MC16Z3BCAG16 Freescale Semiconductor, MC16Z3BCAG16 Datasheet - Page 127

MC16Z3BCAG16

Manufacturer Part Number

MC16Z3BCAG16

Description

IC MCU 16BIT HI SPEED 144-LQFP

Manufacturer

Freescale Semiconductor

Series

HC16r

Datasheet

1.MC16Z3BCAG16.pdf (500 pages)

Specifications of MC16Z3BCAG16

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

8KB (8K x 8)

Program Memory Type

Mask ROM

Ram Size

4K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 5.5 V

Data Converters

A/D 8x10b

Oscillator Type

External

Operating Temperature

-40°C ~ 85°C

Package / Case

144-LQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

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Quantity

Price

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Part Number:

MC16Z3BCAG16

Manufacturer:

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5.3.3 External Bus Clock

5.3.4 Low-Power Operation

M68HC16 Z SERIES

USER’S MANUAL

The state of the E-clock division bit (EDIV) in SYNCR determines clock rate for the E-

clock signal (ECLK) available on pin ADDR23. ECLK is a bus clock for MC6800 devic-

es and peripherals. ECLK frequency can be set to system clock frequency divided by

eight or system clock frequency divided by sixteen. The clock is enabled by the

CS10PA[1:0] field in chip-select pin assignment register 1 (CSPAR1). ECLK operation

during low-power stop is described in the following paragraph. Refer to

lects

Low-power operation is initiated by the CPU16. To reduce power consumption selec-

tively, the CPU can set the STOP bits in each module configuration register. To mini-

mize overall microcontroller power consumption, the CPU can execute the LPSTOP

instruction which causes the SIM to turn off the system clock.

When individual module STOP bits are set, clock signals inside each module are

turned off, but module registers are still accessible.

When the CPU executes LPSTOP, a special CPU space bus cycle writes a copy of

the current interrupt mask into the clock control logic. The SIM brings the MCU out of

low-power stop mode when one of the following exceptions occur:

Refer to

During a low-power stop mode, unless the system clock signal is supplied by an ex-

ternal source and that source is removed, the SIM clock control logic and the SIM clock

signal (SIMCLK) continue to operate. The periodic interrupt timer and input logic for

the RESET and IRQ pins are clocked by SIMCLK. The SIM can also continue to gen-

erate the CLKOUT signal while in low-power stop mode.

During low-power stop mode, the address bus continues to drive the LPSTOP instruc-

tion, and bus control signals are negated. I/O pins configured as outputs continue to

hold their previous state; I/O pins configured as inputs will be in a high-impedance

state.

STSIM and STEXT bits in SYNCR determine clock operation during low-power stop

mode.

The flowchart shown in

bits when MC68HC16Z1, MC68CK16Z1, MC68CM16Z1, MC68HC16Z2, and

MC68HC16Z3 MCUs enter normal low-power stop mode. Any clock in the off state is

held low. If the synthesizer VCO is turned off during low-power stop mode, there is a

PLL relock delay after the VCO is turned back on.

of the STSIM and STEXT bits when MC68HC16Z4 and MC68CK16Z4 MCUs enter

normal low-power stop mode.

• RESET

• Trace

• SIM interrupt of higher priority than the stored interrupt mask

for more information about the external bus clock.

5.6.4.2 LPSTOP Broadcast Cycle

Freescale Semiconductor, Inc.

For More Information On This Product,

Figure 5-6

SYSTEM INTEGRATION MODULE

Go to: www.freescale.com

summarizes the effects of the STSIM and STEXT

for more information.

Figure 5-7

summarizes the effects

5.9 Chip-Se-

5-21

MC16Z3BCAG16 Freescale Semiconductor, MC16Z3BCAG16 Datasheet - Page 127

MC16Z3BCAG16

Specifications of MC16Z3BCAG16

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