DAC8426 Analog Devices, DAC8426 Datasheet - Page 10
DAC8426
Manufacturer Part Number
DAC8426
Description
Quad 8-Bit Voltage Out CMOS DAC Complete with Internal 10V Reference
Manufacturer
Analog Devices
Datasheet
1.DAC8426.pdf
(12 pages)
Specifications of DAC8426
Resolution (bits)
8bit
Dac Update Rate
333kSPS
Dac Settling Time
3µs
Max Pos Supply (v)
+16.5V
Single-supply
Yes
Dac Type
Voltage Out
Dac Input Format
Par
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DAC8426
CONNECTION AND LAYOUT GUIDELINES
Layout and design techniques used in the interface between dig-
ital and analog circuitry require special attention to detail. The
following considerations should be evaluated prior to PCB layout.
1. Return signal paths through the ground system should be
2. For optimum performance, bypass V
carefully considered. High-speed digital logic current pulses
traveling on return ground traces generate glitches that can be
radiated to the analog circuits if the ground path layout pro-
duces loop antennas. Ground planes can minimize this situa-
tion. Separate digital and analog grounding areas to minimize
crosstalk. Ideally a single common-point ground should be on
the same PCB board as the DAC8426. The analog ground re-
turns should take advantage of the appropriate placement of
power supply bypass capacitors.
negative supply voltage) with 0.1 F ceramic disk capacitors
to shunt high-frequency spikes. Also use in parallel 6.8 F to
10 F capacitors to provide a charge reservoir for lower fre-
quency load change requirements. The reference output
(V
pacitor to optimize reference output stability during data in-
put changes. This helps to minimize digital crosstalk.
REF
OUT) should be bypassed with a 10 F tantalum ca-
Figure 6. Bipolar Operation
DD
and V
SS
(if using
–10–
Digital Input
Code
255
254
129
128
127
1
0
3. Power Supply Sequencing—No special requirements exist
4. ESD input protection—Attention has been given in the de-
Figure 7. AGND Biasing Scheme Providing Offset Output
Range
Table III. Bipolar Output Voltage as a Function of Digital
Input Code
with the DAC8426. However, users should be aware that of-
ten the 5 V logic supply may be powered up momentarily
prior to the +15 V analog supply. In this situation, the
DAC8426 ESD input protection diodes will forward bias if
the applied input logic is at logic “1”. No damage will result
to the input since the DAC8426 is designed to withstand mo-
mentary currents of up to 130 mA. This situation will likely
exist for any DAC or ADC operating from a separate analog
supply.
sign of the DAC8426 to ESD sensitivity. Using the human
body model test technique (MIL-STD 3015.4) the DAC8426
generally will withstand 1500 V ESD transients on all pins.
Handling and testing prior to PCB insertion generally exposes
ICs to the toughest environment they will experience. Once
the IC is soldered in the PCB, it is still important to consider
any traces that connect to PCB edge connectors. These traces
should be protected with appropriate devices especially if the
boards will experience field replacement or adjustment. Han-
dling the exposed edge connectors by field maintenance
people in a low humidity environment can produce 20 kV
ESD transients which will be detrimental to almost any inte-
grated IC connected to the edge connector.
Analog Output
Voltage (= D/256 10 V)
9.922 V
9.844 V
0.078 V
0.000 V
–0.078 V
–9.922 V
–10.000 V
Full-Scale (FS)
FS-1 LSB
Zero-Scale
Neg Full-Scale
REV. C
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