HitachiメーカーCP-X200の使用説明書/サービス説明書
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X200 Series Inverter Instruction Manual x Single-phase Input 200V class x Three-phase Input 200V class x Three-phase Input 400V class Hitachi Industrial Equipment Sy stems Co., Ltd. Manual Number: NT301XC Sep 2007 After read this manual, Keep it handy for future reference.
Safety Messages For the best results with the X20 0 Series inverter , carefully read this manual and a ll of the warning labels attached to the inverter b efore installing and operating it, and follow the instructions exactly . Keep this manual handy for quick refer ence.
General Precautions – Read These First! W ARNING: This equipment should be installed, adjusted, and serviced by qua lified electrical maintenance person nel familiar with the construction and operation of th e equipment and the hazards involved. Failure to observe this prec aution could result in bodily injury .
W ARNING: Rotating shafts and above-ground electrical potentials can be hazar dous. Therefore, it is strongly recommended that all electrical work conform to the National Electrical Codes and local regulat ions. Installation, alignment and maintenance should be performed only by qualified personnel.
Index to W arnings and Cautions in This Manual iv Cautions and W arnings for Orient ation and Mounting Procedures HIGH VOL T A GE : Hazard of electrical shock. Disconnect incoming power before working on this control. Wait five (5) minutes before removing the front cover .
Wiring – W arnings for Electrical Practice and Wire Specifications W ARNING : “USE 60/75 q C Cu wire only” or equivalent. For models X200-005S, -007S, -01 1S, -022S, -007N, -015N, -015L, -022L, -037L, -055L, -075L. W ARNING: “USE 75 q C Cu wire only” or equivalent.
Wiring – Cautions for Electrical Practice CAUTION : Fasten the screws with the specified fastening torque in the table below . Check for any loosening of screws. Otherwise, there is the danger of fire. … 2-18 CAUTION : Be sure that the input voltage matches the inverter specifications; x Single phase 200V to 240V 50/60Hz (up to 2.
CAUTION : Remarks for using ground fault interrupter breakers in the main power supply: Adjustable frequency inverter with integrated CE-filters and shielded (screened) motor cables have a higher leakage current toward earth GND. Especially at the moment of switching ON this can cause an inadvertent trip of ground fault interrupters.
W arnings for Configuring Drive Parameters W ARNING : When parameter B012, level of electronic thermal setting, is set to motor FLA rating (Full Load Ampere nameplate rating), the inverter provides solid state motor overload protection at 1 15% of motor FLA or equivalent.
W ARNING : Be sure not to touch the inside of the energized inverter or to put any conductive object into it. Otherwise, there is a danger of electric shock and/or fire . … 4-3 W ARNING : If power is turned ON when the Run command is already active, the motor will automatically start and injury may result.
W arnings and Cautions for T roubleshooting and Maintenance W ARNING : W ait at least five (5) minutes after turning OFF the input power supply before performing maintenance or an inspection.
CAUTION: Do not stop operation by switching OFF electromagnetic contactors on the primary or secondary side of the inverter . When there has been a sudden power failure while an operation instruction is active, then the unit may restart operation automatically after the power failure has ended.
CAUTION: EFFECTS OF POWER DISTRIBUTION SYSTEM ON INVERTER In the case below involving a general-purpose inverter , a large peak current can flow on the power supply side, sometimes destroying the converter module: 1. The unbalance factor of the power supply is 3% or higher .
CAUTION: In all the instrumentations in this manual, covers and safety devices are occasionally removed to describe the details. While operating the product, make sure that the covers and safety devices are placed as they were specified originally and operate it according to the instruction manual.
T erminal Tightening T orque and Wire Size The wire size range and t ightening torque for field wirin g terminals are present ed in the tables below . Motor Output Torque Input V oltage kW HP Inverter Model Power T erminal Wiring Size Range (A WG) Ft-lbs (N-m) 0.
Circuit Breaker and Fuse Sizes The inverter’s connections to in put power must include UL Listed inverse time circuit breakers with 600V rating, or UL Listed fuses as shown in the table below .
Table of Content s Safety Messages Hazardous High V oltage......................................................................................................... ......i General Precautions – Read These First! .....................................
Chapter 4: Operations and Monitoring Introduction .................................................................................................................. .......... 4-2 Connecting to PLCs and Other Devices ..................................
Revisions Revision History T able No. Revision Comments Date of Issue Operation Manual No. Initial release of manual NT301X This manual is valid with QRG (NT301 1X) and Caution (NTZ301X) March 2007 NT301X Description was reviewed.
Contact Information Hitachi America, Ltd. Power and Industrial Division 50 Prospect Avenue T arrytown, NY 10591 U.S.A. Phone: +1-914-631-0600 Fax: +1-914-631-3672 Hitachi Europe GmbH Am Seestern 18 D-40547 Dusseldorf Germany Phone: +49-21 1-5283-0 Fax: +49-21 1-5283-649 Hitachi Asia Ltd.
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Getting S t arted In This Chapter… p age - Introduction ...................................................................................... 2 - X200 Inverter Specifications ........................................................... 5 - Introduction to V ariable-Frequency Drives .
Introduction Main Features Congratulation on your purchase of an X200 Series Hitachi inverter! This inverter drive features state-of-the-art circuitry and components to provide high performance. The housing footprint is exceptionally small, given the size of the correspondin g motor .
Operator Interface Options The X200 inverter can utilize a remote keypads, such as the OPE-SRmini (right) or SR W-0EX (below). This allows the keypad to operat e the inverter remotely , as shown (below , left). A cable (part no. ICS-1 or ICS-3, 1m or 3m) connects the modular connectors of the keypad and inverter .
Inverter Specification Label The Hitachi X200 inverters have product labels located on th e right side of the housing, as pictured below . Be sure to verify that the specifications on the labels match your power source, and application safety requ irements.
X200 Inverter Specifications Model-specific tables for 200V and 400V class inverters The following tables are specific to X2 00 inverters for the 200V and 400V class model groups. Note that “General Spec ifications” on page 1 -10 apply to both voltage class groups.
Footnotes for the preceding ta ble and the tables that follow: N ote1: The protection method conforms to JEM 1030. N ote2: The applicable motor refers to Hitachi standard 3-phase m otor (4p). When using other motors, care must be taken to prevent the rat ed motor current (50/60Hz) from exceeding the rated output current of the inverter .
X200 Inverter Specifications, continu ed… Item 200V class Specifications EU version 015SFEF 022SFEF – – – X200 inverters, 200V models USA version 015NFU 022NFU 037LFU 055LFU 075LFU kW 1.5 2.2 3.7 5.5 7.5 Applicable motor size *2 H P 2 3 5 7.5 10 230V 2.
Item 400V class Specifications EU version 004HFE F 007HFEF 015HFEF 022HFEF X200 inverters, 400V models USA version 004HFU 007HFU 015HFU 022HFU kW 0.4 0.75 1.5 2.2 Applicable motor size *2 H P 1/2 1 2 3 380V 0.9 1.6 2.5 3.6 Rated capacity (kV A) 480V 1.
Item 400V class Specifications EU version 030HFEF 040HFEF 055HFE F 075HFEF X200 inverters, 400V models USA version – 040HFU 055HFU 075HFU kW 3.0 4.0 5.5 7.5 Applicable motor size *2 H P 4 5 7.5 10 380V 5.1 5.6 8.5 10.5 Rated capacity (kV A) 480V 6.4 7.
General Specifications The following table applie s to all X200 inverters. Item General Specifications Protective housing *1 IP00 Control method Sinusoidal Pulse W idth Modulation (PWM) control Carrier frequency 2kHz to 12kHz (default setting: 3kHz) Output frequency range *4 0.
Signal Ratings Detailed ratings are in “Control Logic Signal Specificat ions” on page 4-6. Signal / Contact Ratings Built-in power for inputs 24VDC, 30mA maximum Discrete logic inputs 27VDC maximum Discrete logic outputs 50mA maximum ON state current, 27 VDC maximum OFF state voltage Analog output 0 to 10VDC, 1mA Analog input, current 4 to 19.
Derating Curves The maximum available inverter current output is lim ited by the carrier frequency and ambient temperature. The carrier frequency is the inverter’s interna l power switching frequency , settable from 2kHz to 12kHz.
