Part Details for XCS05-3PC84C by AMD Xilinx
Results Overview of XCS05-3PC84C by AMD Xilinx
- Distributor Offerings: (0 listings)
- Number of FFF Equivalents: (0 replacements)
- CAD Models: (Request Part)
- Number of Functional Equivalents: (10 options)
- Part Data Attributes: (Available)
- Reference Designs: (Not Available)
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Applications
Industrial Automation
XCS05-3PC84C Information
XCS05-3PC84C by AMD Xilinx is a Field Programmable Gate Array.
Field Programmable Gate Arrays are under the broader part category of Programmable Logic Devices.
Programmable Logic Devices (PLDs) are reconfigurable digital components that can be customized for different applications, offering flexibility and improved performance over fixed logic devices. Read more about Programmable Logic Devices on our Programmable Logic part category page.
Part Details for XCS05-3PC84C
XCS05-3PC84C CAD Models
XCS05-3PC84C Part Data Attributes
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XCS05-3PC84C
AMD Xilinx
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Datasheet
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XCS05-3PC84C
AMD Xilinx
Field Programmable Gate Array, 100 CLBs, 2000 Gates, 125MHz, 100-Cell, CMOS, PQCC84, PLASTIC, LCC-84
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| Rohs Code | No | |
| Part Life Cycle Code | Obsolete | |
| Ihs Manufacturer | XILINX INC | |
| Part Package Code | LCC | |
| Package Description | PLASTIC, LCC-84 | |
| Pin Count | 84 | |
| Reach Compliance Code | unknown | |
| HTS Code | 8542.39.00.01 | |
| Additional Feature | MAXIMUM USABLE GATES 5000 | |
| Clock Frequency-Max | 125 MHz | |
| Combinatorial Delay of a CLB-Max | 1.6 ns | |
| JESD-30 Code | S-PQCC-J84 | |
| JESD-609 Code | e0 | |
| Length | 29.3116 mm | |
| Moisture Sensitivity Level | 3 | |
| Number of CLBs | 100 | |
| Number of Equivalent Gates | 2000 | |
| Number of Inputs | 61 | |
| Number of Logic Cells | 100 | |
| Number of Outputs | 61 | |
| Number of Terminals | 84 | |
| Operating Temperature-Max | 85 °C | |
| Operating Temperature-Min | ||
| Organization | 100 CLBS, 2000 GATES | |
| Package Body Material | PLASTIC/EPOXY | |
| Package Code | QCCJ | |
| Package Equivalence Code | LDCC84,1.2SQ | |
| Package Shape | SQUARE | |
| Package Style | CHIP CARRIER | |
| Peak Reflow Temperature (Cel) | 225 | |
| Programmable Logic Type | FIELD PROGRAMMABLE GATE ARRAY | |
| Qualification Status | Not Qualified | |
| Seated Height-Max | 5.08 mm | |
| Supply Voltage-Max | 5.25 V | |
| Supply Voltage-Min | 4.75 V | |
| Supply Voltage-Nom | 5 V | |
| Surface Mount | YES | |
| Technology | CMOS | |
| Temperature Grade | OTHER | |
| Terminal Finish | TIN LEAD | |
| Terminal Form | J BEND | |
| Terminal Pitch | 1.27 mm | |
| Terminal Position | QUAD | |
| Time@Peak Reflow Temperature-Max (s) | 30 | |
| Width | 29.3116 mm |
Alternate Parts for XCS05-3PC84C
This table gives cross-reference parts and alternative options found for XCS05-3PC84C. The Form Fit Function (FFF) tab will give you the options that are more likely to serve as direct pin-to-pin alternates or drop-in parts. The Functional Equivalents tab will give you options that are likely to match the same function of XCS05-3PC84C, but it may not fit your design. Always verify details of parts you are evaluating, as these parts are offered as suggestions for what you are looking for and are not guaranteed.
