Nexperia_74HC368D,652
original

Nexperia
74HC368D,652

704-74HC368D,652
PDF Datasheet
74HC(T)368 - Hex buffer/line driver; 3-state; inverting SOP 16-Pin
0 weeks

Why Choose Us?

Professional Platform

B2B & B2C purchasing

Delivery at full speed

1-2 days delivery

Wide variety

Original manufacturers

365 days guarantee

Responsible quality
APAC
ISO9001
Quality Policy
ISO45001
ISO14001
Original
D&B

Tech Specifications

Max Operating Temperature
125
Number of Terminals
16
Min Operating Temperature
-40
Terminal Position
DUAL
JEDEC Package Code
R-PDSO-G16
Pin Count
16
Number of Functions
1
Temperature Grade
AUTOMOTIVE
Show More

74HC368D,652 Description

74HC368D,652 Description

The 74HC368D,652 is a high-speed CMOS logic IC designed by Nexperia, featuring a dual 2-bit and 4-bit buffer/inverter configuration. This versatile chip is part of the renowned 74HC series, known for its robust performance and reliability. The 74HC368D,652 is optimized for surface-mount applications, making it ideal for modern, space-constrained electronic designs. Despite its obsolete status, it remains a valuable component for specific legacy systems and applications requiring its unique functionality.

74HC368D,652 Features

  • Dual Elements: The 74HC368D,652 consists of two elements, one 2-bit buffer/inverter and one 4-bit buffer/inverter, providing flexibility for various digital signal processing tasks.
  • Wide Supply Voltage Range: It operates within a supply voltage range of 2V to 6V, ensuring compatibility with a broad range of power supply systems.
  • High Output Current: The IC can deliver up to 7.8mA for both high and low outputs, making it suitable for driving multiple loads.
  • Surface-Mount Packaging: The surface-mount technology (SMT) package allows for efficient integration into compact PCB designs.
  • Compliance and Safety: The 74HC368D,652 is REACH unaffected and RoHS3 compliant, meeting stringent environmental and safety standards.
  • Low Moisture Sensitivity: With a moisture sensitivity level (MSL) of 1, it is suitable for unlimited exposure to standard environmental conditions, reducing handling and storage concerns.

74HC368D,652 Applications

The 74HC368D,652 is ideal for applications requiring efficient digital signal buffering and inversion. Its dual-element configuration makes it particularly useful in:

  • Data Communication Systems: For buffering and inverting digital signals in serial and parallel data transmission systems.
  • Microcontroller Interfaces: Enhancing signal integrity and drive capability in microcontroller-based applications.
  • Digital Logic Circuits: Implementing complex digital logic functions where buffering and inversion are necessary.
  • Legacy Systems: Maintaining compatibility with older systems that rely on this specific IC for critical functions.

Conclusion of 74HC368D,652

The 74HC368D,652 stands out as a reliable and versatile solution for digital signal processing needs. Its dual 2-bit and 4-bit buffer/inverter configuration, combined with a wide supply voltage range and high output current, makes it a robust choice for various applications. Despite its obsolete status, the 74HC368D,652 remains a valuable component for maintaining legacy systems and specific applications where its unique features are essential. Its compliance with environmental and safety standards further enhances its appeal for modern electronics design.

FAQ

What voltage specification is listed for 74HC368D,652?
The listed voltage-related specification for 74HC368D,652 is 5.
What operating temperature range does 74HC368D,652 support?
What is the standard lead time for 74HC368D,652?
Are there related or alternative parts for 74HC368D,652?
What package or case is 74HC368D,652 available in?
Availability (In Stock : 50 )
Quantity Unit Price Ext. Price
10+ $1.34228 $13.42
30+ $1.19657 $35.90
100+ $1.03200 $103.20
500+ $0.95828 $479.14
1000+ $0.92572 $925.72
Quick Quote
ADD TO RFQ LIST

Not available to buy online? Want the lower wholesale price? Please Send RFQ to get best price, we will respond immediately

QUICK RFQ