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Altivar

58 TRX

Adjustable Speed Drive Controllers

Keypad Display VW3A58101

Instruction Bulletin

Retain for future use.

Summary of content (126 pages)

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Altivar® 58 TRX Adjustable Speed Drive Controllers Keypad Display VW3A58101 Instruction Bulletin Retain for future use.
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See page 17 for the Minimum Start-Up Procedure. DANGER HAZARDOUS VOLTAGE • Read and understand this bulletin in its entirety before installing or operating Altivar 58 TRX drive controllers. Installation, adjustment, repair, and maintenance of the drive controllers must be performed by qualified personnel. • The user is responsible for conforming to all applicable code requirements with respect to grounding all equipment.
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VVDED397047USR6/03 06/2003 Altivar® 58 TRX Keypad Display VW3A58101 Table of Contents TABLE OF CONTENTS CHAPTER 1—OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Product Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Scope of Bulletin and Related Documentation . . . . . .
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Altivar® 58 TRX Keypad Display VW3A58101 Table of Contents VVDED397047USR6/03 06/2003 Reference Switching (Auto/Manual) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Freewheel Stop (Coast to Stop) / Run Permissive . . . . . . . . . . . . . . . . . . 70 DC Injection Braking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Fast Stop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71 Motor Switching . . . .
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VVDED397047USR6/03 06/2003 Altivar® 58 TRX Keypad Display VW3A58101 Table of Contents 6—Fault Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7—Files Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Reinitializing the Drive Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . File Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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VVDED397047USR6/03 06/2003 Chapter 1—Overview Introduction CHAPTER 1—OVERVIEW Introduction The Altivar 58 TRX (ATV58 TRX) series of adjustable frequency AC drive controllers is a Transparent Ready™ product line providing extended functionality and extended horsepower range for the Altivar 58 AC drive family. The ATV58 TRX series includes an analog output, expanded firmware capabilities, and a horsepower range up to 500 hp.
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Chapter 1—Overview Introduction VVDED397047USR6/03 06/2003 communication protocols are supported by communication option cards. Additional documentation is supplied with the option card. For other specific option cards, additional information is available in the manual provided with the card. For additional information on parameter applications, refer to the Altivar® 58 TRX AC Drives catalog, 8806CT9901, available on-line at www.SquareD.com.
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VVDED397047USR6/03 06/2003 Chapter 1—Overview Firmware Revision Information Firmware Revision Information Over time, the functionality of the ATV58 product line has been upgraded to broaden its applications. This document can be used with earlier drive controllers, but not all of the parameters detailed in it will be accessible if a drive controller is not equipped with the most recent firmware. Keypad displays are backward compatible.
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Chapter 1—Overview Firmware Revision Information Table 2: Date 3Q 2000 VVDED397047USR6/03 06/2003 Product Upgrade and Revision Level History (continued) Drive Controller Firmware Revision V3.1 IE 16 Associated Keypad Display Firmware Revision Description of Major Function Upgrade V3.0 IE 08 Began production of 5–25 hp, 460 Vac variable torque rated drive controllers without the integrated EMC filter for 460 Vac installations where the filter is not required.
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VVDED397047USR6/03 06/2003 Table 2: Date Chapter 1—Overview Keypad Display Product Upgrade and Revision Level History (continued) Associated Keypad Display Firmware Revision Drive Controller Firmware Revision Description of Major Function Upgrade Launched the ATV58 TRX series. Extended the product range to include the 125–500 hp drive controllers for variable torque applications. Added an analog output to the product. 3Q 2002 V5.1 IE 32 V5.2 IE 09 V5.1 IE 19 [1] V5.
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Chapter 1—Overview Keypad Display VVDED397047USR6/03 06/2003 Mounting To mount the keypad display, first remove the protective cover. Insert the keypad display into the SUB–D connector and turn the retaining screw clockwise until finger-tight. Figure 1: Removal of Protective Cover Figure 2: Drive Controller with Keypad Display Mounted Retaining Screw POW FAU ER z LT ESC FWD REV ENT RUN STOP RESET The keypad display can be mounted and removed while there is power to the drive controller.
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VVDED397047USR6/03 06/2003 Chapter 1—Overview Keypad Display for mounting the keypad display on the cover of an enclosure, and an instruction sheet. Setting the 50/60 Hz Switch DANGER HAZARDOUS VOLTAGE • Read and understand this bulletin in its entirety before installing or operating ATV58 TRX drive controllers. Installation, adjustment, repair, and maintenance of these drive controllers must be performed by qualified personnel.
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Chapter 1—Overview Keypad Display Figure 3: VVDED397047USR6/03 06/2003 Location of 50/60 Hz Switch The nominal motor voltage (UnS) in the 3—Drive menu is initially configured by the switch position: cover For the 50 Hz Position: -230 V, 50 Hz for ATV58••••M2 -400 V, 50 Hz for ATV58••••N4 For the 60 Hz Position (Factory Setting): -230 V, 60 Hz for ATV58••••M2 -460 V, 60 Hz for ATV58••••N4 green LED red LED 50/60 Hz switch or 50 Hz 14 60 Hz © 1998–2003 Schneider Electric All Rights Reserved
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VVDED397047USR6/03 06/2003 Chapter 1—Overview Keypad Display Function of Keys and Meaning of Displays Figure 4 shows the front of the keypad display. The keys and displays are explained below. Figure 4: Front View of Keypad Display LOC Flashing display: indicates the selected direction of motor rotation. Fixed display: indicates the actual direction of motor rotation. PROG LOC PROG ESC ENT FWD REV RUN Indicates the keypad display command mode. Appears in setup and programming mode.
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Chapter 1—Overview Keypad Display VVDED397047USR6/03 06/2003 Quick Configuration WARNING UNINTENDED EQUIPMENT ACTION • Parameter changes affect drive controller operation. • Most parameter changes require pressing ENT. Some parameter changes, such as reference frequency, take effect as soon as you press the up or down arrow keys. • Read and understand this manual before using the keypad display. Failure to follow these instructions can result in death, serious injury, or equipment damage.
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VVDED397047USR6/03 06/2003 Chapter 1—Overview Keypad Display 9. Configure the fault management parameters in the 6—Fault menu. 10. Make Communication or Application configurations (if one of these options is used). 11. Configure the settings in the 2—Adjust menu. NOTE: You must ensure that the functions which are programmed are compatible with the control scheme used.
