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High-
performance
EE PLD
ATF1508ASV
ATF1508ASVL
Features
High-density, High-performance, Electrically-erasable
Complex Programmable Logic Device
3.0V to 3.6V Operating Range
128 Macrocells
5 Product Terms per Macrocell, Expandable up to 40 per Macrocell
84, 100, 160 Pins
15 ns Maximum Pin-to-pin Delay
Registered Operation up to 77 MHz
Enhanced Routing Resources
Flexible Logic Macrocell
D/T/Latch Configurable Flip-flops
Global and Individual Register Control Signals
Global and Individual Output Enable
Programmable Output Slew Rate
Programmable Output Open Collector Option
Maximum Logic Utilization by Burying a Register within a COM Output
Advanced Power Management Features
Automatic 5 A Standby for "L" Version
Pin-controlled 100 A Standby Mode
Programmable Pin-keeper Inputs and I/Os
Reduced-power Feature per Macrocell
Available in Commercial and Industrial Temperature Ranges
Available in 84-lead PLCC and 100-lead PQFP and TQFP and
160-lead PQFP Packages
Advanced EE Technology
100% Tested
Completely Reprogrammable
10,000 Program/Erase Cycles
20 Year Data Retention
2000V ESD Protection
200 mA Latch-up Immunity
JTAG Boundary-scan Testing to IEEE Std. 1149.1-1990 and 1149.1a-1993 Supported
Fast In-System Programmability (ISP) via JTAG
PCI-compliant
Security Fuse Feature
Enhanced Features
Improved Connectivity (Additional Feedback Routing, Alternate Input Routing)
Output Enable Product Terms
Transparent-latch Mode
Combinatorial Output with Registered Feedback within Any Macrocell
Three Global Clock Pins
ITD (Input Transition Detection) Circuits on Global Clocks, Inputs and I/O
Fast Registered Input from Product Term
Programmable "Pin-keeper" Option
V
CC
Power-up Reset Option
Pull-up Option on JTAG Pins TMS and TDI
Advanced Power Management Features
Edge-controlled Power-down "L"
Individual Macrocell Power Option
Disable ITD on Global Clocks, Inputs and I/O for "Z" Parts
Rev. 1408E09/00
ATF1508ASV(L)
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Description
The ATF1508ASV(L) is a high-performance, high-density
complex programmable logic device (CPLD) that utilizes
Atmel's proven electrically-erasable technology. With 128
logic macrocells and up to 100 inputs, it easily integrates
logic from several TTL, SSI, MSI, LSI and classic PLDs.
The ATF1508ASV(L)'s enhanced routing switch matrices
increase usable gate count and increase odds of success-
ful pin-locked design modifications.
The ATF1508ASV(L) has up to 96 bi-directional I/O pins
and four dedicated input pins, depending on the type of
device package selected. Each dedicated pin can also
serve as a global control signal, register clock, register
reset or output enable. Each of these control signals can be
selected for use individually within each macrocell.
Each of the 128 macrocells generates a buried feedback
that goes to the global bus. Each input and I/O pin also
feeds into the global bus. The switch matrix in each logic
block then selects 40 individual signals from the global bus.
Each macrocell also generates a foldback logic term that
goes to a regional bus. Cascade logic between macrocells
in the ATF1508ASV(L) allows fast, efficient generation of
complex logic functions. The ATF1508ASV(L) contains
eight such logic chains, each capable of creating sum term
logic with a fan-in of up to 40 product terms.
The ATF1508ASV(L) macrocell, shown in Figure 1, is flexi-
ble enough to support highly-complex logic functions oper-
ating at high-speed. The macrocell consists of five
sections: product terms and product term select multi-
plexer, OR/XOR/CASCADE logic, a flip-flop, output select
and enable, and logic array inputs.
Unused macrocells are automatically disabled by the com-
piler to decrease power consumption. A security fuse,
w h e n p r o g r a m m e d , p r o t e c t s t h e c o n t e n t s o f t h e
ATF1508ASV(L). Two bytes (16 bits) of User Signature are
accessible to the user for purposes such as storing project
name, part number, revision or date. The User Signature is
accessible regardless of the state of the security fuse.
