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BP4610

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1. ccccccccceeeeeeeeeeeeseeeeeeeeeeeeeeaeas 4 31 Loop Specification Method and Step Transition Example cococccccococococononononnnnananano 4 32 Step Sync Output Example oia 4 33 Sequence Operation upon Phase 0 Wait Occurrence ceceeeeeee eee ee seen eee eeeeeees 4 33 Seguente SNONCUE Keys ii ide 4 37 Sequence Transition Example in CV INT Mode ccccceeeeeeeeeeeeeeeeeeeseeeeeeeeaeensenees 4 43 LCD Screen When Sequence IS RUNNING cococcccccccccoconcnconoaconnnconararnnnanararnnnrnararararmnnanos 4 50 Memory Contents Display Example oococcccccococcccocococononnocorononcarararnnnarararannarararararannanos 4 52 Output Voltage Waveform for CV Mode Capacitive Load C 10 u F sses 4 77 Vill Figure 4 24 Figure 4 25 Figure 4 26 Figure 4 27 Figure 4 28 Figure 4 29 Figure 4 30 Figure 4 31 Figure 6 1 Figure 6 2 Figure 6 3 Figure 7 1 Figure 7 2 Figure 8 1 Figure 8 2 Figure 8 3 Figure 8 4 Figure 8 5 Figure 8 6 Figure 8 7 Figure 8 8 Figure 8 9 Figure 8 10 BP4610 Figures Output Voltage Waveform for CV Mode Capacitive Load C 50 u F eseeeeeeeees 4 77 Output Voltage Waveform for CV Mode Capacitive Load C 100 y F 00 4 77 Output Current Waveform for CC Mode Inductive Load L 150 WH seeee 4 79 Output Current Waveform for CC Mode Inductive Load L 390 WH ceseeee 4 79 Output Current Waveform f
2. oC a e a a zl JE g m a 5 XVN VSLF OV XW VOLE 30 XW AGLLF 97 H LAALNO pajesado Bulag si 191114 11e ul mg e TS TV ISNOdSJH USYM O GZ TES O col SEP a 9 a 22228 Q l aa E gt ON 3035 AOL AE ash eas H ne O S irae lt l Er 2 MI PE ES E ean 2 3u ANO HOLINOW YaMod PEN A pe ee ESE Re ore ay NR Ol OF dg Adans 430d 90 aod a ODO FOGO 149071 anon dols Javas Naw 3N 3NDIS OL f A YILNI 139NY9 1dLNO o OL Of dg Meahs s3m04 30 YY70418 8 19 Drawing of External D Figure 8 10 Drawing of External Dimensions 8 16 BP4610 9 INITIAL SETTING LIST 9 1 Initial Setting List nt na o id rta da 9 1 BP4610 9 1 Initial Setting List ETA 9 1 Initial Setting List al indicates the fact that the initial setting is applied indicates that the setting until now is maintained Table 9 1 Setting Memory 1 2 Setting Item Initial Value At Shipping After Reset Operation mode CV INT Backup value
3. 4 3 1 Setting of operation mode IF 4 3 2 Output on off 4 3 3 Setting of DC voltage and DC current 4 3 3 Setting of DC voltage and DC current Setting of superimposed AC voltage ES 4 3 4 Setting of superimposed AC voltage and superimposed AC current Setting of superimposed AC voltage CF 4 3 4 Setting of superimposed AC voltage 7 2 3 E Cod i and superimposed AC current Setting of superimposed AC voltage frequency and superposed AC current ES 4 3 5 Setting of frequency frequency Selection of superimposed AC waveform ES 4 3 6 Setting of waveform of Setting of voltage limiter Setting of voltage limiter 7 CF 4 4 Setting of limiters Setting of current limiter Setting of current limiter HISE Setting of other function use and details G Table 4 4 MISC Menu Item List Table 4 4 MISC Menu Item List SEQUENCE IF 4 5 Sequence Operation MEMORY Open memory menu ES 4 7 Memory Functions REMOTE IF 4 8 Remote Control SYSTEM F 4 9 System Menu BP4610 4 5 4 2 Basic Operation Table 4 5 SEQUENCE Menu Item List Item Name Setting Item Reference CONTROL Sequence operation l CF 4 5 3 Sequence operation control control STEP Step number TIME Step interval DC VOLT DC voltage DC CUR DC current DC voltage DC current operation type AC VOLT Superimposed AC voltage AC CUR Superimpos
4. to switch the beep off CONTRAST ON COLOR ELLIE FEREG UNIT Hz CANCEL ENTER IIA KI INIT GUT OFF INIT FSP OFF ExT CONTROL DISABLE RESET pa INFORMATION ENTER CANCEL lt 4 gt Press the key to apply the setting or press the key to cancel the setting BP4610 4 64 4 9 System Menu Y S 4 9 3 LCD contrast adjustment The contrast of the LCD screen can be set in 100 steps according to the operating environment The adjustment entry box can also be displayed by simultaneously pressing the ENTER key and the CANCEL key Therefore even when the contrast is inadequate and the characters on the LCD screen cannot be made out it is still possible to adjust the contrast In this case the digit cursor forcibly goes to the decimal position E Operation procedure lt l gt Press the A and y keys to move the cursor to CONTRAST EL UE a oe FREQ UNIT Hz CANCEL ENTER IDA Ka INIT OUT OFF INIT RSP OFF EXT CONTROL DISABLE RESET CD E INFORMATION d gt Pr v INIT OUT OFF INIT FSF OFF EXT CONTROL DISABLE RESET INFORMATION gt lt 3 gt Press the a and LY keys to move the cursor to the digit to be modified and turn the MODIFY dial to set the value Es COLOR EL LIE FEREG UNIT Hz TIME UNIT INIT GUT OFF INIT FSF OFF EXT CONTROL OISAELE RESET INFORMATION ENTER CANCEL lt 4 gt After setting all the digits press the key The LCD contras
5. Insert the supplied power cord to the inlet on the rear panel The BP4610 operates on a power supply of 90 V AC to 250 V AC Insert the plug of the power cord to a power supply outlet with a protective grounding terminal The chassis of the BP4610 is grounded by connecting the supplied power cord to a power supply outlet with a grounding terminal The power supply cord set for use in Japan provided with this product is designed for use with this product only Do not use it for other products or applications JN OUTPUT Inlet Figure 2 3 Power Supply Input Terminals When using a 3 terminal 2 terminal conversion plug be sure to connect the ground line green of the conversion adapter to the grounding terminal at the side of the power outlet AX WARNING Be sure to ground the chassis of the BP4610 for safety purposes If the BP4610 is used without being grounded serious accidents such as electric shock may occur BP4610 2 5 2 4 Connection to I O terminals EEG YZ 2 4 2 Connection to output pins The outputs are insulated between the power supply inputs The Lo output terminal is connected to the chassis For the connection to the output terminals use a cable of 2 mm or more and a round crimp terminal with a sleeve For the wiring to the load use a wire that is as thick as possible twisting the wire together so that it does not form a loop and not making it any longer than
6. ROM sum check RAM read and write check Backup memory sum check Waveform memory sum check Sequence memory sum check Version number check Calibration value memory sum check Product failure may have occurred Contact NF Corporation or an NF Corporation sales representative The operation stops at this point and the error remains displayed until the power is switched off The BP4610 starts after memory initialization is completed EF Refer to 9 INITIAL SETTING LIST These errors may occur when the BP4610 has been stored for a long time without being powered on However if such errors occur with high frequency the characteristics of the backup battery may have become degraded F Refer to 7 6 Backup Battery The BP4610 starts after calibration value memory initialization has been completed In this case the BP4610 starts up without calibration values and therefore the prescribed performance cannot be obtained Since there may be defective parts contact NF Corporation or an NF Corporation sales representative E Examples of screen displays in case of fault detection during self diagnosis ROM CHECK cc s csveayisas ert sleerereaneeaunanes OK RAM READ WRITE CHECK 0 OK BACKUP MEMORY CHECK OK WAVE MEMORY CHECK OK SEQUENCE MEMORY CHECK OK CALIBRATION MEMORY CHECK VERSION CHECK BP4610 6 1 NG INITIALIZED
7. 4 2 2 Menu tree navigation method The menu window display items are navigated using the UP key and DOWN key To move to the lower menu in the menu tree press the ENTER key and to move to the higher menu in the menu tree press the CANCEL key The navigation method is detailed below lt 1 gt Select a menu item with the gt mark displayed to the right by moving the menu cursor displayed in the menu window with the UP key and the DOWN key lt 2 gt Pressing the ENTER key in this condition causes the lower menu to be displayed lt 3 gt Further pressing the CANCEL key in this condition causes the higher menu to be displayed again lt 4 gt Further pressing the CANCEL key ultimately causes the top menu to be returned to BP4610 4 7 4 2 Basic Operation 4 2 3 Numerical input operation If numerical input is required a Modify box is displayed When this Modify box is opened the digit cursor is displayed on one of the digits Using the DIGIT key move the digit cursor and raise or lower the value with the MODIFY key The actual setting value is updated each time the value is changed with the MODIFY key The Modify box is closed by pressing either the ENTER key or the CANCEL key JFF Sal _ OME A E Upp Si El Hz Figure 4 4 Modify Box 4 2 4 Numerical input operation requiring confirmation during USB ID setting The USB ID setting is performed in the Modify box but the ac
8. A Oe y wn 8 m WE CANCEL ENTER pa a foe Ea El IES p CANCEL ENTER eJ pE lt E RECECE al le E a 9 E lt 3 gt Press the a and y keys to move the cursor to ON if output is current off and to OFF if output is currently on CANCEL ENTER gt E ie a En BP4610 4 13 4 3 Basic Functions CD Y ENTER lt 4 gt Press the key to switch the output on off When the output is switched on the on off LED lights and when the output is switched off the LED goes out o e Output off Output on E Operation procedure using OUTPUT key The BP4610 allows output on off control by simply pressing the key When the output is switched on the on off LED lights and when the output is switched off the LED goes out O W OUTPUT OUTPUT Output off Output on CAUTION When switching the power off be sure to check that OUTPUT is off BP4610 4 14 4 3 Basic Functions OG YZ 4 3 3 Setting of DC voltage and DC current To use the BP4610 as a DC voltage source CV INT or CV ADD mode set the DC voltage via the operation panel e Setting range 115 V to 115 V e Resolution 0 01 V To use the BP4610 as a DC current source CC INT or CC ADD mode set the DC current via the operation panel e Setting range 10 Ato 10 A e Resolution 0 001 A E Operation procedure lt 1 gt Press the La and Ly k
9. BIPOLAR DC POWER SUPPLY BP4610 Instruction Manual NF Corporation DA00010493 001 BIPOLAR DC POWER SUPPLY BP4610 Instruction Manual Preface Thank you for purchasing the BP4610 bipolar DC power supply To ensure safe and proper use of this electric equipment please read first INSTRUCTIONS FOR SAFE USE on the following pages E Caution Symbols Used in This Manual The following caution symbols are used in this manual Be sure to observe these caution symbols and their contents to ensure the safety of the user and avoid damage to the equipment A WARNING This mark indicates information for the avoidance of a hazard such as electric shock that may endanger human life or cause injury during handling of the equipment CAUTION This mark indicates information for the avoidance of damage to the equipment during handling O This manual has the following chapter organization If reading this manual for the first time start from 1 OUTLINE 1 OUTLINE Describes various items that must be checked prior to using the BP4610 PREPARATIONS BEFORE USE Describes various cautions regarding preparations to be made before using the BP4610 ranging from installation to connection of the power supply NOMENCLATURE Describes the names of the various parts of the BP4610 OPERATION Describes how to use the BP4610 from its basic operation to the use of advanced functions INTERFACE
10. Describes the commands for controlling the BP4610 via the USB interface TROUBLESHOOTING Describes error messages and handlings when problems occur MAINTENANCE Describes basic operation tests and daily maintenance procedures SPECIFICATIONS Lists the specifications functions and performance of the BP4610 INITIAL SETTING LIST Lists the initial settings BP4610 1 Safety Precautions To ensure safe use be sure to observe the following warnings and cautions NF Corporation shall not be held liable for damages that arise from a failure to observe these warnings and cautions This product is a Class 1 product with protective conductor terminal that conforms to the JIS and IEC insulation standards O Be sure to observe the contents of this instruction manual This instruction manual contains information for the safe operation and use of this product Be sure to read this information first before using this product All the warnings in the instruction manual must be heeded to prevent hazards that may cause major accidents O Be sure to ground the product This product uses a line filter and must be grounded to avoid the risk of electric shock To prevent electric shock be sure to safely implement grounding according to Japanese Standard for Electrical Equipment Technology D Type 3 or higher O Check the power supply voltage This product operates on the power supply voltage indicated in Grounding
11. E EN e wn El E TEE CANCEL ENTER Mi a o en Ea Ea E Ea EZ BP4610 4 74 4 10 Response Calibration AD S ENTER lt 9 gt Press the key to switch on the response calibrator The Adjusted characteristics can be selected through the above operation lt 10 gt Select SQU square wave as the waveform to be output For the waveform setting procedure Le refer to 4 3 6 Setting of waveform lt 11 gt Switch on the output For the output on switching procedure ES refer to 4 3 2 Output on off lt 12 gt Adjust the three adjustment knobs towards the rear of the operation panel while observing the waveform with an external oscilloscope lt 13 gt Once the adjustments have been completed set the operation panel back to its original position Ie Refer to 3 2 Access to Volume Section CAUTION The response characteristics can be improved using the adjustment knobs but an unstable status oscillation status may also result depending on how the adjustment is performed according to the load conditions including no load Therefore when using adjustment characteristics observe the waveform with an external oscilloscope and make sure that each adjustment knob has fully turned stabilized with the lowest speed before adjustment BP4610 a 4 10 Response Calibration PND S 4 10 4 Adjustment example Generally the capacitive load in the CV mode and the inductive
12. E STPN STPN Description Specifies the step number Parameter l to 255 Setting example Specifying the step number to be set as 7 STPN 7 E STRP STRP Description Sets the step transition parameter Parameter Ist parameter 0 fixed 2nd parameter Sets the step time The step time is set in units of 1 s 3rd parameter Sets step end phase 0 deg enable disable 0 Disable 1 Enable 4th parameter Sets the step end phase 0 deg fixed 5th parameter Sets the step termination 0 Continue sequence 1 Enter Idle status 2 Enter Hold status 6th parameter Sets the jump step number 0 Jump to the next step number l to 255 Jump to the specified step number 7th parameter Sets the jump count 0 Infinite number of jumps 1 to 999 Specified number of jumps 8th parameter Sets branch 0 0 Disable branching 1 to 255 Jump to the specified step number 9th parameter Specifies branch 1 0 Disable branching 1 to 255 Jump to the specified step number Setting example Setting of step time to 2 s step end phase to disable continuation of sequence and jump to next step at step end jump count to 1 branch to disable STRP 0 2 0 0 0 0 1 0 O BP4610 5 13 5 3 Explanation of Each Program Message r EEE E Example of sequence programming using program messages An example of programming that sets the sequence transitions shown in Figure 4 20 using USB program messages is described below STPN I SEXP 2 5 2 0 0 0
13. EXT CONTROL Setting of external control input enable disable RESET INFORMATION Display of system information BP4610 4 61 4 9 System Menu E SYSTEM screen display procedure lt 1 gt Press the La and y keys to move the cursor to the M54 icon CANCEL ENTER i i DLT ESP tE u Ea Ea m 4 CM TNT OFF OFF BEEE lE g git ql O i 1 EMA A L L 3 5 Ca E Y gt gt 4 Ei Ga x T ENTER lt 2 gt Press the key to display the MISC screen Press the a and Ly keys to move the cursor to SYSTEM CANCEL a ENTER k AR Ilse SEQUENCE MEMORY REMOTE SYSTEM ENTER lt 3 gt Press the key to display the SYSTEM screen CANCEL 2 ENTER lt 4 gt Press the a and Ly keys to select the operation to be performed BP4610 a KEYLOCK OFF EEEF MA CONTRAST COLOR FREQ UNIT Az TIME UNIT INIT OUT OFF INIT ESF OFF ExT CONTROL DISABLE RESET INFORMATION 4 62 Aa Mw 4 9 System Menu A 4 9 1 Keylock The BP4610 has functions to prevent misoperations during operation Key operations are disabled at times other than keylock off operation by setting keylock on However output off operation through the OUTPUT key is enabled as a workaround during emergencies E Operation procedure lt l gt Press the A and LY keys to move the cursor to KEYLOCK KEYLOCK OFF BEEF ON CONTRAST COLOR a FREQ WNIT Hs CANCEL ENTER T I ME T N I T Fa IN
14. is displayed in the numerical value field BP4610 4 82 O INTERFACE BP4610 5 1 Preparations Before Usage rr 5 1 5 2 Program Message MOR 5 2 5 3 Explanation of Each Program Message tttttttrrerecetemmmss 9 8 5 3 1 Basic settings AA 5 8 5 3 2 Limiter tie eee 5 10 53 3 Sequence Related corr crrcrrtr ttre ct terete neers e ene ee eeas 5 11 53 4 Measurement related rr cc rrtrtrt tcc ees 5 15 5 3 5 Arbitrary waveform MEMO earra a e 5 15 5 3 6 Store recall MEMO e eaaa 5 16 5 3 7 Status reporting eee eee eee eee eee eee eee eee eee eee eee eee 5 17 5 3 8 Overlap COMMANS cert rr 5 19 5 3 9 Other cert 5 20 5 4 Status Configuration ro 5 22 5 4 1 Status byte rro 5 22 542 Standard event StatUS S crt 5 23 54 3 Message GUEUC nana ripio 5 23 544 Operation StQtUSES rrr eeneeeee nee 5 24 545 Warning StQtUSES coorrt rrr nnn nee ee eens 5 25 546 Overload statuses nnn anes 5 26 55 Response to Interface Messages o 5 27 56 Programming CO 5 27 5 1 Preparations Before Usage A S 5 1 Preparations Before Usage The BP4610 can be controlled via USB488 Almost all the panel operations can be performed this way and setting values errors and other internal status information can also be read Install the USB488 driver to the computer to be used for control and connect it via a commercially available USB cable The USB488 driver can be downloaded from the NF website http www nfcorp co jp e USB ID setting Le Refer to 4 8 Remote C
15. or OFF to set on or off respectively A FREQ UNIT Hz CANCEL Fa ENTER TIME UNIT i EXT CONTROL DISABLE RESET CD 5 E INFORMATION ENTER CANCEL lt 4 gt Press the key to apply the setting or press the key to cancel the setting BP4610 4 68 4 9 System Menu Y i S 4 9 7 Setting of external control input enable disable Set external control input enable disable If external control input is disabled the status of the BP4610 is output For details on external control input ES refer to 2 4 4 Connection to external control input output connector E Operation procedure lt l gt Press the a and LY keys to move the cursor to EXT CONTROL fs A on FREQ UNIT Hz CANCEL ENTER MCDS Ea INIT GUT OFF 4 INIT REF OFF EXT CONTROL DISABLE RESET INFORMATION CONTRAST 55 COLOR LU FREG UNIT os eve TIME UNIT INIT OUT a vi INIT REF 0 CD Fe INFOR Tc HEL lt 3 gt Press the La and LY keys to move the cursor to ENABLE or to DISABLE to respectively enable or disable external control input COLOR A FREQ UNIT Hz CANCEL Fa ENTER TIME UNIT INIT OUT OFF INIT RSP OFF CQC Hs e La INFORMATION j ENTER CANCEL lt 4 gt Press the key to apply the setting or press the key to cancel the setting BP4610 4 69 4 9 System Menu A 4 9 8 Reset function The reset function returns the basic settings to t
16. 7 V 8 15 AC Output Range When Positive Voltage Limiter Setting Is Fixed to 7 V 8 15 Drawing of External DiMensSi0NS oocococcccccococcncococononcanararnnnanararornnrarararararnararararnananannns 8 16 1X Tables Table 2 1 Table 2 2 Table 4 1 Table 4 2 Table 4 3 Table 4 4 Table 4 5 Table 4 6 Table 4 7 Table 4 8 Table 4 9 Table 4 10 Table 4 11 Table 4 12 Table 4 13 Table 4 14 Table 4 15 Table 4 16 Table 4 17 Table 4 18 Table 4 19 Table 4 20 Table 4 21 Table 4 22 Table 4 23 Table 4 24 Table 4 25 Table 5 1 Table 5 2 Table 5 3 Table 5 4 Table 5 5 Table 5 6 Table 5 7 Table 5 8 Table 5 9 Table 5 10 BP4610 Page COntiGuratiom Eis basada 2 1 External Control I O Connector PILLS 2 9 Status ICONS adi rd ds 4 2 Sequence Display iii AAA A 4 3 SET Men Item sta tas 4 5 MISC Menu Hem EiS tcri er a a aa aa E EEN 4 5 SEQUENCE Menu temita a 4 6 MEMORY Menu Hom lisina a e a a a utara a aa aa 4 6 REMOTE Menu tem stud id 4 7 SY TEM Menu Item bit iia 4 7 Shortcut Key Listin scada 4 9 Operation Mode EIST iu ad a dis a ii 4 11 Superimposed AC Voltage Waveform and Superimposed AC Current Waveform Lis Erin 4 20 Limiter Setting Range cuidad cia ici 4 22 Step Execution Parameters iii is 4 28 Step Transiti n Parameters ini sa 4 29 Sequence Status Osito ines 4 30 Sequence Control iaa ali 4 31 CONTROL SGlect Box item Lista a 4 36 PROGRAM Screen Item LS Ci
17. Caution Setting cannot be performed when the output is on OUTP OUTP Description Switches the output on off Parameter 0 Output off 1 Output on Setting example Setting the output on OUTP 1 RCAL RCAL Description Sets the response calibrator on off Parameter 0 Response calibrator off Setting example 1 Response calibrator on Setting the response calibrator on RCAL 1 Caution Setting cannot be performed when the output is on VOLT VOLT Description Sets the DC voltage Parameter Voltage V Setting example Caution BP4610 115 00 V to 115 00 V Setting the output voltage to 90 V VOLT 90 Settable in units of 0 01 V 5 9 5 3 Explanation of Each Program Message ES S E WAVE WAVE Description Selects the superimposed current waveform Parameter 0 SIN sine wave 1 SQU square wave 2 to 17 ARB to ARB16 arbitrary waveform Setting example Setting the waveform to be output to sine wave WAVE 0 Caution Setting cannot be performed when output is on 5 3 2 Limiter E LMCM LMCM Description Sets the current limiter Parameter Current A 26 0 to 1 0 Setting example Setting the current limiter to 15 A LMCM 15 Caution Settable in units of 0 1 A NW LMCP LMCP Description Sets the current limiter Parameter Current A 1 0 A to 26 0 A Setting example Setting the current limiter to 15 A LMCP 15 Caution Settable in units of 0 1 A E LMVM LMVM
