Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180)

Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180) / Viking Tech hat Erfahrung in der Gestaltung innovativer Komponenten und bietet Unterstützung und Service für globale Kunden, die einen echten Fertigungspartner benötigen. Unser Ziel ist es, der Marktführer in Design, Fertigung und Vermarktung von Miniatur-, Präzisionspassivkomponenten zu sein, die in Automobil-, Industrie- und 3C-Elektronikanwendungen verwendet werden.

Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180)

MCHL03GTN101180

Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180)
Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180) Files Download

Mehrschicht-Keramikkondensator, MLCC, Chip-Kondensator für verschiedene Größen und Materialien zur Unterstützung eines breiten Kapazitätsbereichs, extrem kompakte Größe, geringe Induktivität und hohe Frequenz, ausgezeichnete Lötfähigkeit und Widerstandsfähigkeit gegen Löten, geringer ESR, anpassungsfähig an alle Arten von Anwendungen. Erfüllt EIAJ-RC3402 und ist auch kompatibel mit EIA-RS198 und IEC PUB. 384-10.
MC Series0603 ±2% 4K/Reel NPO 18pF 100V

GrößeToleranzVerpackungDielektrikumKapazität (pF)Spannung (V)
0603±2%4K/ReelNPO18100

Ultra High Q & Low ESR-Kondensatoren für die MCRF-Serie

Capacitance & Voltage

Dielectric NPO
EIA Size 0201 0402 0603 0805
Code VDCW 6.3V 10V 25V 50V 25V 50V 100V 200V 50V 100V 250V 50V 100V 250V 500V
0R1 0.1pF L L L L N N N N              
0R2 0.2 L L L L N N N N              
0R3 0.3 L L L L N N N N S S S T T T T
0R4 0.4 L L L L N N N N S S S T T T T
0R5 0.5 L L L L N N N N S S S T T T T
0R6 0.6 L L L L N N N N S S S T T T T
0R7 0.7 L L L L N N N N S S S T T T T
0R8 0.8 L L L L N N N N S S S T T T T
0R9 0.9 L L L L N N N N S S S T T T T
1R0 1.0 L L L L N N N N S S S T T T T
1R2 1.2 L L L L N N N N S S S T T T T
1R5 1.5 L L L L N N N N S S S T T T T
1R8 1.8 L L L L N N N N S S S T T T T
2R0 2.0 L L L L N N N N S S S T T T T
2R2 2.2 L L L L N N N N S S S T T T T
2R7 2.7 L L L L N N N N S S S T T T T
3R0 3.0 L L L L N N N N S S S T T T T
3R3 3.3 L L L L N N N N S S S T T T T
3R9 3.9 L L L L N N N N S S S T T T T
4R0 4.0 L L L L N N N N S S S T T T T
4R7 4.7 L L L L N N N N S S S T T T T
5R0 5.0 L L L L N N N N S S S T T T T
5R6 5.6 L L L L N N N N S S S T T T T
6R0 6.0 L L L L N N N N S S S T T T T
6R8 6.8 L L L L N N N N S S S T T T T
7R0 7.0 L L L L N N N N S S S T T T T
8R2 8.2 L L L L N N N N S S S T T T T
9R0 9.0 L L L L N N N N S S S T T T T
100 10 L L L L N N N N S S S T T T T
110 11 L L L L N N N N S S S T T T T
120 12 L L L L N N N N S S S T T T T
130 13 L L L L N N N N S S S T T T T
150 15 L L L L N N N N S S S T T T T
160 16 L L L L N N N N S S S T T T T
180 18 L L L L N N N N S S S T T T T
200 20 L L L L N N N N S S S T T T T
220 22 L L L   N N N N S S S T T T T
240 24 L L L   N N N N S S S T T T T
270 27 L L L   N N N N S S S T T T T
300 30 L L L   N N N N S S S T T T T
330 33 L L L   N N N   S S S T T T T
360 36         N N N   S S S T T T T
390 39         N N N   S S S T T T T
430 43         N N N   S S S T T T T
470 47         N N N   S S S T T T T
560 56         N       S S S T T T T
680 68         N       S S S T T T T
820 82         N       S S S T T T  
101 100         N       S S S T T T  

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

Electrical Data

Dielectric NPO
Size 0201, 0402, 0603, 0805
Capacitance* 0201: 0.1pF ~ 33pF , 0402: 0.1pF ~ 100pF
0603: 0.3pF ~ 100pF , 0805: 0.3pF ~ 100pF
Capacitance tolerance** Cap ≦ 5pF: A (± 0.05pF), B (± 0.1pF), C (± 0.25pF)
5pF<Cap<10pF: B (± 0.1pF), C (± 0.25pF) , D (± 0.5pF)
Cap ≧ 10pF: F (± 1%), G (± 2%), J (± 5%)
Rated voltage (VDCW) 6.3V, 10V, 25V, 50V, 100V, 250V, 500V
Q * Cap ≧ 30pF: Q ≧ 1000, Cap<30pF: Q ≧ 400+20C;
Insulation resistance at Ur ≧ 10GΩ
Operating temperature -55 to +125°C
Capacitance ± 30 ppm; 0201 Cap ≧ 22pF, ± 60 ppm
Termination Ni / Sn (lead-free termination)

☑ '*' Measured at the conditions of 25°C ambient temperature and 30 ~ 70% related humidity.
☑ Apply 1.0 ± 0.2Vrms, 1.0MHz ± 10% for Cap ≦ 1000pF; 1.0KHz ± 10% for Cap>1000pF.

