Baldor mn722 - Manual - manualsarea.com

Page 2 - Table of Contents

Table of Contents Table of Contents i MN722 Section 1Quick Start Guide 1-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Overview 1-1 . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 6 - Overview; Quick Start Checklist

Section 1Quick Start Guide Quick Start Guide 1-1 MN722 Overview If you are an experienced user of Baldor controls, you are probably already familiar withthe keypad programming and keypad operation methods. If so, this quick start guide hasbeen prepared for you. This procedure will help get your syst...

Page 7 - Quick Start Procedure

Section 1General Information 1-2 Quick Start Guide MN722 Quick Start Procedure Initial ConditionsBe sure the 22H control and motor are installed and wired according to the procedures inSection 3 of this manual.Become familiar with the keypad programming and keypad operation of the control asdescribe...

Page 8 - General Information 2-1; Line harmonic distortion is reduced.

Section 2General Information General Information 2-1 MN722 Overview The Baldor Series 22H Line Regen Vector Control provides full motoring and lineregeneration to the AC power mains with a near unity power factor. The control usesPWM controlled by IGBT power transistors in both the converter and inv...

Page 9 - -2 General Information; Limited Warranty

2-2 General Information MN722 Limited Warranty For a period of two (2) years from the date of original purchase, BALDOR willrepair or replace without charge controls and accessories which ourexamination proves to be defective in material or workmanship. Thiswarranty is valid if the unit has not been...

Page 10 - General Information 2-3; Safety Notice; PRECAUTIONS; Continued on next page

General Information 2-3 MN722 Safety Notice This equipment contains voltages that may be as high as 1000 volts! Electrical shockcan cause serious or fatal injury. Only qualified personnel should attempt the start–upprocedure or troubleshoot this equipment. This equipment may be connected to other ma...

Page 11 - -4 General Information; RMS Symmetrical Amperes

Section 1General Information 2-4 General Information MN722 Caution: Suitable for use on a circuit capable of delivering not more than theRMS symmetrical short circuit amperes listed here at rated voltage.Horsepower RMS Symmetrical Amperes 1–50 5,000 51–200 10,000 201–400 18,000 401–600 30,000 601–90...

Page 12 - Temperature derating. Up to 40; C no derating required. Above 40; Shock Mounting

Section 3Receiving & Installation Receiving & Installation 3-1 MN722 Receiving & Inspection The Series 22H Vector Control is thoroughly tested at the factory and carefully packagedfor shipment. When you receive your control, there are several things you should doimmediately. 1. Observe t...

Page 13 - Table 3-1 lists the Watts Loss ratings for Series 22H controls.; Table 3-1 Series 22H Watts Loss Ratings.

Section 1General Information 3-2 Receiving & Installation MN722 , Table 3-1 lists the Watts Loss ratings for Series 22H controls. Table 3-1 Series 22H Watts Loss Ratings. CONTROL STD PWM CONV & INV Losses QUIET PWM CONV & INV Losses CONTROL FIXED Losses BOOST REG Loss At Full Load Line R...

Page 14 - Description; Size E control Through the Wall mounting kit.

Section 1General Information Receiving & Installation 3-3 MN722 Control Installation The control must be securely fastened to the mounting surface. Use the four (4)mounting holes to fasten the control to the mounting surface or enclosure. Through the Wall Mounting Control sizes E and F are desig...

Page 15 - Optional Remote Keypad Installation; Mounting Instructions:

Section 1General Information 3-4 Receiving & Installation MN722 Optional Remote Keypad Installation The keypad may be remotely mounted using the optional Baldor keypad extension cable. The keypad assembly (white - DC00005A-01; grey - DC00005A-02)comes complete with the screws and gasket required...

Page 16 - Electrical Installation; Load Reactors; Protect the control from a short circuit at the motor.; System Grounding; Figure 3-1 Recommended System Grounding – EL

Section 1General Information Receiving & Installation 3-5 MN722 Electrical Installation Interconnection wiring is required between the motor control, AC power source, motor,host control and any operator interface stations. Use only UL (cUL) listed closed loopconnectors that are of appropriate si...