Derating curves: 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-002SFEF/NFU % of rated output current Carrier frequency kHz 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-004SFEF/NFU % of ra.
Derating curves, continued… 1 14 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-007SFEF/NFU % of rated output current Carrier frequency kHz 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X2.
Derating curves, continued… 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-022SFEF/NFU % of rated output current Carrier frequency kHz 1 15 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X2.
Derating curves, continued… 1 16 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-007HFEF/HFU % of rated output current Carrier frequency kHz 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X2.
Derating curves, continued… 1 17 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-030HFEF % of rated output current Carrier frequency kHz 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-0.
Derating curves, continued… 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X200-040HFEF/HFU % of rated output current Carrier frequency kHz 1 18 30% 40% 50% 60% 70% 80% 90% 100% 2 4 6 8 10 12 X2.
Introduction to V ariable-Frequency Drives The Purpose of Motor Speed Control for Industry Hitachi inverters provid e speed control for 3-phase AC induction motors.
Torque and Constant V olts/Hertz Operation In the past, AC variable speed drives used an open loop (scalar) technique to control speed. The constant-volts-hertz operation maintains a constant ratio between the applied voltage and the applied frequency .
Inverter Output to the Motor The AC motor must be connected only to the inverter’s output terminals. The output termina ls are uniquely labeled (to differentiate them from the in put terminals) with the designations U/T1, V/T2, and W/T3. This corresponds to typical motor lead connection designations T1, T2, and T3.
Intelligent Functions and Parameters Much of this manual is devoted to describing how to use inverter functions and how to configure invert er parameters. The inverter is micro-proc essor-controlled, and has many independent functions. The microprocessor has an on-board EEPROM for param eter storage.
Velocity Profiles The X200 inverter is capable of sophisticated speed control. A graphical representation of that capability will help you understand and configure the associated parameters. This manual makes use of the velocity profile graph used in industry (shown at right ).
Frequently Asked Questions Q. What is the main advantage in using an inverter t o drive a motor , compared to alternative solutions? A . An inverter can vary the mot or speed with very little loss of efficien cy , unlike mechanical or hydraulic speed c ontrol solutions.
Q. Why doesn’t the motor have a neutral connect ion as a return to the inverter? A . The motor theoretically repr esents a “balanced Y” load if all three stator windings have the same impedance. The Y connection allows each of the three wires to alternatively serve as input or return on alternate half-cycle.
Q. How will I know if my application will require resistive brak ing? A . For new applications, it may be difficult to tell before you actually t est a motor/drive solution. In general, some application can rely on system losses such as friction to serve as the deceleration forc e, or otherwise can tolerate a long decel time.
Inverter Mounting and Inst allation In This Chapter… p age - Orientation to Inverter Features ..................................................... 2 - Basic System Description ............................................................... 7 - Step-by -Step Basic Inst allation .
Orient ation to Inverter Features Unp acking and Inspection Please take a few moments to unpack your new X200 inverter and perform these steps: 1 . Look for any damage that may have occurred d uring transportation. 2 . V e rify the contents of th e box include: a .
Front Housing Cover HIGH VOL TAGE: Hazard of electr ical shock. Disconnect incomin g power before working on this control. Wait five (5) minutes before r emoving the front cover . Housing Cover Removal – The front housing cover is held in place by a screw and two pairs of tabs.
Logic Connector Introduction After removing the front housing cover , take a moment to beco me familiar with the connectors, as shown below . H IGH VOL TAGE: Hazard of electrical shock. Never touch the expos ed PCB conductors while the unit is powered up.
DIP Switch Introduction The inverter has internal DIP switches, located near the middle of the logic connectors as shown below . This section provides an intr oduction. Refer to later chapters that discuss the DIP switch operation in more detail. The 485/OPE (RS485/Operator) DIP switch configur es the inverter’s RJ45 serial port.
Power W iring Access – First, ensure no power source is connected to th e inverter . If power has been connected, verify that the Power LED is OFF and then wait five minutes after power down to proceed.
Basic System Description A motor control system will obviously includ e a motor and inverter , as well as a circuit breaker or fuses for safet y . If you are connecting a motor to the inverter on a test bench just to get started, that’s all you may need for now .
W ARNING: In the cases below involving a gen eral-purpose inverter , a large peak current can flow on the power supply side, sometimes destroying the converter module: 1.
Choosing a Mounting Location Step 1: Study the following caution messages associat ed with mounting the inverter . This is the time when mistakes are most likely to occur that will result in expensive rework, equipment damage, or personal injury . C AUTION: Be sure to install the unit on flame-resistant material such as steel plate.
Ensure Adequate V entilation Step 2: T o summarize the caution messages – you will need to find a solid, non- flammable, vertical surface that is in a relatively clean and dry environment.
Check Inverter Dimensions Step 4: Locate the applicable drawing on the following pages for your inverter . Dimensions are given in millimeters (inches) format.
Dimensional drawings, continued… X200-005SFEF,007SFEF , -007NFU CAUTION : Power terminal assignment is different compared to old models such as L100, L200 series, etc,.
Dimensional drawings, continued… X200-01 1SFEF~022SFEF , -015NFU~022NFU, -037LFU CAUTION : Power terminal assignment is different compared to old models such as L100, L200 series, etc,.
Dimensional drawings, continued… X200-004HFEF , -004HFU CAUTION : Power terminal assignment is different compared to old models such as L100, L200 series, etc,.
Dimensional drawings, continued… X200-007HFEF , -007HFU CAUTION : Power terminal assignment is different compared to old models such as L100, L200 series, etc,.
Dimensional drawings, continued… X200-015HFEF~040HFEF , -015HFU~040HFU CAUTION : Power terminal assignment is different compared to old models such as L100, L200 series, etc,.
Dimensional drawings, continued… X200-055LFU, -075LFU, -055HFU, -075HFU, -055HFEF , -075HFEF CAUTION : Power terminal assignment is different compared to old models such as L100, L200 series, etc,.
Prep are for Wiring Step 5: It is very important to perform the wiring steps carefully and correctly . Before proceeding, please study the cautio n and warning message herebelow . W ARNING: “USE 60/75 q C Cu wire only” or equ ivalent. For models X200-005S, -007S, -01 1S, -022S, 007N, -015N, 015L, -022L, -037L.
Determining Wire and Fuse Sizes The maximum motor currents in your application determines the r ecommended wore size. The following table gives the wire size in A WG.
Terminal Dimensions and T orque Specs The terminal screw dimensions for all X200 inverters are listed in ta ble below . This information is useful in sizing spade lug or rin g lug connectors for wire terminations. W ARNING: Fasten the screws with the specified fasten ing torque in the table below .
Please use the terminal arrangem ent below corresponding to your invert er model. Inverter models X200-002SFEF~004SFEF, X200-005SFEF~022SFEF , X200-002NFU~004NFU X200-007 NFU~022NFU,037LFU X200-004HFE.
CAUTION: Be sure that the input voltage matches the inverter spec ifications: x Single-phase 200 to 240 V 50/60 Hz (0.2kW~2.2kW) for SFEF models x Single/Three-phase 200 to 240 V 50/60 Hz (0.2kW~2.2kW) for NFU models x Three-phase 200 to 240 V 50/60 Hz (3.
Wire the Inverter Output to Motor Step 7: The process of motor selection is beyond the scope of this manual. However , it must be an AC induction motor with three phases. It should also come with a chassis ground lug. If the motor does not have three power input leads, stop the installation and verify the motor type.
Uncover the Inverter V ents Step 8: After mounting and wirin g the inverter , remove any covers from the inverter housing. This includes material over the side ventilation ports. W ARNING: Make sure the input power to the inverter is OFF . If the drive has been powered, leave it OFF for five minutes before continuing.
Pre-test and Operational Precautions The following instructions apply to the powerup test, or to any t ime the inverter is powered and operatin g. Please study the following instructions and messages before proceeding with the powerup test. 1 . The power supply must have fusing suitable for the load.
Using the Front Panel Keyp ad Please take a moment to familiariz e yourself with the keypad layout shown in the figure below . The display is used in programming the inverter’s par ameters, as well as monitoring specific parameter values dur ing operation.
