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C1808P821J1G4C中文资料

?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300

CERAMIC CHIP CAPACITORS

For Class II and III dielectrics (including X7R,X5R, Z5U & Y5V), the first symbol indicates the lower limit of the operating temperature range, the second indicates the upper limit of the operating temperature range, and the third indicates the

maximum capacitance change allowed over the operating temperature range. EIA type designa-tion codes for Class II and III dielectrics are shown in Table 2. Capacitance Tolerance:

See tables on pages 73-76.Capacitance:

Within specified tolerance when measured per Table 3.

The standard unit of capacitance is the farad.For practical capacitors, capacitance is usually expressed in microfarads (10 -6farad), nanofarads -9farad), or picofarads (10 -12farad). Standard measurement conditions are listed in Table 3 -Specified Electrical Limits.

Like all other practical capacitors, multilayer ceramic capacitors also have resistance and inductance. A simplified schematic for the single frequency equivalent circuit is shown in Figure 1.At high frequency more complex models apply -see KEMET SPICE models at https://www.wendangku.net/doc/eb8010876.html, for details.

Table 1 – EIA Temperature Characteristic

Codes for Class I Dielectrics

Significant Figure of Temperature Coefficient Multiplier Applied to Temperature Coefficient Tolerance of

Temperature

Coefficient

PPM per Degree C Letter Symbol Multi-plier Number Symbol Letter

Symbol PPM per Degree C C B A M P -1-10-100-1000-1000001234± 30± 60± 120± 250± 500G

H J K L Table 2 – EIA Temperature Characteristic Codes for

Class II & III Dielectrics

Low Temperature High Temperature Rating

Maximum Capacitance Shift Letter Symbol Degree Celsius Number Symbol Letter

Symbol Percent Z Y X +45C +65C +85C +105C +125C +150C +200C 2456789± 1.0%± 1.5%± 2.2%± 3.3%± 4.7%± 7.5%± 10.0%± 15.0%± 22.0%+ 22/-33%+22/-56%+22/-82%A B

C D

E F

P R

S T

U V

EIA Class II II II II II II II II III III III III KEMET supplies the C0G characteristic.

KEMET supplies the X7R, X5R, Z5U and Y5V characteristics.

C e r a m i c S u r f a c e M o u n t

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?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300

CERAMIC CHIP CAPACITORS

Dissipation Factor:

Measured under same conditions as capacitance. (See Table 3)

Dissipation factor (DF) is a measure of the losses in a capacitor under AC application. It is the ratio of the equivalent series resistance to the capacitive reac-tance, and is usually expressed in percent. It is normal-ly measured simultaneously with capacitance, and under the same conditions.The vector diagram below illustrates the relationship between DF, ESR and impedance. The reciprocal of the dissipation factor is called the “Q ” or quality factor. For convenience, the “Q ” factor is often used for very low values of dissipa-tion factor especially when measured at high frequen-cies. DF is sometimes called the “loss tangent ” or “tan-gent ?”, as shown in Figure 2.

Impedance:

Since the parallel resistance (IR) is normally very high, the total impedance of the capacitor can be approximated by:

The variation of a capacitor's impedance with fre-quency determines its effectiveness in many applica-tions. At high frequency more detailed models apply -see KEMET SPICE models for such instances.

Insulation Resistance:

Measured after 2 minutes electrification at 25°C and rated voltage: Limits per Table 3.

Insulation Resistance is the measure of a capacitor to resist the flow of DC leakage current. It is sometimes referred to as “leakage resistance ”. Insulation resis-tance (IR) is the DC resistance measured across the terminals of a capacitor, represented by the parallel resistance (IR) shown in Figure 1. For a given dielectric type, electrode area increases with capacitance, result-ing in a decrease in the insulation resistance.Consequently, insulation resistance limits are usually specified as the “RC ” (IR x C) product, in terms of ohm-farads or megohm-micro-farads. The insulation resis-tance for a specific capacitance value is determined by dividing this product by the capacitance. However, as the nominal capacitance values become small, the insulation resistance calculated from the RC product reaches values which are impractical. Consequently, IR specifications usually include both a minimum RC prod-uct and a maximum limit based on the IR calculated

Figure 1

C = Capacitance

ESR

ESL ESL = Equivalent Series Inductance

= Insulation Resistance ESR = Equivalent Series Resistance ESR x 100

DF(%) =X c

X c 2 π fC

Figure 2

O X c

ESR

Z =

ESR + (X L - X C

)

Where :Z = Total Impedance

ESR = Equivalent Series Resistance

X C

= Capacitive Reactance = 1/(2 πfC)X L

= Inductive Reactance = (2 πf ) (ESL)Figure 3

Table 3 – Specified Electrical Limits

Parameter

Temperature Characteristics

C0G

X7R/X5R

Z5U Capacitance & Dissipation Factor: Measured at following

conditions:

C0G – 1kHz and 1 vrms if capacitance >1000 pF 1MHz and 1 vrms if capacitance ≤1000 pF

X7R/X5R/Y5V – 1kHz and 1 vrms* if capacitance ≤ 10 μF Y5V

Z5U – 1kHz and 0.5 vrms

DF Limits:50 - 200 volts –25 volts –16 volts –

6.3/10 volts –

Dielectric Strength: At 2.5 times rated DC voltage

Insulation Resistance (IR): At rated DC voltage, whichever of the two is smaller. To get IR limit, divide M ??μF value by the capacitance and compare to G ? limit. Select the lower of the two limits.

Temperature: Range, °C

0.10%0.10%---------------- 2.5%3.5%3.5%5.0% 2.5%

5.0%****

Pass Subsequent IR Test 1,000 M ? – μF or 100 G ?(100,000 M ?)

1,000 M ? – μF or 100 G ?(100,000 M ?)

100 M ? – μF or 10 G ?(10,000 M ?)

-55 to +125-55 to +125± 15%+10 to +85

5.0%7.0%7.0%10.0%

100 M ? – μF or 10 G (≥16 volt)50 M ? – μF or 10G (≤10v)(10,000 M ?)

-30 to +854.0%4.0%-------

X7R/X5R/Y5V – 120Hz and 0.5 vrms if capacitance > 10 μF X7R:**X5R Cap DF

<25V <564 5.0% <25V ≥56410.0%268元器件交易网https://www.wendangku.net/doc/eb8010876.html,

from that value. For example, a typical IR specification might read “1,000 megohm-microfarads or 100 gigohms, whichever is less”. The DC leakage current may be calculated by dividing the applied voltage by the insulation resistance (Ohm's Law).

8.Dielectric Withstanding Voltage:

250% of rated voltage for 5 seconds with current lim-

ited to 50mA at 25°C. Limits per Table 3.

Dielectric withstanding voltage (DWV) is the peak DC voltage which a capacitor is designed to withstand without damage for short periods of time. All KEMET multilayer ceramic surface mount capacitors will with-stand a DC test voltage of 2.5 x the rated voltage for 60 seconds.

KEMET specification limits for all electrical character-istics at standard measurement conditions are shown in Table 3. Variations in these properties caused by changing conditions (temperature, voltage, frequency, and time) are covered in the following sections.

