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This work represents results of verification of experimental samples of Multi-Functional Control Integrated Circuits (MFC IC) developed for modern low power, high-efficiency power supply units. MFC IC samples have been designed and manufactured in 250 nm BCD IC technology that combines CMOS, bipolar and DMOS. Electrostatic Discharge protection solution developed for 2000 V is analyzed.
This work is devoted to the experimental verification “in silicon” of an active output rectifier (AOR) integrated circuit (IC) for high-efficiency power supply units. IC is realized with the use of 250 nm BCD (Bipolar, CMOS, DMOS) mixed technology. As a part of this work, high-voltage low drop output (LDO) voltage regulator integrated circuit (IC) for power supply units has been characterized. This...
This work is devoted to development of high-voltage low drop output (LDO) voltage regulator integrated circuit (IC) for power supply units. IC is realized in 250 nm BCD (Bipolar, CMOS, DMOS) mixed technology.
This work represents experience obtained during development of experimental samples of Multi-Functional Control Integrated Circuits dedicated for modern low power, high-efficiency power supply units.
This work is devoted to the designing and development of an active output rectifier (AOR) integrated circuit (IC) for high-efficiency power supply units. IC is realized with the use of 250 nm BCD (Bipolar, CMOS, DMOS) mixed technology.
This work is devoted to the designing and development of Electrostatic Discharge (ESD) Protection elements for Integrated Circuits in 250 nm BCD (Bipolar, CMOS, DMOS) mixed technology. ESD protection solution has been developed for Multi-Functional Control ICs dedicated to the implementation in AC/DC and DC/DC Power Supply Units. This solution assumes using of different voltage domains and based on...
Current status is presented for the development and experimental verifcation of 0.18 μm high voltage CMOS integrated circuits with pad-based ESD protection made with the use of lateral bipolar transistor. Developed I/O pads provide 2000 V ESD protection.
Current status for an integrated circuit driver designing and verification for the implementation in AC/DC power supply units with Zero Voltage Switching operation mode is presented. This IC is dedicated for modern high-power, high-efficiency power supply units.
Integrated circuit test chip of adaptive power transistors driver has been developed for implementation in AC/DC power supply units with Zero Voltage Switching operation mode. This IC is dedicated for high-power, high-efficiency power supply units.
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