DS3234(2006) 查看數據表(PDF) - Maxim Integrated
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DS3234 Datasheet PDF : 20 Pages
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Extremely Accurate SPI Bus RTC with
Integrated Crystal and SRAM
Control Register (0Eh/8Eh)
NAME:
POR*:
BIT 7
EOSC
0
BIT 6
BBSQW
0
BIT 5
CONV
0
BIT 4
RS2
1
BIT 3
RS1
1
*POR is defined as the first application of power to the device, either VBAT or VCC.
BIT 2
INTCN
1
BIT 1
A2IE
0
BIT 0
A1IE
0
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 VCC, 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 VCC is absent and
the DS3234 is being powered by the VBAT pin. When
BBSQW is logic 0, the INT/SQW pin goes high imped-
ance when VCC 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.
SQUARE-WAVE OUTPUT FREQUENCY
RS2
RS1
0
0
0
1
1
0
1
1
SQUARE-WAVE OUTPUT
FREQUENCY
1Hz
1.024kHz
4.096kHz
8.192kHz
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.
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