9.Aging Rate:

Maximum % Capacitance Loss/Decade Hour

C0G - 0%

X7R - 2.0%

X5R - 5.0%

Z5U - 7.0%

Y5V - 7.0%

Actual rates may be lower. Consult factory for

details.

The capacitance of Class II and III dielectric changes with time as well as with temperature, voltage and fre-quency. The change with time is known as “aging”. It is caused by gradual realignment of the crystalline struc-ture of the ceramic dielectric material as it is cooled below its Curie temperature, which produces a loss of capacitance with time. The aging process is predictable and follows a logarithmic decay.

The aging process is reversible. If the capacitor is heated to a temperature above its Curie point for some period of time, de-aging will occur and the capacitor will regain the capacitance lost during the aging process.

The amount of de-aging depends on both the elevated temperature and the length of time at that temperature.

Exposure to 150°C for one-half hour is sufficient to return the capacitor to its initial value.

B ecause the capacitance changes rapidly immedi-

ately after de-aging, capacitance measurements are usually delayed for at least 24-48 hours after the de-aging process, which is often referred to as the “last heat”. In addition, manufacturers utilize the aging rates to set factory test limits which will bring the capacitance within the specified tolerance at some future time, to allow for customer receipt and use.

10.Effect of Temperature:

Both capacitance and dissipation factor are affected by variations in temperature. The maximum capacitance change with temperature is defined by the temperature characteristic.

However, this only defines an “envelope” bounded by the upper and lower operating temperatures and the minimum and maximum capacitance values. Within this “envelope”, the variation with temperature depends upon the specific dielectric formulation.

Insulation resistance decreases with increasing tem-perature. Typically, the insulation resistance limit at maximum rated temperature is 10% of the 25°C value.

11.Effect of Voltage:

Certain high dielectric constant ceramic capacitors may show variation in values of capacitance and dissi-pation factor with various levels of applied AC and DC voltages. Such variation is a natural characteristic of ceramic capacitors, and should be considered by the circuit designer.

In general, ceramic capacitors with the lowest dielec-tric constant (C0G or NP0) are extremely stable, and show little or no variation in capacitance and/or dissipa-tion factor. On the other hand, ceramic capacitors with the highest dielectric constant (Z5U & Y5V) may show significant variation, particularly in capacitance. Other dielectric formulations such as X7R and X5R will show less variation than Y5V, but more than C0G.

The application of AC voltages in the range of 10 to

20 VAC tends to increase the values of both the capaci-

tance and dissipation factor, while higher AC voltages tend to produce decreases in both.

However, the variation of capacitance with applied DC is the parameter of most interest to design engi-neers. Figure 8 shows typical variation of capacitance with applied DC voltage for some standard dielectrics.

As can be seen, the decrease in capacitance is greatest for the Y5V dielectric (the C0G is not plotted, since it would not have a perceptible capacitance nor dissipa-

tion factor change.)

More detailed modelling information on the effect of various voltages on specific capacitor ratings can be obtained by use of the KEMET SPICE models, available for free downloading at our website (https://www.wendangku.net/doc/eb8010876.html,).

12.Effect of Frequency:

Frequency affects both capacitance and dissipation factor. Typical curves for KEMET multilayer ceramic capacitors are shown in Figures 4, 5, 6 and 7.

The variation of impedance with frequency is an important consideration in the application of multilayer ceramic capacitors. Total impedance of the capacitor is

CERAMIC CHIP CAPACITORS

Figure 8 - Typical Variation of Capacitance with Applied DC Voltage

69C e r a m i c S u r f a c e M o u n t

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?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300

CERAMIC CHIP CAPACITORS

the vector summation of the capacitive reactance, the inductive reactance, and the ESR, as illustrated in Figure 2. As frequency increases, the capacitive reac-tance decreases. However, the series inductance (L)shown in Figure 1 produces some inductive reactance,which increases with frequency. At some frequency, the impedance ceases to be capacitive and becomes inductive. This point, at the bottom of the V-shaped impedance versus frequency curves, is the self-reso-nant frequency. At the self-resonant frequency, the reactance is zero, and the impedance consists of the ESR only. At high frequency more detailed models apply - See KEMET SPICE models for such instances.Typical impedance versus frequency curves for KEMET multilayer ceramic capacitors are shown in Figures 4, 5, 6 and 7.

ENVIRONMENTAL AND PHYSICAL

13.

Thermal Shock:

EIA-198, Method 202, Condition B (5 cycles -55°to + 125°C).

14.

Life Test:

EIA-198, Method 201, 1000 hours at 200%* of rated voltage at 125°C. (Except 85°C for Z5U ,Y5V & X5R ).15.

Humidity Test:

EIA-198, Method 206, ( Except 1000 hours,85°C,85% RH, Rated Voltage).

16.

Moisture Resistance:

EIA-198, Method 204, Condition B (20 cycles with 50 volts applied.

17.

Solderability:

EIA-198, Method 301 (245°, 5 secs, Sn62 solder)95% smooth solder on terminations. See page 14for recommended profiles.

18.

Resistance to Soldering Heat:

EIA-198, Method 302, Condition B (260°C, 10 sec-onds) no leaching of nickel barrier.19.

Terminal Strength:

EIA-198, Method 303, Condition D .

RELIABILITY

20.

A well constructed multilayer ceramic capacitor chip is extremely reliable and, for all practical purposes, has no wearout mechanism when used within the maximum voltage and temperature ratings. Most failures occur as a result of mechanical or thermal damage during mounting on the board, or during subsequent testing.Capacitor failure may also be induced by sustained operation at voltages that exceed the rated DC voltage,voltage spikes or transients that exceed the dielectric's voltage capability, sustained operation at temperatures above the maximum rated temperature, internal defects, or excessive temperature rise due to power

dissipation. As with any practical device, multilayer ceramic capacitors also possess an inherent, although low, failure rate when operated within rated conditions.The primary failure mode is by short-circuit or low insu-lation resistance, resulting from cracks or from dielectric breakdown at a defect site. KEMET monitors reliability with a periodic sampling program for selected values.Results are available in our FIT (Failure in Time) report for commercial chips.21.

Storage and Handling:

Ceramic chip capacitors should be stored in normal working environments. While the chips themselves are quite robust in other environments, solderability will be degraded by exposure to high temperatures, high humidity, corrosive atmospheres, and long term stor-age. In addition, packaging materials will be degraded by high temperature – reels may soften or warp, and tape peel force may increase. KEMET recommends that maximum storage temperature not exceed 40degrees C, and maximum storage humidity not exceed 70% relative humidity. In addition, temperature fluctua-tions should be minimized to avoid condensation on the parts, and atmospheres should be free of chlorine and sulfur bearing compounds. For optimized solder-ability, chip stock should be used promptly, preferably within 1.5 years of receipt.

MISAPPLICATION

22.

Ceramic capacitors, like any other capacitors, may fail if they are misapplied. Some misapplications include mechanical damage, such as impact or excessive flex-ing of the circuit board. Others include severe mounting or rework cycles that may also introduce thermal shock.Still others include exposure to excessive voltage, cur-rent or temperature. If the dielectric layer of the capaci-tor is damaged by misapplication, the circuit may fail.The electrical energy of the circuit can be released as heat, which may damage the circuit board and other components as well.

