AD5626BRMZ Analog Devices Inc, AD5626BRMZ Datasheet - Page 13
AD5626BRMZ
Manufacturer Part Number
AD5626BRMZ
Description
IC DAC NANO 12BIT 8-MSOP
Manufacturer
Analog Devices Inc
Series
nanoDAC™r
Specifications of AD5626BRMZ
Data Interface
Serial
Settling Time
16µs
Number Of Bits
12
Number Of Converters
1
Voltage Supply Source
Single Supply
Power Dissipation (max)
12.5mW
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-MSOP, Micro8™, 8-uMAX, 8-uSOP,
Resolution (bits)
12bit
Sampling Rate
2MSPS
Input Channel Type
Serial
Supply Voltage Range - Analogue
4.75V To 5.25V
Supply Current
1.5mA
Digital Ic Case Style
SOP
No. Of
RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD5626BRMZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Part Number:
AD5626BRMZ-REEL7
Manufacturer:
ADI/亚德诺
Quantity:
20 000
OPERATING THE AD5626 ON 12 V OR 15 V
SUPPLIES ONLY
Although the AD5626 has been specified to operate on a single,
5 V supply, a single 5 V supply may not be available in many
applications. Because the AD5626 consumes no more than 2.5 mA
maximum, an integrated voltage reference, such as the ADR02,
can be used as the 5 V supply for the AD5626. See Figure 28 for
the circuit configuration. Notice that the output voltage of the
reference requires no trimming because of the excellent load
regulation and tight initial output voltage tolerance of the ADR02.
Although the maximum supply current of the AD5626 is 2.5 mA,
local bypassing of the ADR02 output with at least 0.1 μF at the
DAC voltage supply pin is recommended to prevent the internal
digital circuits of the DAC from affecting the internal voltage
reference of the DAC.
MEASURING OFFSET ERROR
One of the most commonly specified endpoint errors associated
with real world nonideal DACs is offset error. In most DAC
testing, the offset error is measured by applying the zero-scale
code and measuring the output deviation from 0 V.
There are some DACs where offset errors are present but not
observable at the zero scale because of other circuit limitations
(for example, zero coinciding with single-supply ground). In
these DACs, nonzero output at zero code cannot be read as the
offset error. In the AD5626, for example, the zero-scale error is
Figure 28. Operating the AD5626 on 12 V or 15 V Supplies Using an
LDAC
SCLK
SDIN
CLR
CS
12V OR 15V
ADR02
2
4
ADR02 Voltage Reference
2
6
5
3
4
6
1µF
AD5626
GND
V
DD
1
7
0.1µF
8
V
OUT
Rev. A | Page 13 of 20
specified to be ±3 LSBs. Because zero scale coincides with zero
volt, it is not possible to measure negative offset error.
By adding a pull-down resistor from the output of the AD5626
to a negative supply as shown in Figure 29, offset errors can be
read at zero code. This configuration forces the output P-channel
MOSFET to source current to the negative supply thereby allowing
the designer to determine in which direction the offset error
appears. The value of the resistor should be such that, at zero
code, current through the resistor is 200 μA, maximum.
BIPOLAR OUTPUT OPERATION
Although the AD5626 has been designed for single-supply
operation, bipolar operation is achievable using the circuit
illustrated in Figure 30. The circuit uses a single-supply, rail-
to-rail OP295 op amp and the REF03 to generate the −2.5 V
reference required to level shift the DAC output voltage.
Note that the −2.5 V reference is generated without the use of
precision resistors. The circuit configuration provides an output
voltage in the range of −5 V ≤ V
mentary offset binary. Although each DAC LSB corresponds to
1 mV, each output LSB has been scaled to 2.44 mV. Table 7 lists
the relationship between the digital codes and output voltage.
The transfer function of the circuit is given by
and, for the circuit values shown, becomes
V
V
O
O
= −2.44 mV × Digital Code + 5 V
LDAC
SCLK
=
SDIN
CLR
SET CODE = 0x000 AND MEASURE V
−
CS
1
Figure 29. Measuring Zero-Scale or Offset Error
mV
×
2
6
5
3
4
Digital
0.1µF
AD5626
Code
GND
V
5V
DD
1
7
OUT
×
V
OUT
R4
R1
≤ +5 V and is coded in comple-
8
+
OUT
2
R
5 .
V–
×
R4
R2
200µA, MAX
AD5626
V
OUT
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