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ICM7333Q Datasheet(PDF) 8 Page - IC MICROSYSTEMS

Part # ICM7333Q
Description  Dual 12/10/8-Bit Voltage Output DACs Serial Interface with Adjustable Output Gain
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Manufacturer  ICMIC [IC MICROSYSTEMS]
Direct Link  http://www.icmic.com
Logo ICMIC - IC MICROSYSTEMS

ICM7333Q Datasheet(HTML) 8 Page - IC MICROSYSTEMS

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ICM7373/7353/7333
Dual 12/10/8-Bit Voltage Output DACs
Serial Interface with Adjustable Output Gain
Rev. A1
ICmic reserves the right to change the specifications without prior notice.
8
IC MICROSYSTEMS
ICmic
DETAILED DESCRIPTION
The ICM7373 is a 12-bit voltage output dual DAC. The
ICM7353 is the 10-bit version of this family and the
ICM7333 is the 8-bit version.
This family of DACs employs a resistor string architecture
guaranteeing monotonic behavior. There is a 1.25V
onboard reference and an operating supply range of 2.7V
to 5.5V.
Reference Input
Determine the output voltage using the following equation:
VOUT = VREF x (D / (2
n))
Where D is the numeric value of DAC’s decimal input
code, VREF is the reference voltage and n is number of
bits, i.e. 12 for ICM7373, 10 for ICM7353 and 8 for
ICM7333.
Reference Output
The reference output is nominally 1.25V and is brought out
to a separate pin and can be used to drive external loads.
The outputs will nominally swing from 0 to 2.5V.
Output Amplifier
The dual DAC has 2 output amplifiers with a rail-to-rail
output swing. The actual swing of the output amplifiers will
be limited by offset error and gain error. See the
Applications Information Section for a more detailed
discussion.
The 2 output amplifier’s inverting input of 2 DACs are
available to the user, allowing force and sense capability
for remote sensing and specific gain adjustment. The unity
gain can be provided by connecting the inverting input to
the output.
The output amplifier can drive a load of 2.0 k
to VDD or
GND in parallel with a 500 pF load capacitance.
The output amplifier has a full-scale typical settling time of
8 µs and it dissipates about 100 µA with a 3V supply
voltage.
Serial Interface and Input Logic
This dual DAC family uses a standard 3-wire connection
compatible with SPI/QSPI and Microwire interfaces. Data
is loaded in 16-bit words which consist of 4 address and
control bits (MSBs) followed by 12 bits of data (see table
1). The ICM7353 has the last 2 LSBs as don’t care and the
ICM7333 has the last 4 LSBs as don’t care. The DAC is
double buffered with an input latch and a DAC latch.
Serial Data Input
SDI (Serial Data Input) pin is the data input pin for All
DACs. Data is clocked in on the rising edge of SCK which
has a Schmitt trigger internally to allow for noise immunity
on the SCK pin. This specially eases the use for opto-
coupled interfaces.
The Chip Select pin which is the 6
th pin of 16 QSOP
package is active low. This pin must be low when data is
being clocked into the part. After the 16
th clock pulse the
Chip Select pin must be pulled high (level-triggered) for
the data to be transferred to an input bank of latches. This
pin also disables the SCK pin internally when pulled high
and the SCK pin must be low before this pin is pulled back
low. As the Chip Select pin is pulled high the shift register
contents are transferred to a bank of 16 latches (see
Figure 2.). The 4 bit control word (C3~C0) is then decoded
and the DAC is updated or loaded depending on the
control word (see Table 1).
The DAC has a double-buffered input with an input latch
and a DAC latch. The DAC output will swing to its new
value when data is loaded into the DAC latch. The user
has three options: loading only the input latch, updating
the DAC with data previously loaded into the input latch or
loading the input latch and updating the DAC at the same
time with a new code.
Serial Data Output
SDO (Serial Data Output) is the internal shift register’s
output. This pin can be used as the data output pin for
Daisy-Chaining and data readback. And it is compatible
with SPI/QSPI and Microwire interfaces.
Power-On Reset
There is a power-on reset on board that will clear the
contents of all the latches to all 0s on power-up and the
DAC voltage output will go to ground.
APPLICATIONS INFORMATION
Power Supply Bypassing and Layout
Considerations
As in any precision circuit, careful consideration has to be
given to layout of the supply and ground. The return path
from the GND to the supply ground should be short with
low impedance. Using a ground plane would be ideal. The
supply should have some bypassing on it. A 10 µF
tantalum capacitor in parallel with a 0.1 µF ceramic with a
low ESR can be used. Ideally these would be placed as
close as possible to the device. Avoid crossing digital and
analog signals, specially the reference, or running them
close to each other.
Output Swing Limitations
The ideal rail-to-rail DAC would swing from GND to VDD.
However, offset and gain error limit this ability. Figure 6
illustrates how a negative offset error will affect the output.
The output will limit close to ground since this is single
supply part, resulting in a dead-band area. As a larger
input is loaded into the DAC the output will eventually rise
above ground. This is why the linearity is specified for a
starting code greater than zero.
Figure 7 illustrates how a gain error or positive offset error
will affect the output when it is close to VDD. A positive
gain error or positive offset will cause the output to be
limited to the positive supply voltage resulting in a dead-
band of codes close to full-scale.


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