GJM0335C1ER40BB01D_技术文档

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High Frequency Ceramic Capacitors

GJM Product Summary

GJM Series: The Murata GJM

series is a High Q, ultra-small capacitor

series for high frequency applications

in the 500MHz to 10GHz range. They

are suitable for applications such as

VCO and PA modules. The GJM series

is made with copper electrodes as a

cost effective solution for low ESR and

power consumption due to the high

Q (low loss) performance. A variety of

tight tolerance versions are available,

offered in EIA sizes 0201 and 0402 with

a capacitance range of 0.1 to 33pF.

Features:



Size: 0201, 0402

Voltage: 6.3, 25 and 50VDC

Cap Range: 0.1-20pF 25 -50VDC and 22 - 33pF in 6.3VDC

Internal Electrode: Cu

Termination: Cu + Ni/Sn plating

ESR: Very Low

Power: Low (<=5W)

Frequency Range: 500MHz -10GHz, High Q and Low ESR at VHF, UHF and Microwave

Frequencies



Tolerance: Tight Tolerance Available ([W]=+/-0.05 pF for under 10pF, [B]=+/-0.1pF for

under 10 pF, [C]=+/-0.25pF for under 10pF, [G]=+/-2% for 10pF and over

Temp. Characteristics: C0G (0+/-30ppm/°C-55 to 125°C) and C0H (0+/-60ppm/°C-55

to 125°C)

Applications: Handheld

and Cellular, Bluetooth^®,VCO,

WLAN, PA Modules,Wireless

Modems, RKE,Wireless PDAs,

AntennaTuning and GPS

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High Frequency Ceramic Capacitors

GJM Data Sheet

Chip Structure

Dielectric

(Ceramic)

Chip Dimensions

Plating

(Sn)

T

e

Barrier

(Ni)

L

Termination

(Cu)

Inner Electrode

(Cu)

Unit: mm

Chip Dimensions Table

Series EIA size

L

W

T

e

g min.

GJM03

GJM15

0201

0402

0.6+/-0.03 0.3+/-0.03 0.3+/-0.03 0.1 to 0.2

1.0+/-0.05 0.5+/-0.05 0.5+/-0.05 0.15 to 0.3

0.2

0.4

Land Pattern Dimensions

Land

Re-Flow Soldering

Chip Capacitor

Solder

Resist

c

Series

a

b

c

GJM03 0.2 ~ 0.3 0.2 ~ 0.35 0.2 ~ 0.4

GJM15 0.3 ~ 0.5 0.35 ~ 0.45 0.4 ~ 0.6

b

a

Capacitance Range

Mass Production

Capacitance Range

10pF

Series

TC

WV

1pF

100pF

pF

C0G

C0H

C0G

25

6.3

50

0.2 - 6.8pF

7 - 20pF

22 - 33pF

0.1 - 20pF

GJM03

GJM15

Global Part Numbering

GJ M 03 3 5C 1E 1R0 C B01 D

ꢈ ꢀ

ꢉ

ꢅ

Temperature Characteristics

ꢁ

Product ID

Code

Product

Code

TC

Temp.Coefficient

Operating Temp. Range

5C

6C

C0G

C0H

0+/-30ppm/°C

0+/-60ppm/°C

-55 to 125°C

High Frequency

Low Loss Type

GJ

ꢂ

Series

ꢆ

Rated Voltage

ꢈ

Capacitance Tolerance

Code

Product

Code Rated Voltage

Code Cap. Tol.

TC

0J

1E

1H

DC 6.3V

DC 25V

DC 50V

W

B

C

D

G

J

+/-0.05pF C0G, C0H (under 10pF)

+/-0.1pF C0G, C0H (under 10pF)

+/-0.25pF C0G, C0H (under 10pF)

+/-0.5pF C0G,C0H (5.1pF-9.9pF)

Tin Plated

Termination

M

ꢃ

Dimension (LxW)

0.6x0.3mm

1.0x0.5mm

ꢇ

Capacitance

Code

03

15

+/-2%

+/-5%

C0G, C0H (10pF & over)

Code

Capacitance

R10

1R0

100

0.1pF

1pF

ꢀ

ꢉ

Individual Specification Code

Packaging

ꢄ

Dimension (T)

10pF

Code

Packaging

3

5

0.3mm

0.5mm

B

D

Bulk in nylon bag

F

180mm Paper Taping

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High Frequency Ceramic Capacitors

