active current

active current

[′ak·tiv ′kə·rənt]
(electricity)
The component of an electric current in a branch of an alternating-current circuit that is in phase with the voltage. Also known as watt current.
References in periodicals archive ?
- Some designs offer active current sharing and an OR'ing diode for redundancy
Table 1: Comparison of non-volatile memory technologies FRAM EEPROM Density 4 Kbit - 8 1 Kbit - 2 Mbit Mbit SPI Speed 108 MHz 20 MHz Byte Write Yes No Write Endurance 1E+14 1E+6 (Cycles) Active current 3.2 mA @ 50 2 mA @ 5 MHz MHz Standby current 2.15 uA 0.08 uA Hibernate 0,10 uA N/A Data Retention 151 years @ 65[degrees]C 100 years @ 55[degrees]C FLASH MRAM Density 512 Kbit - 1 128 Kbit - 4 Gbit Mbit SPI Speed 133 MHz 104 MHz Byte Write No Yes Write Endurance 1E+5 Unlimited (Cycles) Active current 40 mA @ 50 42 mA @ 40 MHz MHz Standby current 20 uA 3 mA Hibernate N/A N/A Data Retention 20 years @ 85[degrees]C 20 years @ 85[degrees]C Table 2: Energy Consumption in Different Practical Scenarios 64 KB Device 2 MB Device Function F-RAM EEPROM F-RAM F-RAM FM25CL64B AT25640B vs.
In the sinusoidal mode of the three-phase voltage source, the active current vector also consists of sinusoidal temporal functions, so it is expedient [5] to introduce three-dimensional complex vectors (3Dphasors) of voltage and current in the same way [5].
Where 9; phase difference between [i.sub.st] and [v.sub.pcc], [i.sub.std]; active current used for charging / discharging status and [i.sub.stq]; link inductance and reactive current flowing to [Z.sub.st].
"This is the best time to travel," said a customer who won QR10,000 To qualify for the 'Save & Win Campaign', Commercial Bank customers need to have an active Current or Savings account (or both) with a minimum average balance of QR10,000 each month.
In discontinuous it is shown S3R cell waveforms without active current limitation and in continuous S3R cell waveforms with active current limitation.
The PI controller for the DC-bus voltage sets the active current amplitude of the SAF inverter to regulate the DC-bus voltage based on its reference value covering the inverter losses.
As shown in Figure 3, the source reference active current [i.sub.rd] is equal to the sum of load's active current [i.sup.*.sub.Ld] and DC-link voltage regulating current [i.sup.*.sub.dc]; the reference reactive current [i.sub.rq] and zero sequence current are equal to zero.
In this case, active current [J.sub.c] reaches its maximum at the finite frequency when the condition [epsilon] - [[epsilon].sub.R] [approximately equal to] h[omega] > [GAMMA] is complied with, that is, beyond the area of the maximum NDC.
Historically, the current of the system was divided into two parts: These are; active current, which transports the net energy from source to the load, and reactive current that is the remaining current component when the active part is subtracted from the total current.

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