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Schneider ATV340D45N4E Altivar | Variable speed drive, Altivar Machine ATV340, 45 kW, 400 V, 3 phases, Ethernet

Schneider Electric
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Schneider ATV340D45N4E Altivar

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Schneider ATV340D45N4E Altivar

Energy Efficiency

By optimizing motor speed according to load requirements, the ATV340D45N4E significantly reduces energy consumption, leading to lower operational costs and a smaller carbon footprint. Schneider Electric‘s support tools to analyze and troubleshoot problems. If necessary, contact technical support for further assistance

Enhanced Performance

The drive’s advanced control algorithms ensure smooth and accurate motor operation, minimizing mechanical wear and improving the overall performance of the equipment.

Cost Savings

With reduced energy usage, lower maintenance requirements, and extended equipment life, the ATV340D45N4E offers substantial cost savings over the long term, providing a strong return on investment.

Installation and Setup Guide

Pre-installation Preparations

Before installing the ATV340D45N4E, ensure that the installation environment meets the drive’s requirements, including temperature, humidity, and space considerations.

Choosing the Right Location

Select a well-ventilated area away from direct sunlight, excessive dust, and corrosive substances. Ensure adequate space around the drive for cooling and maintenance.

Electrical Requirements

Verify that the electrical supply matches the drive’s specifications, including voltage, frequency, and current capacity. Use appropriate protective devices and follow local electrical codes.

Installation Process

Once the location and electrical requirements are confirmed, proceed with mounting the drive and making the necessary electrical connections.

Mounting the Drive

Secure the ATV340D45N4E to a stable, vibration-free surface using the mounting holes provided. Ensure proper alignment and secure all fasteners tightly.

Wiring Connections

Connect the input power, motor, and control wiring according to the wiring diagram provided in the manual. Double-check all connections for accuracy and secure them to prevent loosening due to vibration.

Configuration and Programming

After physical installation, configure the drive settings and program the parameters to suit the specific application requirements.

Basic Settings

Set up basic parameters such as motor type, rated voltage, frequency, and acceleration/deceleration times using the drive’s keypad or configuration software.

Advanced Parameters

Adjust advanced settings such as PID control, communication settings, and custom function blocks to optimize the drive’s performance for the specific application.

Maintenance and Troubleshooting

Regular Maintenance Tips

To ensure reliable operation and longevity, perform regular maintenance on the ATV340D45N4E drive.

Inspection

Regularly inspect the drive for signs of wear, damage, or overheating. Check for loose connections, dust buildup, and ensure that the cooling system is functioning properly.

Cleaning

Keep the drive and its surrounding area clean. Use a dry cloth to remove dust from the exterior and compressed air to clean the cooling fins and air intake grilles.

Troubleshooting Common Issues

If the drive encounters operational issues, use the following troubleshooting tips to diagnose and resolve problems.

Error Codes

Refer to the user manual for explanations of error codes displayed on the drive. Follow the recommended corrective actions to resolve the issues.

Diagnostic Tools

Utilize the drive’s built-in diagnostic features and Schneider Electric’s support tools to analyze and troubleshoot problems. If necessary, contact technical support for further assistance.

Case Studies: Real-World Applications

Automotive Manufacturing

In an automotive manufacturing plant, the ATV340D45N4E is used to control assembly line conveyors, providing precise speed control and synchronization to improve production efficiency and product quality.

Food and Beverage Industry

A food processing facility employs the Altivar drive to regulate the speed of mixers and conveyor belts, ensuring consistent product quality and reducing energy consumption.

Water and Wastewater Treatment

The drive is used in water treatment plants to control the speed of pumps and aerators, optimizing flow rates and energy usage while ensuring reliable operation.

Future Trends and Developments

Integration with IoT

The future of industrial automation includes the integration of IoT technologies. The ATV340D45N4E is poised to benefit from this trend, offering enhanced monitoring, predictive maintenance, and data analytics capabilities.

