Multilayer ceramic chip capacitors
May 26, 2015
Soft-termination MLCCs with X8R thermal characteristics for automotive applications
- Suitable for harsh environmental conditions from -55 °C up to +150 ºC
- Effective protection against solder cracks, flex cracks, and damage from vibrations and shocks
- Broadest lineup of crack-resistant MLCCs for automotive applications
- Qualified to AEC-Q200
TDK Corporation announces the introduction of high temperature resistant MLCCs with soft terminations, expanding the CGA series of MLCCs for automotive applications. These components employ electrodes made of conductive resins that provide effective protection against solder cracks caused by thermal cycling, flex cracks caused by stress to the PCB, and damage due to vibrations and shocks. In addition, the new CGA series of MLCCs employ an X8R dielectric material and are thus able offer stable capacitance values (±15 percent) at temperatures from -55 °C to +150 °C.
The new components are available in package sizes of IEC 1005 (EIA 0402) to IEC 3225 (EIA 1210) and offer rated capacitances ranging from 150 pF to 10 µF and rated voltages from 16 V to 100 V. The new series include the world’s only X8R soft-termination MLCC in an IEC 1005 package*. Thus, TDK offers the broadest lineup of crack-resistant MLCCs designed for demanding automotive applications. These components are especially suitable for ECUs used in high temperature environments such as engine compartments and where space is at a premium as well as for use in smoothing and decoupling circuits. Mass production of the new MLCCs, which are qualified to AEC-Q200, will start in June 2015.
Modern cars increasingly rely on electronic systems and implement electric operation, which has led to a drastic increase in the number of electronic components found in such vehicles. At the same time, there is a strong trend towards locating electronic control units in the engine compartment or near other structural parts in order to gain more space for passengers. Electronic components used for such applications must be able to withstand high temperatures and severe vibrations. The new MLCCs retain all the advantages of existing soft-termination products and are fully compliant with the industry's most stringent X8R specifications.
* As of April 2015, according to TDK investigations
Glossary
- X8R temperature characteristics: Dielectric material with ±15 percent change in capacitance in the temperature range from -55°C to +150°C
- Flex cracks: After MLCCs have been soldered to a PCB, handling processes such as board splitting, insertion of sockets and leaded components, and screw-down can cause the PCB to bend, and the accompanying tensile stresses can lead to cracks in the MLCC itself.
- Solder cracks: In an environment subject to repeated and drastic changes between high and low temperatures, thermal stress occurs in the solder section of components due to the different thermal expansion coefficients of the component and the PCB, leading to solder cracks.
Main applications
- Automotive ECUs in high temperature environments such as engine compartments
- Smoothing circuits and decoupling circuits
Main features and benefits
- Suitable for harsh environmental conditions from -55 °C up to +150 ºC
- High resistance against solder cracks caused by thermal cycling, flex cracks caused by stress to the PCB, and damage due to vibrations and shocks
- Wide capacitance range from 150 pF to 10 μF
- Qualified to AEC-Q200
Key data
Series | Package size [IEC] | Footprint [mm] | Rated voltage [V] | Capacitance |
---|---|---|---|---|
CGA2 | 1005 (EIA 0402) | 1.0 x 0.5 | 16 to 100 | 150 pF to 47 nF |
CGA3 | 1608 (EIA 0603) | 1.6 x 0.8 | 16 to 100 | 1 nF to 470 nF |
CGA4 | 2012 (EIA 0805) | 2.0 x 1.25 | 16 to 100 | 22 nF to 1 μF |
CGA5 | 3216 (EIA 1206) | 3.2 x 1.6 | 16 to 100 | 100 nF to 4.7 μF |
CGA6 | 3225 (EIA 1210) | 3.2 x 2.5 | 16 to 100 | 470 nF to 10 μF |
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