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HCI 434F/444F - Technical Data Sheet - raad-eng.com

HCI 434F/444F - Technical Data SheetHCI434F/444 FSPECIFICATIONS & OPTIONSSTANDARDSN ewage Stamford industrial generators meet therequirements of BS EN 60034 and the relevant sectionof other international standards such as BS5000, VDE0530, NEMA MG1-32, IEC34, CSA , standards and certifications can be considered REGULATORSSX440 AVR - STANDARDWith this self-excited system the main stator providespower via the Automatic Voltage Regulator (AVR) to theexciter stator. The high efficiency semi-conductors ofthe AVR ensure positive build-up from initial low levelsof residual exciter rotor output is fed to the main rotor througha three-phase full-wave bridge rectifier. The rectifier isprotected by a surge suppressor against surgescaused, for example, by short circuit or SX440 will support a range of electronicaccessories, including a 'droop' Current Transformer(CT) to permit parallel operation with other 3-phase sensing is required with the self-excitedsystem, the SX421 AVR must be AVRThis AVR also operates in a self-excited system.

control system separately excited by p.m.g. a.v.r. mx321 mx341 voltage regulation ± 0.5 % ± 1.0 % with 4% engine governing sustained short circuit

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Transcription of HCI 434F/444F - Technical Data Sheet - raad-eng.com

1 HCI 434F/444F - Technical Data SheetHCI434F/444 FSPECIFICATIONS & OPTIONSSTANDARDSN ewage Stamford industrial generators meet therequirements of BS EN 60034 and the relevant sectionof other international standards such as BS5000, VDE0530, NEMA MG1-32, IEC34, CSA , standards and certifications can be considered REGULATORSSX440 AVR - STANDARDWith this self-excited system the main stator providespower via the Automatic Voltage Regulator (AVR) to theexciter stator. The high efficiency semi-conductors ofthe AVR ensure positive build-up from initial low levelsof residual exciter rotor output is fed to the main rotor througha three-phase full-wave bridge rectifier. The rectifier isprotected by a surge suppressor against surgescaused, for example, by short circuit or SX440 will support a range of electronicaccessories, including a 'droop' Current Transformer(CT) to permit parallel operation with other 3-phase sensing is required with the self-excitedsystem, the SX421 AVR must be AVRThis AVR also operates in a self-excited system.

2 Itcombines all the features of the SX440 with,additionally, three-phase rms sensing for improvedregulation and performance. Over voltage protection isprovided via a separate circuit breaker. An engine reliefload acceptance feature is built in as AVRThis sophisticated AVR is incorporated into theStamford Permanent Magnet Generator (PMG) PMG provides power via the AVR to the mainexciter, giving a source of constant excitation powerindependent of generator output. The main exciteroutput is then fed to the main rotor, through a full wavebridge, protected by a surge suppressor. The AVR hasin-built protection against sustained over-excitation,caused by internal or external faults. This de-excitesthe machine after a minimum of 5 engine relief load acceptance feature can enable fullload to be applied to the generator in a single three-phase sensing is required with the PMG systemthe MX321 AVR must be recommend three-phase sensing for applicationswith greatly unbalanced or highly non-linear AVRThe most sophisticated of all our AVRs combines all thefeatures of the MX341 with, additionally, three-phaserms sensing, for improved regulation and voltage protection is built-in and short circuitcurrent level adjustments is an optional & ELECTRICAL PERFORMANCEAll generator stators are wound to 2/3 pitch.

3 Thiseliminates triplen (3rd, 9th, 15th ..) harmonics on thevoltage waveform and is found to be the optimumdesign for trouble-free supply of non-linear loads. The2/3 pitch design avoids excessive neutral currentssometimes seen with higher winding pitches, when inparallel with the mains. A fully connected damperwinding reduces oscillations during paralleling. Thiswinding, with the 2/3 pitch and carefully selected poleand tooth designs, ensures very low & TERMINAL BOXS tandard generators are 3-phase reconnectable with 12ends brought out to the terminals, which are mountedon a cover at the non-drive end of the steel terminal box contains the AVR and providesample space for the customers' wiring and has removable panels for & KEYSAll generator rotors are dynamically balanced to betterthan BS6861:Part 1 Grade for minimum vibration inoperation.

4 Two bearing generators are balanced with ahalf insulation system is class 'H'.All wound components are impregnated with materialsand processes designed specifically to provide the highbuild required for static windings and the highmechanical strength required for rotating ASSURANCEG eneratorsaremanufacturedusingproductionp rocedures having a quality assurance level to BS ENISO stated voltage regulation may not be maintained inthe presence of certain radio transmitted signals. Anychange in performance will fall within the limits ofCriteria 'B' of EN 61000-6-2:2001. At no time will thesteady-state voltage regulation exceed 2%.NB Continuous development of our products entitles usto change specification details without notice, thereforethey must not be regarded as binding. Front cover drawing typical of product SYSTEM SEPARATELY EXCITED BY REGULATION % %With 4% ENGINE GOVERNINGSUSTAINED SHORT CIRCUITCONTROL SYSTEM SELF EXCITED REGULATION % %With 4% ENGINE GOVERNINGSUSTAINED SHORT CIRCUITWILL NOT SUSTAIN A SHORT CIRCUITINSULATION SYSTEMCLASS HPROTECTIONRATED POWER FACTORSTATOR WINDINGWINDING PITCHWINDING LEADSSTATOR WDG.