ADDITIONAL INFORMATION

23.

Detailed application information can be found in KEMET Engineering Bulletins.F-2100Surface Mount-Mounting Pad Dimensions and Considerations F-2102Reflow Soldering Process F-2105Wave Solder Process F-2103Surface Mount Repair

F-2110Capacitance Monitoring while Flex Testing F-2111

Ceramic Chip Capacitors “Flex Cracks” - Understanding and Solutions

For analysis of high frequency applications, KEMET has SPICE models of most chip capacitors. Models may be downloaded from KEMET’s website https://www.wendangku.net/doc/eb8010876.html,.

Additional information is also available - See your KEMET representative for details or post your questions to KEMET's homepage on the web https://www.wendangku.net/doc/eb8010876.html,.

*Note: 150% of rated voltage for selected high capacitance X5R values. Please contact factory.

See Table 4 on page 71 for limits.

See Table 4 on page 71 for limits.See Table 4 on page 71 for limits.元器件交易网https://www.wendangku.net/doc/eb8010876.html,

?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 PERFORMANCE CURVES EFFECT OF FREQUENCY

(See SPICE models for specific ratings.)

Impedance versus Frequency X7R Dielectric

Frequency (MHz)

0805104

1206104

0603103

0805103

1206103

FIGURE 5Impedance versus Frequency C0G Dielectric

Frequency (MHz)

FIGURE 4.TABLE 4 – ENVIRONMENTAL LIMITS

0.3% or ± 0.25 pf 0.3% or ± 0.25 pf 0.3% or ± 0.25 pf 0.3% or ± 0.25 pf 0.3% or ± 0.25 pf

10/10010/10010/10010/10010/100Hum/Moisture Cap Shift (% or pf,whichever is greater)Post Life/Hum/Moisture Resistance IR (G ? or ?F)

whichever is less

Post Life/Hum/Moisture Resistance

± 20%± 20%± 20%± 20%± 20%± 20%±20%±20%±20%±20%10/10010/10010/10010/10010/10010/10010/10010/10010/10010/100± 30%± 30%± 30%1/101/101/10± 30%± 30%± 30%± 30%± 30%1/101/101/101/101/5

*200 Volt limits not currently included in EIA-198.

CERAMIC CHIP CAPACITORS

Impedance versus Frequency Z5U/Y5V Dielectric

Impedance (Ohms)

Frequency (MHz)

0.1

FIGURE 6.10

0.1

0.01

0.001

0.1

100

1000

C0603C105K8P AC C0805C106K9P AC

Frequency (MHz)

C1206C105K8P AC C1206C106K8P

Impedance (Ohms)FIGURE 7. Impedence versus Frequency X5R Dielectric

C e r a m i c S u r f a c e M o u n t

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?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300

CERAMIC CHIP CAPACITORS

C 0805C 103K 5R A C*

CERAMIC SIZE CODE

SPECIFICATION C - Standard

CAPACITANCE CODE

Expressed in Picofarads (pF)

First two digits represent significant figures.Third digit specifies number of zeros. (Use 9

for 1.0 through 9.9pF. Use 8 for 0.5 through 0.99pF)(Example: 2.2pF = 229 or 0.50 pF = 508)CAPACITANCE TOLERANCE B –±0.10pF J –±5%C –±0.25pF K –±10%D –±0.5pF M –±20%F –±1%P – (GMV) – special order only G –±2%Z – +80%, -20%

DIMENSIONS—MILLIMETERS AND (INCHES)

CAPACITOR ORDERING INFORMATION ?C0G (NP0), X7R, X5R, Z5U and Y5V Dielectrics ?10, 16, 25, 50, 100 and 200 Volts

?Standard End Metalization: Tin-plate over nickel barrier

?Available Capacitance Tolerances: ±0.10 pF; ±0.25pF; ±0.5 pF; ±1%; ±2%; ±5%; ±10%; ±20%; and +80%-20%

?Tape and reel packaging per EIA481-1. (See page 92 for specific tape and reel information.) Bulk Cassette packaging (0402, 0603, 0805 only) per IEC60286-6 and EIAJ 7201.?RoHS Compliant

FEATURES

END METALLIZATION

C-Standard (Tin-plated nickel barrier)

FAILURE RATE LEVEL

A- Not Applicable

TEMPERATURE CHARACTERISTIC

Designated by Capacitance Change Over Temperature Range G – C0G (NP0) (±30 PPM/°C)R – X7R (±15%) (-55°C + 125°C)P– X5R (±15%) (-55°C + 85°C)

U – Z5U (+22%, -56%) (+10°C + 85°C)V – Y5V (+22%, -82%)(-30°C + 85°C)

VOLTAGE 1 - 100V 3 - 25V 2 - 200V 4 - 16V 5 - 50V 8 - 10V

* Part Number Example: C0805C103K5RAC (14 digits - no spaces)or

Solder Reflow

METRIC SIZE CODE (Ref only)

1005

16082012321632254532456456505664

EIA SIZE CODE

0402*

0603*0805*1206*1210*18121825*22202225

(Standard Chips - For

Military see page 87)

9 - 6.3V

7 - 4V EIA SIZE CODE

METRIC SIZE CODE

L - LENGTH W - WIDTH T

THICKNESS

B - BANDWIDTH S

SEPARATION minimum

MOUNTING TECHNIQUE 0201*06030.6 (.024) ± .03 (.001) 0.3 ± (.012) ± .03 (.001) 0.15 (.006) ± .05 (.002)N/A 0402*1005 1.0 (.04) ± .05 (.002)0.5 (.02) ± .05 (.002)0.20 (.008) -.40 (.016)0.3 (.012)06031608 1.6 (.063) ± .15 (.006)0.8 (.032) ± .15 (.006)0.35 (.014) ± .15 (.006)0.7 (.028)0805*2012 2.0 (.079) ± .20 (.008) 1.25 (.049) ± .20 (.008)0.50 (.02) ± .25 (.010)0.75 (.030)

1206*3216 3.2 (.126) ± .20 (.008) 1.6 (.063) ± .20 (.008)0.50 (.02) ± .25 (.010)N/A 1210*3225

3.2 (.126) ± .20 (.008) 2.5 (.098) ± .20 (.008)0.50 (.02) ± .25 (.010)N/A 18124532

4.5 (.177) ± .30 (.012) 3.2 (.126) ± .30 (.012)0.60 (.024) ± .35 (.014)N/A 1825*

4564 4.5 (.177) ± .30 (.012) 6.4 (.252) ± .40 (.016)0.60 (.024) ± .35 (.014)N/A 22205650 5.6 (.220) ± .40 (.016) 5.0 (.197) ± .40 (.016)0.60 (.024) ± .35 (.014)N/A 22255664 5.6 (.220) ± .40 (.016)

6.3 (.248) ± .40 (.016)

0.60 (.024) ± .35 (.014)

N/A

* Note: Indicates EIA Preferred Case Sizes (Tightened tolerances apply for 0402, 0603, and 0805 packaged in bulk bassette, see page 96.)+ For extended value 1210 case size - solder reflow only.

Solder Wave +

Solder Reflow

See page 78

for thickness dimensions.

