4 average power over an interval, 4 average power over an interval -11, Boonton 4540 series rf power meter – Boonton 4540 Peak Power Meter User Manual User Manual

Boonton 4540 Series RF Power Meter

Application Notes

6-11

12. The processor calculates the output values according to the following definitions:

a.) Pulse Width

Interval between mesial points

b.) Risetime

See Step 11

c.) Falltime

See Step 11

d.) Period

Cycle time between mesial points

e.)

Pulse Repetition Frequency

Reciprocal of Period

f.) Duty Cycle

Pulse Width

/

Period

g.) Off-time

(Period) - (Pulse Width)

h.) Peak Power

Maximum sample value (See Step 1)

i.) Pulse Power

Average power in the pulse (between the mesial points)

j.) Overshoot

(Peak Power) - (Top Amplitude)

k.) Average Power

See Step 13

l.) Top Amplitude

See Step 8

m.) Bottom Amplitude

See Step 7

n.) Skew

See Step 14

6.3.4 Average Power Over an Interval

13. The average power of the signal over a time interval is computed by:

a.) summing the sample powers in the interval

b.) dividing the sum by the number of samples

This process calculates Pulse Power, Average Power and the average power between markers.

Since each sample represents the power in a finite time interval, the endpoints are handled separately to avoid
spreading the interval by one-half pixel at each end of the interval (See Figure 6-7). For the interval in Figure 6-
7, the average power is given by: