Subscribe to Our Youtube Channel
Related Manuals for Eaton MVX9000
Summary of Contents for Eaton MVX9000
- Page 1 MVX9000 AF Drives User Manual February 2006 Supersedes October 2004 TD4002003E For more information visit: www.EatonElectrical.com...
- Page 3 TRADE, ARE MADE REGARDING THE INFORMATION, RECOMMENDATIONS AND DESCRIPTIONS CONTAINED HEREIN. In no event will Eaton Electrical Inc. be responsible to the purchaser or user in contract, in tort (including negligence), strict liability or otherwise for any special, indirect, incidental or consequential damage or loss whatsoever,...
- Page 4 This page intentionally left blank. MVX9000 User Manual...
-
Page 5: Table Of Contents
Related Publications ..........1-4 CHAPTER 2 — OVERVIEW OF THE MVX9000 DRIVE ....2-1 Receiving and Inspection . - Page 6 Periodic Maintenance ......... . . 6-2 MVX9000 User Manual...
- Page 7 MVX9000 Parameter Listing ........
-
Page 8: List Of Figures
Figure 5-27: Digital Input Terminal Setting 25 ......5-23 Figure 5-28: Digital Input Terminal Setting 26 ......5-23 MVX9000 User Manual... - Page 9 Figure D-2: Digital Keypad — Mounting Dimensions in Inches (mm) ..D-3 Figure D-3: 1/4 – 3 hp Drive — Approximate Dimensions in Inches (mm) . . . D-4 Figure D-4: 3 – 10 hp Drive — Approximate Dimensions in Inches (mm) ..D-5 MVX9000 User Manual...
- Page 10 Table 7-2: Warning Codes ......... . 7-5 Table A-1: MVX9000 115V Specifications ......A-2 Table A-2: MVX9000 230V Specifications .
-
Page 11: Definitions And Symbols
For the best results with the MVX9000 inverter, carefully read this manual and all of the warning labels attached to the inverter before installing and operating it, and follow the instructions exactly. Keep this manual handy for quick reference. Definitions and Symbols A safety instruction (message) includes a hazard alert symbol and a signal word, WARNING or CAUTION. -
Page 12: Warnings, Notes And Cautions
Wait five minutes for DC bus capacitors discharge. Any electrical or mechanical modification to this equipment without prior written consent of Eaton will void all warranties and may result in a safety hazard in addition to voiding the UL listing. - Page 13 CAUTION! Ground the MVX9000 using the ground terminal. The grounding method must comply with the laws of the country where the AC drive is to be installed. Refer to the Basic Wiring Diagram in Chapter 3.
- Page 14 Single-phase 100 to 120V 50/60 Hz • Single-/Three-phase 200 to 240V 50/60 Hz (up to 2.2 kW) • Three-phase 200 to 230V 50/60 Hz (above 2.2 kW) • Three-phase 380 to 460V 50/60 Hz • Three-phase 500 to 600V 50/60 Hz MVX9000 User Manual...
- Page 15 (50 Hz/60 Hz), be sure to check the motor and machine specifications with the respective manufacturer. Only operate the motor at elevated frequencies after getting their approval. Otherwise, there is the danger of equipment damage. MVX9000 User Manual xiii...
- Page 16 This page intentionally left blank. MVX9000 User Manual...
-
Page 17: Chapter 1 - Introduction
Warranty and Liability Information ....Related Publications ......MVX9000 User Manual... -
Page 18: How To Use This Manual
Chapter 1 — Introduction is the chapter you are reading now. Chapter 2 — Overview of the MVX9000 Drive describes receiving and inspection procedures and provides an introduction to digital keypad operation. -
Page 19: Intended Audience
Parameter Group Number, a decimal (.), and a Parameter number. Press Press a key on the Digital Keypad Control Panel to select a parameter. Refer to Chapter 2 — Overview of the MVX9000 Drive, Digital Keypad. MVX9000 User Manual... -
Page 20: Warranty And Liability Information
The maximum liability of this warranty is limited to the purchase price of the product. In no event, regardless of cause, shall Eaton Electrical Inc. be liable (a) for penalties or penalty clauses of any description, or (b) for certification not otherwise specifically provided herein and/or indemnification of purchaser or... -
Page 21: Chapter 2 - Overview Of The Mvx9000 Drive
Chapter 2 Overview of the MVX9000 Drive Inside this chapter … Receiving and Inspection ..... . Nameplate Information ..... -
Page 22: Receiving And Inspection
Receiving and Inspection Receiving and Inspection This MVX9000 AC drive has gone through quality control tests at the factory before shipment. After receiving the AC motor drive, please check for the following: • Check to make sure that the package includes an AC drive and User Manual. -
Page 23: Style Number
Upper Door T1 T2 T3 B1 B2 Ventilation Holes L1, L2, L3, Input Terminals Control Input/Output Terminals B1, B2 External Braking Resistor , T1, T2, T3 Output Terminals B1 B2 T1 T2 T3 Figure 2-2: Parts and Label MVX9000 User Manual... -
Page 24: Digital Keypad Operation
Green lamp lights by pressing RUN. Lamp lights to indicate input frequency reference Lamp lights to indicate output Hz Lamp lights to indicate output amps Lamp lights to indicate user defined units Figure 2-4: Explanation of the LED Indicators MVX9000 User Manual... -
Page 25: Table 2-2: Keypad Operators
• increasing/decreasing of reference value on the keyboard (when selected). SPEED POT • increase/decrease reference value on the keypad (when selected) MVX9000 User Manual... -
Page 26: Table 2-3: Explanation Of Display Messages
The specific parameter selection. “End” displays for approximately 1 second if input has been accepted. After a parameter value has been set, the new value is automatically stored in memory. “Err” displays, if the input is invalid. MVX9000 User Manual... -
Page 27: Chapter 3 - Storage And Installation
Wiring Notes ....... . Motor Operation Precautions ....3-10 MVX9000 User Manual... -
Page 28: Storage
(1G) at less than 20 Hz, Maximum 5.88 m/s (0.6G) at 20 to 50 Hz Pollution Degree UL Type 0, Pollution Degree 2: good for a factory type environment Relative Humidity: Less than 90%, no condensation allowed Atmosphere Pressure: 86 to 106 MVX9000 User Manual... -
Page 29: Mounting Area
More 3.0 (76) or More Figure 3-1: Mounting in an Enclosure in Inches (mm) When mounting in an enclosure, allow for the recommended free space. Failure to allow adequate air flow may result in drive over temperature. MVX9000 User Manual... -
Page 30: Wiring
Wait five minutes for DC bus capacitors discharge. Any electrical or mechanical modification to this equipment without prior written consent of Eaton will void all warranties and may result in a safety hazard in addition to voiding the UL listing. -
Page 31: Basic Wiring Diagram
