Brief:◉ 7 Different Compensation Programs ◉ Manual Compensation Option ◉ Easy to Install and Use with 20mm. 4 Digit Led Display ◉ Can Only Compensate Inductive Systems ◉ Automatic Step Measurement ◉ Step Drive, Release and Discharge Times are Adjustable ◉ Voltage and Current Harmonic Alarm Values Adjustable ◉ Over and Under Compensation Alarm Values Can Be Set ◉ Voltage, Harmonic Voltage/Current, Over and Under Compensation Alarm Output ◉ Voltage, Current and Frequency Values Can Be Monitored ◉ Active Power, Reactive Power and Apparent Power Values Can be Monitored ◉ Up to the 15th harmonic THD-I Can Be Monitored ◉ Up to the 15th harmonic THD-V Can Be Monitored ◉ Cosine Value Can Be Monitored ◉ Power Factor Value Can Be Monitored ◉ Capacitive/Active and Inductive/Active Ratios Can Be Monitored ◉ Automatic Fan Output ◉ Step Values Can Be Monitored ◉ Same Aging in Steps (In Certain Compensation Programs)
Brief:◉ 7 Different Compensation Programs ◉ Manual Compensation Option ◉ Easy to Install and Use with 20mm. 4 Digit Led Display ◉ Can Only Compensate Inductive Systems ◉ Automatic Step Measurement ◉ Step Drive, Release and Discharge Times are Adjustable ◉ Voltage and Current Harmonic Alarm Values Adjustable ◉ Over and Under Compensation Alarm Values Can Be Set ◉ Voltage, Harmonic Voltage/Current, Over and Under Compensation Alarm Output ◉ Voltage, Current and Frequency Values Can Be Monitored ◉ Active Power, Reactive Power and Apparent Power Values Can be Monitored ◉ Up to the 15th harmonic THD-I Can Be Monitored ◉ Up to the 15th harmonic THD-V Can Be Monitored ◉ Cosine Value Can Be Monitored ◉ Power Factor Value Can Be Monitored ◉ Capacitive/Active and Inductive/Active Ratios Can Be Monitored ◉ Automatic Fan Output ◉ Step Values Can Be Monitored ◉ Same Aging in Steps (In Certain Compensation Programs)
Brief:◉ 7 Different Compensation Programs ◉ Manual Compensation Option ◉ Easy to Install and Use with 20mm. 4 Digit Led Display ◉ Can Only Compensate Inductive Systems ◉ Automatic Step Measurement ◉ Step Drive, Release and Discharge Times are Adjustable ◉ Voltage and Current Harmonic Alarm Values Adjustable ◉ Over and Under Compensation Alarm Values Can Be Set ◉ Voltage, Harmonic Voltage/Current, Over and Under Compensation Alarm Output ◉ Voltage, Current and Frequency Values Can Be Monitored ◉ Active Power, Reactive Power and Apparent Power Values Can be Monitored ◉ Up to the 15th harmonic THD-I Can Be Monitored ◉ Up to the 15th harmonic THD-V Can Be Monitored ◉ Cosine Value Can Be Monitored ◉ Power Factor Value Can Be Monitored ◉ Capacitive/Active and Inductive/Active Ratios Can Be Monitored ◉ Automatic Fan Output ◉ Step Values Can Be Monitored ◉ Same Aging in Steps (In Certain Compensation Programs)
Brief:SOPR-SS1 Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:SOPR-SS1 Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:SOPR-SS1 Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief: Digital temperature control relays are designed to keep the temperature of the environments requiring temperature dependent control at the set value.
◉ Measuring and Control Scale: -30 °C – +150 °C. ◉ Microprocessor Based, PID Temperature Controller. ◉ Sensor Type: NTC. ◉ ON-OFF Control Form. ◉ OUT and ALARM Outputs. ◉ Selectable Heating and Cooling Function. ◉ Upper and Lower Limit for SET and ALARM Settings. ◉ Adjustable Separate Hysteresis for SET and ALARM Settings. ◉ Selectable Relative, Absolute or Band Alarm. ◉ ON-delay for OUT in Cooling Mode. ◉ Adjustable ON/OFF Timers for OUT Output in Case of Sensor Failure. ◉ Input “Offset” Feature. ◉ Excellent Linearity with °C/mV and °C/W Look-up Tables. ◉ Password Protection. ◉ High Accuracy. ◉ EEPROM Memory to Store Settings. ◉ Easy Connection with Plug-in Connectors.
