XC6SLX45-3FGG676I Xilinx Inc, XC6SLX45-3FGG676I Datasheet - Page 7

XC6SLX45-3FGG676I

Manufacturer Part Number

XC6SLX45-3FGG676I

Description

IC FPGA SPARTAN 6 43K 676FGGBGA

Manufacturer

Xilinx Inc

Series

Spartan® 6 LXr

Datasheets

1.XC6SLX45-2FGG484CES.pdf (11 pages)

2.XC6SLX45-2FGG484CES.pdf (76 pages)

Specifications of XC6SLX45-3FGG676I

Number Of Logic Elements/cells

43661

Number Of Labs/clbs

3411

Total Ram Bits

2138112

Number Of I /o

358

Voltage - Supply

1.14 V ~ 1.26 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

676-BBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

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Input/Output

The number of I/O pins varies from 102 to 576, depending on device and package size. Each I/O pin is configurable and can

comply with a large number of standards, using up to 3.3V. The Spartan-6 FPGA SelectIO Resources User Guide describes

the I/O compatibilities of the various I/O options. With the exception of supply pins and a few dedicated configuration pins,

all other package pins have the same I/O capabilities, constrained only by certain banking rules. All user I/O is bidirectional;

there are no input-only pins.

All I/O pins are organized in banks, with four banks on the smaller devices and six banks on the larger devices. Each bank

has several common V

buffers require an externally applied reference voltage (V

In a given bank, when I/O standard calls for a V

voltage rail and can not be used as an I/O pin.

I/O Electrical Characteristics

Single-ended outputs use a conventional CMOS push/pull output structure, driving High towards V

ground, and can be put into high-Z state. Many I/O features are available to the system designer to optionally invoke in each

I/O in their design, such as weak internal pull-up and pull-down resistors, strong internal split-termination input resistors,

adjustable output drive-strengths and slew-rates, and differential termination resistors. See the Spartan-6 FPGA SelectIO

Resources User Guide for more details on available options for each I/O standard.

I/O Logic

Input and Output Delay

This section describes the available logic resources connected to the I/O interfaces. All inputs and outputs can be configured

as either combinatorial or registered. Double data rate (DDR) is supported by all inputs and outputs. Any input or output can

be individually delayed by up to 256 increments. This is implemented as IODELAY2. The identical delay value is available

either for data input or output. For a bidirectional data line, the transfer from input to output delay is automatic. The number

of delay steps can be set by configuration and can also be incremented or decremented while in use.

Because these tap delays vary with supply voltage, process, and temperature, an optional calibration mechanism is built into

each IODELAY2:

•

ISERDES and OSERDES

Many applications combine high-speed bit-serial I/O with slower parallel operation inside the device. This requires a

serializer and deserializer (SerDes) inside the I/O structure. Each input has access to its own deserializer (serial-to-parallel

converter) with programmable parallel width of 2, 3, or 4 bits. Where differential inputs are used, the two serializers can be

cascaded to provide parallel widths of 5, 6, 7, or 8 bits. Each output has access to its own serializer (parallel-to-serial

converter) with programmable parallel width of 2, 3, or 4 bits. Two serializers can be cascaded when a differential driver is

used to give access to bus widths of 5, 6, 7, or 8 bits.

When distributing a double data rate clock, all SerDes data is actually clocked in/out at single data rate to eliminate the

possibility of bit errors due to duty cycle distortion. This faster single data rate clock is either derived via frequency

multiplication in a PLL, or doubled locally in each IOB by differentiating both clock edges when the incoming clock uses

double data rate.

DS160 (v1.7) March 21, 2011

Preliminary Product Specification

In the simple system synchronous case, a data input delay value is inserted automatically, without user intervention.

For source synchronous designs where more accuracy is required, the calibration mechanism can (optionally)

determine dynamically how many taps are needed to delay data by one full I/O clock cycle, and then programs the

IODELAY2 with 50% of that value, thus centering the I/O clock in the middle of the data eye.

A special mode is available only for differential inputs, which uses a phase-detector mechanism to determine whether

the incoming data signal is being accurately sampled in the middle of the eye. The results from the phase-detector logic

can be used to either increment or decrement the input delay, one tap at a time, to ensure error-free operation at very

high bit rates.

CCO

output supply-voltage pins, which also powers certain input buffers. Some single-ended input

REF

voltage, each V

www.xilinx.com

REF

). There are several dual-purpose V

REF

pin in that bank must be connected to the same

Spartan-6 Family Overview

REF

CCO

-I/O pins in each bank.

or Low towards

XC6SLX45-3FGG676I Xilinx Inc, XC6SLX45-3FGG676I Datasheet - Page 7

XC6SLX45-3FGG676I

Specifications of XC6SLX45-3FGG676I

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