AD8603AUJZ-REEL7 Analog Devices Inc, AD8603AUJZ-REEL7 Datasheet - Page 12
AD8603AUJZ-REEL7
Manufacturer Part Number
AD8603AUJZ-REEL7
Description
IC OPAMP GP R-R CMOS TSOT23-5
Manufacturer
Analog Devices Inc
Datasheet
1.AD8607ARMZ-REEL.pdf
(16 pages)
Specifications of AD8603AUJZ-REEL7
Slew Rate
0.1 V/µs
Design Resources
Generating a Negative Precision Voltage Reference Without Precision Resistors (CN0005) High Precision, Low Cost Current Sources Using AD8276 and AD8603 (CN0099) Measuring -48 V High-Side Current Using AD629, AD8603, AD780, and AD7453 (CN0100)
Amplifier Type
General Purpose
Number Of Circuits
1
Output Type
Rail-to-Rail
Gain Bandwidth Product
400kHz
Current - Input Bias
0.2pA
Voltage - Input Offset
12µV
Current - Supply
40µA
Current - Output / Channel
70mA
Voltage - Supply, Single/dual (±)
1.8 V ~ 5 V, ±0.9 V ~ 2.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
TSOT-23-5, TSOT-5, TSOP-5
Op Amp Type
Precision
No. Of Amplifiers
1
Bandwidth
400kHz
Supply Voltage Range
1.8V To 5V
Amplifier Case Style
TSOT-23
No. Of Pins
5
Number Of Elements
1
Unity Gain Bandwidth Product
0.4MHz
Common Mode Rejection Ratio
85dB
Input Offset Voltage
0.3@5VmV
Input Bias Current
1pA
Single Supply Voltage (typ)
3V
Voltage Gain In Db
120dB
Power Supply Rejection Ratio
80dB
Power Supply Requirement
Single/Dual
Shut Down Feature
No
Single Supply Voltage (min)
1.8V
Single Supply Voltage (max)
5V
Dual Supply Voltage (min)
±0.9V
Dual Supply Voltage (max)
±2.5V
Technology
CMOS
Operating Temp Range
-40C to 125C
Operating Temperature Classification
Automotive
Mounting
Surface Mount
Pin Count
5
Package Type
TSOT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
-3db Bandwidth
-
Lead Free Status / Rohs Status
Compliant
Other names
AD8603AUJZREEL7TR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AD8603AUJZ-REEL7
Manufacturer:
AD
Quantity:
116
Part Number:
AD8603AUJZ-REEL7
Manufacturer:
ADI/亚德诺
Quantity:
20 000
AD8603/AD8607/AD8609
APPLICATIONS
NO PHASE REVERSAL
The AD8603/AD8607/AD8609 do not exhibit phase inversion
even when the input voltage exceeds the maximum input
common-mode voltage. Phase reversal can cause permanent
damage to the amplifier, resulting in system lockups. The
AD8603/AD8607/AD8609 can handle voltages of up to 1 V
over the supply.
INPUT OVERVOLTAGE PROTECTION
If a voltage 1 V higher than the supplies is applied at either
input, the use of a limiting series resistor is recommended. If
both inputs are used, each one should be protected with a
series resistor.
To ensure good protection, the current should be limited to a
maximum of 5 mA. The value of the limiting resistor can be
determined from the following equation:
DRIVING CAPACITIVE LOADS
The AD8603/AD8607/AD8609 are capable of driving large
capacitive loads without oscillating. Figure 42 shows the output
of the AD8603/AD8607/AD8609 in response to a 100 mV input
signal, with a 2 nF capacitive load.
Although it is configured in positive unity gain (the worst case),
the AD8603 shows less than 20% overshoot. Simple additional
circuitry can eliminate ringing and overshoot.
One technique is the snubber network, which consists of a
series RC and a resistive load (see Figure 43). With the snubber
in place, the AD8603/AD8607/AD8609 are capable of driving
capacitive loads of 2 nF with no ringing and less than 3%
overshoot.
(V
IN
− V
S
)/(R
S
+ 200 Ω) ≤ 5 mA
Figure 41. No Phase Response
V
IN
TIME (4µs/DIV)
V
OUT
V
V
A
R
S
IN
V
L
= ±2.5V
= 1
= 10kΩ
= 6V p-p
Rev. C | Page 12 of 16
The use of the snubber circuit is usually recommended for unity
gain configurations. Higher gain configurations help improve
the stability of the circuit. Figure 44 shows the same output
response with the snubber in place.
Optimum values for R
Table 5 lists a few starting values.
Table 5. Optimum Values for the Snubber Network
C
100 to ~500
1500
1600 to ~2000
L
Figure 42. Output Response to a 2 nF Capacitive Load, Without Snubber
(pF)
Figure 44. Output Response to a 2 nF Capacitive Load with Snubber
200mV
Figure 43. Snubber Network
S
R
500
100
400
+
–
and C
S
(Ω)
V
V
V–
V+
EE
CC
S
are determined empirically;
47pF
150Ω
C
R
S
S
C
V
V
C
R
V
V
C
R
R
C
C
330
L
680
100
S
IN
L
L
SY
IN
L
L
S
S
S
= ±0.9V
= 2nF
= 10kΩ
= 100mV
= 2nF
= 10kΩ
= 150Ω
= 470pF
= 100mV
= ±0.9V
(pF)
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