MagnaChip Semiconductor

Electronic Components & Devices

MagnaChip Introduces Bipolar-CMOS-DMOS Technology That Offers Specific On-Resistance of Power LDMOS

The Bipolar-CMOS-DMOS BCD Process Technology is suitable for PMIC, DC-DC converters, battery charger ICs, protection ICs, motor driver ICs and LED driver ICs. The technology with low Rsp LDMOS helps in reducing chip size and power loss of power ICs. It is used for generating diverse combination of 1.8V, 5V, and 12~40V transistors. The BCD process technology provides various optional devices such...

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Electronic Components & Devices

MagnaChip Introduces Bipolar-CMOS-DMOS Technology That Offers Specific On-Resistance of Power LDMOS

The Bipolar-CMOS-DMOS BCD Process Technology is suitable for PMIC, DC-DC converters, battery charger ICs, protection ICs, motor driver ICs and LED driver ICs. The technology with low Rsp LDMOS helps in reducing chip size and power loss of power ICs. It is used for generating diverse combination of 1.8V, 5V, and 12~40V transistors. The BCD process technology provides various optional devices such...

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Controls & Controllers

Magnachip Introduces Low Dropout Regulator That is Capable of Supplying 500 mA Maximum Current

The Low Dropout Regulator is designed to regulate output voltage when supply voltage is immensely close to the output voltage. The unit offers output voltage of 1.2V in 1.65V to 3.3V input voltage range. The device can remove input power noise and realizes a low quiescent current of 75 uA. The LDO is suitable for applications such as notebook PCs, tablets and smartphones.

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Controls & Controllers

Magnachip Introduces Low Dropout Regulator That is Capable of Supplying 500 mA Maximum Current

The Low Dropout Regulator is designed to regulate output voltage when supply voltage is immensely close to the output voltage. The unit offers output voltage of 1.2V in 1.65V to 3.3V input voltage range. The device can remove input power noise and realizes a low quiescent current of 75 uA. The LDO is suitable for applications such as notebook PCs, tablets and smartphones.

Read More »

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