Compare this operational amplifier K2-W to the more modern ADA4523-1; under what conditions would each be the best choice?

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Compare this operational amplifier K2-W to the more modern ADA4523-1; under what
conditions would each be the best choice?

K2-W Picture Given in submission 

ADA4523-1 Link: https://www.analog.com/en/products/ada4523-1.html

Gain:
SWANGEORGE A
PHILBRICK
RESEARCHES. INC..
127 CLARENDON STREET. BOSTON, MASS.
GAP/R
MODEL
K2-W
15,000 dc open loop
ELECTRICAL
Response:
2 μsec rise time with
bandwidth over 100 kc
when used as an inverter
Drift Rate:
£5
mv
per day referred
to the input
Differential Input Levels:
Voltage (Inputs together):
-50 to +50 volts
Current:
Base:
Either input less
than 10 amp.
(Insulation leakage
and grid current)
Impedance (either input):
Above 100 M (open grid)
Capacitance (Pin I
grounded):
7 μμf
Bias Required for Balance:
Adjustable from 0.9
to 1.7 volts
between Pin 1 and 2
(Pin 1 positive
with respect to Pin 2).
GENERAL
Temperature:
Max. allowable case temp.
(hot spot) +65°C(149°F)
Tube Complement:
2 12AX7A or 7025
Octal Plug
Casing:
Molded plastic, sealed unit
CHARACTERISTICS
OPERATIONAL
SYMBOL
IN
Output Capabilities:
Output Design
Voltage
Center
+50V
OV
-50V
Impedance:
Load
No load
Full load
(50K)
Output Current
(Steady State)
W
+2.0 ma
+1.8 ma
-2.4 ma
-1.8 ma -1.0 ma
Open loop-below 1K
CHARACTERISTICS
Max. Power Required
(worst case):
*6.3 vac or vdc
Min.
+1.0 ma
OUT
ma
Supply Output Output
Voltage +SOV -SOV
vdc
+300
+5.4 +4.1
-300 -4.7 -3.8
+300 +6.4 +3.1
<-300 -4.7 -3.8
6.3*
0.6
0.6
amp
amp
Installed: 3.0 oz.
Packed: 5.6 oz.
Dimensions: (Above socket)
13304" x 24" x 44" b
(max)
Weight:
GENERAL DESCRIPTION
The Model K2-W Operational Amplifier is a high gain
plug-in unit designed and constructed for use as a basic
subassembly. With these units, feedback computing de-
vices of all speeds can be assembled with a minimum of
external circuitry. A schematic diagram of the K2-W is
shown in figure 4.
The K2-W features balanced differential inputs for low
drift, high input impedance, low output impedance, high
performance, and economy of operation. Its range of
operation is from d-c to above 100 kc.
With appropriate feedback connections, the K2-W
maintains the two inputs at nearly equal potentials. The
residual offset can readily be biased out. (See BIASING
METHODS.)
Model K2-W
Operational Amplifier
APPLICATIONS
In general terms, the field of application of the K2-W is in
measurements and active transformations in the range from d-c to
over 100 kc. It is primarily intended for use in feedback opera-
tions, fidelity of output depending upon the choice of external
circuit components and arrangements.
The K2-W is especially useful for the construction of electronic
analog computor circuits, such as the GAP/R Analog Components,
and for the assembly of operating control circuitry. With appro-
priate external circuitry, it will readily perform such feedback
operations as addition, subtraction, integration, differentiation,
multiplication, division, inversion, impedance-conversion, and the
injection of current.
A few typical examples of fundamental applications are illus-
trated in figure 2.
SAIN
-6
-Ge
R
fe-eldt
lel
WIDE-RANGE AMPLIFIER
The usual feedback and feed-for-
ward resistors are here embodied
in a single potentiometer. A voltage
gain of minus one is given by the
central setting.
VOLTAGE REPRODUCER
This exceedingly simple arrange-
ment supplies the need for a "fol-
lower without attenuation or
distortion, and with an output im-
pedance well below one ohm.
ADDER-SUBTRACTOR
A number of simpler and possibly
more familiar circuits are special
cases of this one. By using unequal
resistors, a more general form of
linear combination is made possible.
SUBTRACTING INTEGRATOR
A positive or negative integral
may be obtained by grounding one
input. Unless an integrator is in a
stable loop it must be subjected to
some sort of "clamping".
STABLE DIFFERENTIATOR
The smaller shunt capacitor will
prevent ringing or singing, and in-
troduces very little error. In certain
difficult cases one might also add a
small resistor in series with the in-
put capacitor.
ABSOLUTE-VALUE CIRCUIT
Reversing both diodes will reverse
the sign of the output. To the ac
power engineer is simply a "full
wave rectifier", but as a computing
device it is useful in a much wider
sense.
Figure 2. Typical Applications of the K2-W
Operational Amplifier
The values of the various resistance and capacitance elements
shown in the above connections may be selected over an ex-
