Emerson EV1000-2S0004G User Manual
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Emerson EV1000-2S0004G User Manual

Emerson EV1000-2S0004G User Manual

General purpose variable speed drive ev1000 series
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EV1000 Series General Purpose Variable Speed Drive
User Manual
Version
V2.1
Revision Date
September 21, 2006
BOM
31011127
Emerson Network Power provides customers with technical support. Users may contact the nearest Emerson local sales
office or service center.
Copyright © 2004 by Emerson Network Power Co., Ltd.
All rights reserved. The contents in this document are subject to change without notice.
Emerson Network Power Co., Ltd.
Address: No.1 Kefa Rd., Science & Industry Park, Nanshan District 518057, Shenzhen China
Homepage: www.emersonnetworkpower.com.cn
Customer Service Hotline: +86 755 86010581
Complaint Hotline: +86 755 86010800
E-mail: support@emersonnetwork.com.cn

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  • Page 1 Revision Date September 21, 2006 31011127 Emerson Network Power provides customers with technical support. Users may contact the nearest Emerson local sales office or service center. Copyright © 2004 by Emerson Network Power Co., Ltd. All rights reserved. The contents in this document are subject to change without notice.

  • Page 2: Table Of Contents

    Contents 4.2.3 Indicator Description ......21 Preface................1 4.2.4 Parameter Setting Method ....22 4.2.5 Speed Setting........23 Chapter 1 Safety Information........2 4.2.6 Locking/Unlocking Keypad ....23 1.1 Danger And Warning Definitions ....2 1.2 Notes For Installations........2 Chapter 5 Parameters ..........

  • Page 3: Preface

    Preface Preface Thank you for using EV1000 Series variable speed drive made by Emerson Network Power Co., Ltd. EV1000 Series satisfies high performance requirements by using a unique control method to achieve high torque, high accuracy and wide speed-adjusting range. Its anti-tripping function and capabilities of adapting to severe power network, temperature, humidity and dusty environment exceed those of similar product made by other companies, which improves the product’s reliability noticeably;...

  • Page 4: Chapter 1 Safety Information

    Ensure that the motor can still ·When using optional parts, it is recommended to use those provide sufficient torque to the load. provided by Emerson Network Power, to secure safety. Lubrication of mechanical devices Over time, the lubricants in mechanical devices, such as Attention gear box, geared motor, etc.

  • Page 5: About Variable Speed Drive

    Chapter 1 Safety Information Mechanical resonance point of load power-off, please do not use 0x41 command. Please refer to Appendix 2. The drive system may encounter mechanical resonance with Using outside rated voltage the load when operating within certain band of output frequency.

  • Page 6: Chapter 2 Specifications And Optional Parts

    Chapter 2 Specifications and Optional Parts Chapter 2 Specifications And Optional Parts 2.1 Specifications Table 2-1 EV1000 Specifications Item Description EV1000-4Txxxxx: 380V~440V; 50Hz/60Hz Rated voltage & frequency EV1000-2Sxxxxx: 200V~240V; 50Hz/60Hz Continuous fluctuation rate: ≤±10%, Input short time fluctuation rate: ≤ -15%~+10%; Permissible fluctuation range Voltage unbalance rate: <3%;...

  • Page 7: Product Series Introduction

    Rated Rated S/N: Bar code Drive Model Rated Motor input output (G: contant torque; Capacity power Emerson Network Power Co., Ltd. current current P:pump,fan load) (kVA) (kW) Figure 2-1b EV1000 Drive Nameplate EV1000-2S0004G 2.2.3 Size EV1000-2S0007G 0.75 EV1000-2S0015G 14.0 Please refer to Figure 2-2 and Table 2-3.

  • Page 8: Led Keypad Display Unit Size

    Chapter 2 Specifications and Optional Parts Table 2-3 Dimensions and Weights Drive Model Moter power (kW) Diameter of mounting hole (mm) Gross weight (kg) (mm) (mm) (mm) (mm) (mm) (mm) EV1000-2S0004G EV1000-2S0007G 0.75 EV1000-2S0015G EV1000-4T0007G 0.75 EV1000-4T0015G EV1000-4T0022G EV1000-2S0022G EV1000-4T0037G EV1000-4T0037P EV1000-4T0055G...

