슈나이더 알티바 71 주파수 변환기 모델 ATV71HC28N4(지)

Complete Model Interpretation

Model Segment	설명
ATV71	제품 시리즈: 슈나이더 알티바 71 high-performance frequency converter, designed for complex, high-power mechanical equipment, primarily replacing the ATV58/68 series
H	Voltage Class: Three-phase 380~480V (50/60헤르츠)
기음	Application Type: Constant Torque application, suitable for high-torque scenarios such as hoisting, lifting, and material handling
28	Power Code: Corresponding to a rated motor power of 280kW (some documents indicate compatibility with 315kW motors)
N4	Standard Configuration: Built-in Class B EMC filter, IP20 protection class, no built-in braking unit
(지)	Special Identifier: Indicates聽no built-in graphic display terminal, only equipped with a basic operation panel

핵심 기술 매개변수

매개변수 항목	값	비고
Rated Input Voltage	Three-phase 380~480V, 50/60헤르츠	Allowable fluctuation range: -15%~+10%
Rated Output Power	280kW (compatible with 315kW motors)	Rated value for constant torque applications
Rated Output Current	550에이	Continuous output current at 2.5kHz carrier frequency
Instantaneous Output Current	825에이 (for 60 초)	150% of rated current, suitable for heavy-duty starting
Maximum Output Frequency	600헤르츠	Meets the control requirements of high-speed motors
Control Modes	V/F open-loop, vector control (optional)	Supports multiple motor control algorithms for different application scenarios
Built-in Components	Class B EMC filter, basic operation panel	The Z version has no graphic display terminal; the VW3A1101 graphic terminal needs to be purchased separately
보호 등급	IP20	Suitable for installation inside electrical control cabinets
Recommended Accessories	NSX630 circuit breaker, LC1F630 contactor are recommended	Ensure the safe operation of the electrical system

III. 핵심 제품 특징

High Torque Performance: Specifically designed for constant torque loads, with a starting torque of up to 150% of the rated torque, ideal for equipment requiring stable torque output such as cranes, elevators, and conveyor belts
Flexible Control Functions: 지원 8 preset speeds, PID regulator, and brake control logic to meet complex motion control requirements
Integrated Communication Capability: Built-in Modbus and CANopen communication interfaces; support for industrial networks such as Profibus and Ethernet via expansion cards
Comprehensive Protection Mechanism: Equipped with full protection functions including overcurrent, overvoltage, 저전압, 과열, 단락, and ground fault protection, effectively safeguarding the frequency converter and motor
Easy Maintenance: Built-in diagnostic functions for quick fault location; modular design facilitates repair and component replacement
Application Scenarios and Compatible Equipment
Main Application Fields:

Hoisting Machinery: Bridge cranes, tower cranes, port cranes, 등.

Lifting Equipment: 엘리베이터, escalators, mine hoists, 등.

자재 취급: Belt conveyors, bucket elevators, screw conveyors, 등.

Other High-torque Equipment: Packaging machinery, woodworking machinery, high-inertia load equipment

Not Suitable For:

Light-load or fan/pump type variable torque applications (the ATV71D series is recommended)

Unprotected outdoor installation (additional protective enclosures are required)

Scenarios requiring frequent braking (external braking units need to be configured separately)

Key Selection and Usage Precautions
Model Differentiation:

ATV71HC28N4: Equipped with a basic operation panel, no graphic terminal

ATV71HC28N4Z: Explicitly marked without a graphic terminal, with the same configuration as the above model

ATV71HD28N4: Constant torque version with a graphic terminal

설치 요구 사항:

Must be installed inside an electrical control cabinet with IP20 protection class

Sufficient heat dissipation space must be reserved (more than 100mm on all sides: 맨 위, 맨 아래, 왼쪽과 오른쪽)

An input reactor is recommended on the input side to reduce harmonic interference

Accessory Purchase:

Graphic Display Terminal: VW3A1101 (applicable to models without the Z identifier)

제동 장치: VW3A3520 (applicable to scenarios requiring frequent braking)

Communication Expansion Cards: VW3A3306 (Profibus DP), VW3A3310 (Ethernet), 등.

Product Status Description

This model was discontinued on March 31, 2020. Schneider recommends the ATV930 series as a replacement product (model ATV930C28N4Z), which features more advanced control algorithms, higher energy efficiency, and more comprehensive communication functions.

