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EX128-PTQG100 Datasheet, PDF (8/49 Pages) Actel Corporation – eX Family FPGAs
eX Family FPGAs
Clock Resources
eX’s high-drive routing structure provides three clock
networks. The first clock, called HCLK, is hardwired from
the HCLK buffer to the clock select MUX in each R-Cell.
HCLK cannot be connected to combinational logic. This
provides a fast propagation path for the clock signal,
enabling the 3.9 ns clock-to-out (pad-to-pad)
performance of the eX devices. The hard-wired clock is
tuned to provide a clock skew of less than 0.1 ns worst
case. If not used, the HCLK pin must be tied LOW or HIGH
and must not be left floating. Figure 1-5 describes the
clock circuit used for the constant load HCLK.
HCLK does not function until the fourth clock cycle each
time the device is powered up to prevent false output
levels due to any possible slow power-on-reset signal and
fast start-up clock circuit. To activate HCLK from the first
cycle, the TRST pin must be reserved in the Design
software and the pin must be tied to GND on the board.
(See the "TRST, I/O Boundary Scan Reset Pin" on page 1-
26).
The remaining two clocks (CLKA, CLKB) are global routed
clock networks that can be sourced from external pins or
from internal logic signals (via the CLKINT routed clock
buffer) within the eX device. CLKA and CLKB may be
connected to sequential cells or to combinational logic. If
CLKA or CLKB is sourced from internal logic signals, the
external clock pin cannot be used for any other input
and must be tied LOW or HIGH and must not float.
Figure 1-6 describes the CLKA and CLKB circuit used in eX
devices.
Table 1-1 describes the possible connections of the
routed clock networks, CLKA and CLKB.
Unused clock pins must not be left floating and must be
tied to HIGH or LOW.
HCLKBUF
Figure 1-5 • eX HCLK Clock Pad
Constant Load
Clock Network
CLKBUF
CLKBUFI
CLKINT
CLKINTI
Figure 1-6 • eX Routed Clock Buffer
Table 1-1 • Connections of Routed Clock Networks, CLKA
and CLKB
Module
Pins
C-Cell
A0, A1, B0 and B1
R-Cell
CLKA, CLKB, S0, S1, PSET, and CLR
I/O-Cell
EN
Clock Network
From Internal Logic
1-4
v4.3