  • Page 9: Tdp-Led02 Holders And Wires

    Chapter 2 Specifications and Optional Parts TDP-LED03 indicators definitions: 2.3.4 Communication Parts Mark Color of LED MEANING Flush Mount Faceplate for Remote Keypad ON: drive standby Model: EVO-RC03 GREEN ON: drive is running YELLOW ON: drive fault RS485 serial communication mode is used between the drive and the remote control panel.

  • Page 10: Chapter 3 Installation And Wiring

    Chapter 3 Installation and Wiring Chapter 3 Installation And Wiring 3.1 Installation Please mount the drive vertically indoors, with good ventilative conditions. When selecting mounting environment, the followings should drive1 be taken into account: Ambient temperature should be within the range of -10°C ~40 °C.
  • Page 11 Chapter 3 Installation and Wiring Mains Area Ⅴ electric cabinet Input Filter Area Ⅰ Area Ⅲ Control Input reactor Equipment (Such as: PC) Drive manufacturing Area Ⅱ mechanics Sensor(such as: Mechanical Motor temperature, position, Area Ⅳ system Linear pressure) Area Ⅵ noise filter earthing separation board...

  • Page 12: Noise Suppression

    Chapter 3 Installation and Wiring 10kV Power Transformer Isolation Power Transformer source cable of >20cm inverter power source cable filter of meters circuit breaker >30cm AC input reactor PLC or Metal metal meters cabinet cabinet Drive control cable motor cable >50cm AC Output reactor...

  • Page 13: Using Surge Suppressor

    Chapter 3 Installation and Wiring In order to protect the motor reliably, it is recommended to 3.1.3 Using Surge Suppressor use a temperature sensor to detect the motor’s temperature, and use the drive’s over-load protection device (electronic The devices such as relay, contactor and electro-magnetic thermal relay) instead of an external thermal relay.

  • Page 14: Wiring

    Chapter 3 Installation and Wiring used to suppress the high frequency harmonics. Thus, the Attention motor insulation is protected. At the same time, leakage ·The control terminals of the drive is of ELV (Extra Low Voltage) current and unexpected trigger are reduced. circuit.

  • Page 15: Power Terminals

    If the control circuit uses multi-strand cable, the single-core cable section area can be 0.5mm 3.2.2 Power Terminals 1. EV1000-2S0004G, EV1000-2S0007G The power terminal layout is shown in the figure below: EV1000 Series General Purpose Variable Speed Drive User Manual...

  • Page 16: Control Circuit Wiring

    Chapter 3 Installation and Wiring 3.2.3 Control Circuit Wiring (-) Control Terminals and Jumpers P (+) Refer the layout to Figure 3-8. control terminal function is Table 3-3 Definitions of Power Terminals listed in Table 3-6; Jumper’s function in Table 3-7. Be sure to Mark Definition set the jumper and wire the terminals properly.
  • Page 17 Chapter 3 Installation and Wiring CN5 Terminals Wiring The layout of CN5 is shown in the figure below: TA-TB: normally closed; TA-TC: normally open Contact capacity: 250VAC/2A (COSφ=1) , 250VAC/1A (COSφ=0.4) , 30V TA, TB and TC can be defined as multi-functional digital output signals. Please refer to Section 5.8. If there are inductive loads, such as: electro-magnetic relay and contactor, surge snubber circuit, e.g.
  • Page 18 Chapter 3 Installation and Wiring Category Terminals Name Function Specification Run forward Optical-isolator two-way input programmable command terminal, max. input frequency: 200Hz Reverse run Optical-isolator two-way input programmable command terminal, max. input frequency: 200Hz Common Common terminal for multi-functional inputs terminal Digital Input Output: +24V,...
  • Page 19 Chapter 3 Installation and Wiring RS485/RS232 Sign-a EV 1000 converter shielded Function Terminal RS485 port cable + 5V Enclo- 5V power ● sure Transmit Receive Ground ● Function terminal Terminal Function - RS485 - RS485 - - + RS485 + RS485 +...

