ISL28213FBZ-T7

Manufacturer Part NumberISL28213FBZ-T7
DescriptionIC OPAMP GP RRIO 2MHZ DUAL 8SOIC
ManufacturerIntersil
ISL28213FBZ-T7 datasheets

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Specifications of ISL28213FBZ-T7

Amplifier TypeGeneral PurposeNumber Of Circuits2
Output TypeRail-to-RailSlew Rate1 V/µs
Gain Bandwidth Product2MHz-3db Bandwidth*
Current - Input Bias3pAVoltage - Input Offset500µV
Current - Supply90µACurrent - Output / Channel22mA
Voltage - Supply, Single/dual (±)1.8 V ~ 5.5 V, ±0.9 V ~ 2.5 VOperating Temperature*
Mounting TypeSurface MountPackage / Case8-SOIC (0.154", 3.90mm Width)
Lead Free Status / RoHS StatusLead free / RoHS Compliant  
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Applications Information
Functional Description
The ISL28113, ISL28213 and ISL28413 are single, dual
and quad, CMOS rail-to-rail input, output (RRIO)
micropower operational amplifiers. They are designed to
operate from single supply (1.8V to 5.5V) or dual supply
(±0.9V to ±2.75V). The parts have an input common
mode range that extends 100mV above and below the
power supply voltage rails. The output stage can swing to
within 15mV of the supply rails with a 10kΩ load.
Input ESD Diode Protection
All input terminals have internal ESD protection diodes
to both positive and negative supply rails, limiting the
input voltage to within one diode beyond the supply
rails. They also contain back-to-back diodes across the
input terminals (see “Pin Descriptions - Circuit 1” on
page 3
. For applications where the input differential
)
voltage is expected to exceed 0.5V, an external series
resistor must be used to ensure the input currents
never exceed 20mA (see Figure 18).
-
R
IN
V
R
+
IN
FIGURE 18. INPUT CURRENT LIMITING
Although the amplifier is fully protected, high input slew
rates that exceed the amplifier slew rate (±1V/µs) may
cause output distortion.
Output Phase Reversal
Output phase reversal is a change of polarity in the
amplifier transfer function when the input voltage
exceeds the supply voltage. The ISL28113, ISL28213
and ISL28413 are immune to output phase reversal,
even when the input voltage is 1V beyond the supplies.
Unused Channels
If the application requires less than all amplifiers one
channel, the user must configure the unused channel(s)
to prevent it from oscillating. The unused channel(s) will
oscillate if the input and output pins are floating. This will
result in higher than expected supply currents and
possible noise injection into the channel being used. The
proper way to prevent this oscillation is to short the
output to the inverting input and ground the positive
input (as shown in Figure 19).
-
+
FIGURE 19. PREVENTING OSCILLATIONS IN
UNUSED CHANNELS
9
ISL28113, ISL28213, ISL28413
Power Dissipation
It is possible to exceed the +125°C maximum junction
temperatures under certain load, power supply
conditions and ambient temperature conditions. It is
therefore important to calculate the maximum junction
temperature (T
power supply voltages, load conditions, or package type
need to be modified to remain in the safe operating area.
These parameters are related using Equation 1:
T
=
JMAX
where:
• P
DMAXTOTAL
dissipation of each amplifier in the package (PD
• PD
MAX
Equation 2:
PD
MAX
where:
• T
MAX
• θ
= Thermal resistance of the package
JA
V
OUT
• PD
L
MAX
• V
= Total supply voltage
S
• I
qMAX
amplifier
• V
OUTMAX
application
• R
= Load resistance
L
ISL28113, ISL28213 and ISL28413 SPICE
Model
Figure 20 shows the SPICE model schematic and
Figure 21 shows the net list for the SPICE model. The
model is a simplified version of the actual device and
simulates important AC and DC parameters. AC
parameters incorporated into the model are: 1/f and
flatband noise, Slew Rate, CMRR, Gain and Phase. The
DC parameters are IOS, total supply current and output
voltage swing. The model uses typical parameters given
in the “Electrical Specifications” Table beginning on
page 4. The AVOL is adjusted for 85dB with the
dominate pole at 100Hz. The CMRR is set 72dB,
f = 35kHz). The input stage models the actual device to
present an accurate AC representation. The model is
configured for ambient temperature of +25°C.
Figures 22 through 31 show the characterization vs
simulation results for the Noise Voltage, Closed Loop
Gain vs Frequency, Large Signal 5V Step Response,
CMRR and Open Loop Gain Phase.
) for all applications to determine if
JMAX
θ
T
xPD
+
MAX
JA
MAXTOTAL
is the sum of the maximum power
for each amplifier can be calculated using
V
OUTMAX
×
(
)
×
--------------------------- -
=
V
I
+
V
- V
S
qMAX
S
OUTMAX
R
= Maximum ambient temperature
= Maximum power dissipation of 1 amplifier
= Maximum quiescent supply current of 1
= Maximum output voltage swing of the
(EQ. 1)
)
MAX
(EQ. 2)
L
FN6728.4
March 25, 2010

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