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Chapter 1—Overview Access Levels VVDED397047USR6/03 06/2003 Access Levels Figure 5: Rear View of Keypad Display Connector (9-pin SUB-D male): - for direct connection to the drive controller - for remote mounting, the keypad display can be connected using a cable provided in kit VW3A58103 Switch for access locking: - locked position - partial lock position - total unlock position : display mode only, adjustment and configuration parameters not accessible : display mode and adjustment parameters accessib
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VVDED397047USR6/03 06/2003 Chapter 1—Overview Access Levels Total Unlock Position – All modes: this level is used during startup for access to advanced setup parameters. NOTE: Many parameters cannot be adjusted while the motor is running. • • You can do everything listed in both access levels above. • You can adjust the performance of the motor-drive controller system, in the 3—Drive menu.
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Chapter 1—Overview Access Levels Figure 6: VVDED397047USR6/03 06/2003 Menus 1st power up Subsequent power-ups LnG Language CFG Macro-Config ESC 10 HP rEF 200/240 V or 2 s SUP 1-DISPLAY MENU SEt 2-ADJUST MENU drC 3-DRIVE MENU CtL 4-CONTROL MENU PROG is displayed on the top line of the keypad display I-O 5-I/O MENU FLt 6-FAULT MENU FLS 7-FILES MENU accessible only if a custom application card is installed 20 APP 8-APPLICATION SL 8-COMMUNICATION accessible only if a communicati
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VVDED397047USR6/03 06/2003 Chapter 1—Overview Access Levels Principles of Programming The principle of programming is always the same, regardless of the access locking switch. Figures 7 and 8 show examples of programming steps. Figure 7: Language Selection Programming Example ENT LnG LnG Language Menu English LnG Italiano To return to choice previously saved, press: ESC PROG flashes to indicate a new choice has been made, but not saved.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus Language Menu CHAPTER 2—MENUS This chapter explains menus and parameter functions. Language Menu The Language menu (see Figure 7 on page 21) is accessible in each access level. The available languages are English (factory setting), French, German, Spanish, or Italian. The language can be modified with the motor stopped or running. Macro-Configuration Menu Selecting a macro-configuration automatically configures the drive controller for an application.
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Chapter 2—Menus Macro-Configuration Menu Table 3: VVDED397047USR6/03 06/2003 Drive Controller I/O Assignments Hdg: Material Handling [1] Logic Input LI1 NOTE: LI1, AI1, and R1 assignments are not visible in the 5—I/O menu. LI1 and R1 cannot be reassigned.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus Macro-Configuration Menu Transferring a file created for a drive controller without an I/O extension card to a drive controller with an I/O extension card may result in unexpected I/O assignment. Verify all I/O assignments. Do not assign I/O functions that are not used in the application. WARNING UNINTENDED EQUIPMENT OPERATION LI1 has priority: • If LI1 is closed while LI2 is active, the controller will respond to LI1.
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Chapter 2—Menus Drive Controller Identification Screen VVDED397047USR6/03 06/2003 WARNING MACRO-CONFIGURATION OR PROGRAMMING RESET CAN CAUSE AN UNINTENDED EQUIPMENT ACTION • The factory default settings will be substituted for present settings when the macro-configuration is changed and confirmed. • The factory default settings may not be compatible with the application. After changing the macro-configuration, verify that the factory settings are compatible with application requirements.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus Drive Controller Identification Screen Increasing the Power Rating for Variable Torque Applications The power rating can be increased for variable torque applications on the drive controller identification screen for the following products: • 208/230 Vac drive controllers 15 hp and larger (ATV58HD16M2–D46M2) • 400/460 Vac drive controllers 25 hp and larger (ATV58HD28N4–D79N4) • 460 Vac drive controllers 5 hp to 25 hp that do not have an integrated EMC filte
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Chapter 2—Menus 1—Display Menu VVDED397047USR6/03 06/2003 1—Display Menu Display parameters can be viewed in any access level. You can scroll through these parameters with the motor running. Table 5: Menu 1 NOTE: If USP is greater than 9999, the display value is USP/1000. 28 Parameter 1—Display Menu Parameters Code Function Units Drive controller status: indicates a fault or the state of the drive controller: Use this parameter to monitor drive controller status.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 2—Adjust Menu Table 5: Menu 1 Parameter Run time Freq. Ref 1—Display Menu Parameters (continued) Code Function rtH Operating time (motor powered up) in hours LFr This adjustment parameter appears in place of the FrH parameter when command of the drive controller by the keypad display has been Hz activated with the LCC parameter in the 4—Control menu (see page 56). Local speed control in customer-defined units.
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Chapter 2—Menus 2—Adjust Menu VVDED397047USR6/03 06/2003 There are two types of adjustment parameters: parameters which are always accessible (fixed adjustment parameters), and parameters which may be accessible depending on: • • • The macro-configuration selected The presence of an I/O extension card The input and output reassignments The fixed set of adjustment parameters, shown in Table 6 beginning on page 30, are accessible in every macro-configuration.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 2—Adjust Menu Table 6: Parameter Menu 2 2—Fixed Set of Adjustment Parameters (continued) Code Description Electronic output phase inversion Inv. Phases ACb Adjustment Range No-Yes Factory Setting No Allows for changing the phase rotation of the voltage at the output of the drive controller, from A-B-C to A-C-B, to change the direction of motor rotation.
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Chapter 2—Menus 2—Adjust Menu VVDED397047USR6/03 06/2003 Table 6: Parameter Menu 2 2—Fixed Set of Adjustment Parameters (continued) Code Description Frequency loop stability. Stability - % ThermCurrent - A StA ItH Adjustment Range 0 to 100 Factory Setting 20 This parameter allows adjustment of speed overshoot of the drive controller to sudden changes in the motor load. Increasing the stability setting dampens the overshoot.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 2—Adjust Menu Table 6: Parameter Menu 2 NOTE: DC Inj. Time is only available if automatic DC injection (AdC) is set to Yes. NOTE: DC Inj. Current Level is only available if tdC is set to continuous. 2—Fixed Set of Adjustment Parameters (continued) Code Description DC injection braking current dc I at rest - A SdC level if tdC is set to continuous. Adjustment Range 0.1 to 1.36 of In [1] Factory Setting Varies according to drive controller size.
