AD5533ABC-1_ Ver la hoja de datos (PDF) - Analog Devices
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AD5533ABC-1_ Datasheet PDF : 16 Pages
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AD5532B
2. DAC Mode
In this standard mode, a selected DAC register is loaded serially.
This requires a 24-bit write (10 bits to address the relevant
DAC plus an extra 14 bits of DAC data). (See Figure 4.) MSB
is written first. The user must allow 400 ns (min) between
successive writes in DAC mode.
3. Acquire and Readback Mode
This mode allows the user to acquire VIN and read back the
data in a particular DAC register. The relevant channel is
addressed (10-bit write, MSB first) and VIN is acquired in
16 µs (max). Following the acquisition, after the next falling
edge of SYNC, the data in the relevant DAC register is
clocked out onto the DOUT line in a 14-bit serial format.
(See Figure 5.) The full acquisition time must elapse before
the DAC register data can be clocked out.
4. Readback Mode
Again, this is a readback mode but no acquisition is performed.
The relevant channel is addressed (10-bit write, MSB first)
and on the next falling edge of SYNC, the data in the relevant
DAC register is clocked out onto the DOUT line in a 14-bit
serial format. (See Figure 5.) The user must allow 400 ns (min)
between the last SCLK falling edge in the 10-bit write and
the falling edge of SYNC in the 14-bit readback. The serial
write and read words can be seen in Figure 10.
This feature allows the user to read back the DAC register
code of any of the channels. In DAC mode, this is useful in
verification of write cycles. In ISHA mode, readback is useful
if the system has been calibrated and the user wants to know
what code in the DAC corresponds to a desired voltage on
VOUT. If the user requires this voltage again, the user can input
the code directly to the DAC register without going through
the acquisition sequence.
INTERFACES
SERIAL INTERFACE
The SER/PAR pin is tied high to enable the serial interface and
to disable the parallel interface. The serial interface is controlled
by four pins as follows:
SYNC, DIN, SCLK
Standard 3-wire interface pins. The SYNC pin is shared
with the CS function of the parallel interface.
DOUT
Data out pin for reading back the contents of the DAC
registers. The data is clocked out on the rising edge of SCLK
and is valid on the falling edge of SCLK.
Mode Bits
There are four different modes of operation as described above.
Cal Bit
In DAC mode, this is a test bit. When it is high it is used to load
all zeros or all ones to the 32 DACs simultaneously. In ISHA mode,
all 32 channels acquire VIN simultaneously when this bit is high.
In ISHA mode, the acquisition time is then 45 µs (typ) and
accuracy may be reduced. This bit is set low for normal operation.
Offset_Sel Bit
If this is set high, the offset channel is selected and Bits A4–A0
are ignored.
Test Bit
This must be set low for correct operation of the part.
A4–A0 Bits
Used to address any one of the 32 channels (A4 = MSB of
address, A0 = LSB).
DB13–DB0 Bits
These are used to write a 14-bit word into the addressed DAC
register. Clearly, this is only valid when in DAC mode.
The serial interface is designed to allow easy interfacing to most
microcontrollers and DSPs, e.g., PIC16C, PIC17C, QSPI™, SPI™,
DSP56000, TMS320, and ADSP-21xx, without the need for any
glue logic. When interfacing to the 8051, the SCLK must be inverted.
The Microprocessor/Microcontroller Interface section explains
how to interface to some popular DSPs and microcontrollers.
Figures 3, 4, and 5 show the timing diagram for a serial read and
write to the AD5532B. The serial interface works with both a con-
tinuous and a noncontinuous serial clock. The first falling edge of
SYNC resets a counter that counts the number of serial clocks
to ensure the correct number of bits are shifted in and out of the
serial shift registers. Any further edges on SYNC are ignored until
the correct number of bits are shifted in or out. Once the correct
number of bits for the selected mode have been shifted in or out,
the SCLK is ignored. In order for another serial transfer to take
place, the counter must be reset by the falling edge of SYNC.
In readback, the first rising SCLK edge after the falling edge of
SYNC causes DOUT to leave its high impedance state and data
is clocked out onto the DOUT line and also on subsequent SCLK
rising edges. The DOUT pin goes back into a high impedance
state on the falling edge of the fourteenth SCLK. Data on the
DIN line is latched in on the first SCLK falling edge after the
falling edge of the SYNC signal and on subsequent SCLK falling
edges. During readback DIN is ignored. The serial interface will
not shift data in or out until it receives the falling edge of the
SYNC signal.
PARALLEL INTERFACE (ISHA Mode Only)
The SER/PAR bit must be tied low to enable the parallel interface
and disable the serial interface. The parallel interface is controlled
by nine pins.
CS
Active low package select pin. This pin is shared with the
SYNC function for the serial interface.
WR
Active low write pin. The values on the address pins are
latched on a rising edge of WR.
A4–A0
Five address pins (A4 = MSB of address, A0 = LSB). These
are used to address the relevant channel (out of a possible 32).
Offset_Sel
Offset select pin. This has the same function as the Offset_Sel
bit in the serial interface. When it is high, the offset channel
is addressed. The address on A4–A0 is ignored in this case.
Cal
When this pin is high, all 32 channels acquire VIN simulta-
neously. The acquisition time is then 45 µs (typ) and accuracy
may be reduced.
*SPI and QSPI are trademarks of Motorola, Inc.
REV. A
–13–
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