Electrical Characteristics

Ultra High Q & Low ESR Capacitors for MCRF Series - Electrical Characteristics

Umwelteigenschaften

Item Requirement Test Method
External Appearance No defects which may affect performance Visual inspection & Dimension measurement
Capacitance(Cap.) Within the specified tolerance that refers on page2 NPO: (Class I)
Cap ≤ 1000pF 1.0 ± 0.2Vrms, 1MHz ± 10%
Cap>1000pF 1.0 ± 0.2Vrms, 1KHz ± 10%
X7R, X5R, Y5V: (Class II)
Cap ≤ 10uF 1.0 ± 0.2Vrms, 1KHz ± 10%**
Cap>10uF 0.5 ± 0.2Vrms, 120Hz ± 10%
** Test condition: 0.5 ± 0.2Vrms,1KHz ± 10%
X7R:
0805=106(6.3V, 10V), 0603/475 (6.3V)
X5R:
0201 ≧ 224 (6.3V, 10V, 16V)#1
0402 ≧ 475 (6.3V, 16V), 0402 ≧ 225 (10V)
0603=106 (6.3V, 10V),
#1 Excluding
X5R / 0201 / 105 (6.3V); 225 (10V),
(1.0 ± 0.2Vrms, 1KHz ± 10%)
*Before initial measurement (Class II only):
To apply de-aging at 150°C for 1hr then set
for 24 ± 2 hrs at room temp.

Dissipation Factor
(D.F.) or Quality factor
(Q=1/D.F.)
NPO: Cap ≥ 30pF, Q ≥ 1000; Cap<30pF, Q ≥ 400+20C
X7R, X5R:
Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 100V 2.5% 3% 1206 ≧ 0.047μF
5% 0603 ≧ 0.068μF; 0805 ≧ 0.1μF
1206>1μF; 1210 ≧ 2.2μF
10% 0805 > 0.22μF;1210 ≧ 3.3μF
50V 2.5% 3% 0201(50V); 0603 ≧ 0.047μF
0805 ≧ 0.18μF; 1206 ≧ 0.47μF
5% 0201 ≧ 0.01uF; 1210 ≧ 4.7μF
10% 0402 ≧ 0.1μF;0603>0.1μF; 0805 ≧ 1μF;1206 ≧ 2.2μF; 1210 ≧ 10μF
35V 3.5% 10% 0603 ≧ 1μF;0805 ≥ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 10μF
25V 3.5% 5% 0201 ≧ 0.01μF; 0805 ≧ 1μF;1210 ≧ 10μF
7% 0603 ≧ 0.33μF; 1206 ≧ 4.7μF
10% 0201 ≧ 0.1μF;0402 ≧ 0.10μF; 0603 ≧ 0.47μF
0805 ≧ 2.2μF; 1206 ≧ 6.8μF;1210 ≧ 22μF
12.5% 0402 ≥ 0.47μF
16V 3.5% 5% 0201 ≧ 0.01μF; 0402 ≧ 0.033μF;0603 ≧ 0.15μF; 0805 ≧ 0.68μF;1206 ≧ 2.2μF; 1210 ≧ 4.7μF
10% 0201 ≧ 0.1μF(0201 / X7R ≧ 0.022μF);
0402 ≧ 0.22μF; 0603 ≧ 0.68μF;0805 ≧ 2.2μF; 1206 ≧ 4.7μF;1210 ≧ 22μF
10V 5% 10% 0201 ≧ 0.012μF;0402 ≧ 0.33μF(0402 / X7R ≧ 0.22μF)
0603 ≧ 0.33μF; 0805 ≧ 2.2μF
1206 ≧ 2.2μF;1210 ≧ 22μF
15% 0201 ≧ 0.1μF; 0402 ≧ 1μF
6.3V 10% 15% 0201 ≧ 0.1μF; 0402 ≧ 1μF
0603 ≧ 10μF; 0805 ≧ 4.7μF
1206 ≧ 47μF;1210 ≧ 100μF
20% 0402 ≧ 2.2μF

Y5V:

Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 50V 5% 7% 0603 ≧ 0.1μF; 0805 ≧ 0.47μF;1206 ≧ 4.7uF
12.5% 1210 ≧ 6.8μF
35V 7%
25V 5% 7% 0402 ≧ 0.047μF; 0603 ≧ 0.1μF
0805 ≧ 0.33μF; 1206 ≧ 1μF
1210 ≧ 4.7μF
9% 0402 ≧ 0.068μF; 0603 ≧ 0.47μF
1206 ≧ 4.7μF; 1210 ≧ 22μF
16V
(C < 1.0μF)
7% 9% 0402 ≧ 0.068μF; 0603 ≧ 0.68μF
12.5% 0402 ≧ 0.22μF
16V
(C ≧ 1.0μF)
9% 12.5% 0603 ≧ 2.2μF; 0805 ≧ 3.3μF
1206 ≧ 10μF; 1210 ≧ 22μF
1812 ≧ 47μF
10V 12.5% 20% 0402 ≧ 0.47μF
6.3V 20% - -
Dielectric Strength No evidence of damage or flash over during test To apply voltage (≤ 100V) 250%
Duration: 1 to 5sec
Charge and discharge current less than 50mA
To apply voltage:
200V ~ 300V ≧ 2 time VDC
500V ~ 999V ≧ 1.5 time VDC
1000V ~ 3000V ≧ 1.2 time VDC
Cut-off, set at 10mA
TEST=15 sec. RAMP=0
Item Requirement Test Method
Insulation Resistance 10GΩ or R x C ≧ 500Ω-F Whichever is smaller X7R, X5R, Y5V:
Rated Voltage Insulation Resistance
100V: X7R 10G Ω or R x C ≧ 100Ω-F Whichever is smaller
50V: 0402>0.01μF;0603 ≧ 1μF;0805 ≧ 1μF;
1206 ≧ 4.7μF;1210 ≧ 4.7μF
35V: 0805 ≧ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 10μF
25V: 0402 ≧ 1uF;0603 ≧ 2.2uF;0805 ≧ 2.2uF
1206 ≧ 10uF;1210 ≧ 10uF
16V: 0201 ≧ 0.1μF,0402 ≧ 0.22μF;0603 ≧ 1μF;
0805 ≧ 2.2μF;1206 ≧ 10μF;1210 ≧ 47μF
10V: 0201 ≧ 47nF;0402 ≧ 0.47uF;0603 ≧ 0.47uF
0805 ≧ 2.2uF;1206 ≧ 4.7uF;1210 ≧ 47uF
6.3V
To apply rated voltage for max. 120sec
*Before initial measurement (Class II only):
To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
≧ 10GΩ or 100Ω-F whichever is smaller
Rated voltage: 200V ~ 630V
To apply rated voltage (500V max.) for 60sec.
≧ 10GΩ
Rated voltage: >630V
To apply 500V for 60sec.
Temperature Characteristic of Capacitance
T.C. Capacitance Change
NPO ± 30 (ppm/°C)
X7R ± 15%
X5R ± 15%
Y5V +30% ~ -80%
With no electrical load.
T.C. Operating Temp
NPO -55 ~ 125°C at 25°C
X7R -55 ~ 125°C at 25°C
X5R -55 ~ 85°C at 25°C
Y5V -25 ~ 85°C at 20°C

*Before initial measurement (Class II only):
To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
* Measurement voltage for Class II:

0201 0402
Cap<0.1μF:1V Cap<1μF: 1V
0.1μF ≤ Cap<1μF: 0.2V Cap=1μF: 0.5V
Cap ≧ 1μF: 0.1V 1μF<Cap<10μF: 0.2V
  Cap ≧ 10μF: 0.1V
0603 0805
Cap ≤ 1μF: 1V Cap<10μF: 1V
1μF<Cap ≤ 4.7μF: 0.5V Cap=10μF: 0.5V
Cap>4.7μF: 0.2V Cap>10μF: 0.2V
1206 1210
Cap ≤ 10μF: 1V Cap ≤ 10μF: 1V
10μF<Cap ≤ 100μF: 0.5V 10μF<Cap ≤ 100μF: 0.5V
Cap>100μF: 0.2V Cap>100μF: 0.2V
Adhesive Strength of Termination No remarkable damage or removal of the terminations Pressurizing force:
0201: 2N
0402 & 0603: 5N > 0603: 10N
Test time: 10 ± 1 sec
Vibration Resistance No remarkable damage Cap change and Q/D.F.: To meet initial spec Vibration frequency: 10 ~ 55Hz/min
Total amplitude: 1.5mm
Test time: 6hrs. (two hrs each in three mutually
Perpendicular directions.)
*Before initial measurement (Class II only):
To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
*Cap./DF(Q) Measurement to be made after de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Solderability 95% min. coverage of all metalized area. Solder temperature: 235 ± 5°C
Dipping time: 2 ± 0.5 sec.
Item Requirement Test Method
Bending Test No remarkable damage.
Cap change:
NP0: within ± 5% or 0.5pF whichever is larger
X7R, X5R, X6S, X7S: within ± 12.5%
Y5V: within ± 30%
(This capacitance change means the change of capacitance under specified flexure of substrate from the capacitance measured before the test.)
The middle part of substrate shall be pressurized by means of the pressurizing rod at a rate of about 1 mm per second until the deflection becomes 1 mm and then the pressure shall be maintained for 5 ± 1 sec.
* Before initial measurement (Class II only):
To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Measurement to be made after keeping at room temp. for 24 ± 2 hrs.
Resistance to Soldering Heat No remarkable damage.
Cap change:
NP0: within ± 2.5% or 0.25pF whichever is larger X7R, X5R, X6S, X7S: within ± 7.5%
Y5V: within ± 20%
Q/D.F., I.R. and dielectric strength: To meet initial requirements.
25% max. leaching on each edge
Solder temperature: 260 ± 5°C
Dipping time: 10 ± 1 sec
Preheating: 120 to 150°C for 1 minute before immerse the capacitor in a eutectic solder.
* Before initial measurement (Class II only): To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Cap. / DF(Q) / I.R. Measurement to be made after de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp
Temperature Cycle

No remarkable damage.
* Cap change:
NP0: within ± 2.5% or 0.25pF whichever is larger X7R, X5R, X6S, X7S: within ± 7.5%
Y5V: within ± 20%
* Q/D.F., I.R. and dielectric strength: To meet initial requirements

Conduct the five cycles according to the temperature and time.