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Chapter 2—Menus 2—Adjust Menu VVDED397047USR6/03 06/2003 Table 6: Parameter Menu 2 2—Fixed Set of Adjustment Parameters (continued) Code Jump Freq.3- Hz JF3 Machine Coef. USC Description [1] 34 tLS Factory Setting Third skip frequency: same function as JPF, for a third frequency value. 0 to HSP Machine speed coefficient. 0.01 to 100.0 1.00 0 Hz Coefficient applied to rFr permitting the display of machine speed by the parameter USP. USP = rFr x USC Low speed run time.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 2—Adjust Menu Additional Adjustment Parameters for Material Handling Table 7 lists the additional parameters that are accessible when the macro-configuration is set to Material Handling. Table 7: Parameter Menu 2—Additional Adjustment Parameters with Material Handling Macro-Configuration Code Description IR compensation 2 IR Compens.
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Chapter 2—Menus 2—Adjust Menu VVDED397047USR6/03 06/2003 Table 7: Menu 2 Parameter 2—Additional Adjustment Parameters with Material Handling Macro-Configuration Code Description Adjustment Range Factory Setting Preset Sp.4- Hz ★ SP4 Fourth preset speed LSP to HSP 20 Hz Preset Sp.5- Hz ★ SP5 Fifth preset speed LSP to HSP 25 Hz Preset Sp.6- Hz ★ SP6 Sixth preset speed LSP to HSP 30 Hz Preset Sp.7- Hz ★ SP7 Seventh preset speed LSP to HSP 35 Hz Curr.Lev.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 2—Adjust Menu Additional Adjustment Parameters for General Use Table 8 lists the additional parameters that are accessible when the macro-configuration is set to General Use.
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Chapter 2—Menus 2—Adjust Menu VVDED397047USR6/03 06/2003 Additional Adjustment Parameters for Variable Torque Table 9 lists the additional parameters that are accessible when the macro-configuration is set to Variable Torque. Table 9: Parameter Menu 2 NOTE: V/f Profile is available only if the energy savings function (nld) is set to No. 38 DC Inj.Curr.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 2—Adjust Menu Additional Adjustment Parameters After I/O Reassignment Table 10 lists the additional parameters that may be accessible after the inputs or outputs have been reassigned. Table 10: Menu 2 2—Additional Adjustment Parameters After I/O Reassignment Description Adjustment Factory Range Setting Parameter Code Preset Sp.2-Hz SP2 Second preset speed LSP to HSP 10 Hz Preset Sp.3-Hz SP3 Third preset speed LSP to HSP 15 Hz Preset Sp.
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Chapter 2—Menus 2—Adjust Menu VVDED397047USR6/03 06/2003 Table 10: Menu 2 2—Additional Adjustment Parameters After I/O Reassignment (continued) Parameter Code BrReleasTime -s [4] brt Description Adjustment Factory Range Setting Brake release time 0 to 5 s 0s bEn Brake engage frequency 0 to LSP 0 Hz bEt Brake engage time 0 to 5 s 0s rPG Proportional gain for PI regulator 0.01 to 100 PI Int. Gain-/s rIG Integral gain for PI regulator 0.01 to 100 /s 1 /s PI Coeff.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 3—Drive Menu Table 10: Parameter Adjustment Factory Range Setting Code Description Curr.Lev.Att- A Ctd Current threshold above which the logic output or relay goes to state 1. 0.25 to 1.36 of In [3] 1.36 of In [3] ThermLevAtt - % ttd Motor thermal state threshold above which the logic output or relay goes to state 1 (high). 0 to 118% 100% Torque lim2 -A [4] tL2 Second torque limit, activated by 0% to a logic input. 200% [2] 200% DC Inj. Curr.
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Chapter 2—Menus 3—Drive Menu VVDED397047USR6/03 06/2003 Optimal performance is obtained: • By ensuring that the input frequency selection switch is properly set (see page 14) • By entering the motor nameplate values into the Drive menu parameters • By initiating an autotune (on a standard asynchronous motor). See page 45 for more information concerning the autotune function (tUn).
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 3—Drive Menu Table 11: Parameter Menu 3 3—Drive Menu Parameters Code Adjustment Range Description Factory Setting Motor nameplate nominal voltage. Nom.Mot.Volt- V UnS • • ATV58••••M2 ATV58••••N4 200 to 240 V 230 V or 200 to 500 V 400/460 V [1] Motor nameplate nominal frequency. 10 to tFr 50/60 Hz [1] The FrS setting defines the frequency at which nominal motor voltage (UnS) is applied to the motor.
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Chapter 2—Menus 3—Drive Menu VVDED397047USR6/03 06/2003 Table 11: Parameter Menu 3—Drive Menu Parameters (continued) Code Description Motor CosPhi, motor power factor. 3 Set the CoS parameter to the motor nameplate power factor. Adjustment Range 0.5 to 1 Factory Setting depends on drive controller rating If the power factor is not provided on the nameplate or to optimize the motor torque performance, use the following procedure to optimize the motor power factor setting. Mot.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 3—Drive Menu Table 11: Parameter Menu 3—Drive Menu Parameters (continued) Code Description Initiates an autotune when the tUn parameter is set to Yes. 3 Adjustment Range No - Yes Factory Setting No After the autotune is complete, the display will show “done”. No is displayed if the autotune was not successful or completed. No is also displayed if the motor rating is less than 25% of drive controller In rating or if multiple motors are connected.
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Chapter 2—Menus 3—Drive Menu VVDED397047USR6/03 06/2003 Table 11: Parameter Menu 3 Energy Eco 3—Drive Menu Parameters (continued) Code nLd Description Optimizes the motor efficiency by automatically adjusting the Volts/Hz ratio. Adjustment Range Factory Setting No - Yes Yes No - Yes No No - Yes No [3] NOTE: Energy Eco. is available only in variable torque mode. I Limit adapt. Fdb Current limit adaptation.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 3—Drive Menu Table 11: Parameter Menu 3—Drive Menu Parameters (continued) Code Description Type of stop: 3 Adjustment Range STN–FST NST–DCI Factory Setting STN When a stop is requested, the type of stop defined by this parameter is activated until the FFt threshold (2—Adjust menu) is reached. Below this threshold, freewheel stop is activated.
