of part number

digits, and cannot be used to construct a desired set of electrical limits.

Please refer to the TransGuard part number data for the correct electri-

The information below only defines the numerical value of part number

digits, and cannot be used to construct a desired set of electrical limits.

Please refer to the TransGuard part number data for the correct electri-

cal ratings.

V C 1206 05 D 150 R P

V A 1000 05 D 150 R L

TERMINATION FINISH:

P = Ni/Sn Alloy (Plated)

M = Ni/Sn Pb (Plated)

LEAD FINISH:

Copper clad steel, solder coated

PACKAGING (Pcs/Reel):

STYLE

“D”

“R”

“T”

STYLE

“D”

“R”

“T”

“W”

VA1000 1,000

VA2000 1,000

3,000

2,500

7,500

5,000

VC0402 N/A

N/A

N/A 10,000

VC0603 1,000 4,000 10,000 N/A

VC0805 1,000 4,000 10,000 N/A

VC1206 1,000 4,000 10,000 N/A

VC1210 1,000 2,000 10,000 N/A

CLAMPING VOLTAGE:

Where: 100 = 12V

150 = 18V

580 = 60V

650 = 67V

101 = 100V

121 = 120V

300 = 32V

400 = 42V

CLAMPING VOLTAGE:

Where: 100 = 12V

150 = 18V

500 = 50V

560 = 60V

580 = 60V

620 = 67V

650 = 67V

101 = 100V

121 = 120V

ENERGY:

Where: A = 0.1J

D = 0.4J

200 = 22V

250 = 27V

300 = 32V

390 = 42V

K = 2.0J

WORKING VOLTAGE:

400 = 42V

Where: 03 = 3.3 VDC 26 = 26.0 VDC

05 = 5.6 VDC 30 = 30.0 VDC

14 = 14.0 VDC 48 = 48.0 VDC

18 = 18.0 VDC 60 = 60.0 VDC

ENERGY:

Where:

A = 0.1J H = 1.2J

C = 0.3J J = 1.5J

D = 0.4J P = 3.0J

F = 0.7J V = 0.02J

G = 0.9J X = 0.05J

CASE SIZE DESIGNATOR:

SIZE

LENGTH

DIAMETER

1000 4.32mm (0.170") 2.54mm (0.100")

2000 4.83mm (0.190") 3.56mm (0.140")

WORKING VOLTAGE:

Where: 03 = 3.3 VDC 18 = 18.0 VDC

05 = 5.6 VDC 26 = 26.0 VDC

09 = 9.0 VDC 30 = 30.0 VDC

12 = 12.0 VDC 48 = 48.0 VDC

14 = 14.0 VDC 60 = 60.0 VDC

CASE STYLE:

A = Axial

PRODUCT DESIGNATOR:

V = Varistor

CASE SIZE DESIGNATOR:

MARKING:

SIZE

LENGTH

WIDTH

All axial TransGuards are marked with vendor identification, product

identification, voltage/energy rating code and date code (see example below):

0402 1.00 0.10mm (0.040" 0.004") 0.5 0.10mm (0.020" 0.004")

0603 1.60 0.15mm (0.063" 0.006") 0.8 0.15mm (0.032" 0.006")

0805 2.01 0.2mm (0.079" 0.008") 1.25 0.2mm (0.049" 0.008")

1206 3.20 0.2mm (0.126" 0.008") 1.60 0.2mm (0.063" 0.008")

1210 3.20 0.2mm (0.126" 0.008") 2.49 0.2mm (0.098" 0.008")

AVX

TVS

05D

425

CASE STYLE:

C = Chip

Where: AVX = Always AVX (Vendor Identification)

TVS = Always TVS (Product Identification

- Transient Voltage Suppressor)

PRODUCT DESIGNATOR:

V = Varistor

05D = Working VDC and Energy Rating (Joules)

Where: 05 = 5.6 VDC, D = 0.4J

425 = Three Digit Date Code

MARKING:

Where: 4 = Last digit of year (2004)

25 = Week of year

All standard surface mount TransGuard chips will not be marked.

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

ELECTRICAL CHARACTERISTICS

AVX

Part Number

Working Working Breakdown Clamping Test

Maximum Transient

Peak

Current

Rating

Typical Frequency

Cap

Case

Size

Voltage Voltage

Voltage

Voltage Current Leakage

Energy

Rating

(DC)

(AC)

For V_C

Current

VC060303A100 _ _

VC080503A100 _ _

VC080503C100 _ _

VC120603A100 _ _

VC120603D100 _ _

VA100003A100 _ _

VA100003D100 _ _

VC040205X150 _ _

VC060305A150 _ _

VC080505A150 _ _

VC080505C150 _ _

VC120605A150 _ _

VC120605D150 _ _

VA100005A150 _ _

VA100005D150 _ _

VC040209X200 _ _

VC060309A200 _ _

VC080509A200 _ _

VC080512A250 _ _

VC040214X300 _ _

VC060314A300 _ _

VC080514A300 _ _

VC080514C300 _ _

VC120614A300 _ _

VC120614D300 _ _

VA100014A300 _ _

VA100014D300 _ _

VC13MA0160KBA

VC040218X400 _ _

VC060318A400 _ _

3.3

2.3

5.0 20ꢀ

8.5 20ꢀ

12.7 15ꢀ

16 15ꢀ

100

0.1

0.3

0.1

0.4

0.1

0.4

0.05

0.1

0.3

0.1

0.4

0.1

0.4

0.05

0.1

0.05

0.1

0.3

0.1

0.4

0.1

0.4

1.6

0.05

0.1

1450

1400

5000

1250

4700

1500

4700

175

0603

0805

1206

1000

0402

0603

0805

1206

1000

0402

0603

0805

0402

0603

0805

1206

1000

1210

0402

0603

3.3

2.3

2.5

100

120

3.3

2.3

3.3

2.3

150

3.3

2.3

3.3

2.3

150

5.6

4.0

5.6

4.0

750

5.6

4.0

1100

3000

1200

3000

1000

2800

175

5.6

4.0

120

5.6

4.0

5.6

4.0

150

5.6

4.0

5.6

4.0

150

9.0

6.4

9.0

6.4

550

9.0

6.4

750

12.0

14.0

16.0

18.0

8.5

525

10.0

14.0

13.0

18.5 12ꢀ

24.5 10ꢀ

25.5 10ꢀ

100

350

325

120

900

600

150

1050

325

150

400

1100

1800

150

Termination/Lead Finish Code

Packaging Code

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

ELECTRICAL CHARACTERISTICS

AVX

Part Number

Working Working Breakdown Clamping Test

Maximum Transient

Peak

Current

Rating

Typical Frequency

Cap

Case

Size

Voltage Voltage

Voltage

Voltage Current Leakage

Energy

Rating

(DC)