Step Temp. (°C) Time (min)
1 Min. operating temp. +0 / -3 30 ± 3
2 Room temp 2-3
3 Max. operating temp. +3 / -0 30 ± 3
4 Room temp. 2-3

Before initial measurement (Class II only): To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Cap. / DF(Q) / I.R. Measurement to be made after de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.

Item Requirement Test Method
Humidity (steady state) No remarkable damage.
Cap change:
NP0: within ± 5% or 0.5pF whichever is larger
X7R, X5R: ≥ 10V**,within ± 12.5%; ≦ 6.3V within ± 25%;C ≥ 1μF,within ± 25%
**10V: 0603 ≧ 4.7μF;0402 ≧ 1μF;0201 ≧ 0.1μF, within ± 25%;
Y5V: ≥ 10V, within ± 30%; ≦ 6.3V, within +30 / -40%
Q/D.F. value:
NP0: More than 30pF Q ≥ 350, 10pF ≦ C ≦ 30pF, Q ≥ 275 + 2.5C Less than 10pF Q ≥ 200+10C
X7R, X5R:

Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 100V 3% 6% 1206 ≧ 0.47μF
7.5% 0603 ≧ 0.068μF; 0805>0.1μF;1206>1μF; 1210 ≧ 2.2μF
20% 0805 > 0.22μF;1210 ≧ 3.3μF
≧ 50V 3% 6% 0201(50V); 0603 ≧ 0.047μF;0805 ≧ 0.18μF; 1206 ≧ 0.47μF
10% 0201 ≧ 0.01μF; 1210 ≧ 4.7μF
20% 0402 ≧ 0.1μF;0603>0.1μF;0805 ≧ 1μF;1206 ≧ 2.2μF; 1210 ≧ 10μF
35V 5% 20% 0603 ≧ 1μF;0805 ≥ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 10μF
25V 5% 10% 0201 ≧ 0.01μF; 0805 ≧ 1μF;1210 ≧ 10μF
14% 0603 ≧ 0.33μF; 1206 ≧ 4.7μF
15% 0201 ≧ 0.1μF;0402 ≧ 0.10μF; 0603 ≧ 0.47μF
0805 ≧ 2.2μF; 1206 ≧ 6.8μF;1210 ≧ 22μF
20% 0402 ≥ 0.47μF
16V 5% 10% 0603 ≧ 0.15μF; 0805 ≧ 0.68μF;1206 ≧ 2.2μF;1210 ≧ 4.7μF
15% 0201 ≧ 0.01μF(0201/X7R ≧ 0.022μF);
0402 ≧ 0..33μF; 0603 ≧ 0.68μF;0805 ≧ 2.2μF;
1206 ≧ 4.7μF;1210 ≧ 22μF
10V 7.5% 15% 0201 ≧ 0.012μF;0402 ≧ 0.33μF(0402/X7R ≧ 0.22μF)
0603 ≧ 0.33μF; 0805 ≧ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 22μF
20% 0201 ≧ 0.1μF; 0402 ≧ 1μF
6.3V 15% 30% 0201 ≧ 0.1μF; 0402 ≧ 1μF;0603 ≧ 10μF; 0805 ≧ 4.7μF
1206 ≧ 47μF;1210 ≧ 100μF

Y5V:

Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 50V 7.5% 10% 0603 ≧ 0.1μF; 0805 ≧ 0.47μF;1206 ≧ 4.7μF
20% 1210 ≧ 6.8μF
35V 10%
25V 7.5% 10% 0402 ≧ 0.047μF; 0603 ≧ 0.1μF;0805 ≧ 0.33μF;
1206 ≧ 1μF;1210 ≧ 4.7μF
15% 0402 ≧ 0.068μF; 0603 ≧ 0.47μF;1206 ≧ 4.7μF;
1210 ≧ 22μF
16V
(C < 1.0μF)
10% 12.5% 0402 ≧ 0.068μF; 0603 ≧ 0.68μF
20% 0402 ≧ 0.22μF
16V
(C ≧ 1.0μF)
12.5% 20% 0603 ≧ 2.2μF; 0805 ≧ 3.3μF;1206 ≧ 10μF;
1210 ≧ 22μF;1812 ≧ 47μF
10V 20% 30% 0402 ≧ 0.47μF
6.3V 30% - -

I.R.: ≥ 10V, 1GΩ or 50 Ω-F whichever is smaller.
Class II (X7R, X5R, Y5V)

