Logic - Latches

Part Number	Description / PDF	Quantity
5962-9221702M2A Renesas Electronics America	LCC 8.90X8.90X1.52 MM, 1.27MM PI	0
54FCT373TLB Renesas Electronics America	IC TRANSP LATCH OCTAL 20LCC	0
74HC279FP-E Renesas Electronics America	74HC279 QUAD SET - RESET LATCH	0
74HC563P-E Renesas Electronics America	OCTAL INVERTING TRANSP LATCH	7714
74HC75FP-E Renesas Electronics America	QUAD BISTABLE TRANSPARENT LATCH	0
54FCT573CTLB Renesas Electronics America	IC REGISTER OCTAL D 20LCC	0
74HC77FPEL-E Renesas Electronics America	74HC77 4-BIT, D-TYPE LATCH	0
74HC77P-E Renesas Electronics America	74HC77 4-BIT, D-TYPE LATCH	3385
74AC373FP-E Renesas Electronics America	OCTAL D-TYPE TRANSPARENT LATCHS	1000
74LS375P-E Renesas Electronics America	74LS375 QUAD BISTABLE LATCHES	2000
74LS279P-E Renesas Electronics America	74LS279 QUAD SET-RESET LATCHES	4000
5962-9223801MRA Renesas Electronics America	CDIP 25.40X7.62X2.90 MM, 2.54MM	0
5962-9221701M2A Renesas Electronics America	LCC 8.90X8.90X1.52 MM, 1.27MM PI	0
74HC533FP-E Renesas Electronics America	OCTAL D-TYPE TRANSPARENT LATCH	0
74HC375FPEL-E Renesas Electronics America	74HC375 QUAD D-TYPE LATCH	21473
74HCT373TVELL-E Renesas Electronics America	OCTAL D-TYPE TRANSPARENT LATCH	6000
5962-9223803M2A Renesas Electronics America	LCC 8.90X8.90X1.52 MM, 1.27MM PI	0
5962-9223801M2A Renesas Electronics America	LCC 8.90X8.90X1.52 MM, 1.27MM PI	0
54FCT573ATLB Renesas Electronics America	IC REGISTER OCTAL D 20LCC	0
54FCT373ATLB Renesas Electronics America	IC TXRX OCTAL BIDIRECT 20LCC	0

Logic - Latches

1. Overview

Logic latches are fundamental components in digital electronics, serving as bistable multivibrators that store one bit of binary data. They operate in two stable states (0 or 1) and are controlled by input signals to maintain or change their output states. Latches are essential building blocks for memory units, registers, and sequential logic circuits. Their importance spans across modern computing, telecommunications, industrial automation, and consumer electronics, enabling temporary data storage and synchronization in digital systems.

2. Major Types and Functional Classification

Type	Functional Characteristics	Application Examples
SR Latch	Set-Reset functionality; asynchronous operation	Basic memory units, control circuits
D Latch	Data storage with single data input (D) and clock control	Shift registers, data buffers
JK Latch	Universal latch with toggling capability; eliminates invalid states	Counters, state machines
T Latch	Toggle mode operation; simplified JK variant	Frequency division circuits

3. Structure and Composition

Logic latches typically consist of transistor-based gate structures, often implemented using CMOS or TTL technology. A standard latch includes:

Input terminals (e.g., Data, Set, Reset, Clock)
Cross-coupled inverters for state retention
Control logic gates (NAND/AND-OR) for signal processing
Output terminals (Q and Q for complementary outputs)

Modern IC latches are fabricated on silicon wafers with sub-micron process nodes (e.g., 180nm, 130nm), featuring multiple latches per package (e.g., 8-bit registers) in standard footprints like SOIC, TSSOP, and QFN.

4. Key Technical Specifications

Parameter	Description	Importance
Supply Voltage (V_CC)	Operating voltage range (e.g., 1.65-5.5V)	Determines compatibility with system power rails
Propagation Delay	Time between input change and output response (ns)	Impacts maximum operating frequency
Power Consumption	Static and dynamic current draw ( A/mA)	Crucial for battery-powered devices
Operating Temperature	Temperature range (-40 C to +125 C)	Defines environmental durability
Output Drive Strength	Current delivery capability (mA)	Affects fan-out and signal integrity

5. Application Fields

Major industries utilizing latches include:

Telecommunications: Network switches, routers, optical transceivers
Computing: CPU registers, cache memory, ALU components
Industrial Automation: PLCs, sensor data buffers, motor controllers
Consumer Electronics: Smartphones, wearables, display drivers
Automotive: CAN bus controllers, ADAS data registers

6. Leading Manufacturers and Products

Manufacturer	Key Products	Features
Texas Instruments	SN74LVC1G374	Low-voltage D latch with 1.5ns delay
STMicroelectronics	CD4042B	CMOS latch with clock polarity control
NXP Semiconductors	74HC373	Octal D latch for bus interfacing
ON Semiconductor	MC74VHC1G373	Ultra-low power single latch

7. Selection Guidelines

Key selection criteria:

Functional requirements (e.g., SR vs. D latch functionality)
Speed vs. power consumption trade-offs
Package type for PCB space constraints
Environmental operating conditions
Cost optimization for mass production
Supply voltage compatibility with existing system components

Case Study: For a portable IoT device, prioritize ultra-low power latches like ON Semi's MC74VHC1G373 with <1 A quiescent current, while high-speed applications (e.g., networking ASICs) require devices with sub-ns propagation delays.

8. Industry Trends

Emerging trends shaping latch technology include:

Continued process node scaling (e.g., 28nm FD-SOI for radiation-hardened latches)
Integrated error correction features for mission-critical applications
Development of latch arrays with programmable interconnects
Advanced packaging (3D ICs, chiplets) for higher density
Low-voltage operation (<0.8V) for energy-efficient computing