Single-phase Input
Hazardous High Voltage
Safety Messages
General Precautions Read These First
Iii
Index to Warnings and Cautions in This Manual
Iviv
Page
Vivi
Wiring Cautions for Electrical Practice
Vii
Powerup Test Caution Messages
Viii
Page
General Warnings and Cautions
Inverter Motor
EMI Filter
Xii
Xiii
Wire Connectors
Terminal Tightening Torque and Wire Size
Relay connector
Xiv
Motor Overload Protection
Circuit Breaker and Fuse Sizes
X200-002SFEF/NFU X200-004SFEF/NFU
X200-005SFEF X200-007SFEF/NFU Three X200-011SFEF
Table of Contents
Xvii
Revisions
Xviii
March NT301X
2007
Contact Information
Xix
Page
This Chapter…
Getting Started
Introduction
Main Features
Operator Interface Options
F E F
Inverter Specification Label
Model-specific tables for 200V and 400V class inverters
X200 Inverter Specifications
Maximum allowable rotation speed
Input power supply voltage
For achieving approved input voltage rating categories
460 to 480VAC Over-voltage category
015SFEF 022SFEF
X200 Inverter Specifications, …
Hfef
030HFEF 040HFEF 055HFEF 075HFEF
Torque characteristics
-10
General Specifications
10
Following table applies to all X200 inverters
11
Signal Ratings
-11
Derating Curves
-12
12
Derating curves
-13
13
Derating curves, …
-14
14
15
-15
16
-16
17
-17
18
-18
-19
What is an Inverter
Introduction to Variable-Frequency Drives
Purpose of Motor Speed Control for Industry
-20
Inverter Input and Three-phase Power
20
Torque and Constant Volts/Hertz Operation
AC motor must be connected only to the inverter’s
-21
Inverter Output to the Motor
-22
Much of this manual is devoted to describing how to use
Braking
An on-board Eeprom for parameter storage. The inverter’s
Velocity Profiles
-23
-24
Frequently Asked Questions
Alternative solutions?
Does the motor need a chassis ground connection?
-25
-26
Inverter Mounting Installation
Unpacking and Inspection
Orientation to Inverter Features
Main Physical Features
Front Housing Cover
Logic Connector Introduction
DIP Switch Introduction
Installation Inverter Mounting
Inverter
Basic System Description
Step-by-Step Basic Installation
Choosing a Mounting Location
Keep Debris Out of Inverter Vents
Ensure Adequate Ventilation
X200-002SFEF, -004SFEF, -002NFU, -004NFU
Check Inverter Dimensions
Dimensional drawings, …
X200-011SFEF~022SFEF, -015NFU~022NFU, -037LFU
X200-004HFEF, -004HFU
X200-007HFEF, -007HFU
X200-015HFEF~040HFEF, -015HFU~040HFU
X200-055LFU, -075LFU, -055HFU, -075HFU, -055HFEF, -075HFEF
Prepare for Wiring
19
Determining Wire and Fuse Sizes
Wire the Inverter Input to a Supply
Terminal Dimensions and Torque Specs
21
-21
22
Logic Control Wiring
Wire the Inverter Output to Motor
-23
23
Goals for the Powerup Test
Powerup Test
24
Uncover the Inverter Vents
Powering the Inverter
Pre-test and Operational Precautions
-25
25
26
Using the Front Panel Keypad
Key and Indicator Legend
27
-27
Keys, Modes, and Parameters
TIP Pressing
Keypad Navigation Map
-28
28
Selecting Functions and Editing Parameters
-29
29
30
-30
31
-31
32
-32
33
-33
34
-34
Monitoring Parameters with the Display
Running the Motor
35
Powerup Test Observations and Summary
-35
Page
Configuring Drive Parameters
Introduction of Inverter Programming
Choosing a Programming Device
Introduction
Using the Keypad Devices
Drive
Software Lock Setting parameter B031 determines when
Run Mode Edit
Operational Modes
Control Algorithms
Stop
Group Monitoring Functions
IN-TM Lhlhl
OUT-TM
Trip Event and History Monitoring
Local Monitoring During Network Operation
ACC
Group Main Profile Parameters
DEC
DIG-RUN FWD
COM
Group Standard Functions
2F-COM
OPE-Mode
Code
Base
Basic Parameter Settings
2F-BASE
MAX
Analog Input Settings
EXE
EXS
EX%S
EX%E
FRS
Multi-speed and Jog Frequency Setting
Torque Control Algorithms
Starting Torque Characteristics
Manual Torque Boost The Constant
Attempts To compensate For voltage
