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LVSI 80.
MVSI 80.
HVSI 80Self-regulating brushless generators
There for youTM
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STANDARD FEATURES :
Cast and welded construction optimising strength and
output to weight ratio.
Modular construction chosen to minimise manufacturing
lead times.
Winding designs available to give a wide range of voltages,
380-480 V, 690 V, 2400 V, 3300 V, 4160 V, 6600 V, 7200 V,
10 kV, 11 kV, 12.47 kV, 13.8 kV. Other voltages available by
request
High quality Silicon electrical steel used for rotor and stator
construction.
Rotors are constructed with fully interconnected damper
(amortisseur) windings.
Controls and system monitoring devices are housed in a
separate machine mounted enclosure.
AvK/ STAMFORD DM110 Digital AVR (by Basler)
Power factor controller as standard.
Manual voltage regulation as standard.
power via the DM110 AVR to the main exciter, giving a source
of constant excitation power independent of generator output.
The exciter output is then fed to the main rotor, through a full
wave bridge rectifier, protected by surge suppressors.
The AVR has in-built protection against generator overvoltage,
loss of sensing voltage and field overvoltage (Overexcitation
shutdown). Overexcitation and underexcitation limiters are also
a feature of this AVR.
An engine relief load acceptance feature can enable full
load,in accordance with ISO8528, to be applied to the
generator in a single step.
Voltage Regulation
The 3 phase or single phase RMS voltage sensing in AVR
mode. Regulation of ± 0.5%, from no load to full load including
cold to hot variations for any power factor between 0.8 lagging
and unity, allowing for 4 % engine speed variations. It is
particularly suitable for non-linear load applications.
True RMS sensingThe PMG together with true r.m.s. sensing provides isolation
from distorted voltage waveforms associated with non linear
loads. No additional harmonic filtration is required.
Three phase sensing
Three phase sensing centres any voltage imbalance, caused
by load imbalance, on the nominal voltage, and helps to
ensure trouble free operation under the most demanding
loads.
Short circuit
Industrial machine will sustain a maximum short circuit of
300% rated current under a 3 phase L-L-L short circuit
condition. The AVR will support this condition for up to 10
seconds, at which point the AVR over-excitation protection
system will de-excite the machine. Sustained current levels
under 2 phase L-L or 1 phase L-Nshort circuit levels are much
higher than the above L-L-L levels and must be removed from
the generator, by breakers, within typically 5 seconds and 2
seconds respectively.
PMG
Stamford's most advanced Permanent Generator (PMG)
excitation system, for the ultimate in reliability, response and
stability, is fitted as standard. The DM110 digital automatic
voltage regulator (AVR), designed and produced specifically for
the P80 range of ac generators, is also fitted as standard.
Features
StandardsP80 Industrial Generators meet the requirementsof BSEN60034 and the relevant sections of other international standards such as BS5000, VDE0530, Nema MG1-32, IECEN60034, CSA C22.2-100 and AS1359.Marine generators may be certified to Lloyds, DNV,Bureau Veritas, ABS, Germanischer-Lloyd or RINA.Other standards and certifications can beconsidered on request.
Quality AssuranceGenerators are designed and manufactured to QAProcedures conforming to ISO9001.
ELECTRICAL FEATURES :
AVR
The P80 range of generators are fitted with the AvK,
STAMFORD DM110 digital excitation system. This is an
electronic, solid-state, microprocessor based device developed
in conjunction with Basler and supplied exclusively for AvK
STAMFORD generators. The input power to the excitationsystem is supplied by a multi-pole, high frequency, permanent
magnet generator (PMG). The DM110, with PMG, is fitted as
standard to the P80 range of generators. The PMG provides
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Parallel Operation
All P80 generators are well suited for parallel operation with
the mains utility or other generators. For paralleling with the
utilities power factor correction or reactive power (var)
regulation are features of the DM110 AVR.
Our standard winding pitch is 2/3. However consideration
needs to be given to other conditions such as, pitch of sets
already on site and how neutrals are connected. An Excitation
Loss Module (ELM) will give protection against loss of
excitation from the excitation system. The ELM is housed in
the generator's separate low voltage control box, and may be
supplied either factory fitted or for after-market fitment.
Insulation/Impregnation
The impregnation materials and processes are specifically
selected to provide protection against harsh environments
encountered by generator applications. Resins are selected
and developed to provide the
high build required for static windings and the high mechanicalstrength required for rotating components.
