AD5539 Ver la hoja de datos (PDF) - Analog Devices
Número de pieza
componentes Descripción
Fabricante
AD5539 Datasheet PDF : 16 Pages
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value of RLAG, the higher the noise gain). For example, with a
220 Ω RLAG and a 50 Ω source resistance, the noise gain will be
12.8, because the source resistance affects the noise gain.
Figures 31 and 32 show the small and large signal responses of
the circuit of Figure 29.
AD5539
Figure 31. The Small-Signal Pulse Response of the Gain
of 3 Follower Circuit with RLAG and CLEAD Compensation to
Pin 12; Vertical Scale: 50 mV/div; Horizontal Scale:
5 ns/div
Figure 33. A 20 dB Gain Video Amplifier for 75 Ω Systems
Figure 32. The Large-Signal Pulse Response of the Gain
of 3 Follower Circuit with RLAG and CLEAD Compensation to
Pin 12; Vertical Scale: 200 mV/div; Horizontal Scale:
5 ns/div
A Video Amplifier Circuit with 20 dB Gain (Terminated)
High gain applications (14 dB and up) require only a small lead
capacitance to obtain flat response. The 26 dB (20 dB termi-
nated) video amplifier circuit of Figure 33 has the response
shown in Figure 34 using only approximately 0.5-1 pF lead ca-
pacitance. Again, a small CLEAD can be connected, either to the
output or to Pin 12 with very little difference in response.
Figure 34. Response of the 20 dB Video Amplifier
In color video applications, the quality of differential gain and
differential phase response is very important. Figures 35 and 36
show a circuit and test setup to measure the AD5539’s response
to a modulated ramp signal (0-90 IRE p-p ramp, 40 IRE p-p
modulation, 4.4 MHz).
Figures 37 and 38 show the differential gain and phase response.
REV. B
–11–
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