  • Page 20: Onsite Wiring Requirements

    Chapter 3 Installation and Wiring Drive’s internal +24V power supply is used and the external +24V controller uses PNP transistors whose common emitters are connected, as shown in Figure 3-16. Relay External controller EV1000 ● ● ● 3.3V ● EV1000 ●...

  • Page 21: Earthing

    Chapter 3 Installation and Wiring possible, especially when they are routed in parallel for drive other rather long distance. If the signal cable must cross the power equipmen cable or motor cable, keep them at right angle to each other. Motor cable >50cm >30cm...

  • Page 22: Chapter 4 Operation Procedures

    Chapter 4 Operation Procedures Chapter 4 Operation Procedures 4.1 Term Definition 4.1.3 Drive Operating Status There are 3 operating status: stop, operating and motor In the follow-up sections, you may encounter the terms parameter tuning. describing the control, running and status of drive many Stop: After the drive is switched on and initialized, if no times.

  • Page 23: Operation Guide

    Chapter 4 Operation Procedures 4.2 Operation Guide 4.2.1 LED Keypad LED keypad display unit is to receive command and display parameters. Frequency indicator LED display PARAMETER UNIT Current indicator Voltage indicator Program/Escape Potentiometer indicator Potentiometer Shift Menu operation/save FUNC DATA Status indicator STOP STOP...

  • Page 24: Parameter Setting Method

    Chapter 4 Operation Procedures 4.2.4 Parameter Setting Method Parameter System The EV1000 series drive has 17 function group: F0~F9, FA, FF, FH, FL, Fn, FP and FU. Each function group includes many parameter, which is presented as function group number + parameter number, e.g. F5.08. Menu Structure and Parameter When setting parameter through LED keypad display unit, function group is listed in menu level 1, parameter in menu level 2, and settings of parameters in menu level 3.

  • Page 25: Speed Setting

    Chapter 4 Operation Procedures Thousand Hundred Ten one BIT0: output freq. (before compensation) BIT1: output freq. (after comensation) BIT2: set freq. BIT3: output current (A) BIT0 :actual speed (rpm) BIT1:set speed (rpm) BIT2:actual line speed (m/s) BIT3:set line speed (m/s) BIT0:output power BIT1:output torque (%) BIT2 :reserved...

  • Page 26: Chapter 5 Parameters

    Chapter 5 Parameters Chapter 5 Parameters 0: when the drive is powered off or at undervoltage state, Note: update F0.02 by the actual frequency at that time. The contents in the“ 【】 ”are factory default. 1: when the drive is powered off or at undervoltage state, 5.1 Basic Parameters (F0) F0.02 remains unchanged.
  • Page 27 Chapter 5 Parameters Dec time is the time taken for the motor to decelerate from output voltage maximum frequency (F0.05) to 0 Hz, see t in Figure 5-4. EV1000 has four pair of acc/dec time. Here we only introduce acc/dec 1. Please find acc/dec time 2~4 in section 5.4: F3.17~F3.22.

  • Page 28: Reference Frequency (F1)

    Chapter 5 Parameters If F0.14 is set to 0, you can define a curve by F0.15~F0.20, After the input passes through the filter and gain processor, i.e. a polygonal line defined by 3 points (V1, F1) , (V2, the relationship of its value and reference frequency is F2) ,(V3, F3) , to satisfy the needs of special loads, as determined by curve 1 or curve 2, which are decided by shown in Figure 5-6.

  • Page 29: Start/Brake Parameter (F2)

    Chapter 5 Parameters ⑥F1.09=50.00Hz; reference frequency corresponds to min. Note input. The start frequency is not limited by lower limit of the frequency. ⑦F1.10=20÷20 × 100%=100.0%, to set the ratio of max. F2.03 DC brake current at input of curve 2 (1kHz) to F1.03 (20kHz) Range: depending on model 【...

  • Page 30: Auxiliary Operating Parameters (F3)

    Chapter 5 Parameters 【 0.0% 】 Frequency Range: Depending on model 【 0.0s 】 F2.12 DC brake time at stop DC braking delay time is the period from arriving at frequency threshold (F2.09) to starting braking. During the period, there is no output from the drive. This function can prevent current overshoot of high power motor Time at startup.
  • Page 31 Chapter 5 Parameters Note Slip The function is effective to all command giving method, including keypad, terminal and serial port. Positive slip compensation Range: 0~3600s 【 0.0s 】 F3.01 FWD/REV transition time -100% Motor's load 100% It refers to the time period when the drive’s rotation changes from FWD to REV or REV to FWD, see Figure 5-16 as t Negative slip Output...

