Overview of DS1023S-100+ by Analog Devices Inc.
The DS1023S-100+ is an 8-bit programmable timing element encased in a 16-SOIC_W-300_MIL package with 16 pins, operating at a commercial temperature range of 0 to 70°C. This part is categorized under Delay Lines and serves as a critical component in the realm of timing elements, facilitating the precise control of delay times in digital circuits. Manufactured by Analog Devices Inc., the DS1023S-100+ supports a variable delay range through its 255 steps, making it extraordinarily adaptable for a variety of timing requirements in electronic circuits.
Featuring a maximum operating temperature of 70°C and a nominal supply voltage of 5V, the device is engineered with CMOS technology, ensuring low power consumption and high-speed operation. Its surface-mount technology (SMT) package, type 16-SOIC_W-300_MIL, aids in compact board designs and efficient assembly processes. The product is compliant with RoHS and REACH, highlighting its adherence to environmental standards. With its introduction in the early 2000s, it has been a solid choice for designers needing a reliable, programmable delay line with robust features such as a total nominal delay of 268 ns and maximum propagation delay of 272 ns at nominal supply voltage.
Industry Applications for DS1023S-100+
The DS1023S-100+ has potential utility across a broad range of industries, each benefiting from its precise timing control capabilities. It’s important to note that while the following applications could be possible, any specific use would require thorough analysis and validation to ensure compliance with industry standards and specific requirements:
- Consumer Electronics: Devices such as high-speed networking equipment, where precise timing is crucial, could potentially leverage this timing element to manage signal integrity across high-speed data transfers.
- Telecommunications: In network hardware like routers and switchers, accurate timing elements such as the DS1023S-100+ help in maintaining the coordination of data packets transmitted over networks.
- Computing and Data Storage: High-performance computing systems, where synchronization between various subsystems is necessary, might incorporate these delay lines to fine-tune system timings and improve overall efficiency.
- Aerospace and Defense: While this specific model is not qualified for military standards, in commercial aerospace electronics, where reliable and consistent operation of timing elements is critical, such components could find usage.
- Electronic Manufacturing: During the production of electronic devices, timing elements are essential for testing and validation procedures, ensuring that each product meets the timing specifications required for functionality.
Note that these potential industry applications are conceptual and require further analysis and vetting by engineering and design teams to ensure compatibility with specific application requirements.
About Analog Devices Inc.
Analog Devices Inc., a leader in the fabrication of integrated circuits, specializes in high-performance analog, mixed-signal, and digital processing technologies. Notably proficient in the Delay Lines category, Analog Devices Inc. offers a range of products, including the DS1023S-100+, which exemplify their commitment to innovation in the area of digital timing technology. This focus allows for superior control and flexibility in a variety of electronic and digital applications, affirming their crucial role in advancing complex electronic systems.
Where to Find DS1023S-100+ by Analog Devices Inc
To source the DS1023S-100+, potential buyers should explore individual product listings at findchips.com. For a broader selection of options, exploring other Delay Lines by Analog Devices Inc or other manufacturers is advisable. Historically, this part has been available from distributors such as TME, Mouser Electronics, and directly from Analog Devices Inc. However, for real-time availability, current stock levels, and pricing, buyers are encouraged to confirm these details on the Findchips platform.