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M1AGL1000V2-FG144I View Datasheet(PDF) - Microsemi Corporation

Part Name
Description
Manufacturer
M1AGL1000V2-FG144I
Microsemi
Microsemi Corporation Microsemi
M1AGL1000V2-FG144I Datasheet PDF : 250 Pages
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IGLOO Low Power Flash FPGAs
VCC
VCC = 1.575 V
VCC = 1.14 V
Activation trip point:
Va = 0.85 V ± 0.2 V
Deactivation trip point:
Vd = 0.75 V ± 0.2 V
VCC = VCCI + VT
where VT can be from 0.58 V to 0.9 V (typically 0.75 V)
Region 1: I/O Buffers are OFF
Region 4: I/O
buffers are ON.
I/Os are functional
(except differential inputs)
but slower because VCCI is
below specification. For the
same reason, input buffers do not
meet VIH / VIL levels, and output
buffers do not meet VOH / VOL levels.
Region 5: I/O buffers are ON
and power supplies are within
specification.
I/Os meet the entire datasheet
and timer specifications for
speed, VIH / VIL , VOH / VOL , etc.
Region 2: I/O buffers are ON.
I/Os are functional (except differential inputs)
but slower because VCCI/VCC are below
specification. For the same reason, input
buffers do not meet VIH/VIL levels, and
output buffers do not meet VOH/VOL levels.
Region 1: I/O buffers are OFF
Region 3: I/O buffers are ON.
I/Os are functional; I/O DC
specifications are met,
but I/Os are slower because
the VCC is below specification.
Activation trip point:
Va = 0.9 V ± 0.15 V
Deactivation trip point:
Vd = 0.8 V ± 0.15 V
Min VCCI datasheet specification
voltage at a selected I/O
standard; i.e., 1.14 V,1.425 V, 1.7 V,
2.3 V, or 3.0 V
Figure 2-2 • V2 Devices – I/O State as a Function of VCCI and VCC Voltage Levels
VCCI
Thermal Characteristics
Introduction
The temperature variable in the Designer software refers to the junction temperature, not the ambient
temperature. This is an important distinction because dynamic and static power consumption cause the
chip junction to be higher than the ambient temperature.
EQ 1 can be used to calculate junction temperature.
TJ = Junction Temperature = T + TA
EQ 1
where:
TA = Ambient Temperature
T = Temperature gradient between junction (silicon) and ambient T = ja * P
ja = Junction-to-ambient of the package. ja numbers are located in Table 2-5 on page 2-6.
P = Power dissipation
Revision 23
2-5

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