RS-485 communication. • 1/2 – 3 hp 230V MVX9000 drives are both single- and three-phase input ready. For single-phase input models, select any two input power terminals. For three-phase input, use all three power input terminals. -
Page 32: External Wiring
Breaking Resistor MOTOR table in Appendix C for specific Braking Resistors. Note: Please refer to Appendix C for more details on the Circuit Breaker and Fuse Specification tables. Load Reactor Motor Figure 3-3: External Wiring MVX9000 User Manual... -
Page 33: Control Terminal Wiring (Factory Settings)
0 to 20 mA or 4 to 20 mA Input AO+ - COM Analog frequency/current 0 to +10V Output meter DI1 - COM Digital input 1 Refer to 30.11 DI1 - COM Digital input 2 DI6 - GND Digital input 6 MVX9000 User Manual... -
Page 34: Main Circuit Wiring
240V AC, 2 hp 12 – 14 MVX003A0-2 (1-phase) 240V AC, 3 hp 27/10 MVX003A0-2 (3-phase) 240V AC, 3 hp 15/10 8 – 12 MVX005A0-2 240V AC, 5 hp 19.6/17 8 – 10 MVX007A0-2 240V AC, 7-1/2 hp 28/25 MVX9000 User Manual... -
Page 35: Wiring Notes
• Multiple MVX9000 units can be installed in one location. All the units should be grounded directly to a common ground terminal. The MVX9000 ground terminals may also be connected in parallel, as shown in the Figure 3-6. -
Page 36: Motor Operation Precautions
filter close to U/T1, V/T2, W/T3 side of AC drive. Do not use a Capacitor or L-C Filter (Inductance-Capacitance) or R-C Filter (Resistance-Capacitance), unless approved by Eaton. • When using a GFCI (Ground Fault Circuit Interrupt), select a current sensor with sensitivity of 200 mA, and not less than 0.1-second detection to avoid... -
Page 37: Chapter 4 - Start-Up Procedures
Power-Up Test ......4-11 Powering the Inverter ..... . 4-12 MVX9000 User Manual... -
Page 38: Step-By-Step Installation
Step-by-Step Installation This chapter will explain the installation of the MVX9000 Microdrive. Be sure to read and follow all instructions for a successful installation. WARNING! This equipment should be installed, adjusted, and serviced by qualified electrical maintenance personnel familiar with the construction and operation of the equipment and the hazards involved. -
Page 39: Figure 4-1: Clearances And Air Flow In Inches (Mm)
Figure 4-1. 3.0 (76) or More Air Flow 1.0 (25) 1.0 (25) or More or More 3.0 (76) or More Figure 4-1: Clearances and Air Flow in Inches (mm) MVX9000 User Manual... -
Page 40: Inverter Mounting
Step 4: Locate the applicable drawing in the Appendix for the inverter unit. Dimensions are given in inches (millimeters) format. Note: Some inverter housings require two mounting screws, while others require four. Be sure to use lockwashers or other means to ensure screws do not loosen due to vibration. MVX9000 User Manual... -
Page 41: Wiring Preparation
Be sure to ground the unit. Otherwise, there is danger of electric shock and/or fire. HIGH VOLTAGE! Wiring work shall be carried out only by qualified personnel. Otherwise, there is a danger of electric shock or fire. MVX9000 User Manual... -
Page 42: Wire Sizes
Note 2: Be sure to consider the capacity of the circuit breaker to be used. Note 3: Be sure to use larger wires for the power lines in the distance exceeds 20 meters. MVX9000 User Manual... -
Page 43: Fuses And Circuit Breakers
Fusing The MVX9000 has been UL tested and approved for use with input fuses. The ratings in Table 4-2 are the minimum recommended values for use with each drive rating. The devices listed in this table are provided to serve as a guide. -
Page 44: Table 4-3: Heat Loss Data
JJS-30 XTPR016BC1 XTCE015B_ Table 4-3: Heat Loss Data When mounting the MVX9000 in an enclosure the following inverter heat loss should be considered. Failure to provide adequate cooling may cause premature failure of the inverter and/or overtemperature faults. Watts Lost... -
Page 45: Wiring The Inverter To Incoming Power
Note: L1, L2, L3: Three-phase 200 to 230V 50/60 Hz Three-phase 380 to 460V 50/60 Hz Three-phase 500 to 600V 50/60 Hz Any two inputs: Single-phase 100 to 120V 50/60 Hz; Single-phase 200 to 240V 50/60 Hz MVX9000 User Manual... -
Page 46: Wiring The Motor To The Inverter Output
After completing the wiring: • Check all wire connections both at the inverter and motor to make sure they are secure. • Close all access doors. • Remove any covering placed on the inverter ventilation openings. 4-10 MVX9000 User Manual... -
Page 47: Power-Up Test
(50 Hz/60 Hz), be sure to check the motor and machine specifications with the respective manufacturer. Only operate the motor at elevated frequencies after getting their approval. Otherwise, there is the danger of equipment damage. MVX9000 User Manual 4-11... -
Page 48: Powering The Inverter
Note: If the inverter has been previously powered and programmed, the LEDs (other than the POWER LED) may illuminate differently than as indicated above. If necessary, you can initialize all parameters to the factory default settings. See the initialization instructions in the Programming section. 4-12 MVX9000 User Manual... -
Page 49: Chapter 5 - Descriptions Of Parameter Settings
(data characters) ......5-70 CHK (Check Sum) ......5-73 MVX9000 User Manual... -
Page 50: Viewing And Changing Parameter Settings
Viewing and Changing Parameter Settings This chapter contains the descriptions of the MVX9000 parameters. Parameters are addressed and changed via the keypad for the MVX9000. For more information on keypad operation, see Keypad Operation located in Chapter 2. Viewing and Changing Parameter Settings Parameters are grouped in a page arrangement. -
Page 51: Figure 5-4: Programming Mode
Note: Some parameters cannot be changed while in the RUN/START mode. STOP STOP Successful Unsuccessful Parameter Change Parameter Change Figure 5-5: Parameter Changes To exit the programming mode, press the left arrow key to return to the display mode. MVX9000 User Manual... -
Page 52: Parameter Groups
90 Communications ..........5-63 MVX9000 User Manual... -
Page 53: Group 20 - Basic Grouping (Quick Start)
02 Operating commands determined by the External Control Terminals. Keypad STOP key is not enabled. 03 Operating commands determined by the RS-485 communication interface. Keypad STOP key is enabled. 04 Operating commands determined by the RS-485 communication interface. Keypad STOP key is not enabled. MVX9000 User Manual... - Page 54 The rate is linear unless S-Curve is “Enabled.” 20.09 is used to determine the time required for the AC drive to decelerate from the Maximum Output Frequency (20.07) down to 0 Hz. The rate is linear unless S-Curve is “Enabled.” MVX9000 User Manual...