Rated Voltage Insulation Resistance
100V: X7R 10GΩ or R x C ≧ 10Ω-F Whichever is smaller
50V: 0402>0.01μF;0603 ≥ 1μF;0805 ≥ 1μF;
1206 ≥ 4.7μF;1210 ≥ 4.7μF
35V: 0603 ≥ 1μF;0805 ≥ 2.2μF; 1206 ≧ 2.2μF;1210 ≧ 10μF
25V: 0201 ≧ 0.1μF; 0402 ≥ 0.22μF;
0603 ≥ 2.2μF;0805 ≥ 2.2μF;
1206 ≥ 10μF;1210 ≥ 10μF
16V: 0201 ≥ 0.1μF,0402 ≥ 0.22μF;0603 ≥ 1μF;
0805 ≥ 2.2μF;1206 ≥ 10μF;1210 ≥ 47μF
10V: 0201 ≥ 47nF;0402 ≥ 0.47μF;0603 ≥ 0.47μF
0805 ≥ 2.2μF;1206 ≥ 4.7μF;1210 ≥ 47μF
6.3V
Test temp.: 40 ± 2°C
Humidity: 90 ~ 95%RH
Test time: 500 + 24 / -0hrs.
Before initial measurement (Class II only): To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Cap. / DF(Q) / I.R. Measurement to be made after de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Item Requirement Test Method
Humidity load No remarkable damage.
Cap change:
NP0: ± 7.5% or 0.75pF whichever is larger.
X7R, X5R, X6S, X7S: ≥ 10V**,within ± 12.5%; ≦ 6.3V within ± 25%;
TT series & C ≥ 1uF,within ± 25%
**10V: 0603 4.7μF;0402 1μF;0201 ≧ ≧ ≧ 0.1μF, within ± 25%;
Y5V: ≥ 10V, within ± 30%; ≦ 6.3V, within +30 / -40%
Q/D.F. value:
NP0: C ≥ 30pF,Q ≥ 200;C<30pF, Q ≥ 100+10 / 3C
X7R, X5R:
Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 100V 3% 6% 1206 ≧ 0.47μF
7.5% 0603 ≧ 0.068μF; 0805>0.1μF;1206>1μF; 1210 ≧ 2.2μF
20% 0805 > 0.22μF;1210 ≧ 3.3μF
≧ 50V 3% 6% 0201(50V); 0603 ≧ 0.047μF;0805 ≧ 0.18μF; 1206 ≧ 0.47μF
10% 0201 ≧ 0.01uF; 1210 ≧ 4.7μF
20% 0402 ≧ 0.1μF;0603>0.1μF;0805 ≧ 1μF;1206 ≧ 2.2μF; 1210 ≧ 10μF
35V 5% 20% 0603 ≧ 1μF;0805 ≥ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 10μF
25V 5% 10% 0201 ≧ 0.01μF; 0805 ≧ 1μF;1210 ≧ 10μF
14% 0603 ≧ 0.33μF; 1206 ≧ 4.7μF
15% 0201 ≧ 0.1μF;0402 ≧ 0.10μF; 0603 ≧ 0.47μF
0805 ≧ 2.2μF; 1206 ≧ 6.8μF;1210 ≧ 22μF
20% 0402 ≥ 0.47μF
16V 5% 10% 0603 ≧ 0.15μF; 0805 ≧ 0.68μF;1206 ≧ 2.2μF;1210 ≧ 4.7μF
15% 0201 ≧ 0.01μF (0201 / X7R ≧ 0.022μF);
0402 ≧ 0..33μF; 0603 ≧ 0.68μF;0805 ≧ 2.2μF;
1206 ≧ 4.7μF;1210 ≧ 22μF
10V 7.5% 15% 0201 ≧ 0.012μF;0402 ≧ 0.33μF(0402/X7R ≧ 0.22μF)
0603 ≧ 0.33μF; 0805 ≧ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 22μF
20% 0201 ≧ 0.1μF; 0402 ≧ 1μF
6.3V 15% 30% 0201 ≧ 0.1μF; 0402 ≧ 1μF;0603 ≧ 10μF; 0805 ≧ 4.7μF
1206 ≧ 47μF;1210 ≧ 100μF

Y5V:

Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 50V 7.5% 10% 0603 ≧ 0.1μF; 0805 ≧ 0.47μF;1206 ≧ 4.7uF
20% 1210 ≧ 6.8μF
35V 10% - -
25V 7.5% 10% 0402 ≧ 0.047μF; 0603 ≧ 0.1μF;0805 ≧ 0.33μF;
1206 ≧ 1μF;1210 ≧ 4.7μF
15% 0402 ≧ 0.068μF; 0603 ≧ 0.47μF;1206 ≧ 4.7μF;
1210 ≧ 22μF
16V (C < 1.0μF) 10% 12.5% 0402 ≧ 0.068μF; 0603 ≧ 0.68μF
20% 0402 ≧ 0.22μF
16V (C ≧ 1.0μF) 12.5% 20% 0603 ≧ 2.2μF; 0805 ≧ 3.3μF;1206 ≧ 10μF;
1210 ≧ 22μF;1812 ≧ 47μF
10V 20% 30% 0402 ≧ 0.47μF
6.3V 30% - -

I.R.: ≥ 10V, 500MΩ or 25 Ω-F whichever is smaller.
Class II (X7R, X5R, Y5V)

Rated Voltage Insulation Resistance
100V: X7R 500MΩ or R x C ≧ 5Ω-F Whichever is smaller
50V: 0402>0.01μF;0603 ≥ 1μF;0805 ≥ 1μF;
1206 ≥ 4.7μF;1210 ≥ 4.7μF
35V: 0603 ≥ 1μF;0805 ≥ 2.2μF; 1206 ≧ 2.2μF;1210 ≧ 10μF
25V: 0201 ≧ 0.1uF; 0402 ≥ 0.22μF; 0603 ≥ 2.2μF;0805 ≥ 2.2μF;
1206 ≥ 10μF;1210 ≥ 10μF
16V: 0201 ≥ 0.1μF,0402 ≥ 0.22μF;0603 ≥ 1μF;
0805 ≥ 2.2μF;1206 ≥ 10μF;1210 ≥ 47μF
10V: 0201 ≥ 47nF;0402 ≥ 0.47uF;0603 ≥ 0.47uF
0805 ≥ 2.2uF;1206 ≥ 4.7uF;1210 ≥ 47uF
6.3V
Test temp.: 40 ± 2°C
Humidity: 90 ~ 95%RH
Test time: 500 + 24 / -0 hrs.
To apply voltage:
Rated voltage (MAX. 500V)
Before initial measurement (Class II only): To apply de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Cap. / DF(Q) / I.R. Measurement to be made after de-aging at 150°C for 1hr then set for 24 ± 2 hrs at room temp.
Item Requirement Test Method
High Temperature Load (Endurance)

