Total Connected Power
- Last UpdatedNov 21, 2023
- 2 minute read
This is the combination of Continuous, Intermittent and Standby absorbed power.
Total Conn Power
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Total Conn Power has a unit value of kW.
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Fed tag Diversity has a unit of ratio.
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Total Conn Power is the summation of the following Utilisations for each fed tag. The utilisation values are:
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Continuous
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Intermittent
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Standby
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The equation for Total Conn Power is:
Total Conn Power = ( Continuous Power + Intermittent Power + Standby Power)
Total Conn Reactive Power
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Total Conn Reactive Power has a unit value of kVAr.
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Total Conn Reactive Power can have a positive or negative value. If positive, the associated power factor unit = LAG and if negative, the associated power factor unit = LEAD.
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Fed tag Diversity has a unit of ratio.
The equation for Total Conn Reactive Power is:
Total Conn Reactive Power = ( Continuous Reactive Power + Intermittent Reactive Power + Standby Reactive Power)
Total Conn Apparent Power
Total Conn Apparent Power has a unit value of kVA.
The equation for Total Conn Apparent Power is:
Total Conn Apparent Power = √ (Total Conn Power2 + Total Conn Reactive Power2)
Total Conn Power Factor
Total Conn Power Factor is calculated using Total Conn Power and Total Conn Apparent Power.
Total Conn Power Factor has a unit value of ratio.
The equation for Total Conn Power Factor is:
Total Conn Power Factor = Total Conn Power / Total Conn Apparent
Power Equations for Total Conn Power Factor Unit attributes are:
If Total Conn Reactive Power value is positive then Total Conn Power Factor Unit = LAG
If Total Conn Reactive Power value is negative then Total Conn Power Factor Unit = LEAD
If Total Conn Reactive Power value = 0 then Total Conn Power Factor Unit = null
Total Conn Current
Total Conn Current is calculated using Connection Voltage data (Voltage Type, Project Voltage) and Total Conn Apparent Power.
Total Conn Current has a unit value of Amp.
Equations for Total Conn Current attributes are:
If Voltage Type = S then
Total Conn Current = (Total Conn Apparent Power * 1000) / Project Voltage
If Voltage Type = L then
Total Conn Current = (Total Conn Apparent Power * 1000) / Project Voltage
If Voltage Type = T, TN then
Total Conn Current = (Total Conn Apparent Power * 1000) / (Project Voltage * 3)
If Voltage Type = DC then
Total Conn Current = (Total Conn Power * 1000) / Project Voltage
Note:
In this case Total Conn Apparent Power = Total Conn Power.