18. Description Sets the voltage limiter Parameter Voltage V 117 0 V to 7 0 V Setting example Setting the voltage limiter to 100 V LMVM 100 Caution Settable in units of 0 1 A NW LMVP LMVP Description Sets the voltage limiter Parameter Voltage V 7 0 V to 117 0 V Setting example Setting the voltage limiter to 100 V LMVP 100 Caution Settable in units of 0 1 V BP4610 5 10 5 3 Explanation of Each Program Message ES S 5 3 3 Sequence Related For the sequence settings ie refer to 4 5 Sequence Operation E SCJN Description Acquires the jump count executed in the step specified with STPN Response format 1 to 999 Caution 1l indicates the Idle status E SCSN Description Acquires the number of the step under execution Response format 1 to 255 Caution 1l indicates the Idle status E SCTL Description Controls the sequence Parameter 0 Sequence stop 1 Sequence start 2 Sequence hold 3 Sequence branch 0 4 Sequence branch 1 Setting example Starting a sequence SCTL 1 E SEQM Description Controls the sequence memory Parameter 0 Clear Setting example Clears the sequence memory SEQM 0 BP4610 5 11 5 3 Explanation of Each Program Message r E S E SEXP SEXP Description Sets the step execution parameters Parameter Ist parameter Sets the DC voltage DC current The DC voltage can be set in units of 0 01 V in the range of 115 00 V to 115 00 V The DC curre
19. OPTF operation transition filter Always 0 15 Sequence execution in progress a Unused Sequence hold in progress ae Unused ea a Unused ei Unused oo E Unused EM Unused e El Unused e MODE OUTP RCL RST al In progress Logic OR C 5 YN D Q N Unused OPER operation event register OPEE operation event enable register Operation status summary Status byte bit 7 The transition filter converts conditions into events If corresponding bit of transition filter is 1 When the corresponding bit of the condition register changes from 0 to 1 the corresponding bit of the event register is set to 1 If corresponding bit of transition filter is 0 When the corresponding bit of the condition register changes from 1 to 0 the corresponding bit of the event register is set to 1 BP4610 5 24 5 4 Status Configuration Aa Mw 5 4 5 Warning statuses WRER warning event register WREE warning event enable register Always 0 Unused Unused Output switched off due to overload or over limiter Warning status summary Status byte bit 1 BP4610 5 25 5 4 Status Configuration PND S 5 4 6 Overload statuses OVCR overload condition register OVTF overload transition filter Aways Pis H 8 8 5 Unused ig E ee Ar A gr gr E ANA por LB rg ZA paro MU ee Logical OR Unused Overload detection ior re oe OVER overload event regi
20. OVTF OVTF Description Overload transition filter Es Refer to 5 4 6 Overload statuses Parameter 0 to 32767 SRE SRE Description SRQ enable register le Refer to 5 4 1 Status byte Parameter 0 to 255 STB Description Status byte Response format Es Refer to 5 4 1 Status byte 0 to 255 WREE WREE Description Warning event enable register Es Refer to 5 4 5 Warning statuses Parameter 0 to 32767 WRER Description Warning event register Response format BP4610 Es Refer to 5 4 5 Warning statuses 0 to 32767 5 18 5 3 Explanation of Each Program Message ETA 5 3 8 Overlap commands Here device operations refer to the following items e MODE Operation mode switching e OUTP Output on off switching e RCL Setting read e RST Device reset e SCTLI Sequence execution Mm OPC Description Upon completion of the device operation the operation complete message in the standard event status register 1s output to the device E OPC Description Upon completion of the device operation is returned E WAI Description Until the device operation is completed the device is prohibited from further executing commands or clearing BP4610 5 19 5 3 Explanation of Each Program Message 5 3 9 Other E BEEP BEEP Description Sets the beep sound on off Parameter 0 Off 1 On Setting example Setting beep sound on BEEP 1 HEAD HEAD Description Setting heade
21. Parameter 1 to 30 Setting example Saving settings to store recall memory 5 SAV 5 BP4610 5 16 5 3 Explanation of Each Program Message AN i A 5 3 7 Status reporting E CLS Description Clears the contents of the event register E ESE ESE Description Standard event status enable register Es Refer to 5 4 2 Standard event statuses Parameter 0 to 255 E ESR Description Standard event status register Es Refer to 5 4 2 Standard event statuses Response format 0 to 255 E OPCR Description Operation condition register le Refer to 5 4 4 Operation statuses Response format 0 to 32767 E OPEE OPEE Description Operation event enable register le Refer to 5 4 4 Operation statuses Parameter 0 to 32767 E OPER Description Operation event register le Refer to 5 4 4 Operation statuses Response format 0 to 32767 E OPTF OPTF Description Operation transition filter le Refer to 5 4 4 Operation statuses Parameter 0 to 32767 BP4610 5 17 5 3 Explanation of Each Program Message AN A A E OVCR Description Response format Overload condition register Es Refer to 5 4 6 Overload statuses 0 to 32767 OVEE OVEE Description Overload event enable register Es Refer to 5 4 6 Overload statuses Parameter 0 to 32767 OVER Description Overload event register Response format Es Refer to 5 4 6 Overload statuses 0 to 32767
22. Sin Squ Arb Y EPE cAi me lt 4 gt CONTROL PANEL l l I SYSTEM oD O CONTROL i i l 00000 I i NE a at dd a a ad et id oe ek gt Figure 1 1 Block Diagram BP4610 1 3 1 3 Principle of Operation A a S The BP4610 is composed of the four major blocks lt gt lt 2 gt lt 3 gt lt 4 gt BP4610 DC power supply block The DC power supply block has a variable DC voltage function that works in conjunction with the power factor improvement function and voltage limiter value Various control power supplies and positive negative DC power supplies for the amplifier block can be created while improving the power factor for the power supply input The output voltage range shift function is enabled by the variable DC voltage function C Refer to 4 4 1 Shifting the output voltage range Signal sources This is an internal signal source that enables the sequence function and DC AC output An external input and internal signal can be used added together Amplifier block The amplifier block has a response calibration function and a protection circuit function It outputs signals from an internal signal source or external signal source after amplifying them Two types can be selected from among response characteristics fixed characteristics and user adjusted characteristics response calibration function If user adjusted characteristics is selected the response characteristics can be adjus
23. Step time Specifies the step transition as a time Enables disables the step end phase Step end phase E If this parameter is set to enable the step end phase is fixed to 0 deg The following settings are provided for specifying the behavior upon step end e Continue sequence CONT e Enter Hold status HOLD e Enter Idle status STOP The following settings are provided for specifying the step to be transitioned at the end of a Step termination step Jump step p e Go to any step number 1 to 255 e Go to next step number 0 A loop is realized by jumping the specified number of times to the step specified with Jump step Jump count The following settings are provided for specifying the jump count e Specified count 1 to 999 e Infinite count 0 The following settings are provided for specifying the step to be transitioned to through branch control Branch step e Go to any step number 1 to 255 e Continue step processing as is 0 When start control is performed in the regular output status when the status is Idle Step 1 1s executed and the steps cycle in the set order If Jump step is not specified the steps are executed in the step number order but if Jump step 1s specified that step 1s transitioned to The step end is when the Step time has elapsed If Step end phase is enabled the step end is when Step end phase 0 deg occurs following the lapse of the Step time If
24. Within 10 ppm e AC voltmeter TrueRMS type accuracy Within 0 2 Frequency band 300 kHz and higher Recommended equipment Agilent made 34401A e DC voltage meter Accuracy Within 0 1 Recommended equipment Agilent made 34401A e Distortion meter Full scale 1 or less Frequency band 100 kHz and higher e Sine wave oscillator Amplitude Within 3 Vp p Frequency 10 Hz to 100 kHz Distortion Within 0 2 e Resistance load 6 2 600 W e Non inductive current shunt 10 m 20 A or higher 7 2 Daily Maintenance Use the BP4610 in a place that meets the installation conditions For the installation conditions S refer to 2 2 Installation Environment If the panel or case surface is soiled wipe it with a soft cloth In the case of resistant stains wipe with a cloth that has been imbibed with a neutral detergent and then wrung well Wiping the BP4610 using an organic solvent such as thinner or benzene or a premoistened wipe may cause degradation in material quality clouding or flaking off of the paint and must therefore be avoided BP4610 7 1 7 3 Storage Repacking and Transportation e Mw 7 3 Storage Repacking and Transportation Store the BP4610 in a location that meets the installation conditions For the installation conditions ES refer to 2 2 Installation Environment If repacking the BP4610 for transportation etc make sure that the box that 1s used 1s sufficiently strong and large to sup
25. open Output impedance 100 Q Status items Power on off status 0 OFF 1 ON Output on off status 0 OFF 1 ON Overload 0 Normal 1 Overload Software busy 0 Normal 1 Busy Sequence operation step sync output 0 1 NW Terminal D sub 25 pin multiconnector rear panel 8 13 USB Interface A USB interface 1s provided for performing control from an external computer Interface standard USB 1 1 USB ID 1 to 65534 BP4610 8 9 8 14 Power Input PP SE sg 8 14 Power Input Power input voltage range 90 to 250 V Power supply frequency range 47 to 63 Hz single phase Power factor 0 95 100 V AC CV mode 6 Q load DC only 60 V output Power consumption 1200 VA max 100 V AC C mode 6 Q load DC only 60 V output 8 15 Withstand Voltage Insulation Resistance Power supply input terminals in batch vs Other terminals and chassis in batch Withstand voltage 1500 V AC Insulation resistance 10 MQ or higher 500 V DC 8 16 Ambient Temperature Range and Ambient Humidity Range Performance guarantee 5 to 35 C 5 to 85 RH However the absolute humidity must be 1 to 25 g m with no condensation Storage conditions 10 to 50 C 5 to 95 RH However the absolute humidity must be 1 to 29 g m with no condensation Figure 8 1 shows the ambient temperature and humidity ranges RH i EA AE E 90 80 70 60 50 40 30 20 aaa MZ i ai Ao AN Ml E E y 10 0 10 20 30 40 50 C
26. woe ls 1 4 76 4 10 Response Calibration AD S Chl rise 4 23 76 us 10 V div Figure 4 23 Output Voltage Waveform for CV Mode Capacitive Load C 10 wF Chl rise 3 60 74 us A A AA be ee eit panne ee eae oe ar errr 41 ms y jsaap 10 V div Figure 4 24 Output Voltage Waveform for CV Mode Capacitive Load C 50 u F Chl rise J 94 24 us 10 V div Figure 4 25 Output Voltage Waveform for CV Mode Capacitive Load C 100 u F BP4610 Ae 4 10 Response Calibration ES S 2 CC mode inductive load Basically adjustments can be performed with the T and I adjustment knobs Turning the V adjustment knob to the right lowers the ringing frequency and makes it easier to suppress ringing with the I adjustment knob but normally the BP4610 is used with the V adjustment knob turned all the way to the left The operations when the adjustment knobs are turned are described below e If T adjustment knob is turned to the right The rise fall become faster but the ringing frequency also rises and its amplitude increases e If I adjustment knob is turned to the right The ringing amplitude 1s decreased but the rise fall become slower To make the rise fall as fast as possible and suppress ringing perform adjustments by repeating the following operations lt l gt Speed up the rise fall with the T adjustment knob lt 2 gt Suppress ringing when it occurs with the I adjustment knob Table 4 25 shows a
27. 0 2 0 0 0 STRP 0 01 0 0 0 0 O STPN 2 SEXP 2 5 1 0 0 0 0 2 0 0 0 STRP 0 0 2 0 0 0 0 0 STPN 3 SEXP 7 5 0 0 0 0 0 0 0 0 STRP 0 01 0 0 0 0 0 STPN 4 SEXP 5 0 0 0 O 2 0 0 0 STRP 0 02 0 0 0 2 1 0 STPN 5 SEXP 10 2 0 0 0 0 0 0 0 STRP 0 02 0 0 0 0 0 6 0 STPN 6 SEXP 0 0 0 0 0 0 0 0 STRP 0 03 0 0 1 0 0 0 0 BP4610 5 14 E MACC Description Response format 5 3 Explanation of Each Program Message C0 S 5 3 4 Measurement related Returns the AC current measurement value 0 0 Ap p to 40 0 Ap p returns 99 9 Ap p in the case of measurement over range Caution Measurement is performed in units of 0 1 Ap p MACV Description Returns the AC voltage measurement value Response format 0 Vp p to 400 Vp p 999 Vp p is returned in the case of measurement over range Caution Measurement is performed in units of 1 Vp p MCUR Description Returns the DC current measurement value Response format 20 00 A to 20 00 A 99 99 A is returned in the case of measurement over range Caution Measurement is performed in units of 0 01 A MVLT Description Returns to the DC voltage measurement value Response format Caution 200 0 V to 200 0 V 999 9 V is returned in the case of measurement over range Measurement is performed in units of 0 1 V 5 3 5 Arbitrary waveform memory The settings performed with ARB
28. 4 Output Software busy 1 Busy Step sync output 0 Step syne output 7 Undefined St Undefined ouput undefined o 9 aw E i0 input Undefined OOO 3 qow oo E oo psy 50 mA rower Reserved S pT 21 Reserved Ss 22 Omtput Reserved oo a3 oa E S 24 Output Resev as dla G S 2 9 PND 2 4 Connection to I O terminals A 2 4 5 Connection to external signal input pin To use signal input from external as the signal source connect the external signal input terminal EXT SIGNAL IN on the front panel to the external signal source For the connection use a coaxial cable with a BNC connector The specifications of the external signal input terminal are as follows Frequency range DC to 200 kHz Gain 100 x 100 V 1 V in phase CV mode 10 x 10 A 1 V in phase CC mode Gain accuracy 5 1 kHz Input impedance 10 kQ Non destructive max 5 V EXT SIGNAL IN terminal Wy En on CANCEL Figure 2 9 EXT SIGNAL IN Terminal BP4610 2 10 2 4 Connection to I O terminals ee OE 2 4 6 Connection to monitor output pin To monitor the output voltage and output current connect the monitor output terminal MONITOR OUT on the front panel For the connection use a coaxial cable with a BNC connector To monitor the output voltage connect this cable to the Vo terminal and to monitor the output current connect it to the Io terminal The specifications of the monitor output terminal are as follow
29. BP4610 8 10 8 17 External Dimensions and Weight AD S 8 17 External Dimensions and Weight E External dimensions Width 430 mm Height 177 mm Depth 550 mm Not including projections E Weight 26 kg or lower 8 18 Output Voltage and Output Current Supply Ranges The supply range differs depending on the positive and negative output voltage limiter settings Vo limit Vo limit The DC output range figures Figures 8 2 to 8 5 show the relationship between the ouputtable voltage and current for DC These figures also show the outputtable ranges for the voltage and current including DC offset for AC of 500 Hz and lower The AC output range figures Figures 8 6 to 8 9 show the relationship between the outputtable DC voltage and peak current However the maximum time interval during which the peak current can be output is 4 ms All values in these figures are for reference only BP4610 8 11 8 18 Output Voltage and Output Current Supply Ranges PD S DC output range When Vo limit Vo limit 124 V constant Figure 8 2 DC Output Range When Positive Negative Voltage Limiter Setting Difference Is Fixed to 124 V DC output range When Vo limit Vo limit constant 11 1 Figure 8 3 DC Output Range When Positive Negative Voltage Limiter Settings Are Symmetric BP4610 8 12 8 18 Output Voltage and Output Current Supply Ranges PND S Vo Vo DC output range mie imit Whe
30. Current Setting Rated Range CC INT 9 92 to 10 08 A 10 08 to 9 92 A E Frequency accuracy test of internal AC signal source Load 6 Q resistance load Measurement connection Measure the signal 1 Vp p of the voltage monitor output terminal of the BP4610 with a frequency counter Settings After setting initialization has been performed set the frequency and AC output voltage according to the following table Judgment If the output frequency of the voltage monitor of the BP4610 falls within the rated range in the following table the operation is judged to be normal Frequency Setting AC Output Voltage Setting Rated Range 10000 Hz 100 Vp p 9999 to 10001 Hz E Amplitude accuracy test of CV mode internal AC signal source Load 6 Q resistance load Measurement connection Measure the voltage of the output terminal of the BP4610 with an AC voltmeter Settings After setting initialization has been performed set the frequency and AC output voltage according to the following table Judgment If the output voltage of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal 42 15 to 42 70 Vrms 3 446 to 3 623 Vrms E Amplitude accuracy test of CC mode internal AC signal source Load Short via a current shunt resistor Measurement connection Measure the detection voltage of the current shunt resistor with an AC voltmeter and convert the measured value to a current value Settings After setting ini
31. Depends on output Reset is possible Output OFF y on off setting at only when output is power on off Depends on Response calibrator OFF y hale pani G ralo on off setting at power on ocs f oov eae focemen owon v patas 3 Superimposed AC voltage Backup value Swenmposeaacomen oomp V Beupvae v Fears f oome a etapas pesem f o f y e votage inter f eov o eov votage mier eov o etapas Y Forense soa v patas O current limiter Backup value so as kw O O CT E se pata on cas e prats co play or moe v patas Fraen J e etapas o a IA ME 8 ME ff ae calibrator on off at power AE Backup value HT External control External control input enable disable enable disable DISABLE Backup value value Arbitrary waveform transmit receive 2 ARB1 control a specification SRQ enable SRQ enable register L e 2 2 2 j j ls j2 BP4610 9 1 9 1 Initial Setting List Aa Mw 2 2 Standard event status enable regar assy vO Operan ans Mer o a a Operation event enabi register w A Warning event enable register Overload transition filter D IESO E IES Overload event enable register 1 yo o o yY o o oo Header ont poor oyo po gt Table 9 2 Store Recall Memory All Memories Setting Item Initial Value At Shipping At Power on After Clearing focewen owa v l TT O Ce nerone f oover S f maoae O Superimposed AC curren
32. EMT Remote The icon that is displayed depends on the status of the BP4610 Local Nothing is displayed Remote EMIT is displayed LLO pin Local lockout 1s displayed BP4610 4 2 leus FRUN 4 1 LCD Screen Aa Mw 4 1 2 Warning and error display Upon occurrence of a warning or error an error message is displayed in the message box and Message Display window For details on error messages Le refer to 6 TROUBLESHOOTING 4 1 3 Sequence display The BP4610 has a function to display the sequence progress status The information listed in Table 4 2 is displayed in the message box Table 4 2 Sequence Display indicates the step number currently being SEQUENCE RUNNING STEP Sequence in progress run SEQUENCE HOLDING STEP Sequence hold in progress indicates the step number that is on hold SEQUENCE FINISH This message automatically disappears after 2 s BP4610 4 3 4 2 Basic Operation 4 2 Basic Operation This section describes the basic operation of the BP4610 4 2 1 Menus The BP4610 provides a hierarchical menu system for setting the various parameters Menu operations are performed in the Menu window on the LCD screen Figure 4 3 shows the menu tree of the BP4610 Figure 4 3 Menu Tree Tables 4 3 to 4 8 show the items displayed in each menu BP4610 4 4 Aa Mw 4 2 Basic Operation Table 4 3 SET Menu Item List Icon Reference Selection of operation mode ES
33. Panel Lifting Method CAUTION Do not try to lift the operation panel without first pulling it out as this will damage the panel BP4610 3 6 3 2 Access to the Volume Area me E How to return the operation panel 1 Holding the top and bottom of the operation 3 Placing your hands on the top and bottom of panel gently lower the bottom of the panel the operation panel but not on the LCD 2 Lower the panel until it 1s parallel with the screen push the panel in while keeping it face of the BP4610 parallel with the face of the BP4610 4 Push the panel in until you hear a clicking sound Figure 3 3 Operation Panel Return Method A CAUTION Be sure to use both hands when pulling out lifting and returning the operation panel WARNING When opening closing the operation panel be careful not to get your fingers pinched BP4610 3 7 4 OPERATION 4 1 LCD Screen A A We 4 1 4 1 1 Status icons A ee eee eee re eT re er e a 4 2 4 1 2 Warning and error display lt 1 4 3 4 1 3 Sequence display ccc ees 4 3 4 2 Basic Operation A A T AE 4 4 4 2 1 Menus A E AA A 4 4 4 2 2 Menu tree navigation method Te A er ee es 4 7 423 Numerical input operation lt tr 4 8 4 2 4 Numerical input operation requiring confirmation during USB ID setting etre 4 8 4 2 5 Selective input operation requiring confirmation 4 8 426 Execution input A EA A aaa 4 9 497 Shortcut keys eeeettrrrerrrrrrernnnnnnnnnnn cnn
