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Temperature

Compensating Type

High Dielectric Type

7 Operational Life

The measured and observed characteristics should satisfy the

Apply 200% of the rated voltage for 1000

±

12 hours at 125

±

3

(for

specifications in the following table.

Δ C/R7), 150

±

3

(for 5G/L8/R9).

Appearance

No marking defects

Set for 24

±

2 hours at room temperature, then measure.

Capacitance

Within ±3.0% or ±0.30pF

R7/L8/R9: Within ±12.5%

The charge/discharge current is less than 50mA.

Change

(Whichever is larger)

Q/D.F.

30pFmin. : Q

350

R7/L8 : W.V.: 25Vmin.: 0.035 max.

 Initial measurement for high dielectric constant type.

10pF and over, 30pF and below:

(GCM155R71H 562-223: 0.05max)

Apply 200% of the rated DC voltage for one hour at the maximun 

Q

275+5C/2

            W.V.: 16V/10V : 0.05 max.

operating temperature 

±

3

. Remove and set for 24

±

2 hours at

10pFmax.: Q 

200+10C

R9 : 0.075max.

room temperature. Perform initial measurement.

C: Nominal Capacitance(pF)

I.R.

More than 1,000M

Ω  or 50Ω

F

(Whichever is smaller)

8 External Visual

No defects or abnormalities

Visual inspection

9 Phisical Dimension

Within the specified dimensions

Using calipers

10 Resistance to 

Appearance

No marking defects

Per MIL-STD-202 Method 215

Solvents

Capacitance

Within the specified tolerance

 Solvent 1 : 1 part (by volume) of isopropyl alcohol

Change

                   3 parts (by volume) of mineral spirits

Q/D.F.

30pFmin. : Q

1000

R7/L8 : W.V.: 25Vmin.: 0.025 max.

 Solvent 2 : Terpene defluxer

30pFmax.: Q 

400+20C

          W.V.: 16V/10V : 0.035 max.

 Solvent 3 : 42 parts (by volume) of water

C: Nominal Capacitance(pF)

R9 : 0.05max.

      1part (by volume) of propylene glycol monomethylether

      1 part (by volume) of monoethanolomine

I.R.

More than 10,000M

Ω  or 500Ω

F

(Whichever is smaller)

11 Mechanical 

Appearance

No marking defects

Three shocks in each direction should be applied along 3 mutually

Shock

Capacitance

Within the specified tolerance

perpendicular axes of the test specimen (18 shocks).

Change

The specified test pulse should be Half-sine and should have a

Q/D.F.

30pFmin. : Q

1000

R7/L8 : W.V.: 25Vmin.: 0.025 max.

duration :0.5ms, peak value:1500g and velocity change: 4.7m/s.

30pFmax.: Q 

400+20C

          W.V.: 16V/10V : 0.035 max.

C: Nominal Capacitance(pF)

R9 : 0.05max.

I.R.

More than 10,000M

Ω  or 500Ω

F

(Whichever is smaller)

12 Vibration

Appearance

No defects or abnormalities

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

Capacitance

Within the specified tolerance

manner and under the same conditions as (19). The capacitor

Change

should be subjected to a simple harmonic motion having a total

Q/D.F.

30pFmin. : Q

1000

R7/L8 : W.V.: 25Vmin.: 0.025 max.

amplitude of 1.5mm, the frequency being varied uniformly between

30pFmax.: Q 

400+20C

           W.V.: 16V/10V : 0.035 max.

the approximate limits of 10 and 2000Hz. The frequency range, from

C: Nominal Capacitance(pF)

R9 : 0.05max.

10 to 2000Hz and return to 10Hz, should be traversed in 

approximately 20 minutes. This motion should be applied for 12 

I.R.

More than 10,000M

Ω  or 500Ω

F

items in each 3 mutually perpendicular directions (total of 36 times).

(Whichever is smaller)

13 Resistance to

The measured and observed characteristics should satisfy the

Immerse the capacitor in a eutectic solder solution at 260

±

5

 for

Soldering Heat

specifications in the following table.

10

±

1 seconds. Set at room temperature for 24

±

2 hours, then

Appearance

No marking defects

measure.

Capacitance

Within the specified tolerance

Change

 Initial measurement for high dielectric constant type

Q/D.F.

30pFmin. : Q

1000

R7/L8 : W.V.: 25Vmin.: 0.025 max.

