HH18NR47F101CG [WALSIN]

High Q and low ESR performance at high frequency;


型号：	HH18NR47F101CG
厂家：	Walsin Technology
描述：	High Q and low ESR performance at high frequency
文件：	总11页 (文件大小：3409K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Multilayer Ceramic Capacitors

Approval Sheet

MULTILAYER CERAMIC CAPACITORS

High Q / Low ESR Series (HH)

0201 to 0805 Sizes

NP0 Dielectric

Halogen Free & RoHS Compliance

*Contents in this sheet are subject to change without prior notice.

Page 1 of 11

ASC_ HQ_Low ESR_(HH)_006V_AS

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Multilayer Ceramic Capacitors

Approval Sheet

1. INTRODUCTION

MLCC consists of a conducting material and electrodes. To manufacture a chip-type SMT and achieve

miniaturization, high density and high efficiency, ceramic condensers are used.

WTC HH series MLCC is used at high frequencies generally have a small temperature coefficient of capacitance,

typical within the ±30ppm/°C required for NP0 (C0G) classification and have excellent conductivity internal electrode.

Thus, WTC HH series MLCC will be with the feature of low ESR and high Q characteristics.

2. FEATURES

3. APPLICATIONS

a. High Q and low ESR performance at high frequency.

b. Quality improvement of telephone calls for low

power loss and better performance.

a. Mobile telecommunication: Mobile phone, WLAN.

b. RF module: Power amplifier, VCO.

c. Tuners.

4. HOW TO ORDER

100

500

Series

Size

Dielectric

Capacitance

Tolerance

Rated voltage

Termination

Packaging

HH=High Q/ 03=0201 (0603)

N=NP0

Two significant

A=±0.05pF Two significant

C=Cu/Ni/Sn

T=7” reeled

G=13” reeled

Low ESR

15=0402 (1005)

18=0603 (1608)

21=0805 (2012)

(C0G)

digits followed by B=±0.1pF digits followed by

no. of zeros. And C=±0.25pF no. of zeros. And

R is in place of

decimal point.

D=±0.5pF R is in place of

F=±1%

G=±2%

J=±5%

decimal point.

eg.:

100=10 VDC

160=16 VDC

250=25 VDC

500=50 VDC

101=100 VDC

201=200 VDC

251=250 VDC

501=500 VDC

631=630 VDC

R47=0.47pF

0R5=0.5pF

1R0=1.0pF

100=10x10⁰

=10pF

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Multilayer Ceramic Capacitors

Approval Sheet

5. EXTERNAL DIMENSIONS

Size

L (mm)

W (mm)

T (mm)/Symbol Remark

M_B(mm)

Inch (mm)

0.6±0.03

0.3±0.03

0.15±0.05

0201 (0603)

0.25

0402 (1005)

0603 (1608)

1.00±0.05

1.60±0.10

0.50±0.05

0.80±0.10

0.50±0.05

0.80±0.07

+0.05/-0.10

M_B

Fig. 1 The outline of MLCC

0.40±0.15

0.50±0.20

1.60

+0.15/-0.10

0.80

+0.15/-0.10

0.80

+0.15/-0.10

0.60±0.10

0.80±0.10

1.25±0.10

0805 (2012)

2.00±0.15

1.25±0.10

# Reflow soldering only is recommended.

6. GENERAL ELECTRICAL DATA

Dielectric

Size

NP0

0201, 0402, 0603, 0805

Capacitance*

0.1pF to 3300pF

Cap≤5pF : A (±0.05pF), B (±0.1pF), C (±0.25pF)

5pF<Cap<10pF: C (±0.25pF), D (±0.5pF)

Cap≥10pF: F (±1%), G (±2%), J (±5%)

Capacitance tolerance

Rated voltage (WVDC)

10V, 16V, 25V, 50V, 100V, 200V, 250V, 500V, 630V

Cap<30pF: Q≥400+20C

Cap≥30pF: Q≥1000

Insulation resistance at Ur

Operating temperature

Capacitance change

Termination

≥10GΩ or RxC≥100Ω-F whichever is smaller.

-55 to +125°C

±30ppm

Ni/Sn (lead-free termination)

#1: NP0, 0.1pF product only provide B tolerance

* Measured at the conditions of 25°C ambient temper ature and 30~70% related humidity.

Apply 1.0±0.2Vrms, 1.0MHz±10% for Cap≤1000pF and 1.0±0.2Vrms, 1.0kHz±10% for Cap>1000pF.

7. PACKAGING DIMENSION AND QUANTITY

Paper tape

Plastic tape

Size

Thickness (mm)/Symbol

7” reel

15,000

10,000

13” reel

70,000

50,000

7” reel

13” reel

0.30±0.03

0.50±0.05

0201

0402

0.80±0.07

0603

4,000

15,000

0.80 +0.15/-0.10

0.60±0.10

4,000

15,000

0805

0.80±0.10

1.25±0.10

3,000

10,000

Unit: pieces

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Multilayer Ceramic Capacitors

Approval Sheet

8. CAPACITANCE RANGE

DIELECTRIC

NP0

SIZE

0201

0402

25 50 100 16

0603

0805

Rated Voltage

0.1pF (0R1)

0.2pF (0R2)

0.3pF (0R3)

0.4pF (0R4)

0.5pF (0R5)

0.6pF (0R6)

0.7pF (0R7)

0.8pF (0R8)

0.9pF (0R9)

1.0pF (1R0)

1.2pF (1R2)

1.5pF (1R5)

1.8pF (1R8)

2.2pF (2R2)

2.7pF (2R7)

3.3pF (3R3)

3.9pF (3R9)

4.7pF (4R7)

5.6pF (5R6)

6.8pF (6R8)

8.2pF (8R2)

10pF (100)

12pF (120)

15pF (150)

18pF (180)

22pF (220)

27pF (270)

33pF (330)

39pF (390)

47pF (470)

56pF (560)

68pF (680)

82pF (820)

100pF (101)

120pF (121)

150pF (151)

180pF (181)

220pF (221)

270pF (271)

330pF (331)

390pF (391)

470pF (471)

560pF (561)

680pF (681)

820pF (821)

1,000pF (102)

1,200pF (122)

1,500pF (152)

1,800pF (182)

2,200pF (222)

2,700pF (272)

3,300pF (332)

100 200 50 100 200 250 500 630

1. The letter in cell is expressed the symbol of product thickness.

2. For more information about products with special capacitance or other data, please contact WTC local representative.

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Multilayer Ceramic Capacitors

Approval Sheet

9. ELECTRICAL CHARACTERISTICS

ESR vs Frequency 0201

1 pF

1.000

0.100

0.010

4.7 pF

10 pF

33 pF

100

1000

10000

Freq(MHz)

Fig. 2 ESR vs. Frequency (0201 size)

Fig. 3 ESR vs. Frequency (0402 size)

Q vs Frequency 0201

1 pF

10000

1000

100

4.7 pF

10 pF

33 pF

100

1000

10000

Freq(MHz)

Fig. 4 Q vs. Frequency (0201 size)

Fig. 5 Q vs. Frequency (0402 size)

Z vs Frequency 0201

1 pF

1000.0

100.0

10.0

4.7 pF

10 pF

33 pF

1.0

100

1000

10000

Freq(MHz)

Fig. 6 Impedance vs. Frequency. (0201 size)

Fig. 7 Impedance vs. Frequency (0402 size)

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Multilayer Ceramic Capacitors

Approval Sheet

ESR vs Frequency 0805

1 pF

1.000

0.100

0.010

4.7 pF

10 pF

100 pF

100

1000

10000

Freq(MHz)

Fig. 8 ESR vs. Frequency (0603 size)

Fig. 9 ESR vs. Frequency (0805 size)

Q vs Frequency 0805

1 pF

10000

4.7 pF

1000

100

10 pF

100 pF

100

1000

10000

Freq(MHz)

Fig. 10 Q vs. Frequency (0603 size)

Fig. 11 Q vs. Frequency (0805 size)

Z vs Frequency 0805

1 pF

1000.0

100.0

10.0

1.0

4.7 pF

10 pF

100 pF

0.1

100

1000

10000

Freq(MHz)

Fig.12 Impedance vs. Frequency. (0603 size)

Fig.13 Impedance vs. Frequency (0805 size)

Fig.14 Self resonance frequency vs. Capacitance

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Multilayer Ceramic Capacitors

Approval Sheet

10. RELIABILITY TEST CONDITIONS AND REQUIREMENTS

No.

Item

Test Conditions

Requirements

1. Visual and

Mechanical

---

* No remarkable defect.

* Dimensions to conform to individual specification sheet.

2. Capacitance

3. Q/ D.F.

(Dissipation

Factor)

Cap≤1000pF, 1.0±0.2Vrms, 1MHz±10%

Cap>1000pF, 1.0±0.2Vrms, 1KHz±10%

At 25°C ambient temperature.

* Shall not exceed the limits given in the detailed spec.

* NP0: Cap≥30pF, Q≥1000; Cap<30pF, Q≥400+20C

4. Dielectric

Strength

* To apply voltage: ( ≤100V ) 250% of rated voltage.

* Duration: 1 to 5 sec.

* No evidence of damage or flash over during test.

* Charge and discharge current less than 50mA.

* To apply voltage:

200V~300V

≥2 times VDC

500V~999V

≥1.5 times VDC

* Cut-off, set at 10mA

* TEST= 15 sec.