For High Voltage stators, (> 4400 V) Stamford has a Hybrid
System using the best features of Global VPI and Resin rich
Technology, to give a superior product, optimising insulation life
in the stator slot section,with the advantage of VPI epoxy in the
out-hangs for strength, electrical properties and optimum
protection. This insulation system has been selected to give
PROVEN results, with maximum benefit to the customer in
terms of DURABILITY and RELIABILITY. All HV machines
have Corona Protection tapes applied.
For Medium voltage machines (Up to 4400 V) Stamford has
developed a Class H insulation system, using mica and
Nomex technology for optimal results and performance.
All P80 stators and rotors are rotate cured to retain resin in the
slot section, to give a uniform resin coating overall for
protection, for uniform balance of rotating components and
most importantly on HV stators, to prevent the formation of
resin spikes, which can act as electrical stress points in the
winding.
Class F insulation system and Class F rating on HVSI
Class H insulation system and Class H rating on LVSI, LVSM
and MVSI.
Platinum resistance type temperature detectors (PT100) are
fitted, 2 per phase, as standard on MVSI and HVSI and are a
recommended option on LVSI / LVSM.
Winding and Electrical Performance
The stator winding in conjunction with carefully selected pole
and tooth designs ensures optimal performance and low
waveform distortion. A fully interconnected damper winding
stabilises the rotor during load changes.
Radio Interference
The absence of brushgear and the high quality AVR ensure
low levels of interference with radio transmissions. Additional
RFI suppression may be supplied if required.
Telephone Interference
THF (As defined by EN60034: Part 1) is better than 2%. TIF
(As defined by ASA C50.12) is better than 50.
Waveform distortionTotal Harmonic Distortion (THD) of the open circuit voltage
waveform is less than 1.5 %. Under 3 phase balanced, linear,
load conditions the THD is less than 3%.
MECHANICAL FEATURES :
Terminal Box
Instrument and control connections are in a separated
compartment, with external access for safety. The wiring
diagram for the machine is fitted within this compartment.
Heater connections, which remain live after generator
shutdown, are designed to prevent direct contact, for reasons
of safety. Terminal boxes are designed to be rugged and
internal components are designed for durability and reliability at
the high levels of imposed vibration from the prime mover. The
terminal box is designed with the provision for propriety CT's to
be field retrofitted, relatively easily, by skilled personnel.
Vibration Limits
All generator rotors are dynamically balanced to better than
BS6861: Part 1, Grade 2.5 for minimal vibration during
operation. Two bearing generators are balanced with a half
key.
Bearings
Stamford P80 generators use deep groove ball bearing
technology to satisfy the needs of industrial and marine
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markets. A high specification synthetic grease is used, with
suitable maintenance intervals, to give a designed L10 life of
40,000 hours. For continuous duty applications Bearing RTD's
are recommended as an option and can be retrofitted easily in
the field by skilled personnel. Other bearing designs are
available upon request.
Drawings
GA and customer connection box layout drawings are available
on request; refer to factory for details.
Torsional Approval
All generators are designed for torsional compatibility with
known available engines. Responsibility for ensuring this
compatibility, however, lies with the set manufacturer. Full
torsional data relating to the generator will be supplied on
request.
Construction
Modular in concept. The stator core is manufactured fromelectrical steel laminations pressed between two thick end
plates. The core is welded to landing bars to form the main
structure of the generator. Cast SG Iron bearing end shields,
for strength and rigidity, are designed with bolt on feet to
provide alternative foot heights to suit the base frame. The
complete machine is modelled in 3D, for Finite Element
Analysis (FEA)
on components/assembly for fatigue, maximum stresses and
natural frequencies. The 3D model is available to customers for
set and bed frame design assistance.
Gas and Steam Turbines
Many of these applications require a hard mounting capability,
without resilient mounts. The two bearing rolling element
bearing design for R, S & T cores are suitable for hard
mounting, with factory specified bed minimum stiffness criteria.
For other applications, consult factory.
Direction of Rotation
P80 generators are configured for clockwise rotation (as seen
from the Drive End) as standard. Anticlockwise rotation is
available as an option.
OPTIONS / ACCESSORIES :
SAE 0 or 00 Flange adapters for 2 bearing machines
SAE 0 or 00 adapter for 1 bearing machines
18, 21 and 24 drive discs available for single bearing
machines with matching SAE adapter
Bearing RTD's (PT100, 3 wire)
Insulated bearings (Subje ct to conditions)
Winding RTD's (PT100, 3 wire) - Standard on MV
& HV
Anti-condensation heaters (Standard on MV/HV).
