MIC915BMM Micrel Inc, MIC915BMM Datasheet - Page 10
MIC915BMM
Manufacturer Part Number
MIC915BMM
Description
IC OPAMP DUAL 135MHZ 10-MSOP
Manufacturer
Micrel Inc
Datasheet
1.MIC915BMM.pdf
(12 pages)
Specifications of MIC915BMM
Amplifier Type
Voltage Feedback
Number Of Circuits
2
Slew Rate
270 V/µs
Gain Bandwidth Product
135MHz
-3db Bandwidth
192MHz
Current - Input Bias
3.5µA
Voltage - Input Offset
1000µV
Current - Supply
2.5mA
Current - Output / Channel
90mA
Voltage - Supply, Single/dual (±)
±2.5 V ~ 9 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
10-MSOP, Micro10™, 10-uMAX, 10-uSOP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Output Type
-
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MIC915
Applications Information
The MIC915 is a high-speed, voltage-feedback operational
amplifier featuring very low supply current and excellent
stability. This device is unity gain stable and capable of
driving high capacitance loads.
Driving High Capacitance
The MIC915 is stable when driving any capacitance (see
“Typical Characteristics: Gain Bandwidth and Phase Margin
vs. Load Capacitance”) making it ideal for driving long coaxial
cables or other high-capacitance loads.
Phase margin remains constant as load capacitance is
increased. Most high-speed op amps are only able to drive
limited capacitance.
Feedback Resistor Selection
Conventional op amp gain configurations and resistor selec-
tion apply, the MIC915 is NOT a current feedback device.
Resistor values in the range of 1k to 10k are recommended.
Layout Considerations
All high speed devices require careful PCB layout. The high
stability and high PSRR of the MIC915 make this op amp
easier to use than most, but the following guidelines should
be observed: Capacitance, particularly on the two inputs pins
will degrade performance; avoid large copper traces to the
inputs. Keep the output signal away from the inputs and use
a ground plane.
It is important to ensure adequate supply bypassing capaci-
tors are located close to the device.
MIC915
Note: increasing load capacitance does reduce the
speed of the device (see “Typical Characteris-
tics: Gain Bandwidth and Phase Margin vs.
Load”). In applications where the load capaci-
tance reduces the speed of the op amp to an
unacceptable level, the effect of the load capaci-
tance can be reduced by adding a small resistor
(<100 ) in series with the output.
10
Power Supply Consideration
Regular supply bypassing techniques are recommended. A
10 F capacitor in parallel with a 0.1 F capacitor on both the
positive and negative supplies are ideal. For best perfor-
mance all bypassing capacitors should be located as close to
the op amp as possible and all capacitors should be low ESL
(equivalent series inductance), ESR (equivalent series resis-
tance). Surface-mount ceramic capacitors are ideal. Both V–
pins must be externally shorted together.
Thermal Considerations
operating junction (die) temperature of 85 C. The part can be
operated up to the absolute maximum temperature rating of
125 C, but between 85 C and 125 C performance will de-
grade, in particular CMRR will reduce.
A MIC915 with no load, dissipates power equal to the quies-
cent supply current * supply voltage
When a load is added, the additional power is dissipated in
the output stage of the op amp. The power dissipated in the
device is a function of supply voltage, output voltage and
output current.
Ensure the total power dissipated in the device is no greater
than the thermal capacity of the package. The MSOP-10
package has a thermal resistance of TBD C/W.
It is important to ensure the IC does not exceed the maximum
Total Power Dissipation P
P
P
Max Allowable Power Dissipation
D
D
(no load)
(output stage)
.
V
V
V
V
V
V
V
I
S
OUT
D
(no load)
I
OUT
T
J
(max)
September 2000
P
D
(outpu stage)
TBD
T
A
t
(max)
Micrel
W
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