MMIC Cavity Oscillators

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Manufacturers
    • Aeroflex/kdi
    • Dover Technologies
Oscillator Type
    • MECHANICAL TUNED CAVITY OSCILLATOR
Mounting Feature
    • CHASSIS MOUNT
Frequency Stability
    • .05 %
    • 1000 %
    • 2000 %
Maximum Supply Voltage
    • -20 V
Maximum Supply Current
    • 120 mA
    • 150 mA
    • 500 mA
Output Power
    • 17 dBm
    • 20 dBm
    • 7 dBm
Nominal Supply Voltage
    • -20 V
    • 15 V
Phase Noise
    • -52 dBc/Hz
    • 85 dBc/Hz
Power Variation
    • 1 dB
    • 1.5 dB
    • 2 dB
Physical Dimension
    • 106.68mm x 31.75mm x 50.8mm
    • 152.908mm x 31.75mm x 34.798mm
    • 205.486mm x 31.75mm x 34.798mm
    • 44.45mm x 44.45mm x 15.24mm
Minimum Supply Voltage
    • -12 V
    • -15 V
Maximum Operating Temperature
    • 65 Cel
    • 85 Cel
Minimum Operating Temperature
    • -30 Cel
    • -55 Cel
Offset Frequency
    • 1 kHz
    • 10 kHz
Maximum Harmonics Level
    • -20 dBc
    • -25 dBc
Additional Features
    • TEMPERATURE STABILITY 3 PERCENT WITH AFC IS POSSIBLE
Minimum Operating Frequency
    • 1000 MHz
    • 2000 MHz
    • 3200 MHz
    • 4400 MHz
    • 500 MHz
Maximum Operating Frequency
    • 2000 MHz
    • 2500 MHz
    • 3200 MHz
    • 4000 MHz
    • 5000 MHz
    • 5100 MHz
Reset All
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 Offset Frequency Maximum Harmonics Level Additional Features Minimum Operating Frequency Maximum Operating Frequency

CC-45

Aeroflex/kdi

MECHANICAL TUNED CAVITY OSCILLATOR

1000 %

150 mA

17 dBm

-20 V

2 dB

65 Cel

-30 Cel

-25 dBc

4400 MHz

5100 MHz

C-9209

Dover Technologies

MECHANICAL TUNED CAVITY OSCILLATOR

CHASSIS MOUNT

.05 %

500 mA

7 dBm

15 V

-52 dBc/Hz

1 dB

106.68mm x 31.75mm x 50.8mm

65 Cel

-30 Cel

1 kHz

500 MHz

2500 MHz

HFE-4-FREQ

Aeroflex/kdi

MECHANICAL TUNED CAVITY OSCILLATOR

CHASSIS MOUNT

2000 %

-20 V

17 dBm

85 dBc/Hz

1.5 dB

44.45mm x 44.45mm x 15.24mm

-15 V

85 Cel

-55 Cel

10 kHz

-20 dBc

TEMPERATURE STABILITY 3 PERCENT WITH AFC IS POSSIBLE

2000 MHz

3200 MHz

CC-12

Aeroflex/kdi

MECHANICAL TUNED CAVITY OSCILLATOR

CHASSIS MOUNT

1000 %

150 mA

20 dBm

-20 V

2 dB

205.486mm x 31.75mm x 34.798mm

65 Cel

-30 Cel

-25 dBc

1000 MHz

2000 MHz

CC-24

Aeroflex/kdi

MECHANICAL TUNED CAVITY OSCILLATOR

CHASSIS MOUNT

1000 %

150 mA

17 dBm

-20 V

2 dB

152.908mm x 31.75mm x 34.798mm

65 Cel

-30 Cel

-25 dBc

2000 MHz

4000 MHz

HFE-6-FREQ

Aeroflex/kdi

HFE-5-FREQ

Aeroflex/kdi

MECHANICAL TUNED CAVITY OSCILLATOR

CHASSIS MOUNT

2000 %

-20 V

120 mA

17 dBm

85 dBc/Hz

1.5 dB

44.45mm x 44.45mm x 15.24mm

-12 V

85 Cel

-55 Cel

10 kHz

-20 dBc

TEMPERATURE STABILITY 3 PERCENT WITH AFC IS POSSIBLE

3200 MHz

5000 MHz
MMIC Cavity Oscillators

MMIC (Monolithic Microwave Integrated Circuit) cavity oscillators are electronic devices that generate microwave signals for use in a variety of applications, such as radar systems, communication systems, and test and measurement equipment. They consist of a resonant cavity, which is a structure that is designed to enhance the oscillation of the microwave signal, and an amplifier, which amplifies the signal to a usable level.

The MMIC cavity oscillator works by using the resonant cavity to create a standing wave at a specific frequency. This standing wave is amplified by the amplifier, generating a stable and reliable microwave signal output. The cavity can be made using a variety of materials, including metal, ceramic, or quartz, depending on the specific requirements of the application.

One of the advantages of MMIC cavity oscillators is their ability to generate signals at high frequencies, up to hundreds of gigahertz. This makes them suitable for use in applications that require high-frequency signals, such as in radar systems.

Another advantage of MMIC cavity oscillators is their small form factor and low power consumption. They consume less power and require less space than other types of microwave signal generators, making them a popular choice in portable devices such as smartphones, laptops, and tablets.