34. Refer to 4 5 3 Sequence operation control e To program a sequence Select PROGRAM Ie Refer to 4 5 4 Sequence programming e To control the sequence memory Select MEMORY Ie Refer to 4 5 5 Sequence memory clear gt SEQUENCE CONTROL PROGRAM MEMORY CANCEL ENTER gt ENTER lt 5 gt Press the key to display the various screens ER AA STEP 1 STEF 1 TIME A 1666 DE VOLT a BB l COMST ac VOLT A Vp p CONST CANCEL ENTER H Sa 6 Hz SYNC CODE 4 6 STa P FHS i 5 Se gt STEP TERM CONT _ JUMP STEP 1 BP4610 4 35 4 5 Sequence Operation 4 5 3 Sequence operation control The sequence operation is controlled with CONTROL in the SEQUENCE screen The sequence can start only when the output is on Therefore the sequence control select box can be selected only when output is on Table 4 17 lists the CONTROL select box items Table 4 17 CONTROL Select Box Item List Select Box Item START Starts sequence operation The status changes to the Run status Stops sequence operation The status changes to the Idle status HOLD Pauses sequence operation The status changes to the Hold status Branches to the step specified with Branch step If Branch step is not specified this item is ignored The operation procedure is described below E Operation procedure in case of operation from menu lt 1 gt Open the SEQUENCE screen and display the CONTROL select box
35. WOLT A E Lip p 1a se 0 Hz ES SYHC COD i a E pa STOP PHS DISA i STEP t D JUMP 3 E ENTER lt 3 gt Press the key to display the Modify box CC WOLT A CONST AC VOLT a 6 CONST ees nee is 50 6 Hz CONST SYNC CODE a 8 CONST STOP PHS DISABLE STEP TERM STOP JUMP STEP a lt 4 gt Press the and keys to move the cursor to the digit to be changed and then turn the MODIFY dial to set the desired value CONST A B Upp CONST 38 amp Hz CONST SYNC CODE a A CONST STOP FHS DISABLE STEP TERM STOP JUMP STEP 5 lt 5 gt In the same way set all the digits ENTER lt 6 gt Once all the digits have been set press the key This enables the setting values and completes the step time setting procedure BP4610 4 41 4 5 Sequence Operation PD S 4 5 5 Sequence memory clear The sequence memory is cleared with MEMORY on the SEQUENCE screen Saving to the sequence memory is performed automatically One sequence can be saved for each of the CV mode and the CC mode The procedure is described below E Operation procedure lt 1 gt Open the SEQUENCE screen and display the MEMORY select box For the procedure up to the display of the MEMORY select box I refer to 4 5 2 Setting of sequence ENTER lt 2 gt Press the key to display the Exe box CONTEAL PROGRAM a MEMORY CLEAR ENTER lt 3 gt Pressing the key when Clear is selected clears the sequenc
36. an error message listed in Table 6 2 is displayed 6 2 2 Over limiter If the DC output voltage measurement value exceeds the maximum value of the set voltage limiter range or is 3 V or more under the minimum value over limiter is judged to have occurred Upon detection of over limiter the BP4610 displays the over limiter status as follows For how to set the limiter values Ie refer to 4 4 Setting of Limiters e A beep is emitted and the output is switched off An error message listed in Table 6 4 is also displayed e If the limiter values are exceeded during output on operation the output cannot be switched on In this case the status icon ERRE is displayed and an error message listed in Table 6 3 is displayed BP4610 6 7 6 3 When Suspecting a Fault PND S 6 3 When Suspecting a Fault When suspecting a fault perform the following handling If this fails to achieve recovery contact NF Corporation or an NF Corporation sales representative Possible Cause Handling A power supply that exceeds the A Use a power supply within the rated range rated range 1s used Request repair from NF Corporation or an NF The power won t goon The power supply fuse is broken l Corporation sales representative A malfunction occurred due to Place the BP4610 in a location with favorable external noise environmental conditions Panel operation is not The keys or MODIFY dial are Request repair from NF Corporation or
37. are applied For the operation method to read the setting values saved in the memory ls Refer to 4 7 Memory Functions 4 To switch the power off press the left side O of the power switch after checking the OUTPUT off status As a result the power supply to the BP4610 is disconnected and the power 1s switched off CAUTION Securely connect all the required cables Improper connection may cause equipment failure e Before switching the power off be sure to check that OUTPUT 1s in the off status BP4610 2 12 2 6 Radio Law Aa Mw 2 6 Radio Law A CAUTION The BP4610 complies with the High Frequency Application Equipment provisions of Japan s Radio Law a b d e Related laws and regulations are summarized as follows O Article 100 of the Radio Law defines the following equipment as high frequency application equipment 1 Telegraphy telephony or other telecommunications facilities that apply a radio frequency current of 10 kHz or higher to a power line 2 Equipment specified by Ministry of Internal Affairs and Communications regulations other than radio equipment and the equipment defined in 1 above that uses a high frequency current of 10 kHz or higher O Ministry of Internal Affairs and Communications regulations mentioned above refers to Article 45 of the Regulations for Enforcement of the Radio Law Under this article equipment that requires authori
38. both Step termination and Jump step are specified the Step termination specification has precedence A basic step transition example is shown below Output parameter Steps 1 2 fevers Step 3 ERER IT Regular output step lt START gt Step 1 i Step2 Step 3 Time Figure 4 12 Basic Step Transition Example BP4610 4 29 4 5 Sequence Operation nn ES E Sequence status Figure 4 13 shows a sequence operation status transition diagram Output on Idle status Regular output lt Start gt lt Stop gt lt Stop gt lt Start gt Hold status E Pause Wee lt Hold gt Run status Sequence execution Figure 4 13 Sequence Status Transition Block Diagram CAUTION The status can also be changed through Step termination specification Table 4 15 Sequence Statuses Idle status Status in which regular output is performed Status in which sequence is executed Status in which sequence is paused Hold status oo te The output is held at the point in time when lt Hold gt is executed BP4610 4 30 4 5 Sequence Operation nn ES OY M Sequence control Sequence operation control is described below Sequence control is indicated enclosed between pointed brackets lt gt below Table 4 16 Sequence Control Changes the status to Run status In the case of the Idle status Step 1 is jumped to at the same time as lt Start gt and the s
39. computer connected via the USB REN interface menu operation is prohibited Even in the remote mode switching to the local mode can be done through key operation from the operation panel To prohibit operation via the operation panel set keylock to on C refer to 4 9 System Menu or set the mode to the local lockout mode Even in the remote mode including when local lockout has been specified output off operation 1s possible via the OUTPUT key BP4610 4 55 4 8 Remote Control EG YZ 4 8 1 Setting of USB ID To perform remote control via the USB interface it is necessary to set the USB ID for device identification in advance The USB ID setting is performed in the REMOTE screen The USB ID setting range is 1 to 65534 Set the USB ID after making sure it 1s correct If the USB ID is incorrect control from the computer is not possible Moreover if the USB ID is the same as that of another device within the same system faults may occur in the computer E Operation procedure lt l gt Press the La and y keys to move the cursor to the M54 icon CA TNT OFF OFF A Ge y A ALU P P SE OD CAT ra ito Ea ER Ee CANCEL ENTER gt Wit It D E El E is Mc oh mo If of 1 Cs A a 1 pi gt T ENTER lt 2 gt Press the key to display the MISC screen Press the La and Ly keys to move the cursor to REMOTE gt MISC SEQUENCE MEMORY CANCEL 2 ENTER lt 3 gt Pr
40. in voltage variation testing for electrical equipment the output can be cycled through variations according to a preset sequence allowing testing to be completed through a single operation The BP4610 s internal DC direct current sine wave square wave or any of 16 arbitrary waveforms loaded via the USB interface can be used for the sequence operation The sequence can be set to up to 255 steps 1 step 0 1 ms minimum and the waveform level duration and constant sweep settings can be selected individually for each step Moreover repetition of the sequence can be specified between 1 to 1000 times or continuous Additional functions including branch operation which causes the operation to go to the specified step during sequence operation sequence start stop and hold are also provided Number of sequences 1 sequence each for the CV mode and CC mode Number of steps 1 to 255 within 1 sequence Step time 0 1 ms to 999 9999 s resolution 0 1 ms Operation within step Constant or linear sweep Parameters CV mode DC voltage superimposed AC voltage frequency waveform step sync output 2 bit CC mode DC current superimposed AC current frequency waveform step sync output 2 bit Remark If a sine wave or square wave is selected as the waveform the waveform cannot be changed during the sequence If arbitrary waveform is selected an arbitrary wave can be specified for each step Jump count 1 to 999 or co
41. load in the CC mode each form a resonance circuit combined with the output impedance resulting in a status in which oscillations are easily generated Adjustment examples for the CV mode capacitive load and CC mode inductive load are presented below 1 CV mode capacitive load Basically both T and V are adjusted with their respective adjustment knobs While turning the I adjustment knob toward the right lowers the ringing frequency making it easier to suppress ringing with the V adjustment knob normally the BP4610 is used with the I adjustment knob turned all the way toward the left The operations when each adjustment knob is turned are described below e If T adjustment knob is turned to the right The rise fall become faster but the ringing frequency also rises and its amplitude increases e If V adjustment knob is turned to the right The ringing amplitude 1s decreased but the rise fall become slower To make the rise fall as fast as possible and suppressing ringing perform adjustments by repeating the following operation lt I gt Speed up the rise fall with the T adjustment knob lt 2 gt Suppress ringing when it occurs with the V adjustment knob Table 4 24 shows adjustment examples for the three adjustment knobs and Figures 4 23 to 4 25 show output voltage waveform examples for each case BP4610 Table 4 24 Adjustment Example for CV Mode Capacitive Load oe Position 10 uF D O M A S soup 4 1
42. nnnnnnn nano nen nnnnnnnnnn nos 4 9 4 3 Basic Functions a ls ia 4 10 4 3 1 Setting of operation mode a eee ree et re re eee net 4 11 432 Output on off eet rn nn n nn none rre 4 13 4 3 3 Setting of DC voltage and DC currenteeeeeererereeee 4 15 4 3 4 Setting of superimposed AC voltage and superimposed AC current a iaa 4 16 43 5 Setting of frequency ii anes 4 1 9 436 Setting of waveform eer eer ee ea eT eee ee ee ie 4 20 44 Setting of limiters A EE the hes ne A Tia ee nese ot 4 22 4 4 1 Shifting the output voltage range weereens 4 24 442 Output voltage limiters E Aa A 26 443 Output current limiters Terr Tee TT ETRE a a da 4 76 45 Sequence Operation TERT Te TEE a Cee eee 4 27 4 5 1 Sequence operation specifications 4 27 4 5 2 Setting of sequence O orem war etal 4 34 45 3 Sequence operation control E Rae eo ee ee 4 36 45 4 Sequence programming PERE EEE EC EE EEC EC ET Cee EERE eee 4 37 45 5 Sequence memory clear Te eee ee eee eee ee Te 4 42 4 5 6 Sequence operation setting example 4 43 45 7 Sequence operation execution O 4 47 4 6 Control via External Control I O Connector ee 4 51 47 Memory Function PEE A RR RO 4 5 48 Remote Control L cise A sas ha corona E SR 4 55 48 1 Setting of USB ID ee eee er AR 4 56 48 2 Switch to local mode aa ee errr o 4 58 49 System Menu A E e Marana trata 4 61 49 1 Keylock AAA A a wae eee AAA 4 63 49 2 Beep sound E O A vara 4 A O ate tale 4 64 49 3 LC
43. offset test during external input short Load 6 Q resistance load Measurement connection Short the external input terminal installation of a 50 2 or 75 Q termination resistor is also possible Measure the voltage of the output terminal of the BP4610 with a DC voltmeter In the case of the CC mode convert the measured voltage value into a current value by dividing it by the load resistance Settings After performing setting initialization set the operation mode according to the following table Judgment If the output voltage or output current of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal Operation Mode Setting Rated Range CV EXT 0 1 to 0 1 V CC EXT 0 05 to 0 05 A 0 3 to 0 3 V 6 Q load NW Residual noise test during external input short Load 6 Q resistance load Measurement connection Short the external input terminal installation of a 50 2 or 75 Q termination resistor is also possible Measure the voltage of the output terminal of the BP4610 with a DC voltmeter In the case of the CC mode convert the measured voltage value BP4610 7 11 7 8 Performance Test ee OE into a current value by dividing it by the load resistance Settings After performing setting initialization set the operation mode according to the following table Judgment If the output voltage or output current of the BP4610 falls within the rated ranges in the following table the ope
44. sequentially changed or swept and by programming output changes beforehand outputs with specific patterns can be supplied E Vo limiter lo limiter function The maximum values of the output voltage Vo and output current lo can be independently set for each polarity The output voltage and current are limited to these values E Output voltage range expansion function The output voltage amplitude range can be set to symmetric or asymmetric with regard to the polarity Using the Vo limiter function the output voltage range can be set to a maximum of 120 Vp p including 0 V within the range of 115 V to 115 V For example the output voltage range can be set to the ranges of 60 V to 60 V 5 V to 115V or 115 V to 5 V Since the suppliable output current range changes according to the output voltage range setting the optimum setting range can be selected from the required voltage and current E Response calibration function The amplifier response characteristics can be selected between fixed characteristics and user adjusted characteristics Fixed characteristics are characteristics that emphasize both broad frequency band characteristics and load stability during CV DC to 35 kHz 3 dB during CC DC to 8 kHz 3 dB In the case of user adjusted characteristics the response characteristics actually adjusted by the user according to the load conditions can be used Adjustments of the output voltage and current waveform are p
45. step currently being executed MEASURE m CY INT GM OFF A GA uw A AU P P he al PO PO CC Co a cu Po Po Er Figure 4 21 LCD Screen When Sequence Is Running BP4610 4 50 4 6 Control via External Control I O Connector CD Y 4 6 Control via External Control I O Connector Output on off and sequence execution can be controlled by inputting digital signals to the external control I O connector The step sync output signal is output from the external I O connector The status of the BP4610 can also be monitored by reading the output signal from the external control I O connector ES Refer to 2 4 4 Connection to external control I O connector Table 4 20 lists the functions of each pin Table 4 20 Functions of External Control I O Connector Input Output Outputs the power on off status l Output 0 and 1 indicate off and on respectively 2 Outputs the output on off status Output 0 and 1 indicate off and on respectively Outputs the overload status 3 Output on ee 0 and 1 indicate regular operation and abnormal status respectively ia Outputs the software busy status utpu bat F 0 and 1 indicate regular operation and busy status respectively Step sync output 0 5 Output Psy ore Outputs bit 0 of the step sync output Step sync output 1 Output ay k Outputs bit 1 of the step sync output ee Forced output off npu Upon detection of the falling edge of
46. that operation in the Select box Once the memory number has been specified the major setting contents recorded in that memory are displayed in the left part of the Menu window Table 4 21 MEMORY Screen Menu Item List Indications in Operation STORE Saves the setting contents to the specified memory number RECALL Calls the setting contents of the specified memory number CLEAR Clears the setting contents of the specified memory number pO MEMORY Cu TAIT A OB y REC LL TN pF CLEAR 2 a REET ie EY I Sage Le AO A Displays setting contents of selected Figure 4 22 Memory Contents Display Example For the setting values after clear is executed Ie refer to 9 INITIAL SETTING LIST BP4610 4 52 4 7 Memory Function Aa Mw E Operation procedure lt l gt Press the La and y key to move the cursor to the MIEL icon 4 CM TNT OFF OFF a Bey SE im DLT ESP te Ea Ea CANCEL ENTER Jaaa 1 mal Ea bal Y PI i a ooo Pl pi oo ee A ee A a A Y gt gt 4 Ei ENTER lt 2 gt Press the key to display the MISC screen Press the a and LY keys to move the cursor to MEMORY MISC SEQUENCE MEMORY REMOTE CANCEL a ENTER lt 3 gt Press the key to display the MEMORY screen MEMORY Ee BP4610 4 53 4 7 Memory Function A S lt 4 gt Press the La and Ly keys to select the operation to be pe
47. the input signal forcibly switches off the output ae Forced output on npu a Upon detection of the falling edge of the input signal forcibly switches off the output an Sequence start npu Upon detection of the falling edge of the input signal starts the sequence 13 Sequence stop 14 Input i Upon detection of the falling edge of the input signal stops the sequence Sequence hold 15 Input Upon detection of the falling edge of the input signal pauses the sequence ES Sequence branch trigger 0 Input Upon detection of the falling edge of the input signal jumps to the step specified with BRANCHO Sequence branch trigger 1 Input Upon detection of the falling edge of the input signal jumps to the step specified with BRANCHO BP4610 4 51 4 7 Memory Function A S 4 7 Memory Function The various settings are battery backed up so that when the power is applied the settings when the power was switched off the previous time are restored However the response characteristics selection is not saved Moreover among the various settings the basic settings operation mode DC superimposed AC output limiters can be recorded to store recall memories No 1 to No 30 and saved settings can be called up for use The store recall memory call operations can be performed only when output is off Memory control is performed in the MEMORY screen After selecting an operation in Table 4 21 specify the memory number for
48. to move the cursor to FREQ UNIT to set the frequency unit or to TIME UNIT to set the time unit gt gt SYSTEM KEYLOCK EEEF CONTRAST COLOR a FREQ UNIT Hz CANCEL EJ enter TIME UNIT s INIT GUT OFF INIT RSP OFF EXT CONTROL DISABLE RE El m INFORMATION j g ma Eia ENTER INIT OUT INIT RSP OFF ExT CONTROL DISABLE Y RESET INFORMATION d INIT OUT INIT ESP OFF K EXT CONTROL DISABLE REZET INFORMATION CANCEL ENTER ENTER CANCEL lt 4 gt Press the key to apply the setting or press the key to cancel the setting BP4610 4 67 4 9 System Menu AY Y 4 9 6 Setting of operation of output and response calibrator at power on The BP4610 allows the output to automatically go on at power on Moreover the response characteristics can also be set to the adjustment characteristics simultaneously with power on CS Refer to 4 10 3 Adjustment characteristics E Operation procedure lt l gt Press the La and y keys to move the cursor to INIT OUT to set the output operation at power on or to INIT RSP to set the response calibration at power on OFF aN A gt HUA Fa INIT OUT OFF INIT RP OFF K EXT CONTROL DISABLE RESET CD 7 E El INFORMATION ENTER lt 2 gt Press the key to display the Select box wh EXT CONTROL _ DISABLE RESET INFORMATION lt 3 gt Press the La and y keys to move the cursor to ON
49. two types e Fixed characteristics e Adjusted characteristics Switch between fixed and adjusted characteristics in the output off status Switching in the output on status 1s not possible BP4610 4 7 4 10 Response Calibration 4 10 2 Fixed characteristics The fixed characteristics emphasize both wide frequency band characteristics and load stability during CV DC to 35 kHz 3 dB during CC DC to 8 kHz 3 dB E Operation procedure lt l gt Press the La and Ly keys to move the cursor to the icon gni AA A A p p CANCEL ENTER A C ME Lt AAA at i a ENTER Wit La A at CANCEL ENTER gt E EEEECEE f e r e t E fied et ted e ES S HE im ENTER lt 4 gt Press the key to set the response calibrator to off BP4610 4 72 4 10 Response Calibration Ae Mw 4 10 3 Adjustment characteristics The user can adjust the response characteristics for the load to be actually used Through adjustment it is possible to minimize distortion of the output waveform for a broad range of load conditions including the resistance load as well as inductive load and capacitive load Adjustment to lower speed and higher speed compared to fixed characteristics is possible Adjustment is performed by moving three adjustment knobs located towards the rear of the operation panel corresponding to the time constant voltage feedback amount and current