GJM Product Offering

GJM03 Series

Size

TC

WV

Cap

Cap Tol

Murata Global P/N

0201

C0G

C0H

25V

0.2pF

0.3pF

0.4pF

0.5pF

0.6pF

0.7pF

0.8pF

0.9pF

1.0pF

1.1pF

1.2pF

1.3pF

1.5pF

1.6pF

1.8pF

2.0pF

2.2pF

2.4pF

2.7pF

3.0pF

3.3pF

3.6pF

3.9pF

4.0pF

4.3pF

4.7pF

5.0pF

5.1pF

5.6pF

6.0pF

6.2pF

6.8pF

7.0pF

7.5pF

8.0pF

8.2pF

9.0pF

9.1pF

10pF

+/-0.1pF

+/-0.25pF

+/-0.5pF

+/-5%

GJM0335C1ER20BB01D

GJM0335C1ER30BB01D

GJM0335C1ER40BB01D

GJM0335C1ER50BB01D

GJM0335C1ER60BB01D

GJM0335C1ER70BB01D

GJM0335C1ER80BB01D

GJM0335C1ER90BB01D

GJM0335C1E1R0CB01D

GJM0335C1E1R1CB01D

GJM0335C1E1R2CB01D

GJM0335C1E1R3CB01D

GJM0335C1E1R5CB01D

GJM0335C1E1R6CB01D

GJM0335C1E1R8CB01D

GJM0335C1E2R0CB01D

GJM0335C1E2R2CB01D

GJM0335C1E2R4CB01D

GJM0335C1E2R7CB01D

GJM0335C1E3R0CB01D

GJM0335C1E3R3CB01D

GJM0335C1E3R6CB01D

GJM0335C1E3R9CB01D

GJM0335C1E4R0CB01D

GJM0335C1E4R3CB01D

GJM0335C1E4R7CB01D

GJM0335C1E5R0CB01D

GJM0335C1E5R1DB01D

GJM0335C1E5R6DB01D

GJM0335C1E6R0DB01D

GJM0335C1E6R2DB01D

GJM0335C1E6R8DB01D

GJM0336C1E7R0DB01D

GJM0336C1E7R5DB01D

GJM0336C1E8R0DB01D

GJM0336C1E8R2DB01D

GJM0336C1E9R0DB01D

GJM0336C1E9R1DB01D

GJM0336C1E100JB01D

GJM0336C1E120JB01D

GJM0336C1E150JB01D

GJM0336C1E180JB01D

GJM0336C1E200JB01D

GJM0335C0J220JB01D

GJM0335C0J270JB01D

GJM0335C0J330JB01D

12pF

+/-5%

15pF

+/-5%

18pF

+/-5%

20pF

+/-5%

C0G 6.3V

22pF

+/-5%

27pF

+/-5%

33pF

+/-5%

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High Frequency Ceramic Capacitors

GJM Product Offering

GJM15 Series

Size

TC

WV

Cap

Cap Tol

Murata Global P/N

0402

C0G

50V

0.1pF

0.2pF

0.3pF

0.4pF

0.5pF

0.6pF

0.7pF

0.8pF

0.9pF

1.0pF

1.1pF

1.2pF

1.3pF

1.5pF

1.6pF

1.8pF

2.0pF

2.2pF

2.4pF

2.7pF

3.0pF

3.3pF

3.6pF

3.9pF

4.0pF

4.3pF

4.7pF

5.0pF

5.1pF

5.6pF

6.0pF

6.2pF

6.8pF

7.0pF

7.5pF

8.0pF

8.2pF

9.0pF

9.1pF

10pF

+/-0.1pF

+/-0.25pF

+/-0.5pF

+/-5%

GJM1555C1HR10BB01D

GJM1555C1HR20BB01D

GJM1555C1HR30BB01D

GJM1555C1HR40BB01D

GJM1555C1HR50BB01D

GJM1555C1HR60BB01D

GJM1555C1HR70BB01D

GJM1555C1HR80BB01D

GJM1555C1HR90BB01D

GJM1555C1H1R0CB01D

GJM1555C1H1R1CB01D

GJM1555C1H1R2CB01D

GJM1555C1H1R3CB01D

GJM1555C1H1R5CB01D

GJM1555C1H1R6CB01D

GJM1555C1H1R8CB01D

GJM1555C1H2R0CB01D

GJM1555C1H2R2CB01D

GJM1555C1H2R4CB01D

GJM1555C1H2R7CB01D

GJM1555C1H3R0CB01D

GJM1555C1H3R3CB01D

GJM1555C1H3R6CB01D

GJM1555C1H3R9CB01D

GJM1555C1H4R0CB01D

GJM1555C1H4R3CB01D

GJM1555C1H4R7CB01D

GJM1555C1H5R0CB01D

GJM1555C1H5R1DB01D

GJM1555C1H5R6DB01D

GJM1555C1H6R0DB01D

GJM1555C1H6R2DB01D

GJM1555C1H6R8DB01D

GJM1555C1H7R0DB01D

GJM1555C1H7R5DB01D

GJM1555C1H8R0DB01D

GJM1555C1H8R2DB01D

GJM1555C1H9R0DB01D

GJM1555C1H9R1DB01D

GJM1555C1H100JB01D

GJM1555C1H120JB01D

GJM1555C1H150JB01D

GJM1555C1H180JB01D

GJM1555C1H200JB01D

12pF

+/-5%

15pF

+/-5%

18pF

+/-5%

20pF

+/-5%

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High Frequency Ceramic Capacitors

GJM Specifications andTest Methods

Item

Specifications

Test Methods

Operating Temperature

Appearance

-55oC to 125oC

Reference temperature: 25oC

Visual inspection.

No defects or abnormalities.

Within the specified dimensions.

