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Clean and compact drive for energy savings
Altivar 1100 Medium-voltage variable speed drive 0.3 to 10 MW
DIA2ED1080701-EN.indd 1 22/07/09 11:36:14
• Reduction in energy costs• Protection of motors and equipment• Increased competitiveness• Reduction in maintenance costs
PowerFans, pumps
Water treatmentPumps, air blowers
Mines & mineralsCrushers, fans, pumps
Oil and gasPumps, compressors, air blowers
Increase your productivity, make bigger savings
Altivar 1100 is the latest addition to our full range of electrical distribution, motor control and control systems.
DIA2ED1080701-EN.indd 2 22/07/09 11:36:14
Better resultsReturn on investments • Reduction in installation costs • Rapid commissioning
Increased productivity • Lower production and maintenance costs • Enhanced reliability and continuity of operation
No disturbance of the motor or driving load • Improved motor durability • Maximum machine efficiency without risk• Compatibility with new or existing motors • Extended cable length between motor and
drive permitted
Perfect integration in the line supply• Energy losses minimized• No malfunctions or interference with the
environment
Easy to operate • Saves time during use • Ease of maintenance
A range of high-quality services • A one-stop-shop available throughout the
installation’s service life• Advice and follow-up services, from specifying requirements right through to after-sales• International coverage
Better technology• Compact design with input transformer integrated in the drive enclosures
• Durable components• Optimum sizing• Proven control
• Best in class multilevel technology: - perfect sine wave output current without the need for a filter - no harmonics, no stress on the motor, cable and driven load
• 36 pulse diode rectifier: - constant optimized input power factor - perfect sine wave input current better than the values requiredby all the standards : IEC 61000-2-4, IEEE 519, G5/4, etc.
• User-friendly interface• Easy remote access to the device parameters
• A comprehensive offer: - medium and low-voltage drives, motor, electrical distribution, control systems, installation - relevant expertise (energy efficiency, line supply study, etc.)
Benefit from innovation in your medium-voltage applications
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Air cooling for a standalone installation Example of a 2 MV drive
Integrated transformerCompactness • fewer cables and less commissioning work required
Clean power• 36-pulse operation
ControlEasy access & compactness • integrated high speed control
Inverter cellReliability and easy maintenance • reduced number of cells thanks to single phase 3-level inverter design• easy to replace
Motor-friendly• up to 17 level PWM control minimizes switching surge on motor
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Clean power and friendly to motors The multi-level topology shown below, featuring a 36-pulse diode rectifier, is associated with the kind of low-voltage IGBTs that have proven successful in practice and are found in a wide range of ap-plications. It also features:
• Harmonics-free input current with high power factor• No pulse torque• Quasi sine wave for motor and supply currents (negligible harmonic current content)• Intrinsic safety: current switched off instantaneously in the event of a fault• Minimum losses since the IGBT does not need a snubber and
requires little switching power
Compact and environmentally friendly
Input voltage (green) and current waveform (orange) on supply side
Main circuit configuration for 3.3 kV drive type Inverter cell
3-level output voltage of an inverter cell
Compact size: Up to 1.5 MVA per meter of enclosure (drive only)
efficiency including transformer
~97%MTBF: more than 4 fault-free years
> 40,000 h
Ed = DC voltage
3-phase input supply
Ed
Output voltage (green) and current waveform (orange) on motor side
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Make your life easier with complete solutions
Altivar 1100 is open to most networks, and can be integrated in any medium or low-voltage architecture.
With the Altivar 1100, Schneider Electric has created a comprehensive, safe, and consistent offer for:• Controlling and supplying equipment •Improving performance
Schneider Electric, a world leader in electrical distribution and control systems, presents a range of products, solutions and services for:• Transforming and routing energy • Automating machines and processes, in complete safety• Controlling, supplying and making equipment safe.
Schneider Electric global solution offer
Electric substation
MV motor and drive
LV switchboard LV motor control switchboard LV variable speed drive
MV motor starter control AIS MV switchboard MV/MV transformer
GIS switchboard MV/MV power transformer
AIS 12 MV switchboard
Power management and monitoring
The Altivar 1100 solution is based on a transformer, drive and medium-voltage electric motor assembly.Schneider Electriccan provide a turnkey solution complete with drive and associated equipment (electrical distribution, control systems).For more information, please contact our project teams.
Secondary electric substation
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Ensure the reliability of your installations with a simple open architecture
•An innovative control system based on the latest generation of 32-bit microprocessors. •Seamless integration into a control system architecture.
•Advanced control functions that are simple to implement: - Simple sensorless vector control. - Diagnostics and maintenance can be carried out locally (via terminal or PC) and remotely.