50. when overload has occurred The output is switched off after approximately 10 seconds Voltage Limiter Setting Voltage Limiter Setting DC Output Voltage Setting Rated Range 9 to 11 A 11 to 9 A E Amplitude accuracy test of CV mode internal DC signal source Load No load Measurement connection Measure the voltage of the output terminal of the BP4610 with a DC voltmeter Settings After setting initialization has been performed set the output voltage limiters and DC output voltage according to the following table Judgment If the output voltage of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal Voltage Limiter Setting Voltage Limiter Setting DC Output Voltage Setting Rated Range 117 Y 115 V 114 23 to 115 77 V 117 V 115 V 115 77 to 114 23 V BP4610 7 12 7 8 Performance Test CD Y E Amplitude accuracy test of CC mode internal DC signal source Load Short via a current shunt resistor Measurement connection Measure the detection voltage of the current shunt resistor with a DC voltmeter and convert the measured value to a DC value Settings After setting initialization has been performed set the operation mode and DC output current according to the following table Judgment If the output current of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal Operation Mode Setting DC Output
51. 0 0000001 1 00 VERS Version number query Example 1 00 lira BP4610 5 7 5 3 Explanation of Each Program Message PD S 5 3 Explanation of Each Program Message The details of the program messages are described below Commands are listed in alphabetical order 5 3 1 Basic settings NW ACCU ACCU Description Parameter Setting example Sets the superimposed AC current Current Ap p 0 00 Ap p to 30 00 Ap p Setting the superimposed AC current to 20 00 Ap p ACCU 20 Caution Settable in units of 0 01 Ap p ACVL ACVL Description Sets the superimposed AC voltage Parameter Voltage Vp p Setting example 0 0 Vp p to 120 0 Vp p Setting the superimposed AC voltage to 100 Vp p ACVL 100 Caution Settable in units of 0 1 Vp p CURR CURR Description Sets the DC current Parameter Current A Setting example 10 000 A to 10 000 A Setting the DC current to 5 000 A CURR 5 Caution Settable in units of 0 001 A FREQ FREQ Description Sets the superimposed AC frequency Parameter Frequency Hz Setting example Caution BP4610 1 0 Hz to 100000 0 Hz Setting the superimposed AC frequency to 70000 Hz FREQ 70000 Settable in units of 0 1 Hz 5 8 5 3 Explanation of Each Program Message ES S E MODE MODE Description Sets the operation mode Parameter 0 CV INT 1 CV EXT 2 CV ADD 3 CC INT 4 CC EXT 5 CC ADD Setting example Setting the CC INT mode MODE 3
52. 20 gt USB connector This is the USB interface connector for controlling the BP4610 from an external computer Es Refer to 2 4 3 Connection to USB connector and 5 USB INTERFACE lt 21 gt External control I O connector This is the I O connector used to control output and sequence operation via an external digital signal Es Refer to 2 4 4 Connection to external control I O connector lt 22 gt LINE INPUT This 1s the power supply input terminal Pay attention to the voltage input range Es Refer to 2 4 1 Connection to power supply input terminal BP4610 3 5 3 2 Access to the Volume Area Aa Mw 3 2 Access to the Volume Area To access the volumes T V I beneath the operation panel lift the operation panel Figure 3 1 Lift Operation Panel When lifting the operation panel first gently pull the panel toward you holding its top and bottom After pulling out the panel until it stops gently lift up only the bottom of the panel The operation panel will remain lifted at the angle you have chosen Note that the keys on the panel must not be operated while the panel is fixed in a lifted position E How to lift the operation panel 1 Holding the top and bottom of the operation 3 Then lift up only the bottom of the panel panel gently pull it toward you 4 Once the panel is at the desired angle 2 Pull out the operation panel until it stops release it Figure 3 2 Operation
53. 4 4 AZN MENUS A A A AS 4 4 4 2 2 Menu tree navigation Method eicioconin nicac di A es 4 7 4 2 3 NUmerical INPUT ODElALION sicicieesaciccndecctacat e A tacita serca 4 8 4 2 4 Numerical input operation requiring confirmation during USB ID setting 4 8 4 2 5 Selective input operation requiring confirmation ooococococccncocococononorononononnnnanananananana 4 8 A26 EXECUTION Mputa a a sana Saeed a a a O A a a ESE 4 9 4 2 SNOTICUL KEYS rss aa a aa E 4 9 4 3 Basic FUNCHONS scissa a N ene eeels 4 10 4 351 Seting of operation Mode a a a aT aa E 4 11 BP4610 iv Contents A32 OUMU OR O Mead 4 13 4 3 3 Setting of DC voltage and DC cCurrTeNt oooooococonnccococoncncococonnnnorararnnnanararnnnararanararnnnanannns 4 15 4 3 4 Setting of superimposed AC voltage and superimposed AC current 000 4 16 4 3 9 Setting of TTEQUENCY nissan 4 19 4 3 6 Setting Of WAavVefOTMoocoococcccccococcncocorononcoronarn rra rara rn r nr rnn rara r arar nn rnrnrnrnrnrnarnrnrarnanaranns 4 20 4 4 SELLING OF NIMILENS corri 4 22 4 4 1 Shifting the output voltage FanQe ococcccccocococoncocococoncacararonnararararnnrararararannnrarararnnnananans 4 24 442 OUutput voltage IMHE Sairis aia 4 26 44 33 Output current HimileFS ainia dit ds 4 26 4 5 Sequence Operation ina 4 27 4 5 1 Sequence operation SpecificatiONS cococococococococococonoconononononnncnnanananannnnnnnnnananananara 4 27 4 5 2 Setting Of Sequence 4 34 4 5 3 Sequen
54. 4 5 Sequence Operation E Y lt 6 gt Press the Ly key and move the cursor to the line where CONST is displayed fourth line from the top Pe PROGRAM 7 STEP STEP TIME DC VOLT E H e J iy da A 0 cr n Gi Cd co E io iam m A oa uo T I a E H E Cl o 4 uo TE i a m A a i Br kt li SYNC CODE a CONS STOP FHS DISABL STEP TERM STOP CC JUMF STEF El z ENTER lt 7 gt Press the key to display the Select box gt gt gt PROGRAM STEP TIME DC VOLT a i j j i i ee e E ST SYHMC CODE J E STOF PHS DISABLE STEP TERM STOP JUMP STEF gt gt gt PROGRAM STEP TIME PC VOLT a AE VOLT gt as SA E E SYNC CODE i gt m STOP PHS DISABL STEP TERM 5 CD JUMP STEP O i ENTER lt 9 gt Press the key to apply the setting The other items are the same as the default setting value and thus need not be changed BP4610 4 45 4 5 Sequence Operation PND S lt Step 2 setting gt lt 10 gt lt 11 gt lt 12 gt lt 13 gt lt 14 gt lt 15 gt lt 16 gt lt 17 gt lt 18 gt Press the a and Ly keys to move the cursor to STEP ENTER Press the key to display the Modify box Press the and gt keys to move the cursor to the right most digit and then turn the MODIFY dial to set 2 Press the key to apply the set value Press the LY key to move the cur
55. Adjustment example inn aaa En 4 76 AA External Signal Input ici 4 80 4 12 Voltage and Current MoNitOF ococcccocccnocccnoconcccoconcoroncornnnarannnrarnararnanararnararnananans 4 81 4 13 Measurement FUNCION airis 4 82 5 INTERFACE 5 1 Preparations Before USAaGe siimani aa aiaiai eiii 5 1 5 2 Program Message Listin a 5 2 5 3 Explanation of Each Program Message ococcccococcoconccconcononnnnanannnrarnnnarannarannanannns 5 8 Dol Basie Settings ai isa 5 8 BP4610 v Contents Te A A ae A E O AN AEA EA A E O ve ee eee 5 10 DSS DOquence Related a E a NE E a a EEOAE N E 5 11 5 3 4 Measurement dilo A Pe areas a aehascueaeu naa atamencsewcmeleaatenueoaseaauecaetenee 5 15 53 9 Arbitrary Wavetor Mi MOMOPY isisisi aan dewieteradeies 5 15 5 3 6 SLOre reCalll Mem Vic ii oi oca 5 16 Droit Status Fe PORNO criceticola wena alee adnan lean paar ecens 5 17 5 38 Overlap COoMMand Sida 5 19 5 39 OE e A rates OA 5 20 5 4 Status Configuration iria avd 5 22 9 41 SUS DY CC ad dali 5 22 5 4 2 Standard event Stats a e O at 5 23 DAS Message QUGUC minita dit 5 23 5 4 4 Operation SlLATUSES oi aaide 5 24 94 9 Warning Statuses ii ca 5 25 5 4 6 Overload Statusesii iaa 5 26 5 5 Response to Interface Messages occccococcococcococoncoconcaroncarannnnarannararnararnararnanannns 5 27 5 6 Programming CauUliON airis n EEE a a r aE 5 27 6 TROUBLESHOOTING 6 1 Error Messages ei a a a 6 1 65151 Eror at HOWO issn a a a a a a a a 6 1 6 1 2 Protective function r
56. C VOLT A BA U CONST a AC VOLT a Up p CONST a ase 58 6 Hz CONST Ka SYMC CODE a 6 p CONST STOP PHS DISABLE STEP TERM STOP Cy JUMP STEP 5 E ENTER lt 3 gt Press the key to display the Select box gt gt gt PROGRAM 7 STEP 1 STEP TIME A 1800 s DE VOLT a 66 U ST a AC VOLT A B Up p Su gt a 50 CD JUMP STEP lt 4 gt Press the a and y keys to move the cursor to the operation to be set gt gt gt PROGRAM 7 5 STEF TIME A 1088 s DC WOLT a Bn Y CONST ac WOLT a A Up p CONST id 50 8 Hz CONST y SYNC CODE a 8 COMST D JUME STEP CO ENTER lt 5 gt Press the key to set the operation at step termination BP4610 4 40 4 5 Sequence Operation nn ES E Operation procedure lt 2 gt The settings of the step number STEP step time TIME DC voltage DC VOLT DC current DC CUR superimposed AC voltage AC VOLT superimposed AC current AC CUR frequency FREQ jump step JUMP STEP jump count JUMP NUM and branch BRANCHO BRANCH1 are performed with the following procedure In the following example the step time TIME is set lt 1 gt Open the SEQUENCE screen and display the PROGRAM screen For the procedure up to the display of the PROGRAM screen I refer to 4 5 2 Setting of sequence lt 2 gt Press the A and LY key to move the cursor to TIME gt gt gt PROGRAM STEP 1 STEP i TIME 6 1888 DE VOLT a HB l ST a AC
57. D contrast adjustment A oa 4 65 BP4610 A 4 9 4 Setting of LCD display Colop crt tettteee 4 66 4 9 5 Setting of frequency and time units se 4 67 4 9 6 Setting of operation of output and response calibrator at power 0N virtrtttretretttt tree teeter teeter tee tteeees 4 68 4 9 7 Setting of external control input enable disable 4 69 498 Reset functions ines eee eee 4 70 49 9 System information tctctetee eet eet 4 70 4 10 Response Calibration c tceee etter teeter 4 71 AAO Outline a A AAA 4 71 4 10 2 Fixed characteristics meererenncnnnnnonononononenononeness 4 72 4 10 3 Adjustment characteristics e eetet 4 73 4 10 4 Adjustment example ctctctct teeter teeta 4 76 4 11 External Signal Inputs reeeeeeee tee te tee teeter eeteee 4 80 4 12 Voltage and Current Monitor terrretternnnnnnnnnnnananonnnnnnnnnnoss 4 81 413 Measurement Function ccc se ee 4 82 BP4610 4 1 LCD Screen PND S 41 LCD Screen The LCD on the operation panel is displayed divided into several windows as shown in Figures 4 1 and 4 2 m Of OFF D A AA A A pp Mo LIT ESP yt EA Sl al foo Es he Ei G I Figure 4 1 LCD Screen Normal Display gt MESSAGE Output off caused by OVER LIMITER Press ENTER key Figure 4 2 LCD Screen Warning Display BP4610 4 1 4 1 LCD Screen NY lt lt av The various areas of the screen display the following information A Status wi
58. EXP BP4610 Step execution parameters Step transition parameters DC voltage DC current DC voltage DC current operation type 2nd parameter 0 CONST 1 KEEP 2 SWEEP Superimposed AC voltage 3rd parameter d d j y y superimposed AC current Superimposed AC voltage superimposed AC current operation 4th parameter e d i y y type 0 CONST 1 KEEP 2 SWEEP Frequency operation type 6th parameter y 0 CONST 1 KEEP 2 SWEEP Waveform 7th parameter y y 2 to 17 ARB1 to ARB16 Waveform operation type 8th parameter p dd y y 0 CONST 1 KEEP Step sync output 9th parameter 0 0 0 1 0 1 y y 2 1 03 1 1 Step sync output operation type 10th parameter y y 0 CONST 1 KEEP Step time mode Ist parameter Pr or to 0 2nd A e aaa time Step end phase enable disable 3rd parameter 0 Disable 1 Enable Step end phase 4th parameter d d y y Fixed to 0 deg Step termination AN a 0 Continue sequence y y 1 Enter Idle status 2 Enter Hold status Jump step 6th parameter 0 Go to next step number y y 1 to 255 Step number L 5 4 5 2 Program Message List A Y 2 2 Jump count 7th parameter 0 Infinite count 1 to 999 Specified count Branch 0 Step transition parameters 8th parameter 0 Branch disabled l to 255 Step number Branch 1 9th parameter 0 Branch disabled l to 255 Step number Stop Start Sequence control Hold Branch 0 Branch 1 Idle status SSTS Sequence status Run
59. For details on the procedure until display of the CONTROL select box ES refer to 4 5 2 Setting of sequence lt 2 gt Press the La and y keys to move the cursor to the item indicating the operation to be set gt gt SEQUENCE ENTER lt 3 gt Press the key to perform the selected operation BP4610 4 36 4 5 Sequence Operation Cen ttt E Operation procedure in case of operation using shortcut keys Sequence operation control is also possible via the shortcut keys under the operation panel The START STOP and HOLD keys located under SEQUENCE on the operation panel correspond to the same items in the CONTROL select box Branch control cannot be performed using the shortcut keys BIPOLAR DC POWER SUPPLY BP4610 MEASURE CV INT OEE OFF 0 Q y O Vp p S Hz SIN 62 04 62 0 26 04 26 0A b a oe TOP O SEQUENCE MENU START STOP HOLD LOCAL O O O U md 0 lt M lt HORAS v SERGE ES Wa Yue pn 1 m A le Sequence shortcut keys Figure 4 19 Sequence Shortcut Keys 4 5 4 Sequence programming When PROGRAM is selected in the SEQUENCE screen the PROGRAM screen is displayed Sequence programming is performed using the various items displayed on the PROGRAM screen The step settings are performed separately for each step Changes in waveform through the sequence are possible only through the arbitrary waves ARB1 to ARB16 Before programmin
60. Hz 0 5 dB 2 kHz to 8 kHz 1 3 dB BP4610 8 2 Aa Mw 8 2 Output ES S E Response characteristics switching Fixed characteristics or adjusted characteristics E Response calibration function If adjusted characteristics are selected as the response characteristics the response characteristics adjusted by the user can be used The distortion of the output waveform associated with the load conditions can therefore be improved through adjustments Higher or lower speed than the fixed characteristics can be achieved through adjustments Adjustments are performed by operating the three adjustment knobs located beneath the operation panel for the time constant voltage feedback amount and current feedback amount while watching the output current waveform on an external oscilloscope E Harmonic distortion 1 or less CV CC 10 Hz to 10 kHz E Rise fall time CV mode 2 5 us adjusted characteristics square wave 60 V CC mode 4 us adjusted characteristics square wave 10 A E Output impedance CV mode 7 m2 1 3 WH adjusted characteristics CC mode 10 kQ 0 45 uF adjusted characteristics E Line regulation 0 1 or less CV CC power supply voltage of 90 V to 250 V E Output DC offset Condition Input terminal short CV mode 0 1 V CC mode 0 05A NW Residual noise Condition Input terminal short measurement band 10 Hz to 300 kHz CV mode 50 mVrms or less CC mode 8 mArms or less E Output terminal M4 termi
61. IT GUT OFF l INIT RSP OFF ExT CONTROL DISABLE RESET m INFORMATION ENTER lt 2 gt Press the key to display Select box eA ma Eia FREQ UNIT Hz CANCEL E me TIME UNIT INIT OUT JFF wh INIT RSF JFF ExT CONTROL DISABLE C FE EI INFORMATION lt 3 gt Press the La and y keys to move the cursor to ON to switch the keylock to on or to OFF to switch the keylock off INIT OUT OFF INIT RSP OFF EXT CONTROL DISABLE FEET CD g g INFORMATION d ENTER CANCEL lt 4 gt Press the key to apply the setting or press the key to cancel the setting i j a FREQ UNIT Hz CANCEL Y ENTER MH E BP4610 4 63 4 9 System Menu 4 9 2 Beep sound If the beep is switched on a beep is emitted when a misoperation occurs when a key is pressed or when a modify operation is performed Upon occurrence of overload a warning sound is emitted regardless of the beep sound setting E Operation procedure lt l gt Press the A and LY keys to move the cursor to BEEP a as CONTRAST 55 COLOR a FRES UNIT Hz CANCEL EA ENTER aA INIT GUT Ore INIT RSP OFF EXT CONTROL DISABLE RESET INFORMATION CONTRAST COLOR JE g FREG UNIT Hz oe eve TIME UNIT INIT GUT OFF wh INIT RSF nes EXT CONTROL DISABLE E RESET INFORMATION lt 3 gt Press the a and y keys to move the cursor to ON to switch the beep on or to OFF
62. LALIO NET VIF ORNs ois ccs ce cacti es caiesia siete otis a 2 2 2 3 Grounding and Power Supply Connection coccococcccocccconccconnncaroncaronnararnanarnnnanans 2 4 2 9 1 Grounding a dc 2 4 2 9 2 ROWEr SUD ariadna 2 4 2 4 Connection to VO terminals sissie a eee a E tet 2 5 2 4 1 Connection to power supply input terminals c cece cece cece eee eeeeceeesnensnsnensnsesesnenes 2 5 2 4 2 Connection to output PINS cece eee eee e eee ee ee ee eeeaeeeseseaeeneesnsnseensnsnsnensnananananananes 2 6 2 4 3 Connection to USB C nnector ainia eed A a a eden AEA 2 8 2 4 4 Connection to external control I O connector oocccccccccccccococacacanonananananananannrananarannnnes 2 8 2 4 5 Connection to external signal input pin ococococococococononononnnnananacacananananananananananananana 2 10 2 4 6 Connection to monitor output PiN coocococococococonononcncacacacananacanananananannnnrnrnrnrnrnnnrnnnnninan 2 11 2 5 Power on off and Operation Check oocccococcccccococcccocococononcanaranonnanararonnnnaranannnnns 2 12 2 6 RAdIO LW li eaamedes abet 2 13 3 NOMENCLATURE 3 1 Nomenclatura o 3 1 SI Operation Panel srs csr ir cia caidas 3 1 SUZ EFONt Panel A e ea id 3 3 SS Rear Da lada di alla 3 5 3 2 ACCESS to the Volume Alea ni eeveretci a a Ea E ES 3 6 4 OPERATION 4 1 UG DS C0 SC Mi rinor erre 4 1 Aid SUS ICONS ainia ralla 4 2 4 1 2 Warning and error dsp a as 4 3 41 3 Sequence dis Dl Viciosas det 4 3 4 2 Basic Operation iia se o ia
63. M and ARBT are done for the arbitrary waveform memory specified with ARBN If no specification is made with ARBN arbitrary waveform memory 2 is used as the default To control the arbitrary waveform saved to another memory first specify the memory number with ARBN E ARBM Description Controls arbitrary waveform memory Parameter 0 Clear Setting example Clears arbitrary waveform ARBM 0 BP4610 5 15 5 3 Explanation of Each Program Message OO ES E ARBNARBN Description Specifies the memory number to be transferred and the memory number to be cleared Parameter 2to 17 Setting example Specifying arbitrary waveform memory 6 ARBN 6 Caution An error occurs 1 0 1 1s set to the parameter Note that since a waveform can also be specified during output output 1s performed even during arbitrary waveform rewrite E ARBT ARBT Description Transmits receives arbitrary waveform Parameter 42048 Data is in the 2 s complement format 1024 words 2048 bytes Setting example 1 ARBT 42048 2 higher byte of data O lower byte of data O higher byte of data 1 lower byte of data 1 lower byte of data 1023 le Refer to 5 6 Programming Cautions 5 3 6 Store recall memory E RCL Description Reads the settings Parameter 1 to 30 Setting example Reading the contents of store recall memory 5 RCL 5 Caution This operation cannot be performed during output on E SAV Description Saves the settings
64. Measures max value of AC DC Min value of AC DC However AC DC must be within 20 A Full scale 40 Ap p 0 1 Ap p resolution Measurement accuracy 1 Ap p 0 A DC 30 Ap p 500 Hz Measurement frequency band 10 kHz 3 dB BP4610 8 6 8 7 Sequence Function E S 8 7 Sequence Function The output parameters can be rapidly changed sequentially or swept The signal source is limited to internal signal or internal signal external signal input The sequence function settings are saved to battery backed up memory Number of sequences Number of steps Step time Operation within step Parameters CV mode CC mode Remark Jump count Sequence control Start Stop Hold Branch l sequence for each of the CV mode and CC mode 1 to 255 within 1 sequence 0 1 ms to 999 9999 s 0 1 ms resolution Constant or linear sweep DC voltage superimposed AC voltage frequency waveform Step sync output 2 bits DC current superimposed AC current frequency waveform Step sync output 2 bits If a sine wave or square wave is selected as the waveform the waveform cannot be changed during the sequence If arbitrary waveform 1s selected an arbitrary wave can be specified for each step 1 to 999 or continuous Starts sequence Stops sequence Maintains settings at that point in time The operation resumes at sequence start Branches to the specified step 8 8 Arbitrary Waveform Memory The arbit
65. NG INITIALIZED 6 1 Error Messages A 6 1 2 Protective function related errors Table 6 2 lists the error messages displayed when protective function related errors occur Error messages are displayed in the message display window upon detection in the case of a power failure or the next time the BP4610 is powered on in all other cases If an error message appears press the ENTER or CANCEL key Refer to 6 2 Protective Functions Emergency shutdowned caused by OVERLOAD Emergency shutdowned caused by DCPS FAILURE Emergency shutdowned caused by OVER TEMPERATURE Emergency stop caused by POWER FAILURE Emergency shutdowned caused by BOOT FAILURE Emergency shutdowned caused by RESET FAILURE Emergency shutdowned caused by FRONT PANEL FAILURE BP4610 Table 6 2 Protective Function Related Errors Operation and Required Handling Overload detection anomaly DCPS anomaly Overheating anomaly Power failure Operation panel anomaly The message is displayed the next time the power is switched on Regardless of whether or not the output is off the fact that overload was detected is displayed Upon detection of this anomaly contact NF Corporation or an NF Corporation sales representative The message is displayed the next time the power is switched on The message indicates that the fact that the DCPS output voltage range exceeded the prescribed range was detec
66. P P ma 10 A S sagal AIEEE m CANCEL ENTER gt We I o A CM TNT OM OFF a Be y of wn sizi A ALU P P ELE E thas Sa a El a LE E lt 3 gt Press the and keys to move the cursor to the digit to be changed and then turn the MODIFY dial to set the desired value When the output is on the value that is set is immediately reflected to the output m 4 Ce INT On ORE A AA y wn Ea n 5 o F F dd El Hz EIEEE qe tifa dl Ga a E CANCEL ENTER lt 4 gt Once all the digits have been set press the or key to end the setting procedure BP4610 4 23 4 4 Setting of limiters ES S 4 4 1 Shifting the output voltage range The output voltage range can be shifted through the voltage limiter settings The output voltage width can be shifted to any position from 115 V to 115 V within the maximum output voltage range of 120 Vp p However on the negative side it is limited to 5 V max and on the positive side it is limited to 5 V max DC output range _Vo When fixed to Vo limit Vo limit 124 V limit 129 Yo Figure 4 10 DC Output Range When Positive Negative Voltage Limiter Setting Difference Is Fixed to 124 V As shown in Figure 4 10 the output current range changes according to the output range In the case of the BP4610 the DC power supply voltage of the amplifier changes according to t
67. RMATION E P4610 GY Wa Elrovear DE POWER SUPPL Wer 1 BE Cc Copyright 2664 AF Corporation http www HFCOFP co P Figure 7 1 SYSTEM INFORMATION Screen BP4610 7 4 Aa Mw 7 5 Cleaning the Air Filters PD S 7 5 Cleaning the Air Filters Dust and dirt that penetrates in the BP4610 and adheres inside may absorb the water content in the air and therefore cause rusting of metal parts as well as cause a degradation in insulation performance leading to the failure of internal high voltage parts Therefore air filters which number 6 are provided to eliminate dust and dirt contained in the inflowing air at the air intake vent on the front panel The dirt adhering to the filters 1f not removed will clog up the filters and reduce the air flow causing the temperature inside the BP4610 to rise and lowering its reliability In such a case remove the dirt from the filters by washing them in water etc and reinstalling them after completely drying them 1 Hold the top end or the bottom end of the 3 Remove the air filter from the rear side of intake vent on the front panel and pull it the intake vent and clean it toward you until you hear a click 4 Using the same procedure also clean the 2 The hooks of the intake vent are released other air filters from the locks on the main unit so holding 5 Once the air filter has dried completely the left and right ends of the intake vent reinstall the intak
68. Rated Range CV EXT 42 43 Vrms or higher 500 Hz 42 43 Vrms or higher Maximum output current test using CC mode external signal input Load Shorted via current shunt resistor Measurement connection Connect the output of the external oscillator to the external signal input of the BP4610 Then connect the detection voltage of the current shunt resistor to an AC voltmeter and distortion meter and measure the current and distortion Settings After performing setting initialization set the operation mode and external oscillator frequency according to the following table Judgment Gradually increase the output voltage of the external oscillator from 1 6 Vp p the output voltage of the BP4610 is 16 Ap p 5 7 Arms and if the output voltage of the BP4610 immediately before the distortion exceeds 1 or overload occurs falls within the rated range BP4610 7 10 7 8 Performance Test CD Y indicated in the following table the operation is judged to be normal Operation Mode Setting External Oscillator Frequency Rated Range CC EXT 7 071 Arms or higher 500 Hz 7 071 Arms or higher E Harmonic distortion test using CV mode external signal input Load 6 Q resistance load Measurement connection Connect the output of the external oscillator to the external signal input of the BP4610 Then connect an AC voltmeter and distortion meter to the output terminal of the BP4610 and measure the voltage and harmonic distortion Settings After perform
69. STEM menu the settings for each check to prevent incorrect settings Also connect a 6 Q resistance load to the output terminal of the BP4610 Check during CV mode internal signal source operation Observe the voltage monitor output after connecting it to an oscilloscope The voltage of 1 100th the output voltage is monitored In this state try changing the settings listed below a number of times and check whether the BP4610 functions normally DC voltage superimposed AC voltage superimposed AC frequency superimposed AC waveform output on off voltage limiters when the voltage limiters are set to a smaller value than the output voltage while the BP4610 is outputting superimposed AC voltage clipping of the voltage frequency will occur and overload will be displayed on the LCD screen of the BP4610 Check during CC mode internal signal source operation After performing setting initialization set the operation mode to CC INT Connect the current monitor output to an oscilloscope and observe it observation of voltage V that is 1 10th of the output current A In this state try changing the settings listed below a number of times and check whether the BP4610 functions normally DC current superimposed AC current superimposed AC frequency superimposed AC waveform output on off current limiters when the current limiters are set to a smaller value than the output current while the BP4610 is outputting superimposed AC current cli
70. an NF possible defective Corporation sales representative Raise the contrast of the LCD Even in an operating environment where the LCD Nothing is displayed on l display cannot be made out the contrast can be adjusted The LCD contrast is too low the LCD by simultaneously pressing the ENTER key and CANCEL key At this time the digit cursor is on the decimal position The BP4610 has not been sufficiently Warm up the BP4610 for 30 minutes or longer after warmed up power on The ambient temperature and l o 2 Use the BP4610 in an environment that matches ambient humidity are not within the ee i the specification ranges The output value differs guaranteed operation range from the set value You want to output only AC but the DC setting is not 0 Or you l Make the settings of outputs that are not needed want to output only AC but the as superimposed AC setting is not O The USB ID differs from the Set a USB ID that matches the program External control via USB program is not possible The USB ID is the same as that l Set an USB ID that is unique of another device don t get the result as The explanations in the user s manual assume the default described in the user s Execute setting initialization settings Initialize the settings manual CF Refer to 4 9 8 Reset function BP4610 6 8 MAINTENANCE BP4610 7 1 7 2 7 3 7 4 7 5 7 6 7 1 7 8 Introduction cert tee
71. and Power Supply Connection in this instruction manual Prior to connecting the power supply check that the voltage of the power supply matches the rated power supply of the product The rear part vent of the product may reach high temperatures when the product operates for a long time with a heavy load Be careful not to touch the rear part of the product to avoid burns All the accessories peripherals and options of this producdt are exclusively for this product These products are not to be installed nor used for any other purposes besides their intended usage To prevent electric shock and failure absolutely never insert foreign objects or allow liquids inside this product To prevent electric shock and failure make sure that the metal parts of connection cables are hidden O In case of suspected anomaly If this product emits smoke an abnormal smell or abnormal noise immediately power it off and stop using it If such an anomaly occurs do not use this product until it has been repaired and immediately report the problem to the location of purchase either NF Corporation or your distributor Do not use this product when gas 1s present as this may cause an explosion BP4610 11 O Do not remove the cover This product contains high voltage parts Absolutely never remove its cover Even when the inside of this product needs to be inspected do not touch the inside All such inspections are to be performed by service technicians desi
72. been set press the or key to end the setting procedure BP4610 4 19 4 3 Basic Functions EEG YZ 4 3 6 Setting of waveform The BP4610 allows selection of a sine wave square wave or one of 16 arbitrary waves as the waveform to be output via the operation panel Arbitrary waves are created through data transfer via the USB interface When output is on the superimposed AC voltage waveform and superimposed AC current waveform cannot be changed To change the waveform set switch off the output The waveforms listed in Table 4 11 can be selected Table 4 11 Superimposed AC Voltage Waveform and Superimposed AC Current Waveform List Display on Operation Panel ARBl to ARB16 Arbitrary wave 16 types E Operation procedure lt l gt Press the La and y keys to move the cursor to the icon 4 Fae ks OFF OFF A AA A ALU P P fo Ceci SED EEE CANCEL ENTER gt a be Mi El a LE SE ae om Als HE al E EN En SERE Le mai kal d E BP4610 4 20 4 3 Basic Functions CD Y lt 3 gt Press the La and y keys to move the cursor to the waveform to be output EJ EN CANCEL ENTER gt SERE Le B Ble YB E ENTER lt 4 gt Press the key to set the selected waveform BP4610 4 21 4 4 Setting of limiters Aa S 4 4 Setting of limiters To protect the load the BP4610 has output voltage and output current limiter functions implemented through hardwar
73. brator knobs counterclockwise all the way After performing setting initialization switch on the response calibrator the AC voltage to 100 Vp p the frequency to 10000 Hz and the waveform to square wave Connect the voltage monitor output to the oscilloscope and observe it The voltage 1 100th the output voltage 1s monitored In this state turn all the knobs of the response calibrator and check whether the rise and fall characteristics of the square wave change The degree of change varies according to the knobs Once the check has been completed turn all three knobs of the response calibrator counterclockwise all the way and switch off the response calibrator E Check during CC mode adjusted characteristics operation Lift the operation panel and turn the three response calibrator knobs counterclockwise all the way After performing setting initialization switch on the response calibrator and set the AC current to 10 Ap p the frequency to 10000 Hz and the waveform to square wave Connect the current monitor output to the oscilloscope and observe it The voltage V of 1 10th the actual output current A 1s observed In this state try changing the three response calibrator knobs and check whether the rise and fall characteristics of the square wave change The degree of change varies according to the knobs Once the check has been completed turn all three knobs of the response calibrator counterclockwise all the way and switch off the re
74. ce operation control cccccceeee eee e eee e eee eeee ease ea eaeaeeeaeaeaeaeasaeaeaeaeaeaeaeanananensnes 4 36 4S4 SCGUENCE Programming xccceiacec a a 4 37 4 5 5 Sequence memory ClO aiii vaaivavasesesptane a 4 42 4 5 6 Sequence operation setting exaMple oooocococococococococonocononononnnnnnananananarananananananananara 4 43 4 5 7 Sequence Operation executiON oococococococococonocococonoconorororonnnnnnanananananananannnrnnnanananananan 4 47 4 6 Control via External Control I O ConnectorF ooccccccococccnccococonnonaconoconnncanaronnnnnnnos 4 51 4 7 Memory FUNCION is 4 52 4 8 Remote Controlan 4 55 461 Setting OF USB ID ii A ee 4 56 4 82 SWitGh LO OCA Modei a ais 4 58 4 9 System Menta sence sudan a a a 4 61 ADA Reyli krona ado 4 63 4 9 2 BECH SOUNO eiiean a a eae aaa das 4 64 49 3 ECD contrast adjustment lil 4 65 4 9 4 Setting of LCD display Col a 4 66 4 9 5 Setting of frequency and time UNitS oocccocococcccccoconcnconocononnacararnnnarararnnananarararnnnanannns 4 67 4 9 6 Setting of operation of output and response calibrator at power on 00000 4 68 4 9 7 Setting of external control input enable disable oooconocccnocononcnnococononnararanonnanananano 4 69 4 90 RESCU TUMCUOM dan 4 70 4 9 9 System INTOrMa tiO M iii a 4 70 4 10 Response CalibratlO Ni riire aitor E aiei 4 71 AAO T QUIN aaa aa 4 71 4 102 Fixed CMalraCleniStles ia 4 72 4 10 3 Adjustment characteristics usario 4 73 4 10 4
75. d Voltage Insulation Resistance ocococococcccococonoonacorararonnananaraneanananas 8 10 Ambient Temperature Range and Ambient Humidity Range eeeeee 8 10 External Dimensions and Weight oooocococcccccoconcnconaconcanananararonnanararonnanararannanas 8 11 Output Voltage and Output Current Supply Ranges cccccccccoccccococononcananananon 8 11 Drawing of External DIMENSIONS ococcococccconccconccnoncnnannnnarannnrarnnrarnararnanarannanannns 8 16 INITIAL SETTING LIST initial Setting LIS scscsciccssecansnersctexutesatecsnnetvetenvesemcenatoretuienesamneserncvesteeuomnseenty 9 1 vil Figures Figure 1 1 Figure 2 1 Figure 2 2 Figure 2 3 Figure 2 4 Figure 2 5 Figure 2 6 Figure 2 7 Figure 2 8 Figure 2 9 Figure 2 10 Figure 3 1 Figure 3 2 Figure 3 3 Figure 4 1 Figure 4 2 Figure 4 3 Figure 4 4 Figure 4 5 Figure 4 6 Figure 4 7 Figure 4 8 Figure 4 9 Figure 4 10 Figure 4 11 Figure 4 12 Figure 4 13 Figure 4 14 Figure 4 15 Figure 4 16 Figure 4 17 Figure 4 18 Figure 4 19 Figure 4 20 Figure 4 21 Figure 4 22 Figure 4 23 BP4610 Page Block Dad Mii da 1 3 Ambient Temperature and Ambient Humidity Ranges oococococococoncncacacacananananananananano 2 2 Hand Positions when Carrying BP4610 0oocoocococcccococonconocococononcarararnnnarararannararararnanananas 2 3 Power Supply Input Terminal Siri ind 2 5 Outp t Terminals ini 2 6 Connection to Ground
76. djustment examples for the three adjustment knobs and Figures 4 26 to 4 28 show output current waveform examples for each case Table 4 25 Adjustment Example for CC Mode Inductive Load Calibration Position BP4610 4 78 4 10 Response Calibration ES S Chl rise 14 84 us po ee o ml fire eer ernie 2 A div ATT Figure 4 26 Output Current Waveform for CC Mode Inductive Load L 150 uH Chl rise 48 96 us po ee pejpej rra or ernie 2 A div Figure 4 27 Output Current Waveform for CC Mode Inductive Load L 390 uH E A A TEN E EIA OA ee eee eee A RAT A MN AN ee el TA A 0 E Chl rise maana ar roo rm aa DiR A a i i i i i ti tH E id BM dia m T y x 2 A div Figure 4 28 Output Current Waveform for CC Mode lnductive Load L 1 6 mH BP4610 4 19 4 11 External Signal Input PND S 4 11 External Signal Input The BP4610 can also be used as a high speed bipolar amplifier to which an external signal 1s input It is also possible to perform output by adding the signal of an internal signal source to an external signal input To use a signal input from external as the signal source connect this signal to the external signal input terminal EXT SIGNAL IN on the front panel For this connection use a coaxial cable with a BNC connector For the signal source settings ES refer to 4 3 1 Setting of operation mode The specifications of the external signal input terminal ar
77. e The maximum values for the output voltage and output current can each be set independently for the negative and positive range Limiting the output voltage and current to the set values 1s effective for preventing failure of the connected load Limiter setting values are separately stored in the CV and CC modes For details on the output voltage and output current supply ranges s refer to 8 18 Output Voltage and Output Current Supply Ranges Table 4 12 Limiter Setting Ranges Initial Value 117 0 V 62 0 Y 117 0 Y 62 0 V 26 0 A 26 0 A 26 0 A E Output voltage range The output voltage range of the BP4610 1s determined by the voltage limiter settings The maximum and minimum ranges of the voltage limiter are limited to 124 V and 24 V respectively and are reciprocally linked E Saving of output voltage output current setting values Limiter setting values are separately stored in the CV and CC modes E Output voltage output current setting resolution The actual setting resolution 1s approximately 0 12 V and 0 03 A A CAUTION During output of a high frequency higher than approx 1 kHz in the case of a sine wave note that the output may exceed the limiter level due to limiter operation delay BP4610 4 22 4 4 Setting of limiters PD S E Operation procedure for setting voltage limiter lt l gt Press the La and Ly keys to move the cursor to the icon 4 Cu INT ON OFF A AA A AL
78. e as follows Frequency range DC to 200 kHz Gain 100x 100 V 1 V in phase CV mode 10x 10 A 1 V in phase CC mode Gain accuracy 5 1 kHz Input impedance 10 kQ Non destructive max input voltage 5V EXT SIGNAL IN terminal DA CANCEL Figure 4 29 EXT SIGNAL IN Terminal BP4610 4 80 4 12 Voltage and Current Monitor Aa Mw 4 12 Voltage and Current Monitor To monitor the output voltage and output current use the monitor output terminal MONITOR OUT on the front panel For the connection use a coaxial cable with a BNC connector To monitor the output voltage perform connection to the Vo terminal and to monitor the output current perform connection to the Io terminal The specifications of the monitor output terminal are as follows E Output voltage monitor output Monitor ratio Monitor accuracy Frequency characteristics Output impedance 1 100 of output voltage 1 V 100 V in phase 1 2 V of output voltage 1 MQ monitor output load impedance DC to 40 kHz 0 5 dB 40 kHz to 400 kHz 1 dB 3 dB 1 kHz reference 1 MQ monitor output load impedance 500 E Output current monitor output Monitor ratio Monitor accuracy Frequency characteristics Output impedance 1 10 of output current 1 V 10 A in phase 0 2 A of output current 1 MQ monitor output load impedance DC to 20 kHz 0 5 dB 20 kHz to 200 kHz 1 dB 3 dB 1 kHz reference 1 MQ monitor outpu
79. e memory When the sequence memory is cleared the initial value is stored in the memory Refer to 9 INITIAL SETTING LIST BP4610 4 42 4 5 Sequence Operation nn ES OY 4 5 6 Sequence operation setting example The procedure for newly setting a sequence operation taking as an example the sequence shown in Figure 4 20 1s described below Output voltage Setting value of Step 5 Jump to Step 6 upon A Jumpto Step 2 external mass input KEEP setting is enabled y CONST AAA A AA on nn nn nn nn nn nn qn nn nn nnn nnn A O nn nnn nn nn nnn nnn nnn nnn en ene ent CONST SWEEP 0 00 V STOP Step 1 Step 2 Step 3 Step 4 Step 2 Step 3 Step 4 Step 5 0 1 s 0 2 s 0 1 s 0 2 s 0 2 s 0 1 s 0 2 s 0 2 s Step 6 0 3 s Elapsed time Sequence start Trigger input Figure 4 20 Sequence Transition Example in CV INT Mode Table 4 19 PROGRAM Setting List DC voltage DCVOE Paso f2so 7so soo iooo ooo Step termination STEP TERM Jump step JUMP STEP Jump count JUMP NUM Branch 0 BRANCHO Since the jump step in Step 4 is set to 2 at the end of Step 4 the operation jumps to Step 2 lt 1 gt in Figure 4 20 At this time the settings of Step 2 DC voltage value 2 50 V and DC voltage operation type KEEP as 5 00 V are incompatible but since the operation type setting always takes precedence DC voltage value 5 00 V is used Since Jum
80. e vent by performing steps pull it out in its entirety toward you until it 1 to 3 in the reverse order comes off the main unit Figure 7 2 Air Filter Cleaning Procedure Filter performance is not failproof as filter reliability can be degraded by extremely fine dirt fine powder and clogging Therefore installation of the BP4610 in a location filled with dust or dirt including fine powder or a location with high humidity where condensation can easily occur should be avoided as much as possible BP4610 7 5 7 6 Backup Battery PND S 7 6 Backup Battery The memory fe refer to 4 7 Memory Functions contents and other required parameters and data are backed up to a secondary vanadium lithium VL battery provided inside the BP4610 The BP4610 is shipped with a completely exhausted backup battery Full charging of the battery takes 50 hours while the BP4610 is connected to a power supply After that the backup battery will remain fully charged if the BP4610 is connected to a power supply for 20 or more hours a week When fully charged the backup battery can back up the internal storage elements for approximately 60 days though the backup time may vary depending on individual differences and the ambient temperature When the battery becomes degraded resulting in a shorter backup time and unsuitability for actual use have the backup battery either by NF Corporation or an NF Corporation sales representative Storin
81. ed AC current Superimposed AC voltage superimposed AC current operation type ry REQ Frequency PROGRAM CF 4 5 4 Sequence programming Frequency operation type WAVE Waveform Waveform operation type SYNC CODE Step sync output Step sync output operation type STOP PHS Step stop phase STEP TERM Step terminal JUMP STEP Jump step JUMP NUM Jump count BRANCHO Branch 0 BRANCH MEMORY Clear sequence memory ES 4 5 5 Sequence memory clear Table 4 6 MEMORY Menu Item List STORE RECALL Recall setting contents CLEAR BP4610 4 6 4 2 Basic Operation PND S Table 4 7 REMOTE Menu ltem List Item Name Setting Item Reference Switch to local mode CF 4 8 2 Switch to local mode Table 4 8 SYSTEM Menu ltem List KEYLOCK Key lock CF 4 9 1 Key lock BEEP F 4 9 2 Beep sound CONTRAST CF 4 9 3 LCD contrast adjustment COLOR LCD display colors CF 4 9 4 Setting of LCD display colors FREQ UNIT ES 4 9 5 Setting of frequency and time unit TIME UNIT INIT OUT Output on off at power on CF 4 9 6 Setting of output and response INIT RSP Response calibrator on off at power on calibrator operation at power on EXT CF 4 9 7 Setting of external control input Enable disable external control input CONTROL enable disable RESET F 4 9 8 Reset function INFORMATION Display system information Le 4 9 9 System information
