MC68EN360AI25VL Freescale, MC68EN360AI25VL Datasheet - Page 230

MC68EN360AI25VL

Manufacturer Part Number

MC68EN360AI25VL

Description

Manufacturer

Freescale

Datasheet

1.MC68EN360AI25VL.pdf (962 pages)

Specifications of MC68EN360AI25VL

Family Name

M68000

Device Core

ColdFire

Device Core Size

32b

Frequency (max)

25MHz

Instruction Set Architecture

RISC

Operating Supply Voltage (max)

3.3V

Operating Supply Voltage (min)

2.7V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

240

Package Type

FQFP

Lead Free Status / RoHS Status

Compliant

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CPU32+

In the following equations, negative tail values are used to negate the effects of a slower

bus. The equations are generalized, however, so that they may be used on any speed bus

with any tail value.

where:

Note that many instructions listed as having negative tails are change-of-flow instructions

and that the bus speed used in the calculation is that of the new instruction stream.

5.7.2 Instruction Timing Tables

The following assumptions apply to the times shown in the subsequent tables:

Three values are listed for each instruction and addressing mode:

Head:

Tail:

Cycles: Four numbers per entry, three contained in parentheses. The outer number is the

As an example, consider an ADD.L (12, A3, D7.W

Paragraph 5.7.2.5 Arithmetic/Logic Instructions shows that the instruction has a head = 0, a

tail = 0, and cycles = 2 (0/1/0). However, in indexed address register indirect addressing

mode, additional time is required to fetch the EA. Paragraph 5.7.2.1 Fetch Effective Address

gives addressing mode data. For (d

0). Because this example is for a long access and the fetch EA table lists data for word

5-88

NEW_TAIL

IF ((NEW_CLOCK – 4) > 0) THEN

ELSE

NEW_TAIL/NEW_CYCLE

OLD_TAIL/OLD_CYCLE

NEW_CLOCK

1. A 16-bit data bus is used for all memory accesses (CPU32+ in 16-bit mode).

2. Memory access times are based on two-clock bus cycles with no wait states.

3. The instruction pipeline is full at the beginning of the instruction and is refilled by the

end of the instruction.

NEW_CYCLE = OLD_CYCLE

The number of cycles available at the beginning of an instruction to complete a

previous instruction write or to perform a prefetch.

The number of cycles an instruction uses to complete a write.

minimum number of cycles required for the instruction to complete. Numbers

within the parentheses represent the number of bus accesses performed by the

instruction. The first number is the number of operand read accesses performed

by the instruction. The second number is the number of instruction fetches per-

formed by the instruction, including all prefetches that keep the instruction and the

instruction pipeline filled. The third number is the number of write accesses per-

formed by the instruction.

OLD_TAIL

is the number of clocks per cycle at the slower speed

is the value listed in the instruction timing tables

is the adjusted tail/cycle at the slower speed

(NEW_CLOCK – 2)

Freescale Semiconductor, Inc.

For More Information On This Product,

MC68360 USER’S MANUAL

(NEW_CLOCK – 2)

(NEW _CLOCK – 2)

Go to: www.freescale.com

, An, Xn.Sz Scale), head = 4, tail = 2, cycles = 8 (2/1/

(NEW_CLOCK – 4)

4), D2 instruction.

MC68EN360AI25VL Freescale, MC68EN360AI25VL Datasheet - Page 230

MC68EN360AI25VL

Specifications of MC68EN360AI25VL

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