EX128-PTQG100 Datasheet, PDF(30/49 Page) Actel Corporation

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EX128-PTQG100 Datasheet, PDF (30/49 Pages) Actel Corporation – eX Family FPGAs

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eX Family FPGAs

Pin Description

CLKA/B

Routed Clock A and B

These pins are clock inputs for clock distribution

networks. Input levels are compatible with standard TTL

or LVTTL specifications. The clock input is buffered prior

to clocking the R-cells. If not used, this pin must be set

LOW or HIGH on the board. It must not be left floating.

GND

Ground

LOW supply voltage.

HCLK

Dedicated (Hardwired)

Array Clock

This pin is the clock input for sequential modules. Input

levels are compatible with standard TTL or LVTTL

specifications. This input is directly wired to each R-cell

and offers clock speeds independent of the number of R-

cells being driven. If not used, this pin must be set LOW

or HIGH on the board. It must not be left floating.

I/O

Input/Output

The I/O pin functions as an input, output, tristate, or

bidirectional buffer. Based on certain configurations,

input and output levels are compatible with standard

TTL or LVTTL specifications. Unused I/O pins are

automatically tristated by the Designer software.

Low Power Pin

Controls the low power mode of the eX devices. The

device is placed in the low power mode by connecting

the LP pin to logic HIGH. In low power mode, all I/Os are

tristated, all input buffers are turned OFF, and the core

of the device is turned OFF. To exit the low power mode,

the LP pin must be set LOW. The device enters the low

power mode 800 ns after the LP pin is driven to a logic

HIGH. It will resume normal operation 200 Âµs after the LP

pin is driven to a logic LOW. LP pin should not be left

floating. Under normal operating condition it should be

tied to GND via 10 kâ¦ resistor.

No Connection

This pin is not connected to circuitry within the device.

These pins can be driven to any voltage or can be left

floating with no effect on the operation of the device.

PRA/PRB, I/O

Probe A/B

The Probe pin is used to output data from any user-

defined design node within the device. This diagnostic

pin can be used independently or in conjunction with the

other probe pin to allow real-time diagnostic output of

any signal path within the device. The Probe pin can be

used as a user-defined I/O when verification has been

completed. The pinâs probe capabilities can be

permanently disabled to protect programmed design

confidentiality.

TCK, I/O

Test Clock

Test clock input for diagnostic probe and device

programming. In flexible mode, TCK becomes active

when the TMS pin is set LOW (refer to Table 1-4 on

page 1-9). This pin functions as an I/O when the

boundary scan state machine reaches the âlogic resetâ

state.

TDI, I/O

Test Data Input

Serial input for boundary scan testing and diagnostic

probe. In flexible mode, TDI is active when the TMS pin is

set LOW (refer to Table 1-4 on page 1-9). This pin

functions as an I/O when the boundary scan state

machine reaches the âlogic resetâ state.

TDO, I/O

Test Data Output

Serial output for boundary scan testing. In flexible mode,

TDO is active when the TMS pin is set LOW (refer to

Table 1-4 on page 1-9). This pin functions as an I/O when

the boundary scan state machine reaches the "logic

reset" state. When Silicon Explorer is being used, TDO

will act as an output when the "checksum" command is

run. It will return to user I/O when "checksum" is

complete.

TMS

Test Mode Select

The TMS pin controls the use of the IEEE 1149.1

Boundary scan pins (TCK, TDI, TDO, TRST). In flexible

mode when the TMS pin is set LOW, the TCK, TDI, and

TDO pins are boundary scan pins (refer to Table 1-4 on

page 1-9). Once the boundary scan pins are in test mode,

they will remain in that mode until the internal

boundary scan state machine reaches the âlogic resetâ

state. At this point, the boundary scan pins will be

released and will function as regular I/O pins. The âlogic

resetâ state is reached five TCK cycles after the TMS pin is

set HIGH. In dedicated test mode, TMS functions as

specified in the IEEE 1149.1 specifications.

TRST, I/O

Boundary Scan Reset Pin

Once it is configured as the JTAG Reset pin, the TRST pin

functions as an active-low input to asynchronously

initialize or reset the boundary scan circuit. The TRST pin

is equipped with an internal pull-up resistor. This pin

functions as an I/O when the âReserve JTAG Reset Pinâ is

not selected in the Designer software.

VCCI

Supply Voltage

Supply voltage for I/Os.

VCCA

Supply Voltage

Supply voltage for Array.

1-26

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