Schneider ATV310HU75N4E Variable Frequency Drive

Modellcode-Definition

Codesegment	Beschreibung
ATV	Base series code: Altivar Variable Speed Drive, Schneider’s VFD product line
310	Series designation: Economy Altivar 310 Serie, cost-effective drives for general industrial applications
H	Load rating: Robust, designed for continuous heavy-load operation with higher rated output current
U75	Nennleistung: 7.5 kW (10 PS), matched for 7.5kW three-phase asynchronous motors
N4	Power supply specification: 3-phase 380–460 V AC, 50/60 Hz; permissible voltage variation: -15% ~ +10%
E	Configuration option: Standard version without built-in EMC filter; models with integrated filter end with suffix A

Grundlegende technische Spezifikationen

2.1 Elektrische Spezifikationen

Artikel	Wert	Bemerkung
Nennleistung	7.5kW(10PS) Robust / 11kW(15PS) Normaler Dienst	Dual rating design for diverse working conditions
Nenneingangsspannung	3-phase 380–460 V AC	Operating range:323–528 V AC
Nennausgangsstrom	17 A (HD) / 24 A (ND)	Full rating up to 55°C; 2.2% derating per °C above 55°C up to 60°C
Output Frequency Range	0.1~500 Hz	Minimum 0.1Hz under sensorless vector control
Steuermodus	Sensorlose Vektorsteuerung / V/F-Steuerung	Automatic torque boost for various asynchronous motors
Instant Overload Torque	170~200% of rated torque	Sustain for 2 seconds for shock load applications
Built-in Braking Unit	Standard equipped	Pre-installed on models ≥7.5kW for fast braking requirements
Kommunikationsport	RS485 (Modbus RTU)	RJ45 terminal on front panel for remote monitoring
Schutzklasse	IP20	Cabinet indoor mounting only

2.2 Mechanisch & Umweltspezifikationen

Artikel	Wert	Bemerkung
Gesamtdimension(B×H×T)	210×380×170 mm	Compact footprint to save cabinet space
Montageart	Wand / Panelmontage	Vertical installation to secure unobstructed cooling airflow
Betriebstemperatur	-10℃ ~ +55℃ (full rating)	2.2% power derating per ℃ between 55℃~60℃
Lagertemperatur	-25℃ ~ +70℃	Keep away from damp and corrosive gas atmosphere
Umgebungsfeuchtigkeit	5%~95 % (nicht kondensierend)	Dehumidifier recommended inside control cabinet
Kühlmethode	Forced air cooling with built-in fan	Fan with thermal protection and auto fault alarm
Nettogewicht	Approx.7.8 kg	Easy transportation and field installation

2.3 Zertifizierung & Einhaltung

Zertifizierung	Anwendbarer Standard	Bemerkung
CE	IN 61800-5-1 / IN 61000-6-2/4	Sicherheit & EMC compliance standard
UL Recognized	UL 508C	North American standard for industrial control equipment
Eco Compliance	EU RoHS / China RoHS	Restriction of hazardous substances
HS Customs Code	85044099	Used for customs clearance in international trade

