BENSHAW ENHANCED KEYPAD Technical Information

PUBLICATION #890023-01-02 RediStart Solid State Starter Software Manual Control The Leader In Solid State Motor Control Technology

1 – INTRODUCTION Contacting Benshaw 4 1.2 Contacting Benshaw Information about Benshaw products and services is available by contacting Benshaw at one

6 – APPLICATIONS Across The Line Starter 946.2.4 Across The Line (Full Voltage Starter) When the Starter Type parameter is set to ATL, the MX is con

7 Troubleshooting

7 – TROUBLESHOOTING 967.1 General Troubleshooting Charts The following troubleshooting charts can be used to help solve many of the more common probl

7 – TROUBLESHOOTING 977.1.2 During starting, motor rotates but does not reach full speed Condition Cause Solution Fault Displayed. Fault Occurred

7 – TROUBLESHOOTING 987.1.4 Deceleration not operating as desired Condition Cause Solution Decel Time (P18/CFN17) set too short. Increase Decel Time

7 – TROUBLESHOOTING 997.1.6 Metering incorrect Condition Cause Solution CTs installed or wired incorrectly. Verify correct CT wiring and verify tha

7 – TROUBLESHOOTING 1007.1.7 Other Situations Condition Cause Solution If input phasing correct, exchange any two output wires. Motor Rotates in Wro

7 – TROUBLESHOOTING 1017.2 Fault Code Troubleshooting Table The following is a list of possible faults that can be generated by the MX starter contr

7 – TROUBLESHOOTING 102Fault Code Description Detailed Description of Fault / Possible Solutions Three-phase power has been detected when the start

7 – TROUBLESHOOTING 103Fault Code Description Detailed Description of Fault / Possible Solutions High voltage above the Over voltage Trip Level par

1 – INTRODUCTION Interpreting Model Numbers 5 1.3 Inspection Before storing or installing the RediStart starter with MX control, thoroughly inspect th

7 – TROUBLESHOOTING 104Motor current dropped under the Under Current Trip Level setting (P26/PFN03) for longer than the Under Current Trip Delay time

7 – TROUBLESHOOTING 105Motor current was detected while the starter was not running. Examine starter for shorted SCRs. Examine bypass contactor (if p

7 – TROUBLESHOOTING 106DI#2 has been programmed as a fault type digital input and input indicates a fault condition is present. Verify that the appro

7 – TROUBLESHOOTING 107The MX found the non-volatile parameter values to be corrupted. Typically occurs when the MX is re-flashed with new software.

7 – TROUBLESHOOTING 108

8 Theory of Operation

8 – THEORY OF OPERATION Motor Overload 1108.1 Solid State Motor Overload Protection 8.1.1 Overview The MX contains an advanced I2t electronic motor o

8 – THEORY OF OPERATION Motor Overload 111Commonly Used Overload Curves110100100010000100 150 200 250 300 350 400 450 500 550 600 650 700 750 800Curr

8 – THEORY OF OPERATION Motor Overload 1128.1.3 Motor Overload Operation Overload Heating When the motor is operating in the overloaded condition (mo

8 – THEORY OF OPERATION Motor Overload 113Figure 14 – Overload Derated for Current Imbalance 0 5 10 15 20 25 300.750.80.850.90.951MX Motor OL deratin

1 – INTRODUCTION General Overview 6 1.4 General Overview of a Reduced Voltage Starter The RediStart MX motor starter is a microprocessor-controlled st

8 – THEORY OF OPERATION Motor Overload 114content level. The rate of the running motor overload heating or cooling is controlled by the Motor Overlo

8 – THEORY OF OPERATION Motor Overload 115NOTE: When the Independent Starting/Running Overload parameter is set to “OFF”, the running OL is used at a

8 – THEORY OF OPERATION Motor Overload 116 Frame Size Cooling Time 180 30 min 280 60 min 360 90 min 400/440 120 min 500 180 min Larger frames Consu

8 – THEORY OF OPERATION Motor Service Factor 1178.2 Motor Service Factor General The Motor Service Factor parameter should be set to the service fa