Perform a heat treatment at 150+0/-10 

 for one hour and then set

30pFmax.: Q 

400+20C

          W.V.: 16V/10V : 0.035 max.

for 24

±

2 hours at room temperature.

C: Nominal Capacitance(pF)

R9 : 0.05max.

Perform the initial measurement.

I.R.

More than 10,000M

Ω  or 500Ω

F

(Whichever is smaller)

AEC-Q200 Murata Standard Specification and Test Methods

No

AEC-Q200 Test Item

AEC-Q200 Test Method

Specification.

JEMCGS-0363S

3

Содержание GCM21BR71H104KA37 Series

Страница 1: ...55 to 125 C 15 to 15 55 to 125 C 25 C 3 Temperature Characteristics Public STD Code X7R EIA Specifications and Test Methods Operationg Temp Range Temp coeff or Cap Change 5 Nominal Capacitance 6 Capacitance Tolerance 50 Vdc 0 7 min 2 T 1 25 0 15 This product specification is applied to Chip Monolithic Ceramic Capacitor used for Automotive Electronic equipment 1 1 L 2 0 0 15 1 2 W 1 25 0 15 e L f18...

Страница 2: ...sistance The measured and observed characteristics should satisfy the Apply the 24 hour heat 25 to 65 and humidity 80 to 98 specifications in the following table treatment shown below 10 consecutive times Appearance No marking defects Set for 24 2 hours at room temperature then measure Capacitance Within 3 0 or 0 30pF R7 L8 R9 Within 12 5 Change Whichever is larger Q D F 30pFmin Q 350 R7 L8 W V 25...

Страница 3: ... perpendicular axes of the test specimen 18 shocks Change The specified test pulse should be Half sine and should have a Q D F 30pFmin Q 1000 R7 L8 W V 25Vmin 0 025 max duration 0 5ms peak value 1500g and velocity change 4 7m s 30pFmax Q 400 20C W V 16V 10V 0 035 max C Nominal Capacitance pF R9 0 05max I R More than 10 000MΩ or 500Ω F Whichever is smaller 12 Vibration Appearance No defects or abno...

Страница 4: ...sin JIS K 5902 25 rosin in weight propotion Immerse in eutectic solder solution for 5 0 0 5 seconds at 235 5 c should be placed into steam aging for 8 hours 15 minutes After preheating immerse the capacitor in a solution of ethanol JIS K 8101 and rosin JIS K 5902 25 rosin in weight propotion Immerse in eutectic solder solution for 120 5 seconds at 260 5 17 Electrical Appearance No defects or abnor...

Страница 5: ...m and gree of defects such as heat shock C Nominal Capacitance pF R9 0 05max I R More than 10 000MΩ or 500Ω F Whichever is smaller in mm 20 Beam Load Test Destruction value should be exceed following one Place the capacitor in the beam load fixture as Fig 4 Chip L dimension 2 5mm max Apply a force Chip Length 2 5mm max Chip L dimension 3 2mm max Chip Length 3 2mm min Speed supplied the Stress Load...

Страница 6: ...p Temperature Within the specified tolerance 1 3 and 5 by the cap value in step 3 Coefficent Table A Capacitance Within 0 2 or 0 05 pF Drift Whichever is larger 2 High Dielectric Constant Type The ranges of capacitance change compared with the above 25 value over the temperature ranges shown in the table should be within the specified ranges Initial measurement for high dielectric constant type Pe...

Страница 7: ... 3000 10000 N 2000 8000 R D E 1000 4000 M 1000 5000 N R 1000 4000 E 500 2000 M 1000 5000 N R 1000 4000 1 2 Dimensions of Tape 1 GC 03 15 W8P2 CODE D E J F in mm Code GC 03 GC 15 A 3 0 37 0 65 B 3 0 67 1 15 3 Nominal value t 0 5 max 0 8 max 2 GC 03 15 W8P1 CODE W in mm Code GC 03 GC 15 A 0 37 0 65 B 0 67 1 15 Nominal value t 0 5 max 0 8 max Package GC Type GC 55 Paper Tape Type GC 21 GC 31 GC 32 GC...