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Chapter 2—Menus 3—Drive Menu VVDED397047USR6/03 06/2003 Table 11: Parameter Menu 3—Drive Menu Parameters (continued) Code Adjustment Range Description Defines the type of acceleration LIN - S - U and deceleration ramps. 3 LIN: linear S: S ramp Factory Setting LIN U: U ramp Motor Frequency (Hz) 50/60 S ramp 0 Ramp Type rPt Time ACC/deC 1/5 ACC/deC 1/5 ACC/deC U Ramp f (Hz) f (Hz) fn fn T1 T1 t Acc T1 = 1/Acc NOTE: DecRamp Coeff is only available if fast stop is enabled.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 3—Drive Menu Table 11: Menu 3 3—Drive Menu Parameters (continued) Parameter Trq.Limit1 -% [4] Int.I Lim -A Auto DC Inj. NOTE: Mot P Coef. is only available if motor switching is enabled. NOTE: Modifying SFt causes the following parameters to revert to factory settings: 3—Drive Menu: nCr, CLI, SFr, nrd 2—Adjust Menu: itH, IdC, Ibr, Ctd Mot P Coef. Code Description Factory Setting tLI Torque limit allows limitation of the maximum motor torque.
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Chapter 2—Menus 3—Drive Menu VVDED397047USR6/03 06/2003 Table 11: Parameter Menu 3 3—Drive Menu Parameters (continued) Code Selection of switching frequency. The range depends on the SFt parameter. Sw Freq -kHz SFr The maximum operational frequency (tFr) is limited depending on the switching frequency: SFr (kHZ) 0.5 1 tFr (Hz) Noise Reduct NOTE: Special Mot. is not available in variable torque mode except in the 125–500 hp drive controllers.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 3—Drive Menu Table 11: Parameter Menu 3 PG Type ★ 3—Drive Menu Parameters (continued) Code PGt Description Adjustment Range Defines the type of sensor used when an encoder feedback I/O INC-DET card is installed. Factory Setting DET INC: incremental encoder (A, A+, B, B+ are wired). DET Detector (only A is wired). Num. Pulses ★ PLS Defines the number of pulses for 1 to 1024 each revolution of the sensor.
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Chapter 2—Menus 4—Control Menu VVDED397047USR6/03 06/2003 4—Control Menu The Control Menu is accessible when the access locking switch is in the total unlock, , position. The parameters can only be modified when the motor is stopped. Table 12: Parameter Menu 4—Control Menu: Keypad Display or 2- and 3-Wire Control Code Adjustment Range Description Configuration of the terminal strip command: 2- or 3-wire control.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 4—Control Menu Table 13: Parameter Menu 4—Control Menu: 2-Wire Control Type Code Defines the type of 2-wire control: 4 • • NOTE: Type 2 Wire appears only if 2-wire control is selected. Type 2 Wire Adjustment Range Description tCt • LEL-TrNPFW Factory Setting LEL LEL: If the forward or reverse input is high when the drive controller is powered up, the drive controller will start the motor.
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Chapter 2—Menus 4—Control Menu VVDED397047USR6/03 06/2003 Table 13: Parameter Menu 4—Control Menu: 2-Wire Control Type Code Adjustment Range Description This function can be used to manage low speed operation. 4 No BLS BnS Factory Setting No Frequency HSP No LSP 0 Speed Reference 100% deadb./pedst bSP Frequency HSP Pedestal (BNS) LSP 0 Speed Reference Frequency HSP Deadband (BLS) LSP 0 Speed Reference ★ These I/O can be accessed if an I/O extension card has been installed.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 4—Control Menu Table 14: Menu 4 Parameter 4—Control Menu: Other Parameters Code • AI2 min Ref.-mA CrL AI2 Max. Ref-mA CrH Adjustment Range Description • CrL: Minimum value of the signal on analog input AI2 CrH: Maximum value of the signal on analog input AI2 Factory Setting CrL: 0–20 mA CrL: 4 mA CrH: 4–20 mA CrH: 20 mA These two parameters allow definition of the signal at AI2.
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Chapter 2—Menus 4—Control Menu VVDED397047USR6/03 06/2003 Table 14: Menu Parameter 4—Control Menu: Other Parameters Code Description This function allows saving the reference, either when the run command is removed (RAM) or when 4 Save Ref Str Adjustment Range NO-RAMEEP Factory Setting NO mains power is removed (EEP). When the motor is next started, the reference speed will be the last saved reference.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 4—Control Menu Table 14: Menu Parameter 4—Control Menu: Other Parameters Code Description Adjustment Range This function gives priority to the STOP key on the keypad display No - Yes no matter what the command source (terminal strip, keypad display, or serial link). 4 Factory Setting Yes To change the PSt parameter to No: Stop Priorit. PSt 1. 2. 3. 4. Display no. Press ENT. The drive controller displays “See manual”.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Table 14: Menu Parameter 4—Control Menu: Other Parameters Code Description Transmission speed on the RS-485 MODBUS port on the front of the drive controller. 4 • • Adjustment Range Factory Setting 9600, 19200 19200 9600 Bits / second 19200 Bits / second NOTE: The keypad display will not operate properly if parameter tbr is set to 9600. On power up, ERR7 may show on the display indicating this error. BdRate RS485 tbr To reset: 1.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu Table 15 shows which functions can be assigned to the analog input and which can be assigned to a logic input. Additional inputs are available and can be assigned when an I/O extension card is installed. LI1 and R1 cannot be reassigned. AI1, LI1, and R1 are not displayed in the I/O menu. Table 15: Menu 5 NOTE: When reassigning inputs from +Speed and -Speed, reassign -Speed first.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Table 15: Menu 5 Logic 2 Analog Input Logic [1] Input Inputs A, A-, AI3 LI5-LI6 B, B- I/O Extension Card Drive Controller without an I/O Extension Card Code and Parameter Description ATN: Autotune Auto-tuning Analog 3 Logic Input Inputs AI2 LI2–LI4 X [3] X [3] PIF: PI regulator PI regulator feedback PAU:PI Auto/Man PI Auto/manual if one AI is assigned to PIF PIM:PI Man.ref.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu Table 16 shows which functions can be assigned to relay output R2, logic output LO, and analog output AO. Table 16: Menu 5 Possible Assignments for Configurable Outputs Analog Logic Output Output AO LO I/O Extension Card Drive Controller without an I/O Extension Card Relay R2 Analog Output AO1 X NO: Not assigned No assigned X RUN: DriveRunning Drive controller running X X OCC: Output Cont.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Table 16: Menu 5 Possible Assignments for Configurable Outputs Analog Logic Output Output AO LO I/O Extension Card Drive Controller without an I/O Extension Card Relay R2 Analog Output AO1 OPI:PI Integral PI integral output, if one AI is assigned to PIF OPR:Motor power Motor power X THR: Motor Thermal Motor thermal state X THD: Drive Thermal Drive thermal state X [1] X These parameters are not available on 125–500 hp drive controll
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu Table 17: Menu 2 New Parameters in 2—Adjust Menu After I/O Reassignment I/O Assignment New Parameters to Adjust R2, LO TAD Drive thermal threshold attained dtd R2, LO F2A 2nd frequency threshold reached F2d [1] These parameters are not available on 125–500 hp drive controllers.
