LTC6256IKC#TRMPBF-ES Linear Technology, LTC6256IKC#TRMPBF-ES Datasheet - Page 14
LTC6256IKC#TRMPBF-ES
Manufacturer Part Number
LTC6256IKC#TRMPBF-ES
Description
IC OPAMP DUAL 6.5MHZ 8-UTDFN
Manufacturer
Linear Technology
Datasheet
1.LTC6256CTS8TRMPBF.pdf
(24 pages)
Specifications of LTC6256IKC#TRMPBF-ES
Amplifier Type
General Purpose
Number Of Circuits
2
Output Type
Rail-to-Rail
Slew Rate
1.8 V/µs
Gain Bandwidth Product
6.5MHz
-3db Bandwidth
4.5MHz
Current - Input Bias
5nA
Voltage - Input Offset
100µV
Current - Supply
65µA
Current - Output / Channel
35mA
Voltage - Supply, Single/dual (±)
1.8 V ~ 5.25 V, ±0.9 V ~ 2.625 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-µTDFN
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Part Number
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Quantity
Price
LTC6255/LTC6256/LTC6257
APPLICATIONS INFORMATION
the negative supply to 0.2V below the positive supply, the
low input bias current allows the amplifi ers to be used in
applications with high resistance sources.
Ground Sensing and Rail to Rail Output
The LTC6255 family has excellent output drive capability,
delivering over 10mA of output drive current. The output
stage is a rail-to-rail topology that is capable of swinging to
within 30mV of either rail. If output swing to the negative
rail is required, an external pull down resistor to a negative
supply can be added. For 5V/0V op amp supplies, a pull
down resistor of 2.1k to –2V will allow a ‘true zero’ output
swing. In this case, the output can swing all the way to
the bottom rail while maintaining 80dB of open loop gain.
Since the inputs can go 100mV beyond either rail, the op
amp can easily perform ‘true ground’ sensing.
The maximum output current is a function of total supply
voltage. As the supply voltage to the amplifi er increases,
the output current capability also increases. Attention must
be paid to keep the junction temperature of the IC below
150°C when the output is in continuous short-circuit. The
output of the amplifi er has reverse-biased diodes con-
nected to each supply. The output should not be forced
more than 0.5V beyond either supply, otherwise current
will fl ow through these diodes.
Input Protection and Output Overdrive
To prevent breakdown of the input transistors, the input
stages are protected against a large differential input
voltage by two pairs of back-to-back diodes, D5 to D8. If
the differential input voltage exceeds 1.4V, the current in
these diodes must be limited to less than 10mA. These
amplifi ers are not intended for open loop applications such
as comparators. When the output stage is overdriven,
internal limiting circuitry is activated to improve overdrive
recovery. In some applications, this circuitry may draw as
much as 1mA supply current.
ESD
The LTC6255 family has reverse-biased ESD protection
diodes on all inputs and output as shown in Figure 1.
14
Supply Voltage Ramping
Fast ramping of the supply voltage can cause a current
glitch in the internal ESD protection circuits. Depending on
the supply inductance, this could result in a supply voltage
transient that exceeds the maximum rating. A supply volt-
age ramp time of greater than 1ms is recommended.
Feedback Components
Care must be taken to ensure that the pole formed by the
feedback resistors and the parasitic capacitance at the
inverting input does not degrade stability. For example, in
a gain of +2 confi guration with gain and feedback resistors
of 10k, a poorly designed circuit board layout with parasitic
capacitance of 5pF (part +PC board) at the amplifi er’s
inverting input will cause the amplifi er to oscillate due to
a pole formed at 3.2MHz. An additional capacitor of 5pF
across the feedback resistor as shown in Figure 2 will
eliminate any ringing or oscillation.
Shutdown
The single and dual versions have SHDN pins that can
shut down the amplifi er to less than 7μA supply current.
The SHDN pin voltage needs to be within 0.6V of V
the amplifi er to shut down. During shutdown, the output
will be in high output resistance state, which is suitable
for multiplexer applications. When left fl oating, the SHDN
pin is internally pulled up to the positive supply and the
amplifi er remains enabled.
10k
C
PAR
Figure 2.
V
IN
–
+
LTC6255
5pF
10k
625567 F02
V
OUT
625567fa
–
for
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