5 % Fixed DRO & CRO Oscillators 6
| Part | RoHS | Manufacturer | Oscillator Type | Mounting Feature | Frequency Stability | Maximum Supply Voltage | Maximum Supply Current | Output Power | Nominal Supply Voltage | Phase Noise | Power Variation | Physical Dimension | Minimum Supply Voltage | Maximum Operating Temperature | Minimum Operating Temperature | Nominal Operating Frequency | Offset Frequency | Manufacturer Series | Maximum Harmonics Level | Additional Features | Minimum Operating Frequency | Maximum Operating Frequency |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
L-3 Narda-miteq |
FIXED CRO OSCILLATOR |
CHASSIS MOUNT |
5 % |
28 V |
250 mA |
13 dBm |
1.5 dB |
105.41mm x 54.61mm x 35.306mm |
15 V |
75 Cel |
-25 Cel |
LP |
-20 dBc |
800 MHz |
2200 MHz |
|||||||
|
L-3 Narda-miteq |
FIXED CRO OSCILLATOR |
CHASSIS MOUNT |
5 % |
250 mA |
13 dBm |
28 V |
1.5 dB |
105.41mm x 54.61mm x 35.306mm |
75 Cel |
-25 Cel |
LP |
-20 dBc |
800 MHz |
2200 MHz |
||||||||
|
L-3 Narda-miteq |
FIXED CRO OSCILLATOR |
CHASSIS MOUNT |
5 % |
250 mA |
13 dBm |
15 V |
1.5 dB |
105.41mm x 54.61mm x 35.306mm |
75 Cel |
-25 Cel |
LP |
-20 dBc |
800 MHz |
2200 MHz |
||||||||
|
L-3 Narda-miteq |
FIXED CRO OSCILLATOR |
CHASSIS MOUNT |
5 % |
250 mA |
13 dBm |
15 V |
1.5 dB |
105.41mm x 54.61mm x 35.306mm |
75 Cel |
-25 Cel |
LP |
-20 dBc |
800 MHz |
2200 MHz |
||||||||
|
L-3 Narda-miteq |
FIXED CRO OSCILLATOR |
CHASSIS MOUNT |
5 % |
250 mA |
13 dBm |
28 V |
1.5 dB |
105.41mm x 54.61mm x 35.306mm |
75 Cel |
-25 Cel |
LP |
-20 dBc |
800 MHz |
2200 MHz |
||||||||
|
L-3 Narda-miteq |
FIXED CRO OSCILLATOR |
CHASSIS MOUNT |
5 % |
28 V |
250 mA |
13 dBm |
1.5 dB |
105.41mm x 54.61mm x 35.306mm |
15 V |
75 Cel |
-25 Cel |
LP |
-20 dBc |
800 MHz |
2200 MHz |
Fixed DRO (Dielectric Resonator Oscillator) and CRO (Crystal Resonator Oscillator) oscillators are electronic devices that generate stable clock signals for use in a variety of applications, such as communication systems, navigation systems, and measurement instruments. They use different types of resonators to generate a stable frequency signal.
DRO oscillators use a dielectric resonator, which is a type of resonator that consists of a small piece of ceramic material with a high dielectric constant. When an electric field is applied to the resonator, it generates a stable oscillation frequency. DRO oscillators offer high frequency stability and low phase noise, making them suitable for use in microwave and millimeter-wave communication systems.
CRO oscillators use a quartz crystal resonator, which is a type of resonator that consists of a small piece of quartz crystal with a precisely cut shape. When an electric field is applied to the resonator, it generates a stable oscillation frequency. CRO oscillators offer high frequency stability and low phase noise, making them suitable for use in high-precision timing applications.