PZ3032 データシートの表示（PDF） - Philips Electronics

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PZ3032

32 macrocell CPLD

Philips Electronics 

Philips Semiconductors

32 macrocell CPLD

Product specification

PZ3032

Simple Timing Model

Figure 4 shows the CoolRunner™ Timing Model. The CoolRunner™

timing model looks very much like a 22V10 timing model in that

there are three main timing parameters, including tPD, tSU, and tCO.

In other competing architectures, the user may be able to fit the

design into the CPLD, but is not sure whether system timing

requirements can be met until after the design has been fit into the

device. This is because the timing models of competing

architectures are very complex and include such things as timing

dependencies on the number of parallel expanders borrowed,

sharable expanders, varying number of X and Y routing channels

used, etc. In the XPLA™ architecture, the user knows up front

whether the design will meet system timing requirements. This is

due to the simplicity of the timing model. For example, in the

PZ3032 device, the user knows up front that if a given output uses 5

product terms or less, the tPD = 8ns, the tSU = 6.5ns, and the

tCO = 7.5ns. If an output is using 6 to 37 product terms, an additional

2.5ns must be added to the tPD and tSU timing parameters to

account for the time to propagate through the PLA array.

TotalCMOS™ Design Technique

for Fast Zero Power

Philips is the first to offer a TotalCMOS™ CPLD, both in process

technology and design technique. Philips employs a cascade of

CMOS gates to implement its Sum of Products instead of the

traditional sense amp approach. This CMOS gate implementation

allows Philips to offer CPLDs which are both high performance and

low power, breaking the paradigm that to have low power, you must

have low performance. Refer to Figure 5 and Table 2 showing the IDD

vs. Frequency of our PZ3032 TotalCMOS™ CPLD.

INPUT PIN

tPD_PAL = COMBINATORIAL PAL ONLY

tPD_PLA = COMBINATORIAL PAL + PLA

OUTPUT PIN

INPUT PIN

REGISTERED

tSU_PAL = PAL ONLY

tSU_PLA = PAL + PLA

D

REGISTERED

Q

tCO

OUTPUT PIN

CLOCK

Figure 4. CoolRunner™ Timing Model

30

25

SP00441

TYPICAL

20

IDD

15

(mA)

10

5

0

0

10

20

30

40

50

60

70

80

90 100 110 120 130

FREQUENCY (MHz)

Figure 5. IDD vs. Frequency @ VDD = 3.3V

Table 2. IDD vs Frequency

VDD = 3.3V

FREQ

(MHz)

0

10

20

30

40

50

60

70

80

90

100

110

Typical

IDD (mA)

0.01 2.37 4.65 6.80 9.06 11.1 13.5 15.5 17.4 20.0 22.1 24.4

SP00443

120 130

26.6 28.5

1997 Feb 20

6

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