8 – THEORY OF OPERATION Acceleration Control 1188.3 Acceleration Control 8.3.1 Current Ramp Settings, Ramps and Times General The current ramp sets

8 – THEORY OF OPERATION Acceleration Control 119If the ramp time expires before the motor reaches full speed, the starter maintains the maximum curr

8 – THEORY OF OPERATION Acceleration Control 120TruTorque acceleration control can be very useful for a variety of applications. However it is best

8 – THEORY OF OPERATION Acceleration Control 1218.3.4 Power Control Acceleration Settings and Times General Power control is a closed loop power ba

8 – THEORY OF OPERATION Acceleration Control 122Note: Depending on loading, the motor may achieve full speed at any time during the Power ramp. This

8 – THEORY OF OPERATION Acceleration Control 1238.3.5 Open Loop Voltage Ramps and Times General The open loop voltage ramp provides soft starting

2 Control Card

8 – THEORY OF OPERATION Acceleration Control 124UTS Timer When the start mode is set to open-loop voltage ramp acceleration, the UTS Timer acts as a

8 – THEORY OF OPERATION Acceleration Control 1258.3.6 Dual Acceleration Ramp Control General Two independent current ramps and kick currents may b

8 – THEORY OF OPERATION Acceleration Control 126Changing Ramp Profiles The selected ramp profile may be changed during starting by changing the Ramp

8 – THEORY OF OPERATION Deceleration Control 1278.4 Deceleration Control 8.4.1 Voltage Control Deceleration Overview The deceleration control on the

8 – THEORY OF OPERATION Deceleration Control 1288.4.2 TruTorque Deceleration Overview TruTorque deceleration control is a closed loop deceleration c

8 – THEORY OF OPERATION Wye Delta Operation 1298.5 Wye-Delta Operation When the Starter Type parameter is set to Wye-Delta, the MX is configured to o

8 – THEORY OF OPERATION Wye Delta Operation 1303. When the 2S contactor pulls in, resistors are inserted in the circuit and the 1S contactor is DE-e

8 – THEORY OF OPERATION Phase Control 1318.6 Phase Control When the Starter Type parameter is set to Phase Control, the MX is configured to operate

8 – THEORY OF OPERATION Phase Control 1322. The master MX’s analog output needs to be configured. Set the Analog Output Function parameter to optio

8 – THEORY OF OPERATION Current Follower 1338.7 Current Follower When the Starter Type parameter is set to Current Follower, the MX is configured to

2 – CONTROL CARD 8Figure 1 – Control Card Layout START DI 1 S/DI COM DI2 DI3 DI2/D3 COM NO1 RC1 NC1 NO2 RC2 NC2 NC3 RC3 NO3 BIPC 300050-0

8 – THEORY OF OPERATION Across The Line / Full Voltage Operation 1348.8 Across The Line / Full Voltage Operation When the Starter Type parameter is

8 – THEORY OF OPERATION Start/Stop Control with a Hand/Off/Auto Selector Switch 1358.9 Start/Stop Control with a Hand/Off/Auto Selector Switch Often

8 – THEORY OF OPERATION Simplified I/O Schematics 1368.10 Simplified I/O Schematics Figure 29 – Digital Input Simplified Schematic 15.0K Ω15.0KΩ475

8 – THEORY OF OPERATION Using Modbus Communication 1378.11 Using Modbus Supported Commands The MX supports the following Modbus commands: • Read Ho

8 – THEORY OF OPERATION Using Modbus Communication 138

9 Technical Information

9 – TECHNICAL INFORMATION Technical Specifications 1409.1 General Information The physical specifications of the starter vary depending upon its conf

9 – TECHNICAL INFORMATION Technical Specifications 1419.6 List of Motor Protection Features • ANSI 51 – Electronic motor overload (Off, class 1 to

9 – TECHNICAL INFORMATION Technical Specifications 1429.7 MX Control Card 9.7.1 Terminal Points, Functions and Ratings Table 9 – Terminals Function