No remarkable damage.
Cap change:
NP0: ± 3.0% or ± 0.3pF whichever is larger X7R, X5R, X6S, X7S: ≥ 10V**, within ± 12.5%; ≦ 6.3V within ± 25%;
TT series & C ≥ 1uF,within ± 25%
**10V: 0603 ≧ 4.7μF;0402 ≧ 1μF;0201 ≧ 0.1μF, within ± 25%;
Y5V: ≥ 10V, within ± 30%; ≦ 6.3V, within +30 / -40%
Q/D.F. value:
NP0: More than 30pF, Q ≥ 350
10pF ≤ C<30pF, Q ≥ 275+2.5C
Less than 10pF, Q ≥ 200 + 10C
X7R, X5R:

Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 100V 3% 6% 1206 ≧ 0.47μF
7.5% 0603 ≧ 0.068μF; 0805>0.1μF;1206>1μF; 1210 ≧ 2.2μF
20% 0805 > 0.22μF;1210 ≧ 3.3μF
≧ 50V 3% 6% 0201 (50V); 0603 ≧ 0.047μF;0805 ≧ 0.18μF; 1206 ≧ 0.47μF
10% 0201 ≧ 0.01uF; 1210 ≧ 4.7μF
20% 0402 ≧ 0.1μF;0603>0.1μF;0805 ≧ 1μF;1206 ≧ 2.2μF; 1210 ≧ 10μF
35V 5% 20% 0603 ≧ 1μF;0805 ≥ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 10μF
25V 5% 10% 0201 ≧ 0.01μF; 0805 ≧ 1μF;1210 ≧ 10μF
14% 0603 ≧ 0.33μF; 1206 ≧ 4.7μF
15% 0201 ≧ 0.1μF;0402 ≧ 0.10μF; 0603 ≧ 0.47μF
0805 ≧ 2.2μF; 1206 ≧ 6.8μF;1210 ≧ 22μF
20% 0402 ≥ 0.47μF
16V 5% 10% 0603 ≧ 0.15μF; 0805 ≧ 0.68μF;1206 ≧ 2.2μF;1210 ≧ 4.7μF
15% 0201 ≧ 0.01μF (0201 / X7R ≧ 0.022μF);
0402 ≧ 0..33μF; 0603 ≧ 0.68μF;0805 ≧ 2.2μF;
1206 ≧ 4.7μF;1210 ≧ 22μF
10V 7.5% 15% 0201 ≧ 0.012μF;0402 ≧ 0.33μF (0402 / X7R ≧ 0.22μF)
0603 ≧ 0.33μF; 0805 ≧ 2.2μF;1206 ≧ 2.2μF;1210 ≧ 22μF
20% 0201 ≧ 0.1μF; 0402 ≧ 1μF
6.3V 15% 30% 0201 ≧ 0.1μF; 0402 ≧ 1μF;0603 ≧ 10μF; 0805 ≧ 4.7μF
1206 ≧ 47μF;1210 ≧ 100μF

Y5V:

Rated vol. D.F. ≦ Exception of D.F. ≦
≧ 50V 7.5% 10% 0603 ≧ 0.1μF; 0805 ≧ 0.47μF;1206 ≧ 4.7uF
20% 1210 ≧ 6.8μF
35V 10% - -
25V 7.5% 10% 0402 ≧ 0.047μF; 0603 ≧ 0.1μF;0805 ≧ 0.33μF;
1206 ≧ 1μF;1210 ≧ 4.7μF
15% 0402 ≧ 0.068μF; 0603 ≧ 0.47μF;1206 ≧ 4.7μF;
1210 ≧ 22μF
16V (C < 1.0μF) 10% 12.5% 0402 ≧ 0.068μF; 0603 ≧ 0.68μF
20% 0402 ≧ 0.22μF
16V (C ≧ 1.0μF) 12.5% 20% 0603 ≧ 2.2μF; 0805 ≧ 3.3μF;1206 ≧ 10μF;
1210 ≧ 22μF;1812 ≧ 47μF
10V 20% 30% 0402 ≧ 0.47μF
6.3V 30% - -

I.R.: ≥ 10V, 1GΩ or 50 Ω-F whichever is smaller.
Class II (X7R, X5R, Y5V)

Rated Voltage Insulation Resistance
100V: X7R 500MΩ or R x C ≧ 5Ω-F Whichever is smaller
50V: 0402>0.01μF;0603 ≥ 1μF;0805 ≥ 1μF;
1206 ≥ 4.7μF;1210 ≥ 4.7μF
35V: 0603 ≥ 1μF;0805 ≥ 2.2μF; 1206 ≧ 2.2μF;1210 ≧ 10μF
25V: 0201 ≧ 0.1uF; 0402 ≥ 0.22μF; 0603 ≥ 2.2μF;0805 ≥ 2.2μF;
1206 ≥ 10μF;1210 ≥ 10μF
16V: 0201 ≥ 0.1μF,0402 ≥ 0.22μF;0603 ≥ 1μF;
0805 ≥ 2.2μF;1206 ≥ 10μF;1210 ≥ 47μF
10V: 0201 ≥ 47nF;0402 ≥ 0.47uF;0603 ≥ 0.47uF
0805 ≥ 2.2uF;1206 ≥ 4.7uF;1210 ≥ 47uF
6.3V