No defects or abnormalities.

Dimension

Using calipers.

Dielectric Strength

300% of the rated voltage

DC voltage not exceeding the rated voltage at 25°C

and 75%RH max. and within 2 minutes of charging.

More than 10,000M or 500 ·F

(Whichever is smaller)

Insulation Resistance

Q

Frequency 1±0.1MHz

Voltage 0.5 to 5Vrms

30pFmin.: Q r 1000

30pFmax.: Q r 400+20C

C: Nominal Capacitance(pF)

The capacitance change should be measured after

5 min. at each specified temperature stage. 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 in Table A-1. The capacitance

drift is calculated by dividing the differences between

the maximum and minimum measured values in steps

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

Capacitance

Temperature

Characteristics

Temperature Coefficent:

Within the specified tolerance. (Table A-1)

Capacitance Change: Within 0.2% or 0.05pF

(Whichever is larger)

Step

Temperature (oC)

25p2

1

2

3

4

5

-55p3

25p2

125p3

25p2

Solder the capacitor to the test jig (glass epoxy

No removal of the terminations or other defect should board) shown in Fig.1a using a eutectic solder. Then

Adhesive Strength of

Termination

occur.

apply 5N* force in parallel with the test jig for

10±1sec. *2N(GJM03)

Appearance: No defects or abnormalities.

Capacitance: Within the specified tolerance.

30pFmin.: Q r 1000

30pFmax.: Q r 400+20C

C: Nominal Capacitance(pF)

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).

Vibration Resistance

Deflection

No crack or marked defect should occur.

Flexure:1mm

Immerse in eutectic solder solution for 2±0.5 seconds

at 230±5°C or Sn-3.0Ag-0.5Cu solder solution for

2±0.5 seconds at 245±5°C .

75% of the terminations are to be soldered evenly

and continuously.

Solderability of Termination

Appearance: No marking defects.

Capacitance Change: Within ±2.5% or

± 0.25 pF (Whichever is larger)

30pFmin.: Q r 1000

Immerse the capacitor in a eutectic solder solution or

Sn-3.0 Ag–0.5Cu solder solution at 270±5°C for

10±0.5 seconds. Let sit at room temperature for 24±2

hours.

Resistance to Soldering Heat

30pFmax.: Q r 400+20C

C: Nominal Capacitance(pF)

Appearance: No marking defects.

Capacitance Change: Within ±2.5% or

± 0.25 pF (Whichever is larger)

30pFmin.: Q r 1000

Temperature Cycle

－55°C to 125°C Five cycles

30pFmax.: Q r 400+20C

C: Nominal Capacitance (pF)

Appearance: No marking defects.

Capacitance Change: Within ±5% or

± 0.5pF (Whichever is larger)

30pF and over: Q r 350

Humidity Steady State

40±2°C and 90 to 95% humiduty for 500±12 hours.

10pF and over, 30pF and below: Q r275+5C/2

10pF and below: Q r 200+10C ꢀꢀꢀ

C: Nominal Capacitance (pF)

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High Frequency Ceramic Capacitors

GJM Specifications andTest Methods

Item

Specifications

Test Methods

Appearance: No marking defects.

Capacitance Change: Within ±7.5% or ±0.75pF

(Whichever is larger)

Apply the rated voltage at 40±2°C and 90 to 95%

humidity for 500±12 hours.

Humidity Load

30pF and over: Q r 200

30pF and below: Q r 100+10C/3

C: Nominal Capacitance(pF)

Appearance: No marking defects.

Capacitance Change: Within ±3% or ± 0.3pF

(Whichever is larger)

Apply 200% of the rated voltage for 1000±12 hours at

the maximun operating temperature ±3°C. Let sit for

24±2 hours (temperature compensating type) at room

temperature, then measure.The charge/discharge

current is less than 50mA

30pF and over: Q r 350

High Temperature Load

10pF and over, 30pF and below: Qr275+5C/2

10pF and below: Q r 200+10C

C: Nominal Capacitance(pF)

The ESR should be measured at room temperature,

and frequency 1±0.2GHz with the equivalent of

BOONTON Model 34A.

0.1pF≤C≤1pF: 350mΩ • pF below

1pF<C≤5pF: 300mΩ below

5pF<C≤10pF: 250mΩ below

ESR

The ESR should be measured at room temperature, and

frequency 500±50MHz with the equivalent of HP8753B.

10pF<C≤33pF: 400mΩ below

Table A-1

Capacitance Change from 25°C（%）

Nominal Values

(ppm/°C) Note

Char.

– 55

－30

—10

Max.

0.58

Min.

Max.

0.40

Min.

Max.

0.25

Min.

5C

6C

0 ± 30

-0.24

-0.17

-0.11

0

± 60

0.87

-0.48

0.60

-0.33

0.38

-0.21

Note: Nominal values denote the temperature coefficient within a range of 25°C to 125°C.

