Measuring Temperature Compensating Thermistors with the TEGAM Model 1830A RF Power Meter
Application Note 217 explains the theory behind measuring power with a dual bridge Power Meter such as the Agilent . .
Tag: White Papers
100 mW Feedthrough Power Standard
Commercially available power meters and sensors have . .
Developing Complex Synchronized Test Programs Using Programmable Multi-Sync Output Pulses
The purpose of this application note is to provide a summary of the synchronous outputs function of TEGAM’s arbitrary . .
Output Standing Wave Ratio (SWR) Test Using the TEGAM 1830A RF Power Meter
When using a power meter that references to a 50 MHz, 1 mW output power reference it is important . .
Measuring Power MOSFET Characteristics
Curve tracers have generally been desiged for making measurements on bipolar transistors. While Power MOSFETs can betested satisfactorily on . .
Limitations of Using an AM Leveling Loop for Calibrating RF Power Sensors
Characterizing RF power sensors is commonly done using a direct comparison system which employs a resistive RF power splitter . .
Calculating a Calibration Factor
When using an RF Power Meter with an RF Power Sensor to make an RF Power Measurement the user . .
Considerations for Selecting a Power Amplifier
Application Note 302 is intended to assist people who are not power amplifier experts and tounderstand the basic parameters . .
Using Agilent Temperature Compensated Thermistor Mounts With TEGAM Type IV Power Meters
Thermistor-based RF power sensors are known by many names including thermistor mounts, thermistor sensors and bolometers. Thermistor sensors such . .