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The RF Power Meter 2 (RFPM2) stores calibration constants in a file located in the (SPIFFS) file system in the microcontroller flash.

The file opened by default when RFPM2 starts is /default.cfg, the following is an example.

{
"name":"dBm",
"hostname":"rfpm201",
"vref":3.3,
"avg":3,
"slope":0.12991,
"intercept":-91.406,
"unit":"dBm",
"lcdfsd":16
}

The parameters above capture the most basic operation of RFPM2 as a power meter directly displaying dBm with bar graph in fixed 2dB increments to 16dBm FSD. These values serve as a basis for some other applications as they capture the basic intercept and slope of the AD8307 module in this instance.

Current probe calibration

Alternative config files can be loaded on the fly from the webserver interface, for example http://192.168.0.86/config?filename=/dBA.cfg will load the dBA config file for a certain current probe. Continue reading RFPM2 – calibration files

The RF Power Meter 2 (RFPM2) stores calibration constants in a file located in the (SPIFFS) file system in the microcontroller flash.

The WiFi credentials are stored separately at the default location in the flash.

Calibration constants

The AD8307 outputs a voltage from zero to about 3V for inputs from around -90 to +15dBm. The nominal output has a slope of 25mV/dB and intercept of -84dBm.

A starting point for RFPM2 calibration constants is intercept=-84 and slope=0.129.

Modules such as that used here may have pots to adjust the gain and offset of the output. Adjust the gain so that the maximum output voltage is a little lower than 3.3V (the maximum ADC input), say 2.7V.

The response of the AD8397 has some ripple in the transition between log amp stages. The log cell ranges are 14.3dB, so min error repeats every 14.3dB. My own practice is to calibrate at -62 and -5dBm input as they fall approximately on the mid line of the ripple trend (4 cycles of the error curve). Continue reading RFPM2 – calibration

This article describes a current probe for use with a power meter calibrated in dBm (eg RFPM1 and RFPM2).

For use with RFPM1 and RFPM2, both of which read to 16dBm max, it is convenient that the scaling factor for the probe is 0dBA/dBm, ie that those meters read dBA directly, implying a current range of -75-16dBA or 0.186mA-6.3A.

The probe comprises a ferrite cored transformer that is clamped or placed over the conductor(s) of interest, and uses a 10t secondary which has a low value resistive load, across which the power meter connects.

Above is a screen shot of a spreadsheet calculation of relevant design values. Continue reading RFPM2 – current probe

The RF Power Meter 2 is a development based on the utility of  RFPM1, but it shares nothing with the RFPM1, save using an AD8307 as the sense module.

Design criteria

The design criteria are:

• small, portable, battery powered;
• direct reading dB scale;
• flexibility for a range of adapters to measure power, current etc;
• local display including bar graph, time, and dB value;
• log measurements to a serial port of some kind;
• offer remote access for recent measurement log.

Design outline

The RFPM2 uses an AD8307 log power detector to obtain a analogue ‘DC’ voltage proportional to the log of the input power. The input port is 50Ω SMA, and accommodates from about -75dBm (the noise floor) to +15dBm.

The analogue output of the AD8307 is digitised on a microcontroller board, a NodeMCU which uses an ESP8266 processor with integral WiFi. The board also contains a CP210x USB to serial adapter for programming, power, and serial logging.

The display is deliberately generic, the units are dBm at the SMA input, but they could be dBA with a suitable current probe, or +xx dBV/m with a field strength sense antenna. Continue reading RF Power Meter 2 (RFPM2)