mc68hc68t1 Freescale Semiconductor, Inc, mc68hc68t1 Datasheet - Page 7

mc68hc68t1

Manufacturer Part Number

mc68hc68t1

Description

Mc68hc68t1 Real-time Clock Plus Ram With Serial Interface

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MC68HC68T1.pdf (26 pages)

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FREEZE FUNCTION

counters, if any of the registers are being read. Also, alarm

operation is delayed if the registers are being read. This

causes the clock to lose time with increasing rates of accel-

eration.

POWER SENSING

interrupt control register), ac/dc transitions are sensed at the

LINE input pin. Threshold detectors determine when tran-

sitions cease. After a delay of 2.68 to 4.64 ms plus the exter-

nal input RC circuit time constant, an interrupt true bit is set

high in the status register. This bit can then be sampled to

see if system power has turned back on (see Figure 8).

the voltage present at the LINE input pin. This voltage is cen-

tered around V DD , and as long as the voltage is either plus or

minus a threshold (approximately 0.7 V) from V DD , a power

sense failure is not indicated. With an ac signal present,

remaining in this V DD window longer than a maximum of

4.64 ms activates the power–sense circuit. The larger the

amplitude of the signal, the less likely a power failure would

be detected. A 50 or 60 Hz, 10 V p–p sine–wave voltage is

an acceptable signal to present at the LINE input pin to set

up the power–sense function. When ac power fails, an inter-

nal circuit pulls the voltage at the line pin within the detection

window.

Power–Down

power–down bit is set in the interrupt control register to initi-

MOTOROLA

The freeze function prevents an increment of the time

When power sensing is enabled (Power Sense Bit in the

The power–sense circuitry operates by sensing the level of

Power–down is a processor–directed operation. The

ate power–down operation. During power–down, the power

supply enable (PSE) output, normally high, is driven low. The

CLKOUT pin is driven low. The CPUR output, connected to

the processor reset input pin, is also driven low. In addition,

the serial interface (MOSI and MISO) is disabled (see Fig-

ure 9).

Power–Up

mode. Two of the methods require an interrupt to the micro-

controller or processor by programming the interrupt control

by setting the alarm bit and the appropriate alarm registers.

Also, an interrupt can be generated by programming the peri-

odic interrupt bits in the interrupt control register. V SYS must

be at 5 volts for this operation to occur.

with the power sense bit in the interrupt control register set to

sense power loss along with the V SYS pin to sense subse-

quent power–up condition (see Figure 10). (Reference Fig-

ure 19 for application circuit for third method.)

level on the V SYS pin rises 0.7 V above the level of the V BATT

pin, after previously falling to the level of V BATT while in the

battery–backup mode. An interrupt is not generated when

the fourth method is utilized.

when the V SYS pin loses power and then returns high. There

is no interrupt generated when using this method (see Fig-

ure 11).

There are four methods that can initiate the power–up

The third method is by initiating the power sense circuit

The fourth method that initiates power–up occurs when the

While in the single–supply mode, power–up is initiated

MC68HC68T1

mc68hc68t1 Freescale Semiconductor, Inc, mc68hc68t1 Datasheet - Page 7

mc68hc68t1

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