The ATF1508ASV(L) device is an in-system programmable
(ISP) device. It uses the industry-standard 4-pin JTAG
interface (IEEE Std. 1149.1), and is fully-compliant with
JTAG's Boundary-scan Description Language (BSDL). ISP
allows the device to be programmed without removing it
from the printed circuit board. In addition to simplifying the
manufacturing flow, ISP also allows design modifications to
be made in the field via software.
Product Terms and Select Mux
Each ATF1508ASV(L) macrocell has five product terms.
Each product term receives as its inputs all signals from
both the global bus and regional bus.
The product term select multiplexer (PTMUX) allocates the
five product terms as needed to the macrocell logic gates
and control signals. The PTMUX programming is deter-
mined by the design compiler, which selects the optimum
macrocell configuration.
OR/XOR/CASCADE Logic
The ATF1508ASV(L)'s logic structure is designed to effi-
ciently support all types of logic. Within a single macrocell,
all the product terms can be routed to the OR gate, creating
a 5-input AND/OR sum term. With the addition of the
CASIN from neighboring macrocells, this can be expanded
to as many as 40 product terms with little additional delay.
The macrocell's XOR gate allows efficient implementation
of compare and arithmetic functions. One input to the XOR
comes from the OR sum term. The other XOR input can be
a product term or a fixed high- or low-level. For combinato-
rial outputs, the fixed level input allows polarity selection.
For registered functions, the fixed levels allow DeMorgan
minimization of product terms. The XOR gate is also used
to emulate T- and JK-type flip-flops.
Flip-flop
The ATF1508ASV(L)'s flip-flop has very flexible data and
control functions. The data input can come from either the
XOR gate, from a separate product term or directly from
the I/O pin. Selecting the separate product term allows cre-
ation of a buried registered feedback within a combinatorial
output macrocell. (This feature is automatically imple-
mented by the fitter software). In addition to D, T, JK and
SR operation, the flip-flop can also be configured as a flow-
through latch. In this mode, data passes through when the
clock is high and is latched when the clock is low.
The clock itself can either be the Global CLK Signal (GCK)
or an individual product term. The flip-flop changes state on
the clock's rising edge. When the GCK signal is used as
the clock, one of the macrocell product terms can be
selected as a clock enable. When the clock enable function
is active and the enable signal (product term) is low, all
clock edges are ignored. The flip-flop's asynchronous reset
signal (AR) can be either the Global Clear (GCLEAR), a
product term, or always off. AR can also be a logic OR of
GCLEAR with a product term. The asynchronous preset
(AP) can be a product term or always off.
ATF1508ASV(L)
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Figure 1. ATF1508ASV(L) Macrocell
Output Select and Enable
The ATF1508ASV(L) macrocell output can be selected as
registered or combinatorial. The buried feedback signal can
be either combinatorial or registered signal regardless of
whether the output is combinatorial or registered.
The output enable multiplexer (MOE) controls the output
enable signals. Any buffer can be permanently enabled for
simple output operation. Buffers can also be permanently
disabled to allow use of the pin as an input. In this configu-
ration. all the macrocell resources are still available,
including the buried feedback, expander and CASCADE
logic. The output enable for each macrocell can be
selected as one of the global OUTPUT enable signals. The
device has six global OE signals.
Global Bus/Switch Matrix
The global bus contains all input and I/O pin signals as well
as the buried feedback signal from all 128 macrocells.
The switch matrix in each logic block receives as its inputs
all signals from the global bus. Under software control, up
to 40 of these signals can be selected as inputs to the logic
block.
Foldback Bus
Each macrocell also generates a foldback product term.
This signal goes to the regional bus and is available to 16
macrocells. The foldback is an inverse polarity of one of the
macrocell's product terms. The 16 foldback terms in each
region allow generation of high fan-in sum terms (up to 21
product terms) with little additional delay.
Open-collector Output Option
This option enables the device output to provide control
signals such as an interrupt that can be asserted by any of
the several devices.
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