  • Page 32: Plc Parameters (F4)

    Chapter 5 Parameters Note If CWF is set under 6kHz, tuning this parameter can change Acc time 1 and Dec time 1 is defined in F0.10 and F0.11 the tone of operating motor. respectively. If it is set at 0, the function is disabled. Range: Lower limit~upper limit 【...
  • Page 33 Chapter 5 Parameters 2: Maintain value of the last stage after 1 cycle As Figure 5-23 shows, the drive holds the frequency and direction of the last stage after single cycle. Figure 5-20 Simple PLC operation In Figure 5-20, a are the Acc and Dec time of the command respective stage;...

  • Page 34: Close-Loop Control (F5)

    Chapter 5 Parameters 2: Start from the frequency where it stops Range: 000~323 【000】 F4.11 Stage 6 setting Range: 0~6500s (min) 【 20.0s 】 When the drive stops caused by Stop command or fault, it F4.12 Stage 6 run time can record both the time it has undergone in the current Range: 000~323 【000】...
  • Page 35 Chapter 5 Parameters The above system can also use a TG (speed measuring EV1000 generator) as speed close speed-loop control Output 380V PG speed close-loop control: Pressure A speed close-loop control system can be formed by transducer external control terminals X and X , and pulse generator (PG) .
  • Page 36 Chapter 5 Parameters The reference value is based on 10V (i.e. 10V means 100% Pay attention to the setting of jumper CN10. input) ; and the feedback value is based on 20mA (20mA 3: Keypad corresponds to 100% output) . 4: PULSE Close-loop characteristic is selected through F5.16 to satisfy Note...
  • Page 37 Chapter 5 Parameters percentage of input or feedback value to reference value 0: Positive logic (10V or 20mA or F1.03) . Set F5.16 to 0 if the motor speed is required to increase with the reference. Feedback Feedback direct 1: Negative logic F5.11 proportion Set F5.16 to 1 if the motor speed is required to decrease...

  • Page 38: Traverse Parameters (F6)

    Chapter 5 Parameters 5.7 Traverse Parameters (F6) Traverse function applies to textile and chemical fiber industry, or others that requires lateral movement or rolling. The typical application is shown in Figure 5-36. The drive works as follows: The drive accelerates to preset traverse frequency F6.02 and stay at it for a period of time (F6.03) . Next, It will arrive at central frequency within Acc time, and then it will operate according to traverse amplitude (F6.04) , skip frequency (F6.05) , traverse cycle (F6.06) and rise time (F6.07) one cycle after another until the Stop command is received.

  • Page 39: Multi-Function Terminal (F7)

    Chapter 5 Parameters Thousand’s place of F6.01: save traverse state upon power Range: 0~47 【 0 】 F7.03 Function of multi-function terminal X4 failure Range: 0~48 【 0 】 F7.04 Function of multi-function terminal X5 This function is valid only when the hundred place of F6.04 F7.05~ F7.07 Reserved is set at 0.
  • Page 40 Chapter 5 Parameters Table 5-5 Acc/Dec Time Defined by Terminal State Commination Setting Functions Speed measuring input SM2 (only for X5) Terminal 2 Terminal 1 Acc/Dec time selection Acc time 1/Dec time 1 The functions are explained as follows: Acc time 2/Dec time 2 1~3: MS terminals Acc time 3/Dec time 3 Acc time 4/Dec time 4...
  • Page 41 Chapter 5 Parameters and continue the PLC operation. Refer to F4.00~F4.14 for Through the combination of the ON/OFF state of X1, X2 and the use of this terminal. X3, you can select different frequency setting method, which will come into effect regardless of F0.00. 15: Acc/Dec prohibit The motor is immune to any external command except Stop Table 5-6 Frequency Setting Mode Selection...
  • Page 42 Chapter 5 Parameters If traverse operation is enabled, closing the terminal can speed control accuracy is ±0.1%. 2-phase speed feedback clear the information about traverse status no matter the control can be realized by using this terminal and PG. drive is in auto or manual start mode. Traverse operation Note continues after this terminal is disconnected.
  • Page 43 Chapter 5 Parameters Setting Function Specified counting value arrival Preset length arrival Running direction EV1000 Drive ready (RDY) Forward Drive fails Extended function 1 of host Reverse Upper and lower limits of traverse frequency Figure 5-44 3-wire operation mode 2 Preset operation time out Where: SB1:Stop button...
  • Page 44 Chapter 5 Parameters The signal is given if the preset frequency is higher than Range: 0.00~650.00Hz F7.13 Freq. arrival detection 【 2.50Hz 】 lower limit of frequency and the operating frequency reaches range (FAR) the lower limit of frequency. As shown in Figure 5-46, if the drive’s output frequency is 9: Zero-speed running within the detecting range of preset frequency, a pulse signal The signal is given if the drive’s output frequency is 0 and...
  • Page 45 Chapter 5 Parameters Setting Function Range F7.32 Max output pulse freq. of Y2 Range: 0~50.0kHz 【 10.0KHz 】 Output current 0~2 times of drive’s rated current Output current 0~2 times of drive’s rated current It defines the max. pulse frequency from terminal Y2. Refer 0~2 times of motor’s rated Output torque torque...

