Theory of operation – Bird Technologies 8255 User Manual

Chapter 2

Theory of Operation

These loads consist essentially of a carbon film resistor

on a ceramic substrate immersed in a dielectric coolant.

The resistor, individually selected for its accuracy, is en-

closed in a special exponentially tapered housing. This

provides a linear reduction in surge impedance directly

proportional to the distance along the resistor. When sur-

rounded by the dielectric coolant, the characteristic im-

pedance is therefore: 50 ohms at the front (connector

end), 25 ohms at the mid-point (to compensate for the re-

sistance already passed over), and zero ohms at the rear

where the resistor joins the housing, forming the return

conductor of the coaxial circuit. This produces a uniform,

practically reflectionless line termination over the stated

frequencies of the load resistor.

Cooling

The dielectric coolant was chosen for its desirable dielec-

tric and thermal characteristics. Cooling of the load is ac-

complished by natural fluid and air convection currents.

The 0.8 gallons (3.03 liters) of dielectric coolant carries

the electrically generated heat from the resistor to the

walls of the cylindrical cooling tank. This tank is encased

in a set of radiating fins, constructed from heavy gauge

aluminum alloy, and firmly pressed into the cylinder. the

heat from the dielectric oil is transferred to the surround-

ing air by the fins.

Expansion of the coolant, caused by the rise in its tem-

perature, is allowed for by the use of an expansion tank

located on the upper rear of the load. The expansion tank

is equipped with a spring loaded vent for relief of the in-

ternal pressure.

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