OP293FS Analog Devices Inc, OP293FS Datasheet - Page 12
OP293FS
Manufacturer Part Number
OP293FS
Description
IC OPAMP GP 35KHZ DUAL 8SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.OP193FSZ.pdf
(16 pages)
Specifications of OP293FS
Slew Rate
0.015 V/µs
Rohs Status
RoHS non-compliant
Design Resources
4 mA-to-20 mA Loop-Powered Temperature Monitor Using ADuC7060/1 (CN0145)
Amplifier Type
General Purpose
Number Of Circuits
2
Output Type
Rail-to-Rail
Gain Bandwidth Product
35kHz
Current - Input Bias
20nA
Voltage - Input Offset
250µV
Current - Supply
30µA
Current - Output / Channel
25mA
Voltage - Supply, Single/dual (±)
1.7 V ~ 36 V, ±0.85 V ~ 18 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Op Amp Type
Precision
No. Of Amplifiers
2
Bandwidth
35kHz
No. Of Pins
8
Operating Temperature Range
-40°C To +125°C
Peak Reflow Compatible (260 C)
No
Leaded Process Compatible
No
-3db Bandwidth
-
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
OP293FS
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Part Number:
OP293FSZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Part Number:
OP293FSZ-REEL
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Company:
Part Number:
OP293FSZ-REEL7
Manufacturer:
VISHAY
Quantity:
16 679
OP193/OP293/OP493
A Single-Supply Instrumentation Amplifier
Designing a true single-supply instrumentation amplifier with
zero-input and zero-output operation requires special care.
The traditional configuration, shown in Figure 9, depends upon
amplifier A1’s output being at 0 V when the applied common-
mode input voltage is at 0 V. Any error at the output is multiplied
by the gain of A2. In addition, current flows through resistor R3
as A2’s output voltage increases. A1’s output must remain at 0 V
while sinking the current through R3, or a gain error will result.
With a maximum output voltage of 4 V, the current through R3
is only 2 µA, but this will still produce an appreciable error.
One solution to this problem is to use a pull-down resistor. For
example, if R3 = 20 kΩ, then the pull-down resistor must be
less than 400 Ω. However, the pull-down resistor appears as a
fixed load when a common-mode voltage is applied. With a 4 V
common-mode voltage, the additional load current will be 10 mA,
which is unacceptable in a low power application.
Figure 10 shows a better solution. A1’s sink current is provided
by a pair of N-channel FET transistors, configured as a current
mirror. With the values shown, sink current of Q2 is about
340 µA. Thus, with a common-mode voltage of 4 V, the addi-
tional load current is limited to 340 µA versus 10 mA with a
400 Ω resistor.
–IN
+IN
20k
R1
REF-43BZ
V
V
TEMP
GND
OUT
V
I N
1/2 OP293
1.98M
A1
2
6
4
3
R2
5V
R1 10k
V+
V–
ALL RESISTORS 1/4W, 5% UNLESS OTHERWISE NOTED
I
SINK
20k
R3
1.98M
1/2 OP293
R4
2
3
A2
1/2 OP293
5V
V+
V–
8
4
1
V
OUT
R3
100k
V
TEMP
1k
R2
5k
R5
ZERO
TRIM
R4
20k
A Low-Power, Temperature to 4–20 mA Transmitter
A simple temperature to 4–20 mA transmitter is shown in Fig-
ure 11. After calibration, this transmitter is accurate to ± 0.5°C
over the –50°C to +150°C temperature range. The transmitter
operates from 8 V to 40 V with supply rejection better than
3 ppm/V. One half of the OP293 is used to buffer the V
pin, while the other half regulates the output current to satisfy
the current summation at its noninverting input:
The change in output current with temperature is the derivative
of the transfer function:
V
SET
–IN
+IN
I
OUT
3k
R6
6
5
1/2 OP293
20k
+
R1
V
TEMP
SPAN TRIM
5k
R7
1/2 OP293
R2 R10
∆
1.98M
7
A1
∆
×
I
VN2222
R2
OUT
T
5V
(
×
R6
R9
100k
V+
V–
Q1
=
1%, 1/2 W
+
1k
5V
R8
∆
R7
10k
100
V
R10
∆
TEMP
T
)
R2 R10
2N1711
−
I
R
1N4002
OUT
V
LOAD
(
×
20k
Q2
R6
SET
R3
+
R2
8V TO 40V
R7
1/2 OP293
R2 R10
V+
1.98M
A2
+
5V
)
R4
R6
×
V+
V–
+
R7
TEMP
V
OUT
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