-
Page 55: Group 30 - Inputs
30.07 Potentiometer Offset Range: 0.0 to 100.0% Default: 0.0% Unit: 0.1% This parameter may be set during operation. This parameter provides a frequency offset for the analog input. Example: Potentiometer Offset = (10 Hz/60 Hz) x 100. MVX9000 User Manual... - Page 56 30.07 to 30.10 are used when the source of frequency command is the analog input AI1, AI2 or keypad potentiometer (0 to +10V DC or 4 to 20 mA DC). Refer to the following examples for programming these parameters. MVX9000 User Manual...
-
Page 57: Figure 5-6: 0 - 10V Analog Input
Potentiometer Offset 30.08=0 Bias polarity 30.09=100% Potentiometer slope 30.10=0 Potentiometer direction Max. Max. Output Output (20.07) Freq. Freq. 60 Hz 0 Hz Potentiometer Scale 4 mA 12 mA 20 mA Figure 5-6: 0 – 10V Analog Input MVX9000 User Manual... -
Page 58: Figure 5-7: 10 Hz Positive Offset
Potentiometer Direction Calculation of Potentiometer Slope 30.09=(1-30.07) x 100% = 83.3% Max. Output (20.07) Freq. 60 Hz 10 Hz Bias Adjustment 0 Hz Potentiometer Scale 4 mA 12 mA 20 mA Figure 5-7: 10 Hz Positive Offset 5-10 MVX9000 User Manual... -
Page 59: Figure 5-8: 0 - 5V Analog Command Range
Potentiometer direction Calculation of gain 30.09=(1- ) x 100% = 200% Max. Max. Gain Output Output (20.07) Adjustment Freq. Freq. 60 Hz 30 Hz 0 Hz Potentiometer Scale Figure 5-8: 0 – 5V Analog Command Range MVX9000 User Manual 5-11... -
Page 60: Figure 5-9: 1V Negative Bias
(6/60) x 100% = Potentiometer Offset 30.08=1 Bias polarity 30.09=100% Potentiometer Slope 30.10=0 Potentiometer Direction Max. Output (20.07) Freq. 60 Hz 54 Hz It’s 0Hz Within This Range 0 Hz Negative Potentiometer Scale Bias 6 Hz Figure 5-9: 1V Negative Bias 5-12 MVX9000 User Manual... -
Page 61: Figure 5-10: Forward And Reverse Programming
30.07=100% Potentiometer Offset 30.08=1 Bias polarity 30.09=200% Potentiometer Slope 30.10=1 Potentiometer Direction Max. Output (20.07) Freq. 60 Hz FWD. REV. 30 Hz 0 Hz 30 Hz 60 Hz Potentiometer Scale Figure 5-10: Forward and Reverse Programming MVX9000 User Manual 5-13... -
Page 62: Figure 5-11: Di1 And Di2 Settings
DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 REV/FWD RUN/STOP Setting 03 REV/FWD DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 RO3 RO2 RO1 STOP Figure 5-11: DI1 and DI2 Settings 5-14 MVX9000 User Manual... - Page 63 32 Hand Location — Operation & Frequency by Second source (P50.57 & P50.60) 33 LOC — Operation & Frequency by Second source (P50.57 & P50.60) 30.13 Digital Input Terminal Range: See Parameter 30.12 Default: 06 (DI4) MVX9000 User Manual 5-15...
-
Page 64: Explanations: Digital Input Terminal
It is used to reset the drive after a fault. DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 04:External Reset (NC) 03:External Reset (NO) Figure 5-13: Digital Input Terminal Settings 03, 04 5-16 MVX9000 User Manual... -
Page 65: Figure 5-14: Digital Input Terminal Settings 05, 06, 07
30.19 Step 6 Step 2 30.21 Step 4 30.20 30.24 Step 3 Step 7 Time Master Freq. Switch 1 Switch 2 ON ON Switch 3 Operation Command Figure 5-14: Digital Input Terminal Settings 05, 06, 07 MVX9000 User Manual 5-17... -
Page 66: Figure 5-15: Digital Input Terminal Setting 08
Used to select the Operation Command location of the AC drive. DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 10:Control location-I/O terminals 11:Control location-keypad 12: Control location-communication Figure 5-17: Digital Input Terminal Settings 10, 11, 12 5-18 MVX9000 User Manual... -
Page 67: Figure 5-18: Digital Input Terminal Settings 13, 14
A digital input terminal may be used to disable users from changing the parameters. DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 16:Parameter lock Figure 5-20: Digital Input Terminal Setting 16 MVX9000 User Manual 5-19... -
Page 68: Figure 5-21: Digital Input Terminal Setting 17
Start Command Figure 5-21: Digital Input Terminal Setting 17 Setting 18 DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 18:Run Enable Figure 5-22: Digital Input Terminal Setting 18 5-20 MVX9000 User Manual... -
Page 69: Figure 5-23: Digital Input Terminal Settings 19, 20
Allows an input terminal to disable PID operation as shown in Figure 5-24. DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 21:PID Disable Figure 5-24: Digital Input Terminal Setting 21 MVX9000 User Manual 5-21... -
Page 70: Figure 5-25: Digital Input Terminal Settings 22, 23
Signal output with 30.17 can't be less than 2 ms.(<250 Hz) counter value is attained. (40.03/40.04 or 40.06/40.07) (30.16=5) Signal output with 30.16 (40.03/40.04 or 40.06/40.07) counter value is attained. Figure 5-26: Digital Input Terminal Setting 24 5-22 MVX9000 User Manual... -
Page 71: Figure 5-27: Digital Input Terminal Setting 25
RUN or STOP state as shown in Figure 5-29. DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 28:Decrease Master Frequency 27:Increase Master Frequency Figure 5-29: Digital Input Terminal Settings 27, 28 MVX9000 User Manual 5-23... -
Page 72: Figure 5-30: Digital Input Terminal Settings 29, 30
A digital input is used to select the LOCAL control when in LOCAL/REMOTE mode. DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 33:Local/Remote Figure 5-32: Digital Input Terminal Setting 33 5-24 MVX9000 User Manual... - Page 73 30.16 Final Count Value Range: 00 to 9999 Default: 00 This parameter defines the final count value for the MVX9000 internal counter. The counter is incremented by a low-to-high transition on a Digital Input Terminal: DI3 to DI6. A selected Digital/Relay Output Terminal may be programmed to activate upon completion of the final count.
- Page 74 These parameters may be set during operation. The Digital Input Terminals (refer to 30.11 to 30.15) are used to select one of the MVX9000 Preset Speeds. The speeds (frequencies) are determined by 30.18 to 30.24. Preset Speeds 30.18 to 30.24 in conjunction with 50.46 to 50.52 provide the process logic control (PLC) function.