(AC)

For V_C

Current

VC080518A400 _ _

VC080518C400 _ _

VC120618A400 _ _

VC120618D400 _ _

VC121018J390 _ _

VJ13MC0180KBA

VA100018A400 _ _

VA100018D400 _ _

VC060326A580 _ _

VC080526A580 _ _

VC080526C580 _ _

VC120626D580 _ _

VC121026H560 _ _

VJ13MC0260KBA

VA100026D580 _ _

VC060330A650 _ _

VC080530A650 _ _

VC120630D650 _ _

VC121030G620 _ _

VJ13MC0300KBA

VJ13PC0300KBA

VA100030D650 _ _

VC120648D101 _ _

VC121048G101 _ _

VC121048H101 _ _

VJ13MC0480KBA

VJ13PC0480KBA

VA100048D101 _ _

VC121060J121 _ _

VJ13MC0600KBA

VA200060K121 _ _

18.0

13.0

25.5 10ꢀ

24 10ꢀ

0.1

0.3

0.1

0.4

1.5

0.1

0.4

0.1

0.3

0.4

1.2

0.4

0.1

0.4

0.9

1.2

0.4

0.9

1.2

0.9

1.2

0.4

1.5

2.0

225

550

350

900

3100

3000

350

900

155

120

250

500

2150

1120

650

125

0805

1206

1210

1000

0603

0805

1206

1210

1000

0603

0805

1206

1210

1000

1206

1210

1000

1210

2000

18.0

26.0

30.0

48.0

60.0

13.0

18.0

21.0

34.0

42.0

100

150

500

25.5 10ꢀ

34.5 10ꢀ

33 10ꢀ

150

100

120

300

120

34.5 10ꢀ

41 10ꢀ

120

220

280

120

100

220

250

220

250

100

250

300

400

1750

1020

1150

550

225

450

500

800

840

200

400

600

400

41 10ꢀ

39 10ꢀ

41.0 10ꢀ

62 10ꢀ

100

110

100

120

126

120

62 10ꢀ

60.5 10ꢀ

62.0 10ꢀ

76 10ꢀ

75 10ꢀ

76.0 10ꢀ

V_W(DC)

V_W(AC)

V_B

DC Working Voltage (V)

I_VC

I_L

Test Current for V_C(A, 8x20µS)

Termination/Lead Finish Code

Packaging Code

AC Working Voltage (V)

Maximum Leakage Current at the Working Voltage (µA)

Transient Energy Rating (J, 10x1000µS)

Peak Current Rating (A, 8x20µS)

Typical Breakdown Voltage (V @ 1mA_DC

V_BTolerance is from Typical Value

)

E_T

I_P

V_BTol

V_C

Clamping Voltage (V @ I_VC

)

Cap

Typical Capacitance (pF) @ frequency specified

and 0.5 V_RMS

Freq

Frequency at which capacitance is measured

(K = 1kHz, M = 1MHz)

Dimensions

Dimensions: Millimeters

(Inches)

0.51 ±0.05

(0.020" ±0.002")

Max.

25.4 (1.0")

Min. Lead Length

DIMENSIONS: mm (inches)

AVX Style

VA1000

VA2000

4.32

(0.170)

4.83

(0.190)

(L) Max Length

(in.)

(D) Max Diameter

(in.)

2.54

(0.100)

3.56

(0.140)

Lead Finish: Copper Clad Steel, Solder Coated

ꢀ

DIMENSIONS: mm (inches)

AVX Style

(L) Length

0402

0603

0805

1206

3.20 0.20

(0.126 0.008) (0.126 0.008)

1210

1812

2220

1.00 0.10

(in.) (0.040 0.004) (0.063 0.006)

1.60 0.15

2.01 0.20

(0.079 0.008)

3.20 0.20

4.50 0.20

(0.177 0.008) (0.224 0.008)

5.70 0.20

mm 0.50 0.10 0.80 0.15

(in.) (0.020 0.004) (0.031 0.006)

1.25 0.20

(0.049 0.008)

1.60 0.20 2.49 0.20

(0.063 0.008) (0.098 0.008)

3.20 0.20 5.00 0.20

(0.126 0.008) (0.197 0.008)

(W) Width

(in.)

0.6

(0.024)

0.9

(0.035)

1.02

(0.040)

1.02

(0.040)

1.70

(0.067)

1.70

(0.067)

1.70

(0.067)

(T) Max Thickness

(t) Land Length

0.25 0.15

0.35 0.15

0.71 max.

(0.028 max.)

0.71 max.

(0.028 max.)

0.71 max.

(0.028 max.)

0.50 0.25

(0.020 0.010) (0.020 0.010)

0.50 0.25

(in.) (0.010 0.006) (0.014 0.006)

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

TYPICAL PERFORMANCE CURVES (0402 CHIP SIZE)

VOLTAGE/CURRENT CHARACTERISTICS PULSE DEGRADATION

Multilayer construction and improved grain structure result in

excellent transient clamping characteristics up to 20 amps

peak current, while maintaining very low leakage currents

under DC operating conditions. The VI curves below show the

voltage/current characteristics for the 5.6V, 9V, 14V, 18V and

low capacitance StaticGuard parts with currents ranging from

parts of a micro amp to tens of amps.