Страница 8: ... 5 GC 43 55 in mm Code GC 43 GC 55 A 2 3 6 5 2 2 Nominal value B 2 4 9 6 1 Package GC Type 4 0 0 1 4 0 0 1 2 0 0 1 φ1 5 0 1 0 1 75 0 1 8 0 0 3 3 5 0 05 1 1 max A B 8 0 0 3 4 0 0 1 3 5 0 05 1 75 0 1 A B 2 0 0 1 φ1 5 0 1 0 1 7 max T 1 25mm 2 5 max T 1 35 1 6mm 3 0 max T 1 8 2 0mm 3 7 max T 2 5mm 4 0 0 1 0 25 0 1 T 2 0mm 0 3 0 1 T 2 5mm φ1 5 0 1 0 4 0 0 1 8 0 0 1 φ1 5 0 2 0 12 0 0 3 5 5 0 1 1 75 0 1 ...

Страница 9: ...r Chip As specified in 1 2 Base Tape As specified in 1 2 Bottom Tape Thickness 0 05 Only a bottom tape existence W w1 GC 32 max 16 5 max 10 1 5 GC 43 55 20 5 max 14 1 5 φ180 0 3 0 φ330 2 0 φ50 min φ13 0 5 2 0 0 5 Chip in mm Fig 1 Package Chips Fig 2 Dimensions of Reel Fig 3 Taping Diagram JEMCGP 01894A 9 ...

Страница 10: ... no fuzz in the cavity 1 10 Break down force of top tape 5N min Break down force of bottom tape 5N min Only a bottom tape existence 1 11 Reel is made by resin and appeaser and dimension is shown in Fig 2 There are possibly to change the material and dimension due to some impairment 1 12 Peeling off force 0 1N to 0 6N in the direction as shown below GC 03 0 05N 0 5N 1 13 Label that show the custome...

Страница 11: ...the following conditions Temperature of 5 to 40 and a Relative Humidity of 20 to 70 1 Sunlight dust rapid temperature changes corrosive gas atmosphere or high temperature and humidity conditions during storage may affect the solderability and the packaging performance Please use product within six months of receipt 2 Please confirm solderability before using after six months Store the capacitors w...

Страница 12: ...citors using your actual appliances at the intended environment and operating conditions Typical temperature characteristics Char R6 X5R Typical temperature characteristics Char R7 X7R Typical temperature characteristics Char F5 Y5V 2 Measurement of Capacitance 1 Measure capacitance with the voltage and the frequency specified in the product specifications 1 1 The output voltage of the measuring e...

Страница 13: ... Pulse voltage E Maximum possible applied voltage 1 2 Influence of overvoltage Overvoltage that is applied to the capacitor may result in an electrical short circuit caused by the breakdown of the internal dielectric layers The time duration until breakdown depends on the applied voltage and the ambient temperature 4 Applied Voltage and Self heating Temperature 1 When the capacitor is used in a hi...

Страница 14: ...s such as their aging voltage and temperature characteristics And check capacitors using your actual appliances at the intended environment and operating conditions 2 The capacitance values of high dielectric constant type capacitors change depending on the AC voltage applied Please consider the AC voltage characteristics when selecting a capacitor to be used in a AC circuit AC voltage characteris...

Страница 15: ...are piled up or handled the corners of another printed circuit board should not be allowed to hit the capacitor in order to avoid a crack or other damage to the capacitor Soldering and Mounting 1 Mounting Position 1 Confirm the best mounting position and direction that minimizes the stress imposed on the capacitor during flexing or bending the printed circuit board 1 1 Choose a mounting position t...

Страница 16: ...essive forces are not applied to the capacitors 1 1 In mounting the capacitors on the printed circuit board any bending force against them shall be kept to a minimum to prevent them from any bending damage or cracking Please take into account the following precautions and recommendations for use in your process 1 Adjust the lowest position of the pickup nozzle so as not to bend the printed circuit...

Страница 17: ...itions Infrared Reflow Vapor Reflow Peak Temperature 230 250 230 240 240 260 Atmosphere Air Air Air or N2 Pb Sn Solder Sn 37Pb Lead Free Solder Sn 3 0Ag 0 5Cu In case of repeated soldering the accumulated soldering time must be within the range shown above 4 Optimum Solder Amount for Reflow Soldering 4 1 Overly thick application of solder paste results in a excessive solder fillet height This make...

Страница 18: ...e to maintain the temperature difference ΔT between the component and solvent within the range shown in the table 2 4 Do not apply flow soldering to chips not listed in Table 2 Table 2 In case of repeated soldering the accumulated soldering time must be within the range shown above Recommended Conditions Pb Sn Solder Lead Free Solder 90 110 100 120 240 250 250 260 Air N2 Pb Sn Solder Sn 37Pb Lead ...