Page 17 - Figure 3-2 Recommended System Grounding – EK

Section 1General Information 3-6 Receiving & Installation MN722 Figure 3-2 Recommended System Grounding – EK L1 AC Main Supply Safety Ground Driven Earth Ground Rod (Plant Ground) Four Wire “Wye” L1 L2 L3 Earth LOCAL SHIFT DISP RESET PROG ENTER JOG STOP REV FWD L2 L3 T1 T2 T3 Series H Boost Regu...

Page 19 - Protection Devices; C. The table is specified for NEMA B; Power Disconnect; Internal Fuses; Table 3-4 Internal Fuses

Section 1General Information 3-8 Receiving & Installation MN722 Protection Devices Be sure a suitable input power protection device is installed. Use the recommendedcircuit breaker or fuses listed in Table 3-5 and 3-6. Input and output wire size is based onthe use of copper conductor wire rated ...

Page 20 - Wire Size and Protection Devices; Table 3-5 230VAC Controls (3 Phase) Wire Size and Protection Devices; 60VAC Controls (3 Phase) Wire Size and Protection Devices; Note: All wire sizes are based on 75

Section 1General Information Receiving & Installation 3-9 MN722 Wire Size and Protection Devices Table 3-5 230VAC Controls (3 Phase) Wire Size and Protection Devices Control Rating Input Breaker Input Fuse (Amps) Wire Gauge Amps HP Input Breaker (Amps) Fast Acting Time Delay AWG mm 2 3 0.75 7 5 ...

Page 21 - t motor overload protection. If motor; Figure 3-3 “EL” Control 3 Phase AC Power and Motor Connections; Baldor; See “Protective Devices” described previously in this section.

Section 1General Information 3-10 Receiving & Installation MN722 Three Phase Input Power Connections AC power and motor connections are different for controls that have a model numbersuffix of “EL” and “EK”. Be sure to use the correct procedure for your control. Note: “EK” Controls are input pha...

Page 22 - “EK” suffix; Filter

Section 1General Information Receiving & Installation 3-11 MN722 “EK” suffix (“EK” Controls are input phase sensitive. Check all connections). The AC power and motor connections are shown in Figure 3-4. Overloads are notrequired. The 22H control has an electronic I 2 t motor overload protection....

Page 24 - Control Size; Control Transformer

Section 1General Information Receiving & Installation 3-13 MN722 Figure 3-1 Control and Contactor Transformer Locations Control Sizes C+, D, D+ Logic Control Board Control Transformer Control Size E Control Size F Control Transformer Contactor Transformer Input Contactor Control Size G+ Contacto...

Page 26 - Motor Connections; Motor connections are shown in Figure 3-5.; Figure 3-5 Motor Connections; * Optional components not provided with 22H Control.; See Line/Load Reactors described previously in this section.; See recommended terminal tightening torques in Section 7.; Figure 3-6 Optional M-Contactor Connections

Section 1General Information Receiving & Installation 3-15 MN722 Motor Connections Motor connections are shown in Figure 3-5. Figure 3-5 Motor Connections * Optional components not provided with 22H Control. * AC Motor Baldor Series 22H Control Note 1 *Optional Load Reactor Note 1 A1 B1 C1 A2 B2...

Page 27 - Figure 3-8 Control Connections; Encoder End; Common

Section 1General Information 3-16 Receiving & Installation MN722 Encoder Installation Electrical isolation of the encoder shaft and housing from the motor is required. Electricalisolation prevents capacitive coupling of motor noise that will corrupt the encoder signals.Baldor provides shielded w...

Page 28 - Figure 3-9 Typical Home or Orient Switch Connections

Section 1General Information Receiving & Installation 3-17 MN722 Home (Orient) Switch Input The Home or Orient function is active in the Bipolar and Serial modes and causes the motor shaft to rotate to a predefined home position. The homing function allows shaftrotation in the drive forward dire...

Page 29 - Figure 3-10 Converter Control Board Jumper JP1 Location; Table 3-9 Converter Control Board Jumper; –20mA Speed Command Signal.; Figure 3-11 Inverter Control Board Jumper Locations; Table 3-10 Inverter Control Board Jumper; Factory Setting

3-18 Receiving & Installation MN722 Control Board Jumpers Converter Section Control Board Figure 3-10 Converter Control Board Jumper JP1 Location JP1 3 2 1 Keypad Connector Expansion Board Motor Control Board See recommended terminal tightening torques in Section 7. Table 3-9 Converter Control B...

Page 30 - Analog Inputs; Figure 3-12 Analog Inputs and Outputs; Analog Input 1; Command Pot or; Note: A potentiometer value of 5k

Section 1General Information Receiving & Installation 3-19 MN722 Analog Inputs Two analog inputs are available: analog input #1 (J1-1 and J1-2) and analog input #2(J1-4 and J1-5) as shown in Figure 3-12. Either analog input may be selected in theLevel 1 INPUT block, Command Select parameter valu...

Page 31 - Figure 3-13 Analog Inputs Equivalent Circuits; Analog Outputs; of Section 4 of this manual.; Figure 3-14 Analog Outputs Equivalent Circuits

Section 1General Information 3-20 Receiving & Installation MN722 Figure 3-13 Analog Inputs Equivalent Circuits 500W – + 5.1V Zener .033 m F 5K W 1.96K W +15VDC 20K W 10K W 10K W JP14-20mA + – X N/C To Microprocessor 10K W 10K W To Microprocessor Notes: + – All OP Amps are TL082 or TL084 Analog G...

Page 32 - Control Circuit Connections; Converter Control Board Connections; Ready; Figure 3-15 Converter Control Board Opto Output Wiring; Note: Add appropriately rated

Section 1General Information Receiving & Installation 3-21 MN722 Control Circuit Connections There are two control boards in a Series 22H Vector Control. The Converter ControlBoard is used to rectify and process the incoming power. The Inverter Control Boardprovides the inverting and power outpu...

Page 33 - Inverter Control Board Connections; Figure 3-16 Control Signal Connections; Serial Mode

Section 1General Information 3-22 Receiving & Installation MN722 Inverter Control Board Connections Ten operating modes are available in the Series 22H vector control. These operatingmodes define the basic motor control setup and the operation of the input and outputterminals. After the circuit ...

Page 34 - Keypad Mode Connections; Press STOP key one time to brake or coast to stop.; Figure 3-17 Keypad Control Connection Diagram

Section 1General Information Receiving & Installation 3-23 MN722 Keypad Mode Connections The Keypad operating mode allows the control to be operated from the keypad. This mode requires no connections to J1. However, the Enable, Stop and External Trip inputsmay optionally be used. All other opto ...

Page 36 - 5 Speed 2-Wire Mode Connections; Switch Truth Table is defined in Table 3-11.; Figure 3-19 15 Speed 2-Wire Control Connection Diagram; Table 3-11 Switch Truth Table for 15 Speed, 2 Wire Control Mode; Function

Section 1General Information Receiving & Installation 3-25 MN722 15 Speed 2-Wire Mode Connections Switch Truth Table is defined in Table 3-11. Operation in the 15 Speed 2-Wire mode is controlled by the Opto Isolated inputs at J1-8through J1-16. The Opto inputs can be switches as shown in Figure ...

Page 37 - Speed Analog 2 Wire; Operating; Mode; Command

Section 1General Information 3-26 Receiving & Installation MN722 3 Speed Analog 2 Wire Operating Mode Allows selection of 3 preset speeds with 2 wire inputs. The opto inputs can be switchesas shown in Figure 3-20 or logic signals from another device. The values of the preset speeds are set in th...

Page 38 - Speed Analog 3 Wire

Section 1General Information Receiving & Installation 3-27 MN722 3 Speed Analog 3 Wire Operating Mode Allows selection of 3 preset speeds with 3 wire inputs. The opto inputs can be switchesas shown in Figure 3-21 or logic signals from another device. The values of the preset speeds are set in th...

Page 40 - Multiple Parameter Sets; Note: Preset speed does not apply to table select.

Section 1General Information Receiving & Installation 3-29 MN722 Multiple Parameter Sets The following procedure allows you to program up to four complete sets of parametervalues and to use these multiple parameter sets. When programming each parameterset, use the ENTER key to accept and automat...

Page 41 - Requires expansion board EXB006A01 (DC Tachometer Interface EXB).