Traditionally varistors have suffered degradation of electrical

performance with repeated high current pulses resulting in

decreased breakdown voltage and increased leakage cur-

rent. It has been suggested that irregular intergranular

boundaries and bulk material result in restricted current

paths and other non-Schottky barrier paralleled conduction

paths in the ceramic. Repeated pulsing of TransGuard tran-

sient voltage suppressors with 150Amp peak 8 x 20µS

waveforms shows negligible degradation in breakdown

voltage and minimal increases in leakage current. This

does not mean that TransGuard suppressors do not suffer

degradation, but it occurs at much higher current.

100

VC04LC18V500

VC040218X400

VC040214X300

VC040209X200

VC040205X150

ESD TEST OF 0402 PARTS

VC04LC18V500

VC040218X400

10^-9

10^-7

10^-5

10^-3

10^-1

10³

10⁵

Current (A)

VC040214X300

VC040209X200

PEAK POWER VS PULSE DURATION

1300

VC040205X150

1200

1100

100

1000

10000

8kV ESD STRIKES

VC040218X400

VC040214X300

1000

VC040209X200

INSERTION LOSS CHARACTERISTICS

900

VC04LC18V500

VC040205X150

800

700

600

500

400

300

200

100

-5

-10

VC04LC18V

VC040218X

-15

VC040214X

VC040209X

VC040205X

-20

-25

100

IMPULSE DURATION (µS)

1000

0.01

0.1

Frequency (GHz)

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)

VOLTAGE/CURRENT CHARACTERISTICS

Multilayer construction and improved grain structure result in excellent transient clamping characteristics up to 500 amps peak

current, depending on case size and energy rating, while maintaining very low leakage currents under DC operating condi-

tions. The VI curve below shows the voltage/current characteristics for the 3.3V, 5.6V, 12V, 14V, 18V, 26V, 30V, 48V and

60VDC parts with currents ranging from parts of a micro amp to tens of amps.

VI Curves - 3.3V and 5.6V Products

VI Curves - 9V, 12V, and 14V Products

-9

-6

-3

Current (A)

5.6V, >0.1J

3.3V, 0.1J

3.3V, >0.1J

5.6V, 0.1J

VI Curves - 18V and 26V Products

100

-9

-6

-3

Current (A)

9V, 0.1J

12V, 0.1J

14V, 0.1J

14V, >0.1J

VI Curves - 30V, 48V, and 60V Products

200

-9

-6

-3

Current (A)

26V, >0.1J

150

100

18V, 0.1J

18V, >0.1J

26V, 0.1J

-9

-6

-3

30V, 0.1J

Current (A)

48V

30V, >0.1J

60V

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)

3.3V

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)

TEMPERATURE CHARACTERISTICS

TransGuard suppressors are designed to operate over the full temperature range from -55°C to +125°C. This operating

temperature range is for both surface mount and axial leaded products.

Temperature Dependence of Voltage

TYPICAL ENERGY DERATING VS TEMPERATURE

100

1.25

0.8

0.6

0.4

-9

-8

-7

-6

-5

-4

-3

-2

Current (A)

-40 C

25 C

85 C

125 C

0.2

TYPICAL BREAKDOWN AND CLAMPING VOLTAGES

VS TEMPERATURE - 5.6V

-60 -40 -20

20 40 60

80 100 120 140 160

Temperature ( C)

V_C

5.6V

V_B

-55

-40

-20

100

120

140

150

Temperature (^oC)

TYPICAL CAPACITANCE VS TEMPERATURE

TYPICAL BREAKDOWN AND CLAMPING VOLTAGES

VS TEMPERATURE - 18V

+25

+20

+15

+10

(

)

V_C

V_B

18V

(

-55

-40

-20

100

120

140

150

-5

Temperature (^oC)

-10

-15

-20

-25

TYPICAL BREAKDOWN AND CLAMPING VOLTAGES

VS TEMPERATURE - 26V

-40

-20

100

120

140

(

)

V_C

V_B

Temperature (°C)

26V

(

-55

-40

-20

100

120

140

150

Temperature (°C)

TransGuard^®

AVX Multilayer Ceramic Transient Voltage Suppressors

TYPICAL PERFORMANCE CURVES (0603, 0805, 1206 & 1210 CHIP SIZES)

PULSE DEGRADATION

Traditionally varistors have suffered degradation of electrical perfor- 150 Amp peak 8 x 20µS waveforms shows negligible degradation

mance with repeated high current pulses resulting in decreased in breakdown voltage and minimal increases in leakage current.

breakdown voltage and increased leakage current. It has been This does not mean that TransGuard suppressors do not suffer

suggested that irregular intergranular boundaries and bulk material degradation, but it occurs at much higher current. The plots

result in restricted current paths and other non-Schottky barrier of typical breakdown voltage vs number of 150A pulses are

paralleled conduction paths in the ceramic. Repeated pulsing of shown below.

both 5.6 and 14V TransGuard transient voltage suppressors with

Repetitive Peak Current Strikes

TransGuard 1210 1.5J Product

10%

Repetitive Peak Current Strikes

TransGuard 1206 0.4J Product

10%

VC120618D400

VC120626D580

VC120614D300

VC121018J390

VC120605D150

100

200

300

400

500

600

100

200

300

400

500

600

Number of Strikes

Figure 1

Figure 3

Repetitive Peak Current Strikes

StaticGuard 0805 0.1J Product

30%

TransGuard 0805 0.1J and 0.3J Products

15%

25%

20%

10%

VC080518A400

15%

10%

VC080518C400

VC08LC18A500

100

200

300

400

500

600

100

200

300

400

500

600

Number of Strikes

Figure 2

Figure 4

CAPACITANCE/FREQUENCY

CHARACTERISTICS

TransGuard Capacitance vs Frequency 0603

TransGuard Capacitance vs Frequency 0805

TransGuard Capacitance vs Frequency 1206

100

VC080505C150

VC120614D300

VC060305A150

VC080518C400

VC080514A300

VC120648D101

VC06LC18X500

VC12LC18A500

VC060326A580

100

Frequency (MHz)

100

Frequency (MHz)

RoHS/ELV Compliance by Product Family

RoHS (Restriction of Hazardous Substances - European Union directive 2002/95/EC)

ELV (End of Life-Vehicle - European Union directive 2000/53/EC)

Definition of RoHS Compliant / Pb-Free

In response to worldwide demand for “environmentally friendly” products, AVX have elected to adopt RoHS (Restriction of Hazardous substances) as the common standard to be applied when

assessing our products’ material content.

