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參數(shù)資料

型號(hào)：	DS3234
廠商：	Maxim Integrated Products, Inc.
英文描述：	Extremely Accurate SPI Bus RTC with Integrated Crystal and SRAM
中文描述：	高精度、SPI總線RTC，集成晶體和SRAM
文件頁(yè)數(shù)：	14/20頁(yè)
文件大?。?/td>	328K
代理商：	DS3234

Extremely Accurate SPI Bus RTC with

Integrated Crystal and SRAM

____________________________________________________________________

Special-Purpose Registers

The DS3234 has two additional registers (control and

control/status) that control the real-time clock, alarms,

and square-wave output.

Control Register (0Eh/8Eh)

Bit 7: Enable Oscillator (

EOSC

When set to logic 0,

the oscillator is started. When set to logic 1, the oscilla-

tor is stopped when the DS3234 switches to battery

power. This bit is clear (logic 0) when power is first

applied. When the DS3234 is powered by V

, the

oscillator is always on regardless of the status of the

EOSC

bit.

Bit 6: Battery-Backed Square-Wave Enable

(BBSQW).

When set to logic 1, this bit enables the

square-wave or interrupt output when V

is absent and

the DS3234 is being powered by the V

BAT

pin. When

BBSQW is logic 0, the

INT

/SQW pin goes high imped-

ance when V

falls below the power-fail trip point. This

bit is disabled (logic 0) when power is first applied.

Bit 5: Convert Temperature (CONV).

Setting this bit to

1 forces the temperature sensor to convert the temper-

ature into digital code and execute the TCXO algorithm

to update the capacitance array to the oscillator. This

can only happen when a conversion is not already in

progress. The user should check the status bit BSY

before forcing the controller to start a new TCXO exe-

cution. A user-initiated temperature conversion does

not affect the internal 64-second (default interval)

update cycle. This bit is disabled (logic 0) when power

is first applied.

A user-initiated temperature conversion does not affect

the BSY bit for approximately 2ms. The CONV bit

remains at a 1 from the time it is written until the conver-

sion is finished, at which time both CONV and BSY go

to 0. The CONV bit should be used when monitoring

the status of a user-initiated conversion.

Bits 4 and 3: Rate Select (RS2 and RS1).

These bits

control the frequency of the square-wave output when

the square wave has been enabled. The following table

shows the square-wave frequencies that can be select-

ed with the RS bits. These bits are both set to logic 1

(8.192kHz) when power is first applied.

Bit 2: Interrupt Control (INTCN).

This bit controls the

INT

/SQW signal. When the INTCN bit is set to logic 0, a

square wave is output on the

INT

/SQW pin. When the

INTCN bit is set to logic 1, a match between the time-

keeping registers and either of the alarm registers acti-

vates the

INT

/SQW (if the alarm is also enabled). The

corresponding alarm flag is always set regardless of

the state of the INTCN bit. The INTCN bit is set to logic

1 when power is first applied.

Bit 1: Alarm 2 Interrupt Enable (A2IE).

When set to

logic 1, this bit permits the alarm 2 flag (A2F) bit in the

status register to assert

INT

/SQW (when INTCN = 1).

When the A2IE bit is set to logic 0 or INTCN is set to

logic 0, the A2F bit does not initiate an interrupt signal.

The A2IE bit is disabled (logic 0) when power is first

applied.

Bit 0: Alarm 1 Interrupt Enable (A1IE).

When set to

logic 1, this bit permits the alarm 1 flag (A1F) bit in the

status register to assert

INT

/SQW (when INTCN = 1).

When the A1IE bit is set to logic 0 or INTCN is set to

logic 0, the A1F bit does not initiate the

INT

/SQW sig-

nal. The A1IE bit is disabled (logic 0) when power is

first applied.

BIT 7

EOSC

BIT 6

BBSQW

BIT 5

CONV

BIT 4

RS2

BIT 3

RS1

BIT 2

INTCN

BIT 1

A2IE

BIT 0

A1IE

NAME:

POR*:

RS2

RS1

SQUARE-WAVE OUTPUT

FREQUENCY

1Hz

1.024kHz

4.096kHz

8.192kHz

SQUARE-WAVE OUTPUT FREQUENCY

Control Register (0Eh/8Eh)

POR is defined as the first application of power to the device, either V

BAT

or V

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