Keys, Modes, and Parameters The purpose of the keypad is to provide a way to change modes and parameters. The term function applies to both monitoring modes and paramet ers. These are all accessible through function codes that are primary 4-character codes.
Keypad Navigation Map The X200 Series inverter drives have many programmable functions and paramet ers. Chapter 3 will cover thes e in detail, but you need to access just a few items to perform the powerup test.
Selecting Functions and Editing Parameters To prepare to run the motor in the powerup test, this section will show how to configure the necessary parameters: 1 . Select the keypad potentiometer as the source of motor speed command (A001). 2 . Select the keypad as the source of the RUN command (A002).
If the Potentiometer Enable LED is OFF , follow these steps below . Action Display Func./Parameter (Starting point) A- - - “A” Group selected Press the key .
Set the Motor Base Frequency – The motor is designed to operate at a specific AC frequency . Most commercial motors are designed for 50/60 Hz operation. First, check the motor specifications. Then follow the steps below to verify the setting or correct it for your motor .
Action Display Func./Parameter (Starting point) A003 Base frequency setting Press the key and hold until Æ A082 A VR voltage select Press the key . 230 or 400 Default value for A VR voltage: 200V class = 230V AC 400V class = 400V AC (HFE) = 460V AC (HFU) Press the or key as needed.
Set the Number of Motor Poles – The motor’s internal winding arran gement determines its number of magnetic poles. The specification label on th e motor usually indicates the number of poles. For proper operation, verify the parameter setting matches the motor poles.
Monitoring Parameters with the Display After using the keypad for parameter editing, it’s a good idea to switch the inverter fr om Program Mode to Monitor Mode. The PRG LED will be OFF , and the Hertz or Ampere LED indicates the display units. For the powerup test, monitor the motor speed indirectly by viewing the invert er’s output frequency .
Powerup T est Observations and Summary Step 10: Reading this section will help you make some useful ob servations when first running the motor . E rror Codes – If the inverter displays an error code (forma t is “E xx”), see “ Monitoring T rip Events, History , & Conditions” on page 6-5 to interpret and clear the error .
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Configuring Drive Parameters In This Chapter… p age - Choosing a Programming Device ................................................... 2 - Using the Keyp ad Devices .............................................................. 3 - “D” Group: Monitoring Functions .
Choosing a Programming Device Introduction Hitachi variable frequ ency drives (inverters) use the latest electr onics technology for getting the right AC waveform to the motor at the right time. The benefits are many , including energy savings and high er machine output or productivity .
Using the Keyp ad Devices The X200 Series inverter front keypad co ntains all the elements for both monitoring and programming parameters. The keyp ad is layout is pictured below . All other programming devices for the inverter have a similar k ey arrangement and function.
Keypad Navigation Map You can use the inverter’s front panel keypad to navigate to any paramet er or function. The diagram below shows the basic navigation map to access these items.
Operational Modes The RUN and PRG LEDs tell just part of the stor y; Run Mode and Program Modes are independent modes, not opposite modes. In the state diagram to the right, Run alternates with Stop, and Program Mode alternates with Monitor Mode.
“D” Group: Monitoring Functions You can access important parameter values with the “D” Grou p monitoring functions, whether the inverter is in Run Mode or Stop Mode. After select ing the function cod e number for the parameter you want to monitor , press the Function key once to show the value on the display .
“D” Function Func. Code Name / SRW Display Description Run Mode Edit Units Scaled output frequency monitor D007 F-Cnv 00000.00 Displays the output frequency scaled by the constant in B086. Decimal point indicates range: XX.XX 0.00 to 99.99 XXX.X 100.
Local Monitoring During Network Operation The X200 inverter’s serial port may be conn ected to a network or to an external digital operator . During those times, the inverter keypad keys will not function (except for the Stop key).
“F” Group: Main Profile Parameters The basic frequency (speed) profile is defined by parameters contain ed in the “F” Group as shown to the right. The set running frequency is in Hz, but acceleration and deceleration are specified in the time duration of the ramp (from zero t o maximum frequency , or from maximum frequency to zero).
“A” Group: St andard Functions The inverter provides flexibility in how you control Run/Stop operation and set the output frequency (motor speed). It has other control sources that can override the A001 / A002 settings. Parameter A001 sets the source selection for the inver ter’s output frequency .
Run Command Source Setting – For parameter A002, the following table provid es a further description of each option, and a refer ence to other page(s) for more information.
Basic Parameter Settings These settings affect the most fundamental b ehavior of the inverter – the outputs to the motor . The frequency of the inverter’s AC output determines the motor speed. You may select from three different sources for the reference speed.
Analog Input Settings The inverter has the capability to accept an external ana log input that can command the output frequency to the motor . Voltage input (0-10 V) an d current input (4-20mA) are available on separate terminals ([O] and [OI] respectively).
“A” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units [A T] selection A005 AT-Slct O/VR Five options; select codes: 02...Select between [O] and keypad potentiometer at [A T] 03...Select between [OI] and integrated POT at [A T] 04.
Multi-speed and Jog Frequency Setting The X200 inverter has the capability t o store and output up to 16 preset frequenc ies to the motor (A020 to A035). As in traditional motion terminology , we call this multi-speed profile capability . These preset frequencies are selected b y means of digital inputs to th e inverter .
Torque Control Algorithms The inverter generates the motor output acc ording to the V/f algorithm selected. Parameter A044 selects the inverter algorithm for generating the frequency output, as shown in the diagram to the right (A244 for 2nd motor). The factory default is 00 (constant torque).
Be aware that running the motor a t a low speed for a long time can cause motor overheating. This is particularly tru e when manual torque boost is ON, or if the motor relies on a built-in fan for cooling. V oltage gain – Using parameter A045 you can modify the voltage gain of the inver ter (see graph at right).
DC Braking (DB) Settings Normal DC braking performance The DC braking feature can provide additional stopping torque when compar ed to a normal deceleration to a stop. DC br aking is particularly useful at low speeds when normal deceleration torque is minim al.
CAUTION: Be careful to avoid specifyin g a braking time that is long enough to cause motor overheating. If you us e DC braking, we recommend using a m otor with a built-in thermistor , and wiring it to the inver ter’s thermistor input (see “Thermistor Thermal Protection” on page 4-24 ).
Frequency-related Functions Frequency Limits – Upper and lower limits can be imposed on the inverter output frequency . These limits will apply regardless of the source of th e speed reference. You can configur e the lower frequency limit to be gr eater than zero as shown in the graph.
Jump Frequencies – Some motors or machines exhibit resonances at partic ular speed(s), which can be destructive for prolonged running at those speeds. The inverter has up to three jump frequencies as shown in the graph. The hysteresis arou nd the jump frequencies causes the inverter output to skip around th e sensitive frequency values.
PID Control When enabled, the built-in PID loop calculates an ideal invert er output value to cause a loop feedback process variable (PV) to move closer in value to the set point (SP).
Automatic V olt age Regulation (A VR) Function The automatic voltage regulation (A VR) feature keeps the inverter output waveform at a relatively constant amplitude during power input fluctuations. This can be useful if the installation is subject to input voltage fluctuations.
Energy Savings Mode / Optional Accel/Decel Energy Saving Mode – This function allows the inverter to d eliver the minimum power necessary to maintain speed at any given frequency . This works best when driving variable torque characteristic loads such as fans and pumps.
Second Acceleration and Deceleration Functions The X200 inverter features two-stage acceleration and deceleration ramps. This gives flexibility in the profile shape.
“A” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units Acc1 to Acc2 frequency transition point A095 ACC CHfr 0000.0Hz Output frequency at which Accel1 switches to Accel2, range is 0.0 to 400.0 Hz U 0.
Accel/Decel Standard acceleration and deceleration is linear . The inverter CPU can also calculate an S-curve acceler ation or deceleration curve as shown. This profile is useful for favori ng the load characteristics in particular applications. Curve settings for acceleration and deceleration are independently selected.
Additional Analog Input Settings Input Range Settings – The parameters in the following table adjust the input characteristics of the analog current input. When using the inputs to command the inverter output frequency , these parameters adjust the starting and en ding ranges for the current, as well as the output frequency range.
Analog Input Calculate Function – The inverter can math ematically combine two input sources into one value. The Calculate funct ion can either add, subtract, or multiply the two selected sources. This provides the flexibility need ed by various applications.
