Altera 5CSEMA2U23I7N
- Part Number:
- 5CSEMA2U23I7N
- Manufacturer:
- Altera
- Ventron No:
- 3163053-5CSEMA2U23I7N
- Description:
- IC FPGA 188 I/O 672UBGA
Altera 5CSEMA2U23I7N technical specifications, attributes, parameters and parts with similar specifications to Altera 5CSEMA2U23I7N.
- Factory Lead Time8 Weeks
- Package / Case672-FBGA
- Surface MountYES
- Operating Temperature-40°C~100°C TJ
- PackagingTray
- Published2018
- SeriesCyclone® V SE
- Part StatusActive
- Moisture Sensitivity Level (MSL)3 (168 Hours)
- Number of Terminations672
- SubcategoryField Programmable Gate Arrays
- TechnologyCMOS
- Terminal PositionBOTTOM
- Terminal FormBALL
- Peak Reflow Temperature (Cel)NOT SPECIFIED
- Supply Voltage1.1V
- Terminal Pitch0.8mm
- Reflow Temperature-Max (s)NOT SPECIFIED
- JESD-30 CodeS-PBGA-B672
- Number of Outputs145
- Qualification StatusNot Qualified
- Supply Voltage-Max (Vsup)1.13V
- Power Supplies1.11.2/3.32.5V
- Supply Voltage-Min (Vsup)1.07V
- Number of I/OMCU - 181, FPGA - 145
- Speed800MHz
- RAM Size64KB
- Core ProcessorDual ARM® Cortex®-A9 MPCore™ with CoreSight™
- PeripheralsDMA, POR, WDT
- ConnectivityCANbus, EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, USB OTG
- ArchitectureMCU, FPGA
- Number of Inputs145
- Programmable Logic TypeFIELD PROGRAMMABLE GATE ARRAY
- Primary AttributesFPGA - 25K Logic Elements
- Number of Logic Cells25000
- Height Seated (Max)1.85mm
- Length23mm
- Width23mm
- RoHS StatusRoHS Compliant
This SoC is built on Dual ARM? Cortex?-A9 MPCore? with CoreSight? core processor(s).
Dual ARM? Cortex?-A9 MPCore? with CoreSight? core processor(s) are used in the construction of this SoC.Its package is 672-FBGA.A SoC chip with 64KB RAM is provided for users to enjoy reliable performance.A MCU, FPGA technique is used for the SoC design's internal architecture.The system on a chip is part of the series Cyclone? V SE.It is recommended that this SoC meaning be operated at -40°C~100°C TJ on an average.A key point to note is that this SoC security combines FPGA - 25K Logic Elements.In the state-of-the-art Tray package, this SoC system on a chip is housed.As a whole, this SoC part is comprised of MCU - 181, FPGA - 145 inputs and outputs.It is recommended to use a 1.1V power supply.In the SoCs wireless, voltages above 1.13V are considered unsafe.If it has at least a 1.07V volt power supply, it can work fine.A re-configurable FIELD PROGRAMMABLE GATE ARRAY can be used for a variety of designing purposes.In total, there are 672 terminations, so system on a chip is really aided by this.In the same way that other high-quality Field Programmable Gate Arrays will do, it is also capable of providing outstanding performance.A SoC chip like this can have 145 outputs.In order to use system on chip, you will need a power supply of 1.11.2/3.32.5V.145 inputs are available on the SoC chip.25000 logic cells are included in logic system on chips.
Dual ARM? Cortex?-A9 MPCore? with CoreSight? processor.
64KB RAM.
Built on MCU, FPGA.
There are a lot of Intel
5CSEMA2U23I7N System On Chip (SoC) applications.