Specifically, a part family will be RoHS compliant if all ratings within that family meet the following criteria:

Individual capacitors within the family and their homogenous materials conform to:

<0.1% by weight of mercury

<0.1% by weight of hexavalent chromium

<0.1% by weight of PBB

<0.1% by weight of PBDE

<0.01% by weight of cadmium

and <0.1% by weight of lead, unless the following exemptions per annex 7 are applied:

• Lead in electronic ceramic parts:

Certain formulations of NP0 ceramic materials used in capacitors contain traces of lead, for example lead zirconate titanate and lead magnesium niobate. The specific chemical composition and

manufacturing process of these materials determine their electrical parameters, such as dielectric constant, which are essential for the functioning of the component in which they are used.

Hence, lead used in the ceramic parts of these components in electrical and electronic equipment is exempt from RoHS regulation.

• Lead in high melting temperature type solders (i.e. tin-lead solder alloys containing more than 85% lead):

The high melting temperature type solder exemption has been introduced to allow the use of lead in solders for specific applications (such as in chip manufacturing), for which viable lead-free

alternatives have not yet been identified. The high electrical conductivity and unique mechanical properties of such a high melting point tin-lead alloy make the material malleable and better able

to withstand both temperature and physical stress. Such properties ensure fewer defects during manufacturing and high reliability throughout the life of the component, thereby also resulting in

fewer components going into the waste stream. This exemption is applied to certain families of leaded ceramic capacitors.

The pages below give full details of current RoHS conformance by product

family.

Should any of our customers require:

• Tighter material limits than specified in RoHS,

• Control limits for additional materials beyond those identified in RoHS,

• Products not invoking the above RoHS exemptions,

please contact AVX and we will be glad to assist with your product requirements.

RoHS/ELV Compliance by Product Family

RoHS (Restriction of Hazardous Substances - European Union directive 2002/95/EC)

ELV (End of Life-Vehicle - European Union directive 2000/53/EC)

Products that are supplied AS STANDARDin RoHS/ELV compliant form for listed material

Products that are available in RoHS/ELV compliant form.

Products that are not RoHS/ELV compliant for listed material

Date To Be Advised

TBA

For SnPb Alternate finishes, go to http://www.avxcorp.com/docs/catalogs/SnPb.pdf

Click Blue Hyperlinks to view more details

Tantalum Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Available From:

Product compliant as

Standard from:

Group

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Series

TAJ

1-Jan-01

31-Dec-04

1-Jan-04

TPS

TRJ

Molded Tantalum Chip

Family

THJ

TPM

TAC

TMC

TPC

Tantalum MicroChip

Tantalum Professional

Tantalum Leaded

TAZ

TAP

1-Apr-05

Niobium Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

NOJ

NOS

NOM

Since Product

Introduction

Niobium Family

1-Jan-01

Multilayer Ceramic Chip Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

Hexavalent

Chromium

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Cadmium

Lead

Mercury

PBBs

PBDEs

Series

0201, 0402, 0603, 0805,

1206,1210, 1812,1825

200v

4v -

1-Jul-03

0306-0612

1-Jul-03

1-Jan-04

1-Jul-03

1-Jan-04

Array - W1A, W2A, W3A

IDC - W2L, W3L

MLC Family Surface Mount

LICA (BGA Term)

TIP & RING (P Diel)

RoHS/ELV Compliance by Product Family

RoHS (Restriction of Hazardous Substances - European Union directive 2002/95/EC)

ELV (End of Life-Vehicle - European Union directive 2000/53/EC)

Click Blue Hyperlinks to view more details

Leaded Ceramic Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Product Available as

Standard by:

Group

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Available From:

Series

31-Dec-04

MR *

Leaded

For Pb-Free, use SA or SR series

* ^{MR Product will be available with RoHS compliant body, but SnPb termination only, from 5/1/05}

Leaded Tantalum Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Leaded

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Series

TAP

31-Jul-04

31-Dec-05

TBA

1-Jan-05

TAR

TAA

Switchmode & High Voltage Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Series

TBA

1-Jun-05

1-Apr-05

Switchmode & High Voltage

MLC

HV Series DIP

MLC Hi Volt (600V - 5kV)

TBA

31-Dec-04

1-Jun-05

SMPS - SM0/5/9

Mil / Aero EMI Filter Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

Bulkhead / Bracket EMI

Filters

Exempt by definition for all medical implantable and MIL / Aerospace applications. Inquire about other applications.

Not Applicable

RoHS/ELV Compliance by Product Family

RoHS (Restriction of Hazardous Substances - European Union directive 2002/95/EC)

ELV (End of Life-Vehicle - European Union directive 2000/53/EC)

Click Blue Hyperlinks to view more details

Microwave SMD Device Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Series

ACCU-P - 0201

1-Apr-05

ACCU-P - 0402

ACCU-P - 0603

ACCU-P - 0805

ACCU-P - 1210

ACCU-L - 0402LGA

ACCU-L - 0603LGA

ACCU-L - 0603

31-Dec-04

1-Aug-04

1-Jan-05

SMD Thin Film Capacitors

1-Aug-04

SMD Thin Film Inductors

31-Dec-04

TBA

ACCU-L - 0805

CP0402 LGA

31-Dec-04

1-Aug-04

CP0603 LGA

1-Aug-04

CP0603

SMD Couplers

31-Dec-04

1-Jul-03

CP0805

3dB Coupler DB0805

LP0603 LGA

SMD Low Pass Filters

LP0805 SMD

Porcelain AQ - SQ

RF Power - HQ

"U" Dielectric (NP0)

SLC - GH, GB, GZ

MOS SLC - MS

SMD MLC Chip

SMD Single Layer

SMD MOS Cap

TBA

1-Jul-03

1-Jan-90

1-Aug-04

Initial Introduction

Supercapacitor Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Series

Since Product

Introduction

Bestcap

1-Jan-00

RoHS/ELV Compliance by Product Family

RoHS (Restriction of Hazardous Substances - European Union directive 2002/95/EC)

ELV (End of Life-Vehicle - European Union directive 2000/53/EC)

Click Blue Hyperlinks to view more details

Industrial Prouct Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Product Available as

Standard by:

Group

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Available From:

Series

DISC

1-Jan-05

1-Jul-05

Disc Ceramic

HI VOLTAGE CERAMIC

CHIP FILM - CF

1-Jan-05

TBA

1-Jul-05

TBA

CHIP FILM - CB

BOX FILM

BN, BA, BL SERIES

BOX FILM - BF

31-Dec-04

Film Capacitors

31-Dec-04

TBA

31-Dec-04

TBA

BOX FILM - BJ, BH, BQ

POWER CAPS

TBA

Power Capacitors

SMD Varistors MLV

MED. POWER CAPS (DRY)

VARISTOR VC

TBA

31-Dec-04

VARISTOR VJ

Leaded NTC Thermistors

SMD NTC Thermistors

THERMISTORS NF-NI

THERMISTORS ND - NJ

31-Dec-04

50% available, balance

01/09/2005

THERMISTORS - NC

THERMISTORS - NB

31-Dec-04

Circuit Protection Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Cadmium

Chromium

Lead

Mercury

PBBs

PBDEs

Series

F0402E

1-Aug-04

F0603E

F0603-3

F0805-2

F01206-2

F01206-1

F0612-4

1-Aug-04

31-Dec-04

Accu-Guard Thin Film Fuses

TRANSGUARD CHIP - VC

TRANSGUARD AXIAL - VA

STATICGUARD - VCxxLC

MULTIGUARD - MG

1-Jul-03

TBA

1-Jul-03

TBA

Transient

1-Jul-03

TRANSFEED - V2F, V3F4

VARISTORS - VE, VF

1-Jul-03

1-Jan-04

Disc Varistors

W2F, W3F

W2H, W3H

SMD Feedthru / Array

SMD Hi Current Feedthru

1-Jul-03

RoHS/ELV Compliance by Product Family

RoHS (Restriction of Hazardous Substances - European Union directive 2002/95/EC)

ELV (End of Life-Vehicle - European Union directive 2000/53/EC)

Connector Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

Hexavalent

Chromium

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Cadmium

Lead

Mercury

PBBs

PBDEs

Series

Varicon (1)

DIN

Connectors

TBA

31-Dec-05

6 wks ARO

31-Dec-05

6 wks ARO

31-Dec-05

IDC (1)

IDC 8383 (1)

Torson (1)

Microleaf

FFC/FPC

Card Edge (1)

Memory Card

2mm Hard Metric

MOBO (1)

(1) - Cr6+ is used only in very few customized products with a Cr6+ proportion below 0.1%

KED Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

Hexavalent

Chromium

RoHS Compliant

Available From:

Product Available as

Standard by:

Group

Cadmium

Lead

Mercury

PBBs

PBDEs

Series

SMD RESONATORS

RESISTOR ARRAYS

OSCILLATORS TXCO

OSCILLATORS VCO

OSCILLATORS Clock

31-Dec-04

TBA

31-Dec-03

31-Dec-04

30-Dec-04

31-Dec-04

KED Products

BLUETOOTH MODULE

EMI Filters KNF, KNA, KHH

series

31-Dec-04

TBA

CTZ 2 SERIES

CTZ 3 SERIES

1-Apr-05

31-Dec-04

Packaging

All

31-Dec-04

Tantalum Family

Description:

Tantalum Electrolytic Capacitors, Molded Chip,

MicroChip and Radial Leaded.

Basic Construction / Homogenous Materials:

Copper orAlloy 42 LeadFrame

Steel Leads / Ni Flash

Lead Plating – 100% matte Sn

Internal Ta- Ta₂O₅/ manganese dioxide element

- Internal Graphite Silver Counterelectrode

- Internal Silver Epoxy

- Internal SnAgCu Solder Joint

External Epoxy coated body (UL 94 V-0)

Tantalum Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

Compliant

Available

From:

Product

compliant as

Standard from:

Hexavalent

Cadmium Chromium

Group

Series

Lead #

<0.1%

Mercury

<0.1%

PBBs

<0.1%

PBDEs

<0.1%

RoHS Limit

<0.01%

<0.1%

TAJ

TPS

TRJ

1-Jan-01

31-Dec-04

31-Jul-04

1-Jan-04

ꢀ

Molded Tantalum Chip Family

THJ

TPM

TAC

TMC

TPC

Tantalum MicroChip

Tantalum Professional

Tantalum Leaded

TAZ#

ꢀ

ꢀ#

ꢀ

ꢁ

1-Jan-05

TAP

Niobium Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

NOJ

NOS

NOM

ꢀ

Since Product

1-Jan-01

Niobium Family

Introduction

# - TAZ - Pb in termination plating will remain for std p/n, Pb-Free alternative available by 12/31/04

Lead-Free Status / MSL Ranking

RoHS / ELV Status

• Molded: Pb-Free Reflow & Wave Solder Compliant, MSL = 1

• TAC MicroChip: Pb-Free Reflow Solder Compliant, MSL = 1

• Tantalum Leaded - Wave Solder Compliant, MSL = 1

• External Plating:

– 100% Matte Sn as

standard – Molded,

MicroChip & Leaded

•

Reflow: 250^oC max recommended (Qualified to 260^oC)

