Logic - Gates and Inverters

Part Number	Description / PDF	Quantity
74LVC14AT14-13 Zetex Semiconductors (Diodes Inc.)	IC INVERTER 6CH 6-INP 14TSSOP	847
74HCT08S14-13 Zetex Semiconductors (Diodes Inc.)	IC GATE AND 4CH 2-INP 14SO	45000
74AHC00S14-13 Zetex Semiconductors (Diodes Inc.)	IC GATE NAND 4CH 2-INP 14SO	12362500
74AHCT1G14QW5-7 Zetex Semiconductors (Diodes Inc.)	IC INVERT SCHMITT 1CH 1-IN SOT25	300036000
74HC08T14-13 Zetex Semiconductors (Diodes Inc.)	IC GATE AND 4CH 2-INP 14TSSOP	4547500
74AHC1G00QW5-7 Zetex Semiconductors (Diodes Inc.)	IC GATE NAND 1CH 2-INP SOT25	300042000
74AHC86S14-13 Zetex Semiconductors (Diodes Inc.)	IC GATE XOR 4CH 2-INP 14SO	0
74AUP2G14DW-7 Zetex Semiconductors (Diodes Inc.)	IC INVERTER 2CH 2-INP SOT363	25427000
74AUP1G86FW4-7 Zetex Semiconductors (Diodes Inc.)	IC GATE XOR 1CH 2-INP DFN1010-6	8267
74AUP1G14SE-7 Zetex Semiconductors (Diodes Inc.)	IC INVERT SCHMITT 1CH 1IN SOT353	426157000
74LVC2G32HK3-7 Zetex Semiconductors (Diodes Inc.)	IC GATE OR 2CH 2-INP DFN1410-8	0
74LVC1G00QW5-7 Zetex Semiconductors (Diodes Inc.)	IC GATE NAND 1CH 2-INP SOT25	29759000
74HCT04T14-13 Zetex Semiconductors (Diodes Inc.)	IC INVERTER 6CH 6-INP 14TSSOP	2295
74AHCT04T14-13 Zetex Semiconductors (Diodes Inc.)	IC INVERTER 6CH 6-INP 14TSSOP	2465
74AHCT1G86W5-7 Zetex Semiconductors (Diodes Inc.)	IC GATE XOR 1CH 2-INP SOT25	90000
74LVC1G86FX4-7 Zetex Semiconductors (Diodes Inc.)	IC GATE XOR 1CH 2-INP DFN1409-6	0
74LVC1G08FW4-7 Zetex Semiconductors (Diodes Inc.)	IC GATE AND 1CH 2-INP DFN1010-6	4186
74LVCE1G04FZ4-7 Zetex Semiconductors (Diodes Inc.)	IC INVERTER 1CH 1-INP DFN1410-6	0
74LVC1G86FZ4-7 Zetex Semiconductors (Diodes Inc.)	IC GATE XOR 1CH 2-INP DFN1410-6	278570000
74AUP1G86FS3-7 Zetex Semiconductors (Diodes Inc.)	IC GATE XOR 1CH 2-INP DFN0808-4	4360

Logic - Gates and Inverters

1. Overview

Logic gates and inverters are fundamental components of digital integrated circuits (ICs). They perform basic logical operations (AND, OR, NOT, etc.) and signal inversion, forming the building blocks of complex digital systems. These components enable Boolean algebra implementation in hardware, driving functions in computers, communication systems, industrial automation, and consumer electronics. Their reliability, speed, and miniaturization have been critical to advancements in modern electronics.

2. Major Types and Functional Classification

Type	Functional Characteristics	Application Examples
AND Gate	Outputs HIGH only when all inputs are HIGH	Address decoding in memory circuits
OR Gate	Outputs HIGH if at least one input is HIGH	Signal combining in control systems
NOT Gate (Inverter)	Reverses input signal (HIGH LOW)	Digital signal conditioning
NAND Gate	AND followed by inversion (universal gate)	Universal logic implementation
NOR Gate	OR followed by inversion (universal gate)	High-speed arithmetic circuits
XOR Gate	Outputs HIGH when inputs differ	Error detection/correction circuits

3. Structure and Composition

Logic gates and inverters are fabricated using semiconductor technologies like CMOS (Complementary Metal-Oxide-Semiconductor), TTL (Transistor-Transistor Logic), or ECL (Emitter-Coupled Logic). A typical CMOS-based gate includes:

Substrate: Silicon wafer with p-well/n-well regions
Transistors: Paired NMOS and PMOS devices for signal switching
Interconnects: Aluminum/copper layers for input/output connections
Encapsulation: Plastic/ceramic packages (DIP, SOP, QFN) with 14 20 pins

Advanced nodes (e.g., 7nm FinFET) integrate 3D transistor structures for improved performance.

4. Key Technical Specifications

Parameter	Description	Importance
Propagation Delay	Time between input change and output response	Determines maximum operating frequency
Supply Voltage (V_CC)	Operating voltage range (e.g., 1.8V 5.5V)	Defines compatibility with system voltage
Power Dissipation	Energy consumed during operation	Impacts thermal management and battery life
Output Drive Capability	Maximum current/voltage output	Dictates fan-out and load capacity
Operating Temperature	Temperature range (-40 C to 125 C)	Ensures reliability in harsh environments

5. Application Domains

Computing: CPUs, GPUs, ALUs, memory controllers
Communication: Routers, modems, 5G base stations
Industrial: PLCs, motor controllers, sensors
Consumer Electronics: Smartphones, TVs, gaming consoles
Automotive: ECUs, ADAS, infotainment systems

6. Leading Manufacturers and Products

Manufacturer	Representative Products	Key Features
Texas Instruments	SN74LVC1G08 (AND gate)	Ultra-low power, 1.65V 5.5V supply
NXP Semiconductors	74HCT03 (NAND gate)	High-speed CMOS, TTL-compatible
STMicroelectronics	STM74HC04 (Hex Inverter)	Industrial temperature range
Intel	FPGA-based logic arrays	Reconfigurable gate-level logic

7. Selection Guidelines

Key considerations include:

Speed vs. Power: High-speed (ECL/TTL) for performance-critical tasks; CMOS for low power
Voltage Compatibility: Match supply voltage with system requirements
Package Type: DIP for prototyping, QFN for space-constrained PCBs
Environmental Demands: Automotive-grade parts for high-temperature resilience
Cost: Balance performance needs with budget constraints

Example: Choosing SN74LVC1G32 (OR gate) for a 3.3V IoT device ensures low power consumption and compact integration.

8. Industry Trends

Advanced Node Scaling: Transition to 5nm/3nm processes for higher density
3D Integration: Stacked die architectures for improved performance
Green Manufacturing: Reduced lead/tin content and energy-efficient fabrication
AI-Driven Design: Machine learning for optimized logic synthesis
Automotive Focus: Increased demand for AEC-Q100 qualified parts