Smartphones
Healthcare
Digital Media
Central alarm system
Robotics
Self-aware system-on-chip (SoC)
POS Terminals
Medical
Central inverter
CNC control
Dual ARM? Cortex?-A9 MPCore? with CoreSight? core processor(s) are used in the construction of this SoC.Its package is 672-FBGA.A SoC chip with 64KB RAM is provided for users to enjoy reliable performance.A MCU, FPGA technique is used for the SoC design's internal architecture.The system on a chip is part of the series Cyclone? V SE.It is recommended that this SoC meaning be operated at -40°C~100°C TJ on an average.A key point to note is that this SoC security combines FPGA - 25K Logic Elements.In the state-of-the-art Tray package, this SoC system on a chip is housed.As a whole, this SoC part is comprised of MCU - 181, FPGA - 145 inputs and outputs.It is recommended to use a 1.1V power supply.In the SoCs wireless, voltages above 1.13V are considered unsafe.If it has at least a 1.07V volt power supply, it can work fine.A re-configurable FIELD PROGRAMMABLE GATE ARRAY can be used for a variety of designing purposes.In total, there are 672 terminations, so system on a chip is really aided by this.In the same way that other high-quality Field Programmable Gate Arrays will do, it is also capable of providing outstanding performance.A SoC chip like this can have 145 outputs.In order to use system on chip, you will need a power supply of 1.11.2/3.32.5V.145 inputs are available on the SoC chip.25000 logic cells are included in logic system on chips.
Dual ARM? Cortex?-A9 MPCore? with CoreSight? processor.
64KB RAM.
Built on MCU, FPGA.
There are a lot of Intel
5CSEMA2U23I7N System On Chip (SoC) applications.
Smartphones
Healthcare
Digital Media
Central alarm system
Robotics
Self-aware system-on-chip (SoC)
POS Terminals
Medical
Central inverter
CNC control
5CSEMA2U23I7N More Descriptions
FPGA Cyclone® V SE Family 25000 Cells 28nm Technology 1.1V 672-Pin UFBGA
Field Programmable Gate Array, 25000-Cell, CMOS, PBGA672
ARM CMOS DMA POR WDT 2015 FPGA 100C 1.5MB 800MHz 1.1V
IC FPGA 188 I/O 672UBGA Cyclone V SE
IC SOC CORTEX-A9 800MHZ 672UBGA
Field Programmable Gate Array, 25000-Cell, CMOS, PBGA672
ARM CMOS DMA POR WDT 2015 FPGA 100C 1.5MB 800MHz 1.1V
IC FPGA 188 I/O 672UBGA Cyclone V SE
IC SOC CORTEX-A9 800MHZ 672UBGA
The three parts on the right have similar specifications to 5CSEMA2U23I7N.
-
ImagePart NumberManufacturerFactory Lead TimePackage / CaseSurface MountOperating TemperaturePackagingPublishedSeriesPart StatusMoisture Sensitivity Level (MSL)Number of TerminationsSubcategoryTechnologyTerminal PositionTerminal FormPeak Reflow Temperature (Cel)Supply VoltageTerminal PitchReflow Temperature-Max (s)JESD-30 CodeNumber of OutputsQualification StatusSupply Voltage-Max (Vsup)Power SuppliesSupply Voltage-Min (Vsup)Number of I/OSpeedRAM SizeCore ProcessorPeripheralsConnectivityArchitectureNumber of InputsProgrammable Logic TypePrimary AttributesNumber of Logic CellsHeight Seated (Max)LengthWidthRoHS StatusBase Part NumberView Compare
-
