When digital signals move between sensors, processors, and interface circuits, they must follow defined logic rules. If signal conditioning and logic decision blocks are not properly handled, systems can show incorrect switching behavior, timing mismatches, or unstable state transitions. In many designs, raw signals cannot directly connect to processors or control devices. Logic ICs help solve this by providing predictable digital logic operations that keep signal behavior consistent across the system.
| Image | Part Number / Manufacturer | Description / Specs | MOQ | Datasheet | RFQ | |
|---|---|---|---|---|---|---|
| PS9117-A Manufacturer: CEL Category: Logic Output Optoisolators | OPTOISOLTR 3.75KV OPEN COLL 5-SO | 1 | ||||
| HCPL2630SVM Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISO 2.5KV 2CH OPEN COLL 8SMD | 1 | ||||
| 6N137WV Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISO 2.5KV OPEN COLL 8-MDIP | 1 | ||||
| 6N137V Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 2.5KV OPEN COLL 8-DIP | 1 | ||||
| 6N137SV Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 2.5KV OPEN COLL 8-SMD | 1 | ||||
| 6N137SDV Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 2.5KV OPEN COLL 8-SMD | 1 | ||||
| TLP2761F(TP,F) Manufacturer: Toshiba Semiconductor and Storage Category: Logic Output Optoisolators | OPTOISOLTR 5KV PUSH PULL 6-SO | 1 | ||||
| TLP2761F(F) Manufacturer: Toshiba Semiconductor and Storage Category: Logic Output Optoisolators | OPTOISOLTR 5KV PUSH PULL 6-SO | 1 | ||||
| TLP2761F(D4-TP,F) Manufacturer: Toshiba Semiconductor and Storage Category: Logic Output Optoisolators | OPTOISOLTR 5KV PUSH PULL 6-SO | 1 | ||||
| TLP2761F(D4,F) Manufacturer: Toshiba Semiconductor and Storage Category: Logic Output Optoisolators | OPTOISOLTR 5KV PUSH PULL 6-SO | 1 | ||||
| TLP2631(F) Manufacturer: Toshiba Semiconductor and Storage Category: Logic Output Optoisolators | OPTOISO 2.5KV 2CH OPEN COLL 8DIP | 1 | ||||
| TLP2630(F) Manufacturer: Toshiba Semiconductor and Storage Category: Logic Output Optoisolators | OPTOISO 2.5KV 2CH OPEN COLL 8DIP | 1 | ||||
| PC911L0NSZ0F Manufacturer: Sharp Microelectronics Category: Logic Output Optoisolators | OPTOISOLTR 5KV PUSH PULL 8-DIP | 1 | ||||
| PC401TJ0000F Manufacturer: Sharp Microelectronics Category: Logic Output Optoisolators | OPTOISO 3.75KV OPEN COLL 5-MFP | 1 | ||||
| PC956L0NSZ0F Manufacturer: Sharp Microelectronics Category: Logic Output Optoisolators | OPTOISOLTR 5KV OPEN COLL 8-DIP | 1 | ||||
| FOD2200 Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 5KV TRI STATE 8-DIP | 1 | ||||
| FOD2200TV Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 5KV TRI STATE 8-DIP | 1 | ||||
| FOD2200S Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 5KV TRI STATE 8-SMD | 1 | ||||
| FOD2200SV Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 5KV TRI STATE 8-SMD | 1 | ||||
| FOD2200SD Manufacturer: onsemi Category: Logic Output Optoisolators | OPTOISOLTR 5KV TRI STATE 8-SMD | 1 |
Logic ICs are usually selected during early digital design stages and matched to system voltage levels, timing requirements, and interface standards. When these ICs reach end-of-life, replacing them can be difficult. Differences in propagation delay, switching thresholds, or output drive characteristics can cause timing failures or signal integrity problems.
This is common in industrial, telecom, and long-life embedded systems where designs remain unchanged for many years. Maintenance teams often require the same logic IC to avoid redesign or revalidation. Delays in sourcing compatible logic ICs can lead to production delays and higher maintenance costs.
Maketronics supports global engineering and procurement teams with reliable sourcing of both active and obsolete Logic ICs.
A logic IC is an integrated circuit that performs digital logic functions such as AND, OR, NOT, NAND, NOR, XOR, and signal buffering.
They ensure predictable signal processing, maintain timing accuracy, and control digital decision logic between system components.
TTL logic offers fast switching speeds but higher power consumption, while CMOS logic provides lower power consumption and higher noise immunity.
Differences in propagation delay, switching thresholds, and drive capability can affect timing and signal integrity, requiring validation before replacement.