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!Note

• This PDF catalog is downloadedand

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sales representatives or product engineers before ordering.

• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.

• This PDF catalog has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.

C02E.pdf

05.12.14

Chip Monolithic Ceramic Capacitors

High Frequency Type ERB Series

SMD Type

Features (ERB Series)

1. Negligible inductance is achieved by its monolithic

structure so the series can be used at frequencies

above 1GHz.

2. Nickel barriered terminations of ERB series improve

solderability and decrease solder leaching.

3. ERB18/21 series are designed for both flow and

reflow soldering and ERB32 series are designed for

reflow soldering.

Part Number

ERB188

ERB21B

ERB32Q

1.6±0.1

2.0±0.3

3.2±0.3

Dimensions (mm)

0.8±0.1

1.25±0.3

2.5±0.3

T max.

0.9

1.35

1.7

e min.

0.2

0.25

0.3

g min.

0.5

0.7

1.0

Applications

High frequency and high-power circuits

Part Number

LxW

Rated Volt.

ERB18

ERB21

ERB32

1.6x0.8

C0G

(5C)

250

(2E)

250

(2E)

2.0x1.25

C0G

(5C)

100

(2A)

(1H)

500

(2H)

300

(YD)

3.2x2.5

C0G

(5C)

250

(2E)

100

(2A)

(1H)

Capacitance (Capacitance part numbering code) and T (mm) Dimension (T Dimension part numbering code)

0.50pF(R50)

0.75pF(R75)

1.0pF(1R0)

1.1pF(1R1)

1.2pF(1R2)

1.3pF(1R3)

1.5pF(1R5)

1.6pF(1R6)

1.8pF(1R8)

2.0pF(2R0)

2.2pF(2R2)

2.4pF(2R4)

2.7pF(2R7)

3.0pF(3R0)

3.3pF(3R3)

3.6pF(3R6)

3.9pF(3R9)

4.3pF(4R3)

4.7pF(4R7)

5.1pF(5R1)

5.6pF(5R6)

6.2pF(6R2)

6.8pF(6R8)

7.5pF(7R5)

8.2pF(8R2)

9.1pF(9R1)

10pF(100)

11pF(110)

12pF(120)

13pF(130)

0.8(8)

1.25(B)

1.50(Q)

Continued on the following page.

!Note

• This PDF catalog is downloadedand

!CAUTION

(forMurata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it may be discontinued without advance notice. Please check with our

!Note

• Please read rating from the website of storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.

sales representatives or product engineers before ordering.

C02E.pdf

05.12.14

Continued from the preceding page.

Part Number

LxW

Rated Volt.

ERB18

ERB21

ERB32

1.6x0.8

C0G

(5C)

250

(2E)

250

(2E)

2.0x1.25

C0G

(5C)

100

(2A)

(1H)

500

(2H)

300

(YD)

3.2x2.5

C0G

(5C)

250

(2E)

100

(2A)

(1H)

Capacitance (Capacitance part numbering code) and T (mm) Dimension (T Dimension part numbering code)

15pF(150)

16pF(160)

18pF(180)

20pF(200)

22pF(220)

24pF(240)

27pF(270)

30pF(300)

33pF(330)

36pF(360)

39pF(390)

43pF(430)

47pF(470)

51pF(510)

56pF(560)

62pF(620)

68pF(680)

75pF(750)

82pF(820)

91pF(910)

100pF(101)

120pF(121)

130pF(131)

150pF(151)

160pF(161)

180pF(181)

200pF(201)

0.8(8)

1.25(B)

1.50(Q)

220pF(221)

240pF(241)

270pF(271)

300pF(301)

330pF(331)

360pF(361)

390pF(391)

430pF(431)

470pF(471)

510pF(511)

560pF(561)

620pF(621)

680pF(681)

750pF(751)

820pF(821)

910pF(911)

1000pF(102)

The part numbering code is shown in ( ).

Dimensions are shown in mm and Rated Voltage in Vdc.

!Note

• This PDF catalog is downloadedand

!CAUTION

(forMurata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it may be discontinued without advance notice. Please check with our

!Note

• Please read rating from the website of storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.

sales representatives or product engineers before ordering.

C02E.pdf

05.12.14

Specifications and Test Methods

No.

Item

Operating

Temperature Range

Y55

W125D

Specifications

Test Method

Reference Temperature: 25°C

The rated voltage is defined as the maximum voltage which

may be applied continuously to the capacitor.

When AC voltage is superimposed on DC voltage, V

P-P

or V

O-P

whichever is larger, should be maintained within the rated

voltage range.

Visual inspection

Using calipers

No failure should be observed when 300%(*) of the rated volt-

age is applied between the terminations for 1 to 5 seconds,

provided the charge/discharge current is less than 50mA.

(*) 300V: 250%, 500V: 200%

The insulation resistance should be measured with a DC

voltage not exceeding the rated voltage at 25D and standard

humidity and within 2 minutes of charging.

The capacitance/Q should be measured at 25D at the

frequency and voltage shown in the table.

Frequency

Voltage

1T0.1MHz

1T0.2Vrms

Rated Voltage

See the previous pages.

Appearance

Dimensions

No defects or abnormalities

Within the specified dimension

Dielectric Strength

No defects or abnormalities

Insulation Resistance

1,000,000MΩ min. (CU470pF)

0,100,000MΩ

min. (CG470pF)

(I.R.)

Capacitance

Within the specified tolerance

220pF<CV1,220pF

: QU10,000

220pF<CV1,470pF : QU15,000

470pF<CV1,000pF : QU13,000

C : Nominal Capacitance (pF)

Capacitance

Change

Temperature

Coefficent

Within the specified tolerance (Table A-6)

Capacitance

Temperature

Characteristics

Capacitance

Drift

Within

T0.2%

T0.05pF

(Whichever is larger)

The temperature coefficient is determined using the

capacitance measured in step 3 as a reference. When cycling

the temperature sequentially from step 1 through 5, the

capacitance should be within the specified tolerance for the

temperature coefficient and capacitance change as Table A.

The capacitance drift is calculated by dividing the differences

between the maximum and minimum measured values in steps

1, 3 and 5 by the capacitance value in step 3.

Step

Temperature (D)

25T2

Y55T3

25T2

125T3

25T2

No removal of the terminations or other defects should occur.

Adhesive Strength

of Termination

Solder the capacitor on the test jig (glass epoxy board) shown

in Fig. 1 using an eutectic solder.

Then apply 10N* force in parallel with the test jig for 10±1sec.

The soldering should be done either with an iron or using the

reflow method and should be conducted with care so that the

soldering is uniform and free of defects such as heat shock.

Type

ERB18

ERB21

ERB32

1.0

1.2

2.2

3.0

4.0

5.0

1.2

1.65

2.9

(in mm)

*5N (ERB188)

Continued on the following page.

Fig.1

Solder Resist

Baked Electrode or

Copper Foil

!Note

• This PDF catalog is downloadedand

!CAUTION

(forMurata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it may be discontinued without advance notice. Please check with our

!Note

• Please read rating from the website of storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.

sales representatives or product engineers before ordering.

C02E.pdf

05.12.14

Specifications and Test Methods

Continued from the preceding page.

No.

Item

Appearance

Capacitance

Specifications

No defects or abnormalities

Within the specified tolerance

Satisfies the initial value.

220pFFCV1,220pF

: QU10,000

220pFFCV1,470pF : QU15,000

470pFFCV1,000pF : QU13,000

C : Nominal Capacitance (pF)

No crack or marked defect should occur.

50 Pressurizing

speed : 1.0mm/sec.

Pressurize

Test Method

Solder the capacitor to the test jig (glass epoxy board) in the

same manner and under the same conditions as (10).

The capacitor should be subjected to a simple harmonic motion

having a total amplitude of 1.5mm, the frequency being varied

uniformly between the approximate limits of 10 and 55Hz.

The frequency range, from 10 to 55Hz and return to 10Hz,

should be traversed in approximately 1 minute. This motion

should be applied for a period of 2 hours in each 3 mutually

perpendicular directions (total of 6 hours).

Solder the capacitor on the test jig (glass epoxy board) shown

in Fig. 2a using an eutectic solder. Then apply a force in the

direction shown in Fig. 3a. The soldering should be done either

with an iron or using the reflow method and should be conduct-

ed with care so that the soldering is uniform and free of defects

such as heat shock.

Type

ERB18

ERB21

ERB32

1.0

1.2

2.2

3.0

4.0

5.0

1.2

1.65

2.9

(in mm)

Vibration

Resistance

Deflection

Solderability of

Termination

Resistance

to Soldering Heat

R230

ø4.5

Flexure :

Capacitance meter

100

t : 1.6mm

Fig.3a

Fig. 2a

95% of the terminations are to be soldered evenly and

continuously.