9 – TECHNICAL INFORMATION Technical Specifications 1439.7.2 Terminal Block Rating 9.7.2.1 Wire Gauge The terminals can support 1- 14 AWG wire or 2-1

2 – CONTROL CARD 92.1 Control Card Setup 2.1.1 CT Ratio Scaling The motor current signal scaling is set according to the motor size and the applicati

9 – TECHNICAL INFORMATION Technical Specifications 144

10 Appendix

10 – APPENDIX Lists, Tables and Figures 146List of Tables Table 1 – CT Ratios and Burden Switch Settings ...

10 – APPENDIX 147Appendix A – CE Mark According to the EMC – Directive 89/336/EEC as Amended by 92/31/EEC and 93/68/EEC Product Category: Motor Cont

10 – APPENDIX 148Appendix B – Fault Codes See the hardware manual for Troubleshooting Solutions Fault Code Description Controlled Fault Stop Shunt T

10 – APPENDIX 149Appendix C – Alarm Codes The following is a list of all MX alarm codes. The alarm codes correspond to associated fault codes. In

10 – APPENDIX 150Alarm Code Description Notes A37 Current Imbalance This alarm exists while the MX is running and a current imbalance above the de

10 – APPENDIX 151Appendix D – Modbus Register Map Following is the Modbus Register Map. Note that all information may be accessed either through th

10 – APPENDIX 152Modbus Registers Absolute Register Address Description R/W Range Units 30032/40032 Residual Ground Fault Current R %FLA 30033/

10 – APPENDIX 153Modbus Registers Absolute Register Address Description R/W Range Units 30114/40114 Maximum Current 1 R/W 100 – 800 % FLA 301

2 – CONTROL CARD 10Table 1 – CT Ratios and Burden Switch Settings CT Ratio Minimum FLA (A rms) Maximum FLA (A rms) Switch 6 Position 1 Switch 6 Posi

10 – APPENDIX 154Modbus Registers Absolute Register Address Description R/W Range Units 30132/40132 Rated Voltage R/W 0: 100 1: 110 2: 120 3: 200

10 – APPENDIX 155Modbus Registers Absolute Register Address Description R/W Range Units 30145/40145 Ground Fault Trip Enable R/W 0: Disabled 1:

10 – APPENDIX 156Modbus Registers Absolute Register Address Description R/W Range Units 30167/40167 Analog Output Function R/W 0: Off (no outpu

10 – APPENDIX 157Modbus Registers Absolute Register Address Description R/W Range Units 30184/40184 LED Display Meter R/W 0: Status 1: Ave Curr

10 – APPENDIX 158Modbus Registers Absolute Register Address Description R/W Range Units 30308/40308 Fault Code – 8th Most Recent Fault Log Entry

10 – APPENDIX 159Modbus Registers Absolute Register Address Description R/W Range Units 30325/40325 Current – 5th Most Recent Fault Log Entry R

10 – APPENDIX 160Modbus Registers Absolute Register Address Description R/W Range Units 30347/40347 Line Period – 7th Most Recent Fault Log Entry

10 – APPENDIX 161Starter Status Register: Bit 0 – Ready 0 – Initializing or Faulted and Decelling or Faulted and Braking or Faulted and Stop

10 – APPENDIX 162Appendix E – Parameter Table Following is the parameter table for both the LED and LCD Display. The last column is a convenient pl

10 – APPENDIX 163LED LCD Parameter Setting Range Units Default Page Setting P33 PFN 10 Auto Reset Off, 1 – 900 Seconds Off 64 P34 PFN 1

2 – CONTROL CARD 112.1.4 Configuring the Analog Input The analog input can be configured for Voltage or Current loop. The input is shipped in the C

10 – APPENDIX 164LED LCD Parameter Setting Range Units Default Page Setting P54 I/O 16 Bypass Feedback Time 0.1 – 5.0 Seconds 2.0 76 P55