82. ed Load or Measuring Instrument cccececeeeeeeeeeeeeeeneeeeeees 2 6 Connection to Output Terminals oococccccccnccncanananonacanacacacananananananannnnrnrnnnnnnnnnenrnnnnnnn 2 7 USB COMMCC COT ad coa 2 8 External Control O Connector ainia o id 2 8 EXT SIGNAL IN Terminal ai dations 2 10 MONITOR OUT Terminal naaa 2 11 Litt Operation Panel noni dia is ii 3 6 Operation Panel Lifting Metho0d ooococoncccccococoncocococoncnconaconnnnanarararnnnararararnararararnnnananano 3 6 Operation Panel Return Method isis da 3 7 LCD Screen Normal Dis play lisina AA id 4 1 LCD Screen Warning Display iii ita 4 1 Menu Teens 4 4 Modify Bosa 4 8 A o A O 4 8 EX DO O iaa 4 9 COD Sree Monai e a eaa a a a a a 4 10 Block Diagram of Signal Source BlOCK oocococcccococococcocococoncacoracononnarararnnnarararararnnananans 4 12 Frequency Characteristics for 6 Q Load in CV and CC Modes coccccccccccccconananananananns 4 18 DC Output Range When Positive Negative Voltage Limiter Setting Difference Is Fixed CONT A aun Mua dud wi teen aitanaweaes 4 24 DC Output Range When Negative Voltage Limiter Setting Is Fixed to 7 V 4 25 Basic Step Transition Example user edi sti 4 29 Sequence Status Transition Block Diagram ocococcccncccocononcononoroncnnararonnaranarararnnnananano 4 30 Example of Sequence Operation When lt Start gt Is Executed from Hold Status 4 31 Example of Sequence Operation During lt Branch gt
83. ed due to sequence memory defect Bit 3 Initialized due to waveform memory defect Bit 2 Initialized due to backup memory defect Queries the version number 1 00 Sets external control input enable disable 0 Disable 1 Enable Enabling external control input XCTL 1 5 21 5 4 Status Configuration 5 4 Status Configuration 5 4 1 Status byte Overload status summary status a ees status summary Unused seeen O 0 Unused ms o 0 Leases ave sme queue summary Standard event status summary event status aes Operation status summary sid status summary Service MAV WAR OVR Status byte register request a DIO5 oi ae DIO2 DIO1 generation Read through STB common query E gt Service request enable register tes Pe iol el a ee 1 6 eee command SRE common query BP4610 5 22 5 4 Status Configuration Aa Mw 5 4 2 Standard event statuses ESR standard event register ESE standard event enable register Power on PON User request URQ Command error CME Execution error EXE Device specific error DDE Query error QYE Request control RQC Operation completion OPC Standard event status summary Status byte bit 5 5 4 3 Message queue Message queue Queue not empt pty Message queue summary Status byte bit 4 BP4610 5 23 5 4 Status Configuration PND S 5 44 Operation statuses OPCR operation condition register
84. ed is held to the setting value for that step 7 Held at setting value Value set to this step Time set with Step time Phase O wait time Figure 4 18 Sequence Operation upon Phase 0 Wait Occurrence BP4610 4 33 4 5 Sequence Operation nn ES 4 5 2 Setting of sequence The sequence setting method is described below e Input at every step via operation panel e Programming on PC and transmission to BP4610 via USB e Creation of sequence data with sequence editing software sold separately and transmission to BP4610 For details on the program messages during sequence operation s refer to 5 3 3 Sequence Related The operation method via the operation panel is described below E Sequence menu display procedure lt l gt Press the La and Ly keys to move the cursor to the icon a Eli OFF OFF A AA A ALU P P SE HO CLIT ra yee Ea En CANCEL ENTER gt aa ae Le 1 le dl J oo oh on oon Ca Cs BA Cd r gt gt 4 4 ENTER lt 2 gt Press the key to display the MISC screen Press the a and LY keys to move the cursor to SEQUENCE 2MISC SEQUENCE MEMORY REMOTE CANCEL 2 BP4610 4 34 4 5 Sequence Operation E Y ENTER lt 3 gt Press the key to display the SEQUENCE screen e SEQUENCE CANCEL lt 4 gt Press the La and y keys to select the operation to be performed e To control a sequence operation Select CONTROL Ie
85. een DC output voltage and conversion voltage obtained from monitor voltage 1 MQ monitor output load impedance Frequency characteristics DC to 40 kHz 0 5 dB 40 kHz to 400 kHz 1 dB 3 dB 1 kHz reference 1 MQ monitor output load impedance Output impedance 50 Q Output terminal BNC connector front panel Output current monitor output Monitor ratio 1 10 of output current 1 V 10 A in phase Monitor accuracy 0 2 A difference between DC output current and conversion current obtained from monitor voltage 1 MQ monitor output load impedance Frequency characteristics DC to 20 kHz 0 5 dB 20 kHz to 200 kHz 1 dB 3 dB 1 MQ monitor output load impedance Output impedance 50 Q Output terminal BNC connector front panel Measurement Functions DC output voltage measurement Measures AC DC average However AC DC must be within 200 V Full scale 200 V 0 1 V resolution Measurement accuracy 0 5 V within DC 115 V 0 V AC DC output current measurement Measures AC DC average However AC DC must be within 20 A Full scale 20 A 0 01 A resolution Measurement accuracy 0 1 A within DC 10 A 0 AAC AC output voltage measurement Measures max value of ACTDC Min value of AC DC However AC DC must be within 200 V Full scale 400 Vp p 1 Vp p resolution Measurement accuracy 2 Vp p DC 0 V 120 Vp p 500 Hz Measurement frequency band 10 kHz 3 dB AC output current measurement
86. elated errors mistica rl 6 2 6 1 3 EPFOFS d nn OPeratON ii ta ios cada 6 4 6 1 4 Warning display a A ts dci 6 5 6 2 Protective FUNCIONS mananan A ANA 6 6 CAT Overioad iii R 6 7 6 22 DUE a a 6 7 6 3 When Suspectingia Falla iida 6 8 7 MAINTENANCE 7 1 INTFOdUCION oo cs be weteitei eee ste a a le Nasa a a la ee 7 1 7 2 Daly MaAINtG NAN CG instan 7 1 7 3 Storage Repacking and Transportation occococcccoccococoncoroncoroncanarnnnarannaranennannnos 7 2 7 4 Version Number Verification Method cccccceceeecececeenceeeenenenensnensnseseeenenaees 7 3 7 5 Cleaning The Air FUESE as 7 5 7 6 BACKUP DAVE do Ie E 7 6 7 7 Operation INS PeCUUOM enoe a Ea o eaas dond 7 7 7 8 Peron Ce Me es 7 10 8 SPECIFICATIONS 8 1 Specification Conditions 8 1 8 2 QUEDO Larra ai 8 2 8 3 OUTPUT LIME Sii cil 8 4 8 4 Signal SourceS parias 8 5 8 5 Monitor QUIDUL ass see ee ese ica 8 6 8 6 Measurement FUNCHONS as 8 6 BP4610 vi 8 7 8 8 8 9 8 10 8 11 8 12 8 13 8 14 8 15 8 16 8 17 8 18 8 19 9 1 BP4610 Contents a a FUN GUO AAA AP r tes ches gosaecessedeceesesetaseeasaces 8 7 Arbitrary Waveform MeMory ococcccococcccoconcoconcoconcoronnarannnnarannararnararnararnnnarannanananens 8 7 Seting Memo a a a a aaa a aa iaaa 8 8 POLE CLIVE FUNCION Sii 8 8 OTST A O 8 8 External Control WO vrcccscescentsccnsewuctesceutccrosscuateeeweateecauseceaneebetnecenrsnseaceaceneeeeheceoute 8 8 USB MENICE onna dia 8 9 POW GF Input da 8 10 Withstan
87. eld internally for each step so multiloop is also possible Figure 4 16 shows the loop specification method and the step transitions Step4 e Jump step 0 e Jump count NoCare Specified count 10 times Go to Jump step Step5 e Jump step 0 e Jump count NoCare Specified count 10 times After jump go to the next step number Step6 e Jump step 5 e Jump count 10 Specified count 3 times Go to Jump step Step7 e Jump step 4 e Jump count 3 Figure 4 16 Loop Specification Method and Step Transition Example CAUTION Jump count indicates the number of times jump is to be performed Therefore the loop count is equal to the jump count 1 In the above example the jump count is specified as 10 in Step 6 so the number of times Step 5 and Step 6 are executed is 11 BP4610 4 32 4 5 Sequence Operation nn E OY E Step sync output The code described in the step under execution is output to the external control I O connector However False is output during regular output steps Step sync output bitO True False Step 1 Step 2 Step 3 Step 4 Step 5 Time Step sync output 0 1 0 0 1 Figure 4 17 Step Sync Output Example E Setting of step end phase If the step end phase has been enabled the step execution time is as follows Time until the set step time superimposed AC phase becomes 0 Moreover the operation after the set step time has elaps
88. equence starts lt Start gt In the case of the Hold status the sequence resumes from the point in time when lt Hold gt is executed If the status changes to the lt Hold gt status with Step termination the status changes to Jump step at the same time as lt Start gt and the sequence restarts The status changes to the Hold status The status changes to the Idle status The status immediately changes to regular output step Doj At this time the value at lt Stop gt is held for the Output parameter of the regular output step The step changes to the step specified with Branch step lt Branch gt The status changes Branch step from the output status at the point in time when lt Branch gt was executed STEP 2 setting e Last value e Step time Output parameter Step 1 Step 2 Step 3 Time Figure 4 14 Example of Sequence Operation When lt Start gt Is Executed from Hold Status Step 2 settings e Last value e Step time e Branch step 5 Output parameter paan Step 5 settings e End value of previous step Step 1 2 Step 2 Step 5 Time Figure 4 15 Example of Sequence Operation During lt Branch gt BP4610 4 3 4 5 Sequence Operation nn ES E Sequence loop Sequence loop also allows the entire sequence or any step block within the sequence to be looped This is achieved with Jump step and Jump count specified for each step A jump counter for counting the number of jumps is h
89. er that in the case of products that have been purchased 5 or more years before several days may be needed in order to procure the needed repair parts Also note that if repair parts are no longer manufactured or in the case of remarkable damage or modification of the product NF Corporation reserves the right to refuse repair IMPORTANT 1 Reproduction of this instruction manual either in part or in whole is strictly prohibited The contents of this instruction manual are subject to change without notice Although great care has been taken to ensure the accuracy and completeness of the information contained in this user s manual please notify NF Corporation or an NF Corporation sales representative in case any unclear points errors or omissions are found 4 NF Corporation shall not be held responsible for any errors defects lost profits or other consequential damages arising from the use of this product regardless of item 3 above BP4610 User s Manual NF Corporation 6 3 20 Tsunashima Higashi Kohoku ku Yokohama 223 8508 Japan TEL 81 45 545 8111 http www nfcorp co jp Copyright 2005 NF Corporation http www nfcorp co jp ast TXT BO ZOJ RTT ME RE 3 20 7223 8508 045 545 8111 1
90. er in which they have been saved e If during interpreting and execution an illegal program message is discovered the execution of this and subsequent program messages stops e When interpreting and execution are completed the input buffer is cleared and the next program messages can be input The USB program messages of the BP4610 are indicated below Outline of program messages Es Refer to Table 5 1 Basic Settings and Table 5 9 Other Details in alphabetical order for each function Es Refer to 5 3 Explanation of Each Program Message BP4610 5 2 5 2 Program Message List A Y Table 5 1 Basic Settings 0 CV INT 1 CV EXT 2 CV ADD MODE _ Function mode 3 CC INT 4 CC EXT 5 CC ADD 0 Off OUTP Output on off 1 1 y y 1 On Response calibrator 0 Off RCAL og e 1 On VOLT DC voltage l 115 00 00 1 115 00 00 oo 01 ACVL Superimposed AC voltage 120 0 go A 10 000 10000 0001 ES ACCU _ Superimposed AC current 30 00 oo oo Superimposed AC frequency 100000 0 0 SIN Superimposed AC 1 SQU 2 to 17 ARBI to Table 5 2 Limiters LMVP 117 0 MVM voltagetimiter o ro ot fv y ter eamentints asco too on Py y mem currenttimiter o 2600 or Y y BP4610 5 3 5 2 Program Message List Aa Mw Table 5 3 Sequence Related 1 2 Header Setting Query SLEN Specifiessequencelength Fiedezss ams fenaa a s i S
91. erformed by moving three adjustment knobs on the internal part of the operation panel for the time constant voltage feedback amount and current feedback amount while watching an oscilloscope E Output voltage and output current signal monitor output The monitor ratio for the voltage is 1 100th of the output voltage and the monitor ratio for the current is 1 V 10 A both in phase E Measuring function This function 1s used to measure and display the output voltage and current DC value and P P value for each E Output on off function During output on off switching the output level output voltage during CV output current during CC is lowered to 0 and then output relay opening closing is performed to minimize contact arc NE USB interface provided as standard External control can be performed from a PC etc via the USB interface E Support of worldwide power supply inputs The power supply input can be switched from 90 V to 250 V The consumption current can be minimized with the PFC input power factor control function BP4610 1 2 1 3 Principle of Operation PND S 1 3 Principle of Operation Figure 1 1 shows a block diagram of the BP4610 gt E POE aT TD a A XN O I 7 EXT SIGNAL IN Le lt i EXT l AS AA sE E o o o A kaadaa l i c ES i OUTPUT ea AMP PRO o it l i E la CONTROL TECTOR j e d Ce A ol Lo i INTDC O0 ALI Ais Y g io a POWER MIT l INT OSC i AMP l s
92. ess the key to display the REMOTE screen Press the A and LY keys to select USB ID REMOTE USB ID LOCAL ao BP4610 4 56 4 8 Remote Control CD Y ENTER lt 4 gt Press the key to display the Modify button 2 REMOTE So s lt 5 gt Press the lt and gt keys to move the cursor to the digit to be changed and turn the MODIFY dial to set the desired value REMOTE ENTER lt 6 gt Once all the digits have been set press the key to set the USB ID Or to cancel the setting and leave the USB ID unchanged press the al BP4610 4 57 4 8 Remote Control 4 8 2 Switch to local mode Switching from the remote mode to the local mode can be done in the following three ways e Transmission of interface message GTL e Operation via shortcut keys e Operation via menu The operation procedures are described below E Operation procedure operation via shortcut keys Press the LOCAL shortcut key to switch to the local mode SEQUENCE MAIN START STOP HOLD LOCAL Or This operation cannot be performed during keylock and local lockout During keylock release keylock before switching to the local mode Ie Refer to 4 9 1 Keylock In local lockout the icon is displayed in the Status window on the LCD screen If local lockout is enabled switch to the local mode using an interface message BP4610 4 58 4 8 Remote Control CD Y E Operation procedure opera
93. etting 1s limited to 24 V or higher and 124 V or under The specifications of the output voltage limiters are as follows e Positive voltage setting range 7 V to 117 V Resolution 0 1 V Vo limit e Negative voltage setting range 7Vto l17V Resolution 0 1 V Vo limit e Setting accuracy 1 V DC 4 4 3 Output current limiters The maximum output current can be limited through output current limiter settings The source current is positive Depending on the operating conditions the output current may be limited to a narrow range due to the current limiter settings S Refer to 8 18 Output Voltage and Output Current Supply Ranges The specifications of the output current limiters are as follows e Positive current setting range 1 Ato 26 A Resolution 0 1 A Io limit e Negative current setting range 1 A to 26 A Resolution 0 1 A Io limit e Setting accuracy 1 A using DC within 10 A BP4610 4 26 4 5 Sequence Operation E Y 45 Sequence Operation 4 5 1 Sequence operation specifications The BP4610 allows the output voltage and output current to be freely programmed using the sequence function In addition to basic oscillation the sequence function can be used as the signal source of the power supply for specification testing such as power supply environment testing and automotive electronics testing For example by programming in advance a series of voltage change patterns for use
94. etting initialization has been performed set the operation mode and the DC output current according to the following table Judgment If the difference between the DC current measurement display value of the BP4610 and the current value measured with the DC voltmeter falls within the rated ranges in the following table the operation is judged to be normal Operation Mode Setting DC Output Current Setting Rated Range CC INT 0 1 to 0 1 A 0 1 to 0 1 A BP4610 7 14 8 SPECIFICATIONS 8 3 8 4 8 5 8 6 8 8 8 8 9 8 10 8 11 8 12 8 13 8 14 8 15 8 16 8 17 8 18 8 19 Output Limiters ttre 8 4 Signal Sources errtrttrrrrrnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn crees 8 5 Monitor Output eterrrettrrnrnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnrennnnnrennnas 8 6 Measurement Functions A A wane Oa eon eters 8 6 Sequence Function 11ers 8 7 Arbitrary Waveform Memory esettttecrennnnnnnnnnnnnnnnnnanannnnos 8 7 Setting Memory rrr ees 8 8 Protective Functions ds A ee a On E aa DN araa aaa ee eer Tie 8 8 General A A ES E ER E E CORE eT ER EEE EER ae 8 8 External Control I O O o os 8 8 USB Interface A TA A E AS A RRA AA 8 9 Power Iputrerrrrrrrrrerrrrrornnnnnn nn nnnn ees 8 10 Withstand Voltage Insulation Resistance tetrrrrtereros 8 10 Ambient Temperature Range and Ambient Humidity Range ee A Ce ee re re rc re reer 8 10 External Dimensions and Weight PURE CER EERE ERE CREO RE OR Ee ee 8 11 Output Voltage and Output Current Su
95. eys to move the cursor to the icon with the DC voltage setting or the icon with the DC current setting SS CY INT OFF OFF a ALU P P Fa Wok y E En K EE a fell Li E BP4610 4 15 4 3 Basic Functions CD Y lt 3 gt Press the and keys to move the cursor to the digit to be changed and then turn the MODIFY dial to set the desired value When the output is on the value that is set is immediately reflected to the output 4 a f eq El El m B cof A A Upp S Hz K fe A y G2 Bu lt 26 04 En i a CANCEL ENTER lt 4 gt Once all the digits have been set press the or key to end the setting procedure 4 3 4 Setting of superimposed AC voltage and superimposed AC current To superimpose an AC voltage on the DC output voltage of the BP4610 or to output only an AC voltage CV INT or CV ADD mode set the superimposed AC voltage via the operation panel e Setting range 0 Vp p to 120 Vp p e Resolution 0 1 Vp p To superimpose an AC current on the DC current of the BP4610 or to output only an AC current CC INT or CC ADD mode set a superimposed AC current via the operation panel e Setting range 0 Ap p to 30 Ap p e Resolution 0 01 Ap p E Operation procedure lt I gt Press the La and y keys to move the cursor to the icon when superimposed AC voltage is set or the I icon when superimposed AC current is
96. f the case of resistant stain use a cloth that has been moistened with a neutral detergent and then thoroughly wrung Wiping the BP4610 using an organic solvent such as thinner or benzene or a premoistened wipe may cause degradation in material quality clouding or flaking off of the paint and must therefore be avoided O Cautions when carrying the BP4610 The BP4610 is heavy Attempting to carry it by oneself may cause back injury and other types of injuries When carrying the BP4610 be sure to hold it with the hands at the locations indicated in Figure 2 2 with another person or use some carrying apparatus Figure 2 2 Hand Positions when Carrying BP4610 CAUTION If the BP4610 is exposed to sudden shifts in ambient temperature and or humidity during transporation in the winter internal condensation may occur In such a case allow the condensation to clear before connecting the BP4610 to a power supply BP4610 2 3 2 3 Grounding and Power Supply Connection PND S 2 3 Grounding and Power Supply Connection 2 3 1 Grounding AX WARNING To prevent the risk of electric shock observe the following points The BP4610 uses a line filter The leakage current is a maximum of 0 5 mArms at 250 V and 62 Hz and touching metal parts with one s hands may cause electric shock Therefore be sure to ground the BP4610 for safe use Before connecting the output terminal be sure to connect the protective grounding terminal T
97. feedback amount while observing the output voltage and output current waveform with an external oscilloscope The loop characteristics of the amplifier can be changed with these three adjustment knobs and the output impedance characteristics changed by an equivalent amount As a result distortion of output waveform can be minimized for a broad range of load conditions E Operation procedure lt 1 gt Switch off the output lt 2 gt To be able to observe the output voltage waveform and output current waveform connect an external oscilloscope and the voltage current monitor terminals MONITOR OUT with a BNC cable MONITOR OUT terminals lt 3 gt Pull the operation panel toward you and then lift 1t ze Refer to 3 2 Access to Volume Section Now you can access the three adjustment knobs beneath the operation panel T volume Adjusts the time constant V volume Adjusts the voltage feedback amount I volume Adjusts the current feedback amount BP4610 4 73 4 10 Response Calibration Aa Mw lt 4 gt Check that each volume is turned to the left most position A click can be heard when the volume reaches the left most position RESPONSE CAL lt 5 gt Connect the load lt 6 gt Press the La and y keys to move the cursor to the icon of wn El 4 PRS Na E CANCEL ENTER Ma MM ES a Es Gal ood Eil 4 E Be P a ENTER gt KA Wok E Ls o