-
Page 75: Group 40 - Outputs
40.02 = ((meters full scale voltage)/10) x 100% For Example: When using the meter with full scale of 5 volts, adjust 40.02 to 50% 40.03 Digital Output Range: 00 to 20 Default: 02 Terminal D01 MVX9000 User Manual 5-27... -
Page 76: Figure 5-33: R01, R02 And R03 Settings
DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 – DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 DO1 DOC RO3 RO2 RO1 25:Counter reset Figure 5-33: R01, R02 and R03 Settings 5-28 MVX9000 User Manual... -
Page 77: Function Explanations
70.11 and the time has exceeded 70.13. Inverter RUN state: The terminal will be active when the MVX is in a RUN state, the terminal will be inactive when the MVX is in a STOP state. MVX9000 User Manual 5-29... -
Page 78: Figure 5-34: Desired Freq. Attained & Preset Freq. Attained
Output RO7, RO8, Available settings are the same as 40.03 to 40.04. These parameters select the function of the optional extension I/O. These parameters are not visible on the MVX9000 until the extension I/O is installed. 5-30 MVX9000 User Manual... -
Page 79: Group 50 - Ac Drive Control
Freq. Freq. Motor Motor Speed Speed Time Time Stops According Free Running to Deceleration Time to Stop Operation Command Ramp Coast Figure 5-35: Stop Methods MVX9000 User Manual 5-31... - Page 80 Mid-Point frequency can be determined. This parameter must be equal to or greater than Minimum Output Frequency (50.09) and equal to or less than Motor Nameplate Frequency (50.05). During Sensorless Vector this parameter is disabled. 5-32 MVX9000 User Manual...
-
Page 81: Figure
Figure 5-36 shows three examples of how a V/F curve may change due to the setting of parameters 50.04 to 50.10. Voltage 50.06 50.08 50.10 Frequency 0 50.07 50.04 50.09 50.05 Standard V/F Curve Figure 5-36: V/F Curve Changes MVX9000 User Manual 5-33... - Page 82 Acceleration Time 1 Range: 0.01 to 600.00 seconds Default: 10s Unit: 0.01 seconds 50.13 Deceleration Time 1 Range: 0.01 to 600.00 seconds Default: 10s Unit: 0.01 seconds 50.14 Acceleration Time 2 Range: 0.01 to 600.00 seconds Default: 10s Unit: 0.01 seconds 5-34 MVX9000 User Manual...
-
Page 83: Figure 5-37: Acceleration And Deceleration Times
Frequency 50.04 Time Acceleration Deceleration Time Time 50.12 or 50.14 50.13 or 50.15 Figure 5-37: Acceleration and Deceleration Times 50.16 Transition Point for Range: Default: 0.0 Acceleration Time 1 to 2 Disabled 0.1 to 400 Hz Enabled MVX9000 User Manual 5-35... -
Page 84: Figure 5-38: S-Curve Effects
The S-Curve is enabled with settings of 1 to 7, with the highest number generating the smoothest transition. Frequency S-Curve Enabled Time S-Curve S-Curve Characteristics Characteristics S-Curve Disabled Time Normal Normal Acceleration Deceleration Time Time 1 or 2 1 or 2 Figure 5-38: S-Curve Effects 5-36 MVX9000 User Manual... -
Page 85: Figure 5-39: Jog Frequency
Jog Operation Command Figure 5-39: Jog Frequency 50.22 Reverse Operation Range: Default: 00 Enable 00 enable REV operation 01 disable REV operation This parameter enables the AC Motor Drive’s ability to operate in the reverse direction. MVX9000 User Manual 5-37... - Page 86 This time interval should be set to a value where the residual output voltage due to regeneration is nearly zero, before the drive resumes operation. This parameter also determines the wait time after performing an external PAUSE and Fault Reset function. 5-38 MVX9000 User Manual...
-
Page 87: Figure 5-40: Power Loss Parameters
Minimum Output Frequency is set at 1.0 Hz, then any Command Frequency between 1 – 10 Hz will generate a 10 Hz output from the drive. This parameter must be equal to or less than the Upper Limit of Output Frequency 50.27. MVX9000 User Manual 5-39... -
Page 88: Figure 5-41: Skip Frequency Parameters
Skip Frequency and the other half is below. Programming this parameter to 0.0 disables all skip frequencies. Output Freq. 50.29 50.30 Adjustable Range 50.31 Speed Command Frequency Decelerating 50.32 Frequency to be Skipped Accelerating Figure 5-41: Skip Frequency Parameters 5-40 MVX9000 User Manual... - Page 89 Units: 0.1 seconds When parameter is set to 0.0 the function is disabled. 50.38 D (Derivative) Range: 0.0 to 1.0 sec Default: 0.0 sec Adjustment Units: 0.1 seconds When parameter is set to 0.0 the function is disabled. MVX9000 User Manual 5-41...
- Page 90 This parameter is disabled if 30.04 is set to 0.0 mA. 50.43 PID Setpoint Range: Default: 00 Hz 0.1 to 400.0 Hz 00 Hz Disabled Units: 0.1 Hz This parameter sets the frequency target value for the PID function. 5-42 MVX9000 User Manual...
-
Page 91: Figure 5-42: One Plc Program Cycle
50.47 = 12 Hz Operation 50.48 = 15 Hz Output 50.49 = 15 Hz Indication 50.50 = 08 Hz 50.51 = 17 Hz Program 50.52 = 17 Hz Step Complete Program Operation Completed Figure 5-42: One PLC Program Cycle MVX9000 User Manual 5-43... -
Page 92: Figure 5-43: Continuous Plc Program
50.48 50.51 Figure 5-43: Continuous PLC Program Application Note: Changing the value of Jog parameters 50.20 and 50.21 will interrupt PLC program execution. PLC program execution will not be interrupted when other parameter values are changed. 5-44 MVX9000 User Manual... -
Page 93: Figure 5-44: Direction Of Motion
Use the number 1 for a Reverse direction. With the above information the equation can be solved. = (0 x 64)+(1 x 32)+(0 x 16)+(0 x 8)+(0 x 4)+(1 x 2)+(0 x 1) = 0+32+0+0+0+2+0+0 50.45 = 34 for this example MVX9000 User Manual 5-45... - Page 94 The maximum value of these parameters is 9999 seconds and is displayed as 9999. Note: If a time is set to “0” (0 Sec), the corresponding speed will be skipped. This is used to reduce the number of program steps. 5-46 MVX9000 User Manual...
- Page 95 Note: The sleep frequency must be smaller than or equal to the wake frequency. 50.55 Wake Frequency Range: 0.0 to 400 Hz Default: 0.0 The master Frequency point where the drive begins to output again. Programming this parameter to 0.0 disables wake frequency. MVX9000 User Manual 5-47...
-
Page 96: Figure 5-45: Sleep Time Delay
0.0 Hz and the STOP LED will flash. Zero Speed Control = the drive will generate a holding torque at 0.0 Hz. The holding torque strength is dependent on 50.59. 5-48 MVX9000 User Manual... - Page 97 STOP state, that would be caused by a high incoming line and not motor regeneration. There is no limit to the quantity of resets. Once the MVX is in a RUN state, any over voltage on the DC bus will cause an OV fault to occur. MVX9000 User Manual 5-49...
-
Page 98: Group 60 - Motor Control
Range: 00 to 65535 m Ohms Default: 00 Resistance Units: milli-ohms This parameter determines the motor’s line-to-line resistance. The value may be entered manually or via the Auto Tune feature 60.03. This value should be entered when using Sensorless Vector control. 5-50 MVX9000 User Manual... - Page 99 This parameter determines the duration of time that the DC braking current will be applied to the motor upon a stop command of the AC drive. Parameter 50.03 must be set to RAMP to stop, for DC braking to be enabled. MVX9000 User Manual 5-51...
-
Page 100: Figure 5-46: Dc Braking
Increased voltage to the motor also increases current and heat. Always start with a low Torque Compensation value and slowly increase until sufficient starting torque is achieved. This parameter may be set during operation. 5-52 MVX9000 User Manual... -
Page 101: Table 5-1: Carrier Frequency
Significant Significant From Table 5-1, we see that the carrier frequency for the PWM function has a significant influence on the electromagnetic noise, heat dissipation of the AC drive, and the acoustic noise of the motor. MVX9000 User Manual 5-53... -
Page 102: Group 70 - Protective Functions
When 70.02 is enabled, the AC drive will stop accelerating and maintain a constant output frequency. The AC drive will only resume acceleration when the current drops below the value set in 70.02. 5-54 MVX9000 User Manual... -
Page 103: Figure 5-48: Over-Current Stall Prevention
02 Over-Torque detection enabled during constant speed operation, and operation continues after Over-Torque Detection 03 Over-Torque detection enabled during operation, and operation halted after Over-Torque Detection 04 Over-Torque detection enabled during acceleration, and operation continues after Over-Torque Detection MVX9000 User Manual 5-55... - Page 104 00 Inverter Motor (auxiliary fan cooled or high temp rated Selection (I motor) 01 Standard Motor (self cooled motor, shaft mounted fan) 02 Disable This function is used to limit the output power of the AC drive when powering a “self-cooled” motor at low speed. 5-56 MVX9000 User Manual...
-
Page 105: Figure 5-49: I2T Curves
180V to 264V AC, due to the input voltage varying between 180V to 264V AC. Selecting value 2 enables the AVR function and also disables the AVR function during deceleration. This offers a quicker deceleration and is most commonly used. MVX9000 User Manual 5-57... -
Page 106: Figure 5-50: Output Voltage Adjustment
“Uc” on the keypad display. 70.13 Under Current Range: Default: 1.0 Detection Time 0.0 to 20.0 sec. The parameter determines the delay time before an under current output fault will occur. 5-58 MVX9000 User Manual... -
Page 107: Group 80 - Display
53 MVX005#0-5 (575V 3-phase 5 hp input) (6.6A output) 54 MVX007#0-5 (575V 3-phase 7-1/2 hp input) (9.9A output) 55 MVX010#0-5 (575V 3-phase 10 hp input) (12.2A output) This parameter is read only and displays the drive model number. MVX9000 User Manual 5-59... - Page 108 18 External Pause Function (bb) 19 Auto Adjustable accel/decel failure (cFA) 20 Software protection code (codE) 80.05 Second Most Recent Range: See Parameter 80.04 Default: 00 Fault Record 80.06 Third Most Recent Range: See Parameter 80.04 Default: 00 Fault Record 5-60 MVX9000 User Manual...
-
Page 109: Table 5-2: Using Decimals
This parameter can be set during operation. 80.09 External Terminal Range: 1 to 20 Default: 1 Scan Time Unit: 2 msec This function scans the I/O terminals to help eliminate false signals due to noise. Actual Scan Time= 80.09 x 2 msec MVX9000 User Manual 5-61... - Page 110 02 Scroll every 15 seconds after a 1 minute delay This parameter selects the automatic display scroll mode. If parameter 80.15 is set to 01 or 02, the display will scroll through all available views and repeat. 5-62 MVX9000 User Manual...
-
Page 111: Group 90 - Communications
Users may set parameters and control the operation of the AC drive via the RS-485 serial interface. This parameter is used to set the transmission speed between the PC and the MVX9000. This parameter may be set during operation. MVX9000 User Manual... - Page 112 0.0 Disable This parameter is used for communication loss. When this parameter is set to any value over 0.0, the timer is enabled. The value set in this parameter is the time allowed between two command strings. 5-64 MVX9000 User Manual...
-
Page 113: Table 5-3: Communication Mapping Table
14: Over-current During Steady State (OCn) 15: Ground Fault or Fuse Failure (GFF) 16: Reserved 17: 3-Phase Input Power Loss 18: External Pause Function (bb) 19: Auto Adjust Accel/Decel Failure (cFA) 20: Software Protection Code (codE) MVX9000 User Manual 5-65... - Page 114 90.20 Status of PLC time 00 to 65535 0714H 90.21 Status of counter 00 to 65535 0715H 90.22 Status of feedback signal 0.0 to 400.0 Hz 0716H 90.23 Status of PID Setpoint 0.0 to 400.0 Hz 5-66 MVX9000 User Manual...
-
Page 115: Computer Control
Each MVX9000 AC drive has a pre-assigned communication address specified by 90.02. The computer then controls each AC drive according to its address. The MVX9000 can be set up to communicate on a Modbus network using one of the following modes: ASCII (American Standard Code for Information Interchange) or RTU (Remote Terminal Unit). -
Page 116: Data Format
Stop 8-Bit Character 11-Bit Character Frame (8.E.1: Pr. 92=4) Start Even Stop Parity 8-Bit Character 11-Bit Character Frame (8.O.1: Pr. 92=5) Start Stop Parity 8-Bit Character 11-Bit Character Frame Figure 5-53: 10-Bit and 11-Bit Character Frames 5-68 MVX9000 User Manual... -
Page 117: Table 5-5: Communication Protocol
DATA (n-1) Contents of data: Maximum: 20-word registers ..DATA 0 CRC CHK Low CRC check sum: 16-bit check sum consists of 2 8-bit characters CRC CHK High A silent interval of more than 10 ms MVX9000 User Manual 5-69... -
Page 118: Adr (Communication Address)
ADR (Communication Address) Valid communication addresses are in the range of 0 to 254. A Communication address equal to 0 means broadcast to all AC drives. In this case, the MVX9000 will not reply with any message to the master device. -
Page 119: Table 5-7: Rtu Mode
Starting data address Number of data (Count by byte) Number of data Content of data address (count by word) 2102H CRC CHK Low Content of data address 2103H CRC CHK High CRC CHK Low CRC CHK High MVX9000 User Manual 5-71... -
Page 120: Table 5-8: Example Ascii Mode
Group 90 — Communications Example Command code: 06H, write 1 word For example, writing 6000 (1770H) to address 0100H of MVX9000 with address 01H. Table 5-8: Example ASCII mode Command message Response message ADR 1 ADR 1 ADR 0 ADR 0... -
Page 121: Chk (Check Sum)
01H+03H+04H+01H+00H+01H=0AH, the 2’s-complement negation of 0AH is F6H. LRC CHK 1 LRC CHK 0 END 1 END 0 Table 5-11: RTU mode Starting address Number of data (count by word) CRC CHK Low CRC CHK High MVX9000 User Manual 5-73... - Page 122 The function returns the CRC value as a type of unsigned integer. Unsigned int crc_chk(unsigned char* data, unsigned char length){ int j; unsigned int reg_crc=0xFFFF; while(length--){ reg_crc ^= *data++; for(j=0;j<8;j++){ if(reg_crc & 0x01){ /* LSB(b0)=1 */ reg_crc=(reg_crc>>1) ^ 0xA001; }else{ Reg_crc=reg_crc>>1; return reg_crc; 5-74 MVX9000 User Manual...
