EP1C3T144I7N Integrated Circuits (ICs) |
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Allicdata Part #: | 544-1802-ND |
Manufacturer Part#: |
EP1C3T144I7N |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Intel FPGAs/Altera |
Short Description: | IC FPGA 104 I/O 144TQFP |
More Detail: | N/A |
DataSheet: | EP1C3T144I7N Datasheet/PDF |
Quantity: | 20 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
Moisture Sensitivity Level (MSL): | 3 (168 Hours) |
Series: | Cyclone® |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Number of LABs/CLBs: | 291 |
Moisture Sensitivity Level (MSL): | -- |
Number of Logic Elements/Cells: | 2910 |
Total RAM Bits: | 59904 |
Number of I/O: | 104 |
Voltage - Supply: | 1.425 V ~ 1.575 V |
Mounting Type: | Surface Mount |
Operating Temperature: | -40°C ~ 100°C (TJ) |
Package / Case: | 144-LQFP |
Supplier Device Package: | 144-TQFP (20x20) |
Base Part Number: | EP1C3 |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Embedded Systems are at the heart of most consumer electronics, providing essential functionality for portable computers, mobile phones, smart televisions and other consumer devices. Field Programmable Gate Arrays (FPGAs) offer a vast range of capabilities, from basic logic to complex analog signal processing. Many manufacturers are now turning to FPGAs as the preferred platform for their embedded systems, as their flexibility and scalability make them ideal for applications ranging from simple cores to complex multi-core systems.An important part of implementing embedded systems is the development of an efficient and reliable memory system. Memory is a critical component of the system, since it determines the overall performance of the application. FPGAs are often used to implement efficient on-chip memory systems. On-chip memory can be divided into two categories: SRAM (Static Random Access Memory) and DRAM (Dynamic Random Access Memory).SRAM is a non-volatile memory that holds its data even when the system power is turned off. It is widely used in applications where process stability and data retention are critical, such as automotive and industrial control systems. SRAM is fast, but relatively expensive when compared to DRAM. Because of this, SRAM is typically used for small memories in embedded systems.DRAM is a volatile memory that relies on constant power to retain stored data. It is used in applications where speed and cost are more important than process stability, such as in mobile phones and tablets. DRAM is much faster than SRAM, and also much cheaper, making it well suited for large memories in embedded systems.The EP1C3T144I7N device is an excellent example of an FPGA tailored for embedded systems. This device features 2 embedded SRAM blocks, each of which can hold 256Mbits. The SRAM blocks can be individually configured to hold data, instruction, programmable logic, or a combination of all three. The EP1C3T144I7N also includes two 1Gb DDR3 SDRAM interfaces for large-scale memory storage. This device is ideal for low-power embedded systems, and its impressive feature set makes it highly suited for applications such as digital signal processing, multimedia, and industrial automation. In addition to its powerful embedded memory system, the EP1C3T144I7N device also includes several other features that make it well suited for embedded systems applications. It includes several high-speed transceivers, which can be used to support an extensive range of communication protocols such as Ethernet, PCIe, and USB. The device also includes over 1,200 I/O pins, which can be