| Part Number | Manufacturer | Composite Price | Description | Compare |
|---|---|---|---|---|
| XCS05-4PC84C | AMD Xilinx | Check for Price | Field Programmable Gate Array, 100 CLBs, 2000 Gates, 166MHz, 100-Cell, CMOS, PQCC84, PLASTIC, LCC-84 | XCS05-3PC84C vs XCS05-4PC84C |
| A54SX16P-1PQG208PP | Microsemi Corporation | Check for Price | Field Programmable Gate Array, 1452 CLBs, 16000 Gates, 280MHz, CMOS, PQFP208, PLASTIC, MO-143, QFP-208 | XCS05-3PC84C vs A54SX16P-1PQG208PP |
| A54SX32-BGG313M | Microchip Technology Inc | Check for Price | Field Programmable Gate Array, 2880 CLBs, 32000 Gates, 240MHz, 2880-Cell, CMOS, PBGA313 | XCS05-3PC84C vs A54SX32-BGG313M |
| A54SX16-2VQG100 | Actel Corporation | Check for Price | Field Programmable Gate Array, 1452 CLBs, 16000 Gates, 320MHz, 1452-Cell, CMOS, PQFP100, 1 MM HEIGHT, ROHS COMPLIANT, MO-136, VQFP-100 | XCS05-3PC84C vs A54SX16-2VQG100 |
| A54SX16P-1TQ144M | Actel Corporation | Check for Price | Field Programmable Gate Array, 1452 CLBs, 16000 Gates, 280MHz, 1452-Cell, CMOS, PQFP144, 1.40 MM HEIGHT, MO-136, TQFP-144 | XCS05-3PC84C vs A54SX16P-1TQ144M |
| A54SX16P-P1VQ100 | Microchip Technology Inc | Check for Price | Field Programmable Gate Array, 1452 CLBs, 16000 Gates, 280MHz, CMOS, PQFP100 | XCS05-3PC84C vs A54SX16P-P1VQ100 |
| A54SX16-2VQ100 | Actel Corporation | Check for Price | Field Programmable Gate Array, 1452 CLBs, 16000 Gates, 320MHz, 1452-Cell, CMOS, PQFP100, 1 MM HEIGHT, MO-136, VQFP-100 | XCS05-3PC84C vs A54SX16-2VQ100 |
| A54SX16P-VQ100 | Microsemi FPGA & SoC | Check for Price | FPGA, 1452 CLBS, 16000 GATES, 240MHz, PQFP100, 1 MM HEIGHT, MO-136, VQFP-100 | XCS05-3PC84C vs A54SX16P-VQ100 |
| A54SX16P-TQ144IX79 | Microsemi Corporation | Check for Price | Field Programmable Gate Array, 1452 CLBs, 16000 Gates, 240MHz, CMOS, PQFP144, 1.40 MM HEIGHT, MO-136, TQFP-144 | XCS05-3PC84C vs A54SX16P-TQ144IX79 |
| A54SX16-1PQG208I | Actel Corporation | Check for Price | Field Programmable Gate Array, 1452 CLBs, 16000 Gates, 280MHz, 1452-Cell, CMOS, PQFP208, ROHS COMPLIANT, PLASTIC, QFP-208 | XCS05-3PC84C vs A54SX16-1PQG208I |
XCS05-3PC84C Frequently Asked Questions (FAQ)
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The maximum operating temperature range for the XCS05-3PC84C is -40°C to 100°C (industrial grade) and -40°C to 85°C (commercial grade).
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To implement a CDC in the XCS05-3PC84C, you can use the Xilinx-provided IP cores, such as the Clock Domain Crossing (CDC) IP, or implement a custom CDC using FIFOs or other synchronization techniques.
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The maximum frequency of the clock input for the XCS05-3PC84C is 350 MHz for the -3 speed grade and 250 MHz for the -1 speed grade.
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No, the XCS05-3PC84C is not a radiation-hardened device and is not suitable for use in space or other high-radiation environments.
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To configure the XCS05-3PC84C for low power consumption, you can use the Xilinx Power Estimator (XPE) tool to estimate power consumption, and then use techniques such as clock gating, power gating, and voltage scaling to reduce power consumption.