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High Frequency Ceramic Capacitors

GJMTechnical Data (Typical)

Capacitance -Temperature Characteristics

C0G and C0H Characteristics (GJM)

2.0

1.5

1.0

0.5

C0H Spec. (upper)

C0G Spec. (upper)

0.0

C0G

C0H

C0G Spec. (lower)

C0H Spec. (lower)

-0.5

-1.0

-1.5

-2.0

-75

-50

-25

0

25

50

75

100

125

150

TEMPERATURE (°C)

Resonant Frequency - Capacitance

GJM Series

Measurement

Equipment

10G

8753D (Agilent)

GJM03

GJM15

1G

100M

G

1

10

100

CAPACITANCE (pF)

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High Frequency Ceramic Capacitors

GJMTechnical Data (Typical)

ESR - Frequency Characteristics

GJM03 Series

Measurement

10

1

Equipment

8753D (Agilent)

0.1

1pF

6.8pF

20pF

0.01

100M

100

1G

1000

10G

10000

FREQUENCY MH

FREQUENCY (Hz)

（

ｚ）

GJM15 Series

10

1

0.1

0.01

1pF

10pF

20pF

100M

1G

10G

FREQUENCY (Hz)

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High Frequency Ceramic Capacitors

GJMTechnical Data (Typical)

Q - Frequency Characteristics

GJM03 Series

Measurement

Equipment

8753D (Agilent)

10000

1000

100

10

1pF

6.8pF

20pF

1

100M

1G

10G

FREQUENCY (Hz)

GJM15 Series

10000

1000

100

10

1pF

10pF

20pF

1

100M

1G

10G

FREQUENCY (Hz)

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High Frequency Ceramic Capacitors

GJM Soldering and Mounting

■ !Caution (Soldering and Mounting)

1. Mounting Position

Choose a mounting position that minimizes the stress

Component Direction

imposed on the chip during flexing or bending of the

Locate chip

horizontal to the

direction in

which stress

acts

board.

Chip Mounting Close to Board Separation Point

C

Chip arrangement

Worst A-C-(B~D) Best

Perforation

B

D

A

Slit

2. Chip Placing

An excessively low bottom dead point of the suction

nozzle imposes great force on the chip during mounting,

causing cracked chips. So adjust the suction nozzle's

bottom dead point by correcting warp in the board.

Normally, the suction nozzle's bottom dead point must be

set on the upper surface of the board. Nozzle pressure

for chip mounting must be a 1 to 3N static load.

Dirt particles and dust accumulated between the suction

nozzle and the cylinder inner wall prevent the nozzle from

moving smoothly. This imposes great force on the chip

during mounting, causing cracked chips. And the locating

claw, when worn out, imposes uneven forces on the chip

when positioning, causing cracked chips. The suction

nozzle and the locating claw must be maintained,

checked and replaced periodically.

Incorrect

Correct

Suction Nozzle

Deflection

Board

Board Guide

Support Pin

Continued on the following page.

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High Frequency Ceramic Capacitors

GJM Soldering and Mounting

3. Reflow Soldering

When sudden heat is applied to the components, the

mechanical strength of the components should go down

Standard Conditions for Reflow Soldering

Infrared Reflow

because remarkable temperature change causes

deformity inside components. In order to prevent

mechanical damage in the components, preheating should

be required for both of the components and the PCB board.

Preheating conditions are shown in Table 1. It is required to

keep temperature differential between the soldering and

the components surface ($T) as small as possible.

Solderability of Tin plating termination chip might be

deteriorated when low temperature soldering profile where

peak solder temperature is below the Tin melting point is

used. Please confirm the solderability of Tin plating

termination chip before use.

Temperature (%)

Peak Temperature

200oC

Soldering

Gradual

Cooling

$T

170oC

150oC

130oC

Preheating

Time

60-120 seconds 30-60 seconds

Vapor Reflow

When components are immersed in solvent after mounting,

be sure to maintain the temperature difference ($T)

between the component and solvent within the range

shown in theTable 1.

Temperature (%)

Soldering

Peak Temperature

Gradual

Cooling

$T

170oC

150oC

130oC

Table 1

Part Number

GRM02/03/15/18/21/31

GJM03/15

Temperature Differential

Preheating

GJM03/15

LLL15/18/21/31

$T-190%

Time

20 seconds max.

60-120 seconds

ERB18/21

GQM18/21

GRM32/43/55

Allowable Soldering Temperature and Time

LLA18/21/31

Recommended Conditions

280

270

260

250

240

LLM21/31

$T-130%

Lead Free Solder

Pb-Sn Solder

Infrared Reflow Vapor Reflow

GNM

ERB32

Peak Temperature

230-250oC

230-240oC

240-260oC

Atmosphere

Air

Air or N2

Recommended Conditions

Pb-Sn Solder: Sn-37Pb

Lead Free Solder: Sn-3.0Ag-0.5Cu

Infrared Reflow Vapor Reflow

230-250oC 230-240oC

230

220

Pb-Sn Solder

Lead Free Solder

0

30

60

90

120

Soldering Time (sec.)

240-260oC

^PeO^akp^Tt^ei^mm^pu^em^ratuS^reolder Amount for Reflow Soldering

In case of repeated soldering, the accumulated

soldering time must be within the range shown above.

