XILINX XCV400E-6FGG676C
- Part Number:
- XCV400E-6FGG676C
- Manufacturer:
- XILINX
- Ventron No:
- 5241621-XCV400E-6FGG676C
- Description:
- ORIGINAL IN STOCK
- Datasheet:
- XCV400E-6FGG676C
XILINX XCV400E-6FGG676C technical specifications, attributes, parameters and parts with similar specifications to XILINX XCV400E-6FGG676C.
- Package / CaseFBGA
- Surface MountYES
- JESD-609 Codee1
- Pbfree Codeyes
- Moisture Sensitivity Level (MSL)3 (168 Hours)
- Number of Terminations676
- ECCN Code3A991.D
- Terminal FinishTin/Silver/Copper (Sn95.5Ag4.0Cu0.5)
- Max Operating Temperature85°C
- Min Operating Temperature0°C
- HTS Code8542.39.00.01
- SubcategoryField Programmable Gate Arrays
- TechnologyCMOS
- Terminal PositionBOTTOM
- Terminal FormBALL
- Peak Reflow Temperature (Cel)250
- Supply Voltage1.8V
- Terminal Pitch1mm
- Time@Peak Reflow Temperature-Max (s)30
- Pin Count676
- Number of Outputs404
- Operating Supply Voltage1.8V
- Supply Voltage-Max (Vsup)1.89V
- Temperature GradeOTHER
- RAM Size20kB
- Clock Frequency357MHz
- Number of Inputs404
- Programmable Logic TypeFIELD PROGRAMMABLE GATE ARRAY
- Speed Grade6
- Combinatorial Delay of a CLB-Max0.47 ns
- Number of CLBs2400
- Number of Logic Cells10800
- Length27mm
- Width27mm
- Radiation HardeningNo
- RoHS StatusRoHS Compliant
XCV400E-6FGG676C Overview
As part of the FBGA package, it is included. This kind of FPGA is composed of FIELD PROGRAMMABLE GATE ARRAY. It is powered from a supply voltage of 1.8V. The Field Programmable Gate Arrays family of FPGA parts includes this part. In this device, there are 404 outputs that can be used. There are a total of 676 terminations. Fpga electronics is important that this FPGA module has a RAM si20kBe of 20kB in order to ensure that the program will run normally. Its flexibility can be fully utilized when operating with a 1.8V supply voltage. There is a maximum operating temperature of 85°C for this module. Fpga electronics is recommended that the operating temperature be higher than 0°C. There are a total of 676 pins on this device. Typically, it uses a crystal oscillating at 357MHz in order to operate. Its architecture is based on 2400 CLBs. As part of the building blocks, it consists of 10800 logic cells.
XCV400E-6FGG676C Features
85°C gates
XCV400E-6FGG676C Applications
There are a lot of Xilinx
XCV400E-6FGG676C FPGAs applications.
Bioinformatics
Device controllers
Software-defined radio
Random logic
ASIC prototyping
Medical imaging
Computer hardware emulation
Integrating multiple SPLDs
Voice recognition
Cryptography
As part of the FBGA package, it is included. This kind of FPGA is composed of FIELD PROGRAMMABLE GATE ARRAY. It is powered from a supply voltage of 1.8V. The Field Programmable Gate Arrays family of FPGA parts includes this part. In this device, there are 404 outputs that can be used. There are a total of 676 terminations. Fpga electronics is important that this FPGA module has a RAM si20kBe of 20kB in order to ensure that the program will run normally. Its flexibility can be fully utilized when operating with a 1.8V supply voltage. There is a maximum operating temperature of 85°C for this module. Fpga electronics is recommended that the operating temperature be higher than 0°C. There are a total of 676 pins on this device. Typically, it uses a crystal oscillating at 357MHz in order to operate. Its architecture is based on 2400 CLBs. As part of the building blocks, it consists of 10800 logic cells.
XCV400E-6FGG676C Features
85°C gates
XCV400E-6FGG676C Applications
There are a lot of Xilinx
XCV400E-6FGG676C FPGAs applications.
Bioinformatics
Device controllers
Software-defined radio
Random logic
ASIC prototyping
Medical imaging
Computer hardware emulation
Integrating multiple SPLDs
Voice recognition
Cryptography
XCV400E-6FGG676C More Descriptions
IC GATE OR 2CH 4-INP 14SOIC
OEMs, CMs ONLY (NO BROKERS)
Contact for details
OEMs, CMs ONLY (NO BROKERS)
Contact for details
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
21 September 2023
8 bit AVR Microcontroller ATMEGA32U4-AU
Ⅰ. Overview of ATMEGA32U4-AUⅡ. Symbol and Footprint of ATMEGA32U4-AUⅢ. Technical parametersⅣ. Features of ATMEGA32U4-AUⅤ. Pin descriptionⅥ. What types of products is ATMEGA32U4-AU suitable for?Ⅰ. Overview of ATMEGA32U4-AUATMEGA32U4-AU is... -
21 September 2023
Difference Between 2N2222 and BC547 Transistor
Ⅰ. What is 2N2222?Ⅱ. What is BC547?Ⅲ. 2N2222 vs BC547 symbolⅣ. 2N2222 vs BC547 technical parametersⅤ. 2N2222 vs BC547 pin comparisonⅥ. 2N2222 vs BC547 featuresⅦ. 2N2222 vs BC547... -
22 September 2023
Power Transistor IC LM317LZ: Symbol, Features and Package
Ⅰ. Overview of LM317LZⅡ. Symbol and Footprint of LM317LZⅢ. Technical parametersⅣ. Features of LM317LZⅤ. Pins and package of LM317LZⅥ. Advantages and disadvantages of LM317LZⅦ. How to optimize the... -
22 September 2023
LM301AN Operational Amplifier: Equivalent, Circuit and Package
Ⅰ. What is LM301AN?Ⅱ. Symbol, footprint and pin connection of LM301ANⅢ. Technical parametersⅣ. LM301AN tone control circuitⅤ. Features of LM301ANⅥ. What is the difference between LM301AN and LM709?Ⅶ....
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.