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M1AFS600-PQ208 Datasheet, PDF (272/334 Pages) Microsemi Corporation – Fusion Family of Mixed Signal FPGAs
DC and Power Characteristics
Dynamic Power Consumption of Various Internal Resources
Table 3-14 • Different Components Contributing to the Dynamic Power Consumption in Fusion Devices
Power Supply
Device-Specific
Dynamic Contributions
Parameter
Definition
Name Setting AFS1500 AFS600 AFS250 AFS090 Units
PAC1
Clock contribution of a Global VCC 1.5 V
14.5
12.8
11
Rib
11 µW/MHz
PAC2
Clock contribution of a Global VCC 1.5 V
2.5
Spine
1.9
1.6
0.8 µW/MHz
PAC3
Clock contribution of a VersaTile VCC
row
1.5 V
0.81
µW/MHz
PAC4
Clock contribution of a VersaTile VCC
used as a sequential module
1.5 V
0.11
µW/MHz
PAC5
First contribution of a VersaTile VCC
used as a sequential module
1.5 V
0.07
µW/MHz
PAC6
Second contribution of a VCC
VersaTile used as a sequential
module
1.5 V
0.29
µW/MHz
PAC7
Contribution of a VersaTile used VCC
as a combinatorial module
1.5 V
0.29
µW/MHz
PAC8
Average contribution of a routing VCC
net
1.5 V
0.70
µW/MHz
PAC9
Contribution of an I/O input pin VCCI
(standard dependent)
See Table 3-12 on page 3-18
PAC10
Contribution of an I/O output pin VCCI
(standard dependent)
See Table 3-13 on page 3-20
PAC11
Average contribution of a RAM VCC
block during a read operation
1.5 V
25
µW/MHz
PAC12
Average contribution of a RAM VCC
block during a write operation
1.5 V
30
µW/MHz
PAC13 Dynamic Contribution for PLL
VCC 1.5 V
2.6
µW/MHz
PAC15
Contribution of NVM block during VCC
a read operation (F < 33MHz)
1.5 V
358
µW/MHz
PAC16 1st contribution of NVM block VCC 1.5 V
12.88
mW
during a read operation (F > 33
MHz)
PAC17
2nd contribution of NVM block VCC
during a read operation (F > 33
MHz)
1.5 V
4.8
µW/MHz
PAC18 Crystal Oscillator contribution VCC33A 3.3 V
0.63
mW
PAC19 RC Oscillator contribution
VCC33A 3.3 V
3.3
mW
PAC20 Analog Block dynamic power VCC 1.5 V
3
mW
contribution of ADC
3-22
Revision 4