Full Heavy-Duty Model List of ATV310 Series

Teile-Nr.	Model Description	Nennleistung	Besonderheit	Typische Anwendung
ATV310HU75N4E	7.5kW Heavy Duty	7.5kW /10HP	Without built-in EMC filter	General industrial fans & Pumps
ATV310HU75N4A	7.5kW Heavy Duty	7.5kW /10HP	With built-in EMC filter	Sites with strict EMC requirements
ATV310H037N4E	0.37kW Heavy Duty	0.37kW /0.5HP	Ohne EMV-Filter	Kleine Maschinen, Förderbänder
ATV310H075N4E	0.75kW Heavy Duty	0.75kW /1HP	Ohne EMV-Filter	Mini fans & Wasserpumpen
ATV310H15N4E	1.5kW Heavy Duty	1.5kW /2HP	Ohne EMV-Filter	Verpackung & Textilmaschinen
ATV310H22N4E	2.2kW Heavy Duty	2.2kW /3HP	Ohne EMV-Filter	Materialtransportgeräte, Kompressoren
ATV310H30N4E	3.0kW Heavy Duty	3.0kW /4HP	Ohne EMV-Filter	Rührwerke, kleine Wasserpumpen
ATV310H40N4E	4.0kW Heavy Duty	4.0kW /5.5HP	Ohne EMV-Filter	Cooling towers, Lüftungsanlagen
ATV310H55N4E	5.5kW Heavy Duty	5.5kW /7.5HP	Ohne EMV-Filter	Mittelgroße Ventilatoren & process pumps
ATV310HD11N4E	11kW Heavy Duty	11kW /15HP	Ohne EMV-Filter	Große Kompressoren, industrial pumps

Querverweis: Internal Upgrade & Mitbewerber-Äquivalent

4.1 Interner Schneider-Ersatz

Obsolete Model	Ersatzmodell	Upgrade Advantages
ATV303HU75N4	ATV310HU75N4E/A	Wider operating temp (-10~55℃), integrierte Bremseinheit, anti-corrosion coating, more compact dimension
ATV310HU75N4E	ATV310HU75N4A	Add integrated EMC filter to satisfy stricter EMC regulations

4.2 Cross-brand Alternative Comparison

Schneider-Modell	Siemens Equivalent	ABB-Äquivalent	Key Differentiation
ATV310HU75N4E	MM440-7.5kW	ACS510-7.5kW	Schneider: Dual power rating, full capacity @55℃, eingebaute Bremseinheit, cost competitive
–	150% overload for 3s	160% overload for 1min	Siemens: Higher vector control precision; ABB: Richer communication options

Anwendungsbereich & Industriefälle

5.1 Empfohlene Anwendungen

Industrial Pumps & Fans: HVAC-Systeme, raw & wastewater treatment plants; 30~50% energy saving achievable
Materialhandhabung: Förderer, Hebezeuge, cranes for smooth soft start and variable speed regulation
Textile Equipment: Winding machines, looms, Drucken & dyeing machines for constant tension control
Verpackungsmaschinen: Füllung, labeling and sealing equipment to boost production efficiency & product quality
Kompressoren: Air & refrigeration compressors; soft start reduces grid surge and extends motor service life
Mischausrüstung: Chemical reactors & food blenders for mixing of fluids with variable viscosity

5.2 Not Recommended Applications

Precision speed control for synchronous motors: Select ATV340 series with encoder-feedback vector drive
High altitude installation (>1000M): Mandatory power derating by 1% per additional 100m elevation
Corrosive gas environment: Add external anti-corrosion enclosure or specify ATV320 anti-corrosion variant
IP rating higher than IP20: Choose ATV320 IP54 protected models

5.3 Typische Anwendungsfälle

Case1: Aeration System for Municipal Wastewater Plant

Anwendung: Variable speed control of 7.5kW submersible aerator based on real-time dissolved oxygen value

Original Issue: Direct-on-line start leads to short motor lifespan, high power consumption and severe grid disturbance

Lösung: Install ATV310HU75N4E for soft start; 40% power saving, double motor service life and reduced maintenance cost

Case2: Textile Spool Winding Machine

Anwendung: Constant tension control for uniform yarn winding

Original Issue: Big tension fluctuation causes high yarn breakage rate and unstable finished quality

Lösung: Adopt sensorless vector control to adjust output torque dynamically; tension tolerance controlled within ±5% and 15% improvement on finished product yield