Recommended option on LV
Excitation Loss Module (ELM)
Diode Failure Detector (DFD)
Industrial air inlet filters - stainless washable with
differential pressure switch
Bearing Vibration Detector position - (Subject to
conditions)
Terminal Box: Various options are available. (Subject
to conditions) Consult factory for
Construction/Design
RFI/EMI Suppression on LV only
De-excitation switch to protect exciter components
and rectifier bridge in the event of overvoltage
from AVR
Marine Builds/Surveys
Propriety Metering/Protection Current Transformers
are available to IEC 60044.1 and IEEE.C57.13. 3 for
mounting in the neutral end of the Terminal Box,
subject to specification
Customer specified Tests, are available on request,
subject to requirements
Features
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Nominal Ratings
Power Factor 0,8
Connecting 3 Phase (6 Wire)
50 Hz (1500 RPM)
Class F Class B
Rating/Ambient Basic / 40°C Peak / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/105K Standby/125K Continuous/80KVoltage: Star 6000V 6300V 6600V 6000V 6300V 6600V 6000V 6300V 6600V
Winding No. 71 61 61 71 61 61 71 61 61
HVSI 804R kVA 2250 2148 2250 2400 2291 2400 1950 1861 1950
kW 1800 1718 1800 1920 1833 1920 1560 1489 1560
HVSI 804S kVA 2520 2405 2520 2695 2573 2695 2200 2100 2200
kW 2016 1924 2016 2156 2058 2156 1760 1680 1760
HVSI 804T kVA 2875 2744 2875 3075 2935 3075 2480 2368 2500
kW 2300 2195 2300 2460 2348 2460 1984 1894 2000
HVSI 804W kVA 3410 3255 3410 3640 3475 3640 2970 2835 2970
kW 2728 2604 2728 2912 2780 2912 2376 2268 2376
HVSI 804X kVA 3875 3699 3875 4140 3952 4140 3370 3226 3380
kW 3100 2959 3100 3312 3162 3312 2696 2581 2704
Power Factor 0,8
Connecting 3 Phase (6 Wire)
50 Hz (1500 RPM)
Class F Class B
Rating/Ambient Basic / 40°C Peak / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/105K Standby/125K Continuous/80K
Voltage: Star 10000V 10500V 11000V 10000V 10500V 11000V 10000V 10500V 11000V
Winding No. 81 83 83 81 83 83 81 83 83
HVSI 804R kVA 2270 2168 2270 2430 2320 2430 2000 1909 2000
kW 1816 1734 1816 1944 1856 1944 1600 1527 1600
HVSI 804S kVA 2515 2401 2515 2690 2568 2690 2200 2100 2200
kW 2012 1921 2012 2152 2054 2152 1760 1680 1760
HVSI 804T kVA 2840 2711 2840 3035 2897 3035 2500 2386 2500
kW 2272 2169 2272 2428 2318 2428 2000 1909 2000
HVSI 804W kVA 3259 3111 3259 3470 3312 3470 2830 2701 2830
kW 2607 2489 2607 2776 2650 2776 2264 2161 2264
HVSI 804X kVA 3724 3555 3724 3960 3780 3960 3240 3093 3240
kW 2980 2844 2980 3168 3024 3168 2592 2474 2592
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Nominal Ratings
Power Factor 0,8
Connecting 3 Phase (6 Wire)
60 Hz (1800 RPM)
Class F Class B
Rating/Ambient Basic / 40°C Peak / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/105K Standby/125K Continuous/80KVoltage: Star 7200V 11400V 12470V 7200V 11400V 12470V 7200V 11400V 12470V
Winding No. 71 81 87 71 81 87 71 81 87
HVSI 804R kVA 2875 2588 2650 3075 2770 2840 2510 2280 2312
kW 2300 2070 2120 2460 2216 2272 2008 1824 1850
HVSI 804S kVA 3140 2868 2900 3360 3065 3090 2750 2505 2535
kW 2512 2294 2320 2688 2452 2472 2200 2004 2028
HVSI 804T kVA 3530 3238 n/a 3775 3460 n/a 3080 2850 n/a
kW 2824 2590 n/a 3020 2768 n/a 2464 2280 n/a
HVSI 804W kVA 4200 3715 n/a 4490 3950 n/a 3660 3226 n/a
kW 3360 2970 n/a 3592 3160 n/a 2928 2581 n/a
