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| Image | Part Number | Manufacturer | Description | Series | Operating Temperature | Packaging | Mounting Type | RoHS Status | Manufacturer Part Number | Type | Lead Free Status | Package / Case |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| LC4256V-75T144E | Lattice Semiconductor | IC CPLD 256MC 7.5NS 144TQFP | ispMACH® 4000V | -40°C ~ 130°C (TJ) | Tray | Surface Mount | - | - | - | - | 144-LQFP | |
| M4A3-64/32-12JI | Lattice Semiconductor | IC CPLD 64MC 12NS 44PLCC | ispMACH® 4A | -40°C ~ 85°C (TA) | Tray | Surface Mount | - | - | - | - | 44-LCC (J-Lead) | |
| M5LV-512/256-10SAI | Lattice Semiconductor | IC CPLD 512MC 10NS 352SBGA | MACH® 5 | -40°C ~ 85°C (TA) | Tray | Surface Mount | - | - | - | - | 352-LBGA | |
| EPM3128AFI256-10N | Altera (Intel® Programmable Solutions Group) | IC CPLD 128MC 10NS 256FBGA | MAX® 3000A | -40°C ~ 85°C (TA) | Tray | Surface Mount | - | - | - | - | 256-BGA | |
| ATV2500B-15KI | Micrel / Microchip Technology | IC CPLD 15NS CERAMIC 44JLCC | ATV2500B(L) and BQ(L) | -40°C ~ 85°C (TA) | Tube | Surface Mount | - | - | - | - | 44-CLCC, Window (J-Lead) | |
| M4A3-256/192-10FANI | Lattice Semiconductor | IC CPLD 256MC 10NS 256FBGA | ispMACH® 4A | -40°C ~ 85°C (TA) | Tray | Surface Mount | - | - | - | - | 256-BGA | |
| M4A3-64/64-7VC | Lattice Semiconductor | IC CPLD 64MC 7.5NS 44TQFP | ispMACH® 4A | 0°C ~ 70°C (TA) | Tray | Surface Mount | - | - | - | - | 44-TQFP | |
| ATF750C-10JU | Micrel / Microchip Technology | IC CPLD 10MC 10NS 28PLCC | ATF750C(L) | -40°C ~ 85°C (TA) | Tube | Surface Mount | - | - | - | - | 28-LCC (J-Lead) | |
| XC9572XV-5CS48C | Xilinx | IC CPLD 72MC 5NS 48CSP | XC9500XV | 0°C ~ 70°C (TA) | Tray | Surface Mount | - | - | - | - | 48-FBGA, CSPBGA | |
| M4A3-384/192-12FAI | Lattice Semiconductor | IC CPLD 384MC 12NS 256FBGA | ispMACH® 4A | -40°C ~ 85°C (TA) | Tray | Surface Mount | - | - | - | - | 256-BGA |
CPLDs are programmable logic devices that contain configurable logic blocks and interconnects similar to FPGAs but with a smaller capacity and simpler architecture. CPLDs are often used in applications requiring glue logic, interface bridging, and simple state machine implementations. They offer advantages such as fast design turnaround, low power consumption, and predictable timing characteristics, making them suitable for a wide range of embedded system designs.