Allen-Bradley 1305 Series User Manual
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Allen-Bradley 1305 Series User Manual

Adjustable frequency ac drive 0.37 - 4 kw (0.5 - 5 hp) frn 6.01 and up
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efesotomasyon.com - Allen Bradley,Rockwell,plc,servo,drive
1305 Adjustable
Frequency AC Drive
(Series C)
0.37 - 4 kW (0.5 - 5 HP)
FRN 6.01 and Up
User
Manual
Table of Contents
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Summary of Contents for Allen-Bradley 1305 Series

  • Page 1 efesotomasyon.com - Allen Bradley,Rockwell,plc,servo,drive 1305 Adjustable User Frequency AC Drive Manual (Series C) 0.37 - 4 kW (0.5 - 5 HP) FRN 6.01 and Up...
  • Page 2 Throughout this manual we use notes to make you aware of safety considerations: acceptability of each application and use of the equipment. In no event will Allen-Bradley Company be responsible or liable for indirect or consequential damages resulting from the use or ATTENTION: Identifies information about application of this equipment.

  • Page 3: Ir Compensation

    Summary of Changes D Improved Speed Regulation. BULLETIN 1305 PERFORMANCE ENHANCEMENTS The parameter [Rated Slip] was added, which compensates New features in Firmware Revision 6.01 include: for inherent slip in an induction motor. This assists in maintaining an induction motor shaft frequency under D Increased Low Speed Torque.
  • Page 4 Summary of Changes SUMMARY OF DRIVE ENHANCEMENTS Refer to the following references in this manual: Firmware Compatibility Chart New Adaptive Current Limit Parameter 5-14 DC Hold Time Improvements 5-22 Compensation Improvements 5-24 New Preset Speed Defaults 5-27 New Analog Filter Parameter 5-31 Slip Compensation 5-35 &...
  • Page 5 Notes...
  • Page 6 Notes...

  • Page 7: Table Of Contents

    Table of Contents Chapter 1 – Information and Precautions Chapter 3 – Human Interface Module Chapter Objectives ....... . . Chapter Objectives .

  • Page 8: Table Of Contents

    Table of Contents Frequency Set ........5-25 Feature Select .

  • Page 9: Chapter Objectives

    Chapter 3 defines the display and control panel keys on the optional Human Interface Module. A flowchart is provided to PLC is a registered trademark of Allen-Bradley Company. guide the user through the key strokes of the various menu SLC is a trademark of Allen-Bradley Company.

  • Page 10: General Precautions

    Information and Precautions Receiving – It is the responsibility of the user to thoroughly Storing – The drive should remain in its shipping container inspect the equipment before accepting the shipment from the prior to installation. If the equipment is not to be used for a freight company.

  • Page 11: Conventions Used In This Manual

    Information and Precautions ATTENTION: Only personnel familiar with the ATTENTION: This drive contains ESD the drive and associated machinery should plan or (Electrostatic Discharge) sensitive parts and implement the installation, start-up and subsequent assemblies. Static control precautions are maintenance of the system. Failure to comply may required when installing, testing, or servicing this result in personal injury and/or equipment damage.

  • Page 12: Nameplate Location

    Information and Precautions NAMEPLATE LOCATION Figure 1.2 Nameplate Information Figure 1.1 Bulletin 1305 Nameplate Location 1305-BA03A-HAP V: 380-460 V: 380-460 3Φ A: 2.2 A: 2.3 Hz: 50/60 Hz: 0-400 Motor VA: 1800 0.75KW / 1 HP Rating: MADE IN U.S.A. Nameplate AB0516C Located...

  • Page 13: Catalog Number Code Explanation

    Information and Precautions CATALOG NUMBER CODE EXPLANATION 1305 – – – First Second Third Fourth Fifth Sixth Position Position Position Position Position Position Bulletin- Nominal Number Current Rating Rating Enclosure Type Options Code Enclosure Type Code Description IP 30 (NEMA Type 1) 200-240V , Single-Phase 200-230V, Three-Phase 380-460V, Three-Phase...
  • Page 14 8.4A. At 460V input voltage, output current is 7.6A. 50/60 H 50/60 Hz 1305-BA03A 0.75 For derating guidelines at ambient temperatures between 40°C Not Available Not Available and 50°C, consult Allen-Bradley. 1305-BA04A 6 ➃ 1305-BA06A 9 ➄ 1305-BA09A...
  • Page 15 Electrical Code and any other governing regional 76.2 mm or local code will overrule this information. The (3.0 in.) Allen-Bradley Company cannot assume responsibility for the compliance or the noncompliance to any code, national, local or otherwise for the proper installation of this drive or associated equipment.
  • Page 16 Installation/Wiring Figure 2.2 Bulletin 1305 Approximate Dimensions Dimensions shown are in millimeters (inches). Shipping weights are in kilograms (pounds). C’ O 5.5 (7/32) O 22.5 (7/8) 200/230 V 380/460 V C’ Approx. Cat. No. Cat. No. Depth Depth Shipping Width Height 1305- .

  • Page 17: Terminal Block Access

    Installation/Wiring TERMINAL BLOCK ACCESS Figure 2.3 Terminal Block Access To access the power and control terminal LED Fault blocks, perform the following procedure: Drive with HIM Removed Indicator 1. Remove power from the drive. Firmware Control Terminal 2. Lower the hinged panel located below the Revision Block HIM or blank front panel.
  • Page 18 Installation/Wiring Figure 2.4 Installation Guidelines GRD R GRD (L1) (L2) (L3) Input Devices Page 2-5 Electrical Interference Page 2-7 Input Power Conditioning Page 2-6 Grounding Page 2-9 Power Wiring Page 2-11 Input Filters Page 2-8 GRD (T1) (T2) (T3) GRD U Control Wiring Page 2-17 Output Filters...

  • Page 19: Input Devices

    Incorrect or inadequate AC supply. if frequent cycling of power is unavoidable, make sure Excessive ambient temperature. that it does not occur more than once a minute. Contact Allen-Bradley for assistance with application or wiring. Input Contactor ATTENTION: An incorrectly applied or installed system can result in component damage or reduction in product life.

  • Page 20: Input Power Conditioning

    Installation/Wiring INPUT POWER CONDITIONING INPUT FUSING The drive is suitable for direct connection to a correct voltage, ATTENTION: The drive does not provide single phase or three-phase, AC power line. However, there are branch circuit protection. Specifications for the certain power line conditions which may introduce the recommended fuse size and type which provide possibility of drive input power component malfunction.

  • Page 21: Electrical Interference – Emi/Rfi

    Installation/Wiring ELECTRICAL INTERFERENCE – EMI/RFI The ground conductor of the motor cable should be connected to the drive ground (GRD) terminal directly. Connecting this Immunity ground conductor to a cabinet ground point or ground bus bar may cause high frequency current to circulate in the ground The 1305 drive is designed for immunity to most externally system of the enclosure.

  • Page 22: Rfi Filtering

    Installation/Wiring RFI FILTERING RFI Filter Leakage Current The optional RFI filter may cause ground leakage currents. 1305 drives can be installed with an RFI filter, which controls Therefore a solid ground connection must be provided. radio–frequency conducted emissions into the main supply lines and ground wiring.

  • Page 23: Grounding

    Installation/Wiring GROUNDING the ground conductor should also be connected to the motor case ground. If shielded or armored cables are used, the same Refer to the grounding diagram on the following page. The grounding methods should be used for the shield/armor as well. drive must be connected to system ground at the power ground Discrete Control and Signal Wiring (GRD) terminal provided on the power terminal block (TB1).
  • Page 24 Installation/Wiring 2-10 Figure 2.5 Recommended 1305 Grounding for Installation Without EMI Filter (Non–CE) Common Conduit/4-Wire Cable Mode Core* Shield* R(L1) U(T1) V(T2) S(L2) W(T3) T(L3) Shield Motor Terminator* Motor Ground Per Ground Rod Frame Local Codes Standard unit has plastic conduit entry.

  • Page 25: Power Wiring

    Installation/Wiring 2-11 POWER WIRING Table 2.B Power Block Terminal (TB1) Input and output power connections are performed through a Terminals Description ten position terminal block, TB1 (see page 2-3 for location). Earth Ground R, S, T (L1, L2, L3) AC Input Line Terminals Figure 2.6 Power Terminal Block Designations (TB1) +DC, BRK (or –DC) Dynamic Brake Option - Refer to instructions in-...
  • Page 26 Installation/Wiring 2-12 Motor Cables Armored cable also provides effective shielding. Ideally, it should be grounded only at the drive (GRD) and motor frame. A variety of cable types are acceptable for drive installations. Some armored cable has a PVC coating over the armor to For many installations, unshielded cable is adequate, provided prevent incidental contact with grounded structure.
  • Page 27 Installation/Wiring 2-13 Conduit Motor Lead Lengths If metal conduit is preferred for cable distribution, the Installations with long cable lengths between the 1305 drive following guidelines must be followed. and motor may require the use of an output reactor or Terminator.
  • Page 28 121m (400ft) 121m (400ft) refer to Section B. 9m (30ft) 30m (100ft) 76m (250ft) 121m (400ft) The Allen-Bradley 1329-HR is representative of 1600V 9m (30ft) 30m (100ft) 121m (400ft) 121m (400ft) insulation rating designs and is recommended in applications 9m (30ft)
  • Page 29 Table 2.E are required for proper drive and motor operation, or motor designs without phase-separating insulation The Allen-Bradley 1329-HR is representative of 1600V paper between motor windings. insulation rating designs and is recommended in applications where long cable lengths are required.
  • Page 30 Installation/Wiring 2-16 Table 2.E Maximum Motor Cable Length ➀ Reactor at the Drive With 1204-TFB2 Terminator With 1204-TFA1 Terminator Using a Motor with Insulation V Using a Motor with Insulation V Using a Motor with Insulation V Using a Motor with Insulation V 1000 Volt 1200 Volt or 1600 Volt 1000 Volt or 1200 Volt...

  • Page 31: Drive Operation Without A Human Interface Module (Him)

    Installation/Wiring 2-17 DRIVE OPERATION WITHOUT A CONTROL WIRING HUMAN INTERFACE MODULE (HIM) Important: All common terminals are tied together within the drive and internally connected to chassis ground. Bulletin 1305 drives are functional without the use of the Human Interface Module (HIM). All control functions can be Recommended practice is to run all signal wiring in separate performed from the control terminal block (TB2).
  • Page 32 Installation/Wiring 2-18 MOP Function Three Wire Control The MOP function is a digital solid-state circuit that produces When using this control scheme, the factory default for the the same effect as rotating a speed reference potentiometer reverse function is controlled from TB2. To enable Reverse with a small DC motor.
  • Page 33 Installation/Wiring 2-19 Figure 2.7 TB2 Designations Figure 2.8 TB2 Designations – Two Wire Control Operation [Input Mode] = “Three Wire” or [Input Mode]=“3 w/2nd Acc.” [Input Mode]=“Run Fwd/Rev” or [Input Mode]=“Run F/R 2nd A” Remote Pot Remote Pot Source Source Wiper or 0-10V DC Input Wiper or 0-10V DC Input 0-10V...
  • Page 34 Installation/Wiring 2-20 Figure 2.9 TB2 Designations Figure 2.10 TB2 Designations – Two Wire Control Operation [Input Mode] = “3 Wire/MOP” [Input Mode] = “Run F/R MOP” Remote Pot Remote Pot Source Source Wiper or 0-10V DC Input Wiper or 0-10V DC Input 0-10V 0-10V Common...
  • Page 35 Installation/Wiring 2-21 Figure Notes: Table 2.F Control Terminal Block (TB2) Descriptions ➀ Required to operate drive. STOP also used to clear a fault. Terminal Signal Specification ➁ Use HIM Stop button to clear faults. 1, 2, 3 External Speed Pot 10 kΩ...

  • Page 36: Output Devices

    1600 volts or higher should be used to minimize effects of reflected wave on motor insulation life. For application of an output contactor to a 1305 drive, please contact Allen-Bradley. Applications with non-inverter duty motors or any motor with exceptionally long leads may require an output inductor or cable terminator.

  • Page 37: Adapters

    Installation/Wiring 2-23 ADAPTERS An adapter is any device connected to the drive’s serial port. Typical devices include: D Human Interface Modules D Communication Modules D Future adapter devices Important: A maximum of five adapters can communicate to the drive. The total current draw of all adapters should not exceed 250mA.
  • Page 38 Installation/Wiring 2-24 Figure 2.11 Adapter Mounting Distance and Cable Connections Maximum Distance Pull back connector to A + B + C ≤ 10 Meters (33 feet) disconnect cable from the A + B + D ≤ 10 Meters (33 feet) Maximum Distance adapter device or Port 2 A + B ≤...
  • Page 39 Human Interface Module Chapter CHAPTER OBJECTIVES above or Series B version 1.01 and above (see back of HIM), the Status Display, Process Display or Password Login menu Chapter 3 describes the various controls and indicators found can be selected as the power-up display or menu. See on the optional Human Interface Module (HIM) of the Bulletin appropriate sections on the following pages for more 1305 AC Drive.
  • Page 40 Human Interface Module Display Panel Descriptions Start The Start key will initiate drive operation if no other Escape control devices are sending a Stop command. This When pressed, the ESC key will cause the key can be disabled by the [Logic Mask] or [Start programming system to go back one level in the Mask].
  • Page 41 Human Interface Module Control Panel Descriptions (continued) Increment/Decrement Arrows (only available with digital speed control) Change Direction Pressing these keys will increase or decrease the HIM Pressing this key will cause the drive to ramp down to frequency command. An indication of this command 0 Hz and then ramp up to set speed in the opposite will be shown on the visual Speed Indicator LEDs.

  • Page 42: Him Removal And Installation

    Human Interface Module HIM REMOVAL AND INSTALLATION Important: When the [Logic Mask] bit for an adapter is changed from ‘‘1” to ‘‘0” it disables all command functions for In addition to mounting directly on the drive, the HIM can be that adapter with the exception of the Stop command and used as a hand held programmer or it can be mounted on the frequency reference.

  • Page 43: Him Modes

    Human Interface Module HIM MODES Search (Series A HIM, software V3.00 & up or Series B HIM, V1.01 & up Only) The HIM has up to seven different modes. Refer to Figure 3.3. This mode will search for parameters that are not at their default values.
  • Page 44 Human Interface Module Power-Up & Figure 3.3 HIM Programming Steps OPERATOR LEVEL Status Display This flow chart serves as a guide to the key strokes required for movement throughout the menu levels. "Choose Mode" ➀ ➀ ➁ Display Process Program EEPROM Search Control...

  • Page 45: Program And Display Modes

    Human Interface Module PROGRAM AND DISPLAY MODES HIM DISPLAY DESCRIPTION ACTION ❏ 1. The Display and Program modes allow access to the parameters for viewing or programming. a. From the Status Display, press Enter (or any key). “Choose Mode” will Choose Mode be shown.
  • Page 46 Human Interface Module PROGRAM AND DISPLAY MODES (continued) HIM DISPLAY DESCRIPTION ACTION ❏ 2. With Series A HIM software versions 3.00 and above, or Series B HIM Changing Digits software version 1.01 and above, you have the ability to access and modify each individual bit or digit.
  • Page 47 Human Interface Module PROGRAM AND DISPLAY MODES (continued) HIM DISPLAY DESCRIPTION ACTION ❏ 3. With Series A HIM software versions 3.00 and above, or Series B HIM Bit ENUMs software version 1.01 and above, bit ENUMs (16 character text strings) will be displayed to aid interpretation of bit parameters.

  • Page 48: Process Mode

    Human Interface Module 3-10 PROCESS MODE HIM DISPLAY DESCRIPTION ACTION ❏ 1. When selected, the Process mode will show a custom display consisting of information programmed with the Process Display group of parameters. a. Complete steps a – c on page 3-7 to access the Program mode. Choose Mode Program b.

  • Page 49: Eeprom Mode

    Human Interface Module 3-11 EEPROM MODE HIM DISPLAY DESCRIPTION ACTION ❏ 1. The EEPROM mode is used to restore all settings to factory default values Reset Defaults or to upload or download parameters between the HIM and the drive. (Parameter upload or download requires a Series B HIM). To restore factory defaults: Choose Mode Display...
  • Page 50 Human Interface Module 3-12 EEPROM MODE (continued) HIM DISPLAY DESCRIPTION ACTION Drive → HIM ❏ 2. To upload a parameter profile from the drive to the HIM, you must have a Series B HIM. a. From the EEPROM menu, press the Increment/Decrement keys until EEprom “Drive →...
  • Page 51 Human Interface Module 3-13 EEPROM MODE (continued) HIM DISPLAY DESCRIPTION ACTION HIM → Drive ❏ 3. To download a parameter profile from the HIM to the drive, you must have a Series B HIM. Important: The download function will only be available when there is a valid profile stored in the HIM.

  • Page 52: Search Mode

    Human Interface Module 3-14 SEARCH MODE HIM DISPLAY DESCRIPTION ACTION ❏ 1. The Search mode is only available with Series A HIM software version Search 3.00 and above or Series B HIM software version 1.01 and above. This mode allows you to search through the linear parameter list and display all parameters that are not at the factory default values.

  • Page 53: Control Status Mode

    Human Interface Module 3-15 CONTROL STATUS MODE HIM DISPLAY DESCRIPTION ACTION ❏ 1. The Control Status mode is only available with Series A HIM software Control Logic version 3.00 and above or Series B HIM software version 1.01 and above. This mode allows the drive logic mask to be disabled, thus preventing a Serial Fault when the HIM is removed with drive power applied.
  • Page 54 Human Interface Module 3-16 CONTROL STATUS MODE (continued) HIM DISPLAY DESCRIPTION ACTION ❏ 2. This menu provides a means to view the fault queue and clear it when Fault Queue/ Clear Faults desired. a. From the Control Status menu, press the Increment (or Decrement) key Control Status Fault Queue until “Fault Queue”...

  • Page 55: Password Mode

    Human Interface Module 3-17 PASSWORD MODE HIM DISPLAY DESCRIPTION ACTION ❏ 1. The factory default password is 0 (which disables password protection). To Setting Password change the password and enable password protection, perform the following steps. a. From the Status Display, press Enter (or any key). “Choose Mode” will Choose Mode be shown.
  • Page 56 Human Interface Module 3-18 PASSWORD MODE (continued) HIM DISPLAY DESCRIPTION ACTION i. Press the Increment (or Decrement) key until “Logout” is displayed. ➁ Password Logout Logout j. Press Enter to log out of the Password mode. Choose Mode Password Press k.
  • Page 57 Human Interface Module 3-19 PASSWORD MODE (continued) HIM DISPLAY DESCRIPTION ACTION ❏ 2. The Program and EEPROM modes, and the Clear Fault Queue menu, are Login to the Drive now password protected and will not appear in the menu. To access these modes, perform the following steps.
  • Page 58 Human Interface Module 3-20 PASSWORD MODE (continued) HIM DISPLAY DESCRIPTION ACTION ❏ 3. To prevent unauthorized changes to parameters, Logout must be Logout from the Drive performed as described below. a. From the Status Display, press Enter (or any key). “Choose Mode” will be shown.
  • Page 59 Start Up Chapter CHAPTER OBJECTIVES This chapter describes the steps needed to start-up the drive. ATTENTION: Power must be applied to the Included in the procedure are typical adjustments and checks to drive to perform the following start-up procedure. assure proper operation. The information contained in previous Some of the voltages present are at incoming line chapters of this manual must be read and understood before potential.
  • Page 60 Start-Up Initial Operation - Motor Disconnected ATTENTION: Proceed with caution. A DC bus ❏ 1.Verify that AC line power at the disconnect device is within voltage may be present at the Power Terminal Block the rated value of the drive. (TB1) even when power is removed from the drive.
  • Page 61 Start-Up ❏ 8. If the HIM and drive are not communicating properly, ‘‘Connection Fail” Bul. 1305 Drive may be displayed on line 2. If this occurs remove the HIM from the drive Connection Fail and reinsert. See Page 3-4 for HIM Removal instructions. If this does not correct the problem or another fault message is displayed, record the information and remove all power.
  • Page 62 Start-Up ❑ 10. INPUT MODE SELECTION (continued) Choose Mode Display a.) From the Status Display, press the Enter key (or any key). ‘‘Choose Mode” will be displayed. Choose Mode Program b.) Press the Increment (or Decrement) key until ‘‘Program” is displayed. Choose Group c.) Press Enter.
  • Page 63 Start-Up ❏ 11. Setting Frequency Command to 0 Hz If the HIM has an analog potentiometer option, turn the potentiometer fully counter clockwise and skip to Step 12. If the HIM has Digital Up-Down keys for frequency control then perform the following: a.) From the Status Display, press the Enter key (or any key).
  • Page 64 Start-Up ❏ 12. Verifying Minimum and Maximum Frequency Settings. a.) Press the Start key. The drive should output 0 Hz. which is the factory At Speed default value for the [Minimum Freq] parameter. The Status Display +0.00 Hz should indicate “At Speed” and the actual frequency (+0.00 Hz.). b.) With the drive still running, use the speed source to command Accelerating maximum speed.
  • Page 65 Start-Up ❏ 14. Jog Control Check. a.) With the drive stopped, press and hold the JOG key on the Control Press & Hold Jog Key Panel. The drive should accelerate to the frequency programmed by the At Speed [Jog Frequency] parameter and remain there until the JOG key is +10.00 Hz released.
  • Page 66 Start-Up ❏ 16. Reconnect the Motor. Remove ALL Power ATTENTION: Proceed with caution. A DC Bus Voltage may be present at the Power Terminal Block (TB1) even when power is Reconnect Motor removed from the drive. a.) Disconnect and lock-out all input and control power to the drive. When the HIM Display is no longer illuminated, remove the drive cover.
  • Page 67 Start-Up ❏ 17. Check for Correct Motor Rotation. Apply Power to Drive a.) Reapply power to the drive. At Speed At Speed Verify Frequency +5.00 Hz +5.00 Hz Command = 0 b.) Verify that the frequency command is at zero Hz. Refer to step 11 for further information.
  • Page 68 Start-Up 4-10 ❏ 18. Check for proper operation. a.) Start the drive. At Speed +5.00 Hz Slowly Increase Speed b.) Slowly increase the speed. Check for proper motor operation throughout At Speed the speed range. +60.00 Hz c.) Press the Stop key. Stopped +0.00 Hz ❏...
  • Page 69 Programming Chapter CHAPTER OBJECTIVES Function Page # Function Page # Chapter 5 describes the 1305 parameters which are divided into Accel/Decel Time Min/Max Freq. 5-10, 5-11, 5-15 groups for ease of programming and operator access. Grouping Accel/Decel Selection 5-30 5-6, 5-8, 5-28, replaces a sequentially numerical parameter list with functional 5-49, 5-53 Analog Invert...
  • Page 70 Programming Wrap to Linear List Advanced Output Metering Setup Frequency Set Feature Select Faults Setup Configuration Page 5-32 Page 5-37 Page 5-39 Page 5-5 Page 5-8 Page 5-15 Page 5-25 Output Current (54) Input Mode (21) Minimum Freq (16) Freq Select 1 (5) Run On Power Up (14) Output 1 Config (90) Fault Buffer 0 (86)
  • Page 71 Programming Wrap to Metering Process Diagnostics Masks Owners Adapter I/O Linear List Display Page 5-42 Page 5-47 Page 5-50 Page 5-54 Page 5-55 Page 5-56 Drive Command (58) Logic Mask (92) Stop Owner (102) Data In A1 (111) Process Par (127) This group contains all Drive Status (59) Direction Mask (94)

  • Page 72: Programming Example

    Programming PROGRAMMING EXAMPLE The following is an example of the programming steps required to change a parameter setting. In this example, the parameter [Freq Select 1] is being programmed from its’ factory default setting of “Adapter 1” to a new setting, “Adapter 2”. HIM DISPLAY DESCRIPTION ACTION...

  • Page 73: Metering

    Programming Metering This group of parameters consists of commonly viewed drive operating conditions such as drive output fre- quency, output voltage, output current and command frequency. All parameters in this group are Read Only. [Output Current] [Output Current] Parameter # 54 Factory Default None Parameter Type Read Only Minimum 0.00...
  • Page 74 Programming Metering Group (continued) [Output Freq] [Output Freq] Parameter # 66 Factory Default None Parameter Type Read Only Minimum – [Maximum Freq] This parameter displays the output frequency present at Units 0.01 Hz Maximum + [Maximum Freq] TB1, terminals T1, T2 & T3 (U, V & W). Parameter # 65 Factory Default 0.00 Hz [Freq Command]...
  • Page 75 Programming Metering Group (continued) [Drive Temp] [Drive Temp] Parameter # 70 Factory Default None Parameter Type Read Only Minimum 0 This parameter displays the drive internal temperature. Units 1_C Maximum 100_C [Last Fault] [Last Fault] Parameter # 4 Factory Default None Parameter Type Read Only Minimum 0 This parameter displays the fault code for the present drive...

  • Page 76: Setup

    Programming Setup This group of parameters defines the basic operation of the drive and should be programmed before initial operation. For advanced programming and information on specific parameters, refer to the flow chart on page 5-2 & 5-3 [Input Mode] [Input Mode] Parameter # 21 Factory Default “Three Wire”...
  • Page 77 Programming Setup Group (continued) [Accel Time 1] [Accel Time 1] Parameter # 7 Factory Default 10.0 Sec Parameter Type Read & Write Minimum 0.0 Sec This parameter is the factory default parameter for Units 0.1 Second Maximum 3600.0 Sec determining the time it will take the drive to ramp from 0 Hz to [Maximum Frequency].
  • Page 78 Programming 5-10 Setup Group (continued) [Base Frequency] [Base Frequency] Parameter # 17 Factory Default 60 Hz Parameter Type Read & Write Minimum 40 Hz This value should be set to the motor nameplate Rated Units 1 Hz Maximum 400 Hz Frequency.
  • Page 79 Programming 5-11 Setup Group (continued) [Maximum Freq] [Maximum Freq] Parameter # 19 Factory Default 60 Hz Parameter Type Read & Write Minimum 40 Hz This parameter sets the highest frequency the drive will Units 1 Hz Maximum 400 Hz Important: This parameter can output.
  • Page 80 Programming 5-12 Setup Group (continued) [Overload Mode] [Overload Mode] Parameter # 37 Factory Default “No Derating” Parameter Type Read & Write This parameter selects the derating factor for the I Units Text Settings ‘‘No Derating” 10:1 Speed Range – No Derating Refer to Figure 5.2 electronic overload function.
  • Page 81 Programming 5-13 Setup Group (continued) Factory Default 0% of Drive Rated Current ➀ [Sec Curr Limit] [Sec Curr Limit] Parameter # 141 Minimum 0% of Drive Rated Current ➀ Parameter Type Read & Write Maximum 150% of Drive Rated Current ➀ When this parameter is set to zero, the [Current Limit] Units 1% setting is used throughout the frequency range.
  • Page 82 Programming 5-14 Setup Group (continued) Parameter # 149 Factory Default “Enabled” [Adaptive I Lim] [Adaptive I Lim] Parameter Type Read & Write When ENABLED (default), this parameter allows tripless Units Text Settings “Enabled” commanded accelerations into medium to high inertia “Disabled”...

