NCV2001 ON Semiconductor, NCV2001 Datasheet - Page 10
NCV2001
Manufacturer Part Number
NCV2001
Description
0.9 V, Rail−to−rail, Single Operational Amplifier
Manufacturer
ON Semiconductor
Datasheet
1.NCV2001.pdf
(17 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
NCV2001SN2T1G
Manufacturer:
ON/安森美
Quantity:
20 000
GENERAL INFORMATION
rail−to−rail output amplifier that features guaranteed
sub−one voltage operation. This unique feature set is
achieved with the use of a modified analog CMOS process
that allows the implementation of depletion MOSFET
devices. The amplifier has a 1.0 MHz gain bandwidth
product, 2.2 V/ms slew rate and is operational over a power
supply range less than 0.9 V to as high as 7.0 V.
Inputs
unconventional when compared to most low voltage
operational amplifiers. It consists of an N−Channel
depletion mode differential transistor pair that drives a
folded cascade stage and current mirror. This configuration
extends the input common mode voltage range to
encompass the V
powered from a combined total of less than 0.9 V. Figures 27
and 28 show the input common mode voltage range versus
power supply voltage.
minimize offset voltage. The N−Channel depletion mode
MOSFET input stage exhibits an extremely low input bias
current of less than 10 pA. The input bias current versus
temperature is shown in Figure 4. Either one or both inputs
can be biased as low as V
7.0 V without causing damage to the device. If the input
common mode voltage range is exceeded, the output will not
display a phase reversal. If the maximum input positive or
negative voltage ratings are to be exceeded, a series resistor
must be used to limit the input current to less than 2.0 mA.
the use of extremely high value source and feedback resistor
without reducing the amplifier’s gain accuracy. These high
value resistors, in conjunction with the device input and
printed circuit board parasitic capacitances C
additional pole to the single pole amplifier in Figure 30. If
low enough in frequency, this additional pole can reduce the
phase margin and significantly increase the output settling
time. The effects of C
into the feedback loop. This is accomplished with the
addition of capacitor C
be calculated by:
The NCS2001 is an industry first rail−to−rail input,
The input topology chosen for this device series is
The differential input stage is laser trimmed in order to
The ultra low input bias current of the NCS2001 allows
EE
and V
C fb +
in
fb
, can be canceled by placing a zero
. An approximate value for C
APPLICATION INFORMATION AND OPERATING DESCRIPTION
CC
EE
R in
power supply rails, even when
minus 300 mV to as high as
R fb
C in
in
, will add an
http://onsemi.com
fb
can
10
Output
N−Channel devices connected to provide rail−to−rail output
drive. With a 2.0 k load, the output can swing within 50 mV
of either rail. It is also capable of supplying over 75 mA
when powered from 5.0 V and 1.0 mA when powered from
0.9 V.
directly drive capacitive loads in excess of 820 pF at room
temperature without oscillating but with significantly
reduced phase margin. The unity gain follower configuration
exhibits the highest bandwidth and is most prone to
oscillations when driving a high value capacitive load. The
capacitive load in combination with the amplifier’s output
impedance, creates a phase lag that can result in an
under−damped pulse response or a continuous oscillation.
Figure 32 shows the effect of driving a large capacitive load
in a voltage follower type of setup. When driving capacitive
loads exceeding 820 pF, it is recommended to place a low
value isolation resistor between the output of the op amp and
the load, as shown in Figure 31. The series resistor isolates the
capacitive load from the output and enhances the phase
margin. Refer to Figure 33. Larger values of R will result in
a cleaner output waveform but excessively large values will
degrade the large signal rise and fall time and reduce the
output
characteristics, the isolation resistor value will typically be
between 50 to 500 W. The output drive capability for resistive
and capacitive loads is shown in Figures 2, 3, and 23.
temperature and low supply voltage.
The output stage consists of complementary P and
When connected as a unity gain follower, the NCS2001 can
Note that the lowest phase margin is observed at cold
Figure 30. Input Capacitance Pole Cancellation
Input
C
Figure 31. Capacitance Load Isolation
Input
in
amplitude.
= Input and printed circuit board capacitance
Isolation resistor R = 50 to 500
R
in
C
+
−
in
Depending
C
fb
+
R
−
R
fb
upon
Output
C
the
L
Output
capacitor
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