XC95108-20PQ160I Xilinx Inc, XC95108-20PQ160I Datasheet - Page 14

XC95108-20PQ160I

Manufacturer Part Number

XC95108-20PQ160I

Description

CPLD XC9500 Family 2.4K Gates 108 Macro Cells 50MHz 0.5um (CMOS) Technology 5V 160-Pin PQFP

Manufacturer

Xilinx Inc

Series

XC9500r

Datasheets

1.XC9536-15PCG44C.pdf (17 pages)

2.XC95108-15TQG100C.pdf (10 pages)

Specifications of XC95108-20PQ160I

Package

160PQFP

Family Name

XC9500

Device System Gates

2400

Maximum Propagation Delay Time

20 ns

Number Of User I/os

108

Number Of Logic Blocks/elements

Typical Operating Supply Voltage

5 V

Maximum Operating Frequency

50 MHz

Number Of Product Terms Per Macro

Memory Type

Flash

Operating Temperature

-40 to 85 Â°C

Programmable Type

In System Programmable (min 10K program/erase cycles)

Delay Time Tpd(1) Max

20.0ns

Voltage Supply - Internal

4.5 V ~ 5.5 V

Number Of Logic Elements/blocks

Number Of Macrocells

108

Number Of Gates

2400

Number Of I /o

108

Mounting Type

Surface Mount

Package / Case

160-MQFP, 160-PQFP

Voltage

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

Number Of Logic Elements/cells

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

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Price

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Part Number:

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Company:

BOSTOCK HK LIMITED

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XC9500 In-System Programmable CPLD Family

Low Power Mode

All XC9500 devices offer a low-power mode for individual

macrocells or across all macrocells. This feature allows the

device power to be significantly reduced.

Each individual macrocell may be programmed in

low-power mode by the user. Performance-critical parts of

the application can remain in standard power mode, while

other parts of the application may be programmed for

low-power operation to reduce the overall power dissipa-

tion. Macrocells programmed for low-power mode incur

additional delay (T

well as register setup time. Product term clock to output and

product term output enable delays are unaffected by the

macrocell power-setting.

Timing Model

The uniformity of the XC9500 architecture allows a simpli-

fied timing model for the entire device. The basic timing

Figure 13: In-System Programming Operation (a) Solder Device to PCB and (b) Program Using Download Cable

) in pin-to-pin combinatorial delay as

(a)

www.xilinx.com

model, shown in

that use the direct product terms only, with standard power

setting, and standard slew rate setting.

each of the key timing parameters is affected by the product

term allocator (if needed), low-power setting, and slew-lim-

ited setting.

The product term allocation time depends on the logic span

of the macrocell function, which is defined as one less than

the maximum number of allocators in the product term path.

If only direct product terms are used, then the logic span is

0. The example in

terms are available with a span of 1. In the case of

the 18 product term function has a span of 2.

Detailed timing information may be derived from the full tim-

ing model shown in

for each parameter are given in the individual device data

sheets.

Figure

Figure 6

(b)

14, is valid for macrocell functions

15. The values and explanations

shows that up to 15 product

DS063 (v5.5) June 25, 2007

Product Specification

X5902

Table 4

shows how

Figure

XC95108-20PQ160I Xilinx Inc, XC95108-20PQ160I Datasheet - Page 14

XC95108-20PQ160I

Specifications of XC95108-20PQ160I

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