  • Page 83: Advanced Setup

    Programming 5-15 Advanced This group contains parameters that are required to setup advanced functions of the drive such as custom Volts per Hertz settings and dynamic braking. Setup [Minimum Freq] [Minimum Freq] Parameter # 16 Factory Default 0 Hz Parameter Type Read & Write Minimum 0 Hz This parameter sets the lowest frequency the drive will Units 1 Hz...
  • Page 84 Programming 5-16 Advanced Setup Group (continued) Parameter # 18 Factory Default Max. Drive Rated Volts [Base Voltage] [Base Voltage] Parameter Type Read & Write Minimum 25% of Max. Drive Rated Volts This value should be set to the motor nameplate Rated Units 1 Volt Maximum 100% of Max.
  • Page 85 Programming 5-17 Advanced Setup Group (continued) [Break Voltage] Parameter # Factory Default 115V for 230V Drive 230V for 460V Drive Sets the voltage the drive will output at [Break Frequency]. Parameter Type Read & Write Minimum 0 Volts Combined with [Break Frequency], this value determines the Volts-per-Hz ratio between 0 and [Break Frequency].
  • Page 86 Programming 5-18 Advanced Setup Group (continued) [DC Boost Select] [DC Boost Select] Parameter # 9 Factory Default ‘‘Break Point” Parameter Type Read & Write This parameter sets the level of DC boost at low Units Text Settings ‘‘No Boost” See Figure 5.8 frequencies.
  • Page 87 Programming 5-19 Advanced Setup Group (continued) [Start Boost] Parameter # 48 Factory Default See Table 0.37 kW 0.55 kW 0.75 kW 1.5 kW 2.2 kW 4.0 kW (0.5 HP) (0.75 HP) (1 HP) (2 HP) (3 HP) (5 HP) 230V 3 Volts 3 Volts 3 Volts...
  • Page 88 Programming 5-20 Advanced Setup Group (continued) [PWM Frequency] [PWM Frequency] Parameter # 45 Factory Default 4.0 kHz Parameter Type Read & Write Minimum 2.0 kHz This parameter sets the carrier frequency for the PWM Units 0.1 kHz Maximum 8.0 kHz output waveform.
  • Page 89 Programming 5-21 Advanced Setup Group (continued) [Analog Invert] [Analog Invert] Parameter # 84 Factory Default ‘‘Disabled” Parameter Type Read & Write This parameter enables the inverting function for the 0-10 Units Text Settings ‘‘Enabled” Maximum Input Commands [Minimum Freq] Minimum Input Commands [Maximum Freq] Volt and 4-20mA analog input signal at TB2.
  • Page 90 Programming 5-22 Advanced Setup Group (continued) [Stop Select] [Stop Select] Parameter # 10 Factory Default ‘‘Ramp” Parameter Type Read & Write This parameter selects the stopping mode when the drive Causes the Drive to Turn Off Immediately This parameter selects the stopping mode when the drive Units Text Settings ‘‘Coast”...
  • Page 91 Programming 5-23 Advanced Setup Group (continued) [DC Hold Volts] [DC Hold Volts] Parameter # 13 Factory Default 0 Volts Parameter Type Read & Write Minimum 0 Volts This parameter value sets the DC voltage applied to the Units 1 Volt Maximum 25% of Max.
  • Page 92 Programming 5-24 Advanced Setup Group (continued) [Compensation] [Compensation] Parameter # 52 Factory Default ‘‘Comp” Parameter Type Read & Write Some drive/motor combinations have inherent instabilities Units Text Settings ‘‘No Comp” Compensation Disabled which are exhibited as nonsinusoidal current feedback. The ‘‘Comp”...

  • Page 93: Frequency Set

    Programming 5-25 Frequency This group of parameters allows the user to program the frequency source, frequency settings, accel/decel times and skip frequencies of the drive. [Freq Select 1] [Freq Select 1] Parameter # 5 Factory Default “Adapter 1” Parameter Type Read & Write This parameter is the factory default parameter for Units Text Settings ‘‘Remote Pot”...
  • Page 94 Programming 5-26 Frequency Set Group (continued) [Jog Frequency] [Jog Frequency] Parameter # 24 Factory Default 10.0 Hz Parameter Type Read & Write Minimum 0.0 Hz This parameter sets the frequency the drive will output Units 0.1 Hz Maximum 400.0 Hz when it receives a jog command.
  • Page 95 Programming 5-27 Frequency Set Group (continued) [Decel Time 2] [Decel Time 2] Parameter # 31 Factory Default 5.0 Sec Parameter Type Read & Write Minimum 0.0 Sec This value determines the time it will take the drive to ramp Units 0.1 Second Maximum 3600.0 Sec from [Maximum Freq] to 0 Hz.
  • Page 96 Programming 5-28 Frequency Set Group (continued) [Skip Freq Band] [Skip Freq Band] Parameter # 35 Factory Default 0 Hz Parameter Type Read & Write Minimum 0 Hz This parameter determines the band width around a [Skip Units 1 Hz Maximum 15 Hz Frequency].
  • Page 97 Programming 5-29 Frequency Set Group (continued) Table 5.A Frequency Source Selection Frequency Source ➀ Parameter Settings Accel/Decel Control Terminal Block Preset/ Upper Presets TB2-18 TB2-17 TB2-16 Accel(26) (72) • • • • • • • • • • • • Disabled Disabled ➁...
  • Page 98 Programming 5-30 Frequency Set Group (continued) Table 5.B Accel/Decel Selection Frequency Source ➀ Parameter Settings Accel/Decel Control Terminal Block Preset/ Upper Presets TB2-18 TB2-17 TB2-16 Accel(26) (72) • • • • • • • • • • • • Disabled Disabled ➁...
  • Page 99 Programming 5-31 Frequency Set Group (continued) Table 5.C Motor Operated Potentiometer (MOP) Frequency Source and Accel/Decel Selection Frequency Source ➀ Parameter Settings Accel/Decel Control Terminal Block Freq Freq Accel Decel Accel Decel Preset/ Upper Presets Select 1 Select 2 Time 1 Time 1 Time 2 Time 2...

  • Page 100: Feature Select

    Programming 5-32 Feature This group contains the necessary parameters to activate and program advanced features of the drive. Select Parameter # 14 Factory Default ‘‘Disabled” [Run On Power Up] [Run On Power Up] Parameter Type Read & Write Units Text Settings ‘‘Enabled”...
  • Page 101 Programming 5-33 Feature Select Group (continued) [Reset/Run Time] [Reset/Run Time] Parameter # 15 Factory Default 1.0 Sec Parameter Type Read & Write Minimum 0.5 Sec This value sets the time between restart attempts when Units 0.1 Second Maximum 30.0 Sec [Reset/Run Tries] is a value other than zero.
  • Page 102 Programming 5-34 Feature Select Group (continued) [S Curve Time] [S Curve Time] Parameter # 56 Factory Default 0.0 Sec Parameter Type Read & Write Minimum 0.0 Sec This parameter enables an adjustable shape S-Curve Units 0.1 Second Maximum 300.0 Sec accel/decel time.
  • Page 103 Programming 5-35 Feature Select Group (continued) [Cable Length] [Cable Length] Parameter # 143 Factory Default “Short” Parameter Type Read & Write This parameter selects the length of cable that is Units Text Settings “Short” connected to the motor. “Long” Important: A setting of “Long” causes the PWM carrier frequency to be fixed at 2 kHz and Voltage Ring-Up Reduction software to be enabled.
  • Page 104 Programming 5-36 Feature Select Group (continued) [Slip Comp Adder] [Slip Comp Adder] Parameter # 148 Factory Default None Parameter Type Read Only Minimum 0.00 Hz Displays the frequency added to the drive output due to the Units 0.01 Hz Maximum 5.00 Hz slip compensation feature.

  • Page 105: Output Configuration

    Programming 5-37 Output This group of parameters contains the programming options for digital and analog drive outputs. Configura- tion [Output 1 Config] [Output 1 Config] Parameter # 90 Factory Default “Faulted“ Parameter Type Read & Write Output closes when drive reaches [Freq Command]. This parameter sets the condition that actuates the relay This parameter sets the condition that actuates the relay Units Text...
  • Page 106 Programming 5-38 Output Configuration Group (continued) [Analog Out Sel] [Analog Out Sel] Parameter # 25 Factory Default “Frequency” Parameter Type Read & Write 0 to [Maximum Freq] This parameter selects the value to which the 0-10V DC This parameter selects the value to which the 0 10V DC Units Text Setting ‘‘Frequency”...