  • Page 46: Display Control (F8)

    Chapter 5 Parameters Suppose you require X1~X5 to be positive logic, FWD and Thousand Hundred Ten One REV negative logic, Y1 positive logic and Y2 negative logic, BIT0: output freq. (before compensation) you should set the one’s place at 0, ten’s place at 0, BIT1: output freq.

  • Page 47: Enhanced Function (F9)

    Chapter 5 Parameters F8.04 Rotating speed display Range: 0.1~999.9% 【 100.0% 】 factor It is used to calibrate the error of rotating speed display. It has no effect on the actual speed. Range: 0.1~999.9% 【 1.0% 】 F8.05 Line speed factor It is used to calibrate the error of line speed display.
  • Page 48 Chapter 5 Parameters ②If keypad (panel) control mode is used, press RUN to run The preset frequency is the final result of the combination of main frequency and auxiliary frequency. F9.01~F9.04 are for the drive and press STOP to stop the drive. The preset auxiliary frequency.
  • Page 49 Chapter 5 Parameters One’s place of F9.04 0: save the auxiliary freq. at power off The auxiliary frequency will be saved in F9.03, and the sign of the freq. saved in F9.04. 1: not save the auxiliary freq. at power off Ten’s place of F9.04 0: maintain the auxiliary freq.
  • Page 50 Chapter 5 Parameters One’s place: STOP/RESET key’s function Droop control Torque It is to set the usage and function of STOP/RESET key when No droop control you want to stop the drive. Rated 0: effective when keypad control is selected. torque 1: effective for keypad, terminal and serial port control.
  • Page 51 Chapter 5 Parameters CCI current input Imax Imin Fmax preset frequency Fmin Actual frequency setting Figure 5-67 Application of Stop at Fixed Length In Figure 5-67, the drive drives the motor, and the motor, in turn, drives the spindle through the conveyer. The shaft that contact with the spindle can measure the line speed of it fa fc fb presetl frequency...

  • Page 52: Reserved (Fa)

    Chapter 5 Parameters automatically after receiving 3 ring signals for remote control. Table 5-13 Conditions of Restart after Power-on Remember that a RS485-RS232 adapter is needed. Control mode at power-on Range:0~247 【 5 】 State before Serial Terminal 1 Terminal 1 FF.01 Local address F9.22 Keypad...
  • Page 53 Chapter 5 Parameters FH09 can be used to measure and write-in the motor’s parameters automatically. 0: Auto-tuning is disabled 1 - S 1: Stationary auto-tuning (Start auto-tuning to a standstill motor) Before starting auto-tuning, values on the motor’s nameplate must be input correctly (FH.00~FH.02) . Figure 5-69 Motor’s Equivalent Circuit When starting auto-tuning to a standstill motor, the stator’s resistance (%R1) , rotor’s resistance (%R2) and the leakage...

