Parameters |
Mounting Type |
Surface Mount |
Package / Case |
208-BFQFP |
Supplier Device Package |
208-PQFP (28x28) |
Operating Temperature |
-40°C~85°C TA |
Packaging |
Tray |
Published |
1995 |
Series |
MACH® 5 |
Part Status |
Obsolete |
Moisture Sensitivity Level (MSL) |
3 (168 Hours) |
Max Operating Temperature |
85°C |
Min Operating Temperature |
-40°C |
Base Part Number |
M5LV-512 |
Operating Supply Voltage |
3.3V |
Programmable Type |
In System Programmable |
Max Supply Voltage |
3.6V |
Min Supply Voltage |
3V |
Number of I/O |
160 |
Memory Type |
EEPROM |
Number of Gates |
20000 |
Max Frequency |
100MHz |
Number of Programmable I/O |
208 |
Number of Macro Cells |
512 |
Voltage Supply - Internal |
3V~3.6V |
Delay Time tpd(1) Max |
7.5ns |
RoHS Status |
Non-RoHS Compliant |
M5LV-512/160-7YI Overview
512 macrocells are present in the mobile phone network, which offer radio coverage from a high-power cell tower, antenna, or mast.It is part of the 208-BFQFP package.There are 160 I/Os programmed in it.It is recommended to package the chip by Tray.Ensure its reliability by operating at [0].Chips should be mounted by Surface Mount.In FPGA terms, it is a type of MACH? 5series FPGA.According to the M5LV-512, its related parts can be found.It is possible to construct digital circuits using 20000gates, which are devices that serve as building blocks.If high efficiency is to be achieved, the supply voltage should be maintained at [0].In general, it is recommended to store data in [0].It operates with the maximal supply voltage of 3.6V.Normally, it operates with a voltage of 3VV as its minimum supply voltage.In total, there are 208programmable I/Os.It is recommended that the maximal frequency be lower than 100MHz.Operating temperatures should be higher than 0°C.It is recommended that the operating temperature be below 85°C.
M5LV-512/160-7YI Features
208-BFQFP package
160 I/Os
The operating temperature of -40°C~85°C TA
M5LV-512/160-7YI Applications
There are a lot of Lattice Semiconductor Corporation M5LV-512/160-7YI CPLDs applications.
- Complex programmable logic devices
- High speed graphics processing
- Wireless Infrastructure Base Band Unit and Remote Radio Unit
- Multiple DIP Switch Replacement
- Digital multiplexers
- POWER-SAVING MODES
- Storage Cards and Storage Racks
- Dedicated input registers
- TIMERS/COUNTERS
- Interface bridging