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Chapter 2—Menus 5—I/O Menu Torque limitation via LI Torque limitation via AI3 Inhibit reverse operation Speed regulation with tachogenerator or encoder Reverse operation Preset Speeds Jog Fast stop Freewheel stop PI regulator with Auto/manual Reference switching (Auto/manual) +Speed/-Speed PI Regulator The compatibility of certain functions can limit the application functions which can be assigned. Figure 12 shows the incompatibilities between functions.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu Using the Logic Inputs Run Forward and Run Reverse The logic input used for run reverse can be reassigned if the application has only one rotation direction. 2-wire Control In 2-wire control, run (forward or reverse) and stop are commanded by the same logic input. When the logic input is closed (set to state 1), run is commanded. When it is opened (set to state 0), stop is commanded. See tCt on page 53 for more information.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Ramp Switching This function allows switching between the first and second ramps. The first ramps are ACC and dEC, the second ramps are AC2 and dE2. There are two ways to activate the function: • Assign a logic input to RP2 and close the assigned input (set it to state 1). • By detection of a frequency threshold. This must be configured with the Frt parameter.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu and the -Speed input decreases the speed. If logic inputs are assigned to +Speed/-Speed, the Str parameter appears in the 4—Control menu allowing the reference speed to be saved (see page 56). NOTE: When 3-wire control is selected, -Speed is automatically assigned to the next input after the one assigned to +Speed. 2. Use of selector switches. Only one logic input, assigned to +Speed, is required.
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Chapter 2—Menus 5—I/O Menu Figure 14: VVDED397047USR6/03 06/2003 +Speed/-Speed Timing Diagram f(Hz) Forward or Reverse 1 0 a or b NOTE: To reassign the logic inputs to a function other than +Speed/-Speed, -Speed must be cleared first. 1 +Speed A 0 1 -Speed 0 B Figures 15 and 16 show a wiring example and a timing diagram for +Speed using selector switches. This function requires a maximum speed reference input.
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VVDED397047USR6/03 06/2003 Figure 16: Chapter 2—Menus 5—I/O Menu +Speed Timing Diagram (Selector Switches) Motor Frequency LSP 0 LSP Forward 2nd action 1st action b a 0 a b a a a a a Reverse 2nd action 1st action d c 0 c Preset Speeds 2, 4, or 8 speeds can be preset, requiring 1, 2, or 3 logic inputs, respectively. Table 19 shows how the logic inputs are configured for Preset Speeds and the input states that activate them.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Reference Switching (Auto/Manual) Switching between two references (at AI1 and AI2) by a logic input command. When the logic input is closed (set to state 1), AI1 is enabled. This function automatically assigns AI2 to Speed Reference 2.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu Fast Stop WARNING EXTENDED STOPPING TIME • Deceleration time during fast stop may be automatically extended depending on the braking ability of the drive controller. • A dynamic brake or mechanical stopping/holding brake may be required for consistent stopping times independent of motor load conditions. • Fast stop does not function during loss of power or drive controller fault.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 parameters are automatically scaled by the command from the logic input: • • • DC injection current Brake release current Nominal motor current Second Torque Limit Second Torque Limit reduces the maximum motor torque when the logic input is closed (state set to 1). Use the 2—Adjust menu to configure the percentage of torque. Fault Reset Fault reset erases a saved fault and resets the drive controller if the cause of the fault has disappeared.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu External Fault Assigning a logic input to External Fault allows an external contact closure to stop the drive controller and motor. The stop type is determined by the configuration of the Stt parameter (Type of Stop) in the 3—Drive menu. Force to Local Permits going from serial link command to local command using the keypad display or terminal strip, depending on the setting of the LCC parameter in the 4—Control menu.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Using the Analog Inputs The AI1 input is set for speed reference unless the PI Regulator function is enabled. In this case, AI1 is used for the set point reference. The possible assignments of AI2 and AI3 are Speed Reference Summing and PI Regulator. Speed Reference Summing The frequency references at AI2 and AI3 can be summed with that at AI1.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu Table 20 provides a description of the inputs to the PI Regulator.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Table 20: Definition of PI Regulator Inputs and Adjustments (continued) Input Code Range Description Logic inputs can also be used to provide programmable setpoints. Two or four preset setpoints require the use of one or two logic inputs respectively. Pr2, Pr4 2 preset setpoints Assign: LIx to Pr2 LIx Reference 0 Analog reference 1 Process max.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu Total resistance of the probe circuit at 20 °C = 750 Ω. Analog Torque Limit: (Assignment on AI3 only with an I/O extension card VW3A58201U). This function can only be accessed if an analog input has been assigned to the torque limit. If the logic input is at 0, the torque is limited by the setting of TLI or tL2. If the logic input is at 1, the torque is limited by the analog input assigned to this function.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 High Speed Attained (FLA) The logic output is at state 1 if the motor frequency is equal to the high speed value (HSP). Current Threshold Attained (CtA) The logic output is at state 1 if the motor current meets or exceeds the current threshold set by the Ctd parameter in the 2—Adjust menu. Frequency Reference Attained (SrA) The logic output is at state 1 if the motor frequency is equal to the speed reference value.
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VVDED397047USR6/03 06/2003 Figure 19: Chapter 2—Menus 5—I/O Menu Brake Logic Timing Diagram Motor Speed Reference Brake State 1 0 R2 Relay 1 0 Motor Current Ibr Motor Frequency brL bEn Increasing or Decreasing 1 0 T brt bEt T = non-adjustable delay Parameters accessible in the 2—Adjust menu when bLC is assigned to R2: • • • • • brake release frequency (brL) brake release current (Ibr) brake release time (brt) brake engage frequency (bEn) brake engage time (bEt) © 1998–2003 Schneider Electric All
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 Recommendations for configuring the Brake Logic control parameters: • Brake release frequency (brL): Set the brake release frequency to the value of the nominal motor slip (g) multiplied by the nominal frequency (FS) in Hz.
