- Power Management Center
- Control & Relay
- DG Synchronization
- APFC
- Double Busbar
- Feeder Pillar
- Motor Control Center
- Power Control Center
- Distribution Boards
We are engaged in offering a wide range of Power Management Center which is available in the fixed configuration. These are provided with the centralized monitoring SCADA and have 2B form of separation. Our solution are available with the audio visual annunciation and are known for their optimum quality and cost effective prices.
Specifications
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ApplicationSystem Control from Remote Location
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Reference StandardIEC:61439-1,2009, IS:8623
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Operational Voltage24/ 110/ 230V AC/DC, 415V AC
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Degree of ProtectionIP-52
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Form of Separation2b
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ConfigurationFix Type
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Centralized MonitoringSCADA
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DisplayAudio Visual/ Mimic with LED Indicator/Semaphore
Salient Features of technology used by hoc_age
• Dead front
• Scan be Simplex or Duplex type
• For Simplex type, doors are provided at rear to attend to the equipment/wiring mounted in the dead front & terminated terminals inside
• For Duplex type CRP, the panels are walk-in type with doors at side and equipment/wiring mounted on both the fixed fronts.
• Panels are provided with internal illumination for facilitating maintenance
• CRPs are provided with mimic representing the SLD of the system with indication by either semaphore or LEDs for showing the status of Equipment
Specifications
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ApplicationProtection & Control of Sub Station
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Reference StandardIEC:61439-1,2009, IS:8623
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Operational VoltageUp to 132KV AC/DC
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Degree of ProtectionIP-54
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Max. Temp. Rise40oC over ambient 45oC
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Form of Separation2b
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Construction TypeSimplex/ Duplex
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DisplayAudio Visual/ Mimic with LED Indicator/Semaphore
Salient Features of technology used by hoc_age
• We offer a wide range of Dief Relay based DG Synchronization Panel which is available in the PLC Configuration with DIEF Make.
• Dief controller provide synchronizing among DG sets, GG sets, Emergency and Grid suplies.
• Dief controller can provide synchronization through bus coupler also.
• These are easy to install & operate and require less maintenance. Our products are provided with Rated Service Voltage & Frequency of 415 V & 50 Hz respectively.
Specifications
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ApplicationSynchronization of DG Power
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Reference StandardIEC:61439-1,2009, IS:8623
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Operational Voltage110/ 230V AC/DC, 415V AC
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Control Voltage24V/ 110V/ 220V AC/DC
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Phase/ Frequency3 Phase/ 50 Hz
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Degree of ProtectionIP-54/ IP-55
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Form of Separation2b
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System AutomationDEIF Controller
For optimum utilization of available power the reactive power consumption should be reduced or nullified i.e. power factor should be unity, hence, most of the Power Distribution companies have policy to penalize the industrial and commercial consumers for not maintaining power factor above certain limit (generally above 0.90 value). However, due to reactive power drawn by capacitive or inductive load in the consumer premises the power factor is either lagging or leading, thus to maintain it within limit i.e. for compensating or supplying required KVAR, the capacitors (in case of lagging PF) or reactors ( in case of leading PF) are connected across the system. For stable load the fixed KVAR compensation is required , while for variable load the KVAR requirement also changes as per the load duration cycle, thus in such case the Automatic Power Factor control Panel is installed
What is power factor?
Power factor is the relationship between working (active) power and total power consumed (apparent power). Essentially, power factor is a measurement of how effectively electrical power is being used. A higher power factor represents a more effective use of electrical power. A distribution system’s operating power is composed of two parts: Active (working) power and reactive (non-working magnetizing) power. The ACTIVE power per-forms the useful work – the REACTIVE power does not. Reactive power's only function is to develop magnetic
fields required by inductive loads.
Why improve low power factor?
Low power factor means poor electrical efficiency. The lower the power factor, the higher the apparent power drawn from the distribution network.
When low power factor is not corrected, the utility must provide the nonworking reactive power in addition to the working active power. This results in the use of larger generators, transformers, bus bars, wires, and other distribution system devices that otherwise would not be necessary.
