CY7C374I-100JC Cypress Semiconductor Corp, CY7C374I-100JC Datasheet - Page 4

CY7C374I-100JC

Manufacturer Part Number

CY7C374I-100JC

Description

IC CPLD 128 MACROCELL 84-PLCC

Manufacturer

Cypress Semiconductor Corp

Series

Ultralogic™r

Datasheet

1.CY7C374I-100JC.pdf (15 pages)

Specifications of CY7C374I-100JC

Memory Type

FLASH

Programmable Type

In-System Reprogrammable™ (ISR™) Flash

Delay Time Tpd(1) Max

12.0ns

Voltage Supply - Internal

4.75 V ~ 5.25 V

Number Of Logic Elements/blocks

Number Of Macrocells

128

Number Of I /o

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

84-PLCC

Voltage

3.3V/5V

Family Name

FLASH370i

# Macrocells

128

Number Of Usable Gates

3200

Propagation Delay Time

12ns

Number Of Logic Blocks/elements

# I/os (max)

Operating Supply Voltage (typ)

In System Programmable

Yes

Operating Supply Voltage (min)

4.75V

Operating Supply Voltage (max)

5.25V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Package Type

PLCC

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

Number Of Logic Elements/cells

Lead Free Status / RoHS Status

Not Compliant, Contains lead / RoHS non-compliant

Other names

428-1270

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Functional Description

The logic blocks in the F

with an extremely fast and predictable routing resource—the

Programmable Interconnect Matrix (PIM). The PIM brings flex-

ibility, routability, speed, and a uniform delay to the intercon-

nect.

Like all members of the F

in I/O resources. Every two macrocells in the device feature an

associated I/O pin, resulting in 64 I/O pins on the CY7C374i.

In addition, there is one dedicated input and four input/clock

pins.

Finally, the CY7C374i features a very simple timing model.

Unlike other high-density CPLD architectures, there are no

hidden speed delays such as fanout effects, interconnect de-

lays, or expander delays. Regardless of the number of resourc-

es used or the type of application, the timing parameters on

the CY7C374i remain the same.

Logic Block

The number of logic blocks distinguishes the members of the

Each logic block is constructed of a product term array, a prod-

uct term allocator, and 16 macrocells.

Product Term Array

The product term array in the F

36 inputs from the PIM and outputs 86 product terms to the

product term allocator. The 36 inputs from the PIM are avail-

able in both positive and negative polarity, making the overall

array size 72 x 86. This large array in each logic block allows

for very complex functions to be implemented in single passes

through the device.

Product Term Allocator

The product term allocator is a dynamic, configurable resource

that shifts product terms to macrocells that require them. Any

number of product terms between 0 and 16 inclusive can be

assigned to any of the logic block macrocells (this is called

product term steering). Furthermore, product terms can be

shared among multiple macrocells. This means that product

terms that are common to more than one output can be imple-

mented in a single product term. Product term steering and

product term sharing help to increase the effective density of

the F

handled by software and is invisible to the user.

I/O Macrocell

Half of the macrocells on the CY7C374i have I/O pins associ-

ated with them. The input to the macrocell is the sum of be-

tween 0 and 16 product terms from the product term allocator.

The I/O macrocell includes a register that can be optionally

bypassed, polarity control over the input sum-term, and two

global clocks to trigger the register. The macrocell also fea-

tures a separate feedback path to the PIM so that the register

can be buried if the I/O pin is used as an input.

Buried Macrocell

The buried macrocell is very similar to the I/O macrocell.

Again, it includes a register that can be configured as combi-

natorial, as a D flip-flop, a T flip-flop, or a latch. The clock for

this register has the same options as described for the I/O

macrocell. One difference on the buried macrocell is the addi-

tion of input register capability. The user can program the bur-

ied macrocell to act as an input register (D-type or latch)

Document #: 38-03031 Rev. **

LASH

370i family. The CY7C374i includes eight logic blocks.

370i CPLDs. Note that product term allocation is

LASH

370i architecture are connected

370i family, the CY7C374i is rich

(continued)

LASH

370i logic block includes

whose input comes from the I/O pin associated with the neigh-

boring macrocell. The output of all buried macrocells is sent

directly to the PIM regardless of its configuration.

Programmable Interconnect Matrix

The Programmable Interconnect Matrix (PIM) connects the

eight logic blocks on the CY7C374i to the inputs and to each

other. All inputs (including feedbacks) travel through the PIM.

There is no speed penalty incurred by signals traversing the

PIM.

Programming

For an overview of ISR programming, refer to the F

Family data sheet and for ISR cable and software specifica-

tions, refer to ISR data sheets. For a detailed description of ISR

capabilities, refer to the Cypress application note, “An Intro-

duction to In System Reprogramming with F

PCI Compliance

The F

the PCI Local Bus Specification published by the PCI Special

Interest Group. The simple and predictable timing model of

independent of the design. On the other hand, in CPLD and

FPGA architectures without simple and predictable timing, PCI

compliance is dependent upon routing and product term dis-

tribution.

3.3V or 5.0V I/O Operation

The F

3.3V and 5.0V systems. All devices have two sets of V

one set, V

another set, V

always be connected to a 5.0V power supply. However, the

supply, depending on the output requirements. When V

pins are connected to a 5.0V source, the I/O voltage levels are

compatible with 5.0V systems. When V

ed to a 3.3V source, the input voltage levels are compatible

with both 5.0V and 3.3V systems, while the output voltage lev-

els are compatible with 3.3V systems. There will be an addi-

tional timing delay on all output buffers when operating in 3.3V

I/O mode. The added flexibility of 3.3V I/O capability is avail-

able in commercial and industrial temperature ranges.

Bus Hold Capabilities on all I/Os and Dedicated Inputs

In addition to ISR capability, a new feature called bus-hold has

been added to all F

Bus-hold, which is an improved version of the popular internal

pull-up resistor, is a weak latch connected to the pin that does

not degrade the device’s performance. As a latch, bus-hold

recalls the last state of a pin when it is three-stated, thus re-

ducing system noise in bus-interface applications. Bus-hold

additionally allows unused device pins to remain unconnected

on the board, which is particularly useful during prototyping as

designers can route new signals to the device without cutting

trace connections to V

Design Tools

Development software for the CY7C371i is available from Cy-

press’s Warp™, Warp Professional™, and Warp Enterprise™

software packages. Please refer to the data sheets on these

products for more details. Cypress also actively supports al-

most all third-party design tools. Please refer to third-party tool

support for further information.

LASH

CCIO

LASH

370i ensures compliance with the PCI AC specifications

LASH

pins may be connected to either a 3.3V or 5.0V power

370i family of CMOS CPLDs are fully compliant with

CCINT

370i family can be configured to operate in both

CCIO

, for internal operation and input buffers, and

, for I/O output drivers. V

LASH

370i I/Os and dedicated input pins.

or GND.

CCIO

pins are connect-

LASH

CY7C374i

CCINT

Page 4 of 15

370i.”

pins must

LASH

pins:

CCIO

370i

CY7C374I-100JC Cypress Semiconductor Corp, CY7C374I-100JC Datasheet - Page 4

CY7C374I-100JC

Specifications of CY7C374I-100JC

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