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Schneider ATV340D37N4E Altivar |Variable speed drive, Altivar Machine ATV340, 37 kW, 400 V, 3 phases, Ethernet
Schneider ATV340D37N4E Altivar
EGP 328,776.00
Description
Schneider ATV340D37N4E Altivar
Introduction
The Schneider ATV340D37N4E Altivar is a powerhouse in the realm of industrial automation. As industries increasingly rely on sophisticated machinery, the need for precise control over motor speed and torque has become paramount. This is where Variable Speed Drives (VSDs) come into play, and Schneider Electric, a global leader in automation and control, has been at the forefront of this technology with their Altivar series.
Understanding Variable Speed Drives (VSDs)
What is a Variable Speed Drive?
A Variable Speed Drive, commonly referred to as a VSD, is a device that controls the speed and torque of electric motors by varying the motor input frequency and voltage. This capability is essential for applications requiring high precision, efficiency, and performance.
Benefits of Using VSDs in Industrial Settings
VSDs offer numerous benefits, including:
- Energy Savings: By adjusting motor speed to match load requirements, VSDs significantly reduce energy consumption.
- Improved Process Control: Enhanced precision in controlling motor speed and torque.
- Extended Equipment Life: Reduced mechanical stress on motors and other components.
Schneider Electric: A Leader in Automation and Control
Brief History of Schneider Electric
Schneider Electric has a rich history dating back to the 19th century. Over the years, it has evolved into a global specialist in energy management and automation, offering innovative solutions across various industries.
Schneider Electric’s Contributions to Industrial Automation
Schneider Electric’s portfolio includes a wide range of products and solutions designed to enhance efficiency, reliability, and safety in industrial operations. The Altivar series of VSDs is a prime example of their commitment to innovation and quality.
Overview of the Altivar Series
Introduction to the Altivar Series
The Altivar series by Schneider Electric is renowned for its advanced features and reliability. These drives are designed to meet the diverse needs of modern industrial applications, offering robust performance and ease of use.
Key Features of the Altivar Range
- Scalability: Suitable for a broad range of power ratings and applications.
- User-Friendly Interfaces: Intuitive design for easy setup and operation.
- Advanced Control Functions: Enhanced motor control capabilities for improved process efficiency.
Introducing the Schneider ATV340D37N4E Altivar
Detailed Specifications
The Schneider ATV340D37N4E Altivar stands out with its specific set of features tailored for demanding industrial environments.
Unique Features of the ATV340D37N4E
- High Performance: Optimized for dynamic applications requiring rapid response times.
- Robust Design: Built to withstand harsh industrial conditions.
- Advanced Connectivity: Offers multiple communication options for seamless integration with other systems.
Technical Specifications
Electrical Characteristics
- Voltage Range: 380-480V AC
- Power Rating: 37 kW
- Frequency Range: 0.1 to 599 Hz
Mechanical Properties
- Dimensions: Compact design for easy installation
- Weight: Lightweight for ease of handling
Environmental Specifications
- Operating Temperature: -10°C to 50°C
- Protection Rating: IP21 standard, with options for higher protection levels
Installation and Setup
Pre-Installation Considerations
Before installing the ATV340D37N4E, ensure that the site conditions meet the required specifications, including proper ventilation and protection from dust and moisture.
Step-by-Step Installation Guide
- Mounting: Secure the drive in a well-ventilated location.
- Electrical Connections: Connect the power supply, motor, and control circuits.
- Configuration: Use the integrated keypad or software tool to configure the drive settings.
Initial Configuration and Programming
Follow the user manual to set up initial parameters, including motor type, speed, and torque settings. Utilize Schneider Electric’s software tools for more advanced programming needs.
Performance and Efficiency
Energy Efficiency Benefits
The ATV340D37N4E is designed to optimize energy usage, providing significant cost savings over the lifecycle of the equipment. By adjusting motor speed to match load requirements, it reduces unnecessary energy consumption.
Performance Benchmarks
This model excels in dynamic applications, offering rapid acceleration and deceleration capabilities. Its performance metrics often exceed industry standards, making it a top choice for demanding environments.
Control and Monitoring Capabilities
Interface Options
The ATV340D37N4E supports a variety of interfaces, including:
- Digital Keypad: For easy on-site control.
- Remote Monitoring: Via Ethernet and other communication protocols.
Remote Monitoring and Control
With built-in connectivity options, the ATV340D37N4E can be monitored and controlled remotely, providing real-time data and diagnostics to optimize performance and maintenance schedules.
Applications of the ATV340D37N4E
Common Industrial Applications
This versatile drive is ideal for applications such as:
- Conveyor Systems: Precise speed control for material handling.
- Pumps and Fans: Enhanced energy efficiency and process control.
- Machining Tools: High-performance motor control for precision operations.
Case Studies and Success Stories
Numerous industries have successfully integrated the ATV340D37N4E into their operations, achieving improved efficiency and reduced operational costs. For instance, a manufacturing plant reported a 20% reduction in energy consumption after upgrading to this model.