Wave: 260^oC max recommended wave temperature

– 100% Matte Sn available

for TAZ Series 12/31/04

•

Per AVX recommended Solder profiles

•

TAZ Series – Dessicant Packaged as Standard

How to Order:

Pb Free:

RoHS Compliant:

NO CHANGE TO P/N ^{(*,# see notes for TAP, TAZ)}

NOTE: SnPb termination will be available on request for molded Ta Chip Families

Product Marking:

(For informational purposes only; to be

phased in on reel and container)

Pb Free:

Pb ^{Pb Free}

RoHS Compliant:

Product Traceability: Full internal material traceability by reference to unique lot

number marked on reel and external package

Oxicap Family - Niobium Oxide Chip

Description:

Niobium Oxide electrolytic molded chip capacitor

Basic Construction / Homogenous Materials:

External Epoxy molded body (UL 94 V-0)

Internal niobium oxide element (comprising NbO / Nb₂O₅element,

manganese dioxide / graphite- silver counterelectrode)

Internal silver epoxy contact

Copper or Alloy 42 Leads

Lead Plating – 100% matte Sn

OxiCap^TMFamily: Fully RoHS Compliant from First Introduction

Presence of Restricted Ingredients within Homogenous Materials

Cadmium Hexavalent

Chromium

Lead

Mercury

PBBs

PBDEs

RoHS / ELV

Status

Group

Series

Limit

<0.01%

Oxicap TM

Niobium

Oxide Family

Current

NOJ

NOS

NOM

ꢀ

Lead-Free Status / MSL Ranking

• Pb-Free Reflow & Wave Solder Compliant, MSL = 1

RoHS / ELV Status

• External Plating:

•

Reflow: 250^oC max recommended (Qualified to 260^oC)

Wave: 260^oC max recommended wave temperature

– 100% Matte Sn as

standard

•

Per AVX recommended Solder profiles

How to Order:

Pb Free:

RoHS Compliant:

NO CHANGE TO P/N

Product Marking:

(For informational purposes only; to be

phased in on reel and container)

Pb Free:

RoHS Compliant:

Pb ^{Pb Free}

Product Traceability: Full internal material traceability by reference to unique lot

number marked on reel and external package

Multilayer Ceramic Chip Family

Description:

Multilayer ceramic chip capacitors. NP0, X7R, Y5V & Z5U

Dielectrics.

Basic Construction / Homogenous Materials:

Ceramic Body / Ceramic dielectric Layers

Internal electrodes (Ni or PdAg))

Copper / Ni Barrier Under Termination

(optional Ag epoxy soft termination)

Termination Plating – 100% matte Sn

standard (Sn Pb optional)

• Multilayer Ceramic Chips are UNENCAPSULATED MONOLITHIC devices and cannot

be broken down into constituent materials by mechanical means.

• Multilayer Ceramic Chip Family: Standard sizes Fully RoHS Compliant since 1998

Multilayer Ceramic Chip Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

RoHS Limit

<0.01%

<0.1%

Product

Hexavalent

RoHS Compliant Available as

Group

Cadmium Chromium

Lead #

Mercury

PBBs

PBDEs Available From: Standard by:

Series

0201, 0402, 0603, 0805,

1206,1210, 1812,1825

4v - 200v

1-Jul-03

ꢀ

0306-0612

Array - W1A, W2A, W3A

IDC - W2L, W3L

1-Jul-03

1-Jan-04

1-Jul-03

1-Jan-04

ꢀ

MLC Family Surface Mount

LICA (BGA Term)

TIP & RING (P Diel)

ꢀ

@ LICA product will retain SnPb C4 option (may be exempted by user) - Sn available on request

# Some NP0 dielectrics may include internal trace Pb in ceramic insert - exempt per RoHS annex 7 to Article 4.1.

Lead-Free Status / MSL Ranking

• Pb-Free Reflow & Wave Solder Compliant, MSL = 1

RoHS / ELV Status

• External Plating:

•

Reflow: 250^oC max recommended (Qualified to 260^oC)

Wave: 260^oC max recommended wave temperature

– 100% Matte Sn as

standard

•

Per AVX recommended Solder profiles

– SnPb Termination

available on request

How to Order:

Pb Free:

RoHS Compliant:

NO CHANGE TO P/N

NOTE:

- SnPb termination for most ratings available on request;

- Remains available as option for LICA C4 termination.

Product Marking:

(For informational purposes only; to be

phased in on reel and container)

Pb Free:

Pb ^{Pb Free}

RoHS Compliant:

Product Traceability: Full internal material traceability by reference to unique lot

number marked on reel and external package

Microwave Chip Family

Description:

Multilayer & Single Layer Ceramic chip capacitors, NP0, X7R & U

Dielectrics; Thin Film SiO₂Thin Film & Integrated Thin Film Devices

Basic Construction / Homogenous Materials:

Ceramic Body / Ceramic dielectric Layers

SiO2 Wafer

Internal electrodes (Ni or PdAg))

Al or Cu Electrodes

Copper / Ni Barrier Under Termination.

Passivation

Termination Plating – 100% matte Sn or SnAg standard (Sn Pb optional)

• Microwave Chips are UNENCAPSULATED MONOLITHIC devices and cannot be

broken down into constituent materials by mechanical means.

