AGLP060V5-CSG289 Actel, AGLP060V5-CSG289 Datasheet - Page 18

FPGA - Field Programmable Gate Array 60K System Gates

AGLP060V5-CSG289

Manufacturer Part Number

AGLP060V5-CSG289

Description

FPGA - Field Programmable Gate Array 60K System Gates

Manufacturer

Actel

Datasheet

1.AGLP125V5-CSG289.pdf (128 pages)

Specifications of AGLP060V5-CSG289

Processor Series

AGLP060

Core

IP Core

Number Of Macrocells

512

Maximum Operating Frequency

250 MHz

Number Of Programmable I/os

Data Ram Size

4608 bit

Supply Voltage (max)

1.575 V

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Development Tools By Supplier

AGLP-Eval-Kit, AGL-Dev-Kit-SCS, Silicon-Explorer II, Silicon-Sculptor 3, SI-EX-TCA, Flashpro 4, Flashpro 3, Flashpro Lite

Mounting Style

SMD/SMT

Supply Voltage (min)

1.425 V

Number Of Gates

60 K

Package / Case

CSP-289

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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IGLOO PLUS DC and Switching Characteristics

Figure 2-1 • V5 Devices – I/O State as a Function of VCCI and VCC Voltage Levels

2- 4

Deactivation trip point:

Activation trip point:

= 0.85 V ± 0.25 V

= 0.75 V ± 0.25 V

VCC = 1.575 V

VCC = 1.425 V

PLL Behavior at Brownout Condition

Actel 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 (see

When PLL power supply voltage and/or VCC levels drop below the VCC brownout levels (0.75 V ± 0.25

V for V5 devices, and 0.75 V ± 0.2 V for V2 devices), the PLL output lock signal goes Low and/or the

output clock is lost. Refer to the "Brownout Voltage" section in the "Power-Up/-Down Behavior of Low

Power Flash Devices" chapter of the

and lock recovery.

Internal Power-Up Activation Sequence

To make sure the transition from input buffers to output buffers is clean, ensure that there is no path

longer than 100 ns from input buffer to output buffer in your design.

VCC

1. Core

2. Input buffers

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

Region 1: I/O Buffers are OFF

VCC = VCCI + VT

where VT can be from 0.58 V to 0.9 V (typically 0.75 V)

Deactivation trip point:

Activation trip point:

= 0.9 V ± 0.3 V

= 0.8 V ± 0.3 V

Figure 2-1

Region 1: I/O buffers are OFF

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.

buffers do not meet VOH / VOL levels.

and

meet VIH / VIL levels, and output

same reason, input buffers do not

is below specification. For the

Figure 2-2 on page 2-5

IGLOO PLUS Device Family User’s Guide

but slower because VCCI

(except differential

(except differential inputs)

I/Os are functional

R ev isio n 1 1

buffers are ON.

Region 4: I/O

Min VCCI datasheet specification

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

voltage at a selected I/O

or 2.3 V or 3.0 V

for more details).

speed, VIH / VIL, VOH / VOL,

etc.

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 5: I/O buffers are ON

and power supplies are within

specification.

I/Os meet the entire datasheet

and timer specifications for

for information on clock

VCCI

AGLP060V5-CSG289 Actel, AGLP060V5-CSG289 Datasheet - Page 18

AGLP060V5-CSG289

Specifications of AGLP060V5-CSG289

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