HVSI 804X kVA 4750 4245 n/a 5080 4510 n/a 4130 3694 n/a
kW 3800 3396 n/a 4064 3608 n/a 3304 2955 n/a
Power Factor 0,8
Connecting 3 Phase (6 Wire)
60 Hz (1800 RPM)
Class F Class B
Rating/Ambient Basic / 40°C Peak / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/105K Standby/125K Continuous/80K
Voltage: Star 12470V 13200V 13800V 12470V 13200V 13800V 12470V 13200V 13800V
Winding No. 91 91 91 91 91 91 91 91 91
HVSI 804R kVA 2400 2535 2650 2570 2720 2840 2080 2200 2312
kW 1920 2030 2120 2056 2176 2272 1664 1760 1850
HVSI 804S kVA 2710 2870 3000 2900 3070 3200 2355 2490 2625
kW 2168 2296 2400 2320 2456 2560 1884 1992 2100
HVSI 804T kVA 2980 3155 3300 3185 3375 3530 2590 2740 2880
kW 2384 2524 2640 2548 2700 2824 2072 2192 2304
HVSI 804W kVA 3365 3560 3724 3580 3790 3960 2930 3100 3240
kW 2692 2848 2979 2864 3032 3168 2344 2488 2592
HVSI 804X kVA 3810 4030 4214 4050 4295 4490 3300 3500 3660kW 3048 3224 3371 3240 3436 3592 2640 2800 2928
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Nominal Ratings
Power Factor 0,8
Connecting 3 Phase (6 Wire)
50 Hz (1500 RPM)
Class H Class F Class H Class B
Rating/Ambient Basic / 40°C Basic / 40°C Peak / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/125K Continuous/105K Standby/150K Continuous/80KVoltage: Star 3300-3450V 3300-3450V 3300-3450V 3300-3450V
Winding No. 51 51 51 51
MVSI 804R kVA 2650 2400 2835 2100
kW 2120 1920 2268 1680
MVSI 804S kVA 2900 2660 3100 2330
kW 2320 2128 2480 1864
MVSI 804T kVA 3300 3020 3530 2650
kW 2640 2416 2824 2120
MVSI 804W kVA 3718 3475 3960 3114
kW 2974 2780 3168 2491
MVSI 804X kVA 4253 3975 4520 3562
kW 3402 3180 3616 2850
Power Factor 0,8
Connecting 3 Phase (6 Wire)
60 Hz (1800 RPM)
Class H Class F Class H Class B
Rating/Ambient Basic / 40°C Basic / 40°C Peak / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/125K Continuous 105K Standby/150K Continuous/80K
Voltage: Star 4000-4160V 4000-4160V 4000-4160V 4000-4160V
Winding No. 51 51 51 51
MVSI 804R kVA 3150 2880 3370 2520
kW 2520 2304 2696 2016
MVSI 804S kVA 3530 3250 3775 2820
kW 2824 2600 3020 2256
MVSI 804T kVA 4060 3725 4340 3250
kW 3248 2980 3472 2600
MVSI 804W kVA 4494 4200 4780 3650
kW 3595 3360 3824 2920
MVSI 804X kVA 5190 4850 5520 4215kW 4152 3880 4416 3372
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Nominal Ratings
Power Factor 0,8
Connecting 3 Phase (6 Wire), 4 Pole
50 Hz (1500 RPM)
Class F Class B
Rating/Ambient Basic / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/105K Continuous/80K
Voltage : Star 380V 400V 415V 440V 660-690V 380V 400V 415V 440V 660-990V
Winding No. 12 12 12 12 65 12 12 12 12 65
LVSI 804R kVA 2100 2210 2210 2075 2210 1830 1930 1930 1815 1930
kW 1680 1768 1768 1660 1768 1464 1544 1544 1452 1544
LVSI 804S kVA 2430 2560 2560 2405 2560 2125 2240 2240 2105 2240
kW 1944 2048 2048 1924 2048 1700 1792 1792 1684 1792
LVSI 804T kVA 2660 2800 2800 2630 2800 2325 2450 2450 2300 2450
kW 2128 2240 2240 2104 2240 1860 1960 1960 1840 1960
LVSI 804W kVA 3155 3322 3322 3122 3322 2740 2887 2887 2715 2887
kW 2524 2658 2658 2498 2658 2192 2310 2310 2172 2310
LVSI 804X kVA 3470 3655 3655 3435 n/a 3015 3177 3177 2980 n/a
kW 2776 2924 2924 2748 n/a 2412 2542 2542 2384 n/a
LVSI 804Y kVA n/a n/a n/a n/a 3535 n/a n/a n/a n/a 3080
kW n/a n/a n/a n/a 2828 n/a n/a n/a n/a 2464
Power Factor 0,8
Connecting 3 Phase (6 Wire), 4 Pole
50 Hz (1500 RPM)
