MCP6L01 Microchip Technology Inc., MCP6L01 Datasheet - Page 11
MCP6L01
Manufacturer Part Number
MCP6L01
Description
1 Mhz, 85 ?a Op Amps
Manufacturer
Microchip Technology Inc.
Datasheet
1.MCP6L01.pdf
(32 pages)
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4.0
The MCP6L01/1R/1U/2/4 family of op amps is manu-
factured using Microchip’s state of the art CMOS
process. It is designed for low cost, low power and
general purpose applications. The low supply voltage,
low quiescent current and wide bandwidth makes the
MCP6L01/1R/1U/2/4
applications. This device has high phase margin, which
makes it stable for larger capacitive load applications.
4.1
4.1.1
The MCP6L01/1R/1U/2/4 op amps are designed to
prevent phase inversion when the input pins exceed
the supply voltages.
voltage exceeding both supplies without any phase
reversal.
4.1.2
In order to prevent damage and/or improper operation
of these amplifiers, the circuit they are in must limit the
currents (and voltages) at the input pins (see
Section 1.1
Figure 4-1
protecting these inputs. The internal ESD diodes
prevent the input pins (V
far below ground, and the resistors R
possible current drawn out of the input pins. Diodes D
and D
going too far above V
V
FIGURE 4-1:
Inputs.
© 2009 Microchip Technology Inc.
DD
.
2
V
V
prevent the input pins (V
APPLICATION INFORMATION
Rail-to-Rail Inputs
1
2
R
R
1
2
PHASE REVERSAL
INPUT VOLTAGE AND CURRENT
LIMITS
shows the recommended approach to
>
>
R
R
“Absolute
V
V
1
2
SS
SS
D
1
– (minimum expected V
– (minimum expected V
DD
Protecting the Analog
D
Figure 2-10
ideal
2
, and dump any currents onto
IN
+ and V
2 mA
2 mA
Maximum
MCP6L0X
for
R
V
IN
IN
3
DD
+ and V
–) from going too
shows an input
1
battery-powered
and R
Ratings †”).
1
2
)
)
2
IN
limit the
–) from
1
A significant amount of current can flow out of the
inputs (through the ESD diodes) when the common
mode voltage (V
Figure
need to limit the usable voltage range.
4.1.3
The input stage of the MCP6L01/1R/1U/2/4 op amps
use two differential CMOS input stages in parallel. One
operates at low common mode input voltage (V
while the other operates at high V
topology, and at room temperature, the device
operates with V
below V
The transition between the two input stages occurs
when V
gain linearity, with non-inverting gains, avoid this region
of operation.
4.2
The output voltage range of the MCP6L01/1R/1U/2/4
op amps is V
(maximum) when R
and V
tion.
4.3
Driving large capacitive loads can cause stability
problems for voltage feedback op amps. As the load
capacitance increases, the feedback loop’s phase
margin decreases and the closed-loop bandwidth is
reduced. This produces gain peaking in the frequency
response, with overshoot and ringing in the step
response.
When driving large capacitive loads with these op
amps (e.g., > 100 pF when G = +1), a small series
resistor at the output (R
feedback loop’s stability by making the output load
resistive at higher frequencies; the bandwidth will
usually be decreased.
FIGURE 4-2:
stabilizes large capacitive loads.
Bench measurements are helpful in choosing R
Adjust R
Figure
MCP6L01/1R/1U/2/4
DD
2-7. Applications that are high impedance may
R
2-14) has reasonable overshoot (e.g., 4%).
R
SS
CM
ISO
G
= 5.0V. Refer to
N
Rail-to-Rail Output
Capacitive Loads
(typically at +25°C).
= V
NORMAL OPERATION
so that a small signal step response (see
DD
DD
MCP6L0X
CM
– 35 mV (minimum) and V
– 1.1V. For the best distortion and
CM
up to 0.3V above V
L
R
) is below ground (V
= 10 kΩ is connected to V
F
Output Resistor, R
ISO
Figure 2-13
in
Figure
R
C
ISO
L
DS22140A-page 11
4-2) improves the
for more informa-
CM
DD
. WIth this
SS
ISO
and 0.3V
SS
V
+ 35 mV
OUT
); see
DD
CM
ISO
/2
),
.
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