98. g changes in waveform set the output waveform to arbitrary wave beforehand To execute a sequence using a sinewave or square wave set the sine wave or square wave output to on before the start of the sequence While executing a sequence with a sine wave or square wave the waveform in that sequence cannot be changed For the output method for sine wave square and arbitrary waves Le refer to 4 3 6 Setting of waveform The various items displayed on the PROGRAM screen are listed in Table 4 18 BP4610 4 37 4 5 Sequence Operation Table 4 18 PROGRAM Screen Item List tem Name Operation w o STEP Step No i Setting range to 255 Specifies the duration of the specified step TIME Step time Setting range 0 0001 s to 999 9999 s Setting resolution 0 0001 s Sets the DC voltage in the CV mode DC VOLT DC voltage Setting range 115 00 V to 115 00 V Setting resolution 0 01 V Sets the DC current value in the CC mode DC CUR DC current Setting range 10 000 A to 10 000 A Setting resolution 0 001 A Sets the type of transition to the specified DC voltage value and DC current value The type of transition can be selected from the following three DC voltage DC current e CONST Output of the specified value operation type e KEEP Output of the last value of the previous step e SWEEP Output started with the last value of the preceding step with linear sweep outputting the specified value at the end of the step Sets the
99. g internal signal source external signal source and internal signal source external signal source E Internal signal source e Current Amplitude setting range Amplitude setting accuracy e Superimposed AC Waveform Frequency setting range Frequency accuracy Amplitude setting range Amplitude setting accuracy E External signal input Gain Gain accuracy Input impedance 115 V 0 01 V resolution CV mode 10 A 0 001 A resolution CC mode 10 5 of setting value 0 2 V CV mode AC 0 V 23 Q resistance load DC only 23 5 C 10 5 of setting value 0 03 A CC mode AC 0A DC only 23 5 C Sine square arbitrary 16 types 1 Hz to 100 kHz 0 1 Hz resolution 100 ppm 0 to 120 Vp p 0 1 Vp p resolution CV mode 0 to 30 Ap p 0 01 Ap p resolution CC mode 0 5 of setting value 0 2 Vp p CV mode DC 0 V AC only 500 Hz square wave 23 5 C 0 5 of setting value 0 03 Ap p CC mode DC 0 A AC only 500 Hz sine wave 4 Q resistance load 23 5 C 100x 100 V 1 V in phase CV mode 10x 10 A 1 V in phase CC mode 5 1 kHz 10 kQ Non destructive max input voltage INV Input terminal Frequency range BP4610 BNC connector front panel DC to 200 kHz 8 5 8 5 Monitor Output 8 5 Aa Mw Monitor Output Output voltage monitor output Monitor ratio 1 100 of output voltage 1 V 100 V in phase Monitor accuracy 1 2 V difference betw
100. g the BP4610 for 6 months or loner without powered it on will reduce the useful life of the backup battery so it is recommended to power on the BP4610 from time to time The backed up contents are checked at power on and if the contents have become degraded an error message is displayed Le refer to 6 1 Error Messages and the values of the BP4610 are reset to the initial values le refer to 4 7 Memory Functions If the backed up contents have been lost due to battery exhaustion the icon blinks BP4610 7 6 7 1 7 7 Operation Inspection A S Operation Inspection Verification before operation inspection Before performing operation inspection check the following items e Is the supply voltage within the rated range e Is the ambient temperature within the range of 5 to 35 C e Is the ambient humidity within the range of 5 to 85 RH with absolute humidity of 1 to 25 g m e Is there any condensation Check at power on Check that on error is displayed at power on Check that the UNCAL icon and battery icon are not blinking If an error is displayed Le refer to 6 1 1 Errors at power on LCD screen check Check that the characters icons and lines displayed on the LCD screen are not displaced do not flicker and free of bleeding Conditions during operation mode specific function check When performing the following operation mode specific function checks first initialize execute RESET in the SY
101. gnated by NF Corporation O Do not modify this product Absolutely never modify this product as this may cause new hazards and may disqualify this product from repair in case of failure O Safety related symbols The general definitions of the safety related symbols used on this product and in the instruction manual are provided below Instruction Manual Reference Symbol This symbol is displayed to alert the user to potential danger and refer him her to the instruction manual AN Electric Shock Danger Symbol This symbol indicates locations that present a risk of electric shock under specific conditions WARNING Warning Symbol This symbol indicates information for avoiding danger to human life or bodily injury such as electric shock while handling this product N CAUTION Caution Symbol This symbol indicates information for preventing damage to the product when handling it O Other symbols This symbol indicates the on position of the power switch O This symbol indicates the off position of the power switch aie This symbol indicates that the external conductor of the connector is connected to the case BP4610 111 Contents Page 1 OVERVIEW 1 1 GSE INC A A eee acer te entree ee ihe pec eS A oe at 1 1 1 2 A CS asec aise vs css te rate tne sive eso gee apo eee TA 1 1 1 3 Principle of Operation ii o o eee 1 3 2 PREPARATIONS BEFORE USE 2 1 Before Using the BP461 0 iia 2 1 2 2 TSCA
102. h as the operation panel being disconnected from the main unit the output and power are both switched off 8 11 General LCD display settings Contrast Adjustable Display color Blue or white Beep On or off If on a beep is emitted during key operation and malfunction A warning sound is emitted upon overload detection regardless of this setting Keylock On or off In the on status only keylock off operation and output off operation are possible Output setting at power on On or off When on the output is automatically switched on at power on Response characteristics setting at power on On or off When on the response characteristics are automatically set to adjusted characteristics at power on Reset function Returns the basic settings to the factory default settings Self diagnosis function Performs check of each memory at power on 8 12 External Control I O E External control operation mode BP4610 8 8 8 13 USB Interface Y a Y Enabled or disabled Status output is always on E Control input Input level High level 4 0 V or higher Low level 1 0 V or lower Non destructive max input 10 V 5 V Input impedance Pulled up to 5 V with 47 kQ Control items Output OFF Output off at fall Output ON Output on at fall Sequence start Sequence start at fall Sequence stop Sequence stop at fall Hold input Hold at fall Branch input 0 1 Branch start at fall NW Status output Output level 0 5 V
103. he voltage limiter value to obtain an output that is as large as possible The outputable power is maximum when the limiter width is set to the maximum of 124 V Note that in a case such as the one shown in Figure 4 11 the maximum output current does not increase as much as shown in Figure 4 10 even 1f the positive voltage limiter is lowered BP4610 4 24 4 4 Setting of limiters PND S DC output range Vo When fixed to Vo limit 7 V limit limit po 2 V V lt 1 gt 117 lt 2 gt 102 lt 3 gt 82 lt 4 gt 62 lt 5 gt 42 lt 6 gt 22 11 10 9 8 7 6 5 4 3 2 Figure 4 11 DC Output Range When Negative Voltage Limiter Setting Is Fixed to 7 V If the BP4610 is to emphasize the 2nd quadrant or 4th quadrants taking in power to maximize the take in power amount lower the negative voltage limiter as much as possible for the 2nd quadrant or the positive voltage limiter for the 4th quadrant BP4610 4 25 4 4 Setting of limiters PND S 4 4 2 Output voltage limiters By setting output voltage limiters the maximum output voltage 1s limited and the output voltage and output current supply ranges are determined Depending on the operating conditions the output voltage may be limited to a narrow range due to the voltage limiter settings Cs Refer to 8 18 Output Voltage and Output Current Supply Ranges The difference between the positive voltage setting and the negative voltage s
104. he factory settings The BP4610 cannot be reset when output is on Reset the BP4610 in the output off status For the setting values after reset Ie refer to 9 INITIAL SETTING LIST E Operation procedure lt l gt Press the A and LY keys to move the cursor to RESET T T ME J IT Fa INIT OUT OFF INIT Geer OFF EXT CONTROL DISABLE RESET Y INFORMATION ES E E KA INIT OUT OFF INIT RSF OFF EXT CONTROL DIS RESET EXEC INFORMATION gt ENTER lt 3 gt Press the key while EXEC is selected to reset the BP4610 4 9 9 System information The firmware version number and other system information can be displayed by selecting INFORMATION on the SYSTEM screen For how to display system information ES refer to 7 4 Version Number Verification Method BP4610 4 70 4 10 Response Calibration AD S 4 10 Response Calibration 4 10 1 Outline The BP4610 has a response calibration function that allows individual optimization of transient response characteristics during square wave output or sudden output changes The transient response varies with the load for loads that have complex impedance characteristics such as electromagnetic parts that include inductance coil components or capacitance capacitor components The BP4610 allows the user to adjust the response characteristics according to the load The response characteristics of the amplifier can be selected from the following
105. he protective grounding terminal of the BP4610 is the grounding terminal of the supplied 3 terminal electric cord Be sure to insert the power supply plug in a 3 terminal power supply outlet that has a protective grounding contact 2 3 2 Power supply A CAUTION Before connecting the BP4610 to a power supply make sure that the voltage of the power supply outlet falls within the power supply voltage range of the BP4610 as an out of range voltage may damage the BP4610 e The power supply conditions of the BP4610 are as follows Voltage 90 V AC to 250 V AC Frequency 47 Hz to 63 Hz single phase Max power consumption 1 200 V AC in case of 100 V AC supply voltage O Use the supplied power supply cord set when connecting the BP4610 to a power supply outlet O The power supply cord for use in Japan provided with the BP4610 is designed for use with this product only Do not use it for other products or applications O Be careful about which power supply outlet the power supply cord is connected to and the routing of the cables so as not to disconnect the power supply cord by mistake N WARNING This product contains high voltage parts Absolutely never remove its cover All internal inspections of this product are to be performed only by service technicians well trained in hazard control BP4610 2 4 2 4 Connection to I O terminals CD Y 2 4 Connection to I O terminals 2 4 1 Connection to power supply input terminals
106. ing setting initialization set the operation mode and external oscillator frequency according to the following table Set the output voltage of the external oscillator to 1 2 Vp p Check that the output voltage of the BP4610 is 120 Vp p Judgment If the harmonic distortion of the output voltage of the BP4610 falls within the rated ranges indicated in the following table the operation is judged to be normal Operation Mode Setting External Oscillator Frequency Rated Range CV EXT 10 kHz E Harmonic distortion test using CC mode external signal input Load 6 Q resistance load Measurement connection Connect the output of the external oscillator to the external signal input of the BP4610 Then connect an AC voltmeter and a distortion meter to the output terminal of the BP4610 and measure the voltage and frequency distortion Settings After performing setting initialization set the operation mode and external oscillator frequency according to the following table Set the output voltage of the external oscillator to 2 Vp p Check whether the output voltage of the BP4610 is 120 Vp p 20 Ap p If overload seems likely to occur slightly lower the output voltage of the external oscillator Judgment If the harmonic distortion of the output voltage of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal Operation Mode Setting External Oscillator Frequency Rated Range CC EXT 10 kHz E Output DC
107. ion DC to 0 5 kHz 0 5 kHz to 70 kHz 70 kHz to 150 kHz Condition DC to 0 5 kHz 0 5 kHz to 40 kHz 115 V Vo limit 117 V Vo limit 7 V setting 23 Q load resistance 115 V Vo limit 7 V Vo limit 117 V setting 23 Q load resistance Adjustment characteristics external signal input 60 V 6 Q load resistance 60 V 4 Q load resistance 50 V 4 Q load resistance Fixed characteristics external signal input 60 V 6 Q load resistance 60 V 4 Q load resistance E Maximum output current CC Condition DC to 0 5 kHz 0 5 kHz to 30 kHz 30 kHz to 70 kHz Condition DC to 0 5 kHz 0 5 kHz to 3 kHz 3 kHz to to 10 kHz Adjusted characteristics external signal input 10 A 6 Q load resistance 15 A 4 Q load resistance 8 3 A 6 Q load resistance Fixed characteristics external signal input 10A 6 Q load resistance 15A 4 Q load resistance 13A 4 Q load resistance E Output voltage current supply range ls Refer to 8 18 Output Voltage and Output Current Supply Ranges E Small amplitude frequency characteristics Condition Output amplitude 12 Vp p 500 Hz reference adjusted characteristics CV mode DC to 20 kHz 0 5 dB 20 kHz to 200 kHz 1 3 dB CC mode DC to 20 kHz 0 5 dB 20 kHz to 70 kHz 1 3dB Condition Output amplitude 12 Vp p 500 Hz reference fixed characteristics CV mode DC to 10 kHz 0 5 dB 10 kHz to 35 kHz 1 3 dB CC mode DC to 2 k
108. ion can be selected from the following three e CONST Output of the specified waveform e KEEP Output of the waveform of the previous step BP4610 4 38 4 5 Sequence Operation E Y Sets the code 2 bits to be output in sync during step execution The sequence step transition can be checked by observing the step sync output Bit 0 is output from pin 5 DOUTS of the external control I O connector and bit 1 is output from pin 6 DOUT6 SYNC CODE Step sync output The ep sync output can be EER from lali four types The code is made up of the values of bits 1 and 0 in this order In the Idle status the code is 0 0 e 0 0 e0 1 e 1 0 el 1 Specifies the output method for step sync output The output method can Step sync output operation be selected from the following two types type e CONST Output of specified code e KEEP Output of same code as the previous step sor a Specifies step end phase 0 deg fixed enable disable The setting can be selected from the following two STOP PHS Step end phase e DISABLE Disable e FNABLE Enable Sets the operation following step end The setting can be selected from STEP TERM Step termination e STOP Enter Idle status e HOLD Enter Hold status Sets the step number to be jumped to after step end JUMP STEP Jump step e Q Jump to next step number e to255 Jump to the specified step number pst ie Sets the number of times specified with JUMP STEP that the jump operation is t
109. is used to power on off the BP4610 lt 11 gt Intake vent This is the vent for intaking air for cooling the BP4610 Periodically clean the filter le Refer to 7 5 Cleaning the Air Filter lt 12 gt EXT SIGNAL IN This is the connector used to input an external signal Es Refer to 2 4 5 Connection to external signal input terminal lt 13 gt MONITOR OUT Vo This 1s the voltage monitor output terminal Es Refer to 2 4 6 Connection to monitor ouput terminal BP4610 3 3 3 1 Nomenclature EG YZ lt 14 gt MONITOR OUT lo This is the current monitor output terminal Es Refer to 2 4 6 Connection to monitor output terminal lt 15 gt T volume This volume is used to adjust the time constant Es Refer to 4 10 Response Calibration lt 16 gt V volume This volume is used to adjust the voltage feedback amount le Refer to 4 10 Response Calibration lt 17 gt volume This volume is used to adjust the current feedback amount le Refer to 4 10 Response Calibration BP4610 3 4 3 1 Nomenclature me 3 1 3 Rear panel 3468 lt 18 gt lt 20 gt AQUTPUT lt 22 gt lt 21 gt lt 18 gt Output pin This is the voltage and current output pin The Lo side is internally connected to the chassis Es Refer to 2 4 2 Connection to output pin lt 19 gt Exhaust vent This 1s the vent for exhausting the cooling air of the BP4610 lt
110. ltage within the rated range e Is the ambient temperature within 23 5 C e Is the ambient relative humidity within the range of 20 to 70 RH e Is there any condensation e Has the BP4610 been warmed up for 30 minutes or longer Preparations prior to performance testing Use a cable with a cross section of 2 mm or more and a length of 2 m or less for connecting the load The setting contents of each test item include items that can be changed after performing setting initialization by executing RESET in SYSTEM menu After checking the setting contents switch on the output Maximum output voltage test using CV mode external signal input Load 6 Q resistance load Measurement connection Connect the output of the external oscillator to the external signal input of the BP4610 Then connect an AC voltmeter and distortion meter to the output terminal of the BP4610 and measure the voltage and distortion Settings After performing setting initialization set the operation mode and external oscillator frequency according to the following table Judgment Gradually increase the output voltage of the external oscillator from 1 Vp p the output voltage of the BP4610 is 100 Vp p 35 4 Vrms and if the output voltage of the BP4610 immediately before the distortion exceeds 1 or overload occurs falls within the rated range indicated in the following table the operation is judged to be normal Operation Mode Setting External Oscillator Frequency
111. mance 5 to 85 RH 5 to 35 C Guarantee Absolute humidity of 1 to 25g m with no condensation Storage 5 to 95 RH B 10 to 50 C Conditions Absolute humidity of 1 to 29g m with no condensation Setting the BP4610 in a location with remarkably high humidity will lower its reliability Use in an environment with 25 C and 50 RH is recommended Figure 2 1 shows the ambient temperature and the ambient humidity ranges oon TO lt lt lt ie iN 80 70 60 50 40 30 20 10 Figure 2 1 Ambient Temperature and Ambient Humidity Ranges O Place the BP4610 so that its air intake front and air exhaust rear vents are at a distance of 50 cm or more from the nearest walls to ensure that the air circulation 1s not impeded and that forced air cooling of the product functions fully O Absolutely never place the BP4610 in the following locations Outdoors Location exposed to direct sunlight BP4610 2 2 2 2 Installation Environment NY lt lt av Narrow location with poor air circulation High humidity location where condensation occurs easily Location with a large amount of dust Location with corrosive explosive or flammable gas Location where the product may be exposed to flames or water The operation panel of the BP4610 includes a liquid crystal display Be careful not to damage this display with a sharp or high temperature object If the panel or case of the BP4610 becomes dirty wipe it with a soft cloth I
112. move the cursor to the icon 4 AT JFF OFF A AA y A Ay F F SE el Hz SIN SE im LIT ESP ra ito Ea Ea WLT El E 16 Ei ifs gt MISC SEQUENCE MEMORY REMOTE Sa ENTER lt 8 gt Check that the cursor is positioned over SEQUENCE and then press the key to display the SEQUENCE screen gt gt SEQUENCE CONTROL PROGRAM MEMORY ap BP4610 4 48 4 5 Sequence Operation E Y ENTER lt 9 gt Check that the cursor is positioned over CONTROL then press the key to display the Select box gt SEQUENCE PROGRAM MEMORY CANCEL a ENTER lt 10 gt Select START and press the key to start the sequence E Operation procedure in case of operation via the keys on the operation panel lt l gt Press the key on the operation panel The output is set to on and the on off LED goes on O 1 N OUTPUT OUTPUT Output off Output on lt 2 gt Press the START shortcut key to start the sequence SEQUENCE MAIN START STOP HOLD LOCAL O O E amp BP4610 4 49 4 5 Sequence Operation Aa Mw E Operation after sequence start When the sequence starts an icon RUN indicating that the sequence is currently running is displayed in the Status window A message box that displays the number of the step currently being executed 1s also displayed Status icon indicating that sequence 1s running SEQUENCE RUNNING Number of
113. n Vo limit 7 V constant V V 117 102 82 62 42 FAA DC output range When Vo limit 7 V constant Figure 8 5 DC Output Voltage When Positive Voltage Limiter Setting Is Fixed to 7 V BP4610 8 13 8 18 Output Voltage and Output Current Supply Ranges Y i S AC output range When Vo limit Vo limit 124 V constant Figure 8 6 AC Output Range When Positive Negative Voltage Limiter Setting Difference Is Fixed to 124 V AC output range When Vo limit Vo limit constant 14 12 10 8 6 lt 624 3 Figure 8 7 AC Output Range When Positive Negative Voltage Limiter Settings Are Symmetrical BP4610 8 14 8 18 Output Voltage and Output Current Supply Ranges PD S Vo AC output range C al When Vo cn onsen re qe 117 102 82 62 42 22 14 16 lo A 16 14 12 10 8 6 4 2 10 10 12 20 AC output range When Vo limit 7 V constant Figure 8 9 AC Output Range When Positive Voltage Limiter Setting Is Fixed to 7 V BP4610 8 15 imensions 8 19 Drawing of External D apis Je9y de J9A09 9AIJDIJOJA YM 9ued j s peziuerjeH aued weay O A O O a A M O aa W Aeb 146 joued onse d paje nue JRA 2192 e mj EnA ti 10 2 694O 9 JasuBul es ce Y ne E e16 1461 enn Buipjou onsejg jaued uoy Buissa90J1d a9ejins
