Microsemi Corporation 5962-9215601MXA
- Part Number:
- 5962-9215601MXA
- Manufacturer:
- Microsemi Corporation
- Ventron No:
- 3134424-5962-9215601MXA
- Description:
- IC FPGA 8K GATES 176-CPGA
- ECAD Model:
-
- Datasheet:
- 5962-9215601MXA
Microsemi Corporation 5962-9215601MXA technical specifications, attributes, parameters and parts with similar specifications to Microsemi Corporation 5962-9215601MXA.
- Mounting TypeThrough Hole
- Package / Case176-BCPGA
- Number of Pins176
- Supplier Device Package176-CPGA (39.88x39.88)
- Operating Temperature-55°C~125°C TJ
- PackagingTray
- SeriesACT™ 2
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)3 (168 Hours)
- Max Operating Temperature125°C
- Min Operating Temperature-55°C
- Voltage - Supply4.5V~5.5V
- Base Part Number5962-92156
- Operating Supply Voltage5V
- Number of I/O140
- Propagation Delay6.1 ns
- Number of Gates8000
- Number of LABs/CLBs1232
- Number of Registers998
- Radiation HardeningNo
- RoHS StatusNon-RoHS Compliant
5962-9215601MXA Overview
This package is included in the 176-BCPGA package and is available for purchase. The I/Os are designed to facilitate a more coherent transfer of data. Using a Through Hole connector, you can mount this FPGA module on the development board. In order for it to operate, the supply voltage must be 4.5V~5.5V . An FPGA belonging to the ACT™ 2 series is referred to as an FPGA. In order to ensure a safe and efficient operation, it is important to maintain a temperature within -55°C~125°C TJ at all times. Using the Tray layout, this FPGA model can be contained in a very small amount of space. Parts related to this part can be found using its base part number 5962-92156. The device is designed with 176 pins in total. An array of 1232 LABs/CLBs is built into the FPGA. In the case of 5V supply voltage, designers can take full advantage of its flexibility. In this module, 125°C is the maximum operating temperature at which fpga electronics can operate. Over -55°C, the operating temperature should be higher. Fpga semiconductor is made up of 8000 gates as fpga semiconductors basic building block. A total of 998 registers are used for storing and transferring data between them. Device package 176-CPGA (39.88x39.88) is provided by its supplier.
5962-9215601MXA Features
140 I/Os
176 LABs/CLBs
125°C gates
998 registers
5962-9215601MXA Applications
There are a lot of Microsemi Corporation
5962-9215601MXA FPGAs applications.
ASIC prototyping
Medical imaging
Computer hardware emulation
Integrating multiple SPLDs
Voice recognition
Cryptography
Filtering and communication encoding
Aerospace and Defense
Medical Electronics
Audio
This package is included in the 176-BCPGA package and is available for purchase. The I/Os are designed to facilitate a more coherent transfer of data. Using a Through Hole connector, you can mount this FPGA module on the development board. In order for it to operate, the supply voltage must be 4.5V~5.5V . An FPGA belonging to the ACT™ 2 series is referred to as an FPGA. In order to ensure a safe and efficient operation, it is important to maintain a temperature within -55°C~125°C TJ at all times. Using the Tray layout, this FPGA model can be contained in a very small amount of space. Parts related to this part can be found using its base part number 5962-92156. The device is designed with 176 pins in total. An array of 1232 LABs/CLBs is built into the FPGA. In the case of 5V supply voltage, designers can take full advantage of its flexibility. In this module, 125°C is the maximum operating temperature at which fpga electronics can operate. Over -55°C, the operating temperature should be higher. Fpga semiconductor is made up of 8000 gates as fpga semiconductors basic building block. A total of 998 registers are used for storing and transferring data between them. Device package 176-CPGA (39.88x39.88) is provided by its supplier.
5962-9215601MXA Features
140 I/Os
176 LABs/CLBs
125°C gates
998 registers
5962-9215601MXA Applications
There are a lot of Microsemi Corporation
5962-9215601MXA FPGAs applications.
ASIC prototyping
Medical imaging
Computer hardware emulation
Integrating multiple SPLDs
Voice recognition
Cryptography
Filtering and communication encoding
Aerospace and Defense
Medical Electronics
Audio
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