Information
Equipment
Altivar 1100
Control
Ethernet
Servers
Operator stations
Medium-voltage switchboard
PLCs
Straightforward programmingThe drive has advanced parameter-setting and diagnostic functions.It is possible to access the machine status with the key values signature (current, voltage, etc. in real time).
Fieldbus
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Setup and support as benefits of an international group
Schneider Electric’s expertise
Service experts are on hand to help you:•getmaximumreturnfromyourinvestments•optimizethevalueofyourinstallationsthroughouttheirlifecycle
A wide range of associated services
• Audit and consultancy: - line supply consultancy (compensation,
filtering, harmonics, etc.) - shaft line study (torsional analysis, etc.) - energy efficiency, enabling the best drive
solution to be determined
• Bespoke project management
• Factory tests at maximum power with or without motor
By applying our industrialization skills to our services, we can ensure your success.
• Installation and startup with: - assistance and troubleshooting - specific maintenance contract
(possibly including remote access and reconditioning)
• Customized training
• Rapid, flexible service provision
DIA2ED1080701-EN.indd 8 22/07/09 11:36:20
Make the most of your energy
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Altivar 1100: technical specifications
General characteristics
Converter typeInput 36-pulse diode bridge
Output Multi-level PWM inverter. Each inverter cell is a 3-level NPC low-voltage IGBT
Input voltage • Standard: 3.3 kV, 6 kV, 6.6 kV • Option: 10 kV or any other medium voltage • Variation: standard ± 10% • Option up to -20% (10sec with UPS)
Input frequency 50/60 Hz ± 5%
Power factor > 0.96
Efficiency at nominal power 0.97 for drives and input transformer
Type of motor supplied Asynchronous motor
Motor connection3-phase output voltage • Standard: 0 .. 3,300 V - 0 .. 6,000 V - 0 .. 6,600 V
Output frequency Normal: 0.2 .. 50/60 Hz, Extended: 0.2 .. 120 Hz
Input transformer Integrated in the converter, dry type
Auxiliary voltage • Standard: 380 V 3-phase, 50 Hz – Other voltages available as an option 220 V single-phase, 50 Hz. UPS available as an option
Degree of protection • IP31
Paintwork RAL 7032
Cooling Air-cooled
Reference standards IEC EN 61800-3, IEC EN 61800-4, IEC EN 61800-5-1, IEC EN 60204-11, IEC EN 60529, IEEE 519 Standards Others available as an option
Power specifications
Voltage classes (kV) 6
Rated capacity (kVA) 420 500 600 700 860 1000 1200 1400 1600 1800 2100 2360 2700 3200 4000 4700 6400 9500
Voltage classes (kV) 6.6
Rated capacity (kVA) 470 570 670 780 960 1120 1320 1540 1750 2000 2300 2600 3000 3500 4400 5200 7000 10500
Rated current (A) (*1) 41 50 59 68 84 98 115 134 153 173 202 227 262 306 385 459 612 918
Max.current (A) at overload 49 60 70 72 100 103 138 141 183 207 212 272 275 321 462 482 643 964
Applicable max. motor output (kW) (*2) 370 450 530 630 760 900 1050 1200 1400 1600 1850 2000 2400 2800 3500 4160 5500 8300
Capacity of auxiliarycontrol supply (kVA) 1.5 1.5 1.5 1.5 2.5 2.5 2.5 2.5 3.5 3.5 3.5 4.5 4.5 5.5 7.5 7.5 9.5 14.5
Capacity of fan powerpower supply (kVA) 3 3 3 3 3 3 3 3 6 6 6 6 6 9 12 12 15 27
Overload capability 105% for 60 sec - Other overload available as an option
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Voltage classes (kV) 3,3
Rated capacity (kVA) 390 560 770 1150 1500 1750 2600 3500 5200
Rated current (A) (*1) 68 98 134 202 262 306 459 612 918
Max.current (A) at overload 72 103 141 212 275 321 482 643 964
Applicable max. motor output (kW) (*2) 315 450 610 920 1200 1400 2100 2800 4200
Capacity of auxiliarycontrol supply (kVA) 1.5 1.5 1.5 2.5 2.5 3.5 4.5 5.5 7.5
Capacity of fan powerpower supply (kVA) 1.5 1.5 3.0 3.0 3.0 6.0 6.0 7.5 13.5
Overload capability 105% for 60 sec - Other overload availabe as an option
Control Characteristics
Motor control modes V/f type control, sensorless flux vector control Catch on the fly, suppression of critical speeds
Number of quadrants 2
Steady state operation Speed accuracy in steady state: ± 0.5%
Protection Overcurrent, main circuit fuse blown, overvoltage, undervoltage, CPU fault, cooling fan stop
Interface • Graphic keypad for local operation • Wired and networked remote communication • Option: > HMI : large LCD touch panel > Operation & Maintenance tool via PC (DDC loader)
Communication •Standard: Profibus, Modbus • Options: Ethernet, CANopen, DeviceNet, etc.
