AGLE600V2-FGG484 Actel, AGLE600V2-FGG484 Datasheet - Page 102

AGLE600V2-FGG484

Manufacturer Part Number

AGLE600V2-FGG484

Description

FPGA - Field Programmable Gate Array 600K System Gates

Manufacturer

Actel

Datasheet

1.AGLE600V2-FGG484.pdf (158 pages)

Specifications of AGLE600V2-FGG484

Processor Series

AGLE600

Core

IP Core

Maximum Operating Frequency

526.32 MHz, 892.86 MHz

Number Of Programmable I/os

270

Data Ram Size

110592

Supply Voltage (max)

1.575 V

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Development Tools By Supplier

AGL-Icicle-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)

1.14 V

Number Of Gates

600 K

Package / Case

FPBGA-484

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AGLE600V2-FGG484

Manufacturer:

Actel

Quantity:

135

Company:

BOSTOCK HK LIMITED

Part Number:

AGLE600V2-FGG484I

Manufacturer:

Microsemi SoC

Quantity:

10 000

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IGLOOe DC and Switching Characteristics

Table 2-138 • AGLE600 Global Resource

Table 2-139 • AGLE3000 Global Resource

2- 88

Parameter

Notes:

1. Value reflects minimum load. The delay is measured from the CCC output to the clock pin of a sequential element,

2. Value reflects maximum load. The delay is measured on the clock pin of the farthest sequential element, located in a fully

3. For specific junction temperature and voltage supply levels, refer to

Parameter

Notes:

1. Value reflects minimum load. The delay is measured from the CCC output to the clock pin of a sequential element,

2. Value reflects maximum load. The delay is measured on the clock pin of the farthest sequential element, located in a fully

3. For specific junction temperature and voltage supply levels, refer to

RCKL

RCKH

RCKMPWH

RCKMPWL

RCKSW

RCKL

RCKH

RCKMPWH

RCKMPWL

RCKSW

RMAX

located in a lightly loaded row (single element is connected to the global net).

loaded row (all available flip-flops are connected to the global net in the row).

located in a lightly loaded row (single element is connected to the global net).

loaded row (all available flip-flops are connected to the global net in the row).

Global Tree Timing Characteristics

Global clock delays include the central rib delay, the spine delay, and the row delay. Delays do not

include I/O input buffer clock delays, as these are I/O standard–dependent, and the clock may be driven

and conditioned internally by the CCC module. For more details on clock conditioning capabilities, refer

to the

and maximum global clock delays within the device. Minimum and maximum delays are measured with

minimum and maximum loading.

Timing Characteristics

Commercial-Case Conditions: T

1.5 V DC Core Voltage

Input LOW Delay for Global Clock

Input HIGH Delay for Global Clock

Minimum Pulse Width HIGH for Global Clock

Minimum Pulse Width LOW for Global Clock

Maximum Skew for Global Clock

Maximum Frequency for Global Clock

Input LOW Delay for Global Clock

Input HIGH Delay for Global Clock

Minimum Pulse Width HIGH for Global Clock

Minimum Pulse Width LOW for Global Clock

Maximum Skew for Global Clock

Maximum Frequency for Global Clock

"Clock Conditioning Circuits" section on page

Description

= 70°C, VCC = 1.425 V

R e visio n 8

2-90.

Table 2-6 on page 2-6

Table 2-138

and

for derating values.

Table 2-140

Min.

1.48

1.52

2.00

2.09

Std.

present minimum

Max.

1.82

1.94

0.42

2.34

2.51

0.42

Units

MHz

AGLE600V2-FGG484 Actel, AGLE600V2-FGG484 Datasheet - Page 102

AGLE600V2-FGG484

Specifications of AGLE600V2-FGG484

Available stocks

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