Atmosphere

Air

Air or N2

Overly thick application of solder paste results in

Pb-Sn Solder: Sn-37Pb

excessive fillet height solder.

Lead Free Solder: Sn-3.0Ag-0.5Cu

This makes the chip more susceptible to mechanical

and thermal stress on the board and may cause

Optimum Solder Amount for Reflow Soldering

cracked chips.

Optimum Solder Amount for Reflow Soldering

Overly thick application of solder paste results in

Too little solder paste results in a lack of adhesive

Optimum Solder Amount for Reflow Soldering

Overly thick application of solder paste results in

excessive fillet height solder.

strength on the outer electrode, which may result in

excessive fillet height solder.

This makes the chip more susceptible to mechanical

chips breaking loose from the PCB.

This makes the chip more susceptible to mechanical

and thermal stress on the board and may cause

Make sure the solder has been applied smoothly to the

and thermal stress on the board and may cause

0.2mm min.

cracked chips.

end surface to a height of 0.2mm min.

cracked chips.

Too little solder paste results in a lack of adhesive

strength on the outer electrode, which may result in

Inverting the PCB

strength on the outer electrode, which may result in

chips breaking loose from the PCB.

Make sure not to impose an abnormal mechanical shock on

chips breaking loose from the PCB.

Make sure the solder has been applied smoothly to the

the PCB.

Make sure the solder has been applied smoothly to the

end surface to a height of 0.2mm min.

Inverting the PCB

Make sure not to impose an abnormal mechanical shock on

the PCB.

Continued on the following page.

16 – Innovator in Electronics

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C-29-C

A ꢀ ꢀ ꢁ ꢂ ꢃ Aꢄ ꢂ ꢅ ꢆ S ꢀ ꢇ ꢃ ꢂ F ꢂ ꢃ ꢃ A ꢀAꢃ ꢂ ꢄꢅ ꢈ S

High Frequency Ceramic Capacitors

GJM Soldering and Mounting

Correction with a Soldering Iron

(1) For Chip Type Capacitors

Table 2

Temperature

Preheating

Temperature

Differential

Atmosphere

Part Number of Soldering

Temperature

Iron Tip

$T

GJM03/15

350°C max. 150oC min.

$T-190%

Air

*Applicable for both Pb-Sn and Lead Free Solder.

Applicable for both Pb-Sn and Lead Free Solder.

Pb-Sn Solder: Sn-37Pb

Lead Free Solder: Sn-3.0Ag-0.5Cu

Solder Amount

in Section

Washing

Excessive output of ultrasonic oscillation during cleaning

causes PCBs to resonate, resulting in cracked chips or

broken solder. Take note not to vibrate PCBs.

FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY

RESULT, WORST CASE, IN A SHORT CIRCUIT AND

FUMING WHEN THE PRODUCT IS USED.

Innovator in Electronics – 17

C-29-C

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A ꢀ ꢀ ꢁ ꢂ ꢃ Aꢄ ꢂ ꢅ ꢆ S ꢀ ꢇ ꢃ ꢂ F ꢂ ꢃ ꢃ A ꢀAꢃ ꢂ ꢄꢅ ꢈ S

High Frequency Ceramic Capacitors

GJM Design Engineering Kits

General Ceramic Chip Capacitors

0201 (6.3 to 25 VDC)

N

Better Q and low ESR at VHF, UHF and microwave frequencies.

N 0201 size with Copper inner electrode.

N Tight tolerance available.

[W] = +/-0.05pF for 5pF & under [B] = +/-0.1pF for under 10pF

[C] = +/-0.25pF for under 10pF

[F] = +/-1% for 10pF & over [G] = +/-2% for 10pF & over

N Low power consumption, yield ratio improvement due to the

better Q or lower ESR.

N GJM series is suited to VCO or PA module applications.

N GJM series is offered with a Ni barrier termination plated with

Matte Tin (Sn), and is RoHS compliant.

GJM03-KIT––––––––E (Standard Tolerance)

GJM03-KIT-TTOL–––E (Tight Tolerance)

No. Description

Murata Global P/N

Qty.

20

No. Description

Murata Global P/N

Qty.