Brief: Digital potentiometers are control devices that produce analog output between 0-10V values according to the set value.
◉ Microprocessor based ◉ Analog output: 0-10V ◉ Menu entry and analog output control via front keys ◉ Analog output control via digital inputs ◉ Adjustable scale upper and lower level ◉ Adjustable upper and lower limit for SET ◉ Separate function selection for the front keys and digital inputs to control analog output ◉ Password protection ◉ SECU setting for enable/disable SET adjust menu entry ◉ High accuracy ◉ EEPROM memory to store settings ◉ Easy connection with plug-in connectors
Brief: Digital potentiometers are control devices that produce analog output between 4-20mA values according to the set value.
◉ Microprocessor based ◉ Analog output: 0-10V ◉ Menu entry and analog output control via front keys ◉ Analog output control via digital inputs ◉ Adjustable scale upper and lower level ◉ Adjustable upper and lower limit for SET ◉ Separate function selection for the front keys and digital inputs to control analog output ◉ Password protection ◉ SECU setting for enable/disable SET adjust menu entry ◉ High accuracy ◉ EEPROM memory to store settings ◉ Easy connection with plug-in connectors
Brief: Digital temperature control relays are designed to keep the temperature of the environments requiring temperature dependent control at the set value.
◉ Measuring and Control Scale: -19.9 °C ~ +99.9 °C. ◉ Microprocessor Based, PID Temperature Controller. ◉ Sensor Type: NTC. ◉ ON-OFF Control Form. ◉ OUT and ALARM Outputs. ◉ Selectable Heating and Cooling Function. ◉ Upper and Lower Limit for SET and ALARM Settings. ◉ Adjustable Separate Hysteresis for SET and ALARM Settings. ◉ Selectable Relative, Absolute or Band Alarm. ◉ ON-delay for OUT in Cooling Mode. ◉ Adjustable ON/OFF Timers for OUT Output in Case of Sensor Failure. ◉ Input “Offset” Feature. ◉ Excellent Linearity with °C/mV and °C/W Look-up Tables. ◉ Password Protection. ◉ High Accuracy. ◉ EEPROM Memory to Store Settings. ◉ Easy Connection with Plug-in Connectors.
Brief: Hydrophore sequencing relays are designed to regulate the number of booster that should operate according to the pressure and to ensure that the booster operates in equal time.
Brief: Hydrophore sequencing relays are designed to regulate the number of booster that should operate according to the pressure and to ensure that the booster operates in equal time.
◉ 2x Pressure Switch Inputs ◉ 2x Hydrophore Outputs ◉ Hydrophore Working Time Adjustable (Off, 10min, 30min, 1hr, 3hr, 6hr and 12hr.)
Brief: Hydrophore sequencing relays are designed to regulate the number of booster that should operate according to the pressure and to ensure that the booster operates in equal time.
◉ 3x Pressure Switch Inputs ◉ 3x Hydrophore Outputs ◉ Hydrophore Working Time Adjustable (Off, 10min, 30min, 1hr, 3hr, 6hr and 12hr.)
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 100A ◉ Secondary Current : 5A ◉ Output Power : 1,5VA ◉ Busbar Dimension : 30x10mm.
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 125A ◉ Secondary Current : 5A ◉ Output Power : 2,5VA ◉ Busbar Dimension : 30x10mm.
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 150A ◉ Secondary Current : 5A ◉ Output Power : 2,5VA ◉ Busbar Dimension : 30x10mm.
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 200A ◉ Secondary Current : 5A ◉ Output Power : 5VA ◉ Busbar Dimension : 30x10mm.
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 250A ◉ Secondary Current : 5A ◉ Output Power : 5VA ◉ Busbar Dimension : 30x10mm.
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 300A ◉ Secondary Current : 5A ◉ Output Power : 5VA ◉ Busbar Dimension : 30x10mm.
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 600A ◉ Secondary Current : 5A ◉ Output Power : 7.5VA ◉ Busbar Dimension : 40x10mm.
