SMS TAKEDO-3VF NXP User Manual (English)

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SMS TAKEDO-3VF NXP Specifications

General

Brand	SMS
Model	TAKEDO-3VF NXP
Category	DC Drives
Language	English

Summary

A QUICK GUIDE TO PUTTING ON DUTY OPEN LOOP ASYNCHRONOUS MOTORS (without encoder)

B QUICK GUIDE TO PUTTING ON DUTY CLOSED LOOP ASYNCHRONOUS MOTORS (with encoder)

C QUICK GUIDE TO PUTTING ON DUTY SYNCHRONOUS MOTORS

1 – BRAKE AND BRAKE CONTROL MICRO-SWITCH CONNECTION

Connects brake and control micro-switches for synchronous motors.

1 – INTRODUCTION

2 – SAFETY WARNINGS AND PRECAUTIONS

2.1 SAFETY WARNINGS

Essential safety guidelines to avoid serious accidents during operation.

2.2 PRECAUTIONS

Important precautions to prevent damage or destruction of the drive unit.

3 – CONNECTING THE POWER CIRCUIT

3.1 SAFETY WARNINGS

Safety guidelines for power circuit connections and component selection.

INVERTER SELECTION GUIDE

3.2 INVERTER/MOTOR CABLING RULES TO ASSURE EMC CONFORMITY

4 – BASIC APPLICATION DIAGRAMS

4.1 - ASYNCHRONOUS MOTOR WITHOUT ENABLE LOGIC

Wiring diagram for asynchronous motors without logic control.

4.2 - ASYNCHRONOUS MOTOR WITH ENABLE LOGIC AND BRAKE MICRO CONTROL IN COMPLIANCE WITH AMENDMENT 3

5 – KEYPAD AND PROGRAMMING

5.0.1 - COPYING FROM INVERTER TO KEYPAD

Procedure for transferring inverter parameters to the keypad.

5.0.2 - COPYING FROM KEYPAD TO INVERTER

Procedure for transferring parameters from keypad to inverter.

6.1 M1 = MONITOR

5.2 M2 = PARAMETERS

5.4 M4 = ACTIVE FAULTS AND WARNINGS

5.5 M5 = FAULT HISTORY

5.6 M6 = SYSTEM MENU

5.7 M7 = EXPANDER BOARDS

6 - ADJUSTMENT PROCEDURE

6.1 - ENTER MOTOR RATINGS DATA IN PARAMETERS P2.1.2 /3/4/5/6

Inputting motor nominal voltage, frequency, speed, current, and cos phi.

6.1-b) ENTER LIFT SYSTEM RATINGS DATA IN PARAMETERS P2.1.7.1 / 2 /3 / 4

Entering lift system data like speed, pulley diameter, and gear ratio.

6.2 - PLACE THE DECELERATION COMMANDS AT A DISTANCE FROM FLOOR AS INDICATED IN THE TABLE

Positioning deceleration commands relative to floor based on speed table.

6.3 - SET THE MOTOR CONTROL TYPE : OPEN LOOP OR CLOSED LOOP

6.4 - IDENTIFICATION (OPEN LOOP ONLY)

7.5-FAN CONTROL

6.6-SPECIAL FEATURES

6.6.1 POWER LIMIT

Setting the maximum power absorbed by the motor for load conditions.

6.6.2 MAXIMUM CABLE BENDING CYCLES

Information on maximum cable bending cycles based on pulley and rope diameter.

6.6.3 USE OF THE WEIGHING SYSTEM

6.6.4 SAFETY GEAR UNLOCKING

6.7 – OPEN LOOP ADJUSTMENTS

6.8 - SINGLE FLOOR TRAVEL

6.9 – MOTOR NOISE

6.10 - PARAMETERS ONLY EFFECTIVE FOR EMERGENCY OPERATION

7 - CHECKS AND MAINTENANCE

7.1 MEGGER TEST

Procedure for performing insulation resistance tests on cables and motor.

8 – CONNECTION AND ENCODER TYPES FOR ASYNCHRONOUS MOTORS

9 – CLOSED LOOP ADJUSTMENTS

9.1 - DIRECT ARRIVAL AT FLOOR FUNCTION

9.2 - SPECIAL PARAMETERS

10 - APPLICATION DRAWING FOR SYNC. MOTOR WITH ENABLE LOGIC AND BRAKE MICRO CONTROL IN COMPLIANCE WITH AMENDMENT 3

11- CONNECTION AND ENCODER TYPES FOR SYNCHRONOUS MOTORS

12 - PUTTING ON DUTY SYNCHRONOUS MOTORS

13 – SYNCHRONOUS MOTOR SETTINGS

13.1 - SINGLE FLOOR TRAVEL

16.2 - DIRECT ARRIVAL AT FLOOR FUNCTION

13.3 - SPECIAL PARAMETERS

14 – PARAMETER LIST (M2 Menu)

1- FOREWORD

2- THE TAKEDO®- 3VF NXP INVERTER COMPLIES WITH THE AMENDMENT 3: 2009 OF THE EN81-1: 1998 STANDARD

3 – CONNECTIONS FOR AMENDMENT 3

4- PUTTING ON DUTY AND PERIODIC CHECKS OF CONFORMITY

A) VERIFICATION OF THE BRAKE MECHANISM LIFTING / DROPPING

Verifies brake mechanism lifting/dropping and checks for fault messages.

B) VERIFICATION OF THE BRAKING FORCE (OPTIONAL – WITH ENCODER ONLY)

Verifies braking force by checking mechanical braking space.

C) CHECK OF THE MOVEMENT WHILE THE LIFT IS STOPPED (OPTIONAL – WITH ENCODER ONLY)

Checks for lift movement when the inverter is in standby.

D) CHECK OF THE CORRECT STOPPING SEQUENCE DURING RELEVELING (OPTIONAL – ONLY WITH RELEVELING OPERATION)

E) PERIODIC CHECKS

5 – SUMMARY OF PARAMETERS, MONITOR AND FAULTS RELATED TO THE AMENDMENT 3 OPERATION

7.1 FOREWORD

2 – COMMAND CIRCUIT CONNECTION

2.1 INPUT and OUTPUT

Details input and output signals for command circuit connections.

2.2 OUTPUT SIGNALS

3 – COMMAND SEQUENCE WITHOUT ENABLE logic

4 – COMMAND SEQUENCE WITH ENABLE logic

5 – BASIC APPLICATION DIAGRAMS

5.1 – ASYNCHRONOUS MOTOR WITHOUT ENABLE LOGIC