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VVDED397047USR6/03 06/2003 • Chapter 2—Menus 5—I/O Menu Acceleration/deceleration time: It is advisable to set the acceleration and deceleration ramps to more than 0.5 seconds. Ensure that the drive controller does not exceed the current limit. A braking resistor should be used on overhauling loads. • Brake release time (brt): Adjust according to the time required for the mechanical brake to open. • Brake engage frequency (bEN): Set to twice the nominal slip (in the example above 2 x 0.0466 = 0.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 maximum values (AOL and AOH parameters) are configurable, each with a range of 0–20 mA. Figure 20: Analog Output Minimums and Maximums Parameter Max. Min. 0 (mA) 0 mA 4 mA minimum 20 mA 20 mA maximum Motor Current When configured for motor current (OCr), the analog output provides a signal proportional to motor current.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 5—I/O Menu maximum configured value of the analog output (AOH) corresponds to 200% of the nominal motor torque. Signed Motor Torque When configured for signed motor torque (Stq), the analog output provides a signal proportional to motor or braking torque.
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Chapter 2—Menus 5—I/O Menu VVDED397047USR6/03 06/2003 PI Error When configured for PI error, OPE, the analog output provides a signal proportional to the PI regulator error as a percentage of the sensor range being used for the PI feedback, (maximum feedback minus minimum feedback). The minimum configured value, AOL, corresponds to – 5%, while the maximum configured value, AOH, corresponds to +5%. Zero corresponds to (minimum value + maximum value) / 2, (AOL+AOH) / 2.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 6—Fault Menu 6—Fault Menu This menu is only accessible when the access locking switch is in the position. Modifications can only be made when the motor is stopped. Table 21: Menu Parameter 6—Fault Menu Code Description Adjustment Range This function allows an automatic restart of the drive controller if the cause of the fault Yes - No has disappeared and a run command is maintained.
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Chapter 2—Menus 6—Fault Menu VVDED397047USR6/03 06/2003 Table 21: Menu 6 Parameter 6—Fault Menu Code Description Adjustment Range Nb max reset nAr This parameter is used to set the 0-255 number of restart attempts. Reset pause tAr This parameter sets the delay time between Auto restart attempts. Factory Setting 5 0.1 to 999.9 s 30.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 6—Fault Menu Table 21: Menu 6 Parameter 6—Fault Menu Code Description Use to enable the output phase loss protection. OutPhaseLoss OPL Adjustment Range Yes - No Factory Setting Yes Set this parameter set to No if there is a contactor between the drive controller and the motor, or if multiple motors are used on the output of the drive controller.
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Chapter 2—Menus 6—Fault Menu VVDED397047USR6/03 06/2003 Table 21: Menu Parameter 6—Fault Menu Code Description Adjustment Range Allows activation of a loss of 4–20 mA follower fault. This fault No can only be configured if the 6 Factory Setting No minimum and maximum reference parameters for AI2 (CrL and CrH) are greater than 3 mA. If CrL > CrH, LFL is automatically set to Yes.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 7—Files Menu Table 21: Menu Parameter 6—Fault Menu Code Description Controlled stop upon loss of input phase. 6 Adjustment Range No - MMS FRP Factory Setting No This function is only operational if the IPL parameter (Input Phase Loss) is set to No. If IPL is set to Yes, leave StP set to No. Possible choices: Cont.
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Chapter 2—Menus 7—Files Menu VVDED397047USR6/03 06/2003 Table 22: Menu 7 Parameter 7—File Menu Code File 1 State F1S File 2 State F2S File 3 State F3S File 4 State F4S Description Displays the state of the corresponding file. Possible states: FRE • • FRE FRE: File free EnG: A configuration has already been saved in this file Selects a file operation. Possible operations: NOTE: The stored program will be substituted for present settings when a file is transferred to the drive controller.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 7—Files Menu Reinitializing the Drive Controller Figure 21 shows the process of storing and recalling files to reinitialize the drive controller. Follow the path indicated by the bold lines. Figure 21: FLS 7–Files Menu Reinitializing the Drive Controller ENT ESC – F1S Files 1 State Up Down (x4) (x4) ESC – FOt Operat.
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Chapter 2—Menus 7—Files Menu VVDED397047USR6/03 06/2003 • If storing a file, the display automatically returns to the FOt (Operation Type) parameter after storing the file. • If the FOt parameter is set to REC, a second confirmation must be made: The display indicates: Press ENT to confirm. The display then indicates: Press ENT to confirm. CHG Validate? ENT/ESC CHG Wiring OK? ENT/ESC The display automatically returns to the FOt parameter, set to No.
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VVDED397047USR6/03 06/2003 Chapter 2—Menus 7—Files Menu Table 24: Significance of Access Code Last Digit Menus Affected: 2 Access is locked if last digit of code is: Display is allowed if last digit of code is: Modification is allowed if last digit of code is: 0 [1] or 9 1 2 [1] or 2, 3, 4, 5, 6, 7, 8, and MacroConfiguration 0 9 3 4 8 0 [1] or 9 5 6 2, 3, 4, 5, 6, 7, 8 0 [1] or 9 7 8 [1] If the factory setting, 0000, is used, access to the menus is completely unlimited.
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Chapter 2—Menus 8—Communication Menu VVDED397047USR6/03 06/2003 functionality of the drive controller. See Appendix B for a list of option cards available from Schneider Electric/Square D Company. 8—Communication Menu Menu 8 The Communication menu is displayed only if a communication card is installed. It is accessible when the access locking switch is set to the total unlock position. Configuration can only be done while the motor is stopped.
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VVDED397047USR6/03 06/2003 Chapter 3—Diagnostics and Troubleshooting Keypad Display and Indicating LEDs CHAPTER 3—DIAGNOSTICS AND TROUBLESHOOTING Keypad Display and Indicating LEDs When a fault condition is detected, a fault code and a plain language message will be displayed as long as power is maintained. See Table 27 on page 103 for fault codes and messages. In addition, the LEDs on the front of the drive controller indicate the states illustrated in Figure 24.
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Chapter 3—Diagnostics and Troubleshooting Using Fault Codes and Messages to Solve Problems VVDED397047USR6/03 06/2003 In certain cases, if automatic restart has been enabled, the drive controller can be automatically restarted after the cause of the fault has been corrected. See page 85. Using Fault Codes and Messages to Solve Problems The fault messages displayed on the keypad display can be used to troubleshoot problems.
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VVDED397047USR6/03 06/2003 Chapter 3—Diagnostics and Troubleshooting Precautions At regular intervals perform the following steps: • • Check the condition and tightness of the connections. • Remove dust and debris from the drive controller, if necessary. Make sure that the ventilation is effective and the temperature around the drive controller remains within specified levels.