2CTRL TRQ
Ctrl TRQ
DC Braking DB Settings
DCB F
OFF
DCB
DCB T
Lim H 0000.0Hz
Frequency-related Functions
2Lim H 0000.0Hz
Lim L 0000.0Hz
Jump F2
Jump F1
Jump F3
Jump W1
PID Control
Mode
Automatic Voltage Regulation AVR Function
AVR
ECO Adj
Energy Savings Mode / Optional Accel/Decel
RUN Mode NOR
2ACC2
Second Acceleration and Deceleration Functions
2DEC2
ACC CHG
2ACCCHfr 0000.0Hz
ACC CHfr 0000.0Hz
DEC CHfr 0000.0Hz
2DECCHfr 0000.0Hz
DEC Line
Accel/Decel
ACC Line
Additional Analog Input Settings
POT
Calc Slct1
Calc Slct2
Calc Smbl
ADD DIR Plus
ST-PNT
Potentiometer Settings
Automatic Restart Mode
Group Fine Tuning Functions
IPS Powr ALM
Frequency Pull-in Restart
IPS Trip OFF
IPS Retry
THM LVL
Electronic Thermal Overload Alarm Setting
2ETHM LVL
THM Char CRT
Overload Restriction
-35
36
Software Lock Mode
-36
37
-37
Lock
MD1
38
Controlled Stop Operation at Power Loss
-38
39
-39
-40
Miscellaneous Settings
40
Environmental conditions
TRP
-41
41
42
-42
43
-43
RUN FRS ZST
Stop DEC
44
-44
Panel
FAN-CTRL
-45
B130, B131 Over-voltage LAD Stop Enable
45
Ovladstop OFF
46
DC Bus AVR for Deceleration Settings
-46
-47
-48
SUP Mode
48
Cr-DEC
-49
Input Terminal Configuration
49
Group Intelligent Terminal Functions
Intelligent Input Terminal Overview
-50
50
51
-51
Anlg
-52
Emergency Stop
-53
53
-54
Output Terminal Configuration
54
OUT-TM RY
55
-55
56
-56
-57
LOC Mode CRT
57
Low Load Detection Parameters
58
Output Function Adjustment Parameters
-58
-59
60
Network Communications Settings
-60
61
Analog Signal Calibration Settings
-61
62
-62
Miscellaneous Functions
UP/DWN
63
-63
Output Logic and Timing
FA1
64
-64
Group Motor Constants Functions
-65
65
Page
Operations Monitoring
Monitoring
Monitoring
Connecting to PLCs and Other Devices
Example Wiring Diagram
Analog GND to the left for analog I/O circuits
Control Logic Signal Specifications
Default relay N.O./N.C. configuration is reversed. See
Intelligent Outputs
Intelligent Terminal Listing
Intelligent Inputs
Operations
Using Intelligent Input Terminals
Sinking Inputs, Internal Supply
Operationsand
Forward Run/Stop and Reverse Run/Stop Commands
Multi-Speed Select
-13
Jogging Command
External Signal for DC Braking
Set Second Motor, Special Set
Frequency output uses the initial acceleration
Free-run Stop
External Trip
Unattended Start Protection
Software Lock
Analog Input Current/Voltage Select
Combination of A005 setting and AT input
Reset Inverter
Thermistor Thermal Protection
Three-wire Interface Operation
PID ON/OFF and PID Clear
Remote Control Up and Down Functions
Remote Control Data Clears the Up/Down frequency memory
Force Operation from Digital Operator
Add Frequency Enable
Inverter Ready
Force Terminal Mode
Terminal 4 function
Emergency Stop
How to go into Emergency Stop mode
Emergency Stop Emergency signal is activated
… this page is left intentionally blank
Sinking Outputs, Open Collector
Using Intelligent Output Terminals
Internal Relay Output
Output Signals
Output Signal ON/OFF Delay Function
Run Signal
Frequency Arrival Signals
Fon
Overload Advance Notice Signal
Output Deviation for PID Control
Signal AL and the alarm relay contacts AL0, AL1 Fault
We must make a distinction between the alarm
AL2. The signal AL is a logic function, which
You can assign to the open collector output terminal
Power Run Mode AL0-AL1 AL0-AL2 Normal
Analog Input Disconnect Detect
PID Second Stage Output
47
Terminal FBV configuration table is on the following
Required settings A076, C052, C053
Network Detection Signal Integrated ModBus
Logic Output Function
52
-52
Set P044=00.00 sec
Network Detection Signal FieldBus Option
Valid for inputs 11, AL0 AL2 Required settings C038, C039
Low Load Detection Signal
Analog Input Operation
Other Analog Input-related topics
Analog Output Operation
AM signal offset and gain are adjustable, as indicated below