Immerse the capacitor in a solution of isopropyl alcohol and

rosin (25% rosin in weight proportion).

Preheat at 80 to 120D for 10 to 30 seconds.

After preheating, immerse in an eutectic solder

or Sn-3.0Ag-0.5Cu solder solution for 5±0.5 seconds

at 245±5D.

The measured and observed characteristics should satisfy the

specifications in the following table.

Item

Appearance

Capacitance

Change

Dielectric Strength

Specifications

No marked defect

Within

T2.5%

T0.25pF

(Whichever is larger)

220pFFCV1,220pF

: QU10,000

220pFFCV1,470pF : QU15,000

470pFFCV1,000pF : QU13,000

No failure

C : Nominal Capacitance (pF)

Preheat according to the conditions listed in the table below.

Immerse the capacitor in an eutectic solder or Sn-3.0Ag-0.5Cu

solder solution at 270±5D for 10±0.5 seconds. Let sit at room

temperature for 24±2 hours.

Chip Size

2.0Z1.25mm max.

3.2Z2.5mm

Preheat Condition

1minute at 120 to 150D

Each 1 minute at 100 to 120D and then 170 to 200D

The measured and observed characteristics should satisfy the

specifications in the following table.

Item

Appearance

Capacitance

Change

I.R.

Dielectric Strength

Specifications

No marked defect

Within

T5%

T0.5pF

(Whichever is larger)

10pFVCU30pF

: QU350

10pFVCF30pF : QU275W

10pFVCF10pF

: QU200W10C

1,000MΩ min.

No failure

C : Nominal Capacitance (pF)

Fix the capacitor to the supporting jig in the same manner and

under the same conditions as (10). Perform the five cycles

according to the four heat treatments listed in the following table.

Let sit for 24T2 hours at room temperature, then measure.

Max.

Min.

Room

Operating

Temp. (D)

Temp.

W3/Y0

Temp.

W0/Y3

Time (min.)

30T3

5 max.

30T3

5 max.

Step

Temperature

Cycle

Apply the 24-hour heat (Y10 to

W65D)

and humidity (80 to 100%)

treatment shown below, 10 consecutive times. Remove, let sit for

24T2 hours at room temperature, and measure.

The measured and observed characteristics should satisfy the

specifications in the following table.

Item

Specifications

No marked defect

Appearance

Within

T5%

T0.5pF

Capacitance

(Whichever is larger)

Change

10pFVCU30pF

: QU350

10pFVCF30pF : QU275W

10pFVCF10pF

: QU200W10C

1,000MΩ min.

I.R.

C : Nominal Capacitance (pF)

-5

-10

Humidity

Humidity 80-98% Humidity 80-98%

90-98%

Humidity90-98%

90-98%

Humidity

Temperature

+10

-2

Initial measurement

Applied voltage 50Vdc

One cycle 24 hours

0 1 2 3 4 5 6 7 8 9 10 1112 13 14 15 16 17 18 19 2021 22 23 24

Hours

Continued on the following page.

!Note

• This PDF catalog is downloadedand

!CAUTION

(forMurata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it may be discontinued without advance notice. Please check with our

!Note

• Please read rating from the website of storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.

sales representatives or product engineers before ordering.

C02E.pdf

05.12.14

Specifications and Test Methods

Continued from the preceding page.

No.

Item

Specifications

The measured and observed characteristics should satisfy the

specifications in the following table.

Item

Appearance

Capacitance

Change

I.R.

Dielectric Strength

Specifications

No marked defect

Within

T3%

T0.3pF

(Whichever is larger)

10pFVCU30pF

: QU350

10pFVCF30pF : QU275W

10pFVCF10pF

: QU200W10C

1,000MΩ min.

No failure

C : Nominal Capacitance (pF)

Test Method

High Temperature

Load

Apply 200% (500V only 150%) of the rated voltage for 1,000T12

hours at

125T3D. Remove and let sit for 24T2 hours at room

temperature, then measure.

The charge/discharge current is less than 50mA.

Table A-6

Capacitance Change from 25D (%)

Char.

Nominal Values

(ppm/D) Note 1

Y55

Y30

Min.

Y0.17

Max.

0.25

Y10

Min.

Y0.11

Max.

Min.

Max.

0T30

Y0.24

0.58

0.40

Note 1 : Nominal values denote the temperature coefficient within a range of 25 to 125D (for 5C)