10 – APPENDIX 165LED LCD Parameter Setting Range Units Default Page Setting P60 FUN 11 Communication Baud Rate 1200 2400 4800 9600 19200 bps 96

10 – APPENDIX 166 Revision History Revision Date Changes ECO# -00 28 June, 2004 Initial Release -01 24 November, 2004 Corrections and enhan

BENSHAW PRODUCTSLow Voltage Solid State Reduced Voltage Starters®RSD/RSM6 - SSRV Non or Separate Bypass®RDB/RMB6 - SSRV Integral Bypass®RSM7 - SSRV +

2 – CONTROL CARD 12Figure 5 – MX Control Card Analog Jumper Placement Analog Input JumperAnalog Output Jumper

2 – CONTROL CARD 132.2 Basic Control Wiring Drawing Digital inputs DI1, DI2, DI3 and relay outputs R1, R2, R3 are pre-programmed. This wiring diagr

ii TRADEMARK NOTICE Benshaw and are registered trademarks of Benshaw Incorporated. Modbus is a registered trademark of Schneid

2 – CONTROL CARD 14

3 Keypad Operation

3 – KEYPAD OPERATION LED Keypad and Display 163.1 Introduction The MX provides a comprehensive set of parameters to allow the use of the reduced volt

3 – KEYPAD OPERATION LED Keypad and Display 173.2.1.2 Changing Parameter Values Parameter change mode can be entered by: 1. At the default meter di

3 – KEYPAD OPERATION LED Keypad and Display 183.2.2.3 Running When running, the display shows the selected meter function. The following meters can

3 – KEYPAD OPERATION LED Keypad and Display 193.2.4 Restoring Factory Parameter Settings To restore ALL parameters to the factory default settings,

3 – KEYPAD OPERATION Remote LCD Keypad and Display 203.3 2x16 Remote LCD Keypad Like the standard keypad, the remote LCD keypad has the same basic f

3 – KEYPAD OPERATION Remote LCD Keypad and Display 213.3.2 Description of the Keys on the Remote LCD Keypad The UP arrow, DOWN arrow, ENTER and MENU

3 – KEYPAD OPERATION Remote LCD Keypad and Display 223.3.3 Alphanumeric Display The remote LCD keypad and display uses a 32-character alphanumeric LC

3 – KEYPAD OPERATION Remote LCD Keypad and Display 233.3.4 Parameter Group Screens From the operate screen, the parameter group screens are accessed

iii WARNING 1. This starter contains hazardous voltage that can cause electric shock resulting in personal injury or loss of life. 2.

3 – KEYPAD OPERATION Remote LCD Keypad and Display 24Note: Run Hours 00:00 – 23:59 Run days 0 – 2730 or 7.5 years kWatt Hours 0 – 999 MWatt Hour

3 – KEYPAD OPERATION Remote LCD Keypad and Display 253.3.9 Alarm Screen When an alarm is present, the word “Alarm” is displayed on the operate screen

3 – KEYPAD OPERATION Remote LCD Keypad and Display 26

4 Parameters

4 – PARAMETERS 284.1 Introduction The MX incorporates a large number of parameters that allow you to configure the starter to meet the special requir

4 – PARAMETERS 294.3 LED Display Parameters Number Parameter Setting Range Units Default Page P1 Motor FLA 1 – 6400 RMS Amps 10 41 P2 Motor Serv

4 – PARAMETERS 30Number Parameter Setting Range Units Default Page P39 DI 1 Configuration StOP P40 DI 2 Configuration byP P41 DI 3 Configur

4 – PARAMETERS 31Number Parameter Setting Range Units Default Page P58 Miscellaneous Commands 0: None 1: Reset Run Time 2: Reset KWh/MWh 3: Enter

4 – PARAMETERS 32Number Parameter Setting Range Units Default Page P69 Meter 0: Status 1: Ave Current 2: L1 Current 3: L2 Current 4: L3 Current 5:

4 – PARAMETERS 334.4 LCD Display Parameters The 2x16 display has the same parameters available as the LED display, with the exception of two meter p

TABLE OF CONTENTS iv 1 INTRODUCTION...

