Multi-function Keypad "TP-G1" - Fuji Electric Corp. of America
Contents
1. If you suspect the product is not working properly or if you have any questions about your product contact your Fuji Electric representative Figure 1 1 Back of Multi function Keypad TP G1 1 2 Inverters with which the Multi function Keypad Interfaces The Multi function Keypad TP G1 interfaces with the following Fuji inverters Type of inverter Remarks FRENIC Eco FRNOOOF1s 00 The Multi function Keypad is fully supported by inverters with a ROM version of F1S10300 or later You can check the inverter s ROM FRNOIOOF1e OO re FRNOOOF1H O0 version by entering menu 5 5 7 in Maintenance Information in Programming Mode Each has its meaning There are restrictions on the support for the Multi function Keypad by as shown below inverters with a ROM version of F1S10300 or earlier For details represented by an consult your Fuji Electric representative alphanumeric character Type of inverter FRN OOO F10 OO Series name Applicable motor rating Application range Version Instruction manual Developed inverter series Power supply voltage Enclosure For the details of the Inverter type identification refer to the FRENIC Eco Instruction Manual INR S147 0882 E Chapter 1 Section 1 1 Acceptance Inspection Chapter 2 INSTALLATION AND INTERCONNECTION 2 4 Accessories and Parts Required for Interconnection To install your TP G1 Multi function2. normal when opened Press key to return to Menu Terminal input signal status under communication control Highlighted when 1 normal when 0 Output signal Highlighted when ON normal when OFF Overlapping alarm 2 Overlapping alarm 1 Error sub code Figure 3 17 Menu Transition for ALM INF continued 3 4 8 Viewing cause of alarm 7 ALM CAUSE Menu 7 ALM CAUSE in Programming Mode allows you to view the information on the four most recent alarm conditions that triggered protective functions in alarm code and the number of occurrences It also shows the cause of each alarm Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 7 ALM CAUSEF by using and keys moving EJ 3 Press the key to get the Alarm list screen which displays information on the four most recent alarm conditions alarm code and the number of occurrences for each alarm condition 4 Select the alarm condition to be displayed by using e and Q keys 5 Press the key to display the alarm code on the LED Monitor and the screen for the cause of the alarm can be more than 1 page on the LCD Monitor 6 Press e and Q keys to view the previous next page 7 Press the key to return to the alarm list Press the key again to return to the menu Figure 3 1
3. Do not operate the switch with wet hands Doing so could cause electric shock Before opening the cover of the inverter to install the multi functional keypad turn off the inverter and wait for at least five minutes for models of 30 kW or below or ten minutes for models of 37 kW or above Further make sure that the LED monitor is turned off the charger indicator is off and the DC link circuit voltage between the terminals P and N has dropped below the safe voltage level 25 VDC using a circuit tester or another appropriate instrument Otherwise electric shock could occur In general the insulation property of the sleeve of the signal wire and that of the sheath of the signal cable are not sufficient for high voltages Therefore if a signal wire or cable comes into direct contact with a live part of the main circuit the insulation may be broken causing the signal wire to be exposed to the high voltage of the main circuit Be sure to keep all signal wires and cables away from live parts of the main circuit Otherwise an accident or electric shock could occur Disposal ANCAUTION For disposal treat the Multi functional Keypad as industrial waste Otherwise injuries could occur Others ANWARNING Never attempt to modify the Multi function Keypad or inverter Doing so could cause electric shock or injuries GENERAL PRECAUTIONS Drawings in this manual may be illustrated wi
4. 0000 Select desired menu by moving the pointer with J Q key Press key to finalize desired menu Cumulative run time DC link circuit voltage Max temperature inside the inverter Max temperature of heat sink Max effective current Capacitance of the DC bus capacitor Cumulative motor run time Cumulative run time of electrolytic capacitor reference Cumulative run time of the cooling fan reference Common operation To confirm data call the desired page using Q key Press key to return to Menu Number of start ups Input watt hour Input watt hour data No of errors amp Error content for RS485 1 No of errors amp Error content for RS485 2 No of errors amp Error code for Option communication ROM version of the inverter ROM version of the keypad ROM version of the option Figure 3 16 Menu Transition for MAINTENANC 3 25 3 4 7 Reading alarm information 6 ALM INF Menu 6 ALM INF in Programming Mode allows you to view the information on the four most recent alarm conditions that triggered protective functions in alarm code and the number of occurrences It also shows the status of the inverter when the alarm condition occurred Table 3 13 lists the details of the alarm information Most recent alarm Table 3 13 Alarm Information Displayed Description Alarm code and count of occurrences 2 recent alarm Alarm code and count of occurrences 3
5. 2 Using S and keys move the pointer to 1 DATA SET and then press the key which will display a list of function codes 3 Use a and QO keys to select the desired function code group in this example F03 and press the key which will display the screen for changing the desired function code data 4 Change the function code data by using O and QO keys Pressing the key causes the blinking digit place to shift cursor shifting The blinking digit can be changed 5 Press the key to finalize the function code data The data will be saved in the memory inside the inverter The display will return to the function code list then move to the next function code in this example F04 If you press the key before the key the change made to data of the function code is cancelled The data reverts to the previous value the screen returns to the function code list and the function code F03 reappears 6 Press the key to return to the menu from the function code list Screen Function code Function code name PRTC ZOBIFREQ CMD 1 meeraoPR METHOD FOSMAX Hz Dy Nay AVF lt t Operation guide The function of each key is displayed by automatic scrolling of this line IOeENIMAX Hz Function code name Function code that has been changed from factory default 58 Data 25 07 120 O Allowable range AVIDATA ADJUS Operation guide IESKIMAX Hz 58 OHz Data before change 1Hz Dat
6. A VO CHECK 3 20 Reading maintenance information 5 MAINTENANC uw 3 23 Reading alarm information 6 ALM INF Viewing cause of alarm 7 ALM CAUSE 3 29 Data copying 8 DATA COPY 3 4 10 Measuring load factor 9 LOAD 3 38 3 4 11 Changing function codes covered by Quick setup 10 USER SET 3 4 12 Performing communication debugging 11 COMM DEBUG 3 42 3 5 Alarm Mode we 3 43 3 6 Other Precautions 1 3 45 3 6 1 Function code setting for F02 Run and operation Remote local operation Tuning motor parameters 3 4 3 3 44 3 4 5 3 4 6 3 4 7 3 4 8 3 4 9 9 31 3 41 3 45 3 45 3 46 3 6 2 3 6 3 Chapter 4 4 1 General Specifications 4 2 Communication Specifications 4 3 Transmission Specifications Chapter 1 BEFORE USING THE MULTI FUNCTION KEYPAD TP G1 1 1 Acceptance Inspection Unpack the package and check the following Model name 1 The package contains a Multi function Keypad and its instruction manual this book 2 There have been no problems during transportation In particular no parts are damaged or have fallen out of place nor are there any dents on the body 3 The model name TP G1 is inscribed on the back of the Multi function Keypad as shown in Figure 1 1
7. Extension Cable CB 5S CB 3S or 15 depending on the distance you can operate the inverter locally or remotely In either mode you can in the same way as with a standard built in keypad run and stop the motor monitor the running status and set the function codes In addition you can perform data copying You can read function code data from an inverter copy write it into another inverter or verify it Before installing and using the Multi function Keypad read through this manual in conjunction with the FRENIC Eco Instruction Manual and familiarize yourself with its proper use Improper use may prevent normal operation or cause a failure or reduced life of the inverter Related Publications Listed below are other publications on the FRENIC Eco to be consulted in conjunction with this manual as necessary FRENIC Eco User s Manual MEH456 RS485 Communication User s Manual MEH448a Catalog MEH442 FRENIC Eco Instruction Manual INR S147 0882 E RS485 Communications Card OPC F1 RS Installation Manual INR S147 0872 Relay Output Card OPC F1 RY Instruction Manual INR SI47 0873 Mounting Adapter for External Cooling PB F1 Installation Manual INR SI47 0880 Panel mount Adapter MA F 1 Installation Manual INR S147 0881 FRENIC Loader Instruction Manual INR SI47 0903 E The materials are subject to change without notice Be sure to obtain the latest editions for use B Safety precautions R
8. Monitor 6 Select the page for the desired item by using e and Q keys and confirm the status data for the desired item 7 Press the key to return to the alarm list Press the key again to return to the menu Figure 3 17 shows the LCD screen transition starting from the 6 ALM INF menu QUICK SET DATA SET DATA CHECK 3 OPR MNTR AV gt MENU SHIFYV Select desired menu by moving the pointer 7 with Q key OPR MNTR 170 CHECK MAINTENANC 86 ALM INF AV MENU SHIFTY Press key to finalize desired menu 07 7 1 0H2 Cause amp No of occurrences of most recent alarm 1 Er2 Cause amp No of occurrences of 2 most recent alarm 2 0C1 Cause amp No of occurrences of 3 most recent alarm 3 0C2 Cause amp No of occurrences of 4 most recent alarm Press key to return to Menu Select desired alarm by moving the cursor with Q key Press key to finalize desired alarm info Figure 3 17 Menu Transition for ALM INF 3 27 Press key to finalize desired alarm info Output frequency Output current Output voltage Calculated torque 60 OOHz Frequency command FWD IL LU Running direction status TIME 14h Cumulative run time Cee 7 No of startups DC link circuit voltage Temperature inside inverter Max temperature of heat sink Common operation Input signal status at terminal block To confirm data of control circuit call the desired page using 3 Highlighted when short circuited
9. code F02 is set Setting means of the run command to 0 Keypad You can run stop the motor using the I key on the keypad 1 External signal 2 Keypad forward You can run stop the motor using the I key on the keypad You can run the motor in forward direction only The key has been disabled 3 Keypad reverse You can run stop the motor using the key on the keypad You can run the motor in reverse direction only The key has been disabled The source for setting run and frequency commands can be switched between Remote and Local modes by the key on the keypad This key is a toggle switch Each time you press it for more than 1 second the mode switches from Romote to Local or vice versa The mode can be switched also by an external digital input signal To enable the switching you need to assign LOC to one of the digital input terminals which means that the commands from the keypad are given precedence one of function codes E01 to E05 E98 or E99 must be set to 35 By factory default LOC is assigned to X5 You can confirm the current mode on the indicators REM Remote mode LOC Local mode When the mode is switched from Remote to Local the frequency settings in the Remote mode are automatically inherited Further if the inverter is in Running mode at the time of the switching from Remote to Local the Run command is automatically turned ON so that all the necessary data settings will be carried o