  • Page 107: Faults

    Programming 5-39 Faults This group of parameters provides information and programmed settings on commonly viewed drive faults. [Fault Buffer 0-3] [Fault Buffer 0-3] Parameter # 86-89 Factory Default None Parameter Type Read Only These parameters store the last (4) faults that occur. If the Units Numeric Buffer Last Fault, stored in EEPROM...
  • Page 108 Programming 5-40 Faults Group (continued) [Cur Lim Trip En] [Cur Lim Trip En] Parameter # 82 Factory Default ‘‘Default Run” Parameter Type Read & Write A Diagnostic Current Limit Fault is generated This setting determines whether or not exceeding the Units Text Setting ‘‘Trip @ I Lim”...
  • Page 109 Programming 5-41 Faults Group (continued) Line Loss Fault “F03 Enable” (Enabled) Line Loss Fault “U Volt Run” (Disabled) 100% Nominal 100% Nominal Bus Voltage Bus Voltage No Fault Output Power is on No Fault Output Power is on 85% Nominal 85% Nominal Bus Voltage Bus Voltage...

  • Page 110: Diagnostics

    Programming 5-42 Diagnostics This group of parameters contains values that can be helpful in explaining the operation of the drive. Drive status, direction, control and alarm conditions are included. [Drive Command] [Drive Command] Parameter # 58 Parameter Type Read Only This parameter displays the status of the drive commands This parameter displays the status of the drive commands in an 8-bit binary format.
  • Page 111 Programming 5-43 Diagnostics Group (continued) Parameter # 59 [Drive Status] [Drive Status] Parameter Type Read Only This parameter displays the actual operating condition in This parameter displays the actual operating condition in 16 bit binary format. Bit 15 Bit 14 Bit 13 Bit 12 Bit 11...
  • Page 112 Programming 5-44 Diagnostics Group (continued) [Drive Alarm] [Drive Alarm] Parameter # 60 Parameter Type Read Only This parameter displays which alarm condition is present This parameter displays which alarm condition is present when bit 6 of [Drive Status] is high (set to 1) Bit 7 Bit 6 Bit 5...
  • Page 113 Programming 5-45 Diagnostics Group (continued) [Freq Source] [Freq Source] Parameter # 62 Parameter Type Read This parameter displays the frequency source currently Units Text Displays ‘‘Remote Pot” ‘‘Preset 1” commanding the drive. ‘‘0-10 Volt” ‘‘Preset 2” ‘‘4–20 mA” ‘‘Preset 3” ‘‘MOP”...
  • Page 114 Programming 5-46 Diagnostics Group (continued) Parameter # 44 [Power Mode] Parameter Type Read Only This parameter is used for internal diagnostic purposes. [Drive Type] Parameter # 61 [Drive Type] Parameter Type Read Only This parameter displays a decimal number that identifies the drive.

  • Page 115: Masks

    Programming 5-47 Masks This group of parameters contains binary masks for all control functions except the stop command. The masks control which adapters can issue control commands. Mask Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Each mask contains a bit for each adapter.
  • Page 116 Programming 5-48 Masks Group (continued) [Start Mask] [Start Mask] Parameter # 95 Factory Default 01111111 Parameter Type Read & Write This parameter determines which adapters can issue start Units Byte Settings 1 Permit Control commands. Deny Control [Jog Mask] [Jog Mask] Parameter # 96 Factory Default 01111111 Parameter Type Read &...
  • Page 117 Programming 5-49 Masks Group (continued) [Fault Mask] [Fault Mask] Parameter # 100 Factory Default 01111111 Parameter Type Read & Write This parameter determines which adapters can reset a Units Byte Settings 1 Permit Control fault using input control signals. Deny Control [MOP Mask] [MOP Mask] Parameter # 101...

  • Page 118: Owners

    Programming 5-50 Owners This group of parameters contains binary status information to display which adapters are issuing control commands. Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Owners “TB2” “Adapter 1” Adapter 1 “Adapter 2”...
  • Page 119 Programming 5-51 Owners Group (continued) [Start Owner] [Start Owner] Parameter # 104 Parameter Type Read Only This parameter displays which adapters are currently Units Byte Settings 1 Controlling Not Controlling issuing Start commands. Since Start commands are edge triggered, multiple adapters can issue the Start command simultaneously and as such are displayed.
  • Page 120 Programming 5-52 Owners Group (continued) [Reference Owner] [Reference Owner] Parameter # 106 Parameter Type Read Only Controlling This parameter displays which adapter has exclusive Units Byte Settings 1 Not Controlling control of selecting the [Freq Source]. [Accel Owner] [Accel Owner] Parameter # 107 Parameter Type Read Only This parameter displays which adapter currently is...
  • Page 121 Programming 5-53 Owners Group (continued) [MOP Owner] [MOP Owner] Parameter # 110 Parameter Type Read Only This parameter displays which adapters are currently Units Byte Settings 1 Controlling Not Controlling issuing increases or decreases in MOP Command Frequency. Multiple adapters can issue changes simultaneously to the MOP value.

  • Page 122: Adapter I/O

    Programming 5-54 Adapter This group contains the parameters needed for an optional communications adapter to communicate with the drive. [Data In A1 through D2] [Data In A1 through D2] Parameter # 111 - 118 Parameter Type Read & Write These parameters are used to write real time data values Parameter Bulletin 1305 drive Controller Output Image Table (i.e.

  • Page 123: Process Display

    Programming 5-55 Process This group contains parameters that can be used to display a drive parameter in ‘‘User Units.” Display [Process Par] [Process Par] Parameter # 127 Factory Default 1 Parameter Type Read & Write Minimum 1 This parameter should be set to the number of the Units Numeric Maximum Max.

