668-0011 Rabbit Semiconductor, 668-0011 Datasheet - Page 252

668-0011

Manufacturer Part Number

668-0011

Description

IC MPU RABIT3000A 55.5MHZ128LQFP

Manufacturer

Rabbit Semiconductor

Datasheet

1.20-668-0011.pdf (312 pages)

Specifications of 668-0011

Rohs Status

RoHS non-compliant

Processor Type

Rabbit 3000 8-Bit

Speed

55.5MHz

Voltage

2.5V, 2.7V, 3V, 3.3V

Mounting Type

Surface Mount

Package / Case

128-LQFP

Features

Other names

316-1043

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Part Number:

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27.3.5 Memory Access Times

In computing memory requirements, the important considerations are the address access

time, output-enable access time, and minimum write-pulse required. Increasing the clock

doubler delay increases the output-enable time, but decreases the memory write-pulse width.

The early write-pulse option can be used to ensure a long-enough write pulse, but then it

must be ensured that the write pulse does not begin before the address lines have stabilized.

The clock doubler has an affect on the memory access times. It works by ORing the clock

with a delayed version of itself. The nominal delay varies from 3 to 20 ns, and is set under

program control. Any asymmetry in the main clock input before it is doubled will result in

alternate clocks having slightly different periods. Using the suggested oscillator circuit,

the asymmetry is no worse than 52%–48%. This results in a given clock being shortened

by the ratio 50/52, or 4% worst-case. The memory access time is not normally affected

because the memory bus cycle is two clocks long and includes both a long and a short

clock, resulting in no net change arising from asymmetry. However, if an odd number of

wait states is used, then the memory access time will be affected slightly.

When the clock spectrum spreader is enabled, clock periods are shortened by a small

amount, depending on whether the “normal” or the “strong” spreader setting is used, and

depending on the operating voltage. If the clock doubler is used, the spectrum spreader

affects every other cycle and reduces the clock high time. If the doubler is not used, then the

spreader affects every clock cycle, and the clock low time is reduced. Of course, the spec-

trum spreader also lengthens clock cycles, but only the worst-case shortening is relevant for

calculating worst-case access times. The numbers given for clock shortening with the dou-

bler disabled are the combined shortening for two consecutive clock cycles, worst case.

The required memory address and output-enable access time for some typical clock

speeds are given in Table 27-8 below. It is assumed that the clock doubler is used, that the

clock spreader is enabled in the normal mode, that the memory early output-enable is on,

and that the address bus has a load of 60 pF.

242

Frequency

Clock

(MHz)

18.43

24.00

25.80

29.49

44.24

22.11

Table 27-8. Preliminary Memory Requirements

Period

(ns)

22.5

address bus loading = 60 pF)

= 3.3 V

Nominal Delay

Clock Doubler

10%, T

(ns)

= -40

Rabbit 3000 Microprocessor User’s Manual

Memory Address

C to 85

Access

(ns)

33.5

Memory Output-

Enable Access

(ns)

668-0011 Rabbit Semiconductor, 668-0011 Datasheet - Page 252

668-0011

Specifications of 668-0011

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