Страница 19: ... 37Pb Lead Free Solder Sn 3 0Ag 0 5Cu 4 Optimum Solder amount when re working with a Soldering lron 4 1 In case of sizes smaller than 0603 GC 03 15 18 the top of the solder fillet should be lower than 2 3 s of the thickness of the component or 0 5mm whichever is smaller In case of 0805 and larger sizes GC 21 31 32 the top of the solder fillet should be lower than 2 3 s of the thickness of the comp...

Страница 20: ...ormance of a capacitor after mounting on the printed circuit board 1 1 Avoid bending printed circuit board by the pressure of a test pin etc The thrusting force of the test probe can flex the PCB resulting in cracked chips or open solder joints Provide support pins on the back side of the PCB to prevent warping or flexing 1 2 Avoid vibration of the board by shock when a test pin contacts a printed...

Страница 21: ...jig and from the front side of board as below the capacitor may form a crack caused by the tensile stress applied to capacitor Outline of jig 2 Example of a suitable machine An outline of a printed circuit board cropping machine is shown as follows Along the lines with the V grooves on printed circuit board the top and bottom blades are aligned to one another when cropping the board The misalignme...

Страница 22: ...at can cause condensation 2 Others 2 1 In an Emergency 1 If the equipment should generate smoke fire or smell immediately turn off or unplug the equipment If the equipment is not turned off or unplugged the hazards may be worsened by supplying continuous power 2 In this type of situation do not allow face and hands to come in contact with the capacitor or burns may be caused by the capacitors high...

Страница 23: ... capacitors 1 1 The capacitor when used in the above unsuitable operating environments may deteriorate due to the corrosion of the terminations and the penetration of moisture into the capacitor 1 2 The same phenomenon as the above may occur when the electrodes or terminals of the capacitor are subject to moisture condensation 1 3 The deterioration of characteristics and insulation resistance due ...

Страница 24: ...s and dimensions into consideration to eliminate the possibility of excess solder fillet height 1 2 It is possible for the chip to crack by the expansion and shrinkage of a metal board Please contact us if you want to use our ceramic capacitors on a metal board such as Aluminum Pattern Forms Lateral Mounting Prohibited Correct Notice Placing Close to Chassis Placing of Chip Components and Leaded C...

Страница 25: ...ow Soldering Method Dimensions Part Number GC 31 3 2 1 6 2 2 2 6 1 0 1 1 1 0 1 4 in mm Table 2 Reflow Soldering Method Dimensions Part Number GC 31 3 2 1 6 2 2 2 4 0 8 0 9 1 0 1 4 GC 32 3 2 2 5 2 0 2 4 1 0 1 2 1 8 2 3 in mm GC 15 GC 18 GC 21 0 6 0 8 2 0 1 25 1 0 1 2 0 9 1 0 0 8 1 1 GC 18 Chip L W GC 03 c 0 6 0 3 0 2 0 3 0 2 0 35 0 2 0 4 GC 21 1 6 0 8 0 6 1 0 Notice a b Chip L W 0 6 0 7 0 6 0 8 a b...

Страница 26: ...trol curing temperature and time in order to prevent insufficient hardening 4 Flux Application 1 An excessive amount of flux generates a large quantity of flux gas which can cause a deterioration of Solderability So apply flux thinly and evenly throughout A foaming system is generally used for flow soldering 2 Flux containing too a high percentage of halide may cause corrosion of the outer electro...

Страница 27: ...an under coating to buffer against the stress 2 Select a resin that is less hygroscopic Using hygroscopic resins under high humidity conditions may cause the deterioration of the insulation resistance of a capacitor An epoxy resin can be used as a less hygroscopic resin Others 1 Transportation 1 The performance of a capacitor may be affected by the conditions during transportation 1 1 The capacito...

Страница 28: ...on 3 We consider it not appropriate to include any terms and conditions with regard to the business transaction in the product specifications drawings or other technical documents Therefore if your technical documents as above include such terms and conditions such as warranty clause product liability clause or intellectual property infringement liability clause they will be deemed to be invalid N...

Страница 29: ...Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery Lifecycle Information Murata GCM21BR71H104KA37K GCM21BR71H104KA37L ...

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