  • Page 124: Linear List

    Programming 5-56 Linear This group lists all parameters in numerical order. List Output Voltage Preset Freq 1 DC Bus Voltage Analog Invert MOP Owner Process Text 8 % Output Curr Preset Freq 2 Output Current Reset/Run Tries Data in A1 Local Owner % Output Power Preset Freq 3...
  • Page 125 Troubleshooting and Fault Information Chapter CHAPTER OBJECTIVES Fault LED All drives come equipped with a fault LED. When the fault Chapter 6 provides information to guide the user in understand- LED is illuminated it is an indication a fault condition exists. ing drive fault conditions and general troubleshooting Refer to page 2-3 for the location of the fault LED.
  • Page 126 Troubleshooting and Fault Information Table 6.A Fault Code Cross Reference Fault Number Fault Name Page Fault Number Fault Name Page Power Loss Fault Diag C Lim Flt Undervolt Fault Phase U Fault Overvolt Fault Phase V Fault Motor Stall Fault Phase W Fault Overload Fault UV Short Fault...
  • Page 127 Troubleshooting and Fault Information Table 6.B 1305 Fault Descriptions Name & Fault Number Description Action to Take Diag C Lim FauIt The drive output current has exceeded the software [Current Check programming of [Curr Lim Trip En] parameter. Check Limit] and the [Cur Lim Trip En] parameter was enabled. for excess load, improper DC boost setting, DC brake volts set too high or other causes of excess current.
  • Page 128 Troubleshooting and Fault Information Table 6.B 1305 Fault Descriptions (continued) Fault Name & Number Fault Description Action to Take HIM → Drive Error 1 – The checksum read from the HIM’s EEPROM does not Repeat operation. Old profile corrupt. Save new profile. Repeat match the checksum calculated from the EEPROM data.
  • Page 129 Troubleshooting and Fault Information Table 6.B 1305 Fault Descriptions (continued) Fault Name & Number Fault Description Action to Take Motor Mode FIt Motor Mode FIt Internal error. Internal error. Reset drive to factory defaults. Reset drive to factory defaults. Motor Stall Fault The motor is stalled.
  • Page 130 Troubleshooting and Fault Information Table 6.B 1305 Fault Descriptions (continued) Fault Name & Number Fault Description Action to Take Overcurrent FauIt Overcurrent is detected in overcurrent hardware trip circuit. Check for a short circuit at the drive output or excessive load conditions at the motor.
  • Page 131 Troubleshooting and Fault Information Table 6.B 1305 Fault Descriptions (continued) Fault Name & Number Fault Description Action to Take Pin ID Error Communication Hardware problem. 1. Unplug the HIM from the cable or drive and re-connect. 2. Replace Communication Cable. Power Loss Fault DC bus voltage remained below 85% of nominal for longer than Monitor the incoming AC line for low voltage or line power...
  • Page 132 Troubleshooting and Fault Information Table 6.B 1305 Fault Descriptions (continued) Fault Name & Number Fault Description Action to Take Undervolt Fault Undervolt Fault DC Bus voltage fell below the minimum value. [Line Loss DC Bus voltage fell below the minimum value. [Line Loss Monitor the incoming AC line for low voltage or line power Monitor the incoming AC line for low voltage or line power Fault] parameter is programmed to “U Volt Run”.
  • Page 133 Troubleshooting and Fault Information Table 6.C Troubleshooting General Problem Action to Take Motor does not start (1) Check power circuit (No output voltage to motor) - Check supply voltage. - Check all fuses and disconnects. (“Stopped” is displayed on the HIM). (2) Check motor - Verify that motor is connected properly.
  • Page 134 Troubleshooting and Fault Information 6-10 Table 6.C Troubleshooting (continued) General Problem Action to Take Motor not accelerating properly. (1) Check motor - Verify that motor is connected properly. - Verify that no mechanical problems exist. 2) Check control input signals - Verify that SW1, SW2, and SW3 are in the proper state to select desired Accel/Decel rates.
  • Page 135 Troubleshooting and Fault Information 6-11 Table 6.C Troubleshooting (continued) Specific Problem Action to Take Can not operate in “Run Fwd/Run Rev” (1) Verify that [Input Mode] is set correctly. mode. (2) Has power been cycled for above change to take effect? (3) Are both Run Forward and Run Reverse switches active? Can not change speed from Adapter.
  • Page 136 Troubleshooting and Fault Information 6-12 This Page Intentionally Left Blank.
  • Page 137 Block Diagram and Specifications Appendix BLOCK DIAGRAM Human Interface Module Rectifier Fuses Motor Control Current Start Voltage TB2-6 Power Circuitry Circuitry ➀ Stop TB2-8 Common TB2-7 Fault Drive TB2-11 ➀ Feedback Enable Common TB2-12 Reverse Port 1 Opto TB2-13 Isolator TB2-14 Option Port 2...
  • Page 138 ➃ Output current value listed for 380V input voltage. At 415V input voltage, output current is 5.3A. At 460V input voltage, output current is 4.8A. ➄ Output current value listed for 380V input voltage. At 415V input voltage, output current is 8.4A. At 460V input voltage, output current is 7.6A. For derating guidelines at ambient temperatures between 40°C and 50°C, consult Allen-Bradley.
  • Page 139 Block Diagram and Specifications Table A.1 Specifications (continued) ENVIRONMENTAL SPECIFICATIONS Enclosure NEMA 1 (IP30) standard Ambient Temperature 0 to 50_C; Optional Enclosures: 0 to 40_C Storage Temperature -40_C to 70_C Relative Humidity 0 to 95% (non condensing) Vibration 1.0 G Operational Cooling Method Natural Convection (no fans) Altitude...
  • Page 140 Block Diagram and Specifications Table A.1 Specifications (continued) CONTROL OUTPUTS Programmable Form A Relay Contact: Resistive Rating 115V AC/ 30V DC, 5A; Inductive Rating 115V AC/ 30V DC, 2A Output 1 Open Collector (Sink): 24V DC, 20%, 50 mA maximum Programmable Output 2 (User supplied source voltage)
  • Page 141 Block Diagram and Specifications Table A.1 Specifications (continued) Motor Protection➀ Electronic Overload Protection. Adjustable from 20% to 115% (Motor FLA) Overload Pattern #0 Flat response over speed range (no current derating) Overload Pattern #1 Current derating below 25% of Base Speed Overload Pattern #2 Current derating below 50% of Base Speed Accel/Decel Time(s)
  • Page 142 Block Diagram and Specifications Table A.1 Specifications (continued) PROGRAMMING/COMMUNICATIONS Adapters The maximum current draw of all adapters connected to the drive should not exceed 250 mA Hand Held Programming Optional Human Interface Module (HIM can be removed from the Drive) Type of Annunciation Parameters displayed in textual form, organized in Iogical groupings Type of Display...
  • Page 143 Table B.2 ). The [Freq Select 1] or [Freq Select 2] parameters must then be set to the adapter number that the communication module is connected to. See Pages 2-24 SCANport is a trademark of Allen-Bradley Company. and 5-25 for additional information on determining the Adapter number and [Freq...
  • Page 144 Serial Communications LOGIC CONTROL DATA SCALE FACTOR CONVERSION The information in Table B.2 provides the Logic Control When Reading parameter data in the controller’s input image information that is sent to the drive through the logic table, divide this value by the “Drive Units Scale Factor” to controllers output image table.
  • Page 145 Serial Communications Table B.2 Logic Control Data This information will be displayed in the controller’s output image table and will be sent to the drive when the appropriate dip switch setting on the Communication Module is enabled. Logic Bits Status Text 1 = Stop, 0 = Not Stop Stop...