tremely wide range. It is suggested that resistors be kept between
50 K and 2 megohms. As for capacitance, a realistic range would
be from 100 μuf to 10 μf.
Transcribed Image Text:Gain: SWANGEORGE A PHILBRICK RESEARCHES. INC.. 127 CLARENDON STREET. BOSTON, MASS. GAP/R MODEL K2-W 15,000 dc open loop ELECTRICAL Response: 2 μsec rise time with bandwidth over 100 kc when used as an inverter Drift Rate: £5 mv per day referred to the input Differential Input Levels: Voltage (Inputs together): -50 to +50 volts Current: Base: Either input less than 10 amp. (Insulation leakage and grid current) Impedance (either input): Above 100 M (open grid) Capacitance (Pin I grounded): 7 μμf Bias Required for Balance: Adjustable from 0.9 to 1.7 volts between Pin 1 and 2 (Pin 1 positive with respect to Pin 2). GENERAL Temperature: Max. allowable case temp. (hot spot) +65°C(149°F) Tube Complement: 2 12AX7A or 7025 Octal Plug Casing: Molded plastic, sealed unit CHARACTERISTICS OPERATIONAL SYMBOL IN Output Capabilities: Output Design Voltage Center +50V OV -50V Impedance: Load No load Full load (50K) Output Current (Steady State) W +2.0 ma +1.8 ma -2.4 ma -1.8 ma -1.0 ma Open loop-below 1K CHARACTERISTICS Max. Power Required (worst case): *6.3 vac or vdc Min. +1.0 ma OUT ma Supply Output Output Voltage +SOV -SOV vdc +300 +5.4 +4.1 -300 -4.7 -3.8 +300 +6.4 +3.1 <-300 -4.7 -3.8 6.3* 0.6 0.6 amp amp Installed: 3.0 oz. Packed: 5.6 oz. Dimensions: (Above socket) 13304" x 24" x 44" b (max) Weight: GENERAL DESCRIPTION The Model K2-W Operational Amplifier is a high gain plug-in unit designed and constructed for use as a basic subassembly. With these units, feedback computing de- vices of all speeds can be assembled with a minimum of external circuitry. A schematic diagram of the K2-W is shown in figure 4. The K2-W features balanced differential inputs for low drift, high input impedance, low output impedance, high performance, and economy of operation. Its range of operation is from d-c to above 100 kc. With appropriate feedback connections, the K2-W maintains the two inputs at nearly equal potentials. The residual offset can readily be biased out. (See BIASING METHODS.) Model K2-W Operational Amplifier APPLICATIONS In general terms, the field of application of the K2-W is in measurements and active transformations in the range from d-c to over 100 kc. It is primarily intended for use in feedback opera- tions, fidelity of output depending upon the choice of external circuit components and arrangements. The K2-W is especially useful for the construction of electronic analog computor circuits, such as the GAP/R Analog Components, and for the assembly of operating control circuitry. With appro- priate external circuitry, it will readily perform such feedback operations as addition, subtraction, integration, differentiation, multiplication, division, inversion, impedance-conversion, and the injection of current. A few typical examples of fundamental applications are illus- trated in figure 2. SAIN -6 -Ge R fe-eldt lel WIDE-RANGE AMPLIFIER The usual feedback and feed-for- ward resistors are here embodied in a single potentiometer. A voltage gain of minus one is given by the central setting. VOLTAGE REPRODUCER This exceedingly simple arrange- ment supplies the need for a "fol- lower without attenuation or distortion, and with an output im- pedance well below one ohm. ADDER-SUBTRACTOR A number of simpler and possibly more familiar circuits are special cases of this one. By using unequal resistors, a more general form of linear combination is made possible. SUBTRACTING INTEGRATOR A positive or negative integral may be obtained by grounding one input. Unless an integrator is in a stable loop it must be subjected to some sort of "clamping". STABLE DIFFERENTIATOR The smaller shunt capacitor will prevent ringing or singing, and in- troduces very little error. In certain difficult cases one might also add a small resistor in series with the in- put capacitor. ABSOLUTE-VALUE CIRCUIT Reversing both diodes will reverse the sign of the output. To the ac power engineer is simply a "full wave rectifier", but as a computing device it is useful in a much wider sense. Figure 2. Typical Applications of the K2-W Operational Amplifier The values of the various resistance and capacitance elements shown in the above connections may be selected over an ex- tremely wide range. It is suggested that resistors be kept between 50 K and 2 megohms. As for capacitance, a realistic range would be from 100 μuf to 10 μf.
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