  • Page 54: Protection (Fl)

    Chapter 5 Parameters FH.10 is used to suppress the oscillation caused by the drive FL.02=0, function disabled and the motor. If the drive’s output current changes FL.02=1, enabled constantly at fixed load, the oscillation can be reduced by The setting of FL.03 is given in the table below: adjusting FH.10.
  • Page 55 Chapter 5 Parameters Range: 0.00~99.99Hz/s FL.08 Freq.decrease rate rate during Thou. Hun. Ten 【10.00Hz/s】 current limiting Overload detection mode FL.09 Action mode of auto current 0: Detect all the time Range: 0~4【2】 limiting 1: Detect in case of constant speed Overload action mode Auto current limiting function is used to limit the load current 0: No alarm, continue operation...

  • Page 56: Operating Time (Fn)

    Chapter 5 Parameters FL.12 defines the protective action in case of communication Fn.02 Reserved and E PROM error. Fn.03 Reserved Thou. Hun. Ten One If the accumulated operating time has amount to Fn.00, the Action for communication fault drive will give out an indicating signal. Please refer to 0: Alarm and coast to stop F7.10~F7.12.

  • Page 57: Chapter 6 Troubleshooting

    Chapter 6 Troubleshooting Chapter 6 Troubleshooting All the possible faults of EV1000 have been given in Table 6-1. Fault code range is E001~E024. You can user can check the faults according to the following table and record detailed fault phenomena before seeking service. Please contact the sales distributor when you need technical supports.
  • Page 58 Chapter 6 Troubleshooting Fault Fault Possible reasons Actions code descriptions Improper V/F curve Set V/F curve and torque boost value correctly Low AC supply voltage Check the AC supply voltage Common moter operating at low speed, large load for E014 Motor Overload Select special motor for such operating condition long time...
  • Page 59 Chapter 6 Troubleshooting Phenomena Conditions Possible reasons of fault Actions to take “Coast to stop” terminal effective Check “coast to stop” terminal “Operation prohibition” terminal effective Check “operation prohibition” terminal “External stop” terminal effective Check “external stop” terminal Preset length arrives Check length setting or delete actual length value Press RUN key, the Drive does not...

  • Page 60: Chapter 7 Maintenance

    Chapter 7 Maintenance Chapter 7 Maintenance Many factors such as ambient temperature, humidity, dust, vibration, internal component aging, wear and tear will give rise to the occurrence of potential faults. Therefore, it is necessary to conduct routine maintenance to the drives. Note As safety precautions, before carrying out check and maintenance of the drive, please ensure that : The drive has been switched off;...

  • Page 61: Replacing Easily-Worn Parts

    Chapter 7 Maintenance 7.4 Storing Drives Note Dielectric test of the drive has already been done in the factory. It is not necessary for the user to do dielectric test again in order to The following points must be followed for the temporary and avoid potential damage of its internal components.