* RAMP=0

5. Insulation

Resistance

Rated voltage:<200V

≥10GΩ

To apply rated voltage for max. 120 sec.

Rated voltage:200~630V

≥10GΩ or RxC≥100Ω-F whichever is smaller

* Capacitance change: within ±30ppm/°C

To apply rated voltage (500V max.) for 60 sec.

With no electrical load.

6. Temperature

Coefficient

Operating temperature: -55~125°C at 25°C

7. Adhesive

Strength of

Termination

8. Vibration

Resistance

* Pressurizing force：

* No remarkable damage or removal of the terminations.

2N (0201) and 5N (≤0603) and 10N (>0603)

* Test time: 10±1 sec.

* Vibration frequency: 10~55 Hz/min.

* Total amplitude: 1.5mm

* No remarkable damage.

* Cap change and Q/D.F.: To meet initial spec.

* Test time: 6 hrs. (Two hrs each in three mutually

perpendicular directions.)

* Cap./DF(Q) Measurement to be made after de-aging at

150°C for 1hr then set for 24±2 hrs at room temp.

* Solder temperature: 235±5°C

9. Solderability

95% min. coverage of all metalized area.

* Dipping time: 2±0.5 sec.

10. Bending Test * The middle part of substrate shall be pressurized by means * No remarkable damage.

of the pressurizing rod at a rate of about 1 mm per second until * Cap change: within ±5.0% or ±0.5pF whichever is larger.

the deflection becomes 1 mm and then the pressure shall be

maintained for 5±1 sec.

(This capacitance change means the change of capacitance under

specified flexure of substrate from the capacitance measured before

the test.)

* Measurement to be made after keeping at room temp. for

24±2 hrs.

11. Resistance to * Solder temperature: 260±5°C

Soldering Heat * Dipping time: 10±1 sec

* Preheating: 120 to 150°C for 1 minute before imme rse the

* No remarkable damage.

* Cap change: within ±2.5% or ±0.25pF whichever is larger.

* Q/D.F., I.R. and dielectric strength: To meet initial requirements.

* 25% max. leaching on each edge.

capacitor in a eutectic solder.

* Cap. / DF(Q) / I.R. Measurement to be made after de-aging

at 150°C for 1hr then set for 24±2 hrs at room temp .

Page 7 of 11

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Multilayer Ceramic Capacitors

Approval Sheet

No.

Item

Test Condition

Requirements

* Conduct the five cycles according to the temperatures and

time.

12. Temperature

Cycle

* No remarkable damage.

* Cap change：within ±2.5％ or ±0.25pF whichever is larger.

Step

Temp. (°C)

Min. operating temp. +0/-3

Room temp.

Time (min.)

30±3

* Q/D.F., I.R. and dielectric strength: To meet initial requirements.

2~3

Max. operating temp. +3/-0

Room temp.

30±3

2~3

* Cap. / DF(Q) / I.R. Measurement to be made after de-aging

at 150°C for 1hr then set for 24±2 hrs at room temp .

13. Humidity

(Damp Heat)

Steady State

* Test temp.: 40±2°C

* No remarkable damage.

* Humidity: 90~95% RH

* Cap change: within ±5.0% or ±0.5pF whichever is larger.

* Q/D.F. value:

* Test time: 500+24/-0hrs.

* Cap. / DF(Q) / I.R. Measurement to be made after de-aging

at 150°C for 1hr then set for 24±2 hrs at room temp .

NP0: Cap≥30pF, Q≥350; 10pF≤Cap<30pF, Q≥275+2.5C

Cap<10pF; Q≥200+10C

* I.R.: ≥1GΩor RxC≥50Ω-F whichever is smaller.

* No remarkable damage.

14. Humidity

(Damp Heat)

Load

* Test temp.: 40±2°C

* Humidity: 90~95%RH

* Cap change: within ±7.5% or ±0.75pF whichever is larger.

* Q/D.F. value:

* Test time: 500+24/-0 hrs.

* To apply voltage：rated voltage (Max. 500V)

NP0: Cap≥30pF, Q≥200; Cap<30pF, Q≥100+10/3C

* Cap. / DF(Q) / I.R. Measurement to be made after de-aging * I.R.: ≥500MΩ or RxC≥25Ω-F whichever is smaller.

at 150°C for 1hr then set for 24±2 hrs at room temp .

15. High

Temperature

Load

* Test temp.:

* No remarkable damage.

NP0: 125±3°C

* Cap change: within ±3.0% or ±0.3pF whichever is larger.

* Q/D.F. value:

* To apply voltage:

(Endurance)

(1) <500V: 200% of rated voltage.

(2) 500V: 150% of rated voltage.

(3) ≥630V: 120% of rated voltage.