10. concerning the selection of operation of Extension terminal the control circuit terminals Functions concerning functions the display on the LED monitor C code Control functions of frequency Control functions Functions associated with frequency settings P code Motor Functions for setting up characteristics Motor parameters parameters parameters such as capacity of the motor H code High performance functions High level Highly added value functions Functions for functions sophisticated control J code Application Application functions functions Functions for applications such as PID Control y code Link Link functions functions Functions for controlling communications code Optional Option functions functions Functions for optional features Note Note The code is displayed only when the corresponding optional feature is installed For details of the code refer to the Instruction Manual for the corresponding optional feature W Function codes requiring simultaneous keying To modify the data for function code FOO data protection data initialization or H97 clear alarm data simultaneous keying is needed involving the key the S key or the key the Q key m Modifying function code data during running making the modification valid and saving the modification Some function codes can be modified while the inverter is running whe
11. fix using the keypad fixing screws attached to the inverter the Multi function Keypad LL For the procedures for removing the covers refer to the FRENIC Eco Instruction Manual INR S147 0882 E Chapter 2 Section 2 3 1 Removing and mounting the terminal block TB cover and the front cover Keypad fastening screws M3 x 12 Attached to inverter Figure 2 6 Fixing the Multi function Keypad 2 4 W Installing the multi function keypad on the enclosure panel D Cut the panel out for a single square area and perforate two screw holes on the panel of the enclosure as shown in Figure 2 7 Depth Unit mm 11 BBHBH H Me BV eh epe KN XD gh sge PD REV RM oco HA M3 x 12 To be Screw provided by holes the customer Out Inside of enclosure wer Back view surface of enclosure 12 to 2 3 j If the thickness of 80 ag the enclosure is 38 KS s outside the range Mi shown above use screws of an appropriate length E a Panel cutting co 2x 4 i 61 ele e985 Dimensions of holes in enclosure viewed from A Figure 2 7 Dimensions of Square Cut out and Screw Holes 2 5 Mount the Multi function Keypad onto the
12. frequency command 2 as the frequency setting method you can also specify or change the frequency command in the same manner using the Q key e If you have set the function code F01 to 0 Keypad operation Q key but have selected a frequency setting other than frequency 1 i e frequency 2 set it via communications or as a multistep frequency then you cannot use the e I Q key for setting the frequency command even if the keypad is in Running Mode Pressing either of these keys will just display the currently selected frequency command n Means that the keypad hz 4 M r min nmin b 560 is not in effect lt REMOTE REF gt 12 Means that the setting for the Analog 12 terminal is effective See Table below A A A FWD REV STOP REM LOC COMM JOG To have the frequency command displayed as the motor speed load shaft speed or speed set function code E48 speed monitor selection to 3 4 or 7 respectively as shown in Table 3 6 Monitored Items Table 3 4 Available Means of Setting Command sources Symbol Command sources Symbol Command sources Multistep PID keypad Keypad frequency command PID process Terminal command 1 PID process command 2 Terminal RS485 standard Terminal RS485 optional PID UP DOWN erminal process command PID Terminal Bus option communication process command PID multistep UP DOW
13. go back to List of data copy operations press key Press key to finalize desired data Confirmation screen If OK press key To go back to Data selection screen press key Press key to start Verify operation In progress screen A bar indicating progress appears in the bottom When a mismatch is found the Verify operation is halted with the function code and its data displayed on the LCD Monitor To resume the Verify operation from the next function code press key again To resume Verify press key In progress screen A bar indicating progress appears in the bottom Upon completion Completion screen automatically appears Completion screen Indicates that Verify operation has completed successfully To go back to List of data copy operations press key Figure 3 22 Menu Transition for VERIFY 3 35 Error screens ERROR If you press key during Verify operation the operation under way will be aborted and this Error screen will DATA2 appear Note DATAS ERROR If the keypad does not have any valid data this Error screen DATA1e9INV will appear Note DATA2 DATAS DATA COPY ERROR Ver The function code data held in the keypad is incompatible with that in the inverter Either data may be non standard or a DATA2 version upgrade performed in the past may have made the DATAS keypad or the inverter incompatible Contact your Fuji Electric DATA COPY representative Figure 3 22 Menu Transi
14. mode While the measurement of the load factor is in progress you can go back to the running mode by pressing the key or to the Mode selection screen by pressing the key In these cases the measurement of the load factor will continue You can go back to 9 LOAD FCTR and confirm on the Mode selection screen that the measurement is in progress After the measurement has ended you can view the results of the measurement by pressing the key on the Mode selection screen Note The results of the measurement will be deleted when the inverter is powered OFF 3 4 11 Changing function codes covered by Quick setup 10 USER SET Menu 10 USER SET in Programming Mode allows you to change the set of function codes that are covered by Quick setup Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 10 USER SET by using and keys moving EJ 3 Press the key to get the list of function codes 4 Select the function codes to be added or deleted by using e and Q keys moving E 5 Press the key to perform the addition or deletion 6 Press the key to return to the menu Figure 3 28 shows the LCD screen transition starting from the 10 USER SET menu QUICK SET DATA SET DATA CHECK S OPR MNTR AVOSMENU SHIFYV Select desired menu by moving the point
15. the measurement stops displaying the results Specified duration Max output current Average output current Average braking power Display of measurement results Figure 3 26 Menu Transition for LOAD FCTR hours set mode 3 39 3 Selectin start to stop mode MODE SELECT HOURS SET EXECUTING Mor AV LOADFACTOR START BY RUN 0 OOA lave 0 OOA BPave O O96 LOADFACTOR Imax Run com EXECUTING Imax lave 0 OOA BPave O O96 LOADFACTOR Stopped LOADFACTOR Mode selection screen Select desired mode of measurement by moving the cursor with O key Confirmation screen If OK press key To go back to Mode selection press key Press key to signal Ready Waiting for Run command Standby for measurement Upon receiving Run command the measurement will start If a Run command has already been received this screen will be skipped Measurement will start upon receiving Run command Measurement in progress The measurement will continue until the inverter is stopped To discontinue the measurement press key Measurement will stop when the inverter is stopped or you press key Duration Max output current Average output current Average braking power Display of measurement results To return to Mode selection press key Figure 3 27 Menu Transition for LOAD FCTR start to stop mode 4 Going back to Running
16. with three different inverters You can read the function code data of an inverter into one of these memory areas or write the function code data held in one of these memory areas into the inverter you select On the LCD Screen each set of function code data or memory area is given a name such as DATA 1 and DATA 2 Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed Select 8 DATA COPY by using a and QO keys moving E Press the key to get the data copy index screen list of data copy operations 2 3 4 5 Select the operation read write verify check by using e and Q keys moving E Press the key to finalize the choice of operation and then select the data set or storage area on the keypad 6 Press the key to finalize the selection and perform the operation of your choice for details refer to the LCD screen transition diagram below 7 Press the key to return to the menu Figure 3 19 shows the LCD screen transition starting from the 8 DATA COPY menu 1 Selecting Copy Operation QUICK SET DATA SET DATA CHECK 3 OPR MNTR AVOMENU SHIFY Select desired menu by moving the pointer 3 with J Q key 5 MAINTENANC 6 ALM INF 4 8 ALM CAUSE DATA COPY AVOMENU SHIF Press key to finalize desired menu KP INV READ List of data copy
17. 0 USER SET The set of function codes covered by Quick Setup is held in the inverter not the keypad Therefore if you mount your keypad onto another inverter the set of function codes held in the new inverter is subject to Quick Setup If necessary you may copy the set of function codes subject to Quick Setup using the copy function 8 DATA COPY If you perform data initialization function code the set of function codes subject to Quick Setup will be reset to the factory default LL For the list of function codes subject to Quick Setup by factory default refer to the FRENIC Eco Instruction Manual INR S147 0882 E Chapter 5 FUNCTION CODES LCD screen transition from the 0 QUICK SET menu is the same as with 1 DATA SET Basic key operation Same as the basic key operation for 1 DATA SET 3 4 3 Checking changed function codes 2 DATA CHECK Menu 2 DATA CHECK in Programming Mode allows you to check function codes together with their data that have been changed The function codes whose data have been changed from factory default are marked with By selecting a function code and pressing the key you can view or change its data LCD screen transition from the 2 DATA CHECK menu is the same as with 1 DATA SET except for the different screen listing function codes as shown below Function code Changed Function code data ENSEKI 48 OHz aox 195V DPN AV Figure 3 13 LCD Screen Listing Funct