Add Frequency – The inverter can add or subtract on offset valu e to the output frequency setting which is spec ified by A001 (will work with any of th e five possible sources).
Potentiometer Settings Input Range Settings – The parameters in the following table adjust the input characteristics of the integrat ed potentiometer. When us ing the potentiometer to command the inverter output frequency , these parameters adjust the st arting and ending ranges for the potentiometer, as w ell as the output frequency range.
“B” Group: Fine T uning Functions The “B” Group of functions an d parameters adjust some of the more subt le but useful aspects of motor control and system configuration. Automatic Restart Mode The restart mode determines how the in verter will resume operation aft er a fault causes a trip event.
“B” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units Selection of automatic restart mode B001 IPS POWR ALM Select inverter restart method, Four o.
Electronic Thermal Overload Alarm Setting The thermal overload detection protects the inverter and motor from overheating due to an excessive load. It uses a current/inverse time curve to determine the trip p oint. First, use B013 to select the torque characteristic that matches your load.
Overload Restriction If the inverter’s output current exceeds a preset current level you specify during acceleration or constant speed, the overload restriction feature automatically reduces th e output frequency to restrict the overload. This feature does not generate an alarm or trip event.
Software Lock Mode The software lock function keeps pers onnel from accidentally changing param eters in the inverter memory . Use B031 to select from various protection levels. The table below lists all combinations of B031 opt ion codes and the ON/OFF state of the [SFT] input.
“B” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units Software lock mode selection B031 S-Lock MD1 Prevents parameter changes, in four options, op.
Controlled Stop Operation at Power Loss Controlled stop operation at power loss helps avoid tripping or free-running (coasting) of the motor when p ower is lost while in run mod e. The inverter controls the interna l DC bus voltage while decelerating the motor , and brings the motor to a controlled stop.
“B” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units Selection of controlled stop operation B050 IPS MODE OFF T wo option codes: 00 } Disabled 01 } Enabled (stop) 02 } Enabled (restart) U 00 00 Controlled stop operation start voltage setting B051 IPS V 0000.
Miscellaneous Settings The miscellaneous settings include scaling factors, initialization modes, and others. This section covers some of the most important settings you may need to configure. B 080: [AM] analog signal gain – This parameter allows you t o scale the analog output [AM] relative to the monitored variable.
“B” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units [AM] analog signal gain B080 AM-Adj 00100% Adjust of analog output at terminal [AM], range is 0 to 255 9 100. 100. Start frequency adjustment B082 fmin 0000.
B091/B088: Stop Mode / Restart Mode Configuration – Y ou can configure how the inverter performs a standard stop (each time Run FWD and REV signals turn OFF). Setting B091 determines wheth er the inverter will control the deceleration, or whether it will perform a free-run stop (c oast to a stop).
“B” Function Defaults Func. Code Name / SRW Display Description Run M ode Edit -FE (EU) -FU (USA) Units Restart mode after FRS B088 RUN FRS ZST Selects how the inverter resumes operation when free.
B089: Monitor display select for networked inverter – When the X200 inverter is controlled via network, the inverter’s keypad d isplay can still provide Monitor Mode. The D00x parameter selected b y function B089 will be displayed on th e keypad. See “Local Monitoring During Network Operation” on page 3-8 for more details.
B130, B131: Over-voltage LAD Stop Enable / Level – The over-volt age LADSTOP function monitors the DC bus voltage and actively changes the output frequency profile to maintain the DC bus voltage within settable limits.
DC Bus A VR for Deceleration Settings This function is to achieve stable DC bus voltage in case of deceleration. DC bus voltage rises due to regeneration during deceleration.
Miscellaneous Settings (continued) B140: Over-current T rip Suppression – The Over-current T rip Suppression function monitors the motor current and actively changes the output frequency pr ofile to maintain the motor current within th e limits.
“B” Function Defaults Func. Code Name / SRW Display Description Run M ode Edit -FE (EU) -FU (USA) Units Over-current trip suppression B140 I-SUP Mode OFF Two option codes: 00 } Disable 01 } Enable U 01 01 Carrier mode B150 Cr-DEC OFF Automatically reduces the carrier frequency as the ambient temperature increases.
“C” Group: Intelligent T erminal Functions The five input terminals [ 1] ,[ 2] ,[ 3] ,[ 4] , and [ 5] can be con figured for any of 31 different functions. The next two tables show how t o configure the five terminals. The inputs are logical, in that they are either OFF or ON.
The input logic conversion is programmable for each of the six inputs default to normally open (active high), but you can select normally closed (active low) in or der to invert the sense of the logic.
Input Function Summary T able – This table shows all thirty-one intelligent inpu t functions at a glance. Detailed description of these functions, related parameters and settings, and example wiring diagrams are in “Using Intelligent Input T erminals” on page 4-8 .
Input Function Summary Tabl e Option Code Terminal Symbol Function Name Description ANLG When a thermistor is connected to terminal [5] and [L], the inverter checks for over-temperature and will cause.
Input Function Summary Tabl e Option Code Terminal Symbol Function Name Description ON Adds the A145 (add frequency) value to the output frequency 50 ADD ADD frequency enable OFF Does not add the A145.
Output T erminal Configuration The inverter provides configurat ion for logic (discr ete) and analog outputs, shown in th e table below . “C” Function Defaults Func.
Output Function Summary T able – This table shows all twelve functions for the logical outputs (terminals [1 1] and [AL]) at a glance. Detailed descriptions of these functions, related parameters and settings, and example wiring diagrams are in “Using Intelligent Output T erminals” on page 4-34 .
Analog Function Summary T able – This table shows both functions for the analog voltage output [AM] terminal, configured by C028. Mor e information on using and calibrating the [AM] output terminal is in “Analog Output O peration” on page 4-55 .
Low Load Detection Parameters The following parameters work in conjunction with the intelligent output function, when configured. The output mode parameter (C038) se ts the mode of the detection at which the low load detection signal [LOC] turns ON. Three kinds of modes can be selected.
Output Function Adjustment Parameters The following parameters work in conjunction with the intelligent output function, when configured. The overload level parameter (C041) sets the motor current level at which the overload signal [OL] turns ON. The range of setting is from 0% to 200% of the rated curr ent for the inverter .
“C” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units Overload level setting C041 OV LVL 001.60A Sets the overload signal level between 0% and 200% (from 0 to two time the rated current of the inverter) U Rated current for each inverter model A Overload level setting, 2nd motor C241 2OV LVL 001.
Network Communications Settings The following table lists paramet ers that configure the inverter’s ser ial communications port. The settings affect how the inverter communic ation with a digital operator (such as SRW -0EX), as well as a ModBus network (for networked inverter applications).
Analog Signal Calibration Settings The functions in the following table configure the signals for the analog input terminals. Note that these settings do not change the current/voltage or sink/source characteristics – only the zero and span (scaling) of the signals.
Miscellaneous Functions The following table contains miscellaneous functions n ot in other function groups. “C” Function Defau lts Func. Code Name / SRW Display Description Run Mode Edit -FE (EU) -FU (USA) Units Debug mode enable * C091 DBG Slct OFF Displays debug parameters.
Output Logic and Timing Logic Output Function – The inverter has a built-in logic output feature. You can select any two of the other nine intelligent output options for internal inputs. Then, configure the logic function to apply the logical AND, OR, or XOR (exclusive OR) operates as desired to the two inputs.
Output Signal ON/OFF Delay Function – Intelligent outputs includin g terminals [1 1] and the output relay , have configurable signal transition delays. Each output can delay either the OFF-to-ON or ON-to-OFF tra nsitions, or both. Signal transition delays are variable from 0.
“H” Group: Motor Const ants Functions The “H” Group parameters configur e the inverter for the motor characteristics. You must manually set H003 and H004 values to match the motor .
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Operations and Monitoring In This Chapter… p age - Introduction ...................................................................................... 2 - Connecting to PLCs and Other Devices ........................................ 4 - Control Logic Signal Specifications .
Introduction The previous material in Chapter 3 gave a r eference listing of all the programmable functions of the inverter . We suggest that you first scan through the listing of inverter functions to fain a general familiarity . This chapter will build on that knowledge in the following ways: 1 .
Warning Messages for Operating Procedures W ARNING: Be sure to turn ON the input power supply only after clos ing the front case. While the inverter is energized, be sure not to op en the front case. Otherwise, there is the danger of electric shock. W ARNING: Be sure not to operate electr ical equipment with wet hands.
Connecting to PLCs and Other Devices Hitachi inverters (drives) are usefu l in many types of app lications. During installation, the inverter keypad (or other programming device) will facilitate the initia l configuration.
Example Wiring Diagram The schematic diagram below provides a general example of logic connector wiring, in addition to basic power and motor wiring c onverted in Chapter 2. The goal of this chapter is to help you determine the proper connections for the var ious terminals shown below for your application needs.
Control Logic Signal Specifications The control logic connectors are located just behind the front housing cover . The relay contacts are just to the left of the logic connect ors. Connector labeling is shown below . Terminal Name Description Ratings [P24] +24V for logic inputs 24VDC, 30mA.
Intelligent T erminal Listing Intelligent Inputs Use the following table to locate pa ges for intelligent input material in this chapter . Input Function Summary Tabl e Symbol Co de Function Name Page.
Using Intelligent Input T erminals Terminals [1], [2], [3], [4], and [5] are identical, programmable in puts for general use. The input circuits can use the inverter’s internal (isolat ed) +24V field supply or an external power supply .
The two diagrams below input wiring circuits using the inverter’s internal +24V supply . Each diagram shows the connection for simple switches, or for a field devic e with transistor outputs. Note that in the lower dia gram, it is necessary to connect terminal [L] only when using the field device with tr ansistors.
The two diagrams below show input wiring circuits using an external supply. If using the “Sinking Inputs, External Supply” in b elow wiring diagram, be sure to remove the short bar, and use a diode (*) w ith the external supply. This will prevent a power supply contention in case the short bar is accidentally placed in the incorr ect position.
Forward Run/Stop and Reverse Run/Stop Commands: When you input the Run command via the terminal [FW], the inverter executes the Forward Run command (high) or Stop command (low). When you input the Run command via the terminal [RV], the inverter executes the Reverse Run comman d (high) or Stop command (low).
Multi-Speed Select The inverter can store up to 16 different target frequencies (speeds) that the motor output uses for steady-state run condit ion. These speeds are accessible through programming five of th e intelligent terminals as binary-encoded inputs CF1 to CF4 per the table to the right.
While using the multi - speed capab ility, you can monitor the present frequency with monitor function D001 during each s egment of a multi - speed operation. N OTE : When using the Multi - speed Select settings CF1 to CF4, do not displa y parameter F001 or change the value of F001 while the inverter is in Run Mode ( motor running ) .
Jogging Command The Jog input [ JG ] is used to command the motor to rotate slowly in small increments for manual operation. The speed is limited to 10 Hz.
External Signal for DC Braking When the terminal [ DB ] is turned ON, the DC braking feature is enabled. Set the following parameters when the ext ernal DC braking terminal [ DB ] is to be used : x A053 – DC braking delay time setting. The range is 0.
Set Second Motor, Special Set If you assign the [ SET ] function to an intelligent input terminal, you can select between two sets of motor parameters.
Two Stage Acceleration and Deceleration When terminal [ 2CH ] is turned ON, the inverter changes the rate of acceleration and deceleration from the init ial settings ( F002 and F003 ) to use the second set of acceleration/ deceleration values.
Free-run Stop When the terminal [ FRS ] is turned ON, the inverter stops the output and the motor enters the free - run state ( coastin g ) . If terminal [ FRS ] is turned OFF, the output resumes sending power to the motor if the Run command is still active.
External Trip When the terminal [ EXT ] is turned ON, the inverter enters the trip st ate, indicates error code E12, and stops the output. This is a general purpose interrupt type feature, and the meaning of the error d epends on what you connect to the [ EXT ] term inal.
Unattended Start Protection If the Run command is already set when power is turned ON, the inverter starts running immediately after powerup. The Unattended Start Protect ion ( USP ) function prevents that automatic startup, so that the inverter will not run without outside intervention.
Software Lock When the terminal [ SFT ] is turned ON, the data of all the parameters and functions ( except the output frequenc y, depending on the setting of B031 ) is locked ( prohibited from editing ) . When the data is loc ked, the keypad keys cannot edit inverter paramet ers.
Analog Input Current/Voltage Select The [ AT ] terminal selects wheth er the inverter uses the voltage [ O ] or curr ent [ OI ] input terminals for external frequency control. When intelligent input [ AT ] is ON, you can set the output frequency by a pplying a current input signal at [ OI ]-[ L ] .
Reset Inverter The [ RS ] terminal causes the invert er to execute the reset operation. If the inver ter is in Trip Mode, the reset cancels the Trip state. Wh en the signal [ RS ] is turned ON and OFF, the invert er executes the reset operation. The minimum pulse width for [ RS ] must be 12 ms or greater.
Thermistor Thermal Protection Motors that are equipped with a thermistor can be protected from overheating. Input terminal [ 5 ] has the unique ability to sense a therm istor resistance.
Three-wire Interface Operation The 3 - wire interface is an industry standard motor control interfac e. This function uses two inputs for momentary contact start/stop control, and a third for selecting forward or reverse direction.
PID ON/OFF and PID Clear The PID loop function is useful for controlling motor speed to achieve constant flow, pressure, temperature, etc. in many proc ess applications. The PID Disable function temporarily suspends PID loop execution via an intelligent input terminal.
Remote Control Up and Down Functions The [ UP ][ DWN ] terminal functions can adjust the output frequency for remote control while the motor is running. The acceleration tim e and deceleration time of this function is same as normal operation ACC1 and DEC1 ( 2ACC1,2DEC1 ) .
It is possible for the inverter to retain the frequency set from the [ UP ] and [ DWN ] terminals through a power loss. Parameter C101 enables/disables the memor y. If disabled, the inverter retains the last frequency before an UP/DWN adjustment. Use the [ UDC ] terminal to clear the memory and return to the original set outpu t frequency.
Force Operation from Digital Operator This function permits a digital operator int erface to override the following two settings in the inverter: x A001 - Frequency source settin g x A002 - Run comman.
Add Frequency Enable The inverter can add or subtract an offset value to the output frequency s etting which is specified by A001 (will work with any of the five possible sources).
Force Terminal Mode The purpose of this intelligent input is to allow a d evice to force the inverter to allow control of the following two param eters via the control terminals: • A001 - Frequency .
Emergency Stop - The emergency stop function shuts off the inverter output (i.e. stops the switch ing operation of the main circuit elements) in response to a command from a hardwar e circuit via an intelligent input terminal wit hout the operation by internal CPU software.
How to go into Emergency Stop mode The Emergency Stop function of X200 is activated b y turning ON the hardware switch (S8) located on the control card. Be sure to power OFF the inverter when changin g the switch S8. H IGH VOL TAGE: Dangerous voltage exists even after the Emer gency Stop is activated.
Option Code Terminal Symbol Function Name State Description ON Emergency signal is activated 64 EMR Emergency Stop OFF Emergency signal is not activated Valid for inputs: C003, C004 Required settings Notes: Example (default input configuration shown—see page 3–49 ): See I/O specs on page 4–6.
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Using Intelligent Output T erminals The intelligent output terminals are progra mmable in a similar way to the intelligent input terminals. The inverter has several output fu nctions that you can assign individually to two physica l logic outputs.
Internal Relay Output The inverter has an internal relay outpu t with normally open and normally closed contacts (Type 1 form C). The output signal that con trols the relay is configurable; the Alarm Signal is the default setting. Thus, the terminals are labeled [AL0], [AL1], [AL2], as shown to the right.
Output Signal ON/OFF Delay Function Intelligent outputs including term inals [11], and the output relay, have configurable signal transition delays. Each output can delay either th e OFF-to-ON or ON-to-OFF transitions, or both. Signal transition delays are variable from 0.
Run Signal When the [RUN] signal is selected as an intelligent output terminal, the in verter outputs a signal on that terminal when it is in Run Mode.
Frequency Arrival Signals The Frequency Arrival group of outputs helps coordinate external systems with the current velocity profile of the inverter. As the name implies, output [FA1] turns ON when the output frequency arrives at the standard set frequency (param eter F001).