Microwave SMD Device Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

Product

Hexavalent

Cadmium Chromium

RoHS Compliant Available as

PBDEs Available From: Standard by:

Group

Lead #

<0.1%

Mercury

<0.1%

PBBs

<0.1%

Series

RoHS Limit

ACCU-P - 0201

<0.01%

ꢀ

<0.1%

ꢀ

<0.1%

1-Apr-05

ꢁ

1-Aug-04

1-Jan-05

TBA

ꢀ

ACCU-P - 0402

ACCU-P - 0603

ACCU-P - 0805

ACCU-P - 1210

ACCU-L - 0402LGA

ACCU-L - 0603LGA

ACCU-L - 0603

ACCU-L - 0805

CP0402 LGA

31-Dec-04

1-Aug-04

SMD Thin Film Capacitors

1-Aug-04

SMD Thin Film Inductors

31-Dec-04

1-Aug-04

ꢁ

CP0603 LGA

1-Aug-04

CP0603

SMD Couplers

31-Dec-04

1-Jul-03

CP0805

3dB Coupler DB0805

LP0603 LGA

SMD Low Pass Filters

LP0805 SMD

Porcelain AQ - SQ

RF Power - HQ

"U" Dielectric (NP0)

SLC - GH, GB, GZ

MOS SLC - MS

SMD MLC Chip

SMD Single Layer

SMD MOS Cap

TBA

ꢁ

1-Jul-03

1-Jan-90

1-Aug-04

ꢀ

Initial Introduction

# Some NP0 dielectrics may include internal trace Pb in ceramic insert - exempt per RoHS annex 7 to Article 4.1.

^ Trace cadmium in internal termination

Lead-Free Status / MSL Ranking

• Pb-Free Reflow & Wave Solder Compliant, MSL = 1

RoHS / ELV Status

• External Plating:

– 100% Matte Sn os SnAg as standard

– SnPb Termination available on request

•

Reflow: 250 C max recommended (Qualified to

260^oC)

•

Wave: 260^oC max recommended wave temperature

•

Per AVX recommended Solder profiles

How to Order: Pb Free /: RoHS Compliant:

NO CHANGE TO P/N

Product Marking:

(For informational purposes only; to be

phased in on reel and container)

Pb Free:

Pb ^{Pb Free}

RoHS Compliant:

Product Traceability: Full internal material traceability by reference to unique lot number marked on reel

and external package

Leaded Multilayer Ceramic Family

Description:

Multilayer ceramic capacitors, with radial or axial leads and

conformal coated or molded body. NP0, X7R, Y5V & Z5U

Dielectrics.

Basic Construction / Homogenous Materials:

External Epoxy coated body (UL 94 V-0)

Internal Ceramic Dielectric

Internal High Temperature Solder >85% Pb

Steel (SA), steel or Cu (SR) Leads

Lead Plating:

- Ni underplating,

- 100% matte Sn or Sn Pb options

Leaded Ceramic Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

Compliant

Available

From:

Product

Available as

Standard by:

Group

Leaded

Cadmium Chromium

Lead #

<0.1%

Mercury

<0.1%

PBBs

<0.1%

PBDEs

<0.1%

Series

RoHS Limit

<0.01%

<0.1%

31-Dec-04

ꢀ

ꢁ

ꢀ

For Pb-Free, use SA or SR series

ꢀ

MR Product will be available with RoHS compliant body, but SnPb termination only, from 5/1/05

# Internal High Temperature solder > 85% Pb - exempt per RoHS annex 7 to Article 4.1.

# Some NP0 dielectrics may include internal trace Pb in ceramic insert - exempt per RoHS annex 7 to Article 4.1.

Lead-Free Status / MSL Ranking

• Use RoHS p/n for Pb-Free.

RoHS / ELV Status

•Internal Pb Content exempt.

• Pb-Free Wave Solder Temperature Compliant

•External Plating:

– 260^oC max recommended wave temperature

• SnPb Standard,

•

Per AVX recommended Wave Solder profile

• 100% Matte Sn to RoHS p/n

– MSL = 1 (PTH Wave Solder)

How to Order:

(Typical p/n)

Standard (SnPb):

SA10 5E 104 Z A A …

Pb Free:

SA10 5E 104 ZA - LF …

RoHS Compliant:

Product Marking:

RoHS Compliant:

(For informational purposes only; to be phased in on reel and container)

Product Traceability: Full internal material traceability by reference to unique lot

number marked on reel and external package

Circuit Protection Family

Description:

Multilayer & Single Layer Ceramic leaded and chip varistors /

capacitors, ZnO, NP0 & X7R Dielectrics.

Basic Construction / Homogenous Materials:

Ceramic Body / Ceramic dielectric Layers

Internal electrodes (Ni or PdAg))

SiO2 Wafer

Al or Cu Fuse Link

Copper / Ni Barrier Under Termination.

Termination Plating – 100% matte Sn standard or SnAg

Steel or Cu Leads, - 100% matte Sn plated

Conformal Epoxy Body; UL 94 V-0

Passivation

• Fuses, Varistor and Feedthru Chips are UNENCAPSULATED MONOLITHIC devices

and cannot be broken down into constituent materials by mechanical means.

Circuit Protection Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

RoHS

Compliant

Available

From:

Product

Available as

Standard by:

Hexavalent

Cadmium Chromium

Group

Series

Lead

<0.1%

Mercury

<0.1%

PBBs

<0.1%

PBDEs

<0.1%

RoHS Limit

<0.01%

<0.1%

F0402E

1-Aug-04

ꢁ

ꢀ

F0603E

F0603-3

F0805-2

F01206-2

F01206-1

F0612-4

1-Aug-04

31-Dec-04

ꢁ

Accu-Guard Thin Film Fuses

ꢁ

TRANSGUARD CHIP - VC

TRANSGUARD AXIAL - VA

STATICGUARD - VCxxLC

MULTIGUARD - MG

1-Jul-03

TBA

Transient

1-Jul-03

ꢁ

TRANSFEED - V2F, V3F4

VARISTORS - VE, VF

1-Jul-03

1-Jan-04

Disc Varistors

W2F, W3F

W2H, W3H

SMD Feedthru / Array

SMD Hi Current Feedthru

1-Jul-03

Lead-Free Status / MSL Ranking

• Pb-Free Reflow & Wave Solder Compliant, MSL = 1

RoHS / ELV Status

• External Plating:

– 100% Matte Sn as standard

– SnPb Termination available on request

•

Reflow: 250 C max recommended (Qualified to

260^oC)

•

Wave: 260^oC max recommended wave temperature

•

Per AVX recommended Solder profiles

How to Order: Pb Free:

RoHS Compliant:

Reference Individual Product Data Sheet

Product Marking:

(For informational purposes only; to be

phased in on reel and container)

Pb Free:

Pb ^{Pb Free}

RoHS Compliant:

Product Traceability: Full internal material traceability by reference to unique lot number marked on reel

and external package

Film, Power and Industrial

Capacitor Family

Description:

Multilayer & Single Layer Ceramic leaded and chip capacitors /

thermistors, Plastic, NP0 & X7R Dielectrics.

