|
Frequency Discriminator
translates incoming RF/Microwave signals into a monotonic
output voltage that is proportional to the RF/Microwave
frequency. Accurate frequency information can then be derived
from the Output Voltage because a Delay Line Frequency
Discriminator takes the Input RF/Microwave Signal and produces
two RF/Microwave Signal components that have a phase shift
that is proportional to the original input frequency at fixed
power input levels. By summing the two signal components
together and then using detection techniques produces a
detected Output Voltage that is frequency dependant. Therefore
as the input RF/Microwave Signal frequency is varied so does
the output voltage of the Delay Line Frequency Discriminator.
Specifications:
 Frequency Range |
6.0 to 18.0 GHz |
|
VSWR Input |
2.0:1 Maximum, 1.5:1 Typical |
|
Operating Input Power |
+10 dBm Nominal, +/-0.1 dBm |
|
Impedance |
100 ohms |
|
Log Video Output Rise Time |
20 nS |
|
Log Video Output Slope |
50 mV/GHz |
|
Frequency Discriminator
Accuracy |
+/-200 MHz |
|
RF Input Power, Survival |
15 dBm |
|
Power Plus |
+15 VDC @ +75mA, +50 mA
Typical |
|
Power Minus |
-15 VDC @ -75mA, -50mA Typical |
|
Size |
2.00"x 1.80" x 0.50" |
|
Weight |
<4 oz. |
Available Options:
Please contact the factory for
additional options.
Environmental Ratings:
| Our standard
environmental ratings are as follows, for specific
requirements please contact us... |
|
Temperature: |
-55
ºC to +85 ºC Operating |
| -65
ºC to +125 ºC Non-Operating |
| Humidity: |
MIL-STD-202F,
Method 103B Cond. B |
| Shock: |
MIL-STD-202F,
Method 213B Cond. B |
| Vibration: |
MIL-STD-202F,
Method 204D Cond. B |
| Altitude: |
MIL-STD-202F,
Method 105C Cond. B |
|
Temperature Cycle: |
MIL-STD-202F,
Method 107D Cond. A |
|
Outline Drawing:
Click
here to see an outline drawing of FD-0518-10
Test Report:
Test Data on
FD-0518-10
Further Information:
Click here
to view our short form page on our Frequency Discriminators
|
Planar Monolithics Industries,
Inc.