Frequency arrival output [FA1] uses the standard output frequency (parameter F001) as the threshold for switching. In the figure to the right, Frequency Arrival [FA1] turns ON when the output frequenc.
Overload Advance Notice Signal When the output current exceeds a preset value, the [OL] terminal signal turns ON. The parameter C041 sets the overload threshold. The overload detection circuit operates during powered motor op eration and during regenerative braking.
Output Deviation for PID Control The PID loop error is defined as the magnitude (absolute value) of the difference between the Setpoint (target value) and the Process Variable (actual value). When th e error magnitude exceeds the preset value for C044, the [OD] terminal signal turns ON.
Alarm Signal The inverter alarm signal is active when a fault has occurred and it is in the Trip Mode (refer to the diagram at right). When the fault is cleared the alarm signal becomes inactive. We must make a distinction between the alarm signal AL and the alarm relay contacts [AL0], [AL1] and [AL2].
The alarm relay output can be configured in two main ways: x T rip/Power Loss Alarm – The alarm relay is configured as normally closed (C036=1) by default, shown below (left). An external alarm circuit that detects broken wiring also as an alarm connects to [AL0] and [AL1].
Analog Input Disconnect Detect This feature is useful when the inverter receives a speed reference from an external device. Upon input signal loss at either the [O] or [OI] terminal, the inverter normally just decelerates the motor to a stop.
PID Second Stage Output The inverter has a built-in PID loop feature for two-stage control, useful for certain applications such as building ventilation or heating and cooling (HVAC). In an idea l control environment, a single PID loop controller (stage) would be adequate.
To use the PID Second Stage Output fea ture, you will need to choose upper and lower limits for the PV, via C053 and C052 respect ively. As the timing diagr am below shows, these are the thresholds Sta ge #1 inverter uses to turn ON or OFF Stage #2 inver ter via the [FBV] output.
Option Code Terminal Symbol Function Name State Description ON x Transitions to ON when the inverter is in RUN Mode and the PID Process Variable (PV) is less than the Feedback Low Limit (C053) 07 FBV .
Network Detection Signal (Integrated ModBus) The Network Detection Signal output indicates the general status of network communications (integrated ModBus communication). The inver ter has a programmable watchdog timer to monitor network activity. Parameter C077 sets the time-out period.
Logic Output Function The Logic Output Function uses the inverter’s built-in logic feature. You can selec t any two of the other nine intelligent out put options for internal inputs (use C1 41 and C142). Then, use C143 to configure the logic function to apply the logical AN D, OR, or XOR (exclusive OR) operator as desired t o the two inputs.
Option Code Terminal Symbol Function Name State Description ON when the Boolean operation specified by C143 has a logical “1” result 09 LOG Logic Output Function OFF when the Boolean operation spe.
Network Detection Signal (FieldBus Option) The Network Detection Signal output indicates the general status of n etwork communications when using a FieldBus option. The invert er has a programmable watchdog timer to monitor network activity. Parameter P044 sets the time-out period.
Low Load Detection Signal The Low Load Detection Signal output indicates the general st atus of the inverter output current. When the output current b ecomes less than the value specified by C039, the LOC output turns ON.
Analog Input Operation The X200 inverters provide for analog input t o command the inverter frequency ou tput value. The analog input terminal gr oup includes the [L], [OI], [O], and [H] terminals on the con trol connector, which provide for Voltage [O] or Current [OI] input.
The following table shows the available analog inpu t settings. Parameter A005 and the input terminal [AT] determine the External Frequenc y Command input terminals that are available, and how they function. The an alog inputs [O] and [OI] use terminal [L ] as the reference (signal return).
Analog Output Operation In inverter applications it is useful to monitor the inverter operation from a remote location or from the front panel of a n inverter enclosure.
PID Loop Operation In standard operation, the inverter uses a refer ence source selected by parameter A001 for the output frequency, which ma y be a fixed value (F001), a varia ble set by the front panel potentiometer, or value fr om an analog input (voltage or current).
PID Loop Configuration The inverter’s PID loop algorithm is configurable for various applic ations. P ID Output Limit - The PID loop controller has a built-in output limit function.
Configuring the Inverter for Multiple Motors Simultaneous Connections For some applications, you may need to connect two or more motors (wired in parallel) to a single inverter’s output. For example, this is common in conveyor applications where two separate conveyors need t o have approximately the same speed.
Having two motor profiles lets you store two “pers onalities” for motors in one inverter’s memory. The inverter allows the final selection between the two motor types to be made in the field through the use of an intelligent input terminal function [SET].
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Inverter System Accessories In This Chapter… p age - Introduction ...................................................................................... 2 - Component Description .................................................................. 3 - Dynamic Braking .
Introduction Introduction A motor control system will obviously includ e a motor and inverter, as well as fuses for safety. If you are connecting a motor to the invert er on a test bench just to get started, that’s all you may need for now. But a fully developed system can also have a variety of additional components.
Component Descriptions AC Reactors, Input Side This is useful in suppressing harmonics induc ed on the power supply lines, or when the main power voltage imbalance exceeds 3% ( and power source capacity is more than 500 kVA ) , or to smooth out line fluctuations.
Zero-phase Reactor (RF Noise Filter) The zero - phase reactor helps reduce radiated noise from the inverter wiring. It can be used on the input or output side of the in verter. The example zero - phase reactor shown to th e right comes with a mounting bracket.
Dynamic Braking Introduction The purpose of dynamic braking is to impr ove the ability of the inverter to stop ( decelerate ) the mot or and load. This becomes necessary when an application has some o.
Use one BRD - E3 braking unit for th e braking torque listed in the following table. Note the column meanings in the ta bles : x Column “A” = Average braking torque from 60Hz to 3Hz.
400V Class Inverters The following tables specify the braking options for 400V class X200 inverters and the braking torque for each option. You can connect a single braking unit to the inverter, or two braking units for additional braking torque. Use one BRD - EZ3 braking unit for th e braking torque listed in the follow ing table.
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T roubleshooting and Maintenance In This Chapter… p age - T roubleshooting ............................................................................... 2 - Monitoring T rip Events, History , & Conditions .............................. 5 - Restoring Factory Default Settings .
Troubleshooting Safety Messages Please read the following safety message s before troubleshootin g or performing maintenance on the inverter and motor system. W ARNING : Wait at least five ( 5 ) minutes after turning OFF the input power supply before performing maintenance or an insp ection.
Troubleshooting Tip s The table below lists typical symptoms and the corr esponding solution ( s ) . Symptom/condition Probable Cause Solution x Is the frequency command source A001 parameter setting .
Symptom/condition Probable Cause Solution x If using the analog input, is the current or voltage at [ O ] or [ OI ] ? x Check the wiring. x Check the potentiometer or signal generating device. x Is the load too heavy? x Reduce the load. x Heavy loads activate the overload restriction feature ( reduces output as needed ) .
Monitoring T rip Events, History , & Conditions Fault Detection and Clearing The microprocessor in the inverter detects a variety of fault conditions and captures the even t, recording it in a history table. The in verter output turns OFF, or “trips” similar to the way a circuit breaker trips due to an over - current condition.
Error Code Name Cause ( s ) E 13 USP When the Unattended Start Protection ( USP ) is enabled, an error occurred when power is applied while a Run signal is present.
Trip History and Inverter St atus We recommend that you first find the cause of the fault before clearing it. When a fault occurs, the inverter stores important performance data at the moment of the fau lt. To access the data, use the monitor functions ( Dxxx ) and select D081 for details about the present fault ( En ) .
Restoring Factory Default Settings You can restore all inverter parameters to the origina l factory ( default ) settings for the intended country of use. After in itializing the inverter, use the power up test in Chapter 2 to get the motor running again.
Maintenance and Inspection Monthly and Y e arly Inspection Chart Inspection Cycle Item Inspected Check for… Month Year Inspection Method Criteria Ambient environment Extreme temperatures & humidity 9 Thermometer, hygrometer Ambient temperature between – 10 to 40 q C, non - condensing Major devices Abnormal noise & vib.
Megger test The megger is a piece of test equipment that uses a high voltage to determine if an insulation degradation has occurred. For inverters, it is important th at the power terminals be isolated from th e Earth GND terminal via th e proper amount of insulation.