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Chapter 3—Diagnostics and Troubleshooting Procedure 1: Bus Voltage Measurement VVDED397047USR6/03 06/2003 Procedure 1: Bus Voltage Measurement DANGER HAZARDOUS VOLTAGE • Read and understand the bus voltage measurement procedure before performing the procedure. Measurement of bus capacitor voltage must be performed by qualified personnel. • DO NOT short across DC bus capacitors or touch unshielded components or terminal strip screw connections with voltage present.
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VVDED397047USR6/03 06/2003 Chapter 3—Diagnostics and Troubleshooting Procedure 1: Bus Voltage Measurement 3. Read the model number of the drive controller from the nameplate and identify the corresponding (+) and (–) measurement points from Table 26 and Figure 25. 4. Open the door or cover of the drive controller. 5. Set the voltmeter to the 1000 Vdc scale. Measure the voltage between the (+) and (–) measurement points identified in step 3.
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Chapter 3—Diagnostics and Troubleshooting Procedure 1: Bus Voltage Measurement Figure 25: VVDED397047USR6/03 06/2003 DC Bus Measurement Terminals The J18 connector is in the upper left hand corner of the main control board behind the flexible shield. Use a thin probe to access the connector pin.
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VVDED397047USR6/03 06/2003 Figure 26: Chapter 3—Diagnostics and Troubleshooting Procedure 2: Checking Supply Voltage Power Terminal Layout L1 L2 L3 PA PB U V PA PB ATV58HU18N4 to D23N4 W ATV58HD25N4(X) and D79N4(X) + - + + - L1 L2 L3 U V W U V W ATV58HC13N4X to C19N4X U V W ATV58HC23N4X to C33N4X L1 L2 L3 U V W ATV58HC10N4(X) L1 L2 L3 + - L1 L2 L3 - + + Do not use Procedure 2: Checking Supply Voltage Measure the input line voltage to determine if the voltage is within the
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Chapter 3—Diagnostics and Troubleshooting Procedure 3: Checking the Peripheral Equipment VVDED397047USR6/03 06/2003 Procedure 3: Checking the Peripheral Equipment The following equipment may need to be checked. Follow the manufacturers’ procedures when checking this equipment. 1. A protective device, such as a circuit breaker, may have tripped or a fuse may have blown. 2. A switching device, such as a contactor, may not be closing at the correct time. 3. Conductors may require repair or replacement. 4.
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VVDED397047USR6/03 06/2003 Chapter 3—Diagnostics and Troubleshooting Fault Codes and Messages Fault Codes and Messages Table 27: Fault Codes and Messages Fault/Message CFF Probable Causes Corrective Actions Error probably caused by changing a card. PWR RATE ERR-ENT Change of the power rating on the power board Check the configuration of the power board and other boards. OPTION ERR.
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Chapter 3—Diagnostics and Troubleshooting Fault Codes and Messages Table 27: VVDED397047USR6/03 06/2003 Fault Codes and Messages (continued) Fault/Message ERR 3 ERR 4 ERR 5 Probable Causes Corrective Actions Serial link error due to incorrect value. If the keypad display is remotely Cycle power on the drive controller. If the mounted, electrical noise may be keypad display is remotely mounted, verify present. that the cable is properly shielded.
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VVDED397047USR6/03 06/2003 Table 27: Chapter 3—Diagnostics and Troubleshooting Fault Codes and Messages Fault Codes and Messages (continued) Fault/Message Ini LFF LOSS OF 4-20 mA ObF OVERBRAKING OCF OVERCURRENT OHF DRIVE OVERHEATING Probable Causes Corrective Actions 1. Ensure that the file being downloaded Attempting to download an was created for the correct drive incompatible file from the keypad controller part. display to the drive controller. 2. Verify drive controller firmware.
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Chapter 3—Diagnostics and Troubleshooting Fault Codes and Messages Table 27: Fault Codes and Messages (continued) Fault/Message OtF MOTOR OVERHEATING PHF INPUT PHASE LOSS RAMP NOT FOLLOWED SCF MOT SHORT CKT SLF LOSS OF RS485 SOF OVERSPEED SPF SPEED FEEDBACK FAULT tSF THERMAL SENSOR FAULT UNDERVOLTAGE Probable Causes Corrective Actions Motor temperature too high. 1. Check the motor ventilation, ambient temperature, and motor load. 2. Check the type of thermal sensors used. • • • 1.
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VVDED397047USR6/03 06/2003 Table 29: Chapter 3—Diagnostics and Troubleshooting Fault Codes and Messages Trip and Reset Points when Loss of 4–20 mA Trip Point ATV58••••M2 ATV58••••N4 © 1998–2003 Schneider Electric All Rights Reserved AI2 < 2 mA Reset Point AI2 > 2.
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix A—Drive Controller Configuration VVDED397047USR6/03 06/2003 APPENDIX A—DRIVE CONTROLLER CONFIGURATION Use these pages to note the configuration and adjustments of the ATV58 TRX drive controller. Drive catalog number: ATV58............... Customer identification number: ...................... Option card: No Yes Catalog number: ...................... Access code: No Yes: .......................... Configuration is in file number .........
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix A—Drive Controller Configuration VVDED397047USR6/03 06/2003 The following tables list the factory setting for each parameter. The new customer setting can be noted in the Customer Setting column. If no change has been made to the factory setting, the customer can note “no change” in the Customer Setting column. Table 30: Menu 2—Adjustment Parameters Code Fact. Setting Cust. Setting Code Fact. Setting Cust.
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix A—Drive Controller Configuration VVDED397047USR6/03 06/2003 Table 31: Menu 3—Drive Menu Parameters Code Fact. Setting Cust. Setting Code Fact. Setting Cust. Setting UnS depends on catalog number V Stt FrS 50 / 60 Hz Hz dCF 4 nCr 0.9 of In A tLI 200% nSP depends on catalog number rpm CLI COS depends on catalog number AdC tUn no tFr 60 / 72 Hz nLd no PCC Hz SFt STN 1.
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix A—Drive Controller Configuration Table 34: VVDED397047USR6/03 06/2003 Menu 6—Fault Menu Parameters Code Fact. Setting Cust. Setting Code Fact. Setting Cust. Setting Atr no LFL nAr 5 LFF no 0 tAr 30.0 s FLr no rSt RSP StP no OPL yes Sdd no IPL yes EPL no tHt ACL Use the table below to note what drive controller configuration is stored in a file. Table 35: Menu 7—File Menu Code Factory Setting Customer Notes (e.g.