4 – PARAMETERS 344.4.3 Protection Group Group Display Description Setting Range Units Default Page PFN 00 Jump Code Jump to parameter 1 – 18

4 – PARAMETERS 354.4.4 I/O Group Group Display Description Setting Range Units Default Page I/O 00 Jump Code Jump to parameter 1 – 17 1

4 – PARAMETERS 364.4.5 Function Group Group Display Description Setting Range Units Default Page FUN 00 Jump Code Jump to parameter 1 – 16

4 – PARAMETERS 37Group Display Description Setting Range Units Default Page FUN 12 Com Timeout Communication Timeout Off, 1 – 120 Seconds

4 – PARAMETERS 38

5 Parameter Descriptions

5 – PARAMETER DESCRIPTIONS 40The detailed parameter descriptions in this chapter are organized in the same order as they appear on the LED display.

5 – PARAMETER DESCRIPTIONS 41P1 Motor FLA QST 01 LCD Display QST: Motor FLA 01 10 Amp Range Model dependent, 1 to 6400 Amps RMS (Default 10

5 – PARAMETER DESCRIPTIONS 42P3 Motor Running Overload Class QST 03, PFN 14 LCD Display QST: Running OL 03 10 PFN: Running OL 14 10

5 – PARAMETER DESCRIPTIONS 43P4 Local Source QST 04 LCD Display QST:Local Src 04 Terminal Range PAd, tEr, SEr (Default tEr) Description The MX c

TABLE OF CONTENTS v 6.2.1 Wye Delta ...

5 – PARAMETER DESCRIPTIONS 44P5 Remote Source QST 05 LCD Display QST:Remote SRC 05 Terminal Range PAd, tEr, SEr (Default tEr) Description The MX

5 – PARAMETER DESCRIPTIONS 45P6 Initial Current 1 QST 06, CFN 03 LCD Display QST: Init Cur 1 06 100 % CFN: Init Cur 1 03 100 % Range

5 – PARAMETER DESCRIPTIONS 46P7 Maximum Current 1 QST 07, CFN 04 LCD Display QST: Max Cur 1 07 600 % CFN: Max Cur 1 04 600 % Range

5 – PARAMETER DESCRIPTIONS 47P8 Ramp Time 1 QST 08, CFN02 LCD Display QST: Ramp Time 1 08 15 sec CFN: Ramp Time 1 02 15 sec Range 0

5 – PARAMETER DESCRIPTIONS 48P9 Up To Speed Time QST 09 LCD Display QST: UTS Time 09 20 sec Range 1– 900 Seconds (Default 20 sec) Descript

5 – PARAMETER DESCRIPTIONS 49P10 Start Mode CFN 01 LCD Display CFN: Start Mode 01 Current Ramp Range OLrP, Curr, tt, Pr (Default Curr) Descriptio

5 – PARAMETER DESCRIPTIONS 50P11 Initial Voltage/Torque/Power CFN 08 LCD Display CFN:Init V/T/P 08 25 % Range 1 – 100 % of Voltage/Torque/P

5 – PARAMETER DESCRIPTIONS 51P12 Maximum Torque/Power CFN 09 LCD Display CFN:Max T/P 09 105 % Range 10 – 325 % of Torque/Power (Default 105%)

5 – PARAMETER DESCRIPTIONS 52P13 Kick Level 1 CFN 10 LCD Display CFN: Kick Lvl 1 10 Off Range OFF, 100 – 800% of FLA (Default OFF) Description

5 – PARAMETER DESCRIPTIONS 53P15 Stop Mode CFN 14 LCD Display CFN: Stop Mode 14 Coast Range CoS, SdcL, tdcL (Default CoS) Description The Stop

TABLE OF CONTENTS vi 9.7.3 Connectors, Functions and Ratings...