5 RESISTANCEROTOR WDG. SUPPRESSIONBS EN 61000-6-2 & BS EN 61000-6-4,VDE 0875G, VDE 0875N. refer to factory for othersWAVEFORM DISTORTIONNO LOAD < NON-DISTORTING BALANCED LINEAR LOAD < OVERSPEEDBEARING DRIVE END BEARING NON-DRIVE ENDWEIGHT COMP. GENERATORWEIGHT WOUND STATORWEIGHT WOUND ROTORWR INERTIASHIPPING WEIGHTS in a cratePACKING CRATE SIZETELEPHONE INTERFERENCECOOLING AIRVOLTAGE SERIES STAR 380/220400/231415/240440/254416/240440/2 54460/266480/277 VOLTAGE PARALLEL STAR 190/110200/115208/120220/127208/120220/1 27230/133240/138 VOLTAGE SERIES DELTA 220/110230/115240/120254/127240/120254/1 27266/133277/138kVA BASE RATING FOR REACTANCE VALUES380380380380444456463475Xd DIR. AXIS 'd DIR. AXIS ''d DIR. AXIS QUAD. AXIS ''q QUAD. AXIS LEAKAGE NEGATIVE ZERO ARE SATURATEDVALUES ARE PER UNIT AT RATING AND VOLTAGE INDICATEDT'd TRANSIENT TIME ''d SUB-TRANSTIME 'do FIELD TIME ARMATURE TIME CIRCUIT RATIOREFER TO SHORT CIRCUIT DECREMENT CURVES (page 7)BALL.

6 6314 (ISO)1 Ohms at 22 C Ohms PER PHASE AT 22 C SERIES STAR CONNECTEDBALL. 6317 (ISO)463 LAYER LAPTWO THIRDS121160 kg1160 kg535 kgHCI434 m /sec 1030 m /sec 1240 cfm50 HzTHF<2%60 HzTIF<50440 kgm2 WINDING 3111 BEARING2 BEARING2250 Rev/Min535 kg1780 kg 156 x 87 x 107(cm) 1775 kg 155 x 87 x 107(cm) 3 Winding 311 HCI434F/444 FTHREE PHASE EFFICIENCY CURVES50Hz4 Winding 311 HCI434F/444 FTHREE PHASE EFFICIENCY CURVES60Hz5 HCI434F/444 FWinding 311 Locked Rotor Motor Starting CurveMXSX50Hz60 HzMXSX0510152025300200400600800100012001 400 LOCKED ROTOR kVAPER CENT TRANSIENT VOLTAGE DIP . 346V 380V 400V 415V 440V 0510152025300100200300400500600700800900 1000 LOCKED ROTOR kVAPER CENT TRANSIENT VOLTAGE DIP . 346V 380V 400V 415V 440V 051015202530020040060080010001200 LOCKED ROTOR kVAPER CENT TRANSIENT VOLTAGE DIP . 380V 416V 440V 460V 480V 0510152025300200400600800100012001400 LOCKED ROTOR kVAPER CENT TRANSIENT VOLTAGE DIP.

7 380V 416V 440V 460V 480V 63-phase2-phase L-L 1-phase L-NVoltageFactorVoltageFactorx sustained current value is constant irrespectiveof voltage levelThree-phase Short Circuit Decrement Curve. No-load Excitation at Rated SpeedBased on star (wye) sustained durationAll other times are unchangedInstantaneousSustainedMinimumHC I434F/444F50Hz60 HzSustained Short Circuit = 1,750 AmpsSustained Short Circuit = 2,000 AmpsNote 1 The following multiplication factors should beused to adjust the values from curve betweentime seconds and the minimum currentpoint in respect of nominal operating voltage :Note 2 The following multiplication factor should be used to convert thevalues calculated in accordance with NOTE 1 to those applicableto the various types of short circuit :Note 3 Curves are drawn for Star (Wye) connected machines. For otherconnection the following multipliers should be applied to currentvalues as shown.

8 Parallel Star = Curve current value X 2 Series Delta = Curve current value X (secs)CURRENT (Amps) (secs)CURRENT (Amps)SYMMETRICALASYMMETRICAL7 Class - Temp RiseSeries Star (V) 3804004154403804004154403804004154403804 00415440 Parallel Star (V) 1902002082201902002082201902002082201902 00208220 Series Delta (V) 2202302402542202302402542202302402542202 30240254kVA 3503503503503803803803803903903903904044 04404404kW 2802802802803043043043043123123123123233 23323323 Efficiency (%) Input29929829829732532432432333433433333 2347346346345 Series Star (V) 4164404604804164404604804164404604804164 40460480 Parallel Star (V) 2082202302402082202302402082202302402082 20230240 Delta (V) 2402542662772402542662772402542662772402 54266277kVA 4054204254384444564634754754834885004885 00506519kW 3243363403503553653703803803863904003904 00405415 Efficiency (%) Input34535736137238038939540540841441742 7420429433444 HCI434F/444 FWinding 311 / Power F - 105/40 CCont.

9 H - 125/40 CStandby - 150/40 CStandby - 163/27 CDIMENSIONSPO Box 17 Barnack Road Stamford Lincolnshire PE9 2 NBTel: 00 44 (0)1780 484000 Fax: 00 44 (0)1780 484100 Website: 2002 Newage International with permission of in


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