Installation, Wiring Guide and Troubleshooting Manual for Schneider ATV71HC28N4(지) Frequency Converter

Key Installation Guidelines

1.1 설치 전 준비

Safety Prerequisites: Only operated by certified electricians. Disconnect all power supplies before installation and wait for 15 minutes to allow the DC bus capacitors to discharge completely (voltage < 45Vdc)

환경 요구 사항:

Temperature: -10°C to +40°C (derate by 1% for every 1°C increase above 40°C)

습기: 5%-95% without condensation

고도: ≤1000m (derate by 1% for every 100m increase above 1000m)

보호 등급: IP20 (cabinet installation), ensure good ventilation

Tool Preparation: Multimeter, 1000V megohmmeter, torque wrench, crimping tool, insulating tape

1.2 Mechanical Installation

설치 방법: Must be installed vertically, with 150mm heat dissipation space reserved on all sides (맨 위, 맨 아래, 왼쪽과 오른쪽)

Fixing Requirements: Secure with M12 bolts at a torque value of 50Nm to ensure stability and no vibration

Cooling System:

Equipped with built-in fan cooling; ensure air inlets are unobstructed

Clean dust in the air duct regularly (모든 3 months)

Install external cooling equipment when the ambient temperature exceeds 40°C

1.3 Electrical Connection (Core Steps)

Connection Terminal	기능	Connection Requirements
R/L1, S/L2, T/L3	Three-phase input power (380-480다섯)	1. Connect to NSX630 circuit breaker (recommended)
		2. Copper core cable with cross-sectional area ≥240mm²
		3. Torque value: 60Nm
U, 다섯, 여	Three-phase output (connected to motor)	1. Copper core cable with cross-sectional area ≥240mm²
		2. Motor power ≤315kW
		3. Torque value: 60Nm
		4. Cable length ≤100m (no filter required)
PA, PC	DC bus terminals	1. Connect to the built-in DC reactor
		2. External power supply is prohibited
PO, PC	Braking resistor terminals	1. Connect only when rapid braking is required
		2. Braking resistor power ≥15kW
+24다섯, GND	Control power supply	1. Connect to 24V DC power supply
		2. Copper core cable with cross-sectional area ≥2.5mm²
AI1-AI2	Analog input	1. Connected with shielded cable
		2. Shield layer grounded at one end
DI1-DI6	Digital input	1. Dry contact or PNP/NPN signal
		2. Copper core cable with cross-sectional area ≥1.5mm²
DO1-DO3	Digital output	1. Relay output (250VAC/30VDC)
		2. Maximum current: 5에이
체육	Protective grounding	1. Copper core cable with cross-sectional area ≥95mm²
		2. Must be connected to the system grounding bar
		3. Torque value: 60Nm

Connection Notes:

Route input and output cables separately (distance ≥300mm) to avoid electromagnetic interference
Use shielded cables for control circuits, with the shield layer grounded at one end (on the frequency converter side)
Perform a tensile test on all terminal connections to ensure no looseness
Install a surge suppressor on the motor side (optional)

1.4 Control Circuit Wiring

Basic Control Circuit:

Connect the start (DI1), 멈추다 (DI2), and forward/reverse (DI3) terminals

Ensure the emergency stop circuit is independent of the frequency converter control

Communication Connection:

Modbus: Connect to RS485 terminals (+, -) with a baud rate of 9600-19200bps

Profibus: Install the optional VW3A3407 communication card

Wiring Inspection and Commissioning Process

2.1 Wiring Inspection

Insulation Test:

Insulation resistance between input/output terminals and ground ≥1MΩ (tested with 1000V megohmmeter)

Motor winding insulation resistance ≥1MΩ

Continuity Test:

Check that there is no short circuit between input and output terminals

Verify normal continuity of control circuit terminals

매개변수 설정:

Restore factory settings (P0.01=1)

Set motor parameters (P1.01-P1.07): rated power, voltage, 현재의, 빈도

Set control mode (P2.01=0: V/F control; =1: vector control)

2.2 Commissioning Steps

No-load Commissioning:

Disconnect the motor, start the frequency converter, and check for balanced output voltage

Test the frequency adjustment range (0-60헤르츠)

Loaded Commissioning:

Connect the motor, set acceleration time (P4.01=10s) and deceleration time (P4.02=15s)