18. 0 min sec PID Y Y yY Y Yv v yY H 2 Output Frequency Bar Chart A Output Current Calculated Torque Fout Iout TRQ a A a FWD REV STOP REM LOC COMM J0G HAND The full scale maximum value for each parameter is as follows Output frequency Maximum frequency Output current 200 of inverter s rated current Calculated torque 200 of rated torque generated by motor Figure 3 4 Bar Chart W Switching the operation mode between remote and local The inverter can be operated either in remote mode or in local mode In remote mode which applies to normal operation the inverter is driven under the control of the data settings held in it whereas in local mode which applies to maintenance operation it is separated from the system and is driven manually under the control of the keypad Remote mode The sources for setting run and frequency commands is determined by various setting means switching signals such as function codes switching of run command 1 2 and link priority function Local mode The sources for setting run and frequency commands is the keypad regardless of the settings specified by function codes The keypad takes precedence over the setting means specified by the run command 1 2 or the link priority function What follows shows the setting means of run command using the keypad in the local operation mode 3 6 Table 3 3 Run Commands from the Keypad in the Local Operation Mode If function
19. 1 COMM DEBUG by using and keys moving EJ 3 Press the key to get the list of communication related function codes 4 Select the function code by using e and Q keys moving B 5 Press the key to check or change the function code 6 Press the key to return to the menu Figure 3 29 shows the LCD screen transition starting from the 11 COMM DEBUG menu QUICK SET DATA SET DATA CHECK 3 OPR MNTR AVOMENU SHIFYV Select desired menu by moving the pointer with e QO key 8 DATA 9 LOAD 10 USER 811 comm key to finalize desired menu List of communication related function codes Lists function codes with their names Select the function by moving the cursor with S and Q keys To go back to the menu press key Press key to finalize desired menu 39833C OMMAND amp name of function code Data can be changed by Data exists 0 pressing A Q key 58 Data 0 00 655 35 Range ADJUS Operation guide M W X Z Code IVESMONITOR Reference only Cannot be changed 58 O0Hz Data MONITOR DATA AV239DATA ADJUS Operation guide Figure 3 29 Menu Transition for Communication Debugging 3 5 Alarm Mode When a protective function is triggered resulting in an alarm the inverter automatically enters the alarm mode displaying the alarm code on the LED Monitor and the details of the alarm on the LCD Monitor as shown below If there is no overlap
20. 6 Communication FWD REV X1 to X5 XR RST Highlighted when 1 normal when Output signal Output signals to the terminals Y1 to Y3 Y5 SOABC Overlapping alarm 1 Simultaneously occurring alarm codes 1 is displayed if no alarms have occurred Overlapping alarm 1 Simultaneously occurring alarm codes 2 is displayed if no alarms have occurred Error sub code Secondary error code for the alarm Note When the same alarm occurs a number of times in succession reoccurring alarm the alarm information for the first occurrence is retained and the information for the subsequent occurrences is discarded Only the number of consecutive occurrences will be updated 3 26 Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 6 ALM INF by using and keys moving EJ 3 Press the key to get the Alarm list screen which displays information on the four most recent alarm conditions alarm code and the number of occurrences for each alarm condition 4 Select the alarm condition to be displayed by using e and Q keys 5 Press the key to display the alarm code on the LED Monitor and the screen for the status data at the time of the alarm 1 page out of a total of 7 pages on the LCD
21. 8 shows the LCD screen transition starting from the 7 ALM CAUSE menu 3 29 QUICK SET DATA SET DATA CHECK 3 OPR MNTR AVOMENU SHIFY IYO CHECK MAINTENANC ALM INF ALM CAUSE SHIF ALM CAUSE KP CONNECTOR WIRING INVERTER UNIT KEYPAD ALM CAUSE WIRING INVERTER UNIT KEYPAD ELEC NOISE ALM CAUSE Select desired menu by moving the pointer 2 with X key Press key to finalize desired menu Cause amp No of occurrences of most recent alarm Cause amp No of occurrences of 2 most recent alarm Cause amp No of occurrences of 3 most recent alarm Cause amp No of occurrences of 4 most recent alarm Press key to return to Menu Select desired alarm by moving the cursor with Q key Press key to finalize desired alarm cause page Alarm cause 1 page Press key to return to alarm list screen Press A key to check all alarm causes Alarm cause 2 Figure 3 18 Menu Transition for ALM CAUSE 3 4 9 Data copying 8 DATA COPY Menu 8 Data Copying in Programming Mode allows you to read function code data out of an inverter for which function codes are already set up and then to write such function code data altogether into another inverter or to verify the function code data held in the keypad with the one in the inverter The keypad can hold three sets of function code data in three areas of its internal memory so that it can be used
22. CIFICATIONS 4 1 General Specifications Table 4 1 summarizes the general specifications of the Multi function Keypad TP G1 Enclosure Table 4 1 General Specifications Specifications Front side IP40 Rear side IP20 Remarks Environment Indoor only Shall be free from corrosive gases flammable gases dust and direct sunlight Ambient temperature during operation 10 to 50 C Ambient humidity 5 to 95 RH no condensation Altitude 1000 m or below Vibration 3 mm max 2 9 Hz 9 8 m s 9 20 Hz 2 m s 20 55 Hz 1 m s 55 200 Hz Ambient temperature during storage 25 to 65 C Ambient humidity during storage 5 to 95 RH no condensation External dimensions See the figure below Mass W External dimensions 80 129g CI EC BBBBH L LLLA 128 5 Po Rv site REM L C Unit a 18 2 61 a25 ae 3 2M3 ds z N E E E 3 4 1 mm 4 2 Communication Specifications Tables 4 2 and 4 3 summarize the communication specifications Table 4 2 Hardware Specifications Specifications Remarks No of inverters One inverter for one Multi function Keypad connected Connection cable Shal
23. FO Instruction Manual FRENIC EcO Multi function Keypad TP G1 NCAUTION Thank you for purchasing our Multi function Keypad TP G1 This product is designed to remotely control the FRENIC Eco series of inverters Read through this instruction manual and be familiar with the handling procedure for correct use Improper handling blocks correct operation or causes a short life or failure Deliver this manual to the end user of the product Keep this manual in a safe place until the Multi function Keypad is discarded For the usage of inverters and optional equipment refer to the instruction manuals prepared for the FRENIC Eco series of inverters and its optional equipment Fuji Electric FA Components amp Systems Co Ltd INR SIA47 0890 E Copyright 2004 Fuji Electric FA Components amp Systems Co Ltd All rights reserved No part of this publication may be reproduced or copied without prior written permission from Fuji Electric FA Components amp Systems Co Ltd All products and company names mentioned in this manual are trademarks or registered trademarks of their respective holders The information contained herein is subject to change without prior notice for improvement Preface Thank you for purchasing our Multi function Keypad TP G1 By installing a TP G1 Multi function Keypad directly on a FRENIC Eco series inverter as an attached keypad or connecting them together using an optional Remote Operation
24. Keypad on the enclosure s panel instead of the inverter you need the following accessories and parts Accessories Parts Type or Specifications Remote Operation Extension Cable CB 5S 35 or CB 1S You have a choice of three lengths 5 m 3 Note 1 m and 1 m Screws M3 x 1 Note 2 Provide 2 screws to be provided by the for mounting the Multi function Keypad customer beforehand Note 1 Alternatively you can use an off the shelf 10BASE T 100BASE TX LAN cable straight type that meets the ANSI TIA EIA 568A Category 5 standard maximum length 20 m Recommended LAN Cable Manufacturer Sanwa Supply Co Ltd Model KB 10T5 01K for 1 m KB STP 01K for 1 m shielded cable EMC compliant Note 2 Use the screws of the length just right for the panel See Figure 2 7 2 1 2 2 Installing the TP G1 Multi function Keypad 2 2 14 Three ways of installation use You can install and or use your TP G1 in one of the following three ways W Install it directly on the inverter see Figure 2 1 W Install it on the front panel of enclosure see Figure 2 2 W Use it remotely in your hand see Figure 2 3 Multi function Keypad D Multi function T Keypad A jJ H p m a FRN15F1S 2J b FRN37F1S 2J Figure 2 1 Installing Multi function Keypad Directly on Inverter Enclosure dd Multi function Keypad Multi function Inverter K eypad Inverter Remote O
25. N control LOADER FRENIC loader D MULTI frequency command 3 9 W Make setting under PID control To enable PID control you need to set function code J01 to 1 or 2 Under the PID control the items that can be set or checked with e and Q keys are different from those under regular frequency control depending upon the current LED monitor setting If the LED monitor is set to the speed monitor you may access manual speed commands frequency command with O and QO keys if it is set to any other value you may access the PID process command with those keys CA Refer to the FRENIC Eco User s Manual MEH456 for details on the PID control W Setting the PID process command with a and Q keys 1 Set function code J02 to 0 Keypad operation 2 Set the LED monitor to something other than the speed monitor E43 0 while the keypad is in Running Mode You cannot modify the PID process command using the e I QO key while the keypad is in Programming Mode or Alarm Mode To enable the modification of the PID process command by the e I QO key first switch to Running Mode 3 Press the e I key to have the PID process command displayed The lowest digit will blink together with the dot on the LED monitor Hz A V r min m min kW X10 min sec PID vov yY Y ov Means that the keypad PI D REF gt command is effective HAND4 O OO 0 00 100 F D STORE a A A a A A FWD REV S
26. NTR menu 3 18 QUICK SET DATA SET DATA CHECK 3 MNTR AVOMENU SHIFY Select desired menu by moving the pointer 2 with A Q key QUICK SET 1 DATA SET 2 DATA CHECK OPR MNTR SHIFY Press key to finalize desired menu Fot1 Output frequency Fot2 Reserved Iout Output current Vout s Output voltage OPR Calculated torque Fref d Frequency command FWD Running direction status Common operation To confirm data call the desired page using 1 amp key SYN 1800 r m Motor shaft speed Press key to return LOD 60 O0r7 m Load shaft speed to Menu LIN Reserved PID process command PID feedback value PID output value A A Figure 3 14 Menu Transition for OPR MNTR Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 3 OPR MNTR by using amp keys moving Ej 3 Press the key to display the screen for Operation Monitor 1 page out of a total of 4 pages 4 Select the page for the desired item by using e and Q keys and confirm the running status information for the desired item 5 Press the key to go back to the menu 3 19 3 4 5 Checking I O signal status 4 I O CHECK Menu 4 CHECK in Programming mode allows you to check the digital and ana