Test temp.:
NP0, X7R: 125 ± 3°C
X5R, Y5V: 85 ± 3°C
Test Time:1000+24/-0hrs
To apply voltage:
(1) ≦ 6.3V or C ≧ 10μF : 150% of rated voltage.
(2) 10V ≦ Ur<500V: 200% of rated voltage.
(3) 500V: 150% of rated voltage.
(4) Ur ≧ 630V: 120% of rated voltage.
(5) 100% of rated voltage for below range.

Size Dielectric Rated voltage Capacitance range
0201 X5R, X7R ≦ 10V C ≧ 0.1uF
≧ 16V C>0.1μF
0402 X5R, X7R, Y5V 6.3V, 10V, 16V, 25V C ≧ 1.0uF
0603 X5R, X7R 6.3V, 10V C ≧ 4.7uF
25V, 35V C ≧ 1.0uF
0805 X5R, X7R 6.3V C ≧ 22uF
10V ~ 50V C ≧ 10uF
1206 X5R, X7R 6.3V C ≧ 47uF
NPO 3000V C ≧ 1.5pF
1210 X5R, X7R 16V C ≧ 47uF
X7R 100V C ≧ 3.3uF

(6) 150% of rated voltage for below range

Size Dielectric Rated voltage Capacitance range
0201 X5R, X7R 16V, 25V C ≧ 0.1uF
X7R 16V C>0.022μF
0402 X5R, X7R 50V C ≧ 1.0uF
10 ~ 25V C ≧ 0.022uF
Y5V 16V C ≧ 0.47uF
0603 X7R 50V C ≧ 0.1uF
X5R, X7R 10V, 16V, 50V C ≧ 1.0uF
Y5V 16V C ≧ 2.2uF
0805 X5R, X7R 10V ~ 50V C ≧ 4.7uF
X5R, X7R 50V C ≧ 2.2uF
100V C ≧ 0.47uF
Y5V 16V C ≧ 4.7uF
1206 X5R, X7R 100V C ≧ 1.0uF
1210 X5R, X7R 50V ~ 100V C ≧ 2.2uF

Verpackung

Packaging Quantity (Unit: mm)

Type Thickness / Symbol Packaging (7" Reel)
Paper Tape Plastic Tape
0201 0.30 ± 0.03 L 15K -
0.30 ± 0.05 L 15K -
0.30 ± 0.09 L 15K -
0402 0.50 ± 0.05 N 10K -
0.5+0.02/-0.05 Q 10K -
0.50 ± 0.20 E 10K -
0603 0.50 ± 0.10 H 4K -
0.80 ± 0.10 S 4K -
0.80 +0.15 / -0.10 X 4K -
0805 0.50 ± 0.10 H 4K -
0.60 ± 0.10 A 4K -
0.80 ± 0.10 B 4K -
0.85 ± 0.10 T 4K -
1.25 ± 0.10 D - 3K
1.25 ± 0.20 I - 3K
1206 0.80 ± 0.10 B 4K -
0.85 ± 0.10 T 4K -
0.95 ± 0.10 C - 3K
1.15 ± 0.15 J - 3K
1.25 ± 0.10 D - 3K
1.60 ± 0.20 G - 2K
1.60 +0.30 / -0.10 P - 2K
1210 0.85 ± 0.10 T - 3K
0.95 ± 0.10 C - 3K
1.25 ± 0.10 D - 3K
1.60 ± 0.20 G - 2K
2.00 ± 0.20 K - 1K
2.50 ± 0.30 M - 1K
2.50 ± 0.30 M - 0.5K
1808 1.25 ± 0.10 D - 2K
1.10 ± 0.15 F - 2K
1.60 ± 0.20 G - 2K
2.00 ± 0.20 K - 1K

1812

1.25 ± 0.10 D - 1K
1.60 ± 0.20 G - 1K
2.00 ± 0.20 K - 1K
2.50 ± 0.30 M - 0.5K
2.80 ± 0.30 U - 0.5K
0612 0.80 ± 0.10 B 4K -

Tape and Reel (Unit: mm)

SMD Capacitor (MC) - Tape and Reel
Type Chip Size
0201 0402 0603 0805 1206
0612
1210 1808 1812
∅ C 13.0 ± 1.0 13.0 ± 1.0 13.0 ± 1.0 13.0 ± 1.0 13.0 ± 1.0 13.0 ± 1.0 13.0 ± 1.0 13.0 ± 1.0
W 9.0 ± 1.0 9.0 ± 1.0 9.0 ± 1.0 9.0 ± 1.0 9.0 ± 1.0 9.0 ± 1.0 13.5 ± 1.0 13.5 ± 1.0
∅ A 178 ± 1.0 (7") 178 ± 1.0 (7") 178 ± 1.0 (7") 178 ± 1.0 (7") 178 ± 1.0 (7") 178 ± 1.0 (7") 178 ± 1.0 (7") 178 ± 1.0 (7")
∅ B 60.5 ± 1.0 (7") 60.5 ± 1.0 (7") 60.5 ± 1.0 (7") 60.5 ± 1.0 (7") 60.5 ± 1.0 (7") 60.5 ± 1.0 (7") 80.0 ± 1.0 (7") 80.0 ± 1.0 (7")