5 – PARAMETER DESCRIPTIONS 54P16 Decel Begin Level CFN 15 LCD Display CFN:Decel Begin 15 40 % Range 1 % - 100% of phase angle firing (Defau

5 – PARAMETER DESCRIPTIONS 55P17 Decel End Level CFN 16 LCD Display CFN: Decel End 16 20 % Range 99 – 1 % of phase angle firing (Default 2

5 – PARAMETER DESCRIPTIONS 56P18 Decel Time CFN 17 LCD Display CFN: Decel Time 17 15 sec Range 1 – 180 seconds (Default 15 sec) Description

5 – PARAMETER DESCRIPTIONS 57P20 Maximum Current 2 CFN 07 LCD Display CFN: Max Cur 2 07 600 % Range 100 – 800 % of FLA (Default 600%) Descr

5 – PARAMETER DESCRIPTIONS 58P23 Kick Time 2 CFN 13 LCD Display CFN: Kick Time 2 13 1.0 sec Range 0.1 – 10.0 seconds (Default 1.0 sec) Descr

5 – PARAMETER DESCRIPTIONS 59P25 Over Current Time PFN 02 LCD Display PFN:Over Cur Tim 02 0.1 sec Range Off, 0.1 – 90.0 seconds (Default 0.1

5 – PARAMETER DESCRIPTIONS 60P26 Under Current Level PFN 03 LCD Display PFN:Undr Cur Lvl 03 Off Range OFF, 5 – 100 % of FLA (Default OFF) Descri

5 – PARAMETER DESCRIPTIONS 61P28 Current Imbalance Level PFN 05 LCD Display PFN:Cur Imbl Lvl 05 15% Range OFF, 5 – 40 % (Default 15%) Descript

5 – PARAMETER DESCRIPTIONS 62P29 Ground Fault Level PFN 06 LCD Display PFN:Gnd Flt Lvl 06 Off Range OFF, 5 – 100 % FLA (Default OFF) Descriptio

5 – PARAMETER DESCRIPTIONS 63P30 Over Voltage Level PFN 07 LCD Display PFN:Over Vlt Lvl 07 Off Range OFF, 1 – 40 % (Default OFF) Description I

1 Introduction

5 – PARAMETER DESCRIPTIONS 64P32 Voltage Trip Time PFN 09 LCD Display PFN:Vlt Trip Tim 09 0.1 sec Range 0.1 – 90.0 seconds (Default 0.1 sec)

5 – PARAMETER DESCRIPTIONS 65P35 Independent Starting/Running Overload PFN 12 LCD Display PFN:Indep S/R OL 12 Off Range OFF – On (Default OFF)

5 – PARAMETER DESCRIPTIONS 66P36 Motor Starting Overload Class PFN 13 LCD Display PFN:Starting OL 13 10 Range OFF, 1 – 40 (Default 10) Des

5 – PARAMETER DESCRIPTIONS 67P37 Motor Overload Hot/Cold Ratio PFN 15 LCD Display PFN:OL H/C Ratio 15 60 % Range 0 – 99% (Default 60%) Desc

5 – PARAMETER DESCRIPTIONS 68P38 Motor Overload Cooling Time PFN 16 LCD Display PFN:OL Cool Tim 16 30.0 min Range 1.0 –999.9 minutes (Default

5 – PARAMETER DESCRIPTIONS 69P39, P40, P41 Digital Input Configuration I/O 01, I/O 02, I/O 03 LCD Display I/O:DI 1 Config 01 Stop I/O:DI 2 Config

5 – PARAMETER DESCRIPTIONS 70P42, P43, P44 Relay Output Configuration I/O 04, I/O 5, I/O 06 LCD Display I/O: R1 Config 04 Fault FS I/O: R2 Config

5 – PARAMETER DESCRIPTIONS 71See Also Up To Speed Time parameter on page 48 Over Current Level parameter on page 58 Under Current Level parameter on

5 – PARAMETER DESCRIPTIONS 72P46 Analog Input Trip Level I/O 08 LCD Display I/O:Ain Trp Lvl 08 50 % Range 0 – 100% (Default 50%) Descriptio