Solder Reflow

?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300

NOTE: For non-standard capacitance values or voltages, contact your local KEMET sales representative.CERAMIC CHIP/STANDARD

0402, 0603, 0805, 1206

See page 78 for Thickness Code Reference Chart.

? Greater or equal to J (5%) tolerance available. ? J Tolerance Only; ^ = D Tolerance Only ~ = J,K,M Tolerance Only

C e r a m i c S u r f a c e M o u n t

EF EH

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CERAMIC CHIP/STANDARD

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?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300 * Capacitance tolerance K or M. Contact your local KEMET Sales Rep for J tolerance availablity. + Reflow Only

NOTE: For non-standard capacitance values or voltages, contact your local KEMET sales representative.50 Volt Ceramic Chips can be used for 63 volt applications.

# Extended Range Values – Cap and DF measured @ 0.5 Vrms.

Improved product with higher ratings and tighter capacitance tolerance product may be substituted within the same size (length, width, and thickness) at KEMET's option.Reels with such substitutions will be marked with the improved KEMET part numbers.

CERAMIC CHIP/STANDARD

X7R CAPACITANCE RANGE – 1210, 1812, 1825, 2220, 2225

50 Volt Ceramic Chips can be used for 63 volt applications.* EIA preferred chip sizes + Reflow only

See page 78 for Thickness Code Reference Chart

CAPACITANCE RANGE

50V 6.3V 10V 16V 25V 50V 6.3V 10V 16V

25V 50V

DC EB DC EB DD EB DD EB

DD EB EC EC FD+

FD+EB

FD+FD+EC FD+FD+EB FD+FD+EG EG EG EG FH+FH+

EC EC EC FD+ED ED ED FD+EF EF EF FE+EJ EJ EM FG+FG+FG+

EJ EJ FH+FH+FH+

EJ EH FH+FH+FP+

FD+FD+

EH FT+FT+

C1210*

C1206*

C e r a m i c S u r f a c e M o u n t

6.3V 10V 16V 25V 50V 100V 200V 25V 50V 100V 200V 50V 100V 200V 50V 100V 200V 50V 100V 200V 2,200222K,M,J FB FB FB FB FB FB FB 2,700272K,M,J FB FB FB FB FB FB FB 3,300332K,M,J FB FB FB FB FB FB FB 3,900392K,M,J FB FB FB FB FB FB FB 4,700472K,M,J FB FB FB FB FB FB FB 5,600562K,M,J FB FB FB FB FB FB FB 6,800682K,M,J FB FB FB FB FB FB FB GB GB GB GB 8,200822K,M,J FB FB FB FB FB FB FB GB GB GB GB 10,000103K,M,J FB FB FB FB FB FB FB GB GB GB GB 12,000123K,M,J FB FB FB FB FB FB FB GB GB GB GB 15,000153K,M,J FB FB FB FB FB FB FB GB GB GB GB 18,000183K,M,J FB FB FB FB FB FB FB GB GB GB GB 22,000223K,M,J FB FB FB FB FB FB FB GB GB GB GB HB HB HB 27,000273K,M,J FB FB FB FB FB FB FB GB GB GB GB HB HB HB 33,000333K,M,J FB FB FB FB FB FB FB GB GB GB GB HB HB HB 39,000393K,M,J FB FB FB FB FB FB FB GB GB GB GB HB HB HB 47,000473K,M,J FB FB FB FB FB FB FC GB GB GB GB HB HB HB KC KC KC 56,000563K,M,J FB FB FB FB FB FB FC GB GB GB GB HB HB HB KC KC KC 68,000683K,M,J FB FB FB FB FB FB FC GB GB GB GB HB HB HB KC KC KC 82,000823K,M,J FB FB FB FB FC FC FF GB GB GB GB HB HB HB KC KC KC 100,000104K,M,J FB FB FB FB FB FD FG GB GB GB GB HB HB HB KC KC KC 120,000124K,M,J FB FB FB FB FB FD GB GB GB GB HB HB HB KC KC KC 150,000154K,M,J FC FC FC FC FC FD GB GB GB GE HB HB HB KC KC KC 180,000184K,M,J FC FC FC FC FC FD GB GB GB GG HB HB HB KC KC KC 220,000224K,M,J FC FC FC FC FC FD GB GB GB HB HB HB KC KC KC 270,000274K,M,J FC FC FC FC FC FD GB GB GH HB HB HB JC JC JC KB KC KC 330,000334K,M,J FD FD FD FD FD FD GB GB GH HB HB HB JC JC JC KB KC KC 390,000394K,M,J FD FD FD FD FD GB GB GG HB HB HD JC JC JC KB KC KC 470,000474K,M,J FD FD FD FD FD FD GB GB GG HB HB JC JC KB KC KD 560,000564K,M,J FD FD FD FD FD GC GC GG HB HD JC JC KB KC 680,000684K,M,J FD FD FD FD FD GC GC GG HB HD JC JD KB KC 820,000824K,M,J FF FF FF FF FF GE GE GG HB JC JF KB KC 1,000,000105K,M,J FH FH FH FH FH FM GE GE GG HB JC KB KD 1,200,000125K,M,J FH FH FH FH HB JC KB 1,500,000155K,M,J FH FH FH FH HB JC KC 1,800,000185K,M,J FH

FH HD JD KD 2,200,000225K,M,J FJ FG*+HF JF KD

2,270,000275K,M,J 3,300,000335K,M,J FM*+

3,900,000395K,M,J 4,700,000475K,M,J FC*+FC*+FC*+FG*+FS*+

GK+GK+

5,600,000565K,M,J 6,800,000685K,M,J FM+

8,200,000825K,M,J 10,000,000106K,M,J FH*+FH*+FH*+FS+

GK+12,000,000126K,M,J 15,000,000156K,M,J 18,000,000186K,M,J 22,000,000

226

K,M,J

Cap pF Cap Code Cap Tol.C1210*

C1825*

C2220

C2225

C1812*

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?KEMET Electronics Corporation, P.O. Box 5928, Greenville, S.C. 29606, (864) 963-6300

CERAMIC CHIP/STANDARD

50 Volt Ceramic Chips can be used for 63 volt applications.* EIA preferred chip sizes

Z5U CAPACITANCE RANGE

See page 78 for Thickness Code Reference Chart.

+Reflow only

° Available M ±20% tolerance only

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CERAMIC CHIP/CAPACITORS

Tin Lead L Termination

C 0805C 103K 5R A L*

CERAMIC SIZE CODE

SPECIFICATION C - Standard

CAPACITANCE CODE

Expressed in Picofarads (pF)

First two digits represent significant figures.Third digit specifies number of zeros. (Use 9

for 1.0 through 9.9pF. Use 8 for 0.5 through 0.99pF)(Example: 2.2pF = 229 or 0.50 pF = 508)CAPACITANCE TOLERANCE B –±0.10pF J –±5%C –±0.25pF K –±10%D –±0.5pF M –±20%F –±1%G –±2%

MOUNTING BANDWIDTH

MIN. SEPARATION

TECHNIQUE

0.20 (0.008)-0.40 (0.016)

0.3 (.012)Solder Reflow

0.35 (.014) ±0.15 (.006)0.7 (.028)0.5 (.02) ±.25 (.010)0.75 (.030)Solder Wave ?