Gradually load up to 100% and check for normal current and temperature

Test overload capacity (150% 정격 전류의 60 초)

Troubleshooting Manual

2.1 Fault Diagnosis Process

Fault Identification: Record fault codes, operating status at the time of fault, and parameter settings
Preliminary Inspection:

Power off and check for loose wiring and insulation damage

Inspect the cooling system and dust in the air duct

Measure power supply voltage and motor insulation

Targeted Troubleshooting: Identify causes based on fault codes
Solution Implementation: Repair or replace faulty components
Verification Test: Conduct trial operation after fault elimination to confirm no abnormalities

2.2 Common Fault Codes and Solutions (Core Content)

Fault Code	Fault Type	가능한 원인	솔루션
SCF1	Motor Short Circuit	1. Motor winding short circuit	1. Test motor insulation with a megohmmeter
		2. Output cable damage	2. Inspect cables and replace damaged parts
		3. IGBT module damage	3. Run transistor test (메뉴 1.10)
			4. Replace IGBT module
SCF2	Ground Short Circuit	1. Motor or cable grounding	1. Check motor grounding resistance ≥1MΩ
		2. Internal grounding of frequency converter	2. Test insulation between output terminals and ground
			3. Replace damaged components
OCF	Overcurrent	1. Sudden load change	1. Extend acceleration time (P4.01)
		2. Excessively short acceleration time	2. Inspect load and eliminate mechanical faults
		3. Incorrect motor parameters	3. Reconfigure motor parameters
			4. Check current detection circuit
OLF	Motor Overload	1. Load exceeds rated value	1. Reduce load or operate at derated capacity
		2. Incorrect motor thermal protection parameters	2. Set correct motor thermal current (ITH)
		3. Poor heat dissipation	3. Clean air duct and improve heat dissipation
			4. Inspect motor cooling fan
OHF	Frequency Converter Overheating	1. Excessively high ambient temperature	1. Improve ventilation and reduce ambient temperature
		2. Fan damage	2. Inspect fan and replace damaged parts
		3. Air duct blockage	3. Clean dust from air duct
			4. Check temperature sensor
USF	Undervoltage	1. Input voltage below 340V	1. Check grid voltage and install a voltage stabilizer if necessary
		2. Pre-charging resistor damage	2. Inspect pre-charging circuit
		3. Power supply fluctuation	3. Extend pre-charging time
			4. Replace damaged resistor
OSF	과전압	1. Input voltage above 480V	1. Check grid voltage
		2. Excessively short deceleration time	2. Extend deceleration time (P4.02)
		3. Braking unit fault	3. Inspect braking unit and resistor
			4. Activate voltage suppression function
PHF	Input Phase Loss	1. Phase loss in input power supply	1. Check three-phase voltage balance
		2. Circuit breaker fault	2. Inspect circuit breaker and contactor
		3. Input contactor fault	3. Replace damaged components
			4. Check LCF parameter settings
EnF	Encoder Fault	1. Loose encoder connection	1. Inspect encoder wiring
		2. Encoder damage	2. Test encoder signal
		3. Incorrect parameter settings	3. Reconfigure encoder parameters
			4. Replace encoder

2.3 Advanced Troubleshooting

Parameter Faults:

When “Invalid Setting” is displayed, press the ENT key twice to restore factory parameters

When parameters are corrupted, restore factory settings via P0.01=1

Communication Faults:

Check for loose communication cable and connectors

Confirm that baud rate and address settings match the host system

Test communication module and replace faulty modules

Hardware Faults:

Power Module Fault: Measure DC bus voltage (normal range: 540-600다섯)

Control Board Fault: Inspect indicator lights and replace control board if necessary

Driver Board Fault: Replace driver board and perform re-commissioning

III. Maintenance Schedule

유지보수 주기	Maintenance Content	Notes
Daily	Check operating status, parameters, and temperature	Record any abnormalities
Weekly	Clean surface dust and inspect cooling fans	Ensure fans are operating normally
Monthly	Check for loose wiring and cable insulation	Perform torque check on terminal connections
Quarterly	Clean dust in air duct and inspect insulation resistance	Use compressed air for dust cleaning
Annual	Comprehensive inspection and replacement of wearing parts (팬, capacitors)	Must be performed by professional personnel
Biennial	Capacitor performance test and full-machine commissioning	Replace capacitors if necessary