LC51024VG-75F676I -Medical Equipment -Internet of Things

LC51024VG-75F676I ApplicationField

-Industrial Control
-Consumer Electronics
-5G Technology
-Artificial Intelligence
-Wireless Technology
-Internet of Things
-Cloud Computing
-Medical Equipment

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LC51024VG-75F676I FAQ Chips 

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Q: How to obtain LC51024VG-75F676I technical support documents?
A: Enter the “LC51024VG-75F676I” keyword in the search box of the website, or find these through the Download Channel or FPGA Forum .

Q: Where can I purchase Lattice LC51024VG Development Boards, Evaluation Boards, or ispMACH 5000VG Starter Kit? also provide technical information?
A: RAYPCB does not provide development board purchase services for the time being, but customers often consult about ZedBoard, Basys 3 board, TinyFPGA BX, Nexys4-DDR, Terasic DE10-Nano, Digilent Arty S7, etc. If you need relevant technical information, you can submit feedback information, our technicians will contact you soon.

Q: How can I obtain software development tools related to the Lattice FPGA platform?
A: Lattice’s development environment uses Diamone. These recommendations are all reference opinions. The specific choice depends on personal habits and functional requirements to specifically select a more suitable match. You can search and download through the FPGA resource channel.

ICs LC51024VG-75F676I Features

• PCI-X, PCI 3.3
clock deskew
• Multiply and divide factors between 1 and 32
■ sysIO Capability
• Clock shifting capability ± 3.5ns in 500ps steps
• HSTL (I & III)
• SSTL 3 (I & II)
• SuperWIDE 68-input logic block
                                                   ■ High Density
High Speed Logic Implementation
• 5V tolerance
• LVCMOS 1.8, 2.5 and 3.3
• Up to 160 product terms per output
• GTL+
■ sysCLOCK PLL – Timing Control
• AGP-1X
• 768 to 1,024 macrocells
• External feedback capability for board-level
• 196 to 384 I/Os
• Multiple output frequencies
• SSTL 2 (I & II)
• LVDS/LVPECL clock input capability
• Hierarchical routing structure provides fast interconnect
• CTT 3.3, CTT 2.5

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Xilinx LC51024VG-75F676I Overview

The LC51024VG-75F676I represents the third generation
of Lattice’s SuperWIDE CPLD architecture. Through
their wide 68-input blocks, these devices give significantly improved speed performance for typical designs
over architectures with fewer inputs.
The LC51024VG-75F676I takes the unique benefits of the
SuperWIDE architecture and extends it to higher densities referred to as SuperBIG, by using the combination
of an innovative product term architecture and a twotiered hierarchical routing architecture. Additionally,
sysCLOCK and sysIO capabilities have been added to
maximize system-level performance and integration.
The LC51024VG-75F676I devices consist of multiple SuperWIDE 68-input, 32-macrocell Generic Logic Blocks
(GLBs) interconnected by a tiered routing system. Figure 1 shows the functional block diagram of the LC51024VG. Groups of four GLBs, referred to as segments, are interconnected via a Segment Routing Pool (SRP).
Segments are interconnected via the Global Routing Pool (GRP.) Together the GLBs and the routing pools allow
designers to create large designs in a single device without compromising performance.
Each GLB has 68 inputs coming from the SRP and contains 163 product terms. These product terms form groups
of five product term clusters, which feed the PT sharing array or the macrocell directly. The LC51024VG
allows up to 160 product terms to be connected to a single macrocell via the product term expanders and PT Sharing Array.
The macrocell is designed to provide flexible clocking and control functionality with the capability to select between
global, product term and block-level resources. The outputs of the macrocells are fed back into the switch matrices
and, if required, the sysIO cell.
All I/Os in the LC51024VG-75F676I are sysIOs, which are split into four banks. Each bank has a separate I/O
power supply and reference voltage. The sysIO cells allow operation with a wide range of today’s emerging interface standards. Within a bank, inputs can be set to a variety of standards, providing the reference voltage requirements of the chosen standards are compatible. Within a bank, the outputs can be set to differing standards,
providing the I/O power supply voltage and the reference voltage requirements of the chosen standard are compatible. Support for this wide range of standards allows designers to achieve significantly higher board-level performance compared to the more traditional LVCMOS standards.
The LC51024VG-75F676I devices also contain sysCLOCK Phase Locked Loops (PLLs) that provide designers with
increased clocking flexibility. The PLLs can be used to synthesize new clocks for use on-chip or elsewhere within
the system. They can also be used to deskew clocks, again both at the chip and system levels. A variable delay line
capability further improves this and allows designers to retard or advance the clock in order to tune set-up and
clock-to-out times for optimal results. The LC51024VG-75F676I Selection Guide (Table 1) details the key
attributes and packages for the LC51024VG-75F676I devices.
The Lattice CPLD – Complex Programmable Logic Devices series LC51024VG-75F676I is CPLD ispMACH 5000VG Family 1024 Macro Cells 117MHz 3.3V 676-Pin FBGA, View Substitutes & Alternatives along with datasheets, stock, pricing from Authorized Distributors at,
and you can also search for other FPGAs products.

LC51024VG-75F676I Tags integrated circuit

1. Lattice ispMACH 5000VG development board
2. LC51024VG evaluation board
3. ispMACH 5000VG evaluation kit
4. LC51024VG reference design
5. ispMACH 5000VG starter kit
6. ispMACH 5000VG LC51024VG
7. LC51024VG development board
8. Lattice LC51024VG
9. LC51024VG reference design

Xilinx LC51024VG-75F676I TechnicalAttributes

-Supply Current 380 mA
-Package / Case FPBGA-676-64
-Factory Pack Quantity 135
-Supply Voltage – Min 3 V
-Number of Product Terms per Macro 160
-Packaging Tray
-Number of Macrocells 1024
-Memory Type ROMLess
-Supply Voltage – Max 3.6 V
-Mounting Style SMD/SMT
-Delay Time 5.2 ns
-Maximum Operating Frequency 250 MHz
-Maximum Operating Temperature + 105 C
-Operating Supply Voltage 3 V to 3.6 V

-Minimum Operating Temperature – 40℃
-Number of Programmable I/Os 132

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