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AD5539JQ Folha de dados(PDF) 8 Page - Analog Devices

Nome de Peças AD5539JQ
Descrição Electrónicos  Ultrahigh Frequency Operational Amplifier
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AD5539
REV. B
–8–
frequency. Both of these circuit techniques add a large amount
of leading phase shift at the crossover frequency, greatly aiding
stability.
The lag network (RLAG, CLAG) increases the feedback attenua-
tion, i.e., the amplifier operates at a higher noise gain, above
some frequency, typically one-tenth of the crossover frequency.
As an example, to achieve a noise gain of 5 at frequencies above
44 MHz, for the circuit of Figure 15, would require a network
of:
R
LAG =
R1
4R1/ R2
() –1
(3)
and . . .
C
LAG =
1
2
π R
LAG
44
× 106
()
(4)
It is worth noting that an RLAG resistor may be used alone, to in-
crease the noise gain above 5 at all frequencies. However, this
approach has the disadvantage of also increasing the dc offset
and low frequency noise errors by an amount equal to the in-
crease in gain, in this case, by a factor of 5.
SOME PRACTICAL CIRCUITS
The preceding general principles may now be applied to some
actual circuits.
A General Purpose Inverter Circuit
Figure 17 is a general purpose inverter circuit operating at a
gain of –2.
For this circuit, the total capacitance at the inverting input is ap-
proximately 3 pF; therefore, CLEAD from Equations 1 and 2
needs to be approximately 1.5 pF. As shown in Figure 17, a
small trimmer is used to optimize the frequency response of this
circuit. Without a lag compensation network, the noise gain of
the circuit is 3.0 and, as shown in Figure 18, the output ampli-
tude remains within
±0.5 dB to 170 MHz and the –3 dB band-
width is 200 MHz.
Figure 17. A General Purpose Inverter Circuit
Figure 18. Response of the (Figure 17) Inverter Circuit
without a Lag Compensation Network
A lag network (Figure 15) can be added to improve the response
of this circuit even further as shown in Figures 19 and 20. In al-
most all cases, it is imperative to make capacitor CLEAD adjust-
able; in some cases, CLAG must also be variable. Otherwise,
component and circuit capacitance variations will dominate cir-
cuit performance.
Figure 19. Response of the (Figure 17) Inverter Circuit
with an RLAG Compensation Network Employed
Figure 20. Response of the (Figure 17) Inverter Circuit
with an RLAG and a CLAG Compensation Network
Employed


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