Description:
Mi-Wave’s 922 Series E-Band Harmonic Mixers include optional LO-IF frequency diplexer and are used to downconvert millimeter wave signals using a Schottky barrier mixer diode. Measurements can be made by mixing the harmonic of the LO with the desired RF signal and observing the resulting IF.
Features
• Includes Optional LO-IF frequency diplexer
• Full Waveguide Band Coverage
• Extends the Useful Frequency Range of Spectrum Analyzer
• Broadband
Applications
• 5G & 6G
• Test & Measurement
• Mobile & Satellite Communications
• Radar Systems
• Weather & Earth Observation
*All data presented is collected from a sample lot.
* Actual data may vary unit to unit, slightly.
*All testing was performed under +25 °C case temperature.
*Consult factory to confirm if material, plating, size, shape, orientation and any electrical parameter is critical for the application as website information is for reference only.
*Millimeter Wave Products, Inc. reserves the right to change the information presented on website without notice as we continue to enhance the performance and design of our products.
Harmonic Mixers with Diplexer
Diplexer mixer port and mixer should be connected using the sma male to male adapter supplied or a short cable that is low in loss up to 12 GHz. Conversion loss will vary depending upon LO frequency and LO power level.
The harmonic mixer and subharmonic mixer are a type of frequency mixer, which is a circuit that changes one signal frequency to another. The ordinary mixer has two input signals and one output signal. If the two input signals are sinewaves at frequencies f1 and f2, then the output signal consists of frequency components at the sum f1+f2 and difference f1−f2 frequencies. In contrast, the harmonic and subharmonic mixers form sum and difference frequencies at a harmonic multiple of one of the inputs. The output signal then contains frequencies such as f1+kf2 and f1−kf2 where k is an integer.
Note: Our website contains just a few of the various types of mixers we create. Please contact us for more information.