4 power+ control screen, 1 load-level bar graph, Power+ control screen – MaxPower Corp Gamatronic Power+ M50-RM User Manual
Page 38: Load-level bar graph, Figure 14: power+ control screen
Gamatronic Electronic Industries Ltd.
POWER+ RM
50
K
VA, N.Am. Std. – User Guide, Release 1.9
22
4.4
POWER+ control screen
The POWER+ control screen is illustrated below. It is part of the control panel described on page
20.
How to read and understand the POWER+ control screen is described in detail in Chapter 7,
POWER+ Control Panel, beginning on page 70
The control screen provides menus and displays all aspects of the POWER+ systems input,
output and static switch as well as operational details.
The figure below shows the POWER+ 3-phase display.
LOAD LEVEL ---11:20:25---
L1: _____ 030A, 120V BATTERY: 432V
L2: ______ 024A, 120V UPS OK (ON)
L3: _______ 022A, 120V STSW OK (INV)
Load level
bar graph
Output
current
Output
voltage
Current
time
Battery
voltage
Status
indications
Figure 14: POWER+ control screen
This is how the control screen appears while the UPS is running normally.
4.4.1
Load-level bar graph
The load-level bar graph on the default screen display illustrates the approximate load on each
output phase of the UPS, as a percent of the maximum available output for each phase.
The load on each phase is represented by a series of from 1 to 10 dots. Each dot represents
about 10 % of the maximum available output per phase.
The dots can be either filled in (black) or clear (white). The number of black dots represents kW,
and the number of black and white dots together represents kVA.
For example, in Figure 14, the load on Line 2 is 30 % (3 black dots) of the maximum in terms of
kW, and 40 % (3 black dots plus 1 white dot) of the maximum in terms of kVA.
To compute the approximate value in kW or kVA of each dot:
1.
Compute the maximum load per phase =
10 kVA [or 8 kW]
3 phases
x (total # of modules - redundant # of modules)
2.
Dividing the maximum load per phase by 10 gives you the value of 1 dot.
Example: Assume a system with 10 modules, 2 of which are redundant.
10 kVA / 3 x (10-2) = 3.33 x 8 = maximum load per phase = 26.67 kVA.
Thus, 26.67 / 10 = 2.67 kVA is the approximate value of each dot.