Spare p arts We recommend that you stock spare parts to reduce d own time, including these parts : Quantity Part description Symbol Used Spare Notes Cooling fan FAN 1 1 015S, 022S, 015N, 022N, 015L to.
General Inverter Electrical Measurement s The following table specifies how to measure key system electrical parameters. The diagrams on the next page show inverter - motor systems and the location of measurement points for these parameters.
The figures below show measurement locations for voltage, current, an d power measurements listed in the table on the previous p age. The voltage to be measured is the fundamental wave effec tive voltage. The power to be measured is the total effect ive power.
Inverter Output V olt age Measurement T echniques Taking voltage measurements around drives equ ipment requires the right equipment and a safe approach. You are working with high voltages and high - frequency switching waveforms that are not pure sinusoids.
IGBT T est Method The following procedure will check the invert er transistors ( IGBTs ) and diodes : 1 . Disconnect input power to terminals [ R, S, and T ] and motor term inals [ U, V, and W ] . 2 . Disconnect any wires from terminals [ + ] and [ – ] for regenerative braking.
Warranty Warranty Terms The warranty period under normal installation and handling conditions shall be two ( 2 ) years from the date of manufac ture, or one ( 1 ) year from the date of installation, whichever occurs first.
Glossary and Bibliography In This Appendix… p age - Glossary ........................................................................................... 2 - Bibliography ...............................................................................
Glossary A mbient T emperature The air temperature in the chamber containing a powered electronic unit. A unit’s heat sinks rely on a lower ambient temperature in order to dissipate heat away from sens itive electronics. A rrival Frequency The arrival frequency refers to the set output frequency of the inverter for the constant speed setting.
D C Braking The inverter DC braking feature stops the AC commut ation to the motor, and sends a DC current through the motor windings in order to stop the motor. Also called “DC injection braking,” it has little effect at high speed, and is used as the motor is nearing a stop.
F ree-run Stop A method of stopping a motor, caused when the invert er simply turns OFF its motor output connections. This may allow the motor and load to coast to a stop, or a mechanical brake may intervene and shor ten the deceleration time.
J ogging Operation Usually done manually, a jog command from an operator’s panel requests the motor/drive system to run indefinit ely in a particular direction, until the machine operator ends the jog operation. J ump Frequency A jump frequency is a point on the inverter output frequency range that you want the inverter to skip around.
P rocess Variable A physical property of a proc ess that is of interest because it affects the quality of the primary task accomp lished by the process.
Setpoint (SP) The setpoint is the desired value of a process variab le of interest. See also Process Variable (PV) and PID Loop . Single-phase power An AC power source consisting of Hot and Neutral wires. An Earth Ground connection usually accompanies them.
T orque The rotational force exerted by a motor shaft. The units of measurement consist of the distanc e (radius from shaft center axis) and force (weight) applied at that distance. Units are usually given as pound-feet, ounce-inches, or Newton -meters.
ModBus Network Communications In This Appendix… p age - Introduction ...................................................................................... 2 - Connecting the Inverter to ModBus ............................................... 3 - Network Protocol Reference .
Introduction X200 Series inverters have built-in RS-485 serial communications, featurin g the ModBus RTU protocol. The invert ers can connect directly to existing factory networ ks or work with new networked applications, with out any extra interface equipment.
Connecting the Inverter to ModBus Follow these steps in this section to connect the invert er to the ModBus network. 1 . Open Serial Port Cover - The inverter keypad has a hinged dust cover protecting the serial port connector. Lift the cover from the b ottom edge, and tilt upward as shown below.
4. Terminate Network Wiring - The RS-485 wiring must be terminated at each physical end to suppress electrical reflections and help decrease transmission errors. The X200 communications port does not include a termination resistor. Therefore, you w ill need to add termination to the inverter if it is at the en d of the network wiring.
6. Inverter Parameter Setup - The inverter has several settings related to ModBus communications. The table below lists them together. The Required column indicates which parameters must be set properly to allow communications. You may need to refer to the host computer documentation in order t o match some of its settings.
Network Protocol Reference Transmission procedure The transmission between the external control equ ipment and the inverter takes the procedure below. x Query - A frame sent from the external con trol.
Data: x A function command is set here. x The data format used in the X200 ser ies is corresponding to the Modbu s data format below. Name of Data Description Coil Binary data that can be referenced a.
Message Configuration: Response Transmission time required: x A time period between reception of a query from the master and transm ission of a response from the inverter is the sum of th e silent interval (3.5 characters long) + C078 (transmission latency time).
No response occurs: In the cases below, the inverter ignores a quer y and returns no response. x When receiving a broadcasting query x When detecting a transmission error in reception of a qu ery x Wh.
Explanation of function codes Read Coil Status [01h]: This function reads the status (ON/OFF) of selected coils. An example follows below. x Read intelligent input terminals [1] to [5 ] of an inverter having a slave addr ess “8.” x This example assumes the intelligent input terminals have t erminal states listed below.
Read Holding Register [03h]: This function reads the contents of the speci fied number of consecutive holding registers (of specified register addresses).
The data set in the response is as follows: Response Buffer 4-5 6-7 8-9 Register Number 12+0 (high order) 12+0 (low order) 12+1 (high order) 12+1 (low order) 12+2 (high order) 12+2 (low order) Register Data 0003h 00h 00h 0063h Trip data Trip factor (E03) Not used Frequency (9.
Write in Holding Register [06h]: This function writes data in a specified holding register. An example follows: x Write “50Hz” as the first Multi-speed 0 (A020) in an inverter having slave address “5.
Loopback Test [08h]: This function checks a master-slave transmission using any test data. An example follows: x Send test data to an inverter having slave address “1” and receiving the test data from the inverter (as a loopback test). Query: Response: No.
Write in Coils [0Fh]: This function writes data in consecut ive coils. An example follows: x Change the state of intelligent input terminal [1] t o [5] of an inverter having a slave address “8.” x This example assumes the intelligent input terminals have terminal stat es listed below.
Write in Holding Registers [10h]: This function writes data in consecut ive holding registers. An example follows: x Write “3000 seconds” as the first acceleration t ime 1 (F002) in an inverter having a slave address “8.
Exception Response: When sending a query (excluding a br oadcasting query) to an inver ter, the master always requests a response from the inverter. Usually, the inverter returns a respons e according to the query. However, wh en finding an error in the query, the inverter returns an exception response.
Store New Register Data (ENTER command) After being written in a selected holding register b y the Write in Holding Register command (06h) or in selected holding regist ers by the Write in Holding Registers command (10h), new data is temporary and still outside th e storage element of the inverter.
ModBus Dat a Listing ModBus Coil List The following tables list the primary coils for the invert er interface to the network. The table legend is given below. x C oil Number - The network register address offset for the coil. The coil data is a single bit (binary) value.
List of Coil Numbers Coil Number Name R/W Descripti on 0014h Alarm signal R 0…Normal 1…Trip 0015h PID deviation signal R 0016h Overload signal R 0017h Frequency arrival signal (set frequency or ab.
ModBus Holding Registers The following tables list the holding registers for th e inverter interface to the network. The table legend is given below. x F unction Code - The inverter’s reference code.
The following table lists holding regist ers for the “D” Group Monitor Functions. List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. D001 Output frequency monitor R Real-time display of output frequency to motor, from 0.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. Res. R Trip monitor 1: factor code 0012h R Frequency 0014h 0.1 Hz R Current 0016h 0.1A R Voltage 0017h 1.V R Run time (high) 0018h R Run time (low) 0019h 1. h R ON time (high) 001Ah D081 Trip monitor 1 R ON time (low) 001Bh 1.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. F002 (high) R/W 1014h F002 (low) Acceleration (1) time setting *1 R/W Standard default acceleration, range is 0.
The following table lists the holding registers for th e “A” Group Standard Functions. List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. A001 Frequency source setting R/W Five options; select codes: 00...Keypad potentiometer 01.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. A020 Multi-speed 0 setting R/W Defines the first speed of a multi-speed profile, range is 0.0 / start frequency to 400 Hz A020 = Speed 0 (1st motor) 1029h 0 / start freq.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. A051 DC braking enable R/W Two options; select codes: 00...Disable 01.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. A071 PID enable R/W Enables PID function, two option codes: 00 } PID Disable 01 } PID Enable 1068h 0, 1 A072 PID proportional gain R/W Proportional gain has a range of 0.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. A092 (high) R/W 1074h A092 (low) Acceleration (2) time setting R/W Duration of 2nd segment of acceleration, range is: 0.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. A104 [OI]-[L] input active range end voltage R/W The ending point (offset) for the current input range, range is 0.