20

1

2

3

4

5

6

7

8

9

0201/C0G/0.20pF/25V

GJM0335C1ER20BB01

GJM0335C1ER30BB01

GJM0335C1ER40BB01

GJM0335C1ER50BB01

GJM0335C1ER60BB01

GJM0335C1ER70BB01

GJM0335C1ER80BB01

GJM0335C1ER90BB01

GJM0335C1E1R0CB01

GJM0335C1E1R1CB01

GJM0335C1E1R2CB01

GJM0335C1E1R3CB01

GJM0335C1E1R5CB01

GJM0335C1E1R6CB01

GJM0335C1E1R8CB01

GJM0335C1E2R0CB01

GJM0335C1E2R2CB01

GJM0335C1E2R4CB01

GJM0335C1E2R7CB01

GJM0335C1E3R0CB01

GJM0335C1E3R3CB01

GJM0335C1E3R6CB01

GJM0335C1E3R9CB01

GJM0335C1E4R0CB01

GJM0335C1E4R3CB01

GJM0335C1E4R7CB01

GJM0335C1E5R0CB01

GJM0335C1E5R1DB01

GJM0335C1E5R6DB01

GJM0335C1E6R0DB01

GJM0335C1E6R2DB01

GJM0335C1E6R8DB01

GJM0336C1E7R0DB01

GJM0336C1E7R5DB01

GJM0336C1E8R0DB01

GJM0336C1E8R2DB01

GJM0336C1E9R0DB01

GJM0336C1E9R1DB01

GJM0336C1E100JB01

GJM0336C1E120JB01

GJM0336C1E150JB01

GJM0336C1E180JB01

GJM0336C1E200JB01

GJM0335C0J220JB01

GJM0335C0J270JB01

GJM0335C0J330JB01

1

2

3

4

5

6

7

8

9

0201/C0G/0.20pF/25V

GJM0335C1ER20WB01

GJM0335C1ER30WB01

GJM0335C1ER40WB01

GJM0335C1ER50WB01

GJM0335C1ER60WB01

GJM0335C1ER70WB01

GJM0335C1ER80WB01

GJM0335C1ER90WB01

GJM0335C1E1R0BB01

GJM0335C1E1R1BB01

GJM0335C1E1R2BB01

GJM0335C1E1R3BB01

GJM0335C1E1R5BB01

GJM0335C1E1R6BB01

GJM0335C1E1R8BB01

GJM0335C1E2R0BB01

GJM0335C1E2R2BB01

GJM0335C1E2R4BB01

GJM0335C1E2R7BB01

GJM0335C1E3R0BB01

GJM0335C1E3R3BB01

GJM0335C1E3R6BB01

GJM0335C1E3R9BB01

GJM0335C1E4R0BB01

GJM0335C1E4R3BB01

GJM0335C1E4R7BB01

GJM0335C1E5R0BB01

GJM0335C1E5R1CB01

GJM0335C1E5R6CB01

GJM0335C1E6R0CB01

GJM0335C1E6R2CB01

GJM0335C1E6R8CB01

GJM0336C1E7R0CB01

GJM0336C1E7R5CB01

GJM0336C1E8R0CB01

GJM0336C1E8R2CB01

GJM0336C1E9R0CB01

GJM0336C1E9R1CB01

GJM0336C1E100GB01

GJM0336C1E120GB01

GJM0336C1E150GB01

GJM0336C1E180GB01

GJM0336C1E200GB01

GJM0335C0J220GB01

GJM0335C0J270GB01

GJM0335C0J330GB01

0201/C0G/0.30pF/25V

0201/C0G/0.40pF/25V

0201/C0G/0.50pF/25V

0201/C0G/0.60pF/25V

0201/C0G/0.70pF/25V

0201/C0G/0.80pF/25V

0201/C0G/0.90pF/25V

0201/C0G/1.0pF/25V

0201/C0G/0.30pF/25V

0201/C0G/0.40pF/25V

0201/C0G/0.50pF/25V

0201/C0G/0.60pF/25V

0201/C0G/0.70pF/25V

0201/C0G/0.80pF/25V

0201/C0G/0.90pF/25V

0201/C0G/1.0pF/25V

10 0201/C0G/1.1pF/25V

11 0201/C0G/1.2pF/25V

12 0201/C0G/1.3pF/25V

13 0201/C0G/1.5pF/25V

14 0201/C0G/1.6pF/25V

15 0201/C0G/1.8pF/25V

16 0201/C0G/2.0pF/25V

17 0201/C0G/2.2pF/25V

18 0201/C0G/2.4pF/25V

19 0201/C0G/2.7pF/25V

20 0201/C0G/3.0pF/25V

21 0201/C0G/3.3pF/25V

