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M1AGLE3000V5-FFG896

M1AGLE3000V5-FFG896

M1AGLE3000V5-FFG896

Actel

2.44mm mm FPGAs 1mm mm 896

SOT-23

M1AGLE3000V5-FFG896 Datasheet PDF

non-compliant

Technical Specifications

Parameter NameValue
TypeParameter
Surface MountYES
JESD-609 Code e0
Moisture Sensitivity Level (MSL) 3 (168 Hours)
Number of Terminations 896
Terminal Finish TIN LEAD
Subcategory Field Programmable Gate Arrays
Technology CMOS
Terminal Position BOTTOM
Terminal FormBALL
Peak Reflow Temperature (Cel) 225
Supply Voltage 1.5V
Terminal Pitch1mm
Time@Peak Reflow Temperature-Max (s) 30
JESD-30 Code S-PBGA-B896
Number of Outputs 620
Qualification StatusNot Qualified
Operating Temperature (Max) 70°C
Supply Voltage-Max (Vsup) 1.575V
Power Supplies1.5V
Temperature GradeCOMMERCIAL
Supply Voltage-Min (Vsup) 1.425V
Clock Frequency 250MHz
Number of Inputs 620
Organization 3000000 GATES
Programmable Logic TypeFIELD PROGRAMMABLE GATE ARRAY
Number of Logic Cells75264
Number of Equivalent Gates 3000000
Length 31mm
Height Seated (Max) 2.44mm
Width 31mm
RoHS StatusNon-RoHS Compliant
In-Stock:2620 items

M1AGLE3000V5-FFG896 Product Details

M1AGLE3000V5-FFG896 Overview


This kind of FPGA is composed of FIELD PROGRAMMABLE GATE ARRAY. Fpga chips is powered from a supply voltage of 1.5V. This FPGA part belongs to the family of Field Programmable Gate Arrays. There are 620 outputs incorporated in this device. Fpga chips is designed wFpga chipsh 896 terminations. Fpga electronics operates from a 1.5V power supply. Typically, fpga semiconductor uses a crystal oscillating at 250MHz . Fpga semiconductor incorporates 75264 logic cells used for the building block. The supply voltage (Vsup) should be greater than 1.425V to keep this FPGA in-check. 3000000 equivalent gates are used for the design implement in the FPGA. The operating temperature should not exceed 70°C.

M1AGLE3000V5-FFG896 Features




M1AGLE3000V5-FFG896 Applications


There are a lot of Actel
M1AGLE3000V5-FFG896 FPGAs applications.


  • Digital signal processing
  • Bioinformatics
  • Device controllers
  • Software-defined radio
  • Random logic
  • ASIC prototyping
  • Medical imaging
  • Computer hardware emulation
  • Integrating multiple SPLDs
  • Voice recognition

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