0.5 (.02) ±.25 (.010)N/A Solder Reflow

0.5 (.02) ±.25 (.010)N/A 0.6 (.024) ±.35 (.014)N/A 0.6 (.024) ±.35 (.014)N/A 0.6 (.024) ±.35 (.014)N/A 0.6 (.024) ±.35 (.014)

N/A

DIMENSIONS—MILLIMETERS AND (INCHES)

CAPACITOR ORDERING INFORMATION CAPACITOR OUTLINE DRAWINGS

END METALLIZATION L - SnPb plated nickel barrier

(SnPb 5% minimum)FAILURE RATE LEVEL

A- Not Applicable

TEMPERATURE CHARACTERISTIC

Designated by Capacitance Change Over Temperature Range G – C0G (NP0) (±30 PPM/°C)R – X7R (±15%) (-55°C + 125°C)P – X5R (±15%) (-55°C + 85°C)

VOLTAGE 1 - 100V 3 - 25V 2 - 200V 4 - 16V 5 - 50V 8 - 10V

9 - 6.3V

* Part Number Example: C0805C103K5RAL

(14 digits - no spaces)

* Note: Indicates EIA Preferred Case Sizes (Tightened tolerances apply for 0402, 0603, and 0805 packaged in bulk cassette, see page 96.)or

Solder Reflow

(Standard Chips - For

Military see page 87)

KEMET’s line of Tin/Lead termination commercial MLCC surface mount capacitors are designed to meet the needs of the commercial, high reliability, and military customer applications where Tin/Lead plating is required. KEMET’s Tin/Lead elec-troplating process is designed to meet a 5% minimum lead content in the termination of the component. As the bulk of the electronics industry marches to RoHS compliance it is important that KEMET provide the Tin/Lead terminated products for our valued high reliability and military customers.

FEATURES

Refer to pages 73-76 for NP0/C0G, X7R and X5R dielectric capacitance ranges available.CONDUCTIVE METALLIZATION

Sn/Pb PLATE

NICKEL PLATE

KEMET Tin/Lead MLCC surface mount capacitors are available in standard EIA case sizes from 0402 to 2225 and standard capacitance values in X7R and C0G dielectrics. Voltage ratings range from 6.3V to 200V. To order the Tin/Lead terminations indicate an “L” in the 14th digit of the part number. To request the L Series termination for other surface mount product lines (Open Mode, High Voltage, Arrays, etc.) or for additional dielectrics and higher voltage ratings, please contact the factory or local Sales 77

C e r a m i c S u r f a c e M o u n t

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CERAMIC CHIP CAPACITORS

This chart refers to ceramic chip thickness codes on pages 73-76.

Thickness Code Reference Chart

Packaging Quantity Based on Finished Chip Thickness Specifications

Thickness Code

Chip Size

Chip Thickness Range (mm)

Qty per Reel 7" Plastic

Qty per Reel 13" Plastic

Qty per Reel 7" Paper

Qty per Reel 13" Paper

Qty per Bulk Cassette

AA 0201.30 ± .03N/A N/A 15,000N/A N/A BB 0402 .50 ± .05N/A N/A 10,00050,00050,000CB 0603 .80 ± .07N/A N/A 4,00010,00015,000CC 0603 .80 ± .10N/A N/A 4,00010,000N/A CD 0603.80 ± .15N/A N/A 4,00010,000N/A DB 0805 .60 ± .10N/A N/A N/A N/A 10,000DC 0805 .78 ± .104,00010,0004,00010,000N/A DD 0805 .90 ± .104,00010,000N/A N/A N/A DE 0805 1.00 ± .102,50010,000N/A N/A N/A DF 0805 1.10 ± .102,50010,000N/A N/A N/A DG 0805 1.25 ± .152,50010,000N/A N/A N/A DH 0805 1.25 ± .202,50010,000N/A N/A N/A DJ 0805 1.25 ± .203,00010,000N/A N/A N/A DK 0805 1.25 ± .153,00010,000N/A N/A N/A EB 1206 .78 ± .104,00010,0004,00010,000N/A EC 1206 .90 ± .104,00010,000N/A N/A N/A ED 1206 1.00 ± .102,50010,000N/A N/A N/A EE 1206 1.10 ± .102,50010,000N/A N/A N/A EF 1206 1.20 ± .152,50010,000N/A N/A N/A EG 1206 1.60 ± .152,0008,000N/A N/A N/A EH 1206 1.60 ± .202,0008,000N/A N/A N/A EJ 1206 1.70 ± .202,0008,000N/A N/A N/A EK 1206.80 ± .102,0008,000N/A N/A N/A EL 1206 1.15 ± .152,0008,000N/A N/A N/A EM 1206 1.25 ± .152,50010,000N/A N/A N/A EN 12060.95 ± .104,00010,000N/A N/A N/A FB 1210 .78 ± .104,00010,000N/A N/A N/A FC 1210 .90 ± .104,00010,000N/A N/A N/A FD 1210 .95 ± .104,00010,000N/A N/A N/A FE 1210 1.00 ± .102,50010,000N/A N/A N/A FF 1210 1.10 ± .102,50010,000N/A N/A N/A FG 1210 1.25 ± .152,50010,000N/A N/A N/A FH 1210 1.55 ± .152,0008,000N/A N/A N/A FJ 1210 1.85 ± .202,0008,000N/A N/A N/A FK 1210 2.10 ± .202,0008,000N/A N/A N/A FL 1210 1.40 ± .152,0008,000N/A N/A N/A FM 1210 1.70 ± .202,0008,000N/A N/A N/A FN 1210 1.85 ± .202,0008,000N/A N/A N/A FO 1210 1.50 ± .202,0008,000N/A N/A N/A FP 1210 1.60 ± .202,0008,000N/A N/A N/A FQ 1210 2.5 ± .201,5008,000N/A N/A N/A FR 1210 2.25 ± .202,0008,000N/A N/A N/A FS 1210 2.50 ± .201,0004,000N/A N/A N/A GB 1812 1.00 ± .101,0004,000N/A N/A N/A GC 1812 1.10 ± .101,0004,000N/A N/A N/A GD 1812 1.25 ± .151,0004,000N/A N/A N/A GE 1812 1.30 ± .101,0004,000N/A N/A N/A GF 1812 1.50 ± .101,0004,000N/A N/A N/A GG 1812 1.55 ± .101,0004,000N/A N/A N/A GH 1812 1.40 ± .151,0004,000N/A N/A N/A GJ 1812 1.70 ± .151,0004,000N/A N/A N/A GK 1812 1.60 ± .201,0004,000N/A N/A N/A GL 1812 1.90 ± .201,0004,000N/A N/A N/A GM 1812 2.00 ± .201,0004,000N/A N/A N/A GN 1812 1.70 ± .201,0004,000N/A N/A N/A HB 1825 1.10 ± .151,0004,000N/A N/A N/A HC 1825 1.15 ± .151,0004,000N/A N/A N/A HD 1825 1.30 ± .151,0004,000N/A N/A N/A HE 1825 1.40 ± .151,0004,000N/A N/A N/A HF 1825 1.50 ± .151,0004,000N/A N/A N/A JB 2220 1.00 ± .151,0004,000N/A N/A N/A JC 2220 1.10 ± .151,0004,000N/A N/A N/A JD 2220 1.30 ± .151,0004,000N/A N/A N/A JE 2220 1.40 ± .151,0004,000N/A N/A N/A JF 2220 1.50 ± .151,0004,000N/A N/A N/A KB 2225 1.00 ± .151,0004,000N/A N/A N/A KC 2225 1.10 ± .151,0004,000N/A N/A N/A KD 2225 1.30 ± .151,0004,000N/A N/A N/A KE 2225 1.40 ± .151,0004,000N/A N/A N/A

