AGLN030V2-ZVQG100 Actel, AGLN030V2-ZVQG100 Datasheet - Page 26

FPGA - Field Programmable Gate Array 30K System Gates IGLOO nano

AGLN030V2-ZVQG100

Manufacturer Part Number

AGLN030V2-ZVQG100

Description

FPGA - Field Programmable Gate Array 30K System Gates IGLOO nano

Manufacturer

Actel

Datasheet

1.AGLN030V5-ZUCG81.pdf (140 pages)

Specifications of AGLN030V2-ZVQG100

Processor Series

AGLN030

Core

IP Core

Number Of Macrocells

256

Maximum Operating Frequency

250 MHz

Number Of Programmable I/os

Supply Voltage (max)

1.5 V

Supply Current

6 uA

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

- 20 C

Development Tools By Supplier

AGLN-Nano-Kit, AGLN-Z-Nano-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)

1.2 V

Number Of Gates

30 K

Package / Case

VQFP-100

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Company

Part Number

Manufacturer

Quantity

Price

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BOSTOCK HK LIMITED

Part Number:

AGLN030V2-ZVQG100

Manufacturer:

Microsemi SoC

Quantity:

10 000

Company:

BOSTOCK HK LIMITED

Part Number:

AGLN030V2-ZVQG100I

Manufacturer:

Microsemi SoC

Quantity:

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IGLOO nano DC and Switching Characteristics

2- 12

Power Calculation Methodology

This section describes a simplified method to estimate power consumption of an application. For more

accurate and detailed power estimations, use the SmartPower tool in Actel Libero IDE software.

The power calculation methodology described below uses the following variables:

Methodology

Total Power Consumption—P

Total Static Power Consumption—P

Total Dynamic Power Consumption—P

Global Clock Contribution—P

Sequential Cells Contribution—P

•

TOTAL

STAT

DYN

CLOCK

S-CELL

The number of PLLs as well as the number and the frequency of each output clock generated

The number of combinatorial and sequential cells used in the design

The internal clock frequencies

The number and the standard of I/O pins used in the design

The number of RAM blocks used in the design

Toggle rates of I/O pins as well as VersaTiles—guidelines are provided in

page

Enable rates of output buffers—guidelines are provided for typical applications in

page

Read rate and write rate to the memory—guidelines are provided for typical applications in

Table 2-20 on page

design.

Table 2-19 on page

PAC1, PAC2, PAC3, and PAC4 are device-dependent.

multi-tile sequential cell is used, it should be accounted for as 1.

page

= P

= (PDC1 or PDC2 or PDC3) + N

CLK

STAT

DYN

BANKS

SPINE

ROW

S-CELL

= P

= (PAC1 + N

= N

2-14.

CLOCK

is the toggle rate of VersaTile outputs—guidelines are provided in

STAT

is the global clock signal frequency.

2-14.

is the total dynamic power consumption.

S-CELL

is the total static power consumption.

is the number of VersaTile rows used in the design—guidelines are provided in

is the number of global spines used in the user design—guidelines are provided in

is the number of I/O banks powered in the design.

is the number of VersaTiles used as sequential modules in the design.

is the number of VersaTiles used as sequential modules in the design. When a

+ P

* (PAC5 +

DYN

S-CELL

SPINE

2-14. The calculation should be repeated for each clock domain defined in the

2-14.

+ P

* PAC2 + N

C-CELL

TOTAL

CLOCK

/ 2 * PAC6) * F

S-CELL

+ P

ROW

BANKS

STAT

R ev i sio n 1 1

NET

DYN

* PAC3 + N

+ P

* PDC5

CLK

INPUTS

S-CELL

+ P

OUTPUTS

* PAC4) * F

+ P

MEMORY

CLK

+ P

PLL

Table 2-19 on

Table 2-20 on

AGLN030V2-ZVQG100 Actel, AGLN030V2-ZVQG100 Datasheet - Page 26

AGLN030V2-ZVQG100

Specifications of AGLN030V2-ZVQG100

Available stocks

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