| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
Rochester Electronics |
CA3130AT/B |
729 |
|
 |
Rochester Electronics |
9519AJC |
49 |
|
 |
Rochester Electronics |
SYSTEM TIMING CONTROLLER, 44 PLC |
4037 |
|
 |
Rochester Electronics |
ANALOG CIRCUIT, 1 FUNC, PDIP14 |
7950 |
|
 |
Rochester Electronics |
NSC810AD/B |
59 |
|
 |
Rochester Electronics |
TN87C51FC-1 |
1568 |
|
 |
Rochester Electronics |
P80C552 - 80C51, EMBEDDED 8-BIT |
7992 |
|
 |
Rochester Electronics |
P87C52 - 80C51, MCS 51, 8-BIT M |
0 |
|
 |
Rochester Electronics |
4 MBIT (512K X 8/256K X 16) NVSR |
1165 |
|
 |
Rochester Electronics |
X28C512DM-15/B |
208 |
|
 |
Rochester Electronics |
8288 - CONTROL/COMMAND SIGNAL GE |
166 |
|
 |
Rochester Electronics |
NETWORK DATABASE SEARCH ENGINE |
400 |
|
 |
Rochester Electronics |
NSC800D/B |
232 |
|
 |
Rochester Electronics |
74AC521SC-G |
45 |
|
 |
Rochester Electronics |
UNIVERSAL PROGRAMMABLE CLOCK GEN |
1556 |
|
 |
Rochester Electronics |
LD8741A |
0 |
|
 |
Rochester Electronics |
TN28F010-150-G |
789 |
|
 |
Rochester Electronics |
TE28F010-90 |
50 |
|
 |
Rochester Electronics |
EP610 - CLASSIC FAMILY EPLD, LOG |
1 |
|
 |
Rochester Electronics |
P80C31 - 80C51 8-BIT MICROCONTRO |
7290 |
|
Specialized ICs (Application-Specific Integrated Circuits, ASICs) are customized microchips designed for specific functions or applications, unlike general-purpose ICs. They optimize performance, power efficiency, and size for targeted tasks, playing a critical role in modern electronics such as telecommunications, automotive systems, and AI accelerators.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| ASIC (Application-Specific IC) | Custom-designed for a specific application with fixed functionality | Smartphones, IoT devices, medical imaging equipment |
| FPGA (Field-Programmable Gate Array) | Reconfigurable logic blocks and interconnects for dynamic functionality | 5G base stations, industrial automation, prototyping systems |
| SoC (System-on-Chip) | Integrates CPU, GPU, memory, and peripherals on a single chip | Wearable devices, autonomous vehicles, edge computing |
| ASSP (Application-Specific Standard Product) | Standardized ICs for specific applications (not fully customized) | Networking switches, display drivers, power management |
| PLD (Programmable Logic Device) | Basic programmable ICs for simple logic operations | Consumer electronics, automotive sensors |
A typical Specialized IC includes:
| Parameter | Description | Importance |
|---|---|---|
| Power Consumption | Measured in watts (W) or milliwatts (mW) | Determines battery life and thermal management |
| Operating Frequency | Maximum speed (GHz) for signal processing | Impacts system performance and latency |
| Process Node | Manufacturing technology (e.g., 7nm, 5nm) | Defines transistor density and energy efficiency |
| Die Size | Physical chip dimensions (mm ) | Affects cost and integration level |
| Thermal Resistance | Ability to dissipate heat ( C/W) | Crucial for reliability in high-performance applications |
Main industries and equipment:
| Manufacturer | Representative Product | Application |
|---|---|---|
| Intel | Stratix 10 FPGA | High-performance computing (HPC) |
| Xilinx | Zynq UltraScale+ MPSoC | Autonomous driving and AI |
| Texas Instruments | AFE5805 (Analog Front-End) | Medical imaging |
| Qualcomm | SM8350 SoC | 5G smartphones |
| STMicroelectronics | STM32MP1 (MPU) | Industrial IoT |
Key considerations:
Emerging trends include: