Maxim Integrated
160 Rio Robles
San Jose, CA 95134
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Latest Power-Management ICs from Maxim are Designed for High-Voltage Power Applications
The Power-Management ICs are offered in 3.5 x 3.75 mm (MAX20004/6/8 buck converters), 3 x 3 mm (MAX20034) and 5 x 5mm (MAX20098) QFN packages. The MAX20004/6/8 converters come with high-side and low-side MOSFETs with a switch resistance of 38 and 18 mΩ respectively. The MAX20098 and MAX20034 (220kHz to 2.2MHz) buck controllers feature a quiescent current of 3.5µA and 17µA respectively. The ICs...
Read More »Latest Power-Management ICs from Maxim are Designed for High-Voltage Power Applications
The Power-Management ICs are offered in 3.5 x 3.75 mm (MAX20004/6/8 buck converters), 3 x 3 mm (MAX20034) and 5 x 5mm (MAX20098) QFN packages. The MAX20004/6/8 converters come with high-side and low-side MOSFETs with a switch resistance of 38 and 18 mΩ respectively. The MAX20098 and MAX20034 (220kHz to 2.2MHz) buck controllers feature a quiescent current of 3.5µA and 17µA respectively. The ICs...
Read More »Maxim Presents MAX20345 Power-Management IC for Wearable Fitness and Health Applications
The MAX20345 Power-Management ICs are offered in 56-bump, 0.4mm pitch, 3.37 x 3.05 mm wafer-level package (WLP). The IC integrates a lithium-ion battery charger, six voltage regulators, three nanoPower bucks (900 nA) and three LDO regulators (550 nA quiescent current). The unit’s two load switches allow the disconnection of system peripherals that minimizes battery drain whereas the buck-boost...
Read More »Maxim Presents MAX20345 Power-Management IC for Wearable Fitness and Health Applications
The MAX20345 Power-Management ICs are offered in 56-bump, 0.4mm pitch, 3.37 x 3.05 mm wafer-level package (WLP). The IC integrates a lithium-ion battery charger, six voltage regulators, three nanoPower bucks (900 nA) and three LDO regulators (550 nA quiescent current). The unit’s two load switches allow the disconnection of system peripherals that minimizes battery drain whereas the buck-boost...
Read More »New Digital Input Devices from Maxim Use Less Power
Maxim’s new digital input devices have a smaller footprint, while achieving a higher power throughput. The MAX22190 is an 8-channel octal digital input with Serial Peripheral Interface (SPI). It has accurate input current limiters, built-in surge protection of >1kV, and wire break detection in a 5mm x 5mm package. The MAX22191 is a single-channel, parasitically powered digital input. It also...
Read More »New Digital Input Devices from Maxim Use Less Power
Maxim’s new digital input devices have a smaller footprint, while achieving a higher power throughput. The MAX22190 is an 8-channel octal digital input with Serial Peripheral Interface (SPI). It has accurate input current limiters, built-in surge protection of >1kV, and wire break detection in a 5mm x 5mm package. The MAX22191 is a single-channel, parasitically powered digital input. It also...
Read More »Maxim Integrated Products, Inc. Introduces DS28E50 DeepCover Secure Hash Algorithm 3 (SHA3-256) Authenticator IC with Enhanced Security Features
Maxim Integrated Products, Inc.’s DS28E50 DeepCover Secure Hash Algorithm 3 (SHA3-256) Authenticator IC with ChipDNA PUF technology can authenticate peripherals, prevent counterfeiting, aftermarket cloning and unauthorized use. Embedded system designers can integrate the authentication system cost-effectively and easily. Using ChipDNA PUF technology ensures that all DS28E50 stored data is...
Read More »Maxim Integrated Products, Inc. Introduces DS28E50 DeepCover Secure Hash Algorithm 3 (SHA3-256) Authenticator IC with Enhanced Security Features
Maxim Integrated Products, Inc.’s DS28E50 DeepCover Secure Hash Algorithm 3 (SHA3-256) Authenticator IC with ChipDNA PUF technology can authenticate peripherals, prevent counterfeiting, aftermarket cloning and unauthorized use. Embedded system designers can integrate the authentication system cost-effectively and easily. Using ChipDNA PUF technology ensures that all DS28E50 stored data is...
Read More »Maxim Releases New MAX20092 for Minimizing Thermal Issues with LED Matrix Lighting Applications
The MAX20092 is designed to reduce bill of materials cost, reduce EMI and noise and provide current management for matrix and pixel lighting. The product features twelve integrated switches to control LEDs up to 56V and a MOSFET on resistance of 70 mohm.
Read More »Maxim Releases New MAX20092 for Minimizing Thermal Issues with LED Matrix Lighting Applications
The MAX20092 is designed to reduce bill of materials cost, reduce EMI and noise and provide current management for matrix and pixel lighting. The product features twelve integrated switches to control LEDs up to 56V and a MOSFET on resistance of 70 mohm.
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