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CERAMIC OPEN MODE CAPACITORS

Applications:

Markets:

?Input side filtering (power plane/bus)?Automotive

?High current applications (battery line)

-All applications connected directly to the battery ?Circuits that cannot be fused to open when -Conversion to 42V power system ?Power Conversion

-Raw power input side filtering

short circuits occur due to flex cracks

The open-mode dimension (OM)

exceeds the termination bandwidth dimensions: OM >BW

FEATURES

TABLE 1 - DIMENSIONS - MILLIMETERS (INCHES)

OPEN-MODE INTERNAL DESIGN

KEMET’s Open Mode Ceramic Surface Mount Capacitor is designed to significantly minimize the probability of a low IR or Short Circuit Condition when forced to failure in a board flex situation. This reduces the poten-tial for causing catastrophic failures. This product is RoHS Compliant.C e r a m i c S u r f a c e M o u n t

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CERAMIC OPEN MODE CAPACITORS

TABLE 2

X7R DIELECTRIC CAPACITANCE RANGE AND THICKNESS TARGETS (mm)

THICKNESS AND PACKAGING INFORMATION

16V 25V 50V 100V 200V 16V 25V 50V 100V 200V

16V 25V 50V 100V

200V

25V 50V

100V 200V

102DD DD DD DD DD 122DD DD DD DD DD 152DD DD DD DD DD 182DD DD DD DD DD 222DD DD DD DD DD 272DD DD DD DD DD 332DD DD DD DD DD 392DD DD DD DD DD 472DD DD DD DD DD 562DD DD DD DD DD 682DD DD DD DD DD 822DD DD DD DD DD 103DD DD DD DD DD 123DD DD DD DD DG 153DD DD DD DD DG 183DD DD DD DD EC 223DD DD DD DG EC 273DD DD DD DG EC 333DD DD DD DG EC 393DD DD DD DG

EC 473DD DD DD DE EC EC EC EC

EG GB 563DD DD DD EC EC EC EC EG GB 683DD DD DG DG EC EC EC EC EG FD GB 823DD DD DG EC EC EC EC EG FD GB 104DG DG DG EC EC EC EC EG

FD FD FD FD FG GB GB GB GB 124DG DG EC EC EC EC FD FD FD FD FG GB GB GB GB 154DG DG EC EC EC EG FD FD FD FD FH GB GB GB GB 184DG DG EC EC EC EG FD FD FD FD FH GB GB GB GB 224DG DD DG EC EC EC ED FD FD FD FG FJ

GB GB GB GC 274EC

EC EC FD FD FD FG GB GB GB GF 334EG

EG FD FD FD FH GB GB GB GK 394EG

EG FD FD FG FH GB GB GB GL

474DE DG

EG EC FD FD FG FJ GB GB GC 564EG FD FD FG FR GB GB GD 684DG

EG FD FG FH FR GD GD GF 824EG FD FG FJ GD GD GK 105EG EC EH FD FH FJ FQ

125FG 155FH 1812

0805

1206

Cap Code 1210

Thickness Code

Series Dimension 7" Reel Qty.

13" Reel Qty.

DD 0805.90 ± .10400010000DE 0805 1.00 ± .10250010000DG 0805 1.25 ± .152********EC 1206.90 ± .10400010000EG 1206 1.60 ± .1520008000EH 1206 1.60 ± .2020008000FD 1210.95 ± .10400010000FG 1210 1.25 ± .152********FH 1210 1.55 ± .1520008000FJ 1210 1.85 ± .2020008000FM 1210 1.70 ± .2020008000FR 1210 2.25 ± .2020008000FQ 1210 2.5 ± .2015008000GB 1812 1.0 ± .1010004000GC 1812 1.1 ± .1010004000GD 1812 1.25 ± .1510004000GF 1812 1.50 ± .1510004000GK 1812 1.60 ± .2010004000GL 1812 1.90 ± .2010004000GM 1812 2.00 ± .2010004000GN

1812

1.70 ± .20

1000

4000

8016V 25V 50V 100V 200V 16V 25V 50V 100V 200V 16V 25V 50V 100V 200V 25V 50V 100V 200V 102DD DD DD DD DD 122DD DD DD DD DD 152DD DD DD DD DD 182DD DD DD DD DD 222DD DD DD DD DD 272DD DD DD DD DD 332DD DD DD DD DD 392472562682DD DD DD DD DD 822DD DD DD DD DD 103DD DD DD DD DD 123DD DD DD DD DG 153DD DD DD DD DG 183DD DD DD DD EC

223DD DD DD DG EC 273DD DD DD DG EC 333DD DD DD DG EC 393473DE EC EC EC EC

EG GB 563DD DD DD EC EC EC EC EG GB 683DD DD DG DG EC EC EC EC EG FD GB 823DD DD DG EC EC EC EC EG FD GB 104DG DG DG EC EC EC EC EG FD FD FD FD

FG GB GB GB GB 124DG DG EC EC EC EC FD FD FD FD FG GB GB GB GB 154DG DG EC EC EC EG FD FD FD FD FH GB GB GB GB 184DG DG EC EC EC EG FD FD FD FD FH GB GB GB GB 224DG DD DG EC EC EC ED FD FD FD FG FJ GB GB GB GC 274EC EC EC FD FD FD FG GB GB GB GF 334EG EG EG FH GK 394EG EG FG FH GL 474DE DG EG EG FG FJ GC 564EG FD FD FG FR GB GB GD 684DG EG FD FG FH FR GD GD GF 824EG FD FG FJ GD GD GK 105EG EC EH FD FH FJ FQ GN GN GM 125FG 155FH 185FH 225EC EH FJ FM

475EH

FG FM 685FQ

181208051206Cap Code 1210元器件交易网https://www.wendangku.net/doc/eb8010876.html,

CERAMIC CHIP / HIGH VOLTAGE

81C e r a m i c S u r f a c e M o u n t

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CERAMIC CHIP / HIGH VOLTAGE

* Contact KEMET Sales Representative for C, D, F & G Capacitance Tolerance availability.

Note:Actual thickness dimensions may be less than stated maximum. Check the KEMET website, https://www.wendangku.net/doc/eb8010876.html,, for additional values and chip sizes available.

C e r a m i c S u r f a c e M o u n t

C0G DIELECTRIC CAPACITANCE VALUES AND THICKNESS TARGETS (in.)