- Page 123 <8,O,1>=0BH */ for(i=0;i<=16;i++){ while(!(inportb(PORT+LSR) & 0x20)); /* wait until THR empty */ outportb(PORT+THR,tdat[i]); /* send data to THR */ i=0; while(!kbhit()){ if(inportb(PORT+LSR) & 0x01){ /* b0==1, read data ready */ rdat[i++]=inportb(PORT+RDR); /* read data form RDR */ MVX9000 User Manual 5-75...
- Page 124 Group 90 — Communications This page intentionally left blank. 5-76 MVX9000 User Manual...
-
Page 125: Chapter 6 - Maintenance And Inspection
Periodic Inspection ......Periodic Maintenance ......MVX9000 User Manual... -
Page 126: Periodic Inspection
5 hours before attempting to run a motor with it. 5. Clean off any dust and dirt with a vacuum cleaner. Place special emphasis on cleaning the ventilation ports and PCBs. Always keep these areas clean, as accumulation of dust and dirt can cause unforeseen failures. MVX9000 User Manual... -
Page 127: Chapter 7 - Troubleshooting And Fault Information
Common Problems and Solutions ....Warning Codes ......MVX9000 User Manual... -
Page 128: Common Problems And Solutions
fins. 4. Provide enough spacing for adequate ventilation. The AC drive detects Check that the input voltage falls within the that the DC bus voltage rated AC drive’s input voltage. has fallen below its minimum value. MVX9000 User Manual... - Page 129 2. Check for possible motor stall. motor output. 3. Replace the AC drive with one that has a 2. Sudden increase in higher output capacity (next hp size). motor loading. 3. AC drive output capacity is too small. MVX9000 User Manual...
- Page 130 External Pause. 1. When the external input terminal AC drive output is (pause) is active, the AC drive output turned off. will be turned off. 2. Disable this (pause) and the AC drive will begin to work again. MVX9000 User Manual...
-
Page 131: Warning Codes
2. Adjust the over-torque detection setting to an appropriate setting. PID feedback loss The corrective action can be set with treatment of the erroneous feedback signals parameter 50.42. Auto Tune Error Check whether the AC drive’s wiring is correct. MVX9000 User Manual... - Page 132 The Drive check error for saving to Check whether the the drive. communication wiring is correct and function is normal. It allows copying when the voltage and horsepower is the same. Under current fault. Check parameter 70.11 to 70.13. MVX9000 User Manual...
-
Page 133: Appendix A Technical Data
Inside this chapter … Technical Data ....... MVX9000 User Manual... -
Page 134: Table A-1: Mvx9000 115V Specifications
Technical Data Technical Data Table A-1: MVX9000 115V Specifications Voltage Class 115V Series Model Number MVX_ _ _AO-1 Max. Applicable Motor Output (kW) 0.75 Max. Applicable Motor Output (hp) 0.25 Output Rated Output Rating Capacity (kVA) Rated Output Current (A) Max. -
Page 135: Table A-2: Mvx9000 230V Specifications
Technical Data Table A-1: MVX9000 115V Specifications (Continued) Voltage Class 115V Series Environment Installation Location Altitude 1,000m or lower, keep from corrosive gasses, liquid and dust Pollution Degree Ambient Temperature -10 to 50 (Non-Condensing and not frozen)-10 to 40°C for the models of 5.5 kW and higher... - Page 136 Technical Data Table A-2: MVX9000 230V Specifications (Continued) Voltage Class 230V Series Operating Frequency Keypad Set by UP, DOWN keys or potentiomenter Characteristics Setting External Potentiometer-5 kW/0.5W, 0 to +10V DC or 0 to +5V Signal (Input impedance 47 kW), RS-485 interface, 4 to 20 mA (Input impedance 250Ω), 1 to 7 step speeds, PID feedback...
-
Page 137: Table A-3: Mvx9000 460V Specifications
Technical Data Table A-3: MVX9000 460V Specifications Voltage Class 460V Series Model Number MVX_ _ _AO-4 Max. Applicable Motor Output (kW) 0.75 Max. Applicable Motor Output (hp) 7-1/2 Output Rating Rated Output Capacity 13.7 (kVA) Rated Output Current (A) Max. Output Voltage (V) -
Page 138: Table A-4: Mvx9000 575V Specifications
Technical Data Table A-3: MVX9000 460V Specifications (Continued) Voltage Class 460V Series Other Functions AVR, S-Curve, Over-Voltage, Over-Current stall prevention, Fault records checking, Carrier Frequency adjustable, DC injection braking, Momentary power loss restart, Frequency limit setting, Parameter lock/reset, Frequency input operation method selection, Reverse run inhibit, etc. -
Page 139: Appendix B Parameter Tables
Appendix B Parameter Tables Inside this chapter … MVX9000 Parameter Listing ....MVX9000 User Manual... -
Page 140: Mvx9000 Parameter Listing
MVX9000 Parameter Listing MVX9000 Parameter Listing Table B-1: 20 — BASIC GROUPING (Quick Start) User Modbus Groups Page # Description Range Default Settings 0000H 20.01 Motor Nameplate 10.0 to 400.0 Hz 60.0 50.05 Frequency 0001H 20.02 Motor Nameplate 115/230V drives: 1.0 to 255V 50.06... -
Page 141: Table B-2: 30 - Inputs
MVX9000 Parameter Listing Table B-2: 30 — INPUTS User Modbus Groups Page # Description Range Default Settings 0100H 30.01 Minimum reference 0.0 to 10.0V value (0 – 10V) 0101H 30.02 Maximum reference 0.0 to 10.0V 10.0 value (0 – 10V) 0102H 30.03... - Page 142 MVX9000 Parameter Listing Table B-2: 30 — INPUTS (Continued) User Modbus Groups Page # Description Range Default Settings 010BH 30.12 5-15 Digital Input Terminal 17: Acceleration/Deceleration (DI3) l Prohibit 010CH 30.13 5-15 Digital Input Terminal 18: Run Enable (DI4) 010DH 30.14...