The following table lists the holding registers for th e “B” Group Fine Tuning Functions. List of Holding Registers Network Data Func. Code Name R/W Description Reg.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. B021 Overload restriction operation mode R/W 10B5h B221 Overload restriction operation mode, 2nd motor Select th.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. R ange Res. B052 OV -LAD Stop level of non stop operation setting R/W Setting the OV -LAD stop level of non stop operation. Range is 0.0 to 1000.0 10CBh 0 to 10000 0.1 V B053 Deceleration time of non stop operation setting R/W Range is 0.
List of Holding Registers Network Data Func. Code Name R/W Descripti on Reg. Range Res. B086 Frequency scaling conversion factor R/W Specify a constant to scale the displayed frequency for D007 monitor , range is 0.
List of Holding Registers Network Data Func. Code Name R/W Descripti on Reg. Range Res. B133 DC bus A VR selection R/W Two option codes: 00 } Disabled 01 } Enabled 1176h 0, 1 B134 Threshold voltage of DC bus A VR setting R/W Setting of threshold voltage of DC bus voltage to start DC bus A VR function.
The following table lists the holding registers for th e “C” Group Intelligent Input Functions. List of Holding Registers Network Data Func. Code Name R/W Description Reg.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. Range Res. C044 PID deviation level setting R/W Sets the allowable PID loop error magnitude (absolute value), SP-PV , range is 0.0 to 100%, resolution is 0.1% 1129h 0 to 1000 0.
C102 Reset selection Determines response to Reset input [RS]. Three option codes: 00 } Cancel trip state at input signal ON transition, stops inverter if in Run Mode 01 } Cancel trip state at signal O.
List of Holding Registers Network Data Func. Code Name R/W Description Reg. Range Res. C144 Terminal [1 1] ON delay R/W Range is 0.0 to 100.0 sec. 1153h 0 to 1000 0.1 sec C145 Terminal [1 1] OFF delay R/W Range is 0.0 to 100.0 sec. 1154h 0 to 1000 0.1 sec C148 Output relay ON delay R/W Range is 0.
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Drive Parameter Setting T ables In This Appendix… p age - Introduction ..............................................................................
Introduction This appendix lists the user-programmable parameters for the X200 s eries inverters and the default values for Europ ean and U.S. product types. The right-most column of the tables is blank, so you can record values you have cha nged from the default.
Standard Functions NOTE :. Mark “ 9 ” in B031=10 shows the accessible paramet ers when B031 is set “10”, high level access. “A” Group Parameters Default Sett ing Func.
“A” Group Parameters Default Setting Func. Code Name -FE (EU) -FU (USA) B031 =10 User Setting A043 Manual t orque boost frequency adjustment 10.0 10.
“A” Group Parameters Default Setting Func. Code Name -FE (EU) -FU (USA) B031 =10 User Setting A094 Select method to switch to Acc2/Dec2 profile 00 00 U A294 Select method to switch to Acc2/Dec2 profile, 2nd motor 00 00 U A095 Acc1 to Acc2 frequency transition point 0.
Fine T uning Functions “B” Group Parameters Default Setting Func. Code Name -FE (EU) -FU (USA) B031 =10 User Setting B001 Selection of au tomatic restart mode 00 00 9 B002 Allowable under -voltage power failure time 1.0 1.0 9 B003 Retry wait tim e before motor restart 1.
“B” Group Parameters Default Setting Func. Code Name -FE (EU) -FU (USA) B031 =10 User Setting B080 [AM]analog signal gain 100. 100. 9 B082 Start frequency adjustment 0.
Intelligent T erminal Functions “C” Group Parameters Default Setting Func. Code Name -FE (EU) -FU (USA) B031 =10 User Setting C001 Terminal [1] func tion 00 00 U C201 Terminal [1] func tion, 2nd m.
“C” Group Parameters Default Setting Func. Code Name -FE (EU) -FU (USA) B031 =10 User Setting C086 AM offset calibration 0.0 0.0 9 C091 Debug mode enable 00 00 9 C101 Up/Down memory mode selection.
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CE-EMC Inst allation Guidelines In This Appendix… p age - CE-EMC Installation Guidelines ...................................................... 2 - Hitachi EMC Recommendations .
CE-EMC Inst allation Guidelines You are required to satisfy the EMC directive (89/336/EEC) when using an X200 inverter in an EU country. To satisfy the EMC directive and to comply with stan dard, follow the guidelines in this section.
4. Take measures to minimize interference that is frequently coupled in through installation cables. x Separate interfering cables with 0.25m minimum from cables susceptible to interference. A particularly critical point is layin g parallel cables over longer distances.
Installation for X200 series (example of SFEF models) *) Both earth portions of the shielded cab le must be connected to the earth point b y cable clamps.
Hit achi EMC Recommendations W ARNING: This equipment shou ld be installed, adjusted, and serviced by qualified personal familiar with construction and operation of th e equipment and the hazards involved. Failure to observe this precaution could result in bodily injury.
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Index A A Group functions 3–10 AC reactors 5–3 Acceleration 1–23 , 3–9 characteristic curves 3–27 second function 3–25 two-stage 4–17 Access levels 3–5 , 3–36 , 4–21 Accessories 5.
Choke 2–7 , 5–3 , A–2 Chopper frequency 3–40 Circuit breaker sizes xv Clearance for ventilation 2–10 Coasting 3–42 Connectors logic terminals 2–4 serial port 2–4 , B–3 Constant torqu.
G Glossary of terms A–2 H H Group parameters 3–65 Harmonics A–4 History of trip events 3–7 Horsepow er A–4 I IGBT 1–19 , A–4 test me thod 6–15 Inertia A–4 Initialization 6–8 codes .
N Nameplate 1–4 Navigational map 2–28 , 3–4 trip events 6–7 NEC A–5 NEMA definition A–5 rated installation 1–3 Network communications 1–24 , 2–5 , B–2 detection signal 4–50 error.
R Ratings label 1–4 Reactance A–6 Read/write copy unit 1–3 Rectifier A–6 Reduced torque 3–16 Regenerative braking A–6 Regulation A–6 Regulatory agency approvals 1–4 Relay alarm signal .
T Tachometer A–7 Technical support xix Term definitions A–2 Terminal/program source configuration 2–30 , 3–10 Terminals arrangement 2–21 listing 4–7 torque specs xiv , 2–20 Termination r.
デバイスHitachi CP-X200の購入後に(又は購入する前であっても)重要なポイントは、説明書をよく読むことです。その単純な理由はいくつかあります:
Hitachi CP-X200をまだ購入していないなら、この製品の基本情報を理解する良い機会です。まずは上にある説明書の最初のページをご覧ください。そこにはHitachi CP-X200の技術情報の概要が記載されているはずです。デバイスがあなたのニーズを満たすかどうかは、ここで確認しましょう。Hitachi CP-X200の取扱説明書の次のページをよく読むことにより、製品の全機能やその取り扱いに関する情報を知ることができます。Hitachi CP-X200で得られた情報は、きっとあなたの購入の決断を手助けしてくれることでしょう。
Hitachi CP-X200を既にお持ちだが、まだ読んでいない場合は、上記の理由によりそれを行うべきです。そうすることにより機能を適切に使用しているか、又はHitachi CP-X200の不適切な取り扱いによりその寿命を短くする危険を犯していないかどうかを知ることができます。
ですが、ユーザガイドが果たす重要な役割の一つは、Hitachi CP-X200に関する問題の解決を支援することです。そこにはほとんどの場合、トラブルシューティング、すなわちHitachi CP-X200デバイスで最もよく起こりうる故障・不良とそれらの対処法についてのアドバイスを見つけることができるはずです。たとえ問題を解決できなかった場合でも、説明書にはカスタマー・サービスセンター又は最寄りのサービスセンターへの問い合わせ先等、次の対処法についての指示があるはずです。