22 0201/C0G/3.6pF/25V

23 0201/C0G/3.9pF/25V

24 0201/C0G/4.0pF/25V

25 0201/C0G/4.3pF/25V

26 0201/C0G/4.7pF/25V

27 0201/C0G/5.0pF/25V

28 0201/C0G/5.1pF/25V

29 0201/C0G/5.6pF/25V

30 0201/C0G/6.0pF/25V

31 0201/C0G/6.2pF/25V

32 0201/C0G/6.8pF/25V

33 0201/C0H/7.0pF/25V

34 0201/C0H/7.5pF/25V

35 0201/C0H/8.0pF/25V

36 0201/C0H/8.2pF/25V

37 0201/C0H/9.0pF/25V

38 0201/C0H/9.1pF/25V

39 0201/C0H/10pF/25V

40 0201/C0H/12pF/25V

41 0201/C0H/15pF/25V

42 0201/C0H/18pF/25V

43 0201/C0H/20pF/25V

44 0201/C0G/22pF/6.3V

45 0201/C0G/27pF/6.3V

46 0201/C0G/33pF/6.3V

10 0201/C0G/1.1pF/25V

11 0201/C0G/1.2pF/25V

12 0201/C0G/1.3pF/25V

13 0201/C0G/1.5pF/25V

14 0201/C0G/1.6pF/25V

15 0201/C0G/1.8pF/25V

16 0201/C0G/2.0pF/25V

17 0201/C0G/2.2pF/25V

18 0201/C0G/2.4pF/25V

19 0201/C0G/2.7pF/25V

20 0201/C0G/3.0pF/25V

21 0201/C0G/3.3pF/25V

22 0201/C0G/3.6pF/25V

23 0201/C0G/3.9pF/25V

24 0201/C0G/4.0pF/25V

25 0201/C0G/4.3pF/25V

26 0201/C0G/4.7pF/25V

27 0201/C0G/5.0pF/25V

28 0201/C0G/5.1pF/25V

29 0201/C0G/5.6pF/25V

30 0201/C0G/6.0pF/25V

31 0201/C0G/6.2pF/25V

32 0201/C0G/6.8pF/25V

33 0201/C0H/7.0pF/25V

34 0201/C0H/7.5pF/25V

35 0201/C0H/8.0pF/25V

36 0201/C0H/8.2pF/25V

37 0201/C0H/9.0pF/25V

38 0201/C0H/9.1pF/25V

39 0201/C0H/10pF/25V

40 0201/C0H/12pF/25V

41 0201/C0H/15pF/25V

42 0201/C0H/18pF/25V

43 0201/C0H/20pF/25V

44 0201/C0G/22pF/6.3V

45 0201/C0G/27pF/6.3V

46 0201/C0G/33pF/6.3V

NOTE: For Ceramic Chip Capacitors, dashes are part of

the part number and must be included when placing

an order.

6

G-06-F

C-29-C

18 – Innovator in Electronics

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High Frequency Ceramic Capacitors

GJM Design Engineering Kits

General Ceramic Chip Capacitors

0402 (50 VDC)

N

Better Q and low ESR at VHF, UHF and microwave frequencies.

N 0402 size with Copper inner electrode.

N Tight tolerance available.

[W] = +/-0.05pF for 5pF & under [B] = +/-0.1pF for under 10pF

[C] = +/-0.25pF for under 10pF

[F] = +/-1% for 10pF & over [G] = +/-2% for 10pF & over

N Low power consumption, yield ratio improvement due to the

better Q or lower ESR.

N GJM series is suited to VCO or PA module applications.

N GJM series is offered with a Ni barrier termination plated with

Matte Tin (Sn), and is RoHS compliant.

GJM15-KIT––––––––E (Standard Tolerance)

GJM15-KIT-TTOL–––E (Tight Tolerance)

No. Description

Murata Global P/N

Qty.

20

No. Description

Murata Global P/N

Qty.