27. TOP REM LOC COMM JOG HAND Figure 3 7 PID Process Commands 4 To change the PID process command press the e QO key again The PID process command you have specified will be automatically saved into the inverter s internal memory It is kept there even if you temporarily switch to another means of specifying the PID process command and then go back to the means of specifying the PID process command via the keypad Also it is kept there even while the inverter is powered OFF and will be used as the initial PID process command next time the inverter is powered ON Tip Even if multistep frequency is selected as the PID process command SS4 ON you still can set the process command using the keypad e When function code J02 is set to any value other than 0 pressing the e I key displays the 7 segment LED monitor the PID command currently selected while you cannot change the setting Hz A V vov ov lt REMOTE REF j Meens that PID Process PID P 1 r min m min kW X10 min sec PID Y Y Y Y Y Yy E a A A A FWD REV STOP REM LOC COMM JOG HAND e On the 7 segment LED monitor the decimal point of the lowest digit is used to characterize what is displayed The decimal point of the lowest digit blinks when a PID process command is displayed the decimal point lights when a PID feedback value is displayed ie y4 Decimal point W Setting up the frequ
28. a after change 25 09120 0 ADJUS Figure 3 11 Screen for Changing Function Code Data Tip W Additional note on function code being selected The function code being selected blinks indicating the movement of the cursor F03 blinks in this example 3 15 QUICK SET DATA SET DATA CHECK 3 OPR MNTR AV23MENU SHIFY QUICK SET DATA SET DATA CHECK S OPR MNTR SHIFY FOODATAPRTC memiFREQ CMD 1 ISUPJOPR METHOD BESESMAX Hz AVOF PRTC CMD 1 NSEAOPR METHOD FOSMAX Hz AVOF BSEIMAX Hz 58 25 0 120 0 ADJUS 25 0 120 O AV23DATA ADJUS Press key to enter Menu Select desired menu by shifting the pointer 4 with e 1 key Press key to finalize desired menu Press key to return to Menu Select desired function code by moving the cursor with O key Press key to finalize desired function code Press A key to change function code data Press key to finalize function code data Press key to cancel change of data Figure 3 12 Changing Function Code Data 3 4 2 Setting up function codes quickly using Quick setup 0 QUICK SET Menu 0 QUICK SET in Programming Mode allows you to quickly set up a fundamental set of function codes that you specify beforehand Whereas at shipment from factory only a predetermined set of function codes is registered you can add or delete some function codes using 1
29. and Y3 are OFF the contact between Y5A and Y5C is opened and the link between 30A and 30C is closed the status is expressed as 0101H Table 3 11 Hexadecimal Notation Data Displayed Highest digit Lowest digit Bit 1 Input signal REV Output signal Y2 Binary Hex unassigned XF XR RST are for communications Refer to the subsection below E Displaying control I O signal terminals under communication control During control via communication input commands sent via RS485 communications can be displayed in two ways depending on setting of the function code S06 Display with ON OFF of the LED segment or In hexadecimal format The content to be displayed is basically the same as that for the control I O signal terminal status display however XF XR and RST are added as inputs Note that under communications control I O display is in normal logic ON when active using the original signals that are not inverted LL Refer to the RS485 Communication User s Manual MEH448a for details on input commands sent through RS485 communications and the instruction manual of communication related options as well 3 4 6 Reading maintenance information 5 MAINTENANC Menu 5 MAINTENANC in Programming Mode allows you to view information necessary for performing maintenance on the inverter Table 3 12 lists the maintenan
30. been performed since factory shipment or a Read operation has been cancelled or aborted e The data held in the keypad s memory has an error There is a mismatch in inverter s model number e A Write operation has been performed while the inverter is running e The inverter is data protected e The Write enable for keypad command WE KP is OFF The function code data held in the keypad is incompatible with that in the inverter Either data may be non standard or a version upgrade performed in the past may have made the keypad or the inverter incompatible Contact your Fuji Electric representative Menu Transition for WRITE continued lt Note ERROR screen an ERROR Ver Screen appears during operation press the key to reset the error condition When Reset is complete the screen will go back to List of data copy operations 4 Verify operation KP INV READ KPSINV WRITE KP INV VERIFY KPDATA CHECK DE RM AV TP INV VERIFY 75rF1s 2 VERIFY DATA19INV VERIFING 2 DATA3 ann ERROR DATA1 1 1 INV O VERIFING IDATA 1 TNV DATA2 DATAS VERIFING END DATAISINV DATA2 DATA3 List of data copy operations Select desired operation by moving the cursor with e Q key Press key to finalize desired operation Data selection screen Select data to be verified by moving the cursor with O Q key To
31. ble frequency setting by using e and Q keys first move the keypad in Running mode 2 Pressing the e Q key causes the frequency command to be displayed on the LCD Monitor with the lowermost digit blinking Hz A V 6 m min kW X10 min sec PID vov Y Y Y Y wv Yv Y Means the keypad takes precedence DIG SET Hz HAN 00 60 OO FYD STORE a A A FWD REV STOP REM LOC COMM JOG HAND Figure 3 6 Setting the Frequency Command in Local Mode 3 If you need to change the frequency command press the e Q key again The new setting will be automatically saved into the inverter s internal non volatile memory It is kept there even while the inverter is powered OFF and will be used as the initial frequency next time the inverter is powered ON 3 8 Tip The frequency setting can be saved either automatically as mentioned above or by pressing the key You can choose either way using function code E64 e When you start specifying or changing the frequency command or any other parameter with the e I Q key the lowest digit on the display will blink and start changing As you are holding the key down blinking will gradually move to the upper digit places and the upper digits will be changeable Pressing the key moves the changeable digit place blinking and thus allows you to change upper digits easily By setting function code C30 to 0 Keypad operation I Q key and selecting
32. c PID HERE MIRO ye yy yy YovY ov LED indicator indexes LCD Monitor FWD REV STOP REM LOC COMM JOG HAND RUN key Program key forward LED indicator RUN key Shift key reverse Reset key STOP key Remote Local Function Data key key UP key DOWN key 3 1 LED LCD Monitor Monitor LED indicator or Key Table 3 1 Overview of Keypad Functions Functions Five digit 7 segment LED monitor which displays the following according to the operation modes W In Running Mode Running status information e g output frequency current and voltage same as above Alarm code which identifies the cause of alarm if the protective function is activated W In Programming Mode E In Alarm Mode FWD PRG gt PRG MENU F D gt LED SHIFT LCD monitor which displays the following according to the operation modes n Running Mode n Programming Mode n Alarm Mode Running status information Menus function codes and their data Alarm code which identifies the cause of alarm if the protective function is activated LED indicator indexes In running mode display the unit of the number displayed on the LED monitor and the running status information shown on the LCD monitor For details see next page Keypad Operation Key Switches the operation modes of the inverter Shifts the cursor to the right when entering a number Pressing this key after removing th
33. ce information display items Table 3 12 Display Items for Maintenance Cumulative run time Description Shows the cumulative run time during which the inverter was powered ON When the total time exceeds 65 535 hours the counter will be reset to 0 and the count will start again DC link circuit voltage Shows the DC link circuit voltage of the inverter s main circuit Max temperature inside the inverter Shows a maximum temperature inside the inerter every hour Max temperature of heat sink Shows the maximum temperature of the heat sink every hour Max effective current Shows the maximum current in rms every hour Capacitance of the DC bus capacitor Shows the current capacitance of the DC bus capacitor as 96 of the capacitance at factory shipment Refer to the FRENIC Eco Instruction Manual INR SI47 0882 E Chapter 7 MAINTENANCE AND INSPECTION for details Cumulative motor run time Shows the cumulative run time of the motor When the total time exceeds 65 535 hours the counter will be reset to 0 and the count will start again Cumulative run time of electrolytic capacitor on the printed circuit board Shows the product of the cumulative time of voltage being applied to the electrolytic capacitor on the printed circuit board and a coefficient determined by the environmental condition When the total time exceeds 65 535 hours the counting will stop As a guide 61 000 hours is cons
34. e cause of an alarm will switch the inverter to Running Mode Used to reset a setting or screen transition UP and DOWN keys Used to select the setting items or change the function code data displayed on the LED monitor Function Data key Switches the operation as follows In Running Mode Pressing this key switches the information to be displayed concerning the status of the inverter output frequency Hz output current A output voltage V etc Pressing this key displays the function code and confirms the data you have entered Pressing this key displays the details of the problem indicated by the alarm code that has come up on the LED monitor n Programming Mode n Alarm Mode Run Operation Key Starts running the motor forward rotation Starts running the motor reverse rotation Stops the motor Pressing this toggle key for more than 1 second switches between Local and Remote modes LED Indicator Lights while a run command is supplied to the inverter 3 2 Items Displayed on LED Indicators Unit of Number Displayed on LED Monitor Description information condition status Output frequency frequency command Output current Output voltage Calculated torque load factor speed Motor speed set motor speed load shaft speed set load shaft speed Line speed set line speed Not applicable to FRENIC Eco Input power motor
35. e key to display the screen for I O Checking 1 page out of a total of 6 pages 4 Select the page for the desired item by using e and Q keys and confirm the I O check data for the desired item 5 Press the key to go back to the menu Figure 3 15 shows the LCD screen transition starting from the 4 I O CHECK menu QUICK SET DATA SET DATA CHECK 3 OPR MNTR AVOMENU SHIFYW Select desired menu by moving the pointer with e I Q key 1 DATA SET 2 DATA CHECK 3 OPR MNTR 82 170 CHECK SHIF Press key to finalize desired menu Input signal at control circuit terminal block Highlighted when short circuited normal when open Input signal coming via communication link Highlighted when 1 normal when 0 Output signal Highlighted when ON normal when OFF C H E C KPAX 1 Common signal hex operation Input signal at control circuit terminal block To confirm Output signal data call the Input signal coming via communication link desired page usin C H E C KPAX Ya Press Analog input signal key to return Input voltage at terminal 12 to Menu Input current at terminal C1 Input voltage at terminal V2 T 5769 Analog output signal Output voltage at terminal FMA Output current at terminal FMA Average output voltage at terminal FMP Pulse rate at terminal FMP 17 0 CHECKA Figure 3 15 Menu Transition for CHECK 3 21 W Hexadecimal expression Each I O terminal