5 – PARAMETER DESCRIPTIONS 73P48 Analog Input Span I/O 10 LCD Display I/O: Ain Span 10 100 % Range 0 – 100% (Default 100%) Description The

1 – INTRODUCTION Using This Manual 2 1.1 Using this manual Layout This manual is divided into 10 sections. Each section contains topics related to t

5 – PARAMETER DESCRIPTIONS 74P49 Analog Input Offset I/O 11 LCD Display I/O:Ain Offset 11 0 % Range 0 – 99% (Default 0%) Description The

5 – PARAMETER DESCRIPTIONS 75P51 Analog Output Span I/O 13 LCD Display I/O: Aout Span 13 100 % Range 0 – 125% (Default 100%) Description Th

5 – PARAMETER DESCRIPTIONS 76P53 Inline Configuration I/O 15 LCD Display I/O:Inline Confg 15 3.0 sec Range OFF, 0 – 10.0 seconds (Default 3.

5 – PARAMETER DESCRIPTIONS 77P55 Keypad Stop Disable I/O 17 LCD Display I/O:Kpd Stop Dis 17 Enabled Range Enabled – Disabled (Default Enab

5 – PARAMETER DESCRIPTIONS 78P58 Miscellaneous Commands FUN 15 LCD Display FUN:Misc Command 15 None Range 0 – 6 (Default 0) Description The Mis

5 – PARAMETER DESCRIPTIONS 79P60 Communication Baud Rate FUN 11 LCD Display FUN:Com Baudrate 11 9600 Range 1.2, 2.4, 4.8, 9.6, 19.2 Kbps (Defau

5 – PARAMETER DESCRIPTIONS 80P63 Heater Level FUN 08 LCD Display FUN:Heater Level 08 Off Range OFF, 1 –25% FLA (Default OFF) Description The He

5 – PARAMETER DESCRIPTIONS 81P64 Starter Type FUN 07 LCD Display FUN:Starter Type 07 Normal Range nor,Id,y-d, PctL, cFol, AtL (Default nor) Desc

5 – PARAMETER DESCRIPTIONS 82P65 Rated Power Factor FUN 06 LCD Display FUN:Rated PF 06 -0.92 Range -0.01 to 1.00 (Default –0.92) Descripti

5 – PARAMETER DESCRIPTIONS 83P67 Phase Order FUN 04 LCD Display FUN:Phase Order 04 Insensitive Range InS, AbC, CbA, SPH (Default InS) Descriptio

1 – INTRODUCTION Using This Manual 3 General Information Benshaw offers its customers the following: • Start-up services • On-site training services

5 – PARAMETER DESCRIPTIONS 84P69 Meter FUN 01, FUN02 LCD Display FUN: Meter 1 01 Ave Current FUN: Meter 2 02 Ave Volts Range 0 – 25 (Defaul

5 – PARAMETER DESCRIPTIONS 85P71 Software Part Number FUN 14 LCD Display FUN:Software PN 14 810018-01-xx Description The Software Part Number par

5 – PARAMETER DESCRIPTIONS 86P72 Passcode FUN 16 LCD Display FUN: Passcode 16 Off Description The MX supports a 4-digit passcode. When the pass

5 – PARAMETER DESCRIPTIONS 87P73 Fault Log FL1 LCD Display FL1:Last Fault # Fault Name Range 1–9 Description When a fault occurs, the fault number

5 – PARAMETER DESCRIPTIONS 88

6 Applications

6 – APPLICATIONS Line Connected Motor 906.1 Application Consideration between Line Connected and Inside Delta Connected Soft Starter There are diffe

6 – APPLICATIONS Inside Delta Connected Motor 916.1.2 Inside Delta Connection An inside delta soft starter is shown in Figure 11, where the power po

6 – APPLICATIONS Wye Delta Starter 92The presence of these resistors in a closed transition starter smoothes the transition from Wye to Delta operati

6 – APPLICATIONS Phase Control & Current Follower Starter 936.2.2 Phase Control When the Starter Type parameter is set to Phase Control, the MX i