20

1

2

3

4

5

6

7

8

9

0402/C0G/0.10pF/50V

GJM1555C1HR10BB01

GJM1555C1HR20BB01

GJM1555C1HR30BB01

GJM1555C1HR40BB01

GJM1555C1HR50BB01

GJM1555C1HR60BB01

GJM1555C1HR70BB01

GJM1555C1HR80BB01

GJM1555C1HR90BB01

GJM1555C1H1R0CB01

GJM1555C1H1R1CB01

GJM1555C1H1R2CB01

GJM1555C1H1R3CB01

GJM1555C1H1R5CB01

GJM1555C1H1R6CB01

GJM1555C1H1R8CB01

GJM1555C1H2R0CB01

GJM1555C1H2R2CB01

GJM1555C1H2R4CB01

GJM1555C1H2R7CB01

GJM1555C1H3R0CB01

GJM1555C1H3R3CB01

GJM1555C1H3R6CB01

GJM1555C1H3R9CB01

GJM1555C1H4R0CB01

GJM1555C1H4R3CB01

GJM1555C1H4R7CB01

GJM1555C1H5R0CB01

GJM1555C1H5R1DB01

GJM1555C1H5R6DB01

GJM1555C1H6R0DB01

GJM1555C1H6R2DB01

GJM1555C1H6R8DB01

GJM1555C1H7R0DB01

GJM1555C1H7R5DB01

GJM1555C1H8R0DB01

GJM1555C1H8R2DB01

GJM1555C1H9R0DB01

GJM1555C1H9R1DB01

GJM1555C1H100JB01

GJM1555C1H120JB01

GJM1555C1H150JB01

GJM1555C1H180JB01

GJM1555C1H200JB01

1

2

3

4

5

6

7

8

9

0402/C0G/0.10pF/50V

GJM1555C1HR10WB01

GJM1555C1HR20WB01

GJM1555C1HR30WB01

GJM1555C1HR40WB01

GJM1555C1HR50WB01

GJM1555C1HR60WB01

GJM1555C1HR70WB01

GJM1555C1HR80WB01

GJM1555C1HR90WB01

GJM1555C1H1R0BB01

GJM1555C1H1R1BB01

GJM1555C1H1R2BB01

GJM1555C1H1R3BB01

GJM1555C1H1R5BB01

GJM1555C1H1R6BB01

GJM1555C1H1R8BB01

GJM1555C1H2R0BB01

GJM1555C1H2R2BB01

GJM1555C1H2R4BB01

GJM1555C1H2R7BB01

GJM1555C1H3R0BB01

GJM1555C1H3R3BB01

GJM1555C1H3R6BB01

GJM1555C1H3R9BB01

GJM1555C1H4R0BB01

GJM1555C1H4R3BB01

GJM1555C1H4R7BB01

GJM1555C1H5R0BB01

GJM1555C1H5R1CB01

GJM1555C1H5R6CB01

GJM1555C1H6R0CB01

GJM1555C1H6R2CB01

GJM1555C1H6R8CB01

GJM1555C1H7R0CB01

GJM1555C1H7R5CB01

GJM1555C1H8R0CB01

GJM1555C1H8R2CB01

GJM1555C1H9R0CB01

GJM1555C1H9R1CB01

GJM1555C1H100GB01

GJM1555C1H120GB01

GJM1555C1H150GB01

GJM1555C1H180GB01

GJM1555C1H200GB01

0402/C0G/0.20pF/50V

0402/C0G/0.30pF/50V

0402/C0G/0.40pF/50V

0402/C0G/0.50pF/50V

0402/C0G/0.60pF/50V

0402/C0G/0.70pF/50V

0402/C0G/0.80pF/50V

0402/C0G/0.90pF/50V

0402/C0G/0.20pF/50V

0402/C0G/0.30pF/50V

0402/C0G/0.40pF/50V

0402/C0G/0.50pF/50V

0402/C0G/0.60pF/50V

0402/C0G/0.70pF/50V

0402/C0G/0.80pF/50V

0402/C0G/0.90pF/50V

10 0402/C0G/1.0pF/50V

11 0402/C0G/1.1pF/50V

12 0402/C0G/1.2pF/50V

13 0402/C0G/1.3pF/50V

14 0402/C0G/1.5pF/50V

15 0402/C0G/1.6pF/50V

16 0402/C0G/1.8pF/50V

17 0402/C0G/2.0pF/50V

18 0402/C0G/2.2pF/50V

19 0402/C0G/2.4pF/50V

20 0402/C0G/2.7pF/50V

21 0402/C0G/3.0pF/50V

22 0402/C0G/3.3pF/50V

23 0402/C0G/3.6pF/50V

24 0402/C0G/3.9pF/50V

25 0402/C0G/4.0pF/50V

26 0402/C0G/4.3pF/50V

27 0402/C0G/4.7pF/50V

28 0402/C0G/5.0pF/50V

29 0402/C0G/5.1pF/50V

30 0402/C0G/5.6pF/50V

31 0402/C0G/6.0pF/50V

32 0402/C0G/6.2pF/50V

33 0402/C0G/6.8pF/50V

34 0402/C0G/7.0pF/50V

35 0402/C0G/7.5pF/50V

36 0402/C0G/8.0pF/50V

37 0402/C0G/8.2pF/50V

38 0402/C0G/9.0pF/50V

39 0402/C0G/9.1pF/50V

40 0402/C0G/10pF/50V

41 0402/C0G/12pF/50V

42 0402/C0G/15pF/50V

43 0402/C0G/18pF/50V

44 0402/C0G/20pF/50V

10 0402/C0G/1.0pF/50V

11 0402/C0G/1.1pF/50V

12 0402/C0G/1.2pF/50V

13 0402/C0G/1.3pF/50V

14 0402/C0G/1.5pF/50V

15 0402/C0G/1.6pF/50V

16 0402/C0G/1.8pF/50V

17 0402/C0G/2.0pF/50V

18 0402/C0G/2.2pF/50V

19 0402/C0G/2.4pF/50V

20 0402/C0G/2.7pF/50V

21 0402/C0G/3.0pF/50V

22 0402/C0G/3.3pF/50V

23 0402/C0G/3.6pF/50V

24 0402/C0G/3.9pF/50V

25 0402/C0G/4.0pF/50V

26 0402/C0G/4.3pF/50V

27 0402/C0G/4.7pF/50V

28 0402/C0G/5.0pF/50V

29 0402/C0G/5.1pF/50V

30 0402/C0G/5.6pF/50V

31 0402/C0G/6.0pF/50V

32 0402/C0G/6.2pF/50V

33 0402/C0G/6.8pF/50V

34 0402/C0G/7.0pF/50V

35 0402/C0G/7.5pF/50V

36 0402/C0G/8.0pF/50V

37 0402/C0G/8.2pF/50V

38 0402/C0G/9.0pF/50V

39 0402/C0G/9.1pF/50V

40 0402/C0G/10pF/50V

41 0402/C0G/12pF/50V

42 0402/C0G/15pF/50V

43 0402/C0G/18pF/50V

44 0402/C0G/20pF/50V

NOTE: For Ceramic Chip Capacitors, dashes are part of

the part number and must be included when placing

an order.

Innovator in Electronics – 19

C-29-C

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型号：	GJM0335C1ER40BB01D
厂家：	muRata
描述：	Application Specifi c Capacitors High Frequency Ceramic Capacitors 应用Specifi C电容高频陶瓷电容
文件：	总14页 (文件大小：2152K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

GJM0335C1ER40BB01D [MURATA]

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