MACH445-15YC Lattice, MACH445-15YC Datasheet - Page 24

MACH445-15YC

Manufacturer Part Number

MACH445-15YC

Description

CPLD MACH 4 Family 128 Macro Cells 47.6MHz EECMOS Technology 5V 100-Pin PQFP Tray

Manufacturer

Lattice

Datasheet

1.MACH445-15YC.pdf (28 pages)

Specifications of MACH445-15YC

Package

100PQFP

Family Name

MACH 4

Number Of Macro Cells

128

Maximum Propagation Delay Time

15 ns

Number Of User I/os

Number Of Logic Blocks/elements

Typical Operating Supply Voltage

5 V

Maximum Operating Frequency

47.6 MHz

Number Of Product Terms Per Macro

Memory Type

EEPROM

Re-programmability Support

Yes

Operating Temperature

0 to 70 Â°C

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Current page: 24 of 28
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The parameter f

the device is guaranteed to operate. Because the flexi-

bility inherent in programmable logic devices offers a

choice of clocked flip-flop designs, f

three types of synchronous designs.

The first type of design is a state machine with feedback

signals sent off-chip. This external feedback could go

back to the device inputs, or to a second device in a

multi-chip state machine. The slowest path defining the

period is the sum of the clock-to-output time and the in-

put setup time for the external signals (t

ciprocal, f

feedback or in conjunction with an equivalent speed de-

vice. This f

The second type of design is a single-chip state ma-

chine with internal feedback only. In this case, flip-flop

inputs are defined by the device inputs and flip-flop out-

puts. Under these conditions, the period is limited by the

internal delay from the flip-flop outputs through the inter-

nal feedback and logic to the flip-flop inputs. This f

designated “f

good example of this type of design; therefore, this pa-

rameter is sometimes called “f

MAX

PARAMETERS

MAX

No Feedback; 1/(t

MAX

LOGIC

, is the maximum frequency with external

MAX

is designated “f

MAX

internal”. A simple internal counter is a

External; 1/(t

is the maximum clock rate at which

+ t

MAX

CNT.

) or 1/(t

CLK

+ t

external.”

”

MAX

)

is specified for

+ t

). The re-

)

MACH445-12/15/20

MAX

(SECOND

CHIP)

The third type of design is a simple data path applica-

tion. In this case, input data is presented to the flip-flop

and clocked through; no feedback is employed. Under

these conditions, the period is limited by the sum of the

data setup time and the data hold time (t

a lower limit for the period of each f

mum clock period (t

clock period determines the period for the third f

ignated “f

For devices with input registers, one additional f

rameter is specified: f

feedback, it is calculated the same way as f

back. The minimum period will be limited either by the

sum of the setup and hold times (t

the clock widths (t

mally the limiting parameters, so that f

as 1/(t

isters are use in the same path, the overall frequency will

be limited by t

All frequencies except f

other measured AC parameters. f

ured directly.

WICL

SIR

MAX

+ t

WICH

no feedback.”

MAXIR

ICS

LOGIC

). Note that if both input and output reg-

HIR

WICL

CLK

; 1/(t

+ t

MAXIR

SIR

MAX

WICH

+ t

. Because this involves no

Internal (f

internal are calculated from

). The clock widths are nor-

HIR

). Usually, this minimum

) or 1/(t

SIR

MAX

CNT

+ t

LOGIC

CLK

internal is meas-

WICL

HIR

MAXIR

type is the mini-

)

+ t

) or the sum of

+ t

MAX

). However,

is specified

17468E-23

WICH

MAX

no feed-

MAX

)

, des-

pa-

MACH445-15YC Lattice, MACH445-15YC Datasheet - Page 24

MACH445-15YC

Specifications of MACH445-15YC

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