| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
BUS DRIVER |
2250 |
|
|
 |
Nexperia |
IC 16BIT D TRANSP LATCH 48SSOP |
0 |
|
 |
NXP Semiconductors |
BUS DRIVER, ABT SERIES |
5704 |
|
 |
Zetex Semiconductors (Diodes Inc.) |
IC OCTAL TRANSP LATCH 20QFN |
198220000 |
|
 |
D LATCH, 4000/14000/40000 SERIES |
25999 |
|
|
 |
D LATCH, 1-FUNC, 8-BIT |
2000 |
|
|
 |
CMOS QUAD NAND R/S LATCH |
0 |
|
|
 |
Texas Instruments |
IC D-TYPE LATCH SGL 3-ST 20SOIC |
0 |
|
 |
Texas Instruments |
IC 16BIT LATCHES 48-SSOP |
0 |
|
 |
BUS DRIVER, ABT SERIES |
2958 |
|
|
 |
Texas Instruments |
IC OCT TRANS D LATCH 3ST 20SOIC |
0 |
|
 |
Texas Instruments |
IC OCTAL TRANSP D LATCH 20-SOIC |
0 |
|
 |
Texas Instruments |
SN54HCT373 OCTAL D-TYPE TRANSPAR |
0 |
|
 |
Texas Instruments |
IC OCT TRNSP D-TYP LATCH 20TSSOP |
3098 |
|
 |
Sanyo Semiconductor/ON Semiconductor |
IC LATCH OCTAL D 3STATE 20SOIC |
959810000 |
|
 |
Texas Instruments |
IC OCT TRANSP D LATCH 3ST 24SOIC |
1906 |
|
 |
BUS DRIVER, LVT SERIES |
1765 |
|
|
 |
NXP Semiconductors |
NOW NEXPERIA 74AVC16373DGG - BUS |
6099 |
|
 |
Texas Instruments |
SN74BCT573 OCTAL D-TYPE TRANSPAR |
5242 |
|
 |
BUS DRIVER |
10000 |
|
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.
| 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 |
Logic latches typically consist of transistor-based gate structures, often implemented using CMOS or TTL technology. A standard latch includes:
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.
| Parameter | Description | Importance |
|---|---|---|
| Supply Voltage (VCC) | 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 |
Major industries utilizing latches include:
| 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 |
Key selection criteria:
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.
Emerging trends shaping latch technology include: