A3P1000L-PQG208 Actel, A3P1000L-PQG208 Datasheet - Page 17

A3P1000L-PQG208

Manufacturer Part Number

A3P1000L-PQG208

Description

FPGA - Field Programmable Gate Array 1M SYSTEM GATES

Manufacturer

Actel

Datasheet

1.A3P250L-VQG100.pdf (224 pages)

Specifications of A3P1000L-PQG208

Processor Series

A3P1000

Core

IP Core

Maximum Operating Frequency

781.25 MHz

Number Of Programmable I/os

154

Data Ram Size

147456

Supply Voltage (max)

1.26 V

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Development Tools By Supplier

A3PE-Proto-Kit, A3PE-Brd1500-Skt, Silicon-Explorer II, Silicon-Sculptor 3, SI-EX-TCA, FlashPro 4, FlashPro 3, FlashPro Lite

Mounting Style

SMD/SMT

Supply Voltage (min)

1.14 V

Number Of Gates

1 M

Package / Case

PQFP-208

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

A3P1000L-PQG208

Manufacturer:

Microsemi SoC

Quantity:

10 000

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Table 2-4 •

I/O Power-Up and Supply Voltage Thresholds for Power-On Reset

(Commercial and Industrial)

Sophisticated power-up management circuitry is designed into every ProASIC3 device. These circuits

ensure easy transition from the powered-off state to the powered-up state of the device. The many

different supplies can power up in any sequence with minimized current spikes or surges. In addition, the

I/O will be in a known state through the power-up sequence. The basic principle is shown in

on page 2-4

There are five regions to consider during power-up.

ProASIC3 I/Os are activated only if ALL of the following three conditions are met:

VCCI Trip Point:

Ramping up: 0.6 V < trip_point_up < 1.2 V

Ramping down: 0.5 V < trip_point_down < 1.1 V

VCC Trip Point:

Ramping up: 0.6 V < trip_point_up < 1.1 V

Ramping down: 0.5 V < trip_point_down < 1 V

VCC and VCCI ramp-up trip points are about 100 mV higher than ramp-down trip points. This specifically

built-in hysteresis prevents undesirable power-up oscillations and current surges. Note the following:

VCCI

2.7 V or less

3 V

3.3 V

3.6 V

Notes:

1. Based on reliability requirements at junction temperature at 85°C.

2. The duration is allowed at one out of six clock cycles. If the overshoot/undershoot occurs at one out of

3. This table does not provide PCI overshoot/undershoot limits.

1. VCC and VCCI are above the minimum specified trip points

2. VCCI > VCC – 0.75 V (typical)

3. Chip is in the operating mode.

•

two cycles, the maximum overshoot/undershoot has to be reduced by 0.15 V.

Figure 2-2 on page

During programming, I/Os become tristated and weakly pulled up to VCCI.

JTAG supply, PLL power supplies, and charge pump VPUMP supply have no influence on I/O

behavior.

and

Overshoot and Undershoot Limits

Figure 2-2 on page

Average VCCI–GND Overshoot or Undershoot

Duration as a Percentage of Clock Cycle

2-5).

2-5.

10%

R e v i s i o n 9

ProASIC3L Low Power Flash FPGAs

(Figure 2-1 on page 2-4

Maximum Overshoot/

Undershoot

1.49 V

1.19 V

0.79 V

0.88 V

0.45 V

0.54 V

1.4 V

1.1 V

Figure 2-1

and

2 -3

A3P1000L-PQG208 Actel, A3P1000L-PQG208 Datasheet - Page 17

A3P1000L-PQG208

Specifications of A3P1000L-PQG208

Available stocks

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