Section 1General Information 3-30 Receiving & Installation MN722 Process Mode Connections The process control mode provides an auxiliary closed loop general purpose PID set pointcontrol. The process control loop may be configured in various ways and detaileddescriptions of the process mode are g...

Page 45 - Opto Inputs Closing to Ground; Opto-Isolated Outputs; Figure 3-29 Opto-isolated Output Configurations

Section 1General Information 3-34 Receiving & Installation MN722 Figure 3-28 Opto-Input Equivalent Circuit (Using External Supply) See recommended terminal tightening torques in Section 7. * User VCC = 10 - 30VDC External Power Source * User VCC (-) * User VCC (+) Opto Inputs Closing to Ground O...

Page 46 - sure to check the following items.

Section 1General Information Receiving & Installation 3-35 MN722 Figure 3-30 Opto-Output Equivalent Circuit 19 20 21 22 41 42 43 Opto Output 1 Opto Output 2 Opto Output 3 Opto Output 4 Opto Out 1 Return J1 Opto Out 2 Return Opto Out 3 Return 44 Opto Out 4 Return 18 PC865 50mA max 10 – 30VDC Opto...

Page 48 - Keypad Installation in the Converter Control Board; Open the Series 22H cover.; Keypad Installation in the Inverter Control Board; Install the keypad on Inverter Control Board (secured by 4 screws).

Section 4Programming and Operation Programming & Operation 4-1 MN722 Overview The Series 22H Vector Line Regen Control has two control boards installed. The“Converter Control Board” is used to rectify and process the incoming power. The“Inverter Control Board” provides the inverting and power ou...

Page 49 - Baldor Keypad; Indicator Lights

Section 1General Information 4-2 Programming & Operation MN722 Baldor Keypad The keypad is used to program the control parameters, operate the motor and monitorthe status and outputs of the control by accessing the display options, diagnostic menusand the fault log. Figure 4-1 Keypad JOG - (Gree...

Page 51 - Display Mode Continued; Display Screens & Diagnostic Information Access; Action; XXXV

Section 1General Information 4-4 Programming & Operation MN722 Display Mode Continued Display Screens & Diagnostic Information Access Action Description Display Comments Apply Power Logo display for 5 seconds. Display mode showing motorspeed. No faults present. Local keypadmode. If in remote...

Page 52 - Fault Log Access

Section 1General Information Programming & Operation 4-5 MN722 Display Mode Continued Fault Log Access When a fault condition occurs, motor operation stops and a fault code is displayed on theKeypad display. The control keeps a log of up to the last 31 faults. If more than 31 faultshave occurred...

Page 53 - Program Mode; The Program Mode is used to:; Parameter Blocks Access for Programming

Section 1General Information 4-6 Programming & Operation MN722 Program Mode The Program Mode is used to: 1. Enter motor data. 2. CALC Presets and Autotune the drive. 3. Customize the drive (Control and Motor) parameters to your application. From the Display Mode press the PROG key to access the ...

Page 54 - Program Mode Continued; Changing Parameter Values when Security Code Not Used

Section 1General Information Programming & Operation 4-7 MN722 Program Mode Continued Changing Parameter Values when Security Code Not Used Use the following procedure to program or change a parameter already programmed intothe control when a security code is not being used. The example shown ch...

Page 55 - Reset Parameters to Factory Settings; resetting the control to factory settings.

Section 1General Information 4-8 Programming & Operation MN722 Program Mode Continued Reset Parameters to Factory Settings Sometimes it is necessary to restore the parameter values to the factory settings. Followthis procedure to do so. Be sure to change the Level 2 Motor Data block “Motor Rated...

Page 56 - Initialize New Firmware

Section 1General Information Programming & Operation 4-9 MN722 Program Mode Continued Initialize New Firmware After new firmware is installed, the control must be initialized to the new firmware versionand memory locations. Use the following procedure to Initialize the firmware. Action Descripti...

Page 57 - Parameter Definitions; Converter Control Board Parameters; Table 4-1 Converter Section Parameter List; Miscellaneous

Section 1General Information 4-10 Programming & Operation MN722 Parameter Definitions Converter Control Board Parameters Converter section parameters are programmed at the factory. Table 4-1 is a list of theparameters that can be changed. However, to make any parameter adjustments thekeypad must...