used to connect peripherals such as sensors, LCD displays, and cameras. Finally, the device comes with a low-power mode, which is useful for applications that require extended battery life.In conclusion, the EP1C3T144I7N device is an excellent example of an FPGA tailored for embedded systems. Its powerful embedded memory system, high-speed transceivers, wide range of I/O pins, and low-power mode make it ideal for a variety of applications. By leveraging the latest advances in FPGA technology, the EP1C3T144I7N device is a perfect choice for projects that require maximum scalability and performance.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
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EP1C6Q240C8 | Intel FPGAs/... | -- | 161 | IC FPGA 185 I/O 240QFP |
EP1C6T144I7N | Intel FPGAs/... | -- | 85 | IC FPGA 98 I/O 144TQFP |
EP1C12F256C8N | Intel FPGAs/... | -- | 12000 | IC FPGA 185 I/O 256FBGA |
EP1C12Q240I7N | Intel FPGAs/... | 98.5 $ | 1400 | IC FPGA 173 I/O 240QFP |
EP1C12F324C8N | Intel FPGAs/... | 41.04 $ | 24 | IC FPGA 249 I/O 324FBGA |
EP1C3T100C8N | Intel FPGAs/... | -- | 1000 | IC FPGA 65 I/O 100TQFP |
EP1C3T144C8N | Intel FPGAs/... | -- | 2240 | IC FPGA 104 I/O 144TQFP |
EP1C3T144C7N | Intel FPGAs/... | -- | 486 | IC FPGA 104 I/O 144TQFP |
EP1C3T100I7N | Intel FPGAs/... | -- | 6200 | IC FPGA 65 I/O 100TQFP |
EP1C6T144C8N | Intel FPGAs/... | -- | 660 | IC FPGA 98 I/O 144TQFP |
EP1C3T100I7 | Intel FPGAs/... | 14.02 $ | 193 | IC FPGA 65 I/O 100TQFP |
EP1C3T144C6N | Intel FPGAs/... | -- | 3700 | IC FPGA 104 I/O 144TQFP |
EP1C3T144I7N | Intel FPGAs/... | -- | 20 | IC FPGA 104 I/O 144TQFP |
EP1C6Q240C8N | Intel FPGAs/... | -- | 350 | IC FPGA 185 I/O 240QFP |
EP1C6F256C8N | Intel FPGAs/... | -- | 478 | IC FPGA 185 I/O 256FBGA |
EP1C6Q240C6N | Intel FPGAs/... | 22.64 $ | 543 | IC FPGA 185 I/O 240QFP |
EP1C6F256I7N | Intel FPGAs/... | -- | 1000 | IC FPGA 185 I/O 256FBGA |
EP1C12Q240C6N | Intel FPGAs/... | -- | 2 | IC FPGA 173 I/O 240QFP |
EP1C4F324C7 | Intel FPGAs/... | -- | 27382 | IC FPGA 249 I/O 324FBGA |
EP1C3T100C6 | Intel FPGAs/... | 14.02 $ | 180 | IC FPGA 65 I/O 100TQFP |
EP1C3T100C6N | Intel FPGAs/... | -- | 10000 | IC FPGA 65 I/O 100TQFP |
EP1C6Q240C7N | Intel FPGAs/... | -- | 138 | IC FPGA 185 I/O 240QFP |
EP1C6Q240I7N | Intel FPGAs/... | 32.83 $ | 8 | IC FPGA 185 I/O 240QFP |
EP1C12F324I7 | Intel FPGAs/... | 131.34 $ | 214 | IC FPGA 249 I/O 324FBGA |
EP1C20F324C7N | Intel FPGAs/... | -- | 6 | IC FPGA 233 I/O 324FBGA |
EP1C3T100C7N | Intel FPGAs/... | -- | 306 | IC FPGA 65 I/O 100TQFP |
EP1C4F400C8N | Intel FPGAs/... | 53.19 $ | 27 | IC FPGA 301 I/O 400FBGA |
EP1C12Q240I7 | Intel FPGAs/... | -- | 1132 | IC FPGA 173 I/O 240QFP |
EP1C4F324C8N | Intel FPGAs/... | -- | 36 | IC FPGA 249 I/O 324FBGA |
EP1C12Q240C8N | Intel FPGAs/... | 32.83 $ | 2000 | IC FPGA 173 I/O 240QFP |
EP1C6T144C6N | Intel FPGAs/... | -- | 99 | IC FPGA 98 I/O 144TQFP |
EP1C6T144C7N | Intel FPGAs/... | -- | 16 | IC FPGA 98 I/O 144TQFP |
EP1C6F256C6N | Intel FPGAs/... | 32.83 $ | 3298 | IC FPGA 185 I/O 256FBGA |
EP1C4F400C6 | Intel FPGAs/... | 30.42 $ | 11 | IC FPGA 301 I/O 400FBGA |
EP1C12Q240C8 | Intel FPGAs/... | -- | 960 | IC FPGA 173 I/O 240QFP |
EP1C20F400C7 | Intel FPGAs/... | 69.16 $ | 10 | IC FPGA 301 I/O 400FBGA |
EP1C12Q240C7N | Intel FPGAs/... | -- | 164 | IC FPGA 173 I/O 240QFP |
EP1C6F256C8 | Intel FPGAs/... | -- | 44 | IC FPGA 185 I/O 256FBGA |
EP1C4F324C6N | Intel FPGAs/... | -- | 3481 | IC FPGA 249 I/O 324FBGA |
EP1C6T144I7 | Intel FPGAs/... | -- | 82 | IC FPGA 98 I/O 144TQFP |
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