MCP6061T-E/MNY Microchip Technology, MCP6061T-E/MNY Datasheet - Page 16
MCP6061T-E/MNY
Manufacturer Part Number
MCP6061T-E/MNY
Description
IC OPAMP PREC 6.0V 60UA 8-TDFN
Manufacturer
Microchip Technology
Specifications of MCP6061T-E/MNY
Slew Rate
0.25 V/µs
Package / Case
8-TDFN
Amplifier Type
General Purpose
Number Of Circuits
1
Output Type
Rail-to-Rail
Gain Bandwidth Product
730kHz
Current - Input Bias
1pA
Voltage - Input Offset
150µV
Current - Supply
60µA
Current - Output / Channel
27mA
Voltage - Supply, Single/dual (±)
1.8 V ~ 6 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Number Of Channels
1
Common Mode Rejection Ratio (min)
72 dB
Input Offset Voltage
0.15 mV
Input Bias Current (max)
100 pA
Operating Supply Voltage
3 V, 5 V
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Shutdown
No
Supply Voltage (max)
6 V
Supply Voltage (min)
1.8 V
Technology
CMOS
Voltage Gain Db
115 dB
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
-3db Bandwidth
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
MCP6061T-E/MNYTR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
MCP6061/2/4
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. While a unity-gain buffer (G = +1) is the most
sensitive to capacitive loads, all gains show the same
general behavior.
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 phase margin (stability) by making the
output load resistive at higher frequencies. The
bandwidth will be generally lower than the bandwidth
with no capacitance load.
FIGURE 4-3:
Stabilizes Large Capacitive Loads.
Figure 4-4
different capacitive loads and gains. The x-axis is the
normalized load capacitance (C
circuit's noise gain. For non-inverting gains, G
Signal Gain are equal. For inverting gains, G
1+|Signal Gain| (e.g., -1 V/V gives G
FIGURE 4-4:
for Capacitive Loads.
DS22189A-page 16
V
IN
10000
1000
100
10
Capacitive Loads
1.E-11
1
gives recommended R
–
+
Normalized Load Capacitance; C
MCP606X
1.E-10
Output Resistor, R
Recommended R
ISO
1.E-09
G
1 V/V
2 V/V
≥ 5 V/V
in
N
:
Figure
R
1.E-08
L
ISO
/G
C
N
), where G
N
L
4-3) improves the
ISO
= +2 V/V).
V
R
1.E-07
DD
L
= 10 kΩ
L
= 6.0 V
/G
ISO
values for
ISO
N
(F)
N
1.E-06
Values
V
and the
N
OUT
is the
N
is
After selecting R
resulting frequency response peaking and step
response overshoot. Modify R
response is reasonable. Bench evaluation and
simulations with the MCP6061/2/4 SPICE macro
model are very helpful.
4.4
With this family of operational amplifiers, the power
supply pin (V
bypass capacitor (i.e., 0.01 µF to 0.1 µF) within 2 mm
for good high frequency performance. It can use a bulk
capacitor (i.e., 1 µF or larger) within 100 mm to provide
large, slow currents. This bulk capacitor can be shared
with other analog parts.
4.5
An unused op amp in a quad package (MCP6064)
should be configured as shown in
circuits prevent the output from toggling and causing
crosstalk. Circuits A sets the op amp at its minimum
noise gain. The resistor divider produces any desired
reference voltage within the output voltage range of the
op amp; the op amp buffers that reference voltage.
Circuit B uses the minimum number of components
and operates as a comparator, but it may draw more
current.
FIGURE 4-5:
V
DD
V REF
R
R
¼ MCP6064 (A)
1
2
Supply Bypass
Unused Op Amps
=
DD
V DD
V
DD
for single-supply) should have a local
ISO
×
for your circuit, double-check the
--------------------
R 1
Unused Op Amps.
R 2
© 2009 Microchip Technology Inc.
+
V
R 2
REF
ISO
¼ MCP6064 (B)
’s value until the
Figure
V
4-5. These
DD
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