X Band Microwave Power Meter

X Band Microwave Power Meter .
Features:

• Low Cost for educational use with microwave bench
• 8.2 to 12.4GHz X band measurement range
• 0.1dB resolution
• Digital Display on backlit LCD with bargraph
• Wide range from +20dBm(100mW) to -30dBm(1uW)
• dB relative mode
• Measurement in dBm, mW, dBr, dBW, dBuW
• Shock/Drop resistant Thermistor Sensor
• In built X band source for scalar network analysis

• Power Meter Frequency range: 8.2GHz to 12.4 Ghz
• Display: 16X2 Backlit LCD
• Power: +20dBm to -30dBm
• Measurement: dBm, dBr, mW, dBW, dBuW With Digital Display
• Resolution: 0.1, 0.5 and 1dB
• Offset: For relative measurement
• Level Indicator: Digital display and Bar Graph
• Power: 100-240VAC, 47-63 Hz
• Power Sensor Frequency Range: 8.2GHz to 12.4 GHz
• Power range: +20dBm to -30dBm
• Compensation: Temperature compensated thermistor
• Cable: Sensor/meter cable 3m
• Microwave Source Frequency: 10.3 Ghz typical
• Power level: 1mW typical

• To learn different ways of measuring power
• To evaluate the accuracy of the power measurements
• To plot the power output of Gunn/Klystron Oscillator with supply voltage
• To plot the power output of a Gunn/Klystron Oscillator with frequency
• Study of square law modulation and square law characteristics of a crystal detector
• To measure PIN modulator insertion loss & modulation depth
• To measure the accuracy of SWR meter reading
• To calculate the relationship between Q and bandwidth of resonance cavity
• To measure the insertion loss of the waveguide
• To measure the insertion loss in the main line of a directional coupler
• To measure the coupling factor of a directional coupler
• To measure the isolation & directivity of a directional coupler
• To measure the return loss of a unknown load
• To measure the decoupling between H and E arms of magic Tee
• To measure the insertion loss of the hybrid Tee
• To measure the return loss of H arm in a magic Tee
• To measure and plot the attenuation characteristics of variable attenuator
• To measure the attenuation of a fixed attenuator
• To measure the input SWR of attenuator
• To measure the gain of a pyramidal horn
• To plot the E and H Plane polar pattern of a antenna and compute the beamwidth
• To measure the coupling coefficient of a waveguide E & H Plane Tee
• To measure the isolation of a waveguide E & H plane Tee
• To measure the input VSWR of a E & H plane Tee
• To study the operation of ferrite circulator and measure its insertion loss
• To measure isolation of a ferrite circulator
• To measure the cross coupling of a circulator
• To study the variation of characteristics of ferrite circulator with frequency