* Test time: 1000+24/-0 hrs.

NP0: Cap≥30pF, Q≥350

10pF≤Cap<30pF, Q≥275+2.5C

Cap<10pF, Q≥200+10C

* I.R.: ≥1GΩ or RxC≥50Ω-F whichever is smaller.

* Cap. / DF(Q) / I.R. Measurement to be made after de-aging

at 150°C for 1hr then set for 24±2 hrs at room temp .

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Multilayer Ceramic Capacitors

Approval Sheet

APPENDIXES

◙ Tape & reel dimensions

Fig. 15 The dimension of paper tape

Fig. 16 The dimension of plastic tape

Size

0201

0402

0603

S, X

0805

Thickness

C, D, I

0.40

0.70

1.05

1.50

< 1.80

A₀

B₀

+/-0.10

+/-0.20

+/-0.30

+/-0.20

0.70

+/-0.10

1.20

+/-0.20

1.80

+/-0.30

2.30

+/-0.20

2.30

+/-0.20

< 2.70

0.23

+/-0.1

≦0.55

≦0.80

≦1.20

≦1.15

≦1.20

< 2.50

K₀

8.00

+/-0.30

8.00

+/-0.30

8.00

+/-0.30

8.00

+/-0.30

8.00

+/-0.30

8.00

+/-0.30

4.00

+/-0.10

4.00

+/-0.10

4.00

+/-0.10

4.00

+/-0.10

4.00

+/-0.10

4.00

+/-0.10

P₀

40.00

10xP₀

P₁

+/-0.10

+/-0.20

2.00

+/-0.05

2.00

+/-0.05

4.00

+/-0.10

4.00

+/-0.10

4.00

+/-0.10

4.00

+/-0.10

2.00

+/-0.05

2.00

+/-0.05

2.00

+/-0.05

2.00

+/-0.05

2.00

+/-0.05

2.00

+/-0.05

P₂

1.50

D₀

D₁

+0.1/-0

1.00

+/-0.10

1.75

+/-0.10

1.75

+/-0.10

1.75

+/-0.10

1.75

+/-0.10

1.75

+/-0.10

1.75

+/-0.10

3.50

+/-0.05

3.50

+/-0.05

3.50

+/-0.05

3.50

+/-0.05

3.50

+/-0.05

3.50

+/-0.05

Size

0201, 0402, 0603, 0805

10”

Reel size

7”

13”

W₁

13.0+0.5/-0.2

8.4+1.5/-0

178.0±1.0

60.0+1.0/-0

13.0+0.5/-0.2

8.4+1.5/-0

13.0+0.5/-0.2

8.4+1.5/-0

330.0±1.0

100±1.0

250.0±1.0

100.0±1.0

Fig. 17 The dimension of reel

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Multilayer Ceramic Capacitors

Approval Sheet

◙ Example of customer label

a. Customer name

b. WTC order series and item number

c. Customer P/O

d. Customer P/N

e. Description of product

f. Quantity

g. Bar code including quantity & WTC P/N or customer

h. WTC P/N

i. Shipping date

j. Order bar code including series and item numbers

k. Serial number of label

*Customized label is available upon request

◙ Constructions

No.

Name

NP0

Ceramic material

Inner electrode

CaZrO₃based

Inner layer

Termination

Middle layer

Outer layer

Fig. 18 The construction of MLCC

◙ Storage and handling conditions

(1) To store products at 5 to 40°C ambient temperature and 20 to 70%. related humidity conditions.

(2) The product is recommended to be used within one year after shipment. Check solderability in case of shelf life

extension is needed.

Cautions:

a. The corrosive gas reacts on the terminal electrodes of capacitors, and results in the poor solderability.

Do not store the capacitors in the ambience of corrosive gas (e.g., hydrogen sulfide, sulfur dioxide,

chlorine, ammonia gas etc.)

b. In corrosive atmosphere, solderability might be degraded, and silver migration might occur to cause low

reliability.

c. Due to the dewing by rapid humidity change, or the photochemical change of the terminal electrode by

direct sunlight, the solderability and electrical performance may deteriorate. Do not store capacitors under

direct sunlight or dewing condition. To store products on the shelf and avoid exposure to moisture.

Page 10 of 11

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Multilayer Ceramic Capacitors

Approval Sheet

◙ Recommended soldering conditions

The lead-free termination MLCCs are not only to be used on SMT against lead-free solder paste, but also suitable

against lead-containing solder paste. If the optimized solder joint is requested, increasing soldering time, temperature and

concentration of N₂within oven are recommended.

Fig. 19 Recommended reflow soldering profile for SMT process

with SnAgCu series solder paste.

Fig. 20 Recommended wave soldering profile for SMT process

with SnAgCu series solder.

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HH18NR47F101CG [WALSIN]

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