M1A3P1000-1PQ208M Datasheet, PDF(19/212 Page) Microsemi Corporation – Military ProASIC3/EL Low Power Flash FPGAs with Flash*Freeze Technology

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M1A3P1000-1PQ208M Datasheet, PDF (19/212 Pages) Microsemi Corporation – Military ProASIC3/EL Low Power Flash FPGAs with Flash*Freeze Technology

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Military ProASIC3/EL Low Power Flash FPGAs

PLL Behavior at Brownout Condition

Microsemi recommends using monotonic power supplies or voltage regulators to ensure proper power-

up behavior. Power ramp-up should be monotonic, at least until VCC and VCCPLX exceed brownout

activation levels. The VCC activation level is specified as 1.1 V worst-case (see Figure 2-2 and Figure 2-

3 on page 2-6 for more details).

When PLL power supply voltage and/or VCC levels drop below the VCC brownout levels (0.75 V

Â± 0.25 V), the PLL output lock signal goes low and/or the output clock is lost. Refer to the "Power-Up/-

Down Behavior of Low-Power Flash Devices" chapter of the Military ProASIC3/EL FPGA Fabric Userâs

Guide for information on clock and lock recovery.

Internal Power-Up Activation Sequence

1. Core

2. Input buffers

Output buffers, after 200 ns delay from input buffer activation.

VCC

VCC = 1.575 V

VCC = 1.425 V

Activation trip point:

Va = 0.85 V Â± 0.25 V

Deactivation trip point:

Vd = 0.75 V Â± 0.25 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

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 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.

Region 1: I/O buffers are OFF

Activation trip point:

Va = 0.9 V Â± 0.3 V

Deactivation trip point:

Vd = 0.8 V Â± 0.3 V

Min VCCI datasheet specification

voltage at a selected I/O

standard; i.e., 1.425 V or 1.7 V

or 2.3 V or 3.0 V

VCCI

Figure 2-2 â¢ Devices Operating at 1.5 V Core â I/O State as a Function of VCCI and VCC Voltage Levels

Revision 3

2-5

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