5CSEMA2U23I7N8 Weeks672-FBGAYES-40°C~100°C TJTray2018Cyclone® V SEActive3 (168 Hours)672Field Programmable Gate ArraysCMOSBOTTOMBALLNOT SPECIFIED1.1V0.8mmNOT SPECIFIEDS-PBGA-B672145Not Qualified1.13V1.11.2/3.32.5V1.07VMCU - 181, FPGA - 145800MHz64KBDual ARM® Cortex®-A9 MPCore™ with CoreSight™DMA, POR, WDTCANbus, EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, USB OTGMCU, FPGA145FIELD PROGRAMMABLE GATE ARRAYFPGA - 25K Logic Elements250001.85mm23mm23mmRoHS Compliant--
-
8 Weeks484-FBGAYES0°C~85°C TJTray2018Cyclone® V SEActive3 (168 Hours)484Field Programmable Gate ArraysCMOSBOTTOMBALLNOT SPECIFIED1.1V0.8mmNOT SPECIFIEDS-PBGA-B48466Not Qualified1.13V1.11.2/3.32.5V1.07VMCU - 151, FPGA - 66925MHz64KBDual ARM® Cortex®-A9 MPCore™ with CoreSight™DMA, POR, WDTCANbus, EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, USB OTGMCU, FPGA66FIELD PROGRAMMABLE GATE ARRAYFPGA - 40K Logic Elements400001.9mm19mm19mmRoHS Compliant-
-
8 Weeks484-FBGAYES0°C~85°C TJTray2018Cyclone® V SEActive3 (168 Hours)484Field Programmable Gate ArraysCMOSBOTTOMBALLNOT SPECIFIED1.1V0.8mmNOT SPECIFIEDS-PBGA-B48466Not Qualified1.13V1.11.2/3.32.5V1.07VMCU - 151, FPGA - 66600MHz64KBSingle ARM® Cortex®-A9 MPCore™ with CoreSight™DMA, POR, WDTCANbus, EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, USB OTGMCU, FPGA66FIELD PROGRAMMABLE GATE ARRAYFPGA - 25K Logic Elements250001.9mm19mm19mmRoHS Compliant-
-
8 Weeks484-FBGAYES0°C~85°C TJTray2018Cyclone® V SEActive3 (168 Hours)484Field Programmable Gate ArraysCMOSBOTTOMBALLNOT SPECIFIED1.1V0.8mmNOT SPECIFIEDS-PBGA-B48466Not Qualified1.13V1.11.2/3.32.5V1.07VMCU - 151, FPGA - 66600MHz64KBSingle ARM® Cortex®-A9 MPCore™ with CoreSight™DMA, POR, WDTCANbus, EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, USB OTGMCU, FPGA66FIELD PROGRAMMABLE GATE ARRAYFPGA - 85K Logic Elements850001.9mm19mm19mmRoHS Compliant5CSEBA5
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
26 April 2024
DS1302 Real Time Clock Chip: Replacements, Characteristics, Working Principle and More
Ⅰ. DS1302 overviewⅡ. Characteristics of DS1302Ⅲ. Pin functions and structure of DS1302Ⅳ. Precautions for using DS1302Ⅴ. Introduction to the clock register of DS1302Ⅵ. How does DS1302 work?Ⅶ. Reference... -
29 April 2024
74HC14D Hex Schmitt Trigger Inverter: Benefits, Application and 74HC14 vs 74HC14D
Ⅰ. Description of 74HC14DⅡ. Features and benefits of 74HC14DⅢ. Logic functions of 74HC14DⅣ. Limiting values of 74HC14DⅤ. Application market of 74HC14DⅥ. How to optimize the performance of 74HC14D... -
29 April 2024
SYN6288 Speech Synthesizer Module: Features, Usage, Pinout and More
Ⅰ. What is SYN6288?Ⅱ. SYN6288 broadcast function principleⅢ. Functional features of SYN6288Ⅳ. How to use the SYN6288 speech synthesizer module?Ⅴ. Pinout of SYN6288 speech synthesizer moduleⅥ. How to... -
30 April 2024
LM358AP Operational Amplifier: Symbol, Application, Specifications and Layout
Ⅰ. Introduction to LM358APⅡ. LM358AP symbol, footprint and pin configurationⅢ. Where is LM358AP used?Ⅳ. Technical advantages of LM358APⅤ. Specifications of LM358APⅥ. Layout of LM358APⅦ. Precautions for using LM358APⅠ....
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.