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Images
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Mfr.Part #
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In Stock
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Manufacturer
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Description
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Package
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EPM7256BFC100-5 | 49913 | Intel | IC CPLD 256MC 5.5NS 100FBGA | 100-LBGA |
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EPM7192SQC160-15AB | 45571 | Intel | IC CPLD 192MC 15NS 160QFP | 160-BQFP |
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EPM7256BFC100-7 | 39721 | Intel | IC CPLD 256MC 7.5NS 100FBGA | 100-LBGA |
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EPM7256ERC208-12MM | 22949 | Intel | IC CPLD 256MC 12NS 208RQFP | 208-BFQFP Exposed Pad |
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EPM7128ELC84-7YY | 45054 | Intel | IC CPLD 128MC 7.5NS 84PLCC | 84-LCC (J-Lead) |
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EPM7128SQC160-15YY | 22868 | Intel | IC CPLD 128MC 15NS 160QFP | 160-BQFP |
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EPM7160EQC100-10YY | 29051 | Intel | IC CPLD 160MC 10NS 100QFP | 100-BQFP |
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M5LV-256/104-5VC | 4595 | Lattice Semiconductor Corporation | IC CPLD 256MC 5.5NS 144TQFP | 144-LQFP |
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M5LV-256/120-10YC | 44376 | Lattice Semiconductor Corporation | IC CPLD 256MC 10NS 160QFP | 160-BQFP |
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EPM7064LC68-15YY | 19474 | Intel | IC CPLD 64MC 15NS 68PLCC | 68-LCC (J-Lead) |
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EPM7160EQC160-20YY | 49701 | Intel | IC CPLD 160MC 20NS 160QFP | 160-BQFP |
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EPM7160EQC100-20YY | 40348 | Intel | IC CPLD 160MC 20NS 100QFP | 100-BQFP |
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EPM7160EQC160-15YY | 42131 | Intel | IC CPLD 160MC 15NS 160QFP | 160-BQFP |
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EPM7128SQC160-10YY | 29039 | Intel | IC CPLD 128MC 10NS 160QFP | 160-BQFP |
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EPM7128EQC100-10NC | 40393 | Intel | IC CPLD 128MC 10NS 100QFP | 100-BQFP |
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EPM7160ELC84-10YY | 44475 | Intel | IC CPLD 160MC 10NS 84PLCC | 84-LCC (J-Lead) |
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EPM7128SQC160-15ES | 20281 | Intel | IC CPLD 128MC 15NS 160QFP | 160-BQFP |
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EPM7128ELC84-15YY | 42368 | Intel | IC CPLD 128MC 15NS 84PLCC | 84-LCC (J-Lead) |
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EPM7128SQC160-10ES | 17337 | Intel | IC CPLD 128MC 10NS 160QFP | 160-BQFP |
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EPM7128SQC100-10FN | 19017 | Intel | IC CPLD 128MC 10NS 100QFP | 100-BQFP |
CPLDs (Complex Programmable Logic Devices)
1. What are Complex Programmable Logic Devices?
CPLD (Complex Programmable Logic Device) is a digital integrated circuit with user-defined logic functions. It was developed from the early PAL (Programmable Array Logic) and GAL (General Array Logic) and belongs to the category of large-scale integrated circuits. It was born in the mid-1980s to make up for the defect that early PLD devices could not realize complex circuits.
2. What are the Core Structural Features of Complex Programmable Logic Devices?
Logic Unit: It is composed of multiple programmable logic macrocells (Macro Cells). Each macrocell can process dozens of combinational logic inputs and is suitable for implementing complex combinational logic such as decoders.
Interconnection Resources: Logic units are connected through a central programmable interconnect matrix to provide flexible wiring capabilities.
I/O Resources: It integrates rich input/output pins and supports an efficient interface with external circuits.
3. What are the Technical Features of Complex Programmable Logic Devices?
Programming Technology: It adopts non-volatile storage technology based on EEPROM or Flash. After programming, data will not be lost when power is off, and it supports multiple updates in-system programming (ISP).
Performance Advantages: It has the characteristics of high-density integration, low power consumption, and high reliability, and is suitable for scenarios with high real-time requirements.
4. What are the Key Differences from FPGA?
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Features |
CPLD |
FPGA |
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Structural Basis |
Product term technology, macrocell structure |
Lookup table technology (LUT) |
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Configuration Storage |
On-chip integrated EEPROM/Flash |
External configuration memory required |
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Applicable Scenarios |
Complex combinational logic, control intensive |
Data-intensive, high-performance computing |
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Granularity |
Large granularity (macrocell level) |
Medium granularity (LUT level) |
5. What are the Application Advantages of Complex Programmable Logic Devices?
Development Efficiency: Rapid design through schematics or hardware description language (HDL), shortening the development cycle and lowering the hardware experience threshold.
Cost-effectiveness: No tape-out cost, suitable for small and medium-scale production (such as less than 10,000 pieces) and prototype verification.
Flexibility: Repeatable programming to modify logic functions, widely used in communications, industrial control, automotive electronics, and other fields.
As a key component in digital system design, CPLD balances flexibility, integration, and cost, and is the preferred solution for the implementation of small and medium-scale logic circuits.