Power Mode definition

Power Mode. The inverter is connected to the grid and to the fuel cell. If the fuel cell fails, then power is switched to the grid. After fuel cell power returns, power is switched back to fuel cell system. Battery Charging Mode: If the batteries are low, a low-battery set point triggers the battery-charging mode from the fuel cell. -------------------------------------------------------------------------------- Confidential Page 2 Peak Load-Shaving Mode: The [*****] be programmed so that during a programmable time of the day (peak periods), power is delivered to the grid from the batteries. [*****] Specifications

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Power Mode. The inverter is connected to the grid and to the fuel cell. If the fuel cell fails, then power is switched to the grid. After fuel cell power returns, power is switched back to fuel cell system. Battery Charging Mode: If the batteries are low, a low-battery set point triggers the battery-charging mode from the fuel cell. Peak Load-Shaving Mode: The SW series inverter may be programmed so that during a programmable time of the day (peak periods), power is delivered to the grid from the batteries. SW Series II Specifications -------------------------------------------------------------------- Parameter Value -------------------------------------------------------------------- AC output voltage (RMS) 120/240 VAC -------------------------------------------------------------------- Nominal frequency 60 Hz -------------------------------------------------------------------- Continuous power @ 5,500 VA x 2 25(Degree)C -------------------------------------------------------------------- Efficiency (peak) 96% -------------------------------------------------------------------- All the SW series inverter/chargers include the following protective systems. These systems are used to protect the inverter/operator/utility personnel from hazardous conditions. The standard protection is as follows: SW Series Islanding Protection o Grid shorted : Normally, when the utility fails, the inverter momentarily tries to power the entire neighborhood. This protective system operates in less than four milliseconds.

Examples of Power Mode in a sentence

• Max Unit Class 2 - - 6 Class 3 - - 9 Class 4 - - 12 Class 5 - - 15 Class 6 - - 18 Low Power Mode Dissipation Plow - - 2 W Class 3 and 4 ICC - - 3.75 A Class 5 and 6 ICC - - 5.625 A Inrush Current5 Class 1 and 2 I-inrush - - 100 mA/usec Turn-off Current I-turnoff -100 - - mA/usec Inrush Current4 Class 3 and 4 I-inrush - - 200 mA/usec Turn-off Current I-turnoff -200 - - mA/usec Inrush Current4 Class 5 and 6 I-inrush - - 250 mA/usec 4 Maximum current per pin shall not exceed 500mA.

• Pin # Symbol Description I/O Logic ³H´ ³L´ Pull-up /down 96 TX_DIS (PRG_CNTL1) Transmitter Disable (Optionally configurable as Programmable Control after Reset1) I 3.3V LVCMOS Disable2 Enable2 Pull ±Up3 94 MOD_LOPWR Module Low Power Mode I 3.3V LVCMOS Low Power Enable Pull ±Up3 88 MOD_RSTn Module Reset, Active Low (invert) I 3.3V LVCMOS Enable Reset Pull ± Down4 1 When Programmable Control is configured, MSA Default is TX_DIS.

• Pin # Symbol Description I/O Logic “H” “L” Pull-up /down 96 TX_DIS (PRG_CNTL1) Transmitter Disable (Optionally configurable as Programmable Control after Reset1) I 3.3V LVCMOS Disable2 Enable2 Pull – Up3 94 MOD_LOPWR Module Low Power Mode I 3.3V LVCMOS Low Power Enable Pull – Up3 88 MOD_RSTn Module Reset, Active Low (invert) I 3.3V LVCMOS Enable Reset Pull – Down4 1 When Programmable Control is configured, MSA Default is TX_DIS.

• CTG may only utilize Low Power Mode for up to 30% of the time available in any Quarter.

• Table 1-1: Control Pins‌ Pin # Symbol Description I/O Logic “H” “L” Pull-up /down 11 TX_DIS (PRG_CNTL) Transmitter Disable (Optionally configurable as Programmable Control after Reset1) I 3.3V LVCMOS Disable2 Enable2 Pull – Up3 14 MOD_LOPWR Module Low Power Mode I 3.3V LVCMOS Low Power Enable Pull – Up3 16 MOD_RSTn Module Reset, Active Low (invert) I 3.3V LVCMOS Enable Reset Pull – Down4 1 When Programmable Control is configured, MSA Default is TXDIS.

• CTG may only utilize Low Power Mode for up to [***]% of the time available in any Quarter.

• The transmit power level for subframe "n" will be one of the two levels specified in the [CONFIDENTIAL TREATMENT] bit control words, (High Power Mode, Low Power Mode), described above based upon the state of bit(n), of the [CONFIDENTIAL TREATMENT] bit control word.

• Constant Reactive Power Mode In the constant reactive power mode, the net reactive power at the Point of Interconnection shall be automatically maintained at a specified value or setpoint.

• Pin # Symbol Description I/O Logic “H” “L” Pull-up /down 11 TX_DIS (PRG_CNTL) Transmitter Disable (Optionally configurable as Programmable Control after Reset1) I 3.3V LVCMOS Disable2 Enable2 Pull – Up3 14 MOD_LOPWR Module Low Power Mode I 3.3V LVCMOS Low Power Enable Pull – Up3 16 MOD_RSTn Module Reset, Active Low (invert) I 3.3V LVCMOS Enable Reset Pull – Down4 1 When Programmable Control is configured, MSA Default is TXDIS.