36. ead this manual thoroughly before proceeding with installation connections wiring operation or maintenance and inspection Ensure you have sound knowledge of the device and familiarize yourself with all safety information and precautions before proceeding to operate the inverter Safety precautions are classified into the following two categories in this manual WARN N G Failure to heed the information indicated by this symbol may lead to dangerous conditions possibly resulting in death or serious bodily injuries Failure to heed the information indicated by this symbol may lead to CAUTI O N dangerous conditions possibly resulting in minor or light bodily injuries and or substantial property damage Failure to heed the information contained under the CAUTION title can also result in serious consequences These safety precautions are of utmost importance and must be observed at all times Operation A WARNING Be sure to install the terminal block cover and the front cover before turning the power on Do not remove the covers while power is applied Otherwise electric shock could occur Do not operate switches buttons with wet hands Doing so could cause electric shock If the retry function has been selected the inverter may automatically restart and drive the motor depending on the cause of tripping Design the machinery or equipment so that human safety is ensured after restarting If the s
37. easurement output current and average braking power Allows you to add or delete function codes covered by Quick User Setting Setup Communication Allows you to confirm the data of the function codes for Debugging communication S M W X and Z codes Note The function codes for optional features o code are displayed only when they are installed For details refer to their instruction manuals Figure 3 9 shows the transitions between menus in Programming mode Power ON Menu QUICK SET DATASET DATACHECK To select the menu you want OPR MNTR move the pointer E with or Q key CHECK MAINTENANC Scope of display on LCD ALM INF ALM CAUSE DATACOPY LOAD FCTR USER SET COMM DEBUG OFR OND gt a gt Figure 3 9 Menu Transition in Programming Mode When there has been no key operation for about 5 minutes the inverter automatically goes back to the Running mode and the back light goes OFF 3 13 3 4 4 Setting function codes 1 Data Setting Menu 1 Data Setting in Programming Mode allows you to set function codes according to your needs Table 3 8 lists the function codes available on the FRENIC Eco Table 3 8 Function Codes Available on FRENIC Eco Function Code Group Function Code Function Description F code Fundamental Fundamental functions used in operation of the Fundamental functions functions motor E code Functions
38. ed by any data of the function codes E61 E62 or E63 Select terminal function 3 12 3 4 Programming Mode Programming Mode provides you with the functions of setting and checking function code data monitoring maintenance information and checking input output I O signal status The functions can be easily selected with a menu driven system Table 3 7 lists menus available in the Programming Mode Table 3 7 Menus Available in Programming Mode Main functions Quick Setup Displays only basic function codes that are pre selected Allows you to view and change the setting of the function code Data Setting you select Note Allows you to view and change a function code and its setting Data Checking data on the same screen Also allows you to check the function codes that have been changed from their factory defaults Displays the running information required for maintenance or Drive Monitoring test running Checking Displays external interface information Maintenance Information Displays maintenance information including cumulative run time Displays four latest alarm codes Also allows you to view the am Information information on the running status at the time the alarm occurred Alarm cause Displays the cause of the alarm Allows you to read or write function code data as well as to Data Copying verify it Load Factor Allows you to measure the maximum output current average M
39. enclosure with 2 screws as shown in Figure 2 8 Recommended tightening torque 0 7 N m RJ 45 connector Enclosure M3 x 12 To be provided by the customer Figure 2 8 Mounting Multi function Keypad 3 Remove the standard keypad mounted on the inverter see Figure 2 4 and using a Remote Operation Extension Cable or a LAN cable interconnect the Multi function Keypad and the Inverter insert one end of the cable into the RS485 port with RJ 45 connector on the Multi function Keypad and the other end into that on the inverter See Figure 2 9 RJ 45 connector modular jack Remote Operation Extension Cable Enclosure 55 CB 3S CB 1S or LAN cable Multi function Keypad RJ 45 connector L standard RS485 port Figure 2 9 Connecting Multi function Keypad to the Inverter with Remote Operation Extension Cable or an off the shelf LAN Cable W Using the multi function keypad in hand Follow step 3 of Installing the multi function keypad on the enclosure panel above 2 6 Chapter 3 OPERATION USING THE MULTI FUNCTION KEYPAD 3 1 Key LED and LCD Monitors on the Keypad The keypad allows you to start and stop the motor view various data including maintenance information and alarm information set function codes monitor I O signal status copy data and calculate the load factor 7 segment LED monitor Hz A V r min m min KW X10 min se
40. ency command with a and Q keys under PID control When function code F01 is set at 0 Keypad operation and frequency command 1 Frequency setting via communications link Disabled Multistep frequency setting Disabled PID control Disabled is selected as the manual speed command you can modify the frequency setting using the e I QO key if you specify the LED monitor as the speed monitor while the keypad is in Running Mode You cannot modify the frequency setting using the e Q key while the keypad is in Programming Mode or Alarm Mode To enable the modification of the frequency setting using the e QO key first switch to Running Mode These conditions are summarized in Table 3 5 and the figure below Table 3 5 shows the combinations of the parameters while the figure below illustrates how the manual speed command entered via the keypad is translated to the final frequency command The setting and viewing procedures are the same as those for usual frequency setting Table 3 5 Speed Frequency Command Manually Set with O QO Key and Requirements Frequency Frequency setting Multistep PID control command 1 via communications frequency setting disabled Display during e Q key operation F01 link quency 9 PID enabled PID output as final frequency command Disabled Disabled Manual speed setting by keypad pecs frequency setting PID enabled PID output as final frequency command Other than the above Manual s
41. er 22 with e I Q key ALM CAUSE DATA COPY LOAD FCTR USER SET AV gt MENU SHIF Press key to finalize desired menu FOODATA PRTC FO1FREQ CMD 1 IM UOPR METHOD USER SE AVF Mey DATA PRTC FO1FREQ CMD 1 FO2Z2OPR METHOD FOSMAX Hz AV OF IN ONUDATA PRTC USIFREQG CMD 1 OPR METHOD Hz Cae AVVO List of function codes Lists function codes with their names The function codes covered by Quick setup are highlighted names are highlighted Select the function code to be added not highlighted by moving the cursor with and keys To go back to the menu press key Press key to add it to Quick setup Select the function code to be deleted highlighted by moving the cursor with and keys To go back to the menu press key Press key to delete it from Quick setup To go back to Menu press key Figure 3 28 Menu Transition for Changing Function Codes Covered by Quick Setup 3 41 3 4 12 Performing communication debugging 11 COMM DEBUG Menu 11 COMM DEBUG in Programming Mode allows you to view the data of communication related function codes S M W X and Z codes to help debug programs for communication with an upper level device Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 1
42. ers Set data 1 or 2 into the function code P04 and press the key O DISABLE 0 2 AV239DATA ADJUS Press A key to select the data either 1 or 2 being set to the function code P04 O DISABLE fl AT STOP 0 2 AVSDATA ADJUS Press key to select the tuning mode Waiting for a run command 1 AT STOP START BY RUN COMMAND Turn on the Give the specific run command Run forward or Run run command reverse Note 1 Tuning the motor parameters Note 2 1 AT STOP EXECUTING End of tuning 1 AT STOP CLOSE BY RUN COMMAND OFF Turn off the Upon turning off the run command while the run run command command given by the keypad or the link operation is automatically turned off the lead through ends the tuning process and moves to the next function code PO6 IEEESIM SELECT CODE SH Note 1 The factory default setting is Run forward by using the key on the keypad To tune the motor parameters in Run reverse change data of the function code F02 Note 2 Time needed for tuning while the motor is stopped P04 1 will be less than 40 seconds e In tuning while the motor is running P04 2 the inverter accelerates the motor up to around 50 of the base frequency starts tuning of motor parameters and decelerates to stop the motor after the end of tuning Estimated time needed for tuning in this case will be acceleration time 10 deceleration time seconds Chapter 4 SPE
43. gure 3 32 Switching of Display of Overlapping Alarm History 3 43 W Display of running status information at the time of alarm By pressing the key while an alarm code is displayed you can view the output frequency output current and other data concerning the running status The data you can view is the same as with 6 ALM INF Use e and Q keys for scrolling pages within the menu Pressing the key or the key while the running status information is displayed will take you back to the display of the alarm code Transition to Programming mode By pressing the key while alarm information is displayed you can switch to the Programming mode in which you can use a variety of features such as changing function code data W Resetting alarm transition to Running mode When you remove the cause of the alarm and press the key the alarm condition will be reset and the inverter will go back to the Running mode Programming Mode Figure 3 33 summarizes the menu transition between these modes Running Mode Occurrence of an alarm A 16 Alarm Mode 1 Er2 3 A KEYPD COM ERR PRG92PRG MENU RESETSRESET ALM INF Tout Vout TRQ Ca Figure 3 33 Menu Transition in from Alarm Mode 3 6 Other Precautions For using a multi function keypad note that your key operation will be differed from ones on a standard keypad TP E1 for following points 3 6 1 Function code setting for F02 Run and operation The I key control
