English
Language : 

A3P250-2FG256I Datasheet, PDF (16/212 Pages) Microsemi Corporation – Military ProASIC3/EL Low Power Flash FPGAs
Military ProASIC3/EL DC and Switching Characteristics
Table 2-2 • Recommended Operating Conditions 1
Symbol
Parameter
Military
Units
TA
TJ
VCC
Ambient temperature
Junction temperature
1.5 V DC core supply voltage2
–55 to 125
°C
–55 to 125
°C
1.425 to 1.575 V
1.2 V – 1.5 V wide range DC core
supply voltage 3
1.14 to 1.575
V
VJTAG
VPUMP4
VCCPLL4
JTAG DC voltage
Programming voltage
Analog power supply (PLL)
Programming mode
Operation 5
1.5 V DC core supply voltage2
1.4 to 3.6
V
3.15 to 3.45
V
0 to 3.6
V
1.425 to 1.575 V
1.2 V – 1.5 V DC core supply 1.14 to 1.575
V
voltage3
VCCI and VMV4 1.2 V DC supply voltage3
1.14 to 1.26
V
1.2 V wide range DC supply voltage3
1.14 to 1.575
V
1.5 V DC supply voltage
1.425 to 1.575 V
1.8 V DC supply voltage
1.7 to 1.9
V
2.5 V DC supply voltage
3.0 V DC supply voltage6
2.3 to 2.7
V
2.7 to 3.6
V
3.3 V DC supply voltage
3.0 to 3.6
V
LVDS differential I/O
2.375 to 2.625 V
LVPECL differential I/O
3.0 to 3.6
V
Notes:
1. All parameters representing voltages are measured with respect to GND unless otherwise specified.
2. For A3P250 and A3P1000
3. For A3PE600L and A3PE3000L devices only, operating at VCCI  VCC.
4. See the "Pin Descriptions and Packaging" section on page 3-1 for instructions and recommendations on tie-off and
supply grouping.
5. The ranges given here are for power supplies only. The recommended input voltage ranges specific to each I/O
standard are given in Table 2-24 on page 2-24. VCCI should be at the same voltage within a given I/O bank.
6. 3.3 V wide range is compliant to the JESD8-B specification and supports 3.0 V VCCI operation.
7. To ensure targeted reliability standards are met across ambient and junction operating temperatures, Microsemi
recommends that the user follow best design practices using Microsemi’s timing and power simulation tools.
2-2
Revision 3