Theory of operation, Chapter 2 – Bird Technologies 6151A User Manual

Chapter 2

Theory of Operation

Travelling Waves

The voltage and current present on a transmission line are expressed as the sum of
the voltages and currents of two waves; forward and reverse. Both waves are identical
except in the direction of travel. The Model 6151A measurement concept basically
samples the voltage and current only of the wave travelling from the source to load.

The forward wave travels (and its power flows) from source to the load, and has RF
voltage E and current I in phase, with E/I = Zo. Note that the component wave is
mathematically simple, and is completely described by a single figure for power;
Watts = E

/R = I

R = EI. Zo is the characteristic impedance of the detector circuit

and the coaxial termination, simplifying matters by being a reasonably pure resis-
tance of 50 ohms.

Coupling Circuit

The coupling circuit which samples the RF power from the standing waves is in the
Plug-In-Element. The circuitry of the element and its relationship to the other
components of the Termaline are illustrated in the schematic diagram in figure 2.
Energy will be produced in the coupling circuit of the element by both mutual
inductance and capacitance from the travelling waves within the line section. The
inductive currents will flow according to the direction of the travelling waves
producing them. The capacitive portion of these currents are independent of the
direction of the travelling waves.

The electrical values of the element circuits are carefully balanced and designed to
be sensitive to the current produced from only the forward wave. Also, due to the
practically non-reflective characteristics of the termination, almost no reflected wave
will exist.

RF Load Section

The RF load resistor of the Model 6151A Wattmeter consists of a cylindrical film
type resistor immersed in a dielectric coolant. The resistor, individually selected for
its resistive film accuracy, is enclosed in a special tapered housing which provides
a linear reduction in surge impedance directly proportional to the distance along the
resistor. This produces the uniform, practically reflectionless line termination over
the stated frequency range of the wattmeter. Refer to figure 3.

The coolant is chosen for its desirable dielectric properties and thermal charac-
teristics. Cooling of the load is accomplished by natural fluid and air convection. The

RF Coaxial Line

XMTR
or
LOAD

LOAD
or
XMTR

Directional Coupling

Detector Element

Diode

Meter

DC Contact

Bypass

DC
Connector

Figure 2

Coupler Circuit

Schematic Diagram

3