CAW101500JLF_72PMR5KTB Introduction

Texas Instruments (TI) today introduced the industry's smallest buck-boost battery charger integrated circuit that integrates power path management for greater power density, universal and fast charging with up to 97 percent efficiency. The BQ25790 and BQ25792 enable efficient charging of USB Type-C™ and USB Power Delivery (PD) ports in small personal electronics, portable devices and building automation applications, and can reduce quiescent standby current by a factor of 10.

Combining EtherCAT, Ethernet and CAN FD: In terms of galvanically isolated architecture, the new microcontrollers feature a fast serial interface with 8 receive channels, enabling chip-to-chip communication at speeds up to 200 Mbps with fewer pins. .

CAW101500JLF_72PMR5KTB

CAW102R20JLF

Our nearly 80,000+ products help approximately 100,000 customers efficiently manage power, accurately sense and transmit data, and provide core 1-core control or processing in their designs into industrial, automotive, personal electronics products, communications equipment, and enterprise systems.

"Universal charging enables portable devices, such as blood pressure monitors and low-power continuous positive airway pressure (CPAP) machines, to be charged through a car adapter or USB-PD adapter, bringing greater flexibility and Convenience. For more details, read the article "Universal fast charging is the future of battery charging applications. On-the-go (OTG) charging is supported through forward and reverse bidirectional operation of the charging IC.

This is exactly what we have been doing for decades and now. Today, each generation of innovation builds on the previous generation, making our technology smaller, more efficient, more reliable, and more affordable - opening up new markets and enabling semiconductors to be widely used in electronics, This is the advancement of engineering. We are passionate about reducing the cost of electronics and making the world a better place through semiconductor technology.

CAF56800JLF GS31001202JLF CAW102R20JLF CAF103302JLF CVW522R0JLF.

CAW101500JLF_72PMR5KTB

64WR10KLF

AD0002SSN AD08G4826-C89240 AD08G4826-C89240 IC AD08G5039-C85684 AD08G5039-D00053 AD08G5155 Other passive components AD1021AARQZ AD1021AARQZ module AD1021ARQ AD1021RQ.

PFC-W0805LF-03-4751-B CAW10R100JLF CAW101500JLF CHP1-100-4641-F-7 CAW10R330JLF.

ACA2407S7PO IC ACA2408S7P2 ACA2604R ACD0900RS3P1 ACD0900RS3P1 IC ACD2204 ACD2206 ACD2206. ACD2206S8P1 ACD2206S8P1 IC.

LRC-LR2512LF-01-R300-F CAF53300JLF PFC-W1206LF-03-4990-B CVW101R00JLF CAW10R470JLF.

CAW101500JLF_72PMR5KTB

The resonator used in the Ladder type (SAW is also mentioned later) includes series and parallel. A series resonator plus a parallel resonator is called a stage, and the entire ladder type filter can be composed of several stages. .

In the Airgap type, an auxiliary layer (sacrificial support layer) is deposited before the piezoelectric layer is formed, and then the auxiliary layer is removed to form an air gap under the oscillating structure. ?? Because only the edge part is in contact with the underlying substrate, this structure is relatively fragile when under pressure, and similar to the membrane type, the heat dissipation problem also needs attention.

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