Auswahlrichtlinien & Quick Reference Rules

Schnellauswahlregeln

Code Identification: ATV310=core series; H=Heavy Duty; U75=7.5kW; N4=3-phase 380V; E=No EMC filter
Key Specs Recap: 17Ein Nennstrom, 170~200% overload torque, integrated brake unit, Modbus RTU communication
Upgrade-Option: Suffix A = built-in EMC filter; high-performance demand → ATV340 series
Application Rule: Continuous heavy load → H version; light load → D version; strict EMC → A suffix model
Air Shipment & CE Compliance Specification

7.1 Air Transport Regulation

Lithium Battery Check: No built-in lithium cells, classified as non-restricted cargo without special air shipping marks

Shipping Standard: Complies with IATA DGR Class9, allowed for general cargo transportation

Verpackung: Original factory carton preferred; anti-shock foam padding recommended to avoid transit damage

7.2 CE Certification Details

Applied Standards: IN 61800-5-1(Sicherheit), IN 61000-6-2(Immunity), IN 61000-6-4(Emission)

DOC Download: EU Declaration of Conformity available on Schneider official website (Doc No.:ATV310_CE_DOC.pdf)

Valid Territory: All EU member states and regions recognizing CE marking

On-site Troubleshooting Guide

Fehlercode & Beschreibung	Grundursache	Corrective Action
CF Overcurrent Fault	1. Motor winding short or earth fault	1. Insulate motor cable & Wicklung
	2. Too short acceleration ramp	2. Extend acceleration time (Parameter 202)
	3. Excessive mechanical overload	3. Reduce load or upgrade to higher power drive
OH Overheat Fault	1. Excessive ambient temperature	1. Improve cabinet cooling & reduce surrounding temp
	2. Failed cooling fan	2. Inspect/replace faulty fan
	3. Poor cabinet ventilation	3. Reserve ≥10cm clearance around drive
PF Power Supply Fault	1. Abnormal input voltage (phase loss/low voltage)	1. Measure three-phase incoming voltage & Phasenfolge
	2. Severe mains fluctuation	2. Add line reactor or stabilizer
	3. Loose input terminal wiring	3. Retighten terminals at 2.5~3.0 N·m torque
SC Output Short-circuit	1. Short on output terminals	1. Check output terminal insulation
	2. Damaged motor cable insulation	2. Replace defective power cable
	3. Internal drive hardware damage	3. Contact Schneider after-sales service
FL Underload Alarm	1. Disconnection between motor and mechanical load	1. Check mechanical coupling between motor & laden
	2. Insufficient load	2. Adjust underload protection threshold (Parameter404)
	3. Incorrect parameter setting	3. Verify entered motor nameplate parameters

Installation & Wiring Specification for Field Use

9.1 Installationsanforderungen

Mounting Position: Middle/upper zone inside control cabinet, avoid dusty bottom area; vertical mounting only
Freigabe: ≥10cm left/right spacing, ≥15cm top/bottom spacing for smooth heat dissipation
Earthing Rule: Reliable PE connection; earth resistance ≤4Ω; ground conductor ≥6mm² copper cable

9.2 Main Power Circuit Wiring

Klemmenmarkierung	Definition	Verkabelungsstandard
L1/L2/L3	3-phase AC Input	≥6mm² copper cable, Anzugsdrehmoment:2.5~3.0 N·m
U/V/W	Motor Output Terminals	≥6mm² copper cable, Anzugsdrehmoment:2.5~3.0 N·m
PA/PB	External Brake Resistor Connection(Optional)	≥4mm² copper cable, Anzugsdrehmoment:2.0~2.5 N·m
PE	Protective Earth	≥6mm² copper cable, Anzugsdrehmoment:3.0~3.5 N·m

9.3 Verkabelung des Steuerstromkreises

Digital Input DI1~DI6: PNP/NPN switchable for limit switches & sensor signals
Analog Input AI1: 0~10V /4~20mA for speed reference or process feedback signal
Analog Output AO1:0~10V/4~20mA for output frequency, current or torque monitoring
Kommunikation: RS485 Modbus RTU for data exchange with PLC & HMI