Additional information
| brands | Schneider Electric |
|---|
Specifications
| Range of product | Altivar Machine ATV340 |
|---|---|
| Product or component type | Variable speed drive |
| Product specific application | Machine |
| variant | Standard version |
| Mounting mode | Wall mount |
| communication port protocol | Modbus TCP Modbus serial EtherNet/IP |
| Option card | Communication module, PROFINET Communication module, DeviceNet Communication module, CANopen Communication module, EtherCAT |
| Network number of phases | 3 phases |
| Supply frequency | 50...60 Hz +/- 5 % |
| [Us] rated supply voltage | 380...480 V - 15...10 % |
| Nominal output current | 74.5 A |
| Motor power kW | 45 kW for normal duty 37 kW for heavy duty |
| Motor power hp | 60 hp for normal duty 50 hp for heavy duty |
| EMC filter | Class C3 EMC filter integrated |
| IP degree of protection | IP20 |
| Degree of protection | UL type 1 |
| Discrete input number | 8 |
|---|---|
| Discrete input type | PTI safe torque off: 0…30 kHz, 24 V DC (30 V) DI1...DI5 programmable as pulse input, 24 V DC (30 V), impedance: 3.5 kOhm programmable |
| number of preset speeds | 16 preset speeds |
| Discrete output number | 1.0 |
| Discrete output type | Programmable output DQ1, DQ2 30 V DC 100 mA |
| analogue input number | 3 |
| Analogue input type | AI1 software-configurable current: 0...20 mA, impedance: 250 Ohm, resolution 12 bits AI1 software-configurable temperature probe or water level sensor AI1 software-configurable voltage: 0...10 V DC, impedance: 31.5 kOhm, resolution 12 bits AI2 software-configurable voltage: - 10...10 V DC, impedance: 31.5 kOhm, resolution 12 bits |
| analogue output number | 2 |
| Analogue output type | Software-configurable voltage AQ1, AQ2: 0...10 V DC impedance 470 Ohm, resolution 10 bits Software-configurable current AQ1, AQ2: 0...20 mA impedance 500 Ohm, resolution 10 bits |
| Relay output number | 3 |
| Output voltage | <= power supply voltage |
| Relay output type | Relay outputs R1A Relay outputs R1C electrical durability 100000 cycles Relay outputs R2A Relay outputs R2C electrical durability 100000 cycles |
| Maximum switching current | Relay output R1C on resistive load, cos phi = 1: 3 A at 250 V AC Relay output R1C on resistive load, cos phi = 1: 3 A at 30 V DC Relay output R1C on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 250 V AC Relay output R1C on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 30 V DC Relay output R2C on resistive load, cos phi = 1: 5 A at 250 V AC Relay output R2C on resistive load, cos phi = 1: 5 A at 30 V DC Relay output R2C on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 250 V AC Relay output R2C on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 30 V DC |
| Minimum switching current | Relay output R1B: 5 mA at 24 V DC Relay output R2C: 5 mA at 24 V DC |
| Physical interface | 2-wire RS 485 |
| Connector type | 3 RJ45 |
| Method of access | Slave Modbus RTU Slave Modbus TCP |
| Transmission rate | 4.8 kbit/s 9.6 kbit/s 19.2 kbit/s 38.4 kbit/s |
| Transmission frame | RTU |
| Number of addresses | 1…247 |
| Data format | 8 bits, configurable odd, even or no parity |
| Type of polarization | No impedance |
| 4 quadrant operation possible | True |
| Asynchronous motor control profile | Optimized torque mode Variable torque standard Constant torque standard |
| Synchronous motor control profile | Reluctance motor Permanent magnet motor |
| Pollution degree | 2 conforming to IEC 61800-5-1 |
| Maximum output frequency | 0.599 kHz |
| Acceleration and deceleration ramps | Linear adjustable separately from 0.01...9999 s S, U or customized |
| Motor slip compensation | Adjustable Can be suppressed Automatic whatever the load Not available in permanent magnet motor law |
| Switching frequency | 2...16 kHz adjustable 4...16 kHz with derating factor |
| Nominal switching frequency | 4 kHz |
| Braking to standstill | By DC injection |
| Brake chopper integrated | True |
| Line current | 79.8 A at 380 V (normal duty) 69.1 A at 480 V (normal duty) 67.1 A at 380 V (heavy duty) 59.0 A at 480 V (heavy duty) |
| Line current | 79.8 A at 380 V with internal line choke (normal duty) 69.1 A at 480 V with internal line choke (normal duty) 67.1 A at 380 V with internal line choke (heavy duty) 59 A at 480 V with internal line choke (heavy duty) 67.1 A 59.0 A |
| Maximum input current | 79.8 A |
| Maximum output voltage | 480 V |
| Apparent power | 57.4 kVA at 480 V (normal duty) 49.1 kVA at 480 V (heavy duty) |
