MC68HC916Y3CFT16 Freescale Semiconductor, MC68HC916Y3CFT16 Datasheet - Page 137

MC68HC916Y3CFT16

Manufacturer Part Number

MC68HC916Y3CFT16

Description

IC MCU 96K FLASH 16MHZ 160-QFP

Manufacturer

Freescale Semiconductor

Series

HC16r

Datasheet

1.MC68HC916Y3CFT16.pdf (500 pages)

Specifications of MC68HC916Y3CFT16

Core Processor

CPU16

Core Size

16-Bit

Speed

16MHz

Connectivity

EBI/EMI, SCI, SPI

Peripherals

POR, PWM, WDT

Number Of I /o

Program Memory Size

96KB (96K x 8)

Program Memory Type

FLASH

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

4.5 V ~ 5.5 V

Data Converters

A/D 8x10b

Oscillator Type

External

Operating Temperature

-40°C ~ 85°C

Package / Case

160-QFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

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5.6.1 Synchronization to CLKOUT

5.6.2 Regular Bus Cycle

MC68HC16Y3/916Y3

USER’S MANUAL

External devices connected to the MCU bus can operate at a clock frequency different

from the frequencies of the MCU as long as the external devices satisfy the interface

signal timing constraints. Although bus cycles are classified as asynchronous, they are

interpreted relative to the MCU system clock output (CLKOUT).

Descriptions are made in terms of individual system clock states, labelled {S0, S1,

S2,..., SN}. The designation “state” refers to the logic level of the clock signal, and

does not correspond to any implemented machine state. A clock cycle consists of two

successive states. Refer to APPENDIX A ELECTRICAL CHARACTERISTICS for

more information.

Bus cycles terminated by DSACK assertion normally require a minimum of three CLK-

OUT cycles. To support systems that use CLKOUT to generate DSACK and other in-

puts, asynchronous input setup time and asynchronous input hold times are specified.

When these specifications are met, the MCU is guaranteed to recognize the appropri-

ate signal on a specific edge of the CLKOUT signal.

The following paragraphs contain a discussion of cycles that use external bus control

logic. Refer to 5.6.3 Fast Termination Cycles for information about fast termination cy-

cles.

To initiate a transfer, the MCU asserts an address and the SIZ[1:0] signals. The SIZ

signals and ADDR0 are externally decoded to select the active portion of the data bus.

Refer to 5.5.2 Dynamic Bus Sizing. When AS, DS, and R/W are valid, a peripheral de-

vice either places data on the bus (read cycle) or latches data from the bus (write cy-

cle), then asserts a DSACK[1:0] combination that indicates port size.

The DSACK[1:0] signals can be asserted before the data from a peripheral device is

valid on a read cycle. To ensure valid data is latched into the MCU, a maximum period

between DSACK assertion and DS assertion is specified.

There is no specified maximum for the period between the assertion of AS and

DSACK. Although the MCU can transfer data in a minimum of three clock cycles when

the cycle is terminated with DSACK, the MCU inserts wait cycles in clock period incre-

ments until either DSACK signal goes low.

If bus termination signals remain unasserted, the MCU will continue to insert wait

states, and the bus cycle will never end. If no peripheral responds to an access, or if

an access is invalid, external logic should assert the BERR or HALT signals to abort

the bus cycle (when BERR and HALT are asserted simultaneously, the CPU16 acts

as though only BERR is asserted). When enabled, the SCIM2 bus monitor asserts

BERR when DSACK response time exceeds a predetermined limit. The bus monitor

timeout period is determined by the BMT[1:0] field in SYPCR. The maximum bus mon-

itor timeout period is 64 system clock cycles.

MOTOROLA

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MC68HC916Y3CFT16 Freescale Semiconductor, MC68HC916Y3CFT16 Datasheet - Page 137

MC68HC916Y3CFT16

Specifications of MC68HC916Y3CFT16

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