Index

maintaining and removing links 56 multiple BOOKMAN cardfiles 56 options 54

updating links 56

Locations

setting Home clock by 16 setting World clock by 17

Low battery warning 8 Maintaining links 56 Math functions 47 Memory Gauge 14, 60 Merge All button 57, 59 Merge Options dialog box 57, 58 Merging files

merging all linked files 57 merging calendar files 58 merging individual files 60, 61 merging new files 59 merging notefiles 58 merging Sidekick 95 notes 62

Monetary symbols 12 Month/day/year format 18 Monthly (Calendar) view 25 Multi-day events 21-23, 26, 27 Negative numbers, typing in Calcu-

lator 47

Note Folder Edit menu 37

Note folders creating 36 deleting 36 described 35 renaming 36 searching 41 viewing 38, 39

Notes

adding to a note folder 37 deleting 40

described 35 duplicating 38 editing 39 merging 58

merging and transferring 62 searching for 40, 41 undeleting 40

viewing 38, 39

NOTES (yellow) key 4, 37-40 Notes menu 36, 38 Numbers, typing 5

Parts of words, searching for 27, 34, 41 Password

changing or deleting 13 if you forget it 14 setting 13

PC Connect 53, 64

Percentages 47

74

Page 75
Image 75
Franklin SDK-763, SDK-765 manual Locations, Parts of words, searching for 27, 34, 41 Password, PC Connect 53 Percentages

SDK-763, SDK-765 specifications

Franklin SDK-765 and SDK-763 are advanced embedded computing solutions designed to cater to a variety of applications across industries. These robust development kits provide a comprehensive platform for developers to create, prototype, and deploy innovative applications.

At the heart of both SDK-765 and SDK-763 are powerful processors that ensure optimal performance. The SDK-765 is equipped with a high-speed quad-core processor, delivering exceptional computing power for demanding tasks. In contrast, the SDK-763 is built around a dual-core processor, striking a balance between performance and energy efficiency. Both models support multitasking, allowing developers to run multiple applications simultaneously without compromise on speed or responsiveness.

One of the standout features of these kits is their extensive connectivity options. Both SDKs support various communication protocols, including Wi-Fi, Bluetooth, and Ethernet. The integration of these technologies ensures seamless data transfer and device communication, essential for modern IoT applications. Additionally, the kits come with multiple USB ports, enabling easy connection to peripherals and external storage devices.

The versatility of Franklin SDK-765 and SDK-763 is further enhanced by their robust software support. Each kit includes a comprehensive software development environment (IDE) that is user-friendly and packed with tools for efficient coding, debugging, and deployment. Developers can leverage a wide array of pre-built libraries and APIs, which significantly accelerates the development process. Furthermore, both kits support popular programming languages, including C, C++, and Python, catering to a broad range of developer preferences.

Security is also a top priority with these SDKs. Franklin has implemented advanced security features, such as secure boot, encryption support, and hardware security modules, ensuring that applications built on these platforms can withstand potential cyber threats.

The SDK-765 and SDK-763 also boast a compact form factor, making them suitable for integration into space-constrained environments. Their low power consumption is another critical aspect, allowing for extended operation in battery-powered applications without compromising performance.

In summary, Franklin SDK-765 and SDK-763 are versatile and powerful development kits that provide the necessary tools for building innovative embedded applications. With their robust hardware, extensive connectivity options, comprehensive software support, and strong security features, they are poised to meet the demands of today's rapidly evolving technology landscape. Whether for rapid prototyping or full-scale deployment, these SDKs are excellent choices for developers looking to push the boundaries of embedded computing.