| Maximum transient current | 105.6 A during 60 s (normal duty) 105.6 A during 2 s (normal duty) 111.8 A during 60 s (heavy duty) 111.8 A during 2 s (heavy duty) |
| Electrical connection | Screw terminal, clamping capacity: 0.75...1.5 mm² for control Screw terminal, clamping capacity: 35...50 mm² for line side Screw terminal, clamping capacity: 35...50 mm² for DC bus Screw terminal, clamping capacity: 50 mm² for motor |
| Prospective line Isc | 50 kA |
| Base load current at high overload | 74.5 A |
| Base load current at low overload | 88.0 A |
| Power dissipation in W | Natural convection: 90 W at 380 V, switching frequency 4 kHz (heavy duty) Forced convection: 796 W at 380 V, switching frequency 4 kHz (heavy duty) Natural convection: 105 W at 380 V, switching frequency 4 kHz (normal duty) Forced convection: 943 W at 380 V, switching frequency 4 kHz (normal duty) |
| Electrical connection | Control: screw terminal 0.75...1.5 mm²/AWG 18...AWG 16 Line side: screw terminal 35...50 mm²/AWG 2...AWG 1 DC bus: screw terminal 35...50 mm²/AWG 3...AWG 1 Motor: screw terminal 50 mm²/AWG 1 |
| With safety function Safely Limited Speed (SLS) | True |
| With safety function Safe brake management (SBC/SBT) | True |
| With safety function Safe Operating Stop (SOS) | False |
| With safety function Safe Position (SP) | False |
| With safety function Safe programmable logic | False |
| With safety function Safe Speed Monitor (SSM) | False |
| With safety function Safe Stop 1 (SS1) | True |
| With sft fct Safe Stop 2 (SS2) | False |
| With safety function Safe torque off (STO) | True |
| With safety function Safely Limited Position (SLP) | False |
| With safety function Safe Direction (SDI) | False |
| Protection type | Thermal protection: motor Safe torque off: motor Motor phase loss: motor Thermal protection: drive Safe torque off: drive Overheating: drive Overcurrent: drive Output overcurrent between motor phase and earth: drive Output overcurrent between motor phases: drive Short-circuit between motor phase and earth: drive Short-circuit between motor phases: drive Motor phase loss: drive DC Bus overvoltage: drive Line supply overvoltage: drive Line supply undervoltage: drive Input supply loss: drive Exceeding limit speed: drive Break on the control circuit: drive |
| Width | 213.0 mm |
| height | 660.0 mm |
| Depth | 262.0 mm |
| Net weight | 28.4 kg |
| Continuous output current | 88 A at 4 kHz for normal duty 74.5 A at 4 kHz for heavy duty |
| Operating altitude | <= 4800 m with current derating above 1000m |
|---|---|
| Operating position | Vertical +/- 10 degree |
| product certifications | UL CSA TÜV EAC CTick |
| Marking | CE |
| Standards | IEC 61800-3 IEC 61800-5-1 IEC 60721-3 IEC 61508 IEC 13849-1 UL 618000-5-1 UL 508C IEC 61000-3-12 |
| Maximum THDI | <48 % full load conforming to IEC 61000-3-12 <48 % 80 % load conforming to IEC 61000-3-12 |
| Assembly style | With heat sink |
| Electromagnetic compatibility | Electrostatic discharge immunity test level 3 conforming to IEC 61000-4-2 Radiated radio-frequency electromagnetic field immunity test level 3 conforming to IEC 61000-4-3 Electrical fast transient/burst immunity test level 4 conforming to IEC 61000-4-4 1.2/50 µs - 8/20 µs surge immunity test level 3 conforming to IEC 61000-4-5 Conducted radio-frequency immunity test level 3 conforming to IEC 61000-4-6 |
| Environmental class (during operation) | Class 3C3 according to IEC 60721-3-3 Class 3S3 according to IEC 60721-3-3 |
| Maximum acceleration under shock impact (during operation) | 150 m/s² at 11 ms |
| Maximum acceleration under vibrational stress (during operation) | 10 m/s² at 13...200 Hz |
| Maximum deflection under vibratory load (during operation) | 1.5 mm at 2...13 Hz |
| Permitted relative humidity (during operation) | Class 3K5 according to EN 60721-3 |
| Volume of cooling air | 240.0 m3/h |
| Type of cooling | Forced convection |
| Overvoltage category | Class III |
| Regulation loop | Adjustable PID regulator |
| Noise level | 63.5 dB |
| Pollution degree | 2 |
| Ambient air transport temperature | -40…70 °C |
| Ambient air temperature for operation | -15…50 °C without derating (vertical position) 50…60 °C with derating factor (vertical position) |
| Ambient air temperature for storage | -40…70 °C |
| Isolation | Between power and control terminals |
| Unit Type of Package 1 | PCE |
|---|---|
| Number of Units in Package 1 | 1 |
| Package 1 Height | 54 cm |
| Package 1 Width | 34 cm |
| Package 1 Length | 84 cm |
| Package 1 Weight | 37.6 kg |
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