44. idered as life Cumulative run time of the cooling fan Shows the cumulative run time of the cooling fan When the total time exceeds 65 535 hours the counting will stop As a guide 61 000 hours is considered as life This number varies with the capacity of the inverter Count of start ups Shows the total count of start ups of the motor count of times when the run command for the inverter was turned ON When the total time exceeds 65 535 hours the counter will be reset to O and the count will start again Input watt hour Shows the input watt hours of the inverter Upon exceeding 1 000 000 kWh the count goes back to 0 Input watt hour data Shows the input watt hour data as input watt hour KWh x function code E51 The range of display is 0 001 to 9 999 Values exceeding 9 999 are expressed as 9 999 Count of RS485 1 errors Shows the cumulative count of RS485 communications card standard errors since first power ON RS485 1 error content Note 2 Shows the latest error that has occurred with RS485 communications standard in a code Count of RS485 2 errors Shows the cumulative coun errors since first power ON RS485 communications card option RS485 2 error content Note 2 Shows the latest error that has occurred with RS485 communications option in a code Count of option errors Shows the cumulative count of errors detected during optional communicat
45. inverter automatically enters the Alarm Mode In this mode you can view the corresponding alarm code and its related information on the LED and LCD Monitors Figure 3 1 shows the status transition of the inverter between these three operation modes Power ON Run Stop of motor Setting of function codes Monitoring of running status Monitoring of various statuses Occurrence of 1 an alarm 5 DON I 7 Occurrence of alarm Display of alarm status Figure 3 1 Status Transition between Operation Modes 3 4 3 3 Running Mode When the inverter is turned on it automatically enters Running Mode In Running Mode you can 1 Run or stop the motor 2 Set the frequency command and others 3 Monitor the running status e g output frequency output current 3 3 1 Running stopping the motor By factory default pressing the key starts running the motor in the forward direction and pressing the key decelerates the motor to stop The key is disabled You can run or stop the motor using the keypad only in Running mode and Programming mode To run the motor in reverse direction or to run the motor in reversible mode change the setting of function code F02 LL For details of function code F02 refer to the FRENIC Eco Instruction Manual INR S147 0882 E Chapter 5 Note Forward Reverse Figure 3 2 Rotational Direction of Motor Note The rotational direction of IEC compliant
46. ion Codes Basic key operation Same as the basic key operation for 1 DATA SET 3 17 3 4 4 Monitoring the running status OPR MNTR Menu 3 OPR MNTR allows you to check the running status during maintenance and test running The display items for Drive Monitoring are listed in Table 3 9 Table 3 9 Drive Monitoring Display Items Description Output frequency Output frequency Reserved Output current Output current Output voltage Output voltage Calculated torque Calculated output torque generated by motor Frequency Frequency command command Running direction FWD Forward REV Reverse Blank Stopped Running status IL Current limitation LU Undervoltage VL Voltage limitation Motor shaft speed Display value 7 Output frequency Hz x 125 Load shaft speed Display value Output frequency Hz x Function code E50 Reserved PID process The PID process command and PID feedback value are displayed after command converting the value to a virtual physical value e g temperature or pressure of the object to be controlled using the function code E40 and E41 data PID display coefficients A and B Display value PID process command feedback value x Coefficient A PID feedback value PID output value PID output value displayed in with Maximum frequency F03 being 100 Figure 3 14 shows the LCD screen transition starting from the OPR M
47. ion with option installed Option error code Shows the latest error tha communication in a code has been detected during optional ROM version of the inverter Shows the ROM version of the inverter in 4 digits ROM version of the keypad Shows the ROM version of the keypad in 4 digits ROM version of the option Shows the ROM version of the option in 4 digits Note 1 To reset the input watt hour and input watt hour data to 0 set function code E51 to 0 000 Note 2 For details of errors refer to the RS485 Communication User s Manual MEH448a 3 23 Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 5 MAINTENANC by using e and QO keys moving E 3 Press the key to display the screen for Maintenance 1 page out of a total of 7 pages 4 Select the page for the desired item by using e and Q keys and confirm the Maintenance data for the desired item 5 Press the key to go back to the menu Figure 3 16 shows the LCD screen transition starting from the 5 MAINTENANC menu QUICK SET DATA SET DATA CHECK S OPR MNTR AVOMENU SHIFYV DATA CHECK OPR MNTR 140 CHECK 85 MAINTENANC SHIF TCAP TTh 61000h TFAN 81h 61000h 999900kWh 2265 MA IN
48. ions and settings which can result in accidents LL This icon indicates a reference to more detailed information Table of Contents Preface W Safety precautions How this manual is organized Chapter 1 BEFORE USING THE MULTI FUNCTION KEYPAD TP G1 1 1 Acceptance Inspection 1 2 Inverters with which the Multi function Keypad Interfaces 1 1 Chapter 2 INSTALLATION AND INTERCONNECTION 2 1 2 1 Accessories and Parts Required for Interconnection 2 1 2 2 Installing the TP G1 Multi function Keypad 2 2 2 2 1 Three ways of installation use 12 2 2 2 2 Installing the TP G1 multi function keypad 2 3 Chapter 3 OPERATION USING THE MULTI FUNCTION KEYPAD 3 1 Keys LED and LCD Monitors on the Keypad 3 2 Overview of Operation Modes 3 3 Running Mode 3 1 3 1 3 4 3 5 3 3 1 Running stopping the motor 1 3 5 3 3 2 Setting up the frequency and PID process COMIMANAS 3 8 3 3 3 LED monitor Monitoring the running status 3 4 Programming Mode 3 4 1 Setting function codes 1 Data 3 14 3 4 2 Setting up function codes quickly using Quick setup 0 QUICK SET esses 3 17 Checking changed function codes 2 DATA 3 17 Monitoring the running status 3 OPR MNTR o oo 3 18 Checking I O signal status
49. is assigned to one of the 16 binary bits bit O through bit 15 The bit to which no I O terminal is assigned is considered to have a value of 0 The I O signals are thus collectively expressed as a hexadecimal number 0 through F In the FRENIC Eco Series digital input terminals FWD and REV are assigned to bits 0 and 1 and X1 through X5 to bits 2 through 6 respectively Each bit assumes a value of 1 when the corresponding signal is ON and a value of 0 when it is OFF Note For example when signals FWD and X1 are ON while all the other signals are OFF the status is expressed as 0005H Note The ON OFF state of each signal at terminals FWD REV and X1 through X5 is to be interpreted according to the states of the source sink switch as shown in Table 2 9 in Chapter 2 of the FRENIC Eco Instruction Manual INR SI47 0882 E Digital output terminals Y 1 through are assigned to bits 0 through 2 Each is given a value of 1 when it is short circuited to CMY or a value of 0 when its circuit to CMY is open The status of relay output terminal Y5A C is assigned to bit 4 which assumes a value of 1 when the contact between Y5A and Y5C is closed The status of relay output terminal 30A B C is assigned to bit 8 which assumes a value of 1 when the contact between 30A and 30C is closed or 0 when the contact between 30B and 30C is closed For example when terminal Y1 is ON terminals Y2
50. l meet the US ANSI TIA EIA 568A A Remote Operation Extension Cable Category 5 standard is available as an option CB 5S 10BASE T 100BASE TX straight 35 or CB 1S depending on the distance Maximum 20m communication distance Connector RJ 45 connector See Table 4 3 Table 4 3 RJ 45 Connector Pin Assignment Description Remarks DC power source for Multi function Keypad 5 V Signal ground F4 y JUUUUUU Unassigned reserved RS485 communication data mS RS485 communication data Female port Male port Back of Multi function Keypad Note SW3 for the terminating resistor on the control circuit board in the inverter must be set to OFF open 4 3 Transmission Specifications Table 4 4 summarizes the transmission specifications Table 4 4 Transmission Specifications Specifications Remarks Area code No need to specify There is no need to specify function E codes y01 through y10 for RS485 Communication protocol Modbus RTU communication which will be ignored anyway Synchronization system Start stop Communication system Half duplex Communication speed 19200 bps Baud rate Parity Even parity Stop bit length 1 bit Error checking CRC 16 4 2 Multi function Keypad 1 Instruction Manual First Edition September 2004 Fuji Electric FA Componen
51. log input output signals coming in out of the inverter This menu is used to check the running status during maintenance or test run Table 3 10 lists check items available Table 3 10 I O Check Items Description Input signals at terminal FWD REV X1 X5 Shows the ON OFF state of the input signals at the terminal block of control circuit block of the control circuit Highlighted when short circuited normal when open Input signals coming via FWD REV X1 X5 Input information for function code S06 communication Communication link XF XR RST Highlighted when 1 normal when 0 Output signals Y1 Y3 Y5 30ABC Output signal information I O signals DI Input signal at terminal block of control circuit in hexadecimal hexadecimal DO Output signal in hexadecimal Input signal via communication link hexadecimal Analog input signals Input voltage at terminal 12 Input current at terminal C1 Input voltage at terminal V2 Analog output signals Output voltage at terminal FMA Output current at terminal Average output voltage at terminal FMP Pulse rate at terminal FMP Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 4 CHECK by using and C keys moving EY 3 Press th
52. motor is opposite to the one shown here W Display of running status on LCD monitor 1 When function code E45 LCD Monitor optional is set to 0 the LCD Monitor displays the running status the rotational direction and the operation guide The indicators above the LCD Monitor indicate the unit of the number displayed on the LED Monitor the indicators underneath the LCD Monitor indicate the running status and the source of Run command Hz V r min m min kW X10 min sec PID Running Ya wes Y YOY YOYOY Rotational Status SES e O Direction Operation Guide A A A FWD REV STOP REM LOC Figure 3 3 Display of Running Status The running status and the rotational direction are displayed as shown in Table 3 2 Table 3 2 Running Status and Rotational Direction RUN The Run command is present or the inverter is driving the motor STOP The Run command is not present or the inverter is in stopped state Running status FWD Forward Rotational direction REV Reverse Blank Stopped 3 5 2 When function code E45 LCD Monitor optional is set to 1 the LCD Monitor displays the output frequency output current and calculated torque in a bar chart The indicators above the LCD Monitor indicate the unit of the number displayed on the LED Monitor the indicators underneath the LCD Monitor indicate the running status and the source of Run command Hz A V 9 r min m min kW X1