Class H Class H
Rating/Ambient Basic / 40°C Peak / 40°C
Appl ication/Temp. Rise Continuous/125K Standby/150K
Voltage : Star 380V 400V 415V 440V 660-690V 380V 400V 415V 440V 660-990VWinding No. 12 12 12 12 65 12 12 12 12 65
LVSI 804R kVA 2290 2410 2410 2265 2410 2445 2575 2575 2420 2575
kW 1832 1928 1928 1812 1928 1956 2060 2060 1936 2060
LVSI 804S kVA 2650 2790 2790 2620 2790 2835 2985 2985 2805 2985
kW 2120 2232 2232 2096 2232 2268 2388 2388 2244 2388
LVSI 804T kVA 2895 3050 3050 2865 3050 3095 3260 3260 3065 3260
kW 2316 2440 2440 2292 2440 2476 2608 2608 2452 2608
LVSI 804W kVA 3375 3555 3555 3340 3555 3610 3800 3800 3570 3800
kW 2700 2844 2844 2672 2844 2888 3040 3040 2856 3040
LVSI 804X kVA 3715 3911 3911 3675 n/a 3970 4180 4180 3970 n/a
kW 2972 3129 3129 2940 n/a 3176 3344 3344 3176 n/a
LVSI 804Y kVA n/a n/a n/a n/a 3800 n/a n/a n/a n/a 4065
kW n/a n/a n/a n/a 3040 n/a n/a n/a n/a 3252
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Nominal Ratings
Power Factor 0,8
Connecting 3 Phase (6 Wire), 4 Pole
60 Hz (1800 RPM)
Class H Class H
Rating/Ambient Basic / 40°C Peak / 40°C
Appl ication/Temp. Rise Continuous/125K Standby/150K
Voltage: Star 380V 416V 440V 460V 480V 600V 380V 416V 440V 460V 480V 600VWinding No. 13 12 12 12 12 07 13 12 12 12 12 07
LVSI 804R kVA 2825 2600 2750 2875 3000 3000 3015 2780 2940 3066 3200 3200
kW 2260 2080 2200 2300 2400 2400 2412 2224 2352 2453 2560 2560
LVSI 804S kVA 3250 2900 3070 3210 3350 3350 3470 3105 3285 3436 3585 3585
kW 2600 2320 2456 2568 2680 2680 2776 2484 2628 2749 2868 2868
LVSI 804T kVA 3400 3170 3355 3508 3660 3660 3630 3390 3590 3753 3915 3915
kW 2720 2536 2684 2806 2928 2928 2904 2712 2872 3002 3132 3132
LVSI 804W kVA 3750 3590 3800 3969 4142 4142 4000 3841 4060 4245 4430 4430
kW 3000 2872 3040 3175 3314 3314 3200 3072 3248 3396 3544 3544
LVSI 804X kVA n/a 3870 4090 4278 4464 4464 n/a 4130 4370 4571 4770 4770
kW n/a 3096 3272 3422 3571 3571 n/a 3304 3496 3657 3816 3816
Power Factor 0,8
Connecting 3 Phase (6 Wire), 4 Pole
60 Hz (1800 RPM)
Class F Class B
Rating/Ambient Basic / 40°C Basic / 40°C
Appl ication/Temp. Rise Continuous/105K Continuous/80K
Voltage: Star 380V 416V 440V 460V 480V 600V 380V 416V 440V 460V 480V 600V
Winding No. 13 12 12 12 12 07 13 12 12 12 12 07
LVSI 804R kVA 2590 2385 2520 2635 2750 2750 2260 2080 2200 2300 2400 2400
kW 2072 1908 2016 2108 2200 2200 1808 1664 1760 1840 1920 1920
LVSI 804S kVA 2975 2665 2820 2948 3075 3075 2630 2325 2455 2569 2680 2680
kW 2380 2132 2256 2358 2460 2460 2104 1860 1964 2055 2144 2144
LVSI 804T kVA 3130 2910 3080 3220 3360 3360 2750 2600 2750 2875 3000 3000
kW 2504 2328 2464 2576 2688 2688 2200 2080 2200 2300 2400 2400
LVSI 804W kVA 3450 3350 3550 3710 3871 3871 3030 2915 3085 3224 3364 3364
kW 2760 2680 2840 2968 3097 3097 2424 2332 2468 2579 2691 2691LVSI 804X kVA n/a 3615 3820 3998 4172 4172 n/a 3140 3300 3474 3625 3625
kW n/a 2892 3056 3198 3338 3338 n/a 2512 2624 2779 2900 2900
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Design
R,S & T Single Bearing
R,S & T Two Bearing
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Design
W,X & Y Two Bearing
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Cummins Generator TechnologiesBarnack Road
StamfordLincolnshire PE9 2NB
England
Tel: +44 (0) 1780 484000 Fax: +44 (0) 1780 484100
www.cumminsgeneratortechnologies.com