As the utility’s capital expenditures and operating costs are going to be higher, they are going to pass these higher expenses to industrial users in the form of power factor penalties and higher utility bills.
Specifications
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System415V, 3 phase, 3 or 4 wire, 50Hz
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Rated Insulation Voltageupto 1000V
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Degree of Protectionupto IP 52
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Forms of Separationupto 3B
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Power Qr5.0 to 33 KVAR
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Rated Voltage ( Capacitors )230 to 525 V
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SwitchingConventional / Thyrister
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CoolingNatural / Forced
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PF Controllerupto 20 stages (RS 485 on request)
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De-tuningConventional or 5.67%, 7%, 14%
Salient Features of technology used by hoc_age
• Multitier compartmentalized Circuit Breaker Panel
• Load Distribution through ACBs and MCCBs
• Arrangement for receiving / distributing power through Power Cable / Bus Duct
• High degree of flexibility available with provision of mounting ACB and Automatic Transfer Switch for the incoming supply
• Can be supplied with double bus barsy stem with feeders tapped from either bus or both
• Modulardesignextensibleatbothsides
• Short-circuit rating 50 / 85 / 100 kA
Specifications
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Type Tested AsPerIS 8623 and IEC 60439 –1
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Operational Voltage415 V, AC
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Rated InsulationVoltage690 V, AC
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OperationalCurrentUp To 6300 A
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Degree of ProtectionIP –42 / IP –54 / IP -55
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Short Circuit RatingUp To 100 kA
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Formsof Separation2B/ 3B / 4B
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ConfigurationFixed and Draw-Out
Specifications
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Reference StandardsIEC 60439 –1, 19999
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Operational Voltage415 V, AC
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Rated Insulation Voltage690 V, AC
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Operational CurrentUp To 4000 A
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Degree of ProtectionIP –42 / IP –54 / IP -55
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Formsof Separation2B/ 3B / 4
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ConfigurationFixed
Salient Features of technology used by hoc_age
• Multitier compartmentalized feeders for mainly Motor Control including other type VFD, capacitor feeder and soft starter.
• Fixed and Draw-Out Type.
• Can be suitable for single front or double front operation.
• Flexibility in execution of MCC :
• Bus alley and cable alley at front, when there is no rear access.
• For fixed type double front MCC, both bus alley and cable alley shall be at both front and rear.
• For fixed single front MCCs having rear access, bus alley shall be provided at rear and cable alley at front.
Specifications
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ApplicationSynchronization of DG Power
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Reference StandardIEC:61439-1,2009, IS:8623
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Operational Voltage110/ 230V AC/DC, 415V AC
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Control Voltage24V/ 110V/ 220V AC/DC
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Phase/ Frequency3 Phase/ 50 Hz
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Degree of ProtectionIP-54/ IP-55
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Form of Separation2b
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System AutomationDEIF Controller
Salient Features of technology used by hoc_age
• Multitier compartmentalized Circuit Breaker Panel
• Load Distribution through ACBs and MCCBs
• Arrangement for Receiving supply through Power Cable / Bus Duct
• High degree of flexibility available with provision of mounting ACB and Automatic Transfer Switch for the incoming supply.
• Can be supplied with double bus bar system with feeders tapped from either bus system
• Vertical bus for two-tier feeders up to 2400A
• Modular design extensible at both sides
• Short-circuit rating planned for 65kA and 80kA
Specifications
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ApplicationProtection & Control of Motors
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Reference StandardIEC:61439-1,2009, IS:8623
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Operational Voltage415V AC
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Operational CurrentUp to 6300A
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Phase/ Frequency3 Phase/ 50 Hz
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Short Time RatingUp to 100KA for 1 Sec.
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Degree of ProtectionIP-42/ IP-54
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Max. Temp. Rise40 o C over ambient 45 o C
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Form of Separation3b/ 4b
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Seismic ComplianceZone-3 & 4
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Vertical Bus bar Load Current.2500A max in Two Tier Arrangement
Wall Mounting Type Distribution Boards for general use for distribution of power.