Series

Max Thickness

(in)0.050

0.050

0.065

0.101

0.080

0.067

Cap Code/Voltage

500

1000

500

1000

1500

2000

500

1000

1500

2000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

1.0-

2.4C,D

109-2492.7-5.1C,D K,M 279-5195.6-9.1

C,D J,K,M 569-91910C,D J,K,M 10011C,D J,K,M 11012C,D J,K,M 12013C,D J,K,M 13015C,D G,J,K,M 15016C,D G,J,K,M 16018C,D G,J,K,M 18020C,D G,J,K,M 20022C,D G,J,K,M 22024C,D G,J,K,M 24027 D,F,G,J,K,M 27030 D,F,G,J,K,M 30033 D,F,G,J,K,M 33036 D,F,G,J,K,M 36039 D,F,G,J,K,M 39043 D,F,G,J,K,M 43047 D,F,G,J,K,M 47051 D,F,G,J,K,M 51056 F,G,J,K,M 56062 F,G,J,K,M 62068 F,G,J,K,M 68075 F,G,J,K,M 75082 F,G,J,K,M 82091 F,G,J,K,M 910100 F,G,J,K,M 101110 F,G,J,K,M 111120 F,G,J,K,M 121130 F,G,J,K,M 131150 F,G,J,K,M 151160 F,G,J,K,M 161180 F,G,J,K,M 181200 F,G,J,K,M 201220 F,G,J,K,M 221240 F,G,J,K,M 241270 F,G,J,K,M 271300 F,G,J,K,M 301330 F,G,J,K,M 331360 F,G,J,K,M 361390 F,G,J,K,M 391430 F,G,J,K,M 431470 F,G,J,K,M 471510 F,G,J,K,M 511560 F,G,J,K,M 561620 F,G,J,K,M 621680 F,G,J,K,M 681750 F,G,J,K,M 751820 F,G,J,K,M 821910 F,G,J,K,M 9111000 F,G,J,K,M 1021100 F,G,J,K,M 1121200 F,G,J,K,M 1221300 F,G,J,K,M 1321500 F,G,J,K,M 1521600 F,G,J,K,M 1621800 F,G,J,K,M 1822000 F,G,J,K,M 2022200 F,G,J,K,M 2222400 F,G,J,K,M 2422700 F,G,J,K,M 2723000 F,G,J,K,M 3023300 F,G,J,K,M 3323600 F,G,J,K,M 3623900 F,G,J,K,M 3924300 F,G,J,K,M 4324700 F,G,J,K,M 4725100 F,G,J,K,M 5125600 F,G,J,K,M 5626200 F,G,J,K,M 6226800 F,G,J,K,M 6827500 F,G,J,K,M 7528200 F,G,J,K,M 8229100 F,G,J,K,M 91210,000 F,G,J,K,M 103

2225

Cap pF

Capacitance Tolerance

1825

2220

1812

0805

1206

1210

1808

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CERAMIC CHIP / HIGH VOLTAGE

Note: Actual thickness dimensions may be less than stated maximum.

Check the KEMET website, https://www.wendangku.net/doc/eb8010876.html,, for additional values and chip sizes available.

X7R DIELECTRIC CAPACITANCE VALUES AND THICKNESS TARGETS (in.)

EIA Metric 080520120.055 1.2782,50010,000120632160.065 1.6582,0008,000121032250.101 2.5782,0008,000180845200.080 2.03121,0004,0001812/181345320.067 1.70121,0004,000182545640.067 1.70121,0004,000222056500.067 1.70121,0004,0002225

5664

0.067

1.70

121,0004,000

Qty per Reel 7" Plastic Qty per Reel

13" Plastic KEMET HIGH VOLTAGE SURFACE MOUNT CHIP (VOLTAGE CODES C,D,F,G,H, and Z)

THICKNESS AND REELING QUANTITIES

Chip size Max.

Thickness (in)

Max.

Thickness (mm)

Tape Width (mm)

Series

Max Thickness

(in)0.050

0.050

0.065

0.080

0.067

0.0670.067Cap Code/Voltage

500

1000

500

1000

1500

2000

500

1000

1500

2000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

500

1000

1500

2000

2500

3000

J,K,M 10011J,K,M 11012J,K,M 12013J,K,M 13015J,K,M 15016J,K,M 16018J,K,M 18020J,K,M 20022J,K,M 22024J,K,M 24027J,K,M 27030J,K,M 30033J,K,M 33036J,K,M 36039J,K,M 39043J,K,M 43047J,K,M 47051J,K,M 51056J,K,M 56062J,K,M 62068J,K,M 68075J,K,M 75082J,K,M 82091J,K,M 910100J,K,M 101110J,K,M 111120J,K,M 121130J,K,M 131150J,K,M 151180J,K,M 181220J,K,M 221270J,K,M 271330J,K,M 331390J,K,M 391470J,K,M 471560J,K,M 561680J,K,M 681820J,K,M 8211000J,K,M 1021200J,K,M 1221500J,K,M 1521800J,K,M 1822000J,K,M 2022200J,K,M 2222700J,K,M 2723300J,K,M 3323900J,K,M 3924700J,K,M 4725600J,K,M 5626800J,K,M 6828200J,K,M 82210,000J,K,M 10312,000J,K,M 12315,000J,K,M 15318,000J,K,M 18322,000J,K,M 22327,000J,K,M 27333,000J,K,M 33339,000J,K,M 39347,000J,K,M 47356,000J,K,M 56362,000J,K,M 62368,000J,K,M 68382,000J,K,M 823100,000J,K,M 104120,000J,K,M 124150,000J,K,M 154180,000J,K,M 184220,000J,K,M 224

2225

Cap pF

Capacitance Tolerance

1825

2220

1812

0805

1206

1210

1808

C e r a m i c S u r f a c e M o u n t

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CERAMIC CHIP / HIGH VOLTAGE

0805C 102K C R A C

Style C - Ceramic

Chip Size

0805; 1206; 1210; 1808;1812; 1825; 2220; 2225

Specification C - Standard

Capacitance Code, pF First two digits represent significant figures.

Third digit specifies number of zeros. 100 pF = 101.(Use “9” for 1.0 through 9.9 pF)(Use “8” for 0.1 through .99 pF)Capacitance Tolerance C = ±0.25pF*J = ±5%D = ±0.5pF*K = ±10%F = ±1%*M = ±20%G = ±2%*

* Contact KEMET Sales for availability.

C = 500V G = 2000V

D = 1000V Z = 2500V F = 1500V

H = 3000V

Temperature Characteristic Designated by Capacitance Change over Temperature Range G – (C0G) (±30ppm/C) (-55°C +125°C)

R – X7R (±15%) (-55°C +125°C)

End Metallization C = Standard Failure Rate Level A = Not Applicable

Capacitor Ordering Information

Property

Specification

Capacitance C0G: 1 pF to 0.010 μF

X7R: 10 pf to 0.22 μF

25°C, 1.0 ±0.2 Vrms, 1 kHz (1 MHz for ≤ 1000pF (C0G only)

Cap Tolerance C0G: C*, D*, F*, G*, J, K, M * Contact KEMET Sales for availability.X7R: J, K, M DF

C0G: 0.1% Max X7R: 2.5% Max

Voltage Ratings

500 V, 1000 V, 1500 V, 2000 V, 2500 V, 3000 V Operating Temperature Range From -55C to +125C 25oC IR @ 500V 100 G ?or 1000 M ?-μF, whichever is less 125oC IR @ 500V 10 G ?or 100 M ?-μF, whichever is less

-55oC TCC

+125oC TCC X7R: + 15%

C0G: + 30 ppm / oC

Dielectric Strength 150% of Rated Voltage for Rated Voltage <1000 V 120% of Rated Voltage for Rated Voltage >=1000V Ripple Current

Consult KEMET Sales Representative

Electrical Parameters

Marking

These chips are supplied unmarked. If required, they can be supplied LASER-marked at an extra cost.