  • Page 62: Appendix 1 Parameter Set

    Appendix 1 Parameter Set Appendix 1 Parameter Set EV1000 Series drive’s parameters are organized in groups. the drive will require you to input the password before the Each group has several parameters that are identified by user press the MENU/ESC to edit the parameter settings, “Group No.+ Parameter SN.”.
  • Page 63 Appendix 1 Parameter Set Group 0: Basic Operating Parameters Para. Name Range Min unit Default Modification Frequency digital ○ F0.02 F0.13~F0.12 (when F0.00=0,1,2) 0.01Hz 50.00Hz setting ○ F0.03 Control mode 0: LED keypad control 1: terminal control 2: serial port ○...
  • Page 64 Appendix 1 Parameter Set Group 2: Start/Brake Parameters Para. Name Range Unit Default Modification ○ F2.02 Start freq. hold time 0.0~10.0s 0.1s 0.0s G type: DC brake current at 0.0~150.0% of drive’s rated current (max. among phases) ○ F2.03 0.1% 0.0% startup P type:...
  • Page 65 Appendix 1 Parameter Set Group 3: Auxiliary Operating Parameters Para. Name Range Unit Default Modification F3.23 MS freq. 1 5.00Hz F3.24 MS freq. 2 10.00Hz F3.25 MS freq. 3 20.00Hz ○ F0.13~ F0.12 0.01Hz F3.26 MS freq. 4 30.00Hz F3.27 MS freq. 5 40.00Hz F3.28 MS freq.
  • Page 66 Appendix 1 Parameter Set Group 4: PLC Parameters Para. Name Range Unit Default Modification One’s place of F4.07: 0: select MS frequency 4, (F3.26) 1: decided by F0.00 2: MS close loop setting 4 (F5.23) 3: decided by F5.01 ○ F4.07 Stage 4 setting Ten’s place of F4.07: running direction 0: forward...
  • Page 67 Appendix 1 Parameter Set F5: Close-loop Control Para. Name Range Unit Default Modification 0.0%~ (F5.10) (pecentage of the min. input to 10V/20mA or F1.03 (max. ○ F5.08 Min. input 0.1% pulse freq.) ) ○ F5.09 Feedback of min. input 0.0~100.0%, (pecentage of the min. input to 10V/20mA) 0.1% 20.0% (F5.08) ~100.0% (pecentage of the max.
  • Page 68 Appendix 1 Parameter Set Group 7: Multi-function Terminals Para. Name Range Unit Default Modification Function of multi-function 0: No function F7.00 terminal X1 1: MS frequency 1 2: MS frequency 2 F7.01 Function of F7.01 3: MS frequency 3 multi-function terminal X2 4: Acc/Dec time 1 Function of multi-function F7.02...
  • Page 69 Appendix 1 Parameter Set Group 7: Multi-function Terminals Para. Name Range Unit Default Modification Open collector output terminal 0: Drive running signal (RUN) F7.10 × 1: Frequency arrival signal (FAR) 2: Frequency detection threshold (FDT1) Open collector output terminal F7.11 ×...
  • Page 70 Appendix 1 Parameter Set Group 7: Multi-function Terminals Para. Name Range Unit Default Modification One’s place of F7.29: AO1 bias 0: 0~10V or 0~20mA 1: 2~10V or 4~20mA ○ F7.29 Analog output range Ten’s place of F7.29: AO2 bias 0: 0~10V or 0~20mA 1: 2~10V or 4~20mA ○...
  • Page 71 Appendix 1 Parameter Set Group 8: Display Control Parameters Para. Name Range Unit Default Modification Binary code implication: 0: not displayed 1: displayed One’s place BIT0: reference frequency ( Hz) BIT1: external counter value (no unit) BIT2: rotating speed (r/min) BIT3: preset rotating speed ( r/min) Ten’s place: BIT0: actual line speed ( m/s)
  • Page 72 Appendix 1 Parameter Set Group 9: Enhanced Function Para. Name Range Unit Default Modification 0: No auxiliary freq. 1: Digital setting 1, adjust by ▲ and ▼ 2: Digital setting 2, adjust by UP/DN 3: Digital setting 3, set by serial port 4: VCI analog setting 5: CCI analog setting 6: terminal pulse setting...
  • Page 73 Appendix 1 Parameter Set Group 9: Enhanced Function Para. Name Range Unit Default Modification Freq. decrease rate during ○ F9.21 0.00~99.99Hz/s 0.01Hz/s 10.00Hz/s voltage compensation Conditions of restart after 0: disabled F9.22 × power failure 1: enabled Restart delay after power ○...
  • Page 74 Appendix 1 Parameter Set Group FL: Protection Parameters Para. Name Range Unit Default Modification Motor overload 0: disabled 1:Common motor (with low speed compensation) FL.00 × protection 2: Variable frequency motor (without low speed compensation) Motor overload FL.01 20.0~110.0% 0.1% 100.0% ×...
  • Page 75 Appendix 1 Parameter Set Group FL: Protection Parameters Para. Name Range Unit Default Modification FL.14 Fault type of the first time 0: not fault 1: overcurrent during acceleration (E001) FL.15 Fault type of the second time 2: overcurrent during deceleration (E002) 3: overcurrent during constant-speed running (E003) 4: overvoltage during acceleration (E004) 5: overvoltage during deceleration (E005)

  • Page 76: Appendix 2 Communication Protocol

    Appendix 2 Communication Protocol Appendix 2 Communication Protocol 1. Network Topology PC as host PLC as host PC as host PC as host RS232 RS232 RS232 RS232-RS485 RS232-RS485 Adapter Adapter RS485 RS485 EV1000 EV1000 EV2000 EV3100 EV1000 Single master, single slave Single master multi-slave 2.