  • Page 146 Serial Communications Table B.3 Drive Status Data This information will be displayed in the controller’s input image table when the appropriate dip switch setting on the Communication Module is enabled. Logic Bits Status Text 1 = Enabled, 0 = Not Enabled Enabled 1 = Running, 0 = Not Running Running...
  • Page 147 Serial Communications Table B.4 Parameter Grouping/User Settings Parameter Display Drive Units User‘s Scale Factor ➁ Number Units Setting Group Parameter Name Minimum Maximum Factory Setting Output Current Amps 0.00 Two times drive output current –– Output Voltage Volts Maximum Voltage ––...
  • Page 148 Serial Communications Table B.4 Parameter Grouping/User Settings (continued) Parameter Display Drive Units User‘s Scale Factor ➁ Number Units Setting Group Parameter Name Minimum Maximum Factory Setting Text ➀ Input Mode –– –– Three Wire Text ➀ Freq Select 1 –– ––...
  • Page 149 Serial Communications Table B.4 Parameter Grouping/User Settings (continued) Parameter Display Drive Units User‘s Scale Factor ➁ Number Units Setting Group Parameter Name Minimum Maximum Factory Setting Minimum Freq Maximum Freq Base Frequency Base Voltage Volts 25% of DRV 100% of Max. Drive Rated Volts Maximum DRV Break Frequency Break Voltage...
  • Page 150 Serial Communications Table B.4 Parameter Grouping/User Settings (continued) Parameter Display Drive Units User’s Scale Factor ➁ Number Units Setting Group Parameter Name Minimum Maximum Factory Setting Text ➀ Freq Select 1 –– –– Adapter 1 Text ➀ Freq Select 2 ––...
  • Page 151 Serial Communications Table B.4 Parameter Grouping/User Settings (continued) Parameter Display Drive Units User’s Scale Factor ➁ Number Units Setting Group Parameter Name Minimum Maximum Factory Setting Text ➀ Run On Power Up –– –– Disabled Reset/Run Tries Numeric Reset/Run Time Seconds 30.0 Text ➀...
  • Page 152 Serial Communications B-10 Table B.4 Parameter Grouping/User Settings (continued) Parameter Display Drive Units User’s Scale Factor ➁ Number Units Setting Group Parameter Name Minimum Maximum Factory Setting Drive Command Byte –– –– –– –– Text ➀ Drive Status –– –– ––...
  • Page 153 Serial Communications B-11 Table B.4 Parameter Grouping/User Settings (continued) DU Scale Factor ➀ Group Parameter Name Parameter No. Display Units Minimum Maximum Factory Setting Setting Stop Owner Byte –– –– –– –– Direction Owner Byte –– –– –– –– Start Owner Byte ––...
  • Page 154 Serial Communications B-12 Table B.4 Parameter Grouping/User Settings (continued) Parameter Display Drive Units User‘s Scale Factor ➁ Number Units Setting Group Parameter Name Minimum Maximum Factory Setting Process Par Numeric Process Scale Numeric –327.68 +327.67 +1.00 Process Text 1 ASCII Text ––...
  • Page 155 Serial Communications B-13 Table B.1 “Display Unit” Equivalent to Parameter Text Descriptions Parameter Parameter Display Parameter Parameter Display Number Name Unit Name Unit Text Text Freq Select 1 “Remote Pot” DC Boost Select “Fan Sel #1” Freq Select 2 “0-10 Volt” “Fan Sel #2”...
  • Page 156 Serial Communications B-14 Table B.1 “Display Unit” Equivalent to Parameter Text Descriptions (continued) Parameter- Parameter Display Parameter Display Parameter Number Name Unit Name Unit Text Text DB Enabled “Disabled” Line Loss Fault “F03 Enable” “Enabled” “Uvolt Run” Run On Power Up Disabled Motor Type “Induc/Reluc”...
  • Page 157 Serial Communications B-15 Table B.1 “Display Unit” Equivalent to Parameter Text Descriptions (continued) Parameter Parameter Display Parameter Parameter Display Name Unit Name Unit Text Text Language “English” Curr Lim Trip En “Default Run“ “Alternate Language” “Trip @ I Lmt” Clear Fault “Ready”...
  • Page 158 Serial Communications B-16 This Page Intentionally Left Blank.
  • Page 159 Drive Accessories Appendix Table C.1 Accessories IP30 IP66 IP30 Hand Held) Use With (NEMA Type 1) NEMA Type 12 (ULType NEMA Type 1/12 (Enhanced) Bulletin 1201 Descriptions Cat. No. 4X Indoor) Cat. No. (Enhanced) Cat. No. Cat. No. Door Mount Bezel Kit 1201-DMA –...
  • Page 160 Drive Accessories Table C.2 Accessories Accessory Specifications Drive Output Ratings Dynamic Brake Kits ➁ Dynamic Brake Kits ➁ (Kits must not be wired in parallel) Line Reactor Iron core, 3% Impedance, 600V, Class H insulation, 115_C rise, copper wound, 50/60 Hz, terminal blocks, UL, CSA 230V AC Isolation 230V/230V or 460V/460V, Delta primary/Wye secondary, Class H...
  • Page 161 CE Conformity Appendix EMC DIRECTIVE REQUIREMENTS FOR CONFORMING INSTALLATION This apparatus is tested to meet Council Directive 89/336 The following six items are required for CE conformance: Electromagnetic Compatibility (EMC) using a technical 1. CE marked product in NEMA Type 1 (IP30) configuration. construction file and the following standards, in whole or in 2.
  • Page 162 CE Conformity FILTER RFI Filter Installation Important: Refer to the instructions supplied with the filter for Table D.2 Filter and Metal Plate Kit Selection details. Filter Metal Plate Kit AC Drive Type The RFI filter must be connected between the incoming AC 1305-RFB-5-A 1305-MP-05-A 1305-AA02...
  • Page 163 CE Conformity ELECTRICAL CONFIGURATION Figure D.1 Electrical Configuration Conduit/4-Wire Cable R(L1) Shield* S(L2) Motor Filter T(L3) Frame Frame GRD = Earth Ground Ground Rod GROUNDING Important: For use with a 1305 drive with metal conduit entry panel (frame). Using an RFI filter may result in relatively high RFI Filter Grounding ground leakage currents.
  • Page 164 CE Conformity MECHANICAL CONFIGURATION Figure D.3 Required Knockout Assignments Frame A Figure D.2 Mechanical Configuration (1305-AA02A, AA03A, AA04A) Three-Phase ➀ Input Additional Control Terminal Block Cover Adapter Control I/O Terminal Block Cover Motor Output Filter Input Grounding Bracket 18.6 (0.73) - 4 Plcs. Frames B and C (1305-AA08A, AA12A, BA01A, BA02A, BA03A, BA04A, BA06A, BA09A) Optional Brake...
  • Page 165 Index Control Panel Keys Distances between Devices, 2-1, 2-13, Overload Fault, 6-6 2-16, 2-23, 2-24 Change Direction, 3-3 Overspeed Fault, 6-6 Accel/Decel Control, 2-18, 5-9, 5-26, Increment/Decrement, 3-3 Drive Temperature, 5-7, 5-46 Overtemp Fault, 6-6 5-29, 5-30 Jog, 3-2 Overvolt Fault, 6-6 Accessories, C-1, D-2 Start, 3-2 Phase U Fault, 6-6...
  • Page 166 Index Display Panel, 3-1 Base Voltage, 5-10, 5-16 Installation, 3-4 Break Frequency, 5-16 Language, 1-5, 5-34 Operator Level, 3-6 Key Descriptions, 3-2 Break Voltage, 5-17 LEDs Output Contacts, 5-37, 5-38, A-5 Removal, 3-4 Cable Length, 5-35 Direction Indicators, 3-3 Output Disconnection, 2-6 Clear Fault, 5-39 HIM Modes Speed Indicator, 3-3...
  • Page 167 Index PWM Frequency, 5-20 Process Display, 5-55, 5-56 Drive Type, 5-46 Maximum Frequency, 5-15 Fault Buffer 0-3, 5-39 Maximum Voltage, 5-10, 5-17 Rated Slip, 5-35 Process Mode, 3-5, 3-10 Fault Clear Mode, 5-41 Minimum Frequency, 5-10, 5-15 Reference Mask, 5-48 Program Mode, 3-5, 3-7 Fault Mask, 5-49 MOP Hertz, 5-6...
  • Page 168 Index Storage Temperature, A-3 Switch Settings Accel/Decel Selection, 5-30 Frequency Selection, 5-29 Three Wire (3w) Control, 2-18 Troubleshooting, 6-1 Two Wire Control, 2-17 Vibration, A-3 Voltage Boost, 5-18, 5-19 Voltage Rating, 1-5 Wiring, Control and Signal, 2-17, 2-18...
  • Page 170 efesotomasyon.com - Allen Bradley,Rockwell,plc,servo,drive Publication 1305-5.2 – September, 1998 P/N 40052-379-01 (01) Supersedes July, 1996 Copyright 1998 Rockwell Automation, Inc. All rights reserved. Printed in USA...

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