Page 58 - Converter Control Board Parameter; Definitions; Block Title

Section 1General Information Programming & Operation 4-11 MN722 Table 4-2 Converter Control Board Parameter Definitions Block Title Parameter Description MISC Factory Settings Restores factory settings for converter section parameters. Select YES and press ENTER to restore factory parameter valu...

Page 60 - Inverter Control Board; Level 1 Parameter Definitions

Section 1General Information Programming & Operation 4-13 MN722 Table 4-4 Inverter Control Board Level 1 Parameter Definitions Block Title Parameter Description PRESETSPEEDS Preset Speeds#1 – #15 Allows selection of 15 predefined motor operating speeds. Each speed may be selected using external ...

Page 63 - PWM Voltage - Represents the amplitude of PWM voltage where

Section 1General Information 4-16 Programming & Operation MN722 Table 4-4 Inverter Control Board Level 1 Parameter Definitions - Continued Block Title Parameter Description OUTPUT(Continued) Analog Output #1 and #2 Two Analog 0-5VDC linear outputs may be configured to represent any of 19 conditi...

Page 65 - Level 2 Parameter Definitions

Section 1General Information 4-18 Programming & Operation MN722 Table 4-5 Inverter Control Board Level 2 Parameter Definitions Block Title Parameter Description OUTPUT LIMITS Operating Zone Sets the PWM operating zone to Standard 2.5KHz or Quiet 8.0KHz output carrier frequency. Two operating mod...

Page 66 - Figure 4-3 Maximum Output Frequency vs PWM Frequency; HZ

Section 1General Information Programming & Operation 4-19 MN722 Figure 4-3 Maximum Output Frequency vs PWM Frequency 50 100 200 300 400 500 1.00KHz 8.00KHz 16.00KHz HZ It is recommended that the PWM frequency parameter be setto approximately16 times the maximum output frequency ofthe control. Th...

Page 70 - No Keypad Display - Display Contrast Adjustment; When a Fault is Displayed

Section 5Troubleshooting Troubleshooting 5-1 MN722 Baldor Series 22H Controls require very little maintenance and should provide years oftrouble free operation when installed and applied correctly. Occasional visual inspectionshould be considered to ensure tight wiring connections and to avoid the b...

Page 71 - Table 5-1 Converter Control Board Fault Messages; FAULT MESSAGE

Section 1General Information 5-2 Troubleshooting MN722 Table 5-1 Converter Control Board Fault Messages FAULT MESSAGE DESCRIPTION Current Sens FLT Defective phase current sensor or open circuit detected between control board and currentsensor. DC Bus High Bus over voltage condition occurred. DC Bus ...

Page 72 - Table 5-2 Inverter Control Board Fault Messages

Section 1General Information Troubleshooting 5-3 MN722 Table 5-2 Inverter Control Board Fault Messages FAULT MESSAGE DESCRIPTION Current Sens FLT Defective phase current sensor or open circuit detected between control board and currentsensor. DC Bus High Bus over voltage condition occurred. DC Bus L...

Page 73 - How to Access the Fault Log

Section 1General Information 5-4 Troubleshooting MN722 How to Access the Fault Log When a fault condition occurs, motor operation stops and a fault code is displayed on the keypad display. The control keeps a log of up to the last 31 faults. If more than 31faults have occurred the oldest fault will ...

Page 74 - How to Clear the Fault Log

Section 1General Information Troubleshooting 5-5 MN722 How to Clear the Fault Log Use the following procedure to clear the fault log and reset the internal clock. Action Description Display Comments Apply Power Logo display for 5 seconds. Display mode showing outputfrequency. Display mode. Press DIS...

Page 75 - How to Access Diagnostic Information

Section 1General Information 5-6 Troubleshooting MN722 How to Access Diagnostic Information Action Description Display Comments Apply Power Logo display for 5 seconds. Display mode showing motorspeed. No faults present. Local keypadmode. In remote/serial mode, disable drive then press local forthis ...

Page 76 - Table 5-3 Converter Section Troubleshooting; INDICATION; Continued on next page.

Section 1General Information Troubleshooting 5-7 MN722 Table 5-3 Converter Section Troubleshooting INDICATION POSSIBLE CAUSE CORRECTIVE ACTION Current Sense FLT Open circuit between control boardand current sensor or defectivecurrent sensor. Check control wires between control board and current feed...

Page 77 - Continued

Section 1General Information 5-8 Troubleshooting MN722 Table 5-3 Converter Section Troubleshooting Continued INDICATION POSSIBLE CAUSE CORRECTIVE ACTION Over Current FLT Possible converter transistor failure. Check transistors for shorted junctions. Incorrect inductance set in LineInductor parameter...

Page 78 - Table 5-4 Inverter Section Troubleshooting

Section 1General Information Troubleshooting 5-9 MN722 Table 5-4 Inverter Section Troubleshooting INDICATION POSSIBLE CAUSE CORRECTIVE ACTION No Display Lack of input voltage. Check input power for proper voltage. Verify fuses are good (or breaker is not tripped). Loose connections. Check input powe...

Page 83 - Information screen as a hexadecimal value.

Section 1General Information 5-14 Troubleshooting MN722 Table 5-5 Power Base ID - Series 22H 230VAC 460VAC Catalog Numbers Power Base ID No. Catalog Numbers Power Base ID No. ZD22H210–EL 919 ZD22H410–EL B2D ZD22H215–EL 910 ZD22H415–EK B10 ZD22H220–EL 911 ZD22H420–EL B11 ZD22H225–EL 91D ZD22H425–EL B...

Page 84 - AC Coil; Wires between Controls and Motors

Section 1General Information Troubleshooting 5-15 MN722 Electrical Noise Considerations All electronic devices are vulnerable to significant electronic interference signals (commonly called “Electrical Noise”). At the lowest level, noise can cause intermittentoperating errors or faults. From a circu...

Page 85 - Electrical Noise Considerations Continued; Special Drive Situations

Section 1General Information 5-16 Troubleshooting MN722 Electrical Noise Considerations Continued Special Drive Situations For severe noise situations, it may be necessary to reduce transient voltages in the wiresto the motor by adding load reactors. Load reactors are installed between the control a...

Page 86 - Current Prop Gain Parameter

Section 6Manual Tuning the Series 22H Control Manual Tuning the Series 22H Control 6-1 MN722 Manually Tuning the Control In some applications the drive cannot be accurately auto-tuned in an application. In these cases it is necessary to calculate the values needed to tune the drive and manuallyenter...

Page 87 - -2 Manual Tuning the Series 22H Control; Current Int Gain Parameter; To manually tune the control, the following procedure is used:

Section 1General Information 6-2 Manual Tuning the Series 22H Control MN722 Current Int Gain Parameter The Current Int Gain parameter located in the Level 1 Vector Control Block is factorypreset at 150 Hz. This setting is suitable for essentially all systems. DO NOT CHANGEWITHOUT FACTORY APPROVAL. S...

Page 88 - PI Controller

Section 1General Information Manual Tuning the Series 22H Control 6-3 MN722 PI Controller Both the current and rate control loops are of the Proportional plus Integral type. If “E” isdefined to be the error signal, E = Command – Feedback then the PI controller operated on “E” as Output = (K p * E) +...

Page 89 - -4 Manual Tuning the Series 22H Control

Section 1General Information 6-4 Manual Tuning the Series 22H Control MN722

Page 90 - Operating Conditions:

Section 7Specifications, Ratings & Dimensions Specifications, Ratings & Dimensions 7-1 MN722 Specifications: Horsepower 10-50 HP @ 230VAC10-450 HP @ 460VAC Input Frequency 50/60 HZ ± 5% Note: 50Hz operation requires a 15% control derating. Output Voltage 0 to Maximum Input VAC Output Current...

Page 92 - Diagnostic Indications:

Specifications, Ratings & Dimensions 7-3 MN722 Digital Inputs: Opto-isolated Logic Inputs 9 Assignable Rated Voltage 10 - 30 VDC (closed contacts std) Input Impedance 6.8 K Ohms Leakage Current 10 m A maximum Digital Outputs: Opto-isolated Logic Outputs 4 Assignable ON Current Sink 50 mA Max ON ...