Plastic Tape Size Specification (Unit: mm)

SMD Capacitor (MC) - Plastic Tape Size Specification
Type 0805 1206 1210 1808 1812
Thickness D I C J D G P T C D G K M D F G K D F G K M U
A0 <1.80 <200 <2.30 <3.05 <3.05 <3.20 <2.50 <3.90
B0 <2.70 <3.70 <4.00 <3.80 <3.80 <3.95 <5.30 <5.30
T 0.23 ± 0.10 0.23 ± 0.10 0.23 ± 0.10 0.23 ± 0.10 0.23 ± 0.10 0.23 ± 0.10 0.25 ± 0.10 0.25 ± 0.10
K0 <2.50 <2.50 <2.50 <1.50 <2.50 <3.00 <2.50 <2.50 <3.50
W 8.00 ± 0.20 8.00 ± 0.20 8.00 ± 0.20 8.00 ± 0.20 8.00 ± 0.20 8.00 ± 0.20 12.0 ± 0.20 12.0 ± 0.20
P0 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10
P1 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 8.00 ± 0.10
P2 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.10 2.00 ± 0.05
D0 1.50 + 0.1/-0 1.50 ± 0.05 1.50 + 0.1/-0 1.50 + 0.1/-0 1.50 + 0.1/-0 1.50 + 0.1/-0 1.50 + 0.1/-0 1.50 + 0.1/-0
D1 1.00 ± 0.10 1.00 ± 0.10 1.00 ± 0.10 1.00 ± 0.10 1.00 ± 0.10 1.00 ± 0.10 1.50 ± 0.10 1.50 ± 0.10
E 1.75 ± 0.10 1.75 ± 0.10 1.75 ± 0.10 1.75 ± 0.10 1.75 ± 0.10 1.75 ± 0.10 1.75 ± 0.10 1.75 ± 0.10
F 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 5.50 ± 0.10 5.50 ± 0.10

Paper Tape Size Specification (Unit: mm)

SMD Capacitor (MC) - Paper Tape Size Specification
Type 0201 0402 0603 0805 1206 / 0612
Thickness L N E S H X A H B T B T
A0 0.39 ± 0.07 0.70 ± 0.20 1.05 ± 0.30 1.50 ± 0.20 1.50 ± 0.20 1.90 ± 0.50
B0 0.69 ± 0.07 1.20 ± 0.20 1.80 ± 0.30 2.30 ± 0.20 2.30 ± 0.20 3.50 ± 0.50
T ≦0.50 ≦0.80 ≦1.20 ≦1.15 ≦1.30 ≦1.30
W 8.00 ± 0.10 8.00 ± 0.10 8.00 ± 0.10 8.00 ± 0.10 8.00 ± 0.10 8.00 ± 0.10
P0 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10
P1 2.00 ± 0.05 2.00 ± 0.05 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10 4.00 ± 0.10
P2 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05 2.00 ± 0.05
D0 1.55 ± 0.05 1.55 ± 0.05 1.55 ± 0.05 1.55 ± 0.05 1.55 ± 0.05 1.50 ± 0.05
E 1.75 ± 0.05 1.75 ± 0.05 1.75 ± 0.05 1.75 ± 0.05 1.75 ± 0.05 1.75 ± 0.10
F 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05

Code

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Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180)Hersteller - Viking

Mit Sitz in Taiwan ist Viking Tech Corporation seit 1997 einer der führenden Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180) Hersteller.Und ihre Produkte werden in der gesamten Automobil- und Elektronikgeräteindustrie eingesetzt, mit einer Fertigungstoleranz von bis zu 0,01 % und einem TCR von bis zu 2 ppm in einer breiten Palette von Gehäusegrößen.

Mit TS16949/ ISO9001/ ISO14001 und Erfüllung der AEC-Q200-Standards bietet Viking antischwefelhaltige, überspannungsfeste, puls-, hochspannungs- und hochleistungsfähige Präzisionswiderstände, einschließlich Dünn-/Dickfilmwiderstände, Automobilwiderstände, Melf-Widerstände, Strommesswiderstände usw. Niedriges Rauschen, niedriger TC, Hochleistungsinduktoren wie RF-Induktoren, Chip-Induktoren, Leistungsinduktoren, variable Induktoren, Ferrit-Chip-Induktoren, geschirmte Induktoren, Drahtwickelinduktoren und DIP-Induktoren.

Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180)bietet Kunden seit vielen Jahren hochwertige Leistungswiderstände, Leistungsdrosseln und Aluminium-Elektrolytkondensatoren mit einem soliden Ruf an. Mit fortschrittlicher Technologie und 25 Jahren Erfahrung stellt Viking sicher, dass alle Kundenanforderungen erfüllt werden.

Mehrschichtiger Keramik-Chip-Kondensator (MC-Serie MCHL03GTN101180)bietet Kunden seit vielen Jahren hochwertige Leistungswiderstände, Leistungsdrosseln und Aluminium-Elektrolytkondensatoren mit einem soliden Ruf an. Mit fortschrittlicher Technologie und 25 Jahren Erfahrung stellt Viking sicher, dass alle Kundenanforderungen erfüllt werden.


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