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix A—Drive Controller Configuration VVDED397047USR6/03 06/2003 Menu Overview Menu 1 – DISPLAY Menu (page 30) Menu 2 – ADJUST Menu (page 32) (continued) Parameter Drive State Steady State Accelerating Decelerating In Current Limit DC Injection Braking Freewheel Stop Braking with Ramp Mod Frequency Reference LCU Frequency Reference Output Frequency Motor Speed Motor Current Machine Speed Output Power Mains Voltage Motor Thermal Drive Thermal Last Fault Consum
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix A—Drive Controller Configuration VVDED397047USR6/03 06/2003 Menu 4 – CONTROL Menu (page 50) Menu 5– I/O Menu (page 56) Parameter Terminal Strip Con Two Wire 2W Three Wire 3W Type 2 Wire No Transition Low to High Trans. Forward Input Pri. Inhibit Reverse Low Speed Magmt Linear LSP to HSP Pedestal Start Deadband Start AI2 Min. Ref. AI2 Max. Ref. Min. Val. AO Max. Val. AO Reference Memory No memory Run Com. removed Power removed Keypad Com.
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix A—Drive Controller Configuration VVDED397047USR6/03 06/2003 Menu 6 – FAULT Menu (page 82) Parameter Code Auto Restart Atr Nb max reset nAr Reset pause -s tAr Reset Type rSt Partial Reset rSP Total Reset rSG Output Phase Loss OPL Input Phase Loss IPL Thermal Protection tHt No motor protection no Self Cooled motor ACL Force Cooled motor FCL Loss Follower LFL Immediate Fault yes Restart on Signal Return Stt Stop and Fault LSF Run at Preset Speed LFF Run at la
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix B—Options and Accessories VVDED397047USR6/03 06/2003 APPENDIX B—OPTIONS AND ACCESSORIES The following table shows the accessories available for ATV58 TRX drive controllers. Catalog No. Description VW3A8104 PowerSuite™ Test & Commissioning Software on CD for use with Microsoft® Windows 95, 98, and NT™ and Windows CE v3.0 for Pocket PCs VW3A8106 PC Connection Kit for connecting the PC to an ATV58 TRX controller.
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix B—Options and Accessories Catalog No.
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VVDED397047USR6/03 06/2003 Altivar® 58 TRX Keypad Display VW3A58101 Appendix B—Options and Accessories Spare Part List for ATV58 TRX Controllers Description ATV58 TRX Control Board Kit Internal fan kit For Use on Drives Catalog Number ATV58 Type H, 125–500 hp only VX4A381U ATV58 Type E, F, H and N VX4A581U Frames 2 and 3 (two fans) ATV58 ..U29M2, U41M2, U54M2, U72M2, U18N4, U29N4, U41N4, VZ3V58223U U54N4, U72N4, U90N4 Frames 4 and 5 (three fans) ATV58 ..
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Altivar® 58 TRX Keypad Display VW3A58101 Appendix B—Options and Accessories Description Output Transistor Module Power Components Dynamic Braking Transistor Input Diode / Transistor Bridge VVDED397047USR6/03 06/2003 For Use on Drives Catalog Number ATV58...D28N4 VZ3IM6075M1258U ATV58...D16M2, D33N4 VZ3IM6100M1258U ATV58...D23M2, D28M2, D46N4, D54N4 VZ3IM6150M1258U ATV58...D33M2, D46M2, D64N4, D79N4 VZ3IM2200M1258U ATV58..D16M2, D23M2, D28N4, D33N4, D46N4 VZ3IM1050M1258U ATV58...
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Altivar® 58 TRX Keypad Display VW3A58101 Index VVDED397047USR6/03 06/2003 INDEX Symbols +SP 59 +speed/-speed 66 Numerics 2-wire control 53, 65 3-wire control 52, 65 50/60 Hz switch 13 A AC2 41, 46, 62 ACb 31 ACC 28, 31 acceleration ramp 31 access code 19, 92 access locking switch 18–19 ACL 87 AdC 49 Add 57 address 57 analog inputs assignable functions 59 use of 74 analog outputs assignable functions 61 use of 81 AnF 106 AOH 55 AOL 55 APH 28 APL 61, 81 ATL 60 ATN 60 Atr 85 auto-manual.
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Altivar® 58 TRX Keypad Display VW3A58101 Index FCL 87 Fdb 46 FFt 33 FLA 61, 78 FLG 31 FLO 59 FLr 88 force to local 73 forward 65 FOt 90, 92 FR2 60 FRE 90 freewheel stop 70 frequency jump 33 loop gain 31 maximum 45 nominal motor 43 reference attained 78 threshold 40 threshold attained 77 frequency threshold 2 attained 81 FrH 28–29 FRP 89 FrS 43 Frt 41, 46 FST 59, 63 FTA 61–62 FtA 77 Ftd 40, 62, 77 G GEn 23, 42 H Hdg 23, 42 HF1 49 HF2 49 high speed 31 high speed attained 78 HSP 31 I I/O extension card
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Altivar® 58 TRX Keypad Display VW3A58101 Index VVDED397047USR6/03 06/2003 N nAr 86 nCr 43 nLd 46 NO 59, 61 noise reduction 50 nrd 50 nSP 28, 35, 43 NST 59, 70 nSt 28 O ObF 46, 85–86, 105 Obr 28 OCC 61, 77 OCF 105 OCR 61 OFR 61 OHF 28, 85–86, 105 OLF 85–86, 105 OPE 61 OPF 61, 85–86, 105 OPI 62 OPL 77, 87 OPR 62 Opr 28 OPS 61 ORP 61 ORS 61 OSF 85–86, 105 OtF 85–86, 106 output contactor command 77 output phase loss 87 overbraking 105 overcurrent 105 overvoltage 105 P P12 62 P13 62 parallel motor operation
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Altivar® 58 TRX Keypad Display VW3A58101 Index STR 90–91 Str 56, 63, 67 Stt 47 switching frequency 49 synchronous motor operation.
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91598106011107 W915981060111A07 Altivar® 58 TRX Keypad Display VW3A58101 Instruction Bulletin Schneider Electric 8001 Highway 64 East Knightdale, NC 27545 USA 1-888-SquareD (1-888-778-2733) www.SquareD.com Electrical equipment should be installed, operated, serviced, and maintained only by qualified personnel. No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material.