ADR01ARZ Analog Devices Inc, ADR01ARZ Datasheet - Page 17
ADR01ARZ
Manufacturer Part Number
ADR01ARZ
Description
IC VREF PREC 10V 10PPM 8SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.ADR02AUJZ-REEL7.pdf
(20 pages)
Specifications of ADR01ARZ
Temperature Coefficient
10ppm/°C
Design Resources
Precision, Bipolar Configuration for the AD5546/56 DAC (CN0024) Precision, Bipolar, Configuration for AD5547/AD5557 DAC (CN0028) Unipolar, Precision DC Digital-to-Analog Conversion Using AD5426/32/43 8-Bit to12-Bit DACs (CN0034) Unipolar, Precision DC Digital-to-Analog Conversion using AD5450/1/2/3 8-14-Bit DACs (CN0052) Precision, Bipolar, Configuration for AD5450/1/2/3 8-14bit Multiplying DACs (CN0053)
Reference Type
Series
Voltage - Output
10V
Tolerance
±0.1%
Voltage - Input
12 ~ 36 V
Number Of Channels
1
Current - Quiescent
1mA
Current - Output
10mA
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Topology
Series
Input Voltage
12V To 36V
Reference Voltage
10V
Reference Voltage Tolerance
10mV
Voltage Reference Case Style
SOIC
No. Of Pins
8
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Cathode
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ADR01ARZ
Manufacturer:
MICROCHIP
Quantity:
7 600
Part Number:
ADR01ARZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Part Number:
ADR01ARZ-REEL7
Manufacturer:
ADI/亚德诺
Quantity:
20 000
PROGRAMMABLE 4 mA TO 20 mA CURRENT
TRANSMITTER
Because of their precision, adequate current handling, and small
footprint, the devices are suitable as the reference sources for
many high performance converter circuits. One of these
applications is the multichannel 16-bit, 4 mA to 20 mA current
transmitter in the industrial control market (see Figure 40).
This circuit employs a Howland current pump at the output to
yield better efficiency, a lower component count, and a higher
voltage compliance than the conventional design with op amps
and MOSFETs. In this circuit, if the resistors are matched such
that R1 = R1′, R2 = R2′, R3 = R3′, the load current is
where D is similarly the decimal equivalent of the DAC input
code and N is the number of bits of the DAC.
According to Equation 2, R3′ can be used to set the sensitivity.
R3′ can be made as small as necessary to achieve the current
needed within U4 output current driving capability. Alter-
natively, other resistors can be kept high to conserve power.
In this circuit, the
current, and the voltage compliance approaches 15.0 V.
The Howland current pump yields a potentially infinite output
impedance, that is highly desirable, but resistance matching is
critical in this application. The output impedance can be deter-
mined using Equation 3. As shown by this equation, if the
resistors are perfectly matched, Z
they are not matched, Z
latter is true, oscillation can occur. For this reason, connect
Capacitor C1 in the range of 1 pF to 10 pF between VP and the
output terminal of U4 to filter any oscillation.
15V
U1 = ADR01/ADR02/ADR03/ADR06, REF01
U2 = AD5543/AD5544/AD5554
U3, U4 = AD8512
TEMP TRIM
V
I
IN
L
GND
=
U1
V
Figure 40. Programmable 4 mA to 20 mA Transmitter
(R2
OUT
CODE 20%–100% FULL SCALE
+
R3
5V
R3)
10V
′
AD8512
GND
V
V
R1
DD
REF
DIGITAL INPUT
U2
×
O
AD5544
V
is either positive or negative. If the
RF
REF
is capable of delivering 20 mA of
2
N
IO
IO
×
D
O
0V TO –10V
is infinite. Alternatively, if
U3
AD8512
+15V
–15V
150kΩ
V
R1'
X
150kΩ
R1
VN
VP
U4
4mA TO 20mA
15kΩ
15kΩ
10pF
LOAD
R2'
R2
500Ω
C1
R3'
50Ω
R3
50Ω
(2)
V
V
O
L
Rev. O | Page 17 of 20
In this circuit, an ADR01 provides the stable 10.000 V reference
for the AD5544 quad 16-bit DAC. The resolution of the adjust-
able current is 0.3 µA/step; the total worst-case INL error is
merely 4 LSBs. Such error is equivalent to 1.2 µA or a 0.006%
system error, which is well below most systems’ requirements.
The result is shown in Figure 41 with measurement taken at 25°C
and 70°C; total system error of 4 LSBs at both 25°C and 70°C.
PRECISION BOOSTED OUTPUT REGULATOR
A precision voltage output with boosted current capability can
be realized with the circuit shown in Figure 42. In this circuit,
U2 forces V
N1, thereby making the load current furnished by V
configuration, a 50 mA load is achievable at V
Moderate heat is generated on the MOSFET, and higher current
can be achieved with a replacement of a larger device. In
addition, for a heavy capacitive load with a fast edging input
signal, a buffer should be added at the output to enhance the
transient response.
V
IN
Figure 41. Result of Programmable 4 mA to 20 mA Current Transmitter
Z
–1
O
5
4
3
2
1
0
0
=
R
I
L
V
TEMP TRIM
V
I
L
ADR01/
ADR02/
ADR03/
ADR06
IN
= 0mA TO 20mA
O
t
t
= 500Ω
Figure 42. Precision Boosted Output Regulator
8192
GND
to be equal to V
=
U1
70°C
V
OUT
R1
R1R2
ADR01/ADR02/ADR03/ADR06
16384
′
R1
R2
′
′
−
24576 32768 40960
1
OP1177
CODE (Decimal)
15V
V+
V–
REF
2N7002
U2
by regulating the turn-on of
25°C
1000pF
100Ω
C
N1
R
1
1
49152 57344
R
100Ω
IN
2
R
200Ω
of 15.0 V.
L
IN
. In this
65536
C
1µF
L
(3)
V
O
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