-
Page 143: Table B-3: 40 - Outputs
MVX9000 Parameter Listing Table B-3: 40 — OUTPUTS User Modbus Groups Page # Description Range Default Settings 0200H 40.01 5-27 Analog Output Signal 00: Frequency Hz 01: Current A 02: Feedback signal 0 – 100 03: Output Power 0 – 100% 0201H 40.02... -
Page 144: Table B-4: 50 - Drive Control
MVX9000 Parameter Listing Table B-4: 50 — DRIVE CONTROL User Modbus Groups Page # Description Range Default Settings 0300H 50.01 5-31 Source of Master 00: Master Frequency Frequency determined by digital keypad up/down 01: Master Frequency determined by keypad potentiometer... - Page 145 MVX9000 Parameter Listing Table B-4: 50 — DRIVE CONTROL (Continued) User Modbus Groups Page # Description Range Default Settings 030BH 50.12 5-34 Acceleration Time 1 0.01 to d 600.0 sec 10.00 030CH 50.13 5-34 Deceleration Time 1 0.01 to d 600.0 sec 10.00...
- Page 146 MVX9000 Parameter Listing Table B-4: 50 — DRIVE CONTROL (Continued) User Modbus Groups Page # Description Range Default Settings 0322H 50.35 5-41 Feedback Signal 00: Positive AI1 (0 – 10V) Selection 01: Negative AI1 (0 – 10V) 02: Positive AI2 (4 – 20 mA) 03: Negative AI2 (4 –...
- Page 147 MVX9000 Parameter Listing Table B-4: 50 — DRIVE CONTROL (Continued) User Modbus Groups Page # Description Range Default Settings 0334H 50.53 5-47 Auto Acceleration/ 00: Linear Acceleration/ Deceleration Deceleration 01: Auto Acceleration, Linear Deceleration 02: Linear Acceleration/Auto Deceleration 03: Auto Acceleration/...
-
Page 148: Table B-5: 60 - Motor Control
MVX9000 Parameter Listing Table B-5: 60 — MOTOR CONTROL User Modbus Groups Page # Description Range Default Settings 0400H 60.01 5-50 Motor Rated Current 30 to 120% 0401H 60.02 5-50 Motor No-Load 00 to 99% 0.4* Current 0402H 60.03 5-50... -
Page 149: Table B-6: 70 - Protective
MVX9000 Parameter Listing Table B-6: 70 — PROTECTIVE User Modbus Groups Page # Description Range Default Settings 0500H 70.01 5-54 Over-voltage Stall 00: Disable Prevention 01: Enable 0501H 70.02 5-54 Over Current Stall 00: Disable Prevention during 20 to 200%... -
Page 150: Table B-7: 80 - Keypad/Display
MVX9000 Parameter Listing Table B-7: 80 — KEYPAD/DISPLAY User Modbus Groups Page # Description Range Default Settings 0600H 80.01 5-59 Software Version 0601H 80.02 5-59 AC Drive Rated ##.# Current Display 0602H 80.03 5-59 Manufacturer Model 00: MVXF50#0-2 Information (230V 1ph/3ph 1/2 hp) - Page 151 MVX9000 Parameter Listing Table B-7: 80 — KEYPAD/DISPLAY (Continued) User Modbus Groups Page # Description Range Default Settings 0603H 80.04 5-60 Present Fault Record 00: No Fault occurred 0604H 80.05 5-60 Second Most Recent 01: Over-current (oc) Fault Record 0605H 80.06...
-
Page 152: Table B-8: 90 - Communication Parameters
< 8 data bits, odd parity, 1 stop bit > 0701H 90.02 5-63 RS-485 01 to d 254 Communication 0702H 90.03 5-63 Transmission Speed 00: 4800 baud 01: 9600 baud 02: 19200 baud 03: 38400 baud B-14 MVX9000 User Manual... - Page 153 MVX9000 Parameter Listing Table B-8: 90 — COMMUNICATION PARAMETERS (Continued) User Modbus Groups Page # Description Range Default Settings 0703H 90.04 5-64 Transmission Fault 00: Display fault and continue Treatment operating 01: Display fault and RAMP to stop 02: Display fault and COAST...
- Page 154 MVX9000 Parameter Listing Table B-8: 90 — COMMUNICATION PARAMETERS (Continued) User Modbus Groups Page # Description Range Default Settings 0708H 90.09 5-65 Status monitor for 19: Auto Adjust Accel/Decel error code Failure (cFA) 20: Software Protection Code (codE) 0709H 90.10...
-
Page 155: Appendix C Accessories
Remote Kit (P/N: MVXRM) ..... C-11 Extension Input/Output (P/N: MVXEIO) ... C-12 MVX9000 User Manual... -
Page 156: Fuse Specification
005A0-5 JJS-15 XTPR010BC1 XTCE007B_ 007A0-5 10.5 JJS-20 XTPR012BC1 XTCE012B_ 010A0-5 12.9 12.2 JJS-50 XTPR016BC1 XTCE015B_ Recommended Fuses for UL approval. Equivalent fuse types = J class, CC class, T class and Type BS88 with a 600V limit. MVX9000 User Manual... -
Page 157: Wiring
12 – 14 MVX002A0-5 575V AC, 2 hp 3.0/4.2 MVX003A0-5 575V AC, 3 hp 4.2/5.9 MVX005A0-5 575V AC, 5 hp 6.6/7.0 8 – 14 MVX007A0-5 575V AC, 7-1/2 hp 9.9/10.5 MVX010A0-5 575V AC, 10 hp 12.2/12.9 8 – 12 MVX9000 User Manual... -
Page 158: Braking
Braking Note: Please only use Eaton’s recommended Cutler-Hammer values. Other resistors values will void the warranty. Please contact the nearest Eaton representative near you for use of the special resistors. The resistors should be at least 10 cm away from AC drive to avoid possible noise. -
Page 159: Emi Filter Cross-Reference
K13-000034-0117 If users want to operate the AC motor drive in coordination with the EMI filters manufactured by Eaton, refer to the above table for the appropriate I/O terminals of the applicable filters. The filter will cause a high leakage circuit. Grounding is required. -
Page 160: Emi Filters
M5 x 0.8 4.80±.04 .39 (10.0) Typ. 4 Places (122.0±1.0) .98±.04 .31 (8.0) Dia. (25.0±1.0) Typ. 4 Places 7.21±.04 (284.0±1.0) Figure C-2: EMI Filter (K13-000034-0112) Used on 3 hp/230V Single-Phase Models — Approximate Dimensions in Inches (mm) MVX9000 User Manual... -
