MC68340AG16VE Freescale Semiconductor, MC68340AG16VE Datasheet - Page 53

MC68340AG16VE

Manufacturer Part Number

MC68340AG16VE

Description

IC MPU 32BIT 16MHZ 144-LQFP

Manufacturer

Freescale Semiconductor

Datasheet

1.MC68340FE25E.pdf (441 pages)

Specifications of MC68340AG16VE

Processor Type

M683xx 32-Bit

Speed

16MHz

Voltage

3.3V

Mounting Type

Surface Mount

Package / Case

144-LQFP

Controller Family/series

68K

Core Size

32 Bit

No. Of I/o's

Cpu Speed

16MHz

No. Of Timers

Embedded Interface Type

UART

Digital Ic Case Style

LQFP

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

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3.1.3 Address Bus (A31–A0)

These signals are outputs that define the address of the byte (or the most significant byte)

to be transferred during a bus cycle. The MC68340 places the address on the bus at the

beginning of a bus cycle. The address is valid while AS is asserted.

3.1.4 Address Strobe ( AS )

This output timing signal indicates the validity of many control signals and the address on

the address bus. AS is asserted approximately one-half clock cycle after the beginning of

a bus cycle.

3.1.5 Data Bus (D15–D0)

This bidirectional, nonmultiplexed, parallel bus contains the data being transferred to or

from the MC68340. A read or write operation may transfer 8 or 16 bits of data (one or two

bytes) in one bus cycle. During a read cycle, the data is latched by the MC68340 on the

last falling edge of the clock for that bus cycle. For a write cycle, all 16 bits of the data bus

are driven, regardless of the port width or operand size. The MC68340 places the data on

the data bus approximately one-half clock cycle after AS is asserted in a write cycle.

3.1.6 Data Strobe ( DS )

DS is an output timing signal that applies to the data bus. For a read cycle, the MC68340

asserts DS and AS simultaneously to signal the external device to place data on the bus.

For a write cycle, DS signals to the external device that the data to be written is valid. The

MC68340 asserts DS approximately one clock cycle after the assertion of AS during a

write cycle.

3.1.7 Bus Cycle Termination Signals

The following signals can terminate a bus cycle.

3.1.7.1 DATA TRANSFER AND SIZE ACKNOWLEDGE SIGNALS ( DSACK1 AND

DSACK0 ). During bus cycles, external devices assert DSACK1 and/or DSACK0 as part

of the bus protocol. During a read cycle, this signals the MC68340 to terminate the bus

cycle and to latch the data. During a write cycle, this indicates that the external device has

successfully stored the data and that the cycle may terminate. These signals also indicate

to the MC68340 the size of the port for the bus cycle just completed (see Table 3-3). Refer

to 3.3.1 Read Cycle for timing relationships of DSACK1 and DSACK0 .

Additionally, the system integration module (SIM40) chip select address mask register can

be programmed to internally generate DSACK1 and DSACK0 for external accesses,

eliminating logic required to generate these signals. However, if external DSACK signals

are returned earlier than indicated by the DD bits in the chip select address mask register,

the cycle will terminate sooner than programmed. Refer to Section 4 System Integration

Module for additional information. The SIM40 can alternatively be programmed to

generate a fast termination cycle, providing a two-cycle external access. Refer to 3.2.6

Fast Termination Cycles for additional information on these cycles.

3-4

MC68340 USER’S MANUAL

MOTOROLA

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MC68340AG16VE Freescale Semiconductor, MC68340AG16VE Datasheet - Page 53

MC68340AG16VE

Specifications of MC68340AG16VE

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