PID Loop Operation
Other PID-related topics
PID Loop Configuration
59
Simultaneous Connections
Configuring the Inverter for Multiple Motors
Inverter Configuration for Two Motor Types
-61
Page
Inverter System Accessories
Inverter System
AC Reactors, Output Side
Component Descriptions
AC Reactors, Input Side
EMI Filter
Zero-phase Reactor RF Noise Filter
RF Noise Filter Capacitive
DC Link Choke
Dynamic Braking Usage
Dynamic Braking
Selecting Braking Resistors for External Braking Units
Dynamic braking maximum continuous on time Tb 10 sec
HRB1 HRB2 HRB3
004HFEF/HFU
Page
Troubleshooting Maintenance
Safety Messages
Troubleshooting
General Precautions and Notes
Inspection Items
Troubleshooting Tips
Reduces output as needed
Monitoring Trip Events, History, & Conditions
Fault Detection and Clearing
Error Codes
Inverter is protected by the detection of ground faults
Trip Conditions
Trip History and Inverter Status
B085
Restoring Factory Default Settings
Monthly and Yearly Inspection Chart
Maintenance and Inspection
X200
Megger test
Capacitor Life Curves
Spare parts
Pf1
General Inverter Electrical Measurements
-13
Inverter Output Voltage Measurement Techniques
# # 0
Igbt Test Method
#
# 0 #
Warranty Terms
Warranty
This Appendix…
Glossary and Bibliography
Glossary
Can install to decrease the level of EMI
Inverter DC braking feature stops the AC commutation to
Desirable it depends on the needs of the application
Keypad devices
Generate 3-phase output to the motor
As measurements of power
Harmful harmonics and transients on the input power
Deceleration time
Motor speed. See also Error
Speed preset. The Hitachi inverters have 16 preset speeds
Frequencies in the inverter
Possesses angular momentum
Modulating, the average voltage is controlled. The chopping
Constant amplitude, and by chopping the waveform pulsewidth
Frequency is sometimes called the Carrier Frequency
Imaginary part
Signal generator usually attached to the motor shaft for
Output three-phase power to the motor. See also Three-phase
Its temperature. The sensing range of thermistors and their
Safety reasons, and is provided
Bibliography
ModBus Network Communications
X200X200X200
Connecting the Inverter to ModBus
SP SN
Appendix BAppendix B
Message Configuration Query
Transmission procedure
Network Protocol Reference
Slave address
Appendix BAppendix B
Message Configuration Response
Appendix BAppendix B
Query
Explanation of function codes
X200 D081 Command
Data set in the response is as follows
-13
CRC
-15 B15
-16
Query
Store New Register Data Enter command
ModBus Coil List
ModBus Data Listing
…OFF
ModBus Holding Registers
List of Holding Registers Func Name Description Network Data
-23 B23
Setting *1 Range is 0.01 to 3000 sec 1015h 300000 F002
-25
List of Holding Registers Func Name
-27 B27
-28
-29 B29
-30
-31
-32
-33 B33
Operation with free-run stop FRS is
Appendix
Appendix
-37
Communication Settings on
See Output Logic and Timing on
-39 B39
Page
Drive Parameter Setting Tables
Group Parameters Default Setting B031 User Func Name =10
Parameter Settings for Keypad Entry
Main Profile Parameters
Code
Standard Functions
A203 Base frequency setting, 2nd motor
A043 Manual torque boost frequency
100 A245 Gain setting, 2nd motor
100 A155 POT input start frequency enable
Fine Tuning Functions
Carrier mode B151 Selection of RDY function
B080 AManalog signal gain 100
B133 DC bus AVR selection
Threshold voltage of DC bus AVR
Intelligent Terminal Functions
C041 Overload level setting
C241 Overload level setting, 2nd motor
Expansion Card Functions
Motor Constants Functions
Page
CE-EMC
CE-EMC Installation Guidelines
Integrated EMC Filter
L1,N PE PE U,V,W
Installation for X200 series example of Sfef models
Hitachi EMC Recommendations
Page
Index-1
Index
Index2
Index-2
Index
Index4
Index-4
Index-5
Index6
Index-6