Easiness:
- Easy to install quicker and easier installation with integrated Modbus communication and the numerous, easy to identify markings
- Easy to set up and use: short menu label sticking on product, and full parameter list can be configured in complete safety with the power off, even in its packaging, using the Multi-Loader console. ; quick start guide for immediate setup
- Easy to maintain: cooling fan can be changed without any tool
- Robustness in any situation
- Robust design for harsh environment: air flow system and resistance to disturbed power supplies are designed to withstand even the harshest environments ; all cards are coated as standard ; can work in temperatures up to 55°C without derating ; long-life components (10 years service life)
- Ever higher protection and performance for your motors: adaptability to different motors and various tough loads ; protection upstream of the drive in the event of a short-circuit on the power stage
Availability:
- Supported by the service of Schneider Electric, a worldwide leader in automation and control Wide availability throughout an extensive distribution network
Series: Schneider Inverter ATV310 series
Features
– Schneider Inverter ATV310 has small size, that should be suitable with the application of the terminal device in the industry.
– Protect motor.
– Work in hard working
– Smooth Operation.
– Tackling Power Loss and Recovery.
– Inverter ATV310, Energy Saving, Environmental Features, Safety.
Specifications
| Application of Schneider Inverter ATV310 | ND: Fans, Pumps,
HD: conveyor, packing machine, printer, material handling… |
| Power supply | 3P, 360V to 480Vac (− 15% to +10%) 50/60 Hz (± 5%) |
| Rated capacity | 0.37-11kW |
| Rated current | 2.5- 40A |
| Output frequency range | -400 to 400 Hz |
| Starting Torque | 170…200 % of nominal motor torque depending on drive rating and type of motor |
| Overload current rating | Internal supply for reference potentiometer : 5 V (4.75…5.25 V) DC 10 mA with overload and shortcircuit protection
Internal supply for logic inputs : 24 V (20.4…28.8 V) DC 100 mA with overload and short-circuit protection |
| Control Method | Asynchronous motor control, V/F control, Sensorless vector control. |
| Braking unit | Up to 150 % of nominal motor torque with braking resistor at high inertia
Up to 70 % of nominal motor torque without braking resistor |
| Input | Analogue input type
Configurable current (AI1) 0…20 mA, impedance 250 Ohm Configurable voltage (AI1) 0…10 V, impedance 30 kOhm Configurable voltage (AI1) 0…5 V, impedance 30 kOhm Discrete input type 24 V (18…30 V) programmable, at LI1…LI4 terminal(s) Discrete input logic Positive logic (source), 0…< 5 V (state 0), > 11 V (state 1) Negative logic (sink), > 16 V (state 0), < 10 V (state 1), input impedance 3.5 kOhm |
| Ouput | Analog Output,
AO1 software-configurable voltage : 0…10 V, impedance: 470 Ohm, resolution 8 bits AO1 software-configurable current : 0…20 mA, impedance: 800 Ohm, resolution 8 bits Discrete output (LO+, LO-) logic output (R1A, R1B, R1C) protected relay output 1 C/O |
| Protection Function | Against input phase loss in three-phase
Thermal motor protection via the drive by continuous calculation of I²t Line supply overvoltage Line supply undervoltage Overcurrent between output phases and earth Overheating protection Short-circuit between motor phases |
| Main Control Functions | 2-wire type control, Auto-tuning, PID(wake up function), Torque Control, Underload Time Delay, Overload Time Delay, Speed/Torque Control, 3-wire control. |
| Communication | Modbus
RJ45 for Modbus on front face, Physical interface: 2-wire RS 485 for Modbus Transmission frame: RTU for Modbus |
| Peripheral Devices and Options | HMI, Card |
| Degree of protection | IP41 on top
IP20 without blanking plate on upper part |