Environmental characteristics
Storage temperature -10 to 60° C. (Transportation temperature: -10° C to 70° C / (60° C to 70° C for 24 h)
Operating temperature 0 to 40° C
Cooling method Forced air cooling
Relative humidity 85% RH max. (no condensation). Option: up to 95%.
Altitude < 1000 m above sea-level
Vibration Acceleration: 4.9m/s2 acceptable (10 to 50Hz)
Noise level ≤ 85 dB(A). Option: 80 dB(A)
Options
Input isolation switch with grounding
Output isolation switch with grounding
UPS
Inverter + battery charger
Cable entry from the top
(*1) When Inverter output frequency is less than 25Hz,Inverter output current is decreased. (output current will be 70% at 0.2Hz)(*2) The applicable motor output is the reference value of standard 3.3 and 6.6kV, 4-pole motors
ATV1100_xx A 33
Name of range Output voltage 33 : 3300 V60 : 6000 V66 : 6600 V
Cooling: A (air)Nominal power(Rated capacity, kVA)
Identification code
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Altivar 1100: typical dimensions 3.3 kV
Capacity Outline Dimension (mm) Approx. (kVA) drawing mass. (kg)
A B C D E F G (Full width) (Transformer (Converter (Control (Fan) (Depth) (Maintenance panel) panel) output panel) space)
390 Fig.1 2000 _ 1500 500 548 1000 1300 2000
560 Fig.1 2300 _ 1800 500 548 1100 1300 3000
770 Fig.1 2300 _ 1800 500 605 1200 1300 4100
1150 Fig.2 3000 2100 900 _ 542 1300 1300 4500
1500 Fig.2 3400 2300 1100 _ 542 1400 1300 6200
1750 Fig.2 3500 2300 1200 _ 542 1400 1300 7000
2600 Fig.4 3600 2200 1400 _ 542 1400 1500 8100
3500 Fig.6 6800 2300 3600 900 542 1400 1500 12300
5200 Fig.8 10900 5200 4800 900 600 1900 1800 26000
(*1) The outline dimensions of the panel represent the maximum dimen-sions of a standard-capacity model.They may differ depending on the applicable motor capacity.(*2) The structure is for maintenance from the front. Be sure to allow at least the maintenance space listed in column G of the above table.
(*3) A wiring duct is installed on the panel in Figs. 8 and 9 (height: 600mm).(*4) A cooling fan is mounted on the panel. To assure maintainability and cooling performance, allow a clearance of at least 500mm between the top of the fan and the ceiling.
Front maintenanceclearance
Ceiling
Ceiling
Upper maintenance clearance
Upper maintenance clearance
Front maintenance structure
Front/rear maintenance structure
C DA
B CA
B CA
Fig.1 3.3 kV: 390, 560, 770 kVA
Fig.4 3.3 kV: 2600 kVA
Fig.6 3.3 kV: 3500 kVA
Fig.2 3.3 kV: 1150, 1500, 1750 kVA 6.6 kV: 470, 570, 680, 960, 1120 kVA
Fig.5 6.6 kV: 4400, 5200 kVA
Fig.3 6.6 kV: 1320, 1540, 1750, 2000, 2300, 2600, 3000, 3500 kVA
B CA
B D C BCA 60
2360
2300
E
Min. G F 600
Min
. 500
Min. G F
Min
. 500
B C DA Front maintenance
clearanceRear maintenanceclearance
DIA2ED1080701-EN.indd 12 22/07/09 11:36:21
6.6 kV
Capacity Outline Dimension (mm) Approx. (kVA) drawing mass. (kg)
A B C D E F G (Full width) (Transformer (Converter (Control (Fan) (Depth) (Maintenance panel) panel) output panel) space)
470,570, 670, 780 Fig.2 2900 1900 1000 _ 372 1300 1300 4500
960,1120 Fig.2 3000 2000 1000 _ 372 1300 1300 4900
1320, 1540 Fig.3 3400 2000 1400 _ 372 1300 1300 6400
1750, 2000, 2300 Fig.3 4300 2400 1900 _ 542 1400 1300 8400
2600, 3000 Fig.3 4800 2400 2400 _ 542 1400 1300 10200
3500 Fig.3 4800 2400 2400 _ 542 1400 1300 11200
4400, 5200 Fig.5 8400 2300 1400 1000 542 1400 1500 17900
7000 Fig.7 12900 2400 3600 900 542 1400 1500 24500
10500 Fig.9 21800 5600 4800 1000 600 1900 1800 51000
(*5) The standard front face of the panel is a covered type (except for the control output panel). A door type can also be manufactured.(*6) In the case of the 6.6kV type with a capacity of 5,200kVA and above, back to back installation (front/rear maintenance structure) reduces the
panel width by approximately half. Contact us for the dimensions of this type.(*7) The outline dimensions of the panel may be changed without notice.Contact us for details.