Page 161: Figure C-3: Emi Filter (K13-000034-0113
18 Y/G 1015 AWG 18 Brown 7.80±.04 M4 x 0.7 (198.0±1.0) 1.77±.08 3.94±.04 Typ. 3 Places (45.0±2.0) (100.0±1.0) Figure C-4: EMI Filter (K13-000034-0114) Used on 1 – 3 hp/460V Three-Phase Models — Approximate Dimensions in Inches (mm) MVX9000 User Manual... -
Page 162: Figure C-5: Emi Filter (K13-000034-0115
M5 x 0.8 .39 (10.0) 4.80±.04 Typ. 4 Places (122.0±1.0) .98±.04 .31 (8.0) Dia. (25.0±1.0) Typ. 4 Places 11.18±.04 (284.0±1.0) Figure C-6: EMI Filter (K13-000034-0116) Used on 5 – 7-1/2 hp/460V Three-Phase Models — Approximate Dimensions in Inches (mm) MVX9000 User Manual... -
Page 163: Figure C-7: Emi Filter (K13-000034-0117)
M5 x 0.8 .39 (10.0) 4.80±.04 Typ. 4 Places (122.0±1.0) .98±.04 .31 (8.0) Dia. (25.0±1.0) Typ. 4 Places 11.18±.04 (284.0±1.0) Figure C-7: EMI Filter (K13-000034-0117) Used on 10 hp/460V Three-Phase Models — Approximate Dimensions in Inches (mm) MVX9000 User Manual... -
Page 164: Din Rail Adapter (P/N: Mvxdr
1.40 5.96 5.53 (35.5) (151.5) (140.5) 4.92 (125.0) (25.0) (5.5) Screw 1.97 M4 L9 Screw (5.5) (50.0) M4 L9 3.48 (88.5) M4 P .03 (.7) Figure C-8: DIN Rail Adapter (MVXDR) Approximate Dimensions in Inches (mm) C-10 MVX9000 User Manual... -
Page 165: Remote Kit (P/N: Mvxrm
5 meter keypad cable (16.4) 1.09 1.04 16' 5" 1.44 (27.8) (26.5) (5m) (36.5) 1.43 (36.4) 1.02 1.50 (23.0) (26.0) (15.0) (38.0) Dia. (14.4) Figure C-9: Remote Kit (MVXRM) Approximate Dimensions in Inches (mm) Except as Noted MVX9000 User Manual C-11... -
Page 166: Extension Input/Output (P/N: Mvxeio
Extension Input/Output (P/N: MVXEIO) Extension Input/Output (P/N: MVXEIO) 2.91 1.04 (73.9) (26.4) 2.36 (60.0) (10.5) (25.2) 1.40 3.54 (35.5) (90.0) 1.97 MVXEIO (50.0) (3.0) Figure C-10: Extension I/O (MVXEIO) Approximate Dimensions in Inches (mm) C-12 MVX9000 User Manual... -
Page 167: Table C-5: Terminals
R06-R05 (NO Contact) R07-R08 Digital Output Relay Refer to User Manual 40.04 Relay output contact R07-R08 (NC Contact) R09-R08 Digital Output Relay R09-R08 (NO Contact) DI7-COM Digital Input 7 Refer to User Manual 30.12 DI8-COM Digital Input 8 MVX9000 User Manual C-13... - Page 168 Extension Input/Output (P/N: MVXEIO) This page intentionally left blank. C-14 MVX9000 User Manual...
-
Page 169: Appendix D Dimensions
Drives ........MVX9000 User Manual... -
Page 170: Digital Keypad
(37.6) (23.3) 3.46 (88) 1.63 2.22 (41.5) 1.81 (56.5) (46) M4 P .03 (.7) x .19 (4.8) Deep for Mounting Screw (Typ. 3 Places) 1.20 (30.5) (2.0) Figure D-1: Digital Keypad — Approximate Dimensions in Inches (mm) MVX9000 User Manual... -
Page 171: Figure D-2: Digital Keypad - Mounting Dimensions In Inches (Mm
(Adhesive Paper Backing) .20 (5.0) Dia. (Typ. 3 Places) Cut-Out for the Extension Cable (18.0) 2.55 (64.8) 1.57 1.28 (40.0) (32.5) 1.48 (37.6) Hole Dimension for Mounting Figure D-2: Digital Keypad — Mounting Dimensions in Inches (mm) MVX9000 User Manual... -
Page 172: Drives
MVX003A0-4 (460V, 3 ph, 3 hp) MVX001A0-5 (575V, 3 ph 1 hp) MVX002A0-5 (575V, 3 ph 2 hp) MVX003A0-5 (575V, 3 ph 3 hp) Figure D-3: 1/4 – 3 hp Drive — Approximate Dimensions in Inches (mm) MVX9000 User Manual... -
Page 173: Figure D-4: 3 - 10 Hp Drive - Approximate Dimensions In Inches (Mm
MVX010A0-4 (460V, 3 ph, 10 hp) MVX005A0-5 (575V, 3 ph, 5 hp) MVX007A0-5 (575V, 3 ph, 7-1/2 hp) MVX010A0-5 (575V, 3 ph, 10 hp) Figure D-4: 3 – 10 hp Drive — Approximate Dimensions in Inches (mm) MVX9000 User Manual... - Page 174 This page intentionally left blank. MVX9000 User Manual...
-
Page 175: Appendix E - Declaration Of Conformity
Electromagnetic Compatibility ....EC Declaration of Conformity ....MVX9000 User Manual... -
Page 176: Low Voltage Directive
Directive, the following standard was applied: EN 50178 The following manufacturer/importer is responsible for this declaration: Eaton Electrical Inc. (Company Name) 31-1, Shien Pan Road, Kuei San Industrial Zone, Taoyuan Shien, Taiwan 333, R.O.C. (Company Address) MVX9000 User Manual... -
Page 177: Electromagnetic Compatibility
EN61800-3, EN55011, EN50081-2, EN50082-2, EN61000-4-2, EN61000-4-3, EN61000-4-4, EN61000-4-5, EN61000-4-6, EN61000-4-8 The following manufacturer/importer is responsible for this declaration: Eaton Electrical Inc. (Company Name) 31-1, Shien Pan Road, Kuei San Industrial Zone, Taoyuan Shien, Taiwan 333, R.O.C. (Company Address) MVX9000 User Manual... - Page 178 This page intentionally left blank. MVX9000 User Manual...
- Page 180 OEM markets. For more information, visit www.EatonElectrical.com. Eaton Corporation is a diversified industrial manufacturer with 2005 sales of $11.1 billion. Eaton is a global leader in electrical systems and components for power quality, distribution and control; fluid power systems and services for industrial, mobile and aircraft equipment;...
Need help?
Do you have a question about the MVX9000 and is the answer not in the manual?
Questions and answers