XC4013E Datasheet, PDF(42/68 Page) Xilinx, Inc – XC4000E and XC4000X Series Field Programmable Gate Arrays

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XC4013E Datasheet, PDF (42/68 Pages) Xilinx, Inc – XC4000E and XC4000X Series Field Programmable Gate Arrays

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XC4000E and XC4000X Series Field Programmable Gate Arrays

Conï¬guration Modes

XC4000E devices have six conï¬guration modes. XC4000X

devices have the same six modes, plus an additional con-

ï¬guration mode. These modes are selected by a 3-bit input

code applied to the M2, M1, and M0 inputs. There are three

self-loading Master modes, two Peripheral modes, and a

Serial Slave mode, which is used primarily for

daisy-chained devices. The coding for mode selection is

shown in Table 18.

Table 18: Conï¬guration Modes

Mode

Master Serial

Slave Serial

Master

Parallel Up

M2 M1 M0

000

111

100

CCLK

output

input

output

Master

1 1 0 output

Parallel Down

Peripheral

0 1 1 input

Synchronous*

Peripheral

1 0 1 output

Asynchronous

Reserved

010

Reserved

001

* Can be considered byte-wide Slave Parallel

Data

Bit-Serial

Byte-Wide,

increment

from 00000

Byte-Wide,

decrement

from 3FFFF

Byte-Wide

A detailed description of each conï¬guration mode, with tim-

ing information, is included later in this data sheet. During

conï¬guration, some of the I/O pins are used temporarily for

the conï¬guration process. All pins used during conï¬gura-

tion are shown in Table 22 on page 58.

Master Modes

The three Master modes use an internal oscillator to gener-

ate a Conï¬guration Clock (CCLK) for driving potential slave

devices. They also generate address and timing for exter-

nal PROM(s) containing the conï¬guration data.

Master Parallel (Up or Down) modes generate the CCLK

signal and PROM addresses and receive byte parallel data.

The data is internally serialized into the FPGA data-frame

format. The up and down selection generates starting

addresses at either zero or 3FFFF (3FFFFF when 22

address lines are used), for compatibility with different

microprocessor addressing conventions. The Master Serial

mode generates CCLK and receives the conï¬guration data

in serial form from a Xilinx serial-conï¬guration PROM.

CCLK speed is selectable as either 1 MHz (default) or 8

MHz. Conï¬guration always starts at the default slow fre-

quency, then can switch to the higher frequency during the

ï¬rst frame. Frequency tolerance is -50% to +25%.

Additional Address lines in XC4000 devices

The XC4000X devices have additional address lines

(A18-A21) allowing the additional address space required

to daisy-chain several large devices.

The extra address lines are programmable in XC4000EX

devices. By default these address lines are not activated. In

the default mode, the devices are compatible with existing

XC4000 and XC4000E products. If desired, the extra

address lines can be used by specifying the address lines

option in bitgen as 22 (bitgen -g AddressLines:22). The

lines (A18-A21) are driven when a master device detects,

via the bitstream, that it should be using all 22 address

lines. Because these pins will initially be pulled high by

internal pull-ups, designers using Master Parallel Up mode

should use external pull down resistors on pins A18-A21. If

Master Parallel Down mode is used external resistors are

not necessary.

All 22 address lines are always active in Master Parallel

modes with XC4000XL devices. The additional address

lines behave identically to the lower order address lines. If

the Address Lines option in bitgen is set to 18, it will be

ignored by the XC4000XL device.

The additional address lines (A18-A21) are not available in

the PC84 package.

Peripheral Modes

The two Peripheral modes accept byte-wide data from a

bus. A RDY/BUSY status is available as a handshake sig-

nal. In Asynchronous Peripheral mode, the internal oscilla-

tor generates a CCLK burst signal that serializes the

byte-wide data. CCLK can also drive slave devices. In the

synchronous mode, an externally supplied clock input to

CCLK serializes the data.

Slave Serial Mode

In Slave Serial mode, the FPGA receives serial conï¬gura-

tion data on the rising edge of CCLK and, after loading its

conï¬guration, passes additional data out, resynchronized

on the next falling edge of CCLK.

Multiple slave devices with identical conï¬gurations can be

wired with parallel DIN inputs. In this way, multiple devices

can be conï¬gured simultaneously.

Serial Daisy Chain

Multiple devices with different conï¬gurations can be con-

nected together in a âdaisy chain,â and a single combined

bitstream used to conï¬gure the chain of slave devices.

To conï¬gure a daisy chain of devices, wire the CCLK pins

of all devices in parallel, as shown in Figure 51 on page

60. Connect the DOUT of each device to the DIN of the

next. The lead or master FPGA and following slaves each

passes resynchronized conï¬guration data coming from a

single source. The header data, including the length count,

6-46

May 14, 1999 (Version 1.6)

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