GMC32X7R126B25NT-LF datasheet, PDF

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GMC32X7R126B25NT-LF: DescriptionCeramic Capacitor, Multilayer, Ceramic, 25V, 0% +Tol, 0% -Tol, X7R, 15% TC, 12uF, Surface Mount, 1210, CHIP, LEAD FREE; CategoryPassive components capacitor; File Size434KB，22 Pages; ManufacturerCal-Chip Electronics; Environmental Compliance

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GMC32X7R126B25NT-LF Overview

Ceramic Capacitor, Multilayer, Ceramic, 25V, 0% +Tol, 0% -Tol, X7R, 15% TC, 12uF, Surface Mount, 1210, CHIP, LEAD FREE

GMC32X7R126B25NT-LF Parametric

Parameter Name	Attribute value
Is it lead-free?	Lead free
Is it Rohs certified?	conform to
Maker	Cal-Chip Electronics
package instruction	, 1210
Reach Compliance Code	compliant
ECCN code	EAR99
capacitance	12 µF
Capacitor type	CERAMIC CAPACITOR
dielectric materials	CERAMIC
JESD-609 code	e3
Installation features	SURFACE MOUNT
multi-layer	Yes
negative tolerance
Number of terminals	2
Maximum operating temperature	125 °C
Minimum operating temperature	-55 °C
Package shape	RECTANGULAR PACKAGE
method of packing	TR, EMBOSSED PLASTIC, 7/13 INCH
positive tolerance
Rated (DC) voltage (URdc)	25 V
size code	1210
surface mount	YES
Temperature characteristic code	X7R
Temperature Coefficient	15% ppm/°C
Terminal surface	Matte Tin (Sn) - with Nickel (Ni) barrier
Terminal shape	WRAPAROUND
Base Number Matches	1

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Cal-Chip

Electronics, Incorporated

Multilayer Ceramic Chip Capacitors

Introduction

GMC S

ERIES

Multilayer Surface Mount Ceramic Capacitors are constructed by screen printing alternative layers of internal metallic

electrodes onto ceramic dielectric materials and firing into a concrete monolithic body, then completed by application of

metal end terminations which are fired to assure permanent bonding with the individual internal electrodes.

Multilayer ceramic capacitors have various features such as large capacitance values in small sizes and excellent high

frequency characteristics.

Moreover, chip capacitors can be used on surface mount assembly equipment. Our fully integrated manufacturing and

total quality control systems ensure unprecedented high standards of quality and reliability.

Chip Capacitor Selection

Selection of the most suitable capacitor for any application is based on the following:

Dielectric Type

The choice of dielectric is largely determined by the temperature stability required.

COG (NPO)

Capacitance change with temperature is 0-30ppm/°C which is less than -0.3%°C from -55°C to +125°C. Typical capacitance

change with life is less than -0.1% for NPOs, one-fifth that shown by most other dielectrics. NPO formulations show no aging

characteristics.

X7R/X5R

Its temperature variation of capacitance is within ±15% from -55°C to +125°C (-55°C to +85°C for X5R). The capacitance change is

non-linear.

Z5U

Despite their capacitance instability, Z5U formulations are very popular because of their small size, temperature range low

ESL, low ESR and excellent frequency response. These features are particularly important for decoupling application where

only a minimum capacitance value is required.

Y5V

Y5V formulations are for general purpose use in a limited temperature range. They have a wide temperature characteristic

of +22% - 82% capacitance change over the operating temperature range of -30°C to +85°C. Y5Vs high dielectric constant

allows the manufacture of very high capacitance values (up to 22MF) in small physical sizes.

Capacitance Value & Tolerance

Determined by circuit requirements. Note that chip prices decrease with lower capacitance value and looser tolerance.

Voltage

Determined by circuit requirements. Units are designed to exceed the withstanding voltage specification, i.e., the user need

not incorporate an additional safety margin.

Capacitor Size

Select the smallest unit permitted by the circuit constraints that provides the required capacitance and voltage rating.

All Cal-Chip capacitors conform to EIA specifications.

Capacitor Termination

Termination choice is largely determined by the chip attachment method. Silver-palladium is adequate for most applications

involving soldering or solder reflow.

Nickel barrier is standard and recommended for units exposed to repeated solder cycles, to minimize leaching of the ter-

mination.

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