User’s Manual UDP6900 Series Digital Control Power Supply
Instruments.uni-trend.com 21 / 44
5. Step Falling Wave
The maximum and minimum of the wave determines the amplitude of the step falling wave.
Total count (denoted as N) will divide the amplitude to N-1 of step.
The time interval (maximum 9999.9) represents the duration of each step. The time interval and the total
count determines the wave period.
6. Staircase Wave
The maximum and minimum of the wave determines the amplitude of the staircase wave.
Total count (denoted as N) will divide the amplitude to N-1 of step. When N is odd number, the step rising is
(N-1/2, the step falling is (N-1/2+1; when N is even number, the step rising is N/2, the step falling is (N/2.
The time interval (maximum 9999.9) represents the duration of each step. The time interval and the total
count determines the wave period.
7. Exponential Rising Wave
The maximum (denoted as M) and the minimum (denoted as N) of the wave determines the amplitude of the
wave.
The total count (denoted as P) and the time interval (maximum 9999.9) determines the wave period.
The rise index (denoted as R) is the independent variable of the rise function, which is set as an integer from
0 to 10 in this system to determine how fast or slow the waveform rises, and the base is Euler's number (e=
2.718281828);
The function of the exponential rising wave is defined as:
(x is the independent variable and can be taken as an integer from 0 to P-1.)
To Next Page
Loading...