53. ns Select desired operation by moving the cursor with e Q key Press key to finalize desired operation Data selection screen Select desired data by moving the cursor with 2 amp key To go back to List of data copy operations press key Press key to finalize desired data Confirmation screen If Write is actually performed the selected data will overwrite the data held in the inverter If OK press key To go back to Data selection screen press key Press key to start Write operation In progress screen A bar indicating progress appears in the bottom Upon completion Completion screen automatically appears Completion screen Indicates that Write operation has completed successfully To go back to List of data copy operations press key Menu Transition for WRITE 3 33 Error screens ERROR DATA1 IDATA2 gt INV mum ERROR DATA1 DATA22INV DATAS ERROR Ver DATA1 DATA22INV DATAS Figure 3 21 If you press I key during Write operation the operation under way will be aborted and this Error screen will appear Note Updating of the function code data in the inverter is incomplete with some of it remaining old Do not run the inverter in this state Before running the inverter redo the writing or perform initialization For safety considerations the following situations are treated as an error e No valid data is found in the keypad s memory No Read operation has
54. operations KPOINV WRITE Select desired operation by moving the cursor with e I Q KP INV VERIFY key KPDATA CHECK AV gt To return to Menu press key Figure 3 19 Menu Transition for DATA COPY Table 3 14 List of DATA COPY Operations Operation Description Read Read data Reads out function code data from the inverter and stores it into the internal memory of the keypad Write Write data Writes the data held in the selected memory area of the keypad into the inverter Verify Verify data Verifies the data held in the keypad s internal memory against the function code data in the inverter Check Check data Checks the model information format and function code data held in the three memory areas of the keypad 2 Read Operation KPSINV WRITE VERIFY KPDATA CHECK AV KP INV READ Glo 75F1S 2 2 3 7 5F1S 4 READ IDATATCINV DATA2 DATAS FD READING IDATAICINY DATA2 READING END DATA1 INV DATA2 DATAS Error screens ERROR DATA2 ERROR IDATAICINV DATA2 DATA3 DATA COPY List of data copy operations Select desired operation by moving the cursor with e I Q key Press key to finalize desired operation Data selection screen Select desired data by moving the cursor with Q key To go back to List of data copy operations press key Pre
55. output Data greater than 99 999 Constant feeding rate time constant feeding rate time setting Not applicable to FRENIC Eco Timer PID process value Operating Status Running forward rotation Running reverse rotation No output frequency Source of Operation Remote mode Local mode Communication enabled RS485 standard optional field bus option Jogging mode Not applicable to FRENIC Eco Keypad effective lights also in local mode Hz A V r min m min kW X10 min sec PID v v v v v v v Y v Indicators for the unit of number I the LED monitor Indicators for the running status lt the source of command A A A A FWD REV STOP REM LOC COMM JOG 3 3 3 2 Overview of Operation Modes FRENIC Eco features the following three operation modes W Running Mode W Programming Mode W Alarm Mode Alarm code Indicates the cause of the alarm condition that has triggered a protective function For details refer to the FRENIC Eco Instruction Manual INR S147 0882 E Chapter 8 Section 8 5 Protection Features This mode allows you to enter run stop commands in regular operation You can also monitor the running status in real time This mode allows you to set function code data and check a variety of information relating to the inverter status and maintenance If an alarm condition occurs the
56. peed command currently selected Disabled frequency setting F01 0 Link Disabled LE OFF Manual Speed Command from Keypad SS2 1 OFF CORE Frequency Setting Other than above 9 ro Command via Link Final Frequency Command Multi step Freq 9 Command PID output as Frequency Command 3 11 3 3 3 LED monitor Monitoring the running status The eleven items listed below can be monitored on the LED Monitor Immediately after the inverter is turned ON the monitor item specified by function code E43 is displayed In Running Mode press the key to switch between monitor items The item being monitored shifts as you press the key in the sequence shown in Table 3 6 Page to be selected Monitored Item Speed Monitor Table 3 6 Example Items Monitored Meaning of Displayed Value Function code E48 specifies what to be displayed Output frequency 171717 SLT Hz Frequency actually being output Hz Motor speed un ii 120 Output frequency x y P01 Load shaft speed IWW IIIS Output frequency Hz x E50 Speed Output frequency Maximum frequency x100 Function code E43 Output current Output of the inverter in current in rms Input Power Input power to the inverter Calculated torque Motor output torque in 96 Calculated value Output voltage Output of the inver
57. peration Screws for fixing Remote Operation Extension Cable or LAN cable Multi function Keypad Extension Cable or LAN cable Figure 2 2 Installing Multi function Keypad on Enclosure Figure 2 3 Using Multi function Keypad remotely in Your Hand 2 2 2 2 2 Installing the TP G1 multi function keypad After completion of interconnection follow the next steps to install the multi function keypad in place Be sure to turn off the power of the inverter beforehand W Installing the TP G1 directly on the inverter D Remove the standard keypad mounted on the inverter Pull the standard keypad toward you while holding down the hook as directed by the arrows in Figure 2 4 below Figure 2 4 Removing the Standard Keypad Mount the TP G1 Multi function Keypad onto the inverter Put your TP G1 Multi function Keypad in the original slot while engaging its bottom latches with the holes as shown below and push it onto the case of the inverter arrow while holding it downward against the terminal block cover arrow 1 Latches Figure 2 5 Mounting the Multi function Keypad 2 3 lt Protection from abnormal vibration for inverters with capacity of 30 kW or less gt In an environment with large ambient vibrations the inverter may be exposed to them causing abnormal vibrations on the Multi function Keypad If this happens remove the terminal block cover and the front cover and
58. ping alarm O Er2 KEYPD COM ERR Most recent cause No of consecutive occurrences Cause of alarm Operation guide Operation guide PRGSPRG MENU RESETSRESET v Figure 3 30 Without Non overlapping Alarm If there is an overlapping alarm 1 Er2 A KEYPD COM ERR PRGSPRG MENU RESETSRESET Most recent cause No of consecutive occurrences Cause of alarm A is added if there is an Operation guide overlapping alarm Operation guide v Figure 3 31 With Overlapping Alarm If there is an overlapping alarm you can view more detailed information by pressing the e key In the examples below 2 Er6 corresponds to the first overlapping occurrence and 3 Er6 to the second overlapping occurrence Display of alarm history In addition to the most recent current alarm you can view three recent alarms and any overlapping alarms by pressing the e I Q key while the most recent one is being displayed 2 0H2 1 A Overlapping alarm No of consecutive occurrences KEYPD COM ERR PRGSPRG MENU RESETSRESET 1 Er2 O A KEYPD COM ERR PRGSPRG MENU RESETSRESET 1 Er6 3 A KEYPD COM ERR PRGSPRG MENU RESETSRESET v Cause of alarm Operation guide Operation guide Most recent alarm No of consecutive occurrences Cause of alarm A is added if there is an Operation guide overlapping alarm Operation guide Previous alarm No of consecutive occurrences Cause of alarm Operation guide Operation guide Fi
59. re are two modes of measurement hours in which the measurement takes place for a specified length of time and start to stop in which the measurement takes place from the start of running to the stop Note If the start to stop mode is entered while the inverter is running the measurement takes place until it is stopped If the start to stop mode is entered while the inverter is stopped the measurement will take place from the next start of running until it is stopped Basic key operation 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed 2 Select 9 LOAD by using and keys moving 3 Press the key to get the measurement mode selection screen 4 Select the measurement mode by using e and Q keys moving E 5 Press the key to start the measurement For start to stop mode you will be prompted to enter a run command via a confirmation screen For details refer to the LCD screen transition chart 6 Press the key to return to the menu Figure 3 25 shows the LCD screen transition starting from the 9 LOAD FCTR menu 1 Selecting measurement mode QUICK SET DATA SET DATA CHECK 3 OPR MNTR SHIFYV Select desired menu by moving the pointer with e I Q key ALM INF ALM CAUSE DATA COPY 9 LOAD AVOMENU SHIFT To finali
60. reas others cannot Further depending on the function code modifications may or may not become effective immediately For details refer to the Change when running column in 5 1 Function Code Tables in Chapter 5 of the FRENIC Eco Instruction Manual INR SI47 0882 E For details of function codes refer to 5 1 Function Code Tables in Chapter 5 of the FRENIC Eco Instruction Manual INR SI47 0882 E Figure 3 10 illustrates LCD screen transition for Menu item 1 DATA SET Menu screen Function code list screen Screen for modifying DE QUICK SET JJJDATA PRTC function code data DATA SET DATA CHECK FREIFREQ 1 OPR MNTR I O CHECK METHOD MAINTENANC 2 KP FWD ALM INF Hz 0 3 ALM CAUSE A ADJUS INUFPJOPR METHOD DATA COPY LOAD FCTR USER SET A Hz COMM DEBUG amp 60 OHz FEE jLoApbER 50 02120 0 ADJU Figure 3 10 Screen Transition for Data Setting Menu 3 14 Basic key operation This section will give a description of the basic key operation following the example of the function code data changing procedure shown in Figure 3 11 This example shows you how to change function code F03 data maximum frequency from 58 0 Hz to 58 1 Hz 1 When the inverter is powered ON it automatically enters Running Mode In Running Mode press the key to enter Programming Mode The menu for function selection will be displayed
61. recent alarm Alarm code and count of occurrences 4 recent alarm Alarm code and count of occurrences Output frequency Output frequency Output current Output current Output voltage Output voltage Calculated torque Motor output torque Frequency command Frequency command Running direction FWD Forward REV Reverse Blank Stopped Running status IL current limitation LU undervoltage VL voltage limitation Cumulative run time Shows the cumulative power ON time of the inverter When the total time exceeds 65 535 hours the display will be reset to 0 and the count will start again Count of startups Shows the cumulative count of times the motor has been started the inverter run command has been issued When the total count exceeds 65 535 the display will be reset to 0 and the count will start again DC link circuit voltage Shows the DC link circuit voltage of the inverter s main circuit Temperature inside the inverter Shows the temperature inside the inverter Max temperature of heat sink Shows the maximum temperature of the heat sink Input signal status at terminal block of control circuit ON OFF status of input signals of the terminals FWD REV X1 to X5 Highlighted when short circuited normal when open Terminal input signal status under communication control ON OFF status of input signals for function code S0
62. s to run stop the motor on the standard keypad TP E1 while the rotation command input is required On the contrary the I key on the multi function keypad controls to run forward reverse the motor without inputting any rotation command or stop it The function code F02 specifies the run command source to drive the motor F02 data Run command source 0 Keypad Pressing the key runs stops the motor 1 Digital input The terminal command FWD or REV runs stops the motor 2 Keypad Forward The wo key runs the motor forward or stops it but does not run it reverse 3 Keypad Reverse The ev key runs the motor reverse or stops it but does not run it forward If you select Local by the Remote Local switching command operation of the run command from the keypad will be changed by setting of the function code F02 LL For details refer to NI Switching the operation mode between remote and local in 3 3 1 Running stopping the motor 3 6 2 Remote local operation The multi function keypad features the key to switch the operation between remote and local modes LL For details refer to NI Switching the operation mode between remote and local in 3 3 1 Running stopping the motor 3 45 3 6 3 Tuning motor parameters The LCD monitor of multi function keypad shows the lead through screen for tuning of motor parameters To tune motor parameters follow screens below Entering into tuning motor paramet
63. ss key to finalize desired data Confirmation screen If Read is actually performed the data read out from the inverter will overwrite the data held in this memory area in the keypad If OK press key To go back to Data selection screen press key Press key to start Read operation In progress screen A bar indicating progress appears in the bottom Upon completion Completion screen automatically appears Completion screen Indicates that Read operation has completed successfully To go back to List of data copy operations press key If you press I key during Read operation the operation under way will be aborted and this Error screen will appear Note Once aborted all the data held in the keypad s memory would be deleted If a communication error is detected between the keypad and the inverter this Error screen will appear Figure 3 20 Menu Transition for READ lt Note f an ERROR screen or an ERROR Ver Screen appears during operation press the key to reset the error condition When Reset is complete the screen will go back to List of data copy operations 3 32 3 Write operation KP INV READ KPOINV WRITE KPSINV VERIFY KPDATA CHECK WRITE 75rF1s 2 WRITE DATA1 DATA221INV DATAS F D WRITING DATA DATA2 gt 1INV DATAS WRITING END DATA1 IDATA2Z gt INV DATA3 RES Figure 3 21 List of data copy operatio
64. tall prevention function has been selected the inverter may operate at an acceleration deceleration time or frequency different from the set ones Design the machine so that safety is ensured even in such cases Otherwise an accident could occur The STOP key is effective only when function setting Function code F02 has been established to enable the STOP key Prepare an emergency stop switch separately If you disable the STOP key priority function and enable operation by external commands you cannot emergency stop the inverter using the STOP key on the keypad If an alarm reset is made with the operation signal turned on a sudden start will occur Ensure that the operation signal is turned off in advance Otherwise an accident could occur If you enable the restart mode after instantaneous power failure Function code F14 3 4 or 5 then the inverter automatically restarts running the motor when the power is recovered Design the machinery or equipment so that human safety is ensured after restarting If you set the function codes wrongly or without completely understanding this instruction manual and the FRENIC Eco User s Manual MEH456 the motor may rotate with a torque or at a speed not permitted for the machine An accident or injuries could occur Do not touch the inverter terminals while the power is applied to the inverter even if the inverter stops Doing so could cause electric shock Wiring ANWARNING
65. ter in voltage in rms Motor output Motor output in kW Load rate of the motor in with the rated output being at 100 PID process command feedback value transformed to that of physical value of the object to be controlled Load factor PID process command Note 1 PID feedback value Note 1 meo MALIA Refer to the function codes E40 and E41 for details PID output in with the maximum output frequency F03 being at 100 mn MILI PID output Note 1 Analog input to the inverter converted per E40 and E41 Refer to the function codes E40 and E41 for details Analog input monitor Note 2 gt E I 42 m min AM 2X10 mine xp Ip Page for selecting Monitored item See Table 3 6 to be monitored N Operation guide ocr O 4m 200 ICOC miloAe Z Und Q mx Imm Vv UO IM OA 1 L4 FT a A FWD REV STOP REM LOC COMM JOG Figure 3 8 Selecting Items to be Monitored on LED Monitor Note 1 Displayed only if the inverter PID controls the motor according to a PID process command specified by the function code J01 1 or 2 While the 7 segment LED monitor is displaying PID process command PID feedback value or PID output value the dot decimal point at the lowest digit on it is lit or blinking respectively Note 2 Analog input monitoring becomes active only when enabl
66. thout covers or safety shields for explanation of detail parts Restore the covers and shields in the original state and observe the description in the manual before starting operation How this manual is organized This manual is made up of chapters 1 through 4 Chapter 1 BEFORE USING THE MULTI FUNCTION KEYPAD TP G1 This chapter describes the points to check upon delivery and lists the inverters the Multi function Keypad is designed to interface with Chapter 2 INSTALLATION AND INTERCONNECTION This chapter describes how to install the Multi function Keypad and how to interconnect it with an inverter Chapter 3 OPERATION USING THE MULTI FUNCTION KEYPAD TP G1 This chapter describes the operation of the inverter using the Multi function Keypad More specifically this chapter gives an overview of the inverter s three operation modes Running Programming and Alarm modes and describes how to run and stop the inverter motor set function code data monitor running status view maintenance information and alarm data and perform data copying Chapter 4 SPECIFICATIONS This chapter lists the general specifications such as operating environments communication specifications and transmission specifications Icons The following icons are used throughout this manual N This icon indicates information which if not heeded can result in the product not operating to full efficiency as well as information concerning incorrect operat
67. tion for VERIFY continued Note f an ERROR screen an ERROR Ver Screen appears during operation press the key to reset the error factor When Reset is complete the screen will go back to List of data copy operations 5 Check operation KP INV READ WRITE KPINV VERIFY KPDATA CHECK DATA COP AV KPDATA CHECK Glo 75r1s 2 2 3 7 5F1S 4 CHECK DATA1 List of data copy operations Select desired operation by moving the cursor with e I Q key Press key to finalize desired operation Data selection screen Select data to be checked by moving the cursor with key To go back to List of data copy operations press key Press key to finalize desired data Check data screen Displays function codes and their data To check other function codes press A Q key To go back to List of data copy operations press key Figure 3 23 Menu Transition for DATA CHECK Error screen If no valid data is found in the keypad this Error screen will appear Note Figure 3 24 Error Screen for DATA COPY Note If an ERROR screen appears during operation press the key to reset the error factor When Reset is complete the screen will go back to List of data copy operations 3 37 3 4 10 Measuring load factor 9 LOAD FCTR Menu 9 LOAD FCTR in Programming Mode allows you to measure the maximum output current the average output current and the average braking power The
68. ts amp Systems Co Ltd The purpose of this manual is to provide accurate information in the handling setting up and operating of Multi function Keypad TP G1 for the FRENIC Eco series of inverters Please feel free to send your comments regarding any errors or omissions you may have found or any suggestions you may have for generally improving the manual In no event will Fuji Electric FA Components amp Systems Co Ltd be liable for any direct or indirect damages resulting from the application of the information in this manual Otau m Fuji Electric FA Components amp Systems Co Ltd 2004 9 104 104 3CM
69. ver If however there is a discrepancy between the settings on the keypad and those on the inverter itself e g switching from reverse rotation in the Remote mode to forward rotation in the Local mode using the keypad that is for forward rotation only the inverter automatically stops The paths of transition between Remote and Local modes depend on the current mode and the value ON OFF of LOC the signal giving precedence to the commands from the keypad as shown in the state transition diagram Figure 3 5 given below For further details on how to set operation commands and frequencies in Remote and Local modes refer to the FRENIC Eco User s Manual MEH456 Chapter 4 BLOCK DIAGRAMS FOR CONTROL LOGIC especially Section 4 3 Drive Command Generator block diagram ON Local Mode LOC OFF Remote Mode LOC ON LOC OFF an Local Mode LOC ON LOC OFF Figure 3 5 Transition between Remote and Local Modes 3 7 3 3 2 Setting up the frequency and PID process commands You can set up the desired frequency command and PID process command by using e and Q keys on the keypad You can also view and set up the frequency command as load shaft speed by setting function code E48 W Setting the frequency command Using a and Q keys factory default 1 Set function code F01 to 0 Keypad operation This cannot be done when the keypad is in Programming mode or Alarm mode To ena
70. ze desired menu press key MODE SELECT Mode selection screen HOURS SET HOURS SET Measurement takes place for specified duration START32 STOP Measurement takes place from start to stop EXECUTING EXECUTING Measurement is taking place according to the AV specified duration set in HOURS SET To return to Menu press key Figure 3 25 Menu Transition for Selecting Measurement Mode 2 Selectin hours set mode MODE SELECT HOURS SET ISTARTSTOP EXECUTING ey AV MODE SELECT HOURS SET STARTSSTOP EXECUTING T 01h00m00s Imax 0 OOA lave BPave O O96 V T 02h00m00s Imax lave O O96 Nor Wu AV T 01h59m59s Imax lave 0 OOA BPave O O96 AV T 01h00m00s Imax 289 4A lave 182 2A BPave 24 0 AV Mode selection screen Select desired mode of measurement by moving the cursor with O Q key Select desired mode of measurement with Q key Press key to finalize desired mode of measurement Set time duration Default 1 hour To go back to Mode selection press key Set the duration by using and 65 keys Press key to finalize the duration and start measurement Measurement in progress remaining time While the measurement is in progress the remaining time is displayed When key is pressed or the measurement duration has elapsed
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