Page 93 - Series 22H Vector Control Ratings; NEMA 1 enclosure

7-4 Specifications, Ratings & Dimensions MN722 Series 22H Vector Control Ratings ENCLO- STANDARD 2.5 kHz PWM QUIET 8.0 kHz PWM CATALOG NO. INPUT VOLT SURE SIZE CONSTANT TORQUE VARIABLE TORQUE CONSTANT TORQUE VARIABLE TORQUE HP KW IC IP HP KW IC IP HP KW IC IP HP KW IC IP ZD22H210–EL 230 C+ 10 7....

Page 94 - Table 7-6 Matched Component Matrix; Included in EL Suffix Control Catalog Number.

Section 1General Information Specifications, Ratings & Dimensions 7-5 MN722 Table 7-6 Matched Component Matrix Control Catalog No. Control Specification No. 230 VAC 3% Line Reactor Catalog No. 380-415 VAC 4% Line Reactor Catalog No. 460 VAC 3% Line Reactor Catalog No. Boost Regulator Specificati...

Page 96 - Dimensions; AIR OUTLET

Section 1General Information Specifications, Ratings & Dimensions 7-7 MN722 Dimensions Size C+ Control 28.32(719.3) 29.25(743.0) 30.00(762.0) 5.25(133.3) 11.50(292.1) 0.40(10.2) 0.50(12.7) 12.00(304.8) 12.20(309.9mm) 0.31(7.9) .31(7.9mm) LIFTINGFLANGE JOG LOCAL PROG FWD DISP REV SHIFT ENTER RESE...

Page 98 - Size D Control

Section 1General Information Specifications, Ratings & Dimensions 7-9 MN722 Dimensions Continued Size D Control CUSTOMER POWER CONNECTIONS AIR INLET 13.50 (343.0mm) 14.50 (368.5mm) 25.00 (635.0mm) 10.20 (259.0mm) 10.00 (254.0mm) .31 (8.0mm) JOG LOCAL PROG FWD DISP REV SHIFT ENTER RESET STOP 23.1...

Page 99 - Size E Control

Section 1General Information 7-10 Specifications, Ratings & Dimensions MN722 Dimensions Continued Size E Control R AM VO Hz JOG LOCAL PROG FWD DISP REV SHIFT ENTER RESET STOP 5.75 (146mm) 6.25 (159mm) 30.00 (762mm) .38 .38 (9.5mm) 17.70 (450mm) 2 Places Thru–wall Mounting Flange Surface Mounting...

Page 100 - Size E Control – Through–Wall Mounting

Section 1General Information Specifications, Ratings & Dimensions 7-11 MN722 Dimensions Continued Size E Control – Through–Wall Mounting Cutout for thru–wall mounting (20mm) (5mm) (32mm) (152mm) (273mm) (394mm) (425mm) (430mm) (445mm) .00 1.00 1.19 .56 5.25 13.50 21.75 26.44 27.00 28.19 28.00 .0...

Page 101 - Controller Assembly

Section 1General Information 7-12 Specifications, Ratings & Dimensions MN722 Dimensions Continued Size E Control – Through–Wall Mounting Continued Controller Assembly Customer ’s Panel Cut foam tape and applyto perimeter of opening(to seal installation ofcontroller) Bracket2 Places Bracket2 Plac...

Page 102 - Size F Control

Section 1General Information Specifications, Ratings & Dimensions 7-13 MN722 Dimensions Continued Size F Control .38 (9.5mm) 3 Places Thru–wallMountingFlange SurfaceMountingFlange 27.00 6.76 (172mm) 6.24 (158mm) 0.38 (9.5mm)3 Places 45.00 22.75 (577.9mm) 11.38 (28.9mm) 11.38 (28.9mm) (1143mm) 44...

Page 103 - Size F Control – Through–Wall Mounting

Section 1General Information 7-14 Specifications, Ratings & Dimensions MN722 Dimensions Continued Size F Control – Through–Wall Mounting .00 26.00 1.25 4.00 9.08 13.00 16.92 22.00 24.75 27.02 1.02 .25 26.25 .00 41.98 1.03 .26 1.24 4.99 11.11 12.99 20.99 28.99 30.86 36.99 40.74 43.0142.24 A A A A...

