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HOME > Products Center > Datang NXP Semiconductors
Datang NXP Semiconductor Co., Ltd., established in March 2014, is jointly funded by Datang Telecom Technology Co., Ltd., Xuzhou automobile semiconductor industry fund and Netherlands NXP Semiconductor Co., Ltd., the world's leading automobile semiconductor supplier. NXP holds 49%, Xuzhou automotive semiconductor industry fund holds 27%, and Datang Telecom holds 24%. The company focuses on battery management, motor drive and related integrated circuit design of new energy vehicles, focuses on R & D and sales of advanced special vehicle electronic chips using high-performance mixed signal technology, and is committed to becoming a leading automotive semiconductor company in the world. Based on advanced design and manufacturing infrastructure, advanced mixed signal technology, zero defect strategy, functional safety expertise and experienced product development team, we have developed lithium-ion battery monitoring chip and invested a lot in the battery management system market. With proprietary technology and knowledge, our vision is to add unique value to customers through market disruptive innovative products, so as to become a leader in the market of electric vehicles and industrial energy storage systems. Datang NXP semiconductor also has a driver chip product line for automotive lighting applications and is a leader in this segment.
Light position controller TDA3629
The Light position controller is a monolithic integrated circuit intended to be used in passenger cars. This device adapts the elevation of the light beam of the head light of the car to a state defined by the car driver using a potentiometer on the dashboard.
The Light position controller is a monolithic integrated circuit intended to be used in passenger cars. This device adapts the elevation of the light beam of the head light of the car to a state defined by the car driver using a potentiometer on the dashboard.
Single cell supervisor (Linx) DNB1100
DNB1100 is a single cell lithium-ion battery monitoring chip, which can detect and balance the voltage and temperature of individual cells or parallel battery packs. The chip temperature sensor integrated in the internal can be used to test the temperature of the cell, and there is no need to use the thermocouple NTC to monitor the temperature.
DNB1100 is a single cell lithium-ion battery monitoring chip, which can detect and balance the voltage and temperature of individual cells or parallel battery packs. The chip temperature sensor integrated in the internal can be used to test the temperature of the cell, and there is no need to use the thermocouple NTC to monitor the temperature.
Single cell supervisor (Linx) DNB1101B
The DNB1101 is a single cell supervisor (Linx) IC that provides electrochemical impedance spectroscopy (EIS) for each individual cell or a group of cells in parallel. The integrated die temperature sensors can be used for cell temperature measurement. Additional thermo-couples/NTCs are no longer required. The DNB1101 measures the cell impedance based on a patented circuit technology, enabling a new approach of indicating the internal cell temperature. It also enables on-line state-of-health estimation, in combination with algorithms running on the pack controller. The IC integrates separate (redundant) ADCs for both voltage and temperature measurement. With a differential daisy chain, the cell measurement information is transmitted to the pack controller. The first IC in the chain translates a standard SPI signal to the daisy chain differential signal.
The DNB1101 is a single cell supervisor (Linx) IC that provides electrochemical impedance spectroscopy (EIS) for each individual cell or a group of cells in parallel. The integrated die temperature sensors can be used for cell temperature measurement. Additional thermo-couples/NTCs are no longer required. The DNB1101 measures the cell impedance based on a patented circuit technology, enabling a new approach of indicating the internal cell temperature. It also enables on-line state-of-health estimation, in combination with algorithms running on the pack controller. The IC integrates separate (redundant) ADCs for both voltage and temperature measurement. With a differential daisy chain, the cell measurement information is transmitted to the pack controller. The first IC in the chain translates a standard SPI signal to the daisy chain differential signal.
Single cell supervisor (Linx) DNB1101A
The DNB1101 is a single cell supervisor (Linx) IC that provides electrochemical impedance spectroscopy (EIS) for each individual cell or a group of cells in parallel. The integrated die temperature sensors can be used for cell temperature measurement. Additional thermo-couples/NTCs are no longer required. The DNB1101 measures the cell impedance based on a patented circuit technology, enabling a new approach of indicating the internal cell temperature. It also enables on-line state-of-health estimation, in combination with algorithms running on the pack controller. The IC integrates separate (redundant) ADCs for both voltage and temperature measurement. With a differential daisy chain, the cell measurement information is transmitted to the pack controller. The first IC in the chain translates a standard SPI signal to the daisy chain differential signal.
The DNB1101 is a single cell supervisor (Linx) IC that provides electrochemical impedance spectroscopy (EIS) for each individual cell or a group of cells in parallel. The integrated die temperature sensors can be used for cell temperature measurement. Additional thermo-couples/NTCs are no longer required. The DNB1101 measures the cell impedance based on a patented circuit technology, enabling a new approach of indicating the internal cell temperature. It also enables on-line state-of-health estimation, in combination with algorithms running on the pack controller. The IC integrates separate (redundant) ADCs for both voltage and temperature measurement. With a differential daisy chain, the cell measurement information is transmitted to the pack controller. The first IC in the chain translates a standard SPI signal to the daisy chain differential signal.
Single cell supervisor (Linx) DNB1160
DNB1160 is a single cell lithium-ion battery monitoring chip, which can detect and balance the voltage and temperature of individual cells or parallel battery packs. The chip temperature sensor integrated in the internal can be used to test the temperature of the cell, and there is no need to use the thermocouple NTC to monitor the temperature.
DNB1160 is a single cell lithium-ion battery monitoring chip, which can detect and balance the voltage and temperature of individual cells or parallel battery packs. The chip temperature sensor integrated in the internal can be used to test the temperature of the cell, and there is no need to use the thermocouple NTC to monitor the temperature.
Single cell supervisor (Linx) DNB1168
The DNB1168 is a single cell supervisor (Linx) IC that provides electrochemical impedance spectroscopy (EIS) for each individual cell or a group of cells in parallel. The integrated die temperature sensors can be used for cell temperature measurement. Additional thermo-couples/NTCs are no longer required. The DNB1168 measures the cell impedance based on a patented circuit technology, enabling a new approach of indicating the internal cell temperature. It also enables on-line state-of-health estimation, in combination with algorithms running on the pack controller. The IC integrates separate (redundant) ADCs for both voltage and temperature measurement. With a differential daisy chain, the cell measurement information is transmitted to the pack controller. The first IC in the chain translates a standard SPI signal to the daisy chain differential signal.
The DNB1168 is a single cell supervisor (Linx) IC that provides electrochemical impedance spectroscopy (EIS) for each individual cell or a group of cells in parallel. The integrated die temperature sensors can be used for cell temperature measurement. Additional thermo-couples/NTCs are no longer required. The DNB1168 measures the cell impedance based on a patented circuit technology, enabling a new approach of indicating the internal cell temperature. It also enables on-line state-of-health estimation, in combination with algorithms running on the pack controller. The IC integrates separate (redundant) ADCs for both voltage and temperature measurement. With a differential daisy chain, the cell measurement information is transmitted to the pack controller. The first IC in the chain translates a standard SPI signal to the daisy chain differential signal.
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