MC68EC060RC66 Freescale Semiconductor, MC68EC060RC66 Datasheet - Page 158

MC68EC060RC66

Manufacturer Part Number

MC68EC060RC66

Description

IC MPU 32BIT 66MHZ 206-PGA

Manufacturer

Freescale Semiconductor

Datasheets

1.MC68060RC50.pdf (416 pages)

2.MC68EC060RC66.pdf (10 pages)

Specifications of MC68EC060RC66

Processor Type

M680x0 32-Bit

Speed

66MHz

Voltage

3.3V

Mounting Type

Surface Mount

Package / Case

206-PGA

Family Name

M68000

Device Core

ColdFire

Device Core Size

32b

Frequency (max)

66MHz

Instruction Set Architecture

RISC

Supply Voltage 1 (typ)

3.3V

Operating Supply Voltage (max)

3.465V

Operating Supply Voltage (min)

3.135V

Operating Temp Range

0C to 110C

Operating Temperature Classification

Commercial

Mounting

Through Hole

Pin Count

206

Package Type

PGA

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

Lead Free Status / Rohs Status

Compliant

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Bus Operation

CLK

CLKEN

BCLK

BB or TIP

THREE-STATING FROM

ASSERTED STATE

Figure 7-4. Quarter-Speed Clock

7.2 FULL-, HALF-, AND QUARTER-SPEED BUS OPERATION AND BCLK

To simplify the description of full-, half-, and quarter-speed bus operation, the term “bus

clock” or “BCLK” is introduced to describe the effective frequency of bus operation. The bus

clock is analogous to the MC68040 clock input called BCLK. The MC68040 BCLK defines

when input signals are sampled and when output signals begin to transition. Once the rela-

tionship of CLK, CLKEN, and the virtual BCLK is established, it is possible to describe the

MC68060 bus more easily, relative to BCLK.

CLKEN allows the bus to synchronize to BCLK which is running at half or quarter speed of

the processor clock (CLK). On rising CLK edges in which CLKEN is asserted, inputs to the

processor are recognized and outputs of the processor may begin to assert, negate, or

three-state. On rising CLK edges in which CLKEN is negated, no inputs are recognized and

no outputs begin to change (except BB and TIP). Figure 7-1 illustrates the general relation-

ship between CLK, CLKEN, and most input and output signals.

For brevity, the term “full-speed bus” is introduced to refer to systems in which BCLK is run-

ning at the same frequency as CLK. The term “half-speed bus” refers to systems in which

BCLK is running at half the frequency of CLK. For those familiar with the MC68040, the half-

speed bus is analogous to the MC68040 implementation. The term “quarter-speed bus”

refers to systems in which BCLK is running at one quarter the frequency of CLK. The

MC68060 clocking mechanism is designed so that systems designed today can be

upgraded with higher-frequency MC68060s, without forcing the rest of the system to operate

at the same higher processor frequency. This flexibility also allows the MC68060 to be used

in existing MC68040 system designs.

A full-speed bus design is achieved by continuously asserting CLKEN as shown in Figure

7-2. A half speed bus is achieved by asserting CLKEN about every other rising edge of CLK.

Figure 7-3 shows a timing diagram of the relationship between CLK, CLKEN, and BCLK for

half-speed bus operation. A quarter-speed bus is achieved by asserting CLKEN once about

every four rising edges of CLK. Figure 7-4 shows a timing diagram of the relationship

between CLK, CLKEN, and BCLK for quarter-speed bus operation.

Note that once BCLK has been established, inputs and outputs appear to be synchronized

to this virtual BCLK. To simplify the description of MC68060 bus operation, the rising edges

MOTOROLA

M68060 USER’S MANUAL

7-3

MC68EC060RC66 Freescale Semiconductor, MC68EC060RC66 Datasheet - Page 158

MC68EC060RC66

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