XC3130A-3PC84C Xilinx Inc, XC3130A-3PC84C Datasheet - Page 21

XC3130A-3PC84C

Manufacturer Part Number

XC3130A-3PC84C

Description

IC LOGIC CL ARRAY 3000GAT 84PLCC

Manufacturer

Xilinx Inc

Series

XC3000A/Lr

Datasheet

1.XC3190A-3PC84C.pdf (76 pages)

Specifications of XC3130A-3PC84C

Number Of Labs/clbs

100

Total Ram Bits

22176

Number Of I /o

Number Of Gates

2000

Voltage - Supply

4.25 V ~ 5.25 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

84-LCC (J-Lead)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Number Of Logic Elements/cells

Other names

122-1040

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Special Configuration Functions

The configuration data includes control over several spe-

cial functions in addition to the normal user logic functions

and interconnect.

• Input thresholds

• Readback disable

• DONE pull-up resistor

• DONE timing

• RESET timing

• Oscillator frequency divided by two

Each of these functions is controlled by configuration data

bits which are selected as part of the normal development

system bitstream generation process.

Input Thresholds

Prior to the completion of configuration all FPGA input

thresholds are TTL compatible. Upon completion of config-

uration, the input thresholds become either TTL or CMOS

compatible as programmed. The use of the TTL threshold

option requires some additional supply current for thresh-

old shifting. The exception is the threshold of the

PWRDWN input and direct clocks which always have a

CMOS input. Prior to the completion of configuration the

user I/O pins each have a high impedance pull-up. The

configuration program can be used to enable the IOB

pull-up resistors in the Operational mode to act either as an

input load or to avoid a floating input on an otherwise

unused pin.

Readback

The contents of a Field Programmable Gate Array may be

read back if it has been programmed with a bitstream in

which the Readback option has been enabled. Readback

may be used for verification of configuration and as a

method of determining the state of internal logic nodes dur-

ing debugging. There are three options in generating the

configuration bitstream.

• “Never” inhibits the Readback capability.

• “One-time,” inhibits Readback after one Readback has

• “On-command” allows unrestricted use of Readback.

Readback is accomplished without the use of any of the

user I/O pins; only M0, M1 and CCLK are used. The initia-

tion of Readback is produced by a Low to High transition of

the M0/RTRIG (Read Trigger) pin. The CCLK input must

then be driven by external logic to read back the configura-

tion data. The first three Low-to-High CCLK transitions

clock out dummy data. The subsequent Low-to-High CCLK

transitions shift the data frame information out on the

M1/RDATA (Read Data) pin. Note that the logic polarity is

always inverted, a zero in configuration becomes a one in

Readback, and vice versa. Note also that each Readback

frame has one Start bit (read back as a one) but, unlike in

November 9, 1998 (Version 3.1)

been executed to verify the configuration.

Product Obsolete or Under Obsolescence

XC3000 Series Field Programmable Gate Arrays

Reprogram

To initiate a re-programming cycle, the dual-function pin

DONE/PROG must be given a High-to-Low transition. To

reduce sensitivity to noise, the input signal is filtered for two

cycles of the FPGA internal timing generator. When repro-

gram begins, the user-programmable I/O output buffers are

disabled and high-impedance pull-ups are provided for the

package pins. The device returns to the Clear state and

clears the configuration memory before it indicates ‘initial-

ized’. Since this Clear operation uses chip-individual inter-

nal timing, the master might complete the Clear operation

and then start configuration before the slave has completed

the Clear operation. To avoid this problem, the slave INIT

pins must be AND-wired and used to force a RESET on the

master (see

mented using an external open-collector driver which pulls

DONE/PROG Low. Once a stable request is recognized,

the DONE/PROG pin is held Low until the new configura-

tion has been completed. Even if the re-program request is

externally held Low beyond the configuration period, the

FPGA will begin operation upon completion of configura-

tion.

DONE Pull-up

DONE/PROG is an open-drain I/O pin that indicates the

FPGA is in the operational state. An optional internal

pull-up resistor can be enabled by the user of the develop-

ment system. The DONE/PROG pins of multiple FPGAs in

a daisy-chain may be connected together to indicate all are

DONE or to direct them all to reprogram.

DONE Timing

The timing of the DONE status signal can be controlled by

a selection to occur either a CCLK cycle before, or after, the

outputs going active. See

of external functions such as a PROM enable or holding a

system in a wait state.

configuration, each Readback frame has only one Stop bit

(read back as a zero). The third leading dummy bit men-

tioned above can be considered the Start bit of the first

frame. All data frames must be read back to complete the

process and return the Mode Select and CCLK pins to their

normal functions.

Readback data includes the current state of each CLB

flip-flop, each input flip-flop or latch, and each device pad.

These data are imbedded into unused configuration bit

positions during Readback. This state information is used

by the development system In-Circuit Verifier to provide

visibility into the internal operation of the logic while the

system is operating. To readback a uniform time-sample of

all storage elements, it may be necessary to inhibit the sys-

tem clock.

Figure

25). Reprogram control is often imple-

Figure

22. This facilitates control

7-23

XC3130A-3PC84C Xilinx Inc, XC3130A-3PC84C Datasheet - Page 21

XC3130A-3PC84C

Specifications of XC3130A-3PC84C

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