Overview of SN74LVC2G08DCTR by Texas Instruments
The SN74LVC2G08DCTR from Texas Instruments is a dual 2-input AND gate that operates over a supply voltage range of 1.65V to 5.5V. Housed in a green, plastic, SSOP-8 package, this surface mount component is specifically designed to handle output currents up to 32mA. With 8 pins and operational temperatures ranging from -40°C to 125°C, it fits securely into a wide variety of electronic applications. Additionally, the device boasts a drive strength of 32 mA, ideal for powering medium-load applications.
This IC belongs to the subcategory of Gates focused on digital logic operations. Notable features include a propagation delay (tpd) of 9 ns at nominal supply voltage, an exceptionally low power supply current (max ICC) of 0.01 mA, offering an efficient solution for designs needing minimal power consumption. The component is also compliant with REACH, RoHS, and achieves a Moisture Sensitivity Level (MSL) of 1, ensuring robust performance even in environments prone to humidity.
Industry Applications for SN74LVC2G08DCTR
The versatile voltage range and robust design of the SN74LVC2G08DCTR allow it to be potentially suitable for various sectors:
- Consumer Electronics: This product might be used in devices like smart home systems and wearable technologies where compact, efficient logical operations are crucial. Its low power consumption and small package size contribute to the overall compactness and efficiency, critical in consumer electronics.
- Computing and Data Storage: Given its fast propagation delay and CMOS technology, the chip could ideally be utilized in computing peripherals such as solid-state drives (SSDs) or as part of a larger signal processing chain in computer servers. The component’s efficiency is crucial in these high-speed environments to maintain signal integrity without significant delays.
- Industrial Automation: In industrial settings, robustness in temperature and humidity is vital; hence, this device could play a role in industrial automation systems. The wide operating temperature range makes it suitable for harsh industrial environments, potentially regulating processes or safety mechanisms.
- Telecommunications: The chip may serve in signal modulation devices required in telecom infrastructure, where logical AND operations are foundational. Additionally, the lightweight nature of the chip contributes to more compact telecom hardware.
- Automotive: The automotive temperature grade listed under its specifications suggests potential use in vehicle electronics. However, specific applications would need more rigorous validation to meet automotive industry requirements.
These industry applications are conjectural and should be further analyzed by engineering and design teams. It’s vital to verify that the SN74LVC2G08DCTR adheres to industry standards and specific application needs before integration.
About Texas Instruments
As a prominent global manufacturer of semiconductor and computer technology, Texas Instruments (TI) holds a considerable market in the realm of digital logic circuits. In the context of Gates and broader logic applications, TI delivers a range of components, including the SN74LVC2G08DCTR. The company’s innovations have geared towards enhancing performance, reducing power consumption, and providing small form factors that meet the strenuous demands of modern electronic applications. The aforementioned part exemplifies this focus, incorporating advanced CMOS technology and optimized design for diverse applications.
Where to Find SN74LVC2G08DCTR by Texas Instruments
To procure the SN74LVC2G08DCTR, it is recommended to use the platform of findchips.com. Here, potential buyers can check for real-time availability, pricing, and offers from various distributors. Historically, distributors like Win Source Electronics, Mouser Electronics, DigiKey, and Newark have been known to stock this part. However, to get the most current stock levels and best pricing, checking findchips.com is advised. Furthermore, it also provides a facility to explore alternate Gates components that might fit specific needs better.