Page 106 - Size H Control

Section 1General Information Specifications, Ratings & Dimensions 7-17 MN722 Dimensions Continued Size H Control 24.00 [609.6] 3.72 [94.6] 8.63 [219] 12.41 [315] 8.63 [219] 2.66 [67.6] Removable ConduitMounting Plates(Customer Power Connections) 23.63 [600] 94.5 [2400] 93.00 [2362] 90.55 [2300] ...

Page 107 - EK Controls - Filter Assembly; Dimension; In

Section 1General Information 7-18 Specifications, Ratings & Dimensions MN722 EK Controls - Filter Assembly B A D C G E F LF1015 LF2015 Dimension In mm In mm A 7.75 196.9 10.25 260.3 B 4.00 101.6 5.00 127.0 C 1.81 46.0 3.31 84.1 D 15.25 387.4 18.00 457.2 E 3.52 89.4 3.65 92.7 F 2.00 50.8 2.00 50....

Page 108 - EK Controls - Boost Regulators

Section 1General Information Specifications, Ratings & Dimensions 7-19 MN722 EK Controls - Boost Regulators 0.3804 PLACES G Max F I D X3 X2 L3 L1 X1 L2 .13 “HR” BSTACK A MAX C H E L1A L2A L3A Electrical Specification/Approximate Weight Dimensions - inches HP Baldor P/N mH Amps Lbs A B C D E F G ...

Page 110 - Appendix A; Converter Section Parameter Values

Appendix A Appendix A-1 MN722 Converter Section Parameter Values Table A-1 Converter Section Parameter Block Values Level 1 Level 1 Blocks Block Title Parameter Adjustable Range Factory Setting User Setting MISC FACTORY SETTINGS NO, YES NO LINE INDUCTOR CALC BUS CAPACITANCE 50 – 500% 100% DAC SELECT...

Page 112 - Table A-2 Power Output Parameter Block Values Level 1

Section 1General Information Appendix A-3 MN722 Table A-2 Power Output Parameter Block Values Level 1 Continued Level 1 Blocks - Continued Block Title Parameter P# Adjustable Range Factory User Setting INPUT OPERATING MODE 1401 1– KEYPAD2– STANDARD RUN3– 15SPD4– 3SPD ANA 2WIRE5– 3SPD ANA 3WIRE6– SER...

Page 113 - PRESS ENTER FOR

Section 1General Information A-4 Appendix A MN722 Table A-2 Power Output Parameter Block Values Level 1 Continued Level 1 Blocks - Continued Block Title Parameter P# Adjustable Range Factory User Setting OUTPUT(Continued) ANALOG OUT #1 1508 0– ABS SPEED1– ABS TORQUE2– SPEED COMMAND3– PWM VOLTAGE4– F...

Page 114 - Table A-3 Power Output Parameter Block Values Level 2

Section 1General Information Appendix A-5 MN722 Table A-3 Power Output Parameter Block Values Level 2 Level 2 Blocks Block Title Parameter P# Adjustable Range Factory User Setting OUTPUT LIMITS OPERATING ZONE 2001 1–STD CONST TQ2–STD VAR TQ3–QUIET CONST TQ4–QUIET VAR TQ STDCONST TQ MIN OUTPUT SPEED ...

Page 118 - Appendix B

Page 119 - Remote Keypad Mounting Template; diameter hole; Note: Template may be distorted due to reproduction.

Section 1General Information B-2 Appendix B MN722 Remote Keypad Mounting Template Four PlacesTapped mounting holes, use #29 drill and 8-32 tap(Clearance mounting holes, use #19 or 0.166 ″ drill) 4.00 2.500 1.250 1.340 4.810 5.500 1- 11 / 16 ″ diameter hole Use 1.25 ″ conduit knockout (B) (A) (A) (A)...

Page 120 - BALDOR ELECTRIC COMPANY; 003 Baldor Electric Company

BALDOR ELECTRIC COMPANY P.O. Box 2400 Ft. Smith, AR 72902–2400 (479) 646–4711 Fax (479) 648–5792  2003 Baldor Electric Company MN722 Printed in USA 8/03 C&J1000

Baldor mn722 - Manual

Table of Contents:

Summary

Other Baldor Models