Packaging KEMET High Voltage Surface Mount MLCC are available packaged in tape and reel configuration, or bulk

Soldering Process

The 0805 and 1206 case sizes are suitable for either reflow or wave soldering processes. Sizes 1210 and

larger should be limited to reflow soldering only. All sizes incorporate the standard KEMET barrier layer of pure nickel with an overplating of pure tin (Sn) for excellent solderability and resistance to solder leaching of Recommended Solder Pad Dimensions the termination.

bag as outlined on page 83. Please consult factory for waffle packaging options.

Details on the marking format is located on page 97.

mm in.mm in.mm in.mm in.0805

3.300.1300.700.028 1.600.063 1.300.0511206

4.500.177 1.500.059 2.000.079 1.500.0591210 4.500.177 1.500.059 2.900.114 1.500.0591808

5.900.232 2.300.091 2.400.094 1.800.0711812 5.900.232 2.300.091 3.700.146 1.800.0711825 5.900.232 2.300.091

6.900.272 1.800.071L (Pad Length)Chip Size T (Total Length)S (Separation W (Pad Width)pF From -55oC to +125oC

CAPACITOR ORDERING INFORMATION ELECTRICAL PARAMETERS MARKING PACKAGING

SOLDERING PROCESS RECOMMENDED SOLDER PAD DIMENSIONS

Style

Chip Size Specification Capacitance Code, pF

Capacitance Tolerance Voltage Temperature Characteristic Failure Rate Level End Metallization

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CERAMIC CAPACITOR ARRAY

Easier to handle and solder than 4 smaller chips Tape and reel per EIA 481-1RoHS Compliant

FEATURES

P/2Ref

BW1

CAPACITOR OUTLINE DRAWING

TABLE 1

EIA DIMENSIONS – MILLIMETERS (INCHES)

0.40 (0.016)± 0.2 (0.008)0.1 - 0.5(0.004 - 0.020)Bandwidth

Bandwidth BW1

0.8 (0.031)± 0.1 (0.004)

Pitch P

END MET ALLIZA TION

VOL T AGE

C-Standard

(Tin-plated nickel barrier)5 = 50v; 3 = 25v; 4 = 16v; 8=10v

FAILURE RA TE LEVEL

A- Not Applicable

TEMPERA TURE CHARACTERISTIC

Designated by Capacitance Change Over T emperature Range G – C0G (NP0) (±30 PPM/°C)R – X7R (±15%)

CERAMIC ARRAY ORDERING INFORMATION

C e r a m i c S u r f a c e M o u n t

CERAMIC CHIP ARRAY

TABLE 2A

C0G DIELECTRIC – CAPACITANCE RANGE

(1) To complete the KEMET part number, insert the alpha code for the tolerance desired.

K = ±10% and M = ±20% – standard tolerance. Contact factory for any special requirements.(2) To complete the KEMET part number, insert appropriate number for voltage desired: "5" = 50 volts, "3" = 25 volts, "4" = 16 volts, and "8" = 10 volts.

Capacitance Values (pF)

KEMET Part Number

Capacitance Tolerance

101215182227333947566882100120150180220270330390470C1632C100(1)(2)GAC C1632C120(1)(2)GAC C1632C150(1)(2)GAC C1632C180(1)(2)GAC C1632C220(1)(2)GAC C1632C270(1)(2)GAC C1632C330(1)(2)GAC C1632C390(1)(2)GAC C1632C470(1)(2)GAC C1632C560(1)(2)GAC C1632C680(1)(2)GAC C1632C820(1)(2)GAC C1632C101(1)(2)GAC C1632C121(1)(2)GAC C1632C151(1)(2)GAC C1632C181(1)(2)GAC C1632C221(1)(2)GAC C1632C271(1)(2)GAC C1632C331(1)(2)GAC C1632C391(1)(2)GAC C1632C471(1)(2)GAC K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M 10012015018022027033039047056068082010112115118122127133139147116V

25V 50V 100120150180220270330390470560680820101121151181221271331391471100120150180220270330390470560680820101121151181221271331391471

LAND PATTERN DIMENSIONS -CERAMIC CHIP

CAPACITOR ARRAYS - MM

Z 2.80

G 0.40X 0.52Y(ref)1.20C(ref)1.60

Reflow Solder

Calculation Formula Z = Lmin + 2Jt + Tt G = Smax - 2Jh -Th X = Wmin + 2Js + Ts Tt, Th, Ts = Combined tolerances

3216Dimension 1632 CERAMIC ARRAY LAND PATTERN LAYOUT

8 Places

X P Z

6 Places C

Additional pad dimension information is available in KEMET Technical Bulletin F-2100.

TABLE 2B

X7R DIELECTRIC – CAPACITANCE RANGE

(1) To complete the KEMET part number, insert the alpha code for the tolerance desired:

K = ±10% and M = ±20% – standard tolerances. Contact factory for any special requirements.(2) To complete the KEMET part number, insert appropriate number for voltage desired:Capacitance Values (pF)

KEMET Part Number

Capacitance Tolerance

33039047056068082010001200150018002200270033003900470056006800820010,00012,00015,00018,00022,00027,00033,00039,00047,00056,00068,00082,000100,000C1632C331(1)(2)RAC C1632C391(1)(2)RAC C1632C471(1)(2)RAC C1632C561(1)(2)RAC C1632C681(1)(2)RAC C1632C821(1)(2)RAC C1632C102(1)(2)RAC C1632C122(1)(2)RAC C1632C152(1)(2)RAC C1632C182(1)(2)RAC C1632C222(1)(2)RAC C1632C272(1)(2)RAC C1632C332(1)(2)RAC C1632C392(1)(2)RAC C1632C472(1)(2)RAC C1632C562(1)(2)RAC C1632C682(1)(2)RAC C1632C822(1)(2)RAC C1632C103(1)(2)RAC C1632C123(1)(2)RAC C1632C153(1)(2)RAC C1632C183(1)(2)RAC C1632C223(1)(2)RAC C1632C273(1)(2)RAC C1632C333(1)(2)RAC C1632C393(1)(2)RAC C1632C473(1)(2)RAC C1632C563(1)(2)RAC C1632C683(1)(2)RAC C1632C823(1)(2)RAC C1632C104(1)(2)RAC K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M K,M 331391471561681821102122152182222272332392472562682822103123153183223273333393473563683823104

16V

25V 50V

331391471561681821102122152182222272332392472562682822103123153183223331391471561681821102122152182222272332392472562682822103123153183223

10V

10V 100V

100120150180220270330390470560680820101121151181

200V

100120150180220270330390470560680820

100V 331391471561200V

331391471561

681821102122152182222272332392472

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