Philips SIC4434, PT44434 manual Trademarks

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9 Trademarks

Autobrite is a registered trademark of SMaL Camera Technologies, Inc. of Cambridge, Massachusetts, USA.

Microsoft and Windows are trademarks of the Microsoft Corporation of the U.S. and other countries. Windows is an abbreviated term referring to the Microsoft Windows Operating System.

Pentium is trademark of Intel Corporation.

All other company or product names are trademarks or registered trademarks of the respective companies.

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Contents Page Table of Content Before Using Your CameraUsing Your Digital Camera Installing the SoftwareBefore Using Your Camera Package ContentsBrief Description Holding the camera correctlyIdentifying the parts Using Your Digital Camera Charging the batteryLithium-polymer battery tips Mode selection Turning on the cameraTurning on the LCD Understanding LCD iconsPicture-taking mode Picture-taking mode menusPicture-taking mode with timer on Playback mode Playback mode menusUSB mode USB mode activityUsing Secure Digital SD memory cards Changing resolutionTo change the resolution Turning sound on/off Taking picturesAbout Autobrite technology Low light lock-outDeleting an image Formatting internal flash memory or SD cardInstalling the Software System requirementsWindows PhotoImpression 5.0 Installation Connecting the Digital Camera to Your PC Page Page Troubleshooting Problem Symptom Likely Cause SolutionSee Deleting an Image/FormattingFlash memory or SD Specifications Safety Notes FCC complianceLiquid Crystal Handling Your Digital Camera SafelyCleaning Your Camera Places to AvoidChecked Baggage Trademarks

PT44434, SIC4434 specifications

The Philips SIC4434 and PT44434 are significant advancements in the field of power management and regulation, designed to cater to modern electronic applications requiring efficient and reliable performance. These devices showcase Philips’ commitment to innovation by integrating cutting-edge technologies that enhance their functionality and efficiency.

The SIC4434 is a highly integrated synchronous buck converter that supports a wide input voltage range of up to 36V, making it suitable for various applications, from battery-operated devices to industrial equipment. Its output current capability of up to 40A allows for versatile usage in powering high-performance components. The SIC4434 also features a high-frequency operation that increases efficiency and reduces the size of passive components in the circuit, enabling compact designs in consumer electronics.

Key features of the SIC4434 include an integrated high-side and low-side MOSFET driver, which minimizes power losses during operation. The device utilizes a current-mode control architecture that ensures stable operation and quick transient response, essential for devices that experience rapid changes in load conditions. Additionally, it incorporates comprehensive protection features such as over-voltage protection, under-voltage lockout, and thermal shutdown, ensuring reliability and longevity in various operating conditions.

On the other hand, the PT44434 is a versatile power supply controller designed for a range of applications. It is particularly optimized for isolated power supplies and features a primary-side regulation architecture, reducing the complexity of feedback components. The PT44434 supports a wide input voltage range and can be configured for various output voltages, making it adaptable to different system requirements.

Among its notable characteristics, the PT44434 includes built-in soft-start features, which help to minimize inrush current during startup, protecting both the device and the load. The device also supports frequency modulation capability for reduced electromagnetic interference (EMI) and higher efficiency. The integration of a high-voltage startup circuit further simplifies the design process, allowing for a more compact solution.

Both the SIC4434 and PT44434 are excellent examples of Philips’ innovation in the power management sector, combining high performance, efficiency, and reliability for applications in consumer electronics, industrial systems, and automotive technology. With their robust feature sets and advanced technologies, these devices provide excellent solutions for power regulation needs in contemporary electronic designs.