Enhanced Connectivity Options

Schneider Electric is continually developing new connectivity options for the Altivar series, ensuring compatibility with emerging communication standards and protocols to facilitate advanced automation and control.

Predictive Maintenance Features

Future iterations of the Altivar drive are expected to include more sophisticated predictive maintenance features, leveraging machine learning and AI to predict failures and schedule maintenance proactively.

Conclusion

The Schneider ATV340D45N4E Altivar is a powerful and versatile variable speed drive designed to meet the demands of modern industrial applications. Its advanced features, ease of installation, and superior performance make it an ideal choice for enhancing the efficiency and reliability of automation systems. By leveraging the capabilities of this drive, businesses can achieve significant energy savings, improved process control, and reduced operational costs.

SKU: ATV340D45N4E Category:
Main
range of product Altivar Machine ATV340
Product or component typee 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 88.0 A
Motor power kW 55 kW for normal duty
45 kW for heavy duty
Motor power hp 75 hp for normal duty
60 hp for heavy duty
EMC filter Class C3 EMC filter integrated
IP degree of protection IP20
Degree of protection UL type 1
Complementary
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 Constant torque standard
Optimized torque mode
Variable 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 S, U or customized
Linear adjustable separately from 0.01…9999 s
Motor slip compensation Not available in permanent magnet motor law
Can be suppressed
Adjustable
Automatic whatever the load
Switching frequency 1…8 kHz adjustable
2.5…8 kHz with derating factor
Nominal switching frequency 2.5 kHz
Braking to standstill By DC injection
Brake chopper integrated True
Line current 97.2 A at 380 V (normal duty)
84.2 A at 480 V (normal duty)
81.4 A at 380 V (heavy duty)
71.8 A at 480 V (heavy duty)
Line current 97.2 A at 380 V with internal line choke (normal duty)
84.2 A at 480 V with internal line choke (normal duty)
81.4 A at 380 V with internal line choke (heavy duty)
71.8 A at 480 V with internal line choke (heavy duty)
81.4 A
71.8 A
Maximum input current 97.2 A
Maximum output voltage 480 V
Apparent power 70 kVA at 480 V (normal duty)
59.7 kVA at 480 V (heavy duty)
Maximum transient current 127.2 A during 60 s (normal duty)
132 A during 60 s (heavy duty)
127.2 A during 2 s (normal duty)
132 A during 2 s (heavy duty)
Electrical connection Screw terminal, clamping capacity: 0.75…1.5 mm² for control
Screw terminal, clamping capacity: 70…120 mm² for line side
Screw terminal, clamping capacity: 70…120 mm² for DC bus
Screw terminal, clamping capacity: 70…120 mm² for motor
Prospective line Isc 50 kA
Base load current at high overload 88.0 A
Base load current at low overload 106.0 A
Power dissipation in W Natural convection: 105 W at 380 V, switching frequency 4 kHz (heavy duty)
Forced convection: 943 W at 380 V, switching frequency 4 kHz (heavy duty)
Natural convection: 115 W at 380 V, switching frequency 4 kHz (normal duty)
Forced convection: 917 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 70…120 mm²/AWG 1/0…250 kcmil
DC bus: screw terminal 70…120 mm²/AWG 1/0…250 kcmil
Motor: screw terminal 70…120 mm²/AWG 1/0…250 kcmil
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 271.0 mm
height 908.0 mm
Depth 309.0 mm
Net weight 56.4 kg
Continuous output current 106 A at 4 kHz for normal duty
88 A at 4 kHz for heavy duty
Environment
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 295.0 m3/h
Type of cooling Forced convection
Overvoltage category Class III
Regulation loop Adjustable PID regulator
Noise level 62.4 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
Packing Units
Unit Type of Package 1 PCE
Number of Units in Package 1 1
Package 1 Height 60 cm
Package 1 Width 43 cm
Package 1 Length 111 cm
Package 1 Weight 66 kg

Main Document

Data Sheet : ATV340D45N4E 

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فندق انتركونتيننتال سيتى ستارز قاعة السرايا بتاريخ 22-09-2024