Basic Construction / Homogenous Materials:

Plastic Film Dielectric Body

Ceramic Body / Ceramic dielectric Layers

Internal electrodes (Aluminum)

Copper / Brass Under Termination.

Termination Plating – 100% matte Sn standard

Steel or Cu Leads, - 100% matte Sn plated

Conformal Epoxy Body; UL 94 V-0

Steel Case

Industrial Prouct Family

RoHS Compliant for Material Listed

Hexavalent

RoHS Compliance Dates

Product

RoHS Compliant Available as

Group

Cadmium Chromium

Lead

<0.1%

ꢀ

Mercury

<0.1%

ꢀ

PBBs

<0.1%

ꢀ

PBDEs Available From: Standard by:

Series

RoHS Limit

<0.01%

<0.1%

DISC

1-Jan-05

1-Jul-05

ꢀ

Disc Ceramic

HI VOLTAGE CERAMIC

CHIP FILM - CF

1-Jan-05

TBA

1-Jul-05

TBA

ꢀ

CHIP FILM - CB

BOX FILM

BN, BA, BL SERIES

BOX FILM - BF

31-Dec-04

ꢀ

ꢁ

Film Capacitors

31-Dec-04

ꢀ

TBA

31-Dec-04

TBA

ꢀ

BOX FILM - BJ, BH, BQ

POWER CAPS

ꢁ

TBA

Power Capacitors

SMD Varistors MLV

MED. POWER CAPS (DRY)

VARISTOR VC

TBA

31-Dec-04

ꢁ

VARISTOR VJ

Leaded NTC Thermistors

THERMISTORS NF-NI

31-Dec-04

ꢀ

ꢁ

50% available,

balance

01/09/2005

31-Dec-04

Leaded NTC Thermistors

SMD NTC Thermistors

THERMISTORS ND - NJ

ꢀ

ꢁ

THERMISTORS - NC

THERMISTORS - NB

ꢀ

ꢁ

31-Dec-04

Lead-Free Status / MSL Ranking

• Pb-Free Reflow & Wave Solder Compliant, MSL = 1

RoHS / ELV Status

• External Plating:

– 100% Matte Sn as standard

•

Reflow: 250 C max recommended (Qualified to

260^oC)

– SnPb as standard

•

Wave: 260^oC max recommended wave temperature

•

Per AVX recommended Solder profiles

How to Order: Pb Free:

Reference Individual Product Data Sheet

RoHS Compliant:

Product Marking:

(For informational purposes only; to be

phased in on reel and container)

Pb Free:

Pb ^{Pb Free}

RoHS Compliant:

Product Traceability: Full internal material traceability by reference to unique lot number marked on reel

and external package

Switchmode & High Voltage

MLC Capacitor Family

Description:

Multilayer & Single Layer Ceramic leaded and chip capacitors /

thermistors, Plastic, NP0 & X7R Dielectrics.

Basic Construction / Homogenous Materials:

Ceramic Body / Ceramic dielectric Layers

Internal electrodes (AgPd orNi)

Ni Under Termination.

Termination Plating – SnPb Standard; 100% matte Sn option

Steel or Cu Leads, - SnPb Standard; 100% matte Sn option

Conformal or Shell Epoxy Body (Option); UL 94 V-0

• Internal ceramic elements are MONOLITHIC devices and cannot be broken down

into constituent materials by mechanical means.

Switchmode & High Voltage Family

RoHS Compliant for Material Listed

RoHS Compliance Dates

Product

RoHS Compliant Available as

PBDEs Available From: Standard by:

Hexavalent

Cadmium Chromium

Group

Lead #

<0.1%

ꢀ

Mercury

PBBs

<0.1%

ꢀ

Series

RoHS Limit

<0.01%

<0.1%

ꢀ

<0.1%

TBA

ꢀ

ꢁ

TBA

1-Jun-05

1-Apr-05

Switchmode & High Voltage

MLC

HV Series DIP

MLC Hi Volt (600V - 5kV)

ꢀ

TBA

ꢀ

31-Dec-04

1-Jun-05

ꢁ

SMPS - SM0/5/9

ꢀ

X ^

Trace cadmium in internal termination

# Some NP0 dielectrics may include internal trace Pb in ceramic insert - exempt per RoHS annex 7 to Article 4.1.

Lead-Free Status / MSL Ranking

• Pb-Free Reflow & Wave Solder Compliant, MSL = 1

RoHS / ELV Status

• External Plating:

– 100% Matte Sn Optional

– SnPb as standard

•

Reflow: 250 C max recommended (Qualified to

260^oC)

•

Wave: 260^oC max recommended wave temperature

•

Per AVX recommended Solder profiles

How to Order: Pb Free:

RoHS Compliant:

Reference Individual Product Data Sheet

STANDARD PRODUCT WILL RETAIN SnPb TERM FOR ML / AERO APPLICATIONS

Product Marking:

(For informational purposes only; to be

phased in on reel and container)

Pb Free:

Pb ^{Pb Free}

RoHS Compliant:

Product Traceability: Full internal material traceability by reference to unique lot number marked on reel

and external package

VC060303A100WP [KYOCERA AVX]

相关型号：

VC060303A100__

VC060303A150DP

VC060303A150RP

VC060303B100DP

VC060303B150RP

VC060303B250WM

VC060303C100DP

VC060303C150RP

VC060303C250WM

VC060303D100DP

VC060303D150RP

VC060303D250WM