Monarch NICE1000 User Manual

Lists high-performance vector control, open-loop low speed, motor compatibility, and 16-floor support.

Instructions for checking the controller upon unpacking, including nameplate, contents, and damage.

Advice for new users to read the manual carefully for correct operation and support.

Explanation of the CE mark indicating compliance with European low voltage and EMC directives.

Lists compliance with LVD and EMC directives and standards like EN 61800 series.

Table comparing NICE1000new with NICE1000 features like floors, speed, I/O, protocols, motor types, etc.

Diagram and explanation of connecting peripheral devices like power supply, contactor, reactor, motor, and operation panel.

Lists common running functions of the controller, such as integrated motor control, collective selective, door timing, and auto-leveling.

Details functions like returning to base floor at fire emergency, firefighter running, elevator lock, runaway prevention, etc.

Describes parallel control of two elevators, dispersed waiting, anti-nuisance function, and interface for residential management.

Covers car energy-saving by automatically cutting power to lamp and fan when no command is received.

Lists optional functions like door pre-open, micro-leveling, power failure emergency evacuation, and commissioning by cell phone.

Provides safety precautions for installation stages: before installation, during installation, and wiring.

Discusses requirements for residual current devices (RCD) and high leakage current warnings.

Explains protective functions for speed abnormal, drive control abnormal, encoder abnormal, leveling sensor abnormal, and floor data abnormal.

Shows a diagram of system components including controller, operation panel, display boards, and connected devices.

Explains the naming convention and nameplate details for the NICE1000new controller models.

Lists various NICE1000new controller models with their power capacity, input/output current, and motor power.

Details technical specifications like maximum frequency and carrier frequency.

Shows diagrams of physical appearance and mounting dimensions for different power classes of NICE1000new.

Lists optional parts like external braking unit and energy feedback unit, with their functions and remarks.

Explains selection of braking components, including diagrams and tables for braking units and resistors.

Details installation environment requirements and clearance requirements based on power class.

Describes vertical installation of the controller, mounting holes, and design considerations for the control cabinet.

Covers terminal arrangements, main circuit, control circuit, and indicators.

Explains the function and installation of the extension card for floor button inputs and relay outputs.

Details the appearance and installation of the MCTC-PG card for CLVC, and lists PG card models for different encoders.

Discusses selecting adaptable motors based on voltage and current, and controller's power allowance.

Provides an overview of peripheral devices, warning against output side capacitors/suppressors and mentioning harmonic interference.

Refers to a diagram showing the overall electrical wiring of the control system.

Explains the importance of shaft position signals for accurate landing and safe running, listing types of signals.

Describes the installation of leveling signals, including switches and plates, and their connection to input terminals.

Explains the role of slow-down switches in preventing over travel and mentions the system supports one pair.

Specifies installation distances for up and down limit switches to prevent over travel.

Describes the mounting positions for up and down final limit switches relative to the limit switches.

Explains how to connect and operate the LED panel to modify parameters and monitor status.

Describes the meaning of the RUN indicator and other status indicators on the LED operation panel.

Details the function of each key on the LED operation panel, including PRG, ENTER, Shift, RUN, and STOP/Reset.

Explains the three-level menu structure and procedures for navigating, saving, and returning settings.

Describes how to view status parameters in stop and running states using FA-01 and FA-02 settings.

Provides a flowchart for the system commissioning procedure and safety precautions.

Lists essential checks before electric commissioning, including mechanical, electrical, and safety aspects.

Explains control modes and lists motor parameters to be set, covering motor type, encoder type, and voltage/current.

Outlines conditions and steps for performing trial running at normal speed after shaft auto-tuning.

Explains prerequisites for controlling elevator doors and monitoring door open/close signals via MCB.

Discusses factors affecting riding comfort and controller output parameters like filter time and PI gains.

Explains the parameter password protection function and provides an example of changing the password.

Introduces system applications, starting with emergency evacuation at power failure modes.

Details the 220 V UPS scheme for emergency evacuation, including circuit diagrams and parameter settings.

Explains parallel control implementation using CANbus, parameter settings, and wiring for communication.

Details opposite door control modes (1-4) and their function descriptions, including supported floors.

Explains the structure of function codes (Level I, II, III) and the meaning of table columns like Function Code, Parameter Name, etc.

Lists the 17 function code groups, such as Basic, Motor, Vector Control, Running Control, etc.

Starts listing function codes, beginning with Group F0: Basic Parameters and Group F1: Motor Parameters.

Explains modification properties of parameters and details F0-00 (Control mode) and F0-01 (Command source selection).

Explains encoder types and lists motor parameters like rated power, voltage, and current.

Details speed loop PI parameters (KP1, TI1, KP2, TI2), switchover frequencies, and current loop parameters.

Lists startup speed, holding time, acceleration rates, jerk times, and deceleration rates.

Introduces leveling adjustment and current floor parameters.

Lists parameters for attendant/automatic switchover and input terminal selections (X1-X6).

Introduces Basic Elevator Parameters, starting with top/bottom floor settings (F6-00, F6-01) and parking floor (F6-02).

Introduces Output Terminal Parameters, starting with Y0 function selection (F7-00).

Introduces Enhanced Function Parameters, covering load cell auto-tuning (F8-00) and pre-torque selection (F8-01).

Introduces Time Parameters like idle time, fan/lamp off time, and motor running time limit.

Explains FA-01 (Display in running state) and FA-02 (Display in stop state) bit parameters, and lists running parameters.

Introduces Door Function Parameters, starting with number of door machines (Fb-00) and opposite door control mode (Fb-01).

Introduces Protection Function Parameters, starting with program control (FC-00).

Details communication parameters like local address, response delay, and timeout, and introduces parallel control parameters (Fd-03 to Fd-05).

Introduces Elevator Function Parameters, starting with collective selective mode (FE-00).

Explains the leveling adjustment function (Fr-00) and records (Fr-01 to Fr-08).

Introduces User Parameters, starting with user password setting (FP-00).

Covers routine maintenance checks and cleaning, and periodic inspection items.

Explains the grading of fault information into five levels based on severity and their corresponding actions.

Details fault codes (Err02, Err03, Err05-Err10) with possible causes and solutions.

Defines terms related to EMC, including EMC itself, first environment, second environment, and controller categories C1-C4.

Discusses installation environment requirements and compliance with EN 61800-3:2004 Category C2, C3, or C4.

Focuses on EMC input filters, their installation precautions, and recommended manufacturers/models.

Discusses requirements for shielded cables, including types and grounding methods.

Offers solutions for common EMC issues like leakage protection tripping, controller interference, and communication interference.

Outlines the warranty period, conditions for free maintenance, and reasons for charged maintenance.