  • Page 77: Protocol Function

    Appendix 2 Communication Protocol F2 group: 0x02; F3 group: 0x03; Address Parameter Reply bytes Register content Checksum 0x01 0x03 0x02 0x13 0x88 0xB5 0x12 F4 group: 0x04; F5 group: 0x05; F6group: 0x06; F7 group: 0x07; In ASCII mode, the frame head is “0x3A”, and default frame F8 group: 0x08;...
  • Page 78 Appendix 2 Communication Protocol Protocol data unit format of modifying single drive’s Protocol data unit format of modifying several drive’s parameter: parameter and status parameters: Request format:: Request format: Protocol data unit Data length (bytes) Range Data length Protocol data unit Range (bytes) Parameter...
  • Page 79 Appendix 2 Communication Protocol Sub-function Parameter Data (request) Data (respond) Meaning Value Meaning code property (Bit) Parameter group 0000B No unit number and Read the 0001B Unit: Hz Upper limit of a 0x0000 index within a upper limit of 0010B Unit: A parameter.
  • Page 80 Appendix 2 Communication Protocol Register Control Parameter Name Value Meaning Function Address word (bit) 0x3310 Actual length Jog forward Bit4 0x3311 Frequency after compensation Jog forward stop 0x3312 First fault in operation Jog reverse Bit5 0x3313 Second fault in operation Jog reverse stop 0x3314 Third fault (latest) in operation...

  • Page 81: Note

    Appendix 2 Communication Protocol 3. The parameter FH.09, FP.03 and FP.00 cannot be Status word (bit) Value Meaning Traverse modified through communication. But FP.00 (password) can Bit5 Non-traverse be verified through WRITE command. Undervoltage 4. If several multi-function terminals are set to the same Bit6 Non-undervoltage function, error will occur.

  • Page 82: Application

    Appendix 2 Communication Protocol 0x004B,0xC18B,0x818A,0x404A,0x004E,0xC18E,0x818F,0x404F,0x018D,0xC04D,0x804C,0x418C, 0x0044,0xC184,0x8185,0x4045,0x0187,0xC047,0x8046,0x4186,0x0182,0xC042,0x8043,0x4183, 0x0041,0xC181,0x8180,0x4040} If calculating the CRC Checksum of all the sent characters, it may take long time. It can nevertheless save the space occupied by form. The routine for calculating CRC on line is as follows: unsigned int crc_check (unsigned char *data,unsigned char length) int i;...

  • Page 83: Scaling

    Appendix 2 Communication Protocol Address Parameter Register Address Register Content Check sum Request 0x05 0x06 0x000A 0x0064 0xA9A7 Response 0x05 0x06 0x000A 0x0064 0xA9A7 Read 5# drive output current, the replay is 30.0A. Register Register Qty or Register Address Parameter Check sum Address bytes...

  • Page 84: Appendix 3 Optional Parts

    Table 9 EV1000 Output Reactor Model AC input reactor: TDL-4AI01-0015, where “0015” is power Drive Input Reactor Model level, the denotation is the same with that of the drive. EV1000-2S0004G TDL-2AO01-0004 AC output reactor: TDL-4AO01-0015, where “0015” is power EV1000-2S0007G TDL-2AO01-0007 level, the denotation is the same with that of the drive.
  • Page 85 Em erso n Netw ork P ow er Co . L td. Emerson Network Power Co. Ltd. Maintenance Record (2) Maintenance Record (1) Customer’s company: Customer’s company: Address: Address: Post Code: Contact person: Post Code: Contact person: Tel: Fax: Tel: Fax: Drive’s SN:...
  • Page 86 1. The warranty range is confined to the drive only. 1. The warranty range is confined to the drive only. 2. Warranty period is 18 months, within which period Emerson Network Power 2. Warranty period is 18 months, within which period Emerson Network Power...
  • Page 87 We really appreciate if you would fill in the form after the product has operated for 1 month, and then mail or fax it to the Customer Service Center of Emerson Network Power. We will send you an exquisite souvenir upon the receipt of the completed Product Quality Feedback Paper.

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