AD8318 Просмотр технического описания (PDF) - Analog Devices
Номер в каталоге
Компоненты Описание
производитель
AD8318 Datasheet PDF : 24 Pages
| |||
AD8318
Data Sheet
PULSED RF
INPUT
+5V
AD8318
OUTPUT
+5V
1nF
VPOS
INHI
VOUT
52.3Ω AD8318
INLO
VSET
1nF
GND
40Ω
50Ω 50Ω
VREF = 1.8V–1.2V
50Ω
ADCMP563
100Ω
50Ω
100Ω
–5.2V
–5.2V
COMPARATOR
OUTPUT
Figure 39. AD8318 Operating with the High Speed ADCMP563 Comparator
RESPONSE TIME CAPABILITY
The AD8318 has a 10 ns rise/fall time capability (10% to 90%)
for input power switching between the noise floor and 0 dBm.
This capability enables RF burst measurements at repetition
rates beyond 45 MHz. In most measurement applications, the
AD8318 has an external capacitor connected to CLPF to provide
additional filtering for VOUT. However, using the CLPF capacitor
slows the response time as does stray capacitance on VOUT. For
an application requiring maximum RF burst detection capability,
the CLPF pin is left unconnected. In this case, the integration
function is provided by the 1.5 pF on-chip capacitor.
There is a 10 Ω internal resistor in series with the output driver.
Because of this resistor, it is necessary to add an external 40 Ω
back-terminating resistor in series with the output when driving
a 50 Ω load. Place the back-terminating resistor close to the
VOUT pin. The AD8318 has the drive capability to drive a 50 Ω
load at the end of a coaxial cable or transmission line when back
terminated (see Figure 39).
The circuit diagram in Figure 39 shows the AD8318 used with a
high speed comparator circuit. The 40 Ω series resistor at the
output of the AD8318 combines with an internal 10 Ω to
properly match to the 50 Ω input of the comparator.
PULSED RF
INPUT
–50dB
–30dB
–20dB
–10dB
AD8318
OUTPUT
COMPARATOR
OUTPUT
0
100
200
300
400
500
600
700
800
TIME (ns)
Figure 40. Pulse Response of AD8318 and Comparator for RF Pulses
of Varying Amplitudes
Figure 40 shows the response of the AD8318 and the comparator
for a 500 MHz pulsed sine wave of varying amplitudes. The
output level of the AD8318 is the signal strength of the input
signal. For applications where these RF bursts are very small,
the output level does not change by a large amount. Using a
comparator is beneficial in this case because it turns the output
of the log amp into a limiter-like signal. While this configuration
does result in the loss of received signal power level, it does
allow for presence-only detection of low power RF bursts.
OUTPUT FILTERING
For applications in which maximum video bandwidth and,
consequently, fast rise time are desired, it is essential that the
CLPF pin be left unconnected and free of any stray capacitance.
To reduce the nominal output video bandwidth of 45 MHz,
connect a ground-referenced capacitor (CFLT) to the CLPF pin,
as shown in Figure 41. Generally, this is done to reduce output
ripple (at twice the input frequency for a symmetric input
waveform, such as sinusoidal signals).
ILOG
3.13kΩ
AD8318
+4
VOUT
1.5pF
CLPF
CFLT
Figure 41. Lowering the Postdemodulation Bandwidth
CFLT is selected by
CFLT
1
π 3.13 kΩ VideoBandwidth
1.5 pF
(19)
Set the video bandwidth to a frequency equal to about one-
tenth the minimum input frequency. This ensures that the
output ripple of the demodulated log output, which is at twice
the input frequency, is well filtered.
Rev. D | Page 18 of 24
Share Link: 