Min. G F 600
Min
. 500
Front/rear maintenance structure
Fig.7 6.6 kV: 7000 kVA
Fig.8 3.3 kV: 5200 kVA
Fig.9 6.6 kV: 10500 kVA
Min. G F 1200
Min
. 110
0
DA
C B
DA
CB C B
CB BCD
60
2360
2300
E
A
Front maintenanceclearance
Front maintenanceclearance
Ceiling
Ceiling
Upper maintenance clearance
Upper maintenance clearance
Rear maintenanceclearance
Rear maintenanceclearance
Wiring duct
Wiring duct
DIA2ED1080701-EN.indd 13 22/07/09 11:36:21
DIA2ED1080701-EN.indd 14 22/07/09 11:36:23
Prepare your quoteDate Name Phone
Company Position/Organization E-mail
Project name Country
Market segment £ Water & Wastewater £ Oil & Gas £ Power generation £ Mining & Minerals £ Metals
£ Other
Application £ Pump £ Fan £ Compressor £ Extruder £ Other
End user EPC OEM SI
Standards & Certifications £ IEC £ ANSI £ IEE £ UL £ Other
Customer specifications
Project status £ Budget estimate £ RFQ phase
Purchasing time frame £ less than 6 months £ between 6 & 12 months £ between 12 & 18 months £ more than 18 months
Other informationScope of supply
Scope of supply
Quantity of MV drives
Scope of supply £ Drive £ Input transformer
£ Input switch/breaker £ Output switch/breaker £ By-pass
£ Motor £ Other
Supply data
Power supply Voltage kV ± % Frequency Hz ± %
Short circuit power (MVA) max: min: HV cable length
Auxiliary supply Voltage V ± % Frequency Hz ± %
Control supply UPS (Y/N) No. of phases V Hz
Motor parameters
Type of motor £ Induction £ Synchronous £ New £ Existing (retrofit)
Rated power kW hp Number of poles
Maximum power kW hp
Rated speed rpm Maximum speed rpm
Rated frequency Hz Efficiency % Power factor pu
Rated current A DOL starting current A
Maximum torque % Inertia J (GD2/4) kgm2
Excitation current A Excitation voltage V
Ventilation £ Self-ventilated £ Force-ventilated
Load parameters
Type of load £ Variable torque £ Constant torque £ Constant power £ Other
Breakaway torque (at 0 rpm) kNm pu
Gear Reduction ratio Inertia J (GD2/4) kgm2
Starting time
Overtorque £ 110% 60 s every 10 min. £ 150% 60 s every 10 min. £ Other
Acceleration time Deceleration time
Braking £ Regenerative £ Resistance Braking power kW Cycle
£ Reverse speed
Installation
Temperature (°C) Indoor: min. max. Outdoor: min. max.
Relative humidity Altitude £ less than 1000 m £ Other
Drive £ Indoor £ Outdoor £ Inside container Rectifier £ 12-pulse input £ 24-pulse input £ Other
£ Air cooling £ Water cooling
Input transformer £ Dry type £Oil filled £ Indoor £ Outdoor £ IP 00 £ IP54 £ Other
Distance Transformer to drive Drive to motor
Interface
No. of analog inputs 24 VDC 4~20mA No. of analog outputs 24V VDC 4~20mA
No. of digital inputs No. of digital outputs Dry contact
Communication £ Ethernet £ Modbus £ Profibus £ DeviceNet £ Other
DIA2ED1080701-EN.indd 15 22/07/09 11:36:24
Schneider Electric Industries S.A.S.
Head Office35 rue Joseph Monier 92500 Rueil-MalmaisonFRANCE
www.schneider-electric.com
Due to possible changes in standards and equipment, the features described in this document in the form of text and images are subject to confirmation by Schneider Electric.Designed and created by: GavrinisPhotos: Schneider Electric - Shutterstock
ART : 837452 Date : 07/2009
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