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NMCHC Datasheet, PDF (1/11 Pages) NIC-Components Corp. – Multilayer Ceramic Chip Capacitors
Multilayer Ceramic Chip Capacitors
NMC High CV Series
FEATURES
• X7R, X5R AND Y5V DIELECTRICS
• HIGH CAPACITANCE DENSITY
• ULTRA LOW ESR & ESL
• EXCELLENT MECHANICAL STRENGTH
• NICKEL BARRIER TERMINATIONS
• RoHS COMPLIANT
• SAC SOLDER COMPATIBLE*
RoHS
Compliant
Includes all homogeneous materials
*See Part Number System for Details
Temperature Coefficient
X7R
X5R
Y5V
Capacitance Range
1.0μF ~ 47μF
1.0μF ~ 100μF
1.0μF ~ 100μF
Capacitance Tolerance
10% (K) & 20% (M)
10% (K) & 20% (M)
+80%/-20% (Z)
Operating Temperature Range
-55°C ~ +125°C
-55°C ~ +85°C
-30°C ~ +85°C
Temperature Characteristics
±15% Δ Cap.
±15% Δ Cap.
+22%, -82% Δ Cap.
Rated Voltages
4Vdc, 6.3Vdc, 16Vdc, 25Vdc, 35Vdc, 50Vdc & 100Vdc
Dissipation Factor
insulation Resistance
See Part Number and Specificaitons Tables
Dielectric Withstanding Voltage 250% of Rated Voltage for 5 ± 1 sec., 50mA max.
150% of Rated Voltage for 5 ± 1 sec., 50mA max.
Test Conditions (EIA-198-2E)
C < 10μF 1KHz, 1.0V ±0.2Vrms (ALC on)
C > 10μF 120Hz, 0.5V ±0.2Vrms (ALC on)
1KHz, 1.0V ±0.1Vrms (ALC on)
*Reflow soldering is recommended. Contact NIC regarding the use of other soldering methods.
Capacitance value stability over applied VDC is not assured for class II MLCC (X7R, X5R & Y5V) and it is suggested to consider
to use NPO MLCCs Ceramic Capacitors, Film Capacitors or Electrolytic Capacitors for applications where stability in capacitance
value, over applied VDC, is performance requirement.
For additional information go to: http://www.niccomp.com/help/VoltageCoefficientofCapacitors-032012-R1.pdf.
PART NUMBER SYSTEM
NMC 0603 Y5V 105 Z 25 TRP or TRPLP 3K F
RoHS Compliant
Optional Reel Qty (3K = 3,000pcs)
Tape & Reel (Embossed Plastic Carrier)
Tape & Reel (Punched carrier)
Voltage (Vdc)
Capacitance Tolerance Code (see chart)
Capacitance Code, expressed in pF, first 2 digits are
significant, 3rd digit is no. of zeros
Temperature Characteristic (X7R, X5R OR Y5V)
Size Code (see chart)
Series
Typical ESR versus Frequency
Typical Capacitance versus Bias Voltage
®
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SPECIFICATIONS ARE SUBJECT TO CHANGE