114. n or an NF Corporation sales representative about the problem while the warranty is still valid This warranty is valid only in Japan If planning to use it outside Japan consult NF Corporation or an NF Corporation sales representative In the following cases repair will be charged even if the warranty is still valid e Failure caused by handling or storage that goes against the usage methods and or cautions described in the instruction manual of the product e Failure or damage caused by dropping of the product or exposure to shocks by the customer during transportation e Modification of the product by the customer e Failure caused by abnormal voltage from external or failure caused by external equipment connected to the product e Failure or damage caused by natural disaster such as fire earthquake flood lightning explosion or war e Replacement of consumables such as magnetic and tape and battery ABOUT REPAIR If a problem occurs and it is judged to be a failure of the product or if you have questions contact NF Corporation or an NF Corporation sales representative When contacting NF Corporation or an NF Corporation sales representative provide the model name or product name the manufacturing number serial number shown on the name plate and information as detailed as possible about the nature of the problem conditions of use etc NF Corporation is committed to providing repair services as quickly as possible Note howev
115. nal block rear panel The Lo side is grounded to the chassis BP4610 8 3 8 3 Output Limiters PND S 8 3 Output Limiters E Output voltage limiters voltage setting range voltage setting range Restrictions Setting accuracy Remark E Output current limiters current setting range current setting range Setting accuracy Remark BP4610 7 V to 117 V 0 1 V resolution Vo limit 7 V to 117 V 0 1 V resolution Vo limit The difference between the voltage setting and the voltage setting is restricted to 24 V or higher and 124 or lower 1 V DC The output voltage and output current supply ranges are determined by the output voltage limiter settings Ie Refer to 8 18 Output Voltage and Output Current Supply Ranges Depending on the operation conditions the output voltage may be limited to a narrower range than the voltage limiter settings ES Refer to 8 18 Output Voltage and Output Current Supply Ranges 1Ato 26A 0 1 A resolution Io limit 1Ato 26A 0 1 A resolution Io limit 1 A for DC within 10 A The source current is considered to be positive Depending on the operation conditions the output current may be limited to a narrower range than the current limiter settings S Refer to 8 18 Output Voltage and Output Current Supply Ranges 8 4 8 4 Signal Sources 8 4 Signal Sources A S The signal source can be selected from amon
116. ncy waveform set via the menus on the operation panel are output e EXT The waveform is output from the external signal source connected to the external signal input terminal EXT SIGNAL IN on the front panel e ADD Outputs the waveform to which the above INT and EXT signal sources have been added Figure 4 8 shows the block diagram of the signal source block of the BP4610 BP4610 4 11 4 3 Basic Functions EXT SIGNAL IN EXT To AMP CONTROL INT DC INT OSC Sin Squ Arb Figure 4 8 Block Diagram of Signal Source Block E Operation procedure lt l gt Press the La and y keys to move the cursor to the icon Ce PAT OFF OFF E E p e EE PEE EE CANCEL ENTER gt EE a fell Li E SE MOD COC INT fu ES CO EXT lupe CANCEL ENTER TE E o La A Pa Ea E x f E a a Le E CANCEL ENTER _ B a ie a En ENTER lt 4 gt Press the key to set the selected mode BP4610 4 12 Aa Mw 4 3 Basic Functions CD Y 4 3 2 Output on off The BP4610 allows output on off control via the operation panel During output on off switching the output relay is opened closed after lowering the output level to 0 in order to reduce contact arcs Output on off is controlled with the following two methods E Operation procedure from menu lt l gt Press the La and y keys to move the cursor to the QUT icon CV INT OFF OFF
117. ndow This area displays the various statuses of the BP4610 B Message box If an error occurs a message box appears under the Status window displaying the cause of the error The message box automatically closes after 1 5 s The overload and sequence progress statuses are also displayed in this message box C Measurement Value window This area displays measurement values D Menu window This area is where settings are performed E Error Message Display window If an error that requires confirmation input by the user occurs a warning message is displayed in the Error Display window This message continues to be displayed until the ENTER key is pressed 4 1 1 Status icons Status icons that indicate the status of the BP4610 are displayed in the top part of the Status window Table 4 1 shows the status icons that are displayed Table 4 1 Status Icon List lon E This icon flashes when the battery is judged to be drained upon rained batte occurrence of a backup memory sum check error UNCAL ERR OVER These icons are displayed in the same location on the operation panel LI Sequence in progress The icon that is displayed depends on the sequence status as follows Idle status Nothing is displayed Run status is displayed Sequence hold in progress Hold status HOLD is displayed Key lock This icon lights when the key lock is set to on These icons are displayed in the same location on the operation panel
118. necessary Output terminals Figure 2 4 Output Terminals A CAUTION Note that since the Lo output terminal of the BP4610 is grounded it is not possible to connect multiple outputs of the BP4610 in series Also do not connect a grounded load or measuring instrument whose input block is grounded to the output terminal of the BP4610 as this may cause some of the output current to leak to the protective grounding wire of the power supply and have an unpredictable effect on the load or measuring instrument Al WARNING During output absolutely never touch the output terminals For safety s sake be sure to use the BP4610 with the supplied pin covers mounted BP4610 a m Load measuring instrument Hi Output current gt Figure 2 5 Connection to Grounded Load or Measuring Instrument BP4610 2 6 2 4 Connection to I O terminals ec OE YZ E The procedure for connecting the cables to the output terminals is described below lt l gt Remove the screw attached to the output terminal lt 2 gt Insert the removed screw to the round crimp terminal attached to the cable lt 3 gt Insert this to the OUTPUT pin while making sure that the cable does not come off the screw lt 4 gt Securely tighten the screw until the terminal is fixed using a torque of 1 2 N m lt 5 gt After connecting both the H1 and Lo output te
119. ng Display Example BP4610 6 5 6 2 Protective Functions EEG 6 2 The BP4610 has the protective functions listed in Table 6 5 If the power is interrupted by a protective Protective Functions function at a time other than power failure the cause is recorded and an error message described in S 6 1 2 Protective function related errors is displayed the next time the BP4610 powers on Table 6 5 Protective Functions Protection Type Output off Action upon Detection Not while Overload protection overload overload continues Overload detection anomaly DCPS anomaly Overheat protection Power failure Measurement protection over limiter Operation panel anomaly BP4610 The output is switched off at the same time that a beep is emitted if the overload continues for 10 seconds after detection OVERLOAD is displayed while overload continues The power is switched off upon detection of overload regardless of whether the output is off An overload protection error message is displayed the next time the BP4610 is powered on The output and the power are switched off upon detection A DCPS anomaly error message is displayed the next time the BP4610 is powered on The output and the power are switched off upon detection An overload protection error message is displayed the next time the BP4610 is powered on The power is switched off upon detection An error message 1s displayed and the sys
120. nnarararararnnnananano 9 2 Arbitrary Waveform MeMOrFY cococcccccococcccococononconocororoncnrararnnnararararnnrnrnrarnnrarararararnararararanes 9 2 sequence Memory All Steps cui ica 9 3 Xi 1 OVERVIEW 1 1 General Ad dl laa 7 1 2 Features A ese apavang Geta Bow smut evat a iaryu ave fata ca at ate es w tavelfava arth uiayen Goce Bau coh eee vat ave ecapaiere eee a a a 1 1 1 3 Principle of Operation A A Ws mn eR Gp cnn aim woe eww mca ae 1 3 BP4610 1 1 General CD Y 1 1 General The BP4610 is a bipolar power supply that combines a high speed power amplifier capable of bipolar output of an output voltage and current and an internal signal source DC and AC It can be used as a high speed bipolar amplifier that uses an external signal as input Since the BP4610 performs bipolar output the output voltage and current supply ranges cover all four quadrants Whereas only positive current source current can be supplied in the case of a general DC power supply the BP4610 is capable of supplying both positive and negative source and sink current Both CV and CC output characteristics are supported and the rated output voltage and current are 60 V and 10 A respectively The output voltage expansion function allows the output of a voltage of up to 120 Vp p max in the range of 115 V to 115 V The BP4610 has a response calibration function that allows the user to adjust the response characteristics of the amplifier acc
121. nt can be set in units of 0 001 A in the range of 10 000A to 10 000A 2nd parameter Sets the DC voltage DC current operation type 0 CONST 1 KEEP 2 SWEEP 3rd parameter Sets the superimposed AC voltage superimposed AC current The AC voltage can be set in units of 0 1 Vp p in the range of 0 0 Vp p to 120 0 Vp p The AC current can be set in units of 0 01 Ap p in the range of 0 00 Ap p to 30 00 Ap p 4th parameter Sets the superimposed AC voltage superimposed AC current operation type 0 CONST 1 KEEP 2 SWEEP 5th parameter Sets the frequency The frequency can be set in units of 0 1 Hz in the range of 1 0 Hz to 100000 0 Hz 6th parameter Sets the frequency operation type 0 CONST 1 KEEP 2 SWEEP 7th parameter Sets the waveform 2 to 17 ARB1 to ARB16 8th parameter Sets the waveform operation type 0 CONST 1 KEEP 9th parameter Sets the step sync output 0 0 0 1 0 1 2 1 0 3 1 1 10th parameter Sets the step sync output operation type 0 CONST 1 KEEP Setting example Setting of DC voltage to 10 V SWEEP AC voltage to 5 Vp p superimposed KEEP frequency to 20 Hz KEEP waveform to ARB3 CONST step sync output to 0 0 KEEP SEXP 10 2 5 1 20 1 4 0 0 1 E SLEN Description Specifies the sequence length Parameter 255 fixed E SSTS Description Returns the sequence status Response format 0 Idle status 1 Run status 2 Hold status BP4610 5 12 5 3 Explanation of Each Program Message ES av
122. ntinuous Sequence control Start Starts sequence Stop Stops sequence Hold Maintains settings at that point in time The operation resumes at sequence start Branch Branches to the specified step BP4610 4 27 4 5 Sequence Operation i E Sequence A sequence consists of two or more steps with the minimum unit constituting one step The superimposed AC phase is continuous as steps change E Step Step execution and step transition parameters are described for each step Even in the status where no sequence is being executed in other words regular output the same parameters as for steps are held These parameters are subsequently used as regular output steps In the following description step parameters are enclosed in The step execution parameters specify the output and 1ts behavior Table 4 13 Step Execution Parameters e DC voltage current e Superimposed AC voltage current Output parameters e Frequency e Waveform ARB only e Step sync output The following items are provided as output behavior specifications for each step Step operation types e Constant CONST e Sweep SWEEP e Output using end value of previous step KEEP Note Note If KEEP is selected for Step operation type the Output parameters settings are ignored BP4610 4 28 4 5 Sequence Operation nn ES The step transition parameters specify the next step and the transition timing Table 4 14 Step Transition Parameters
123. o be performed JUMP NUM Jump count o Q Infinite number of jumps e 1 to 999 Specified number of jumps Sets the step number to be jumped to when there is a trigger input Two pace eee types of branch step can be set BRANCHO and BRANCH1 As a usage example by setting the operation to stop following sweep to a low number at the jump destination step it is possible to stop the operation at a safe point when something has occurred BRANCHI Branchen e Q Disabled branching e to255 Jump to the specified step number the following three e CONT Continue sequence BP4610 4 39 4 5 Sequence Operation nn ES The operation procedures for the various items on the PROGRAM screen are described below E Operation procedure lt 1 gt The settings of the DC voltage DC current operation type superimposed AC voltage superimposed AC voltage operation type frequency operation type waveform WAVE waveform operation type step sync output SYNC CODE step sync output operation type step end phase STEP PHS and step termination STEP TERM are performed with the following procedure In the following example step termination STEP TERM is set lt I gt Open the SEQUENCE screen and display the PROGRAM screen For the procedure up to the display of the PROGRAM screen Ie refer to 4 5 2 Setting of sequence lt 2 gt Press the A and y keys to move the cursor to STEP TERM P PROGRAM y 5 STEP TIME 6 1006 D
124. ontrol e The USB connector is located on the rear panel e Set the USB ID after making sure it 1s correct If the USB ID is incorrect control from the computer is not possible Moreover if the USB ID is the same as that of another device within the same system faults may occur in the computer e USB is an interface that assumes use in a relatively favorable environment Use of this interface in a place with current fluctuations or high noise level should be avoided BP4610 5 1 5 2 Program Message List PND S 5 2 Program Message List E Program messages e The data programming messages that can be used for programming is ASCII data hexadecimal 20 to 7F except for arbitrary waveform data blocks Arbitrary waveform data consists of binary data blocks e During reception of program messages by the BP4610 no distinction is made between uppercase and lowercase e Response messages are in uppercase e When transmitting multiple program messages in succession insert a semicolon as a delimiter between program messages A space can also be inserted before and after each semicolon for even greater reading ease e Insert one or more spaces between the header and parameters of set program messages E Input buffer e Program messages can be sent in batch up to the input buffer capacity 10 000 characters e The transmitted program messages are stored in the input buffer and are then interpreted and executed in the ord
125. or CC Mode Inductive Load L 1 6 MH 4 79 EXT SIGNAL IN Terminal 4 80 MONITOR OUT Termina lso drama uta lid 4 81 Measurement Value Display Example oococoococccccccoccncocococacacannonanananannnnananananrnraranananes 4 82 Protective Function Related Error Display Examples cccccceeeeeeeeeeeeeeeeeeeeeneneees 6 3 Examples of Error Display During Operation ooccccccccccccccconacanananananananananananarnnanannnnns 6 4 Warning Display Example ot iaa 6 5 SYSTEM INFORMATION Screen iiaicainicarica tes raul cadnenlereentdade tea ceecumendausit 7 4 Air Filter Cleaning Procedure cava sci secisiestiecictwcasscanatvestessatiartcduresueaneiiaskens cesetaneveneteatarhs 7 5 Ambient Temperature and Humidity Ranges ocococococonococococononononnnnacanananananannnananananana 8 10 DC Output Range When Positive Negative Voltage Limiter Setting Difference ls Fixed to 124 Vii tia 8 12 DC Output Range When Positive Negative Voltage Limiter Settings Are gt A Ceacustanahoanea a a a 8 12 DC Output Range When Negative Voltage Limiter Setting Is Fixed to 7 V 8 13 DC Output Voltage When Positive Voltage Limiter Setting Is Fixed to 7 V 8 13 AC Output Range When Positive Negative Voltage Limiter Setting Difference ls Fixed to 124 Vinnie 8 14 AC Output Range When Positive Negative Voltage Limiter Settings Are SV MMe CHIC AN lares casados 8 14 AC Output Range When Negative Voltage Limiter Setting Is Fixed to
126. or the website of the Ministry of Public Management Home Affairs Posts and Telecommunications Electronic Applications and Notification System as well as procedure details and information about other documents to be attached to the application forms Applications must be submitted by the person who installed the equipment Information such as the installation location must be filled in The BP4610 s specifications external view drawings block diagrams circuit diagrams etc are required as attached documents Contact an NF Corporation sales representative to obtain these documents BP4610 2 13 3 NOMENCLATURE BP4610 3 1 Nomenclature A eR TRAE CT ETRE ECL A 3 1 3 1 1 Operation panel RA A RARA A RAE 3 1 3 1 2 Front panel eer ote Tee hE eee A A a 3 3 3 1 3 Rear panel TERT RCE CURE Re CE ER EEC ee ere 3 5 3 2 Access to the Volume Area E ete ew ne yates cntiace e ine are 3 6 3 1 Nomenclature OD I 3 1 Nomenclature 3 1 1 Operation panel BIPOLAR DC POWER suPPLY BP4610 lt 1 gt A au Emi CY INT A up OT OFF la E ESP Ol A E pep A AA A E Up p S Hz SIN vot oe ii Ll pE BF Au It E A lt 5 gt 26 0 A st F lt 6 gt lt 4 gt ee A lt gt TOP SEQUENCE EN MENU START STOP HOLD LOCAL x lt 9 gt lt 1 gt LCD This is a 320 horizontal x 240 vertical pixel blue and white 2 color liquid crystal display The contrast can be adjusted by operating the opera
127. ording to the actual load that is used As a result output waveform distortion can be improved for a wide range of load conditions including resistance load and inductive load Using this function it is also possible to raise the frequency band for the resistance load The functions except response calibration adjustment of the BP4610 can be remotely controlled from an external computer via the USB interface Either 100 V AC or 200 V AC can be used as the power supply input and the consumption current can be minimized by using the input power factor control function 1 2 Features E Large LCD screen operation panel A large LCD screen operation panel with backlight is provided E CV CC output characteristics The output characteristics can be selected from between CV constant voltage and CC constant current CV characteristics The voltage is supplied to the load proportionally to the input signal CC characteristics The current is supplied to the load proportionally to the input signal E Various signal sources When using an internal signal source it is possible to output the AC component sine wave square wave arbitrary wave on top of the DC component When using an external signal input it is possible to add the external signal and internal signal sources BP4610 1 1 1 2 Features EEG YZ E Sequence function When using an internal signal source the output parameters output voltage current output frequency can be
128. osed AC voltage and superimposed AC current Sets the superimposed AC voltage frequency and superimposed AC current frequency Ie Refer to 4 3 5 Setting of frequency Selects the superimposed AC waveform le Refer to 4 3 6 Setting of waveform m CY INT Ol OFF A AA y A A iJ pop Menu window Mon OUT E Ma EA PE EEE le g git CU ob oo O pI PI gi Co Coa eo Figure 4 7 LCD Screen 4 10 4 3 Basic Functions CD Y 4 3 1 Setting of operation mode The BP4610 has the operation modes listed in Table 4 10 The operation mode cannot be switched during output on Set the operation mode at output off Table 4 10 Operation Mode List CV constant voltage INT internal CC INT CC constant current EXT external CC EXT ADD internal external CC ADD E Setting of voltage current The BP4610 allows setting of two amplification modes CV constant voltage and CC constant current e CV Uses the BP4610 as a constant voltage source The voltage is supplied to the load proportionally to the input signal e CC Uses the BP4610 as a constant current source The current is supplied to the load proportionally to the input signal E Setting of signal source The BP4610 can be set to one of three signal source modes INT internal EXT external and ADD internal external e INT Uses the internal signal source of the BP4610 The DC AC voltage current and the AC freque
129. p count 1 is set the operation jumps to Step 5 upon completion of Step 4 after the jump lt 2 gt in Figure 4 20 Step 5 is set to Step time 0 2 s and DC voltage value 10 00 V but if a trigger input occurs midway the operation jumps to Step 6 at this point lt 3 gt in Figure 4 20 BP4610 4 43 4 5 Sequence Operation A The operation procedure is described below E Operation procedure via operation panel lt I gt Open the PROGRAM screen For how to open the PROGRAM screen Es refer to 4 5 2 Setting of sequence lt Step 1 setting gt lt 2 gt Press the y key to move the cursor to DC VOLT gt gt gt PROGRAM Z 3 STEP TIME A 1888 s DE VOLT a 88 U ST a AC VOLT Be ee HE i xl Hz Y eee SYNC CODE a A K CONST STOP PHS DISABLE STEP TERM STOP O JUMP STEP 5 A _ ENTER lt 3 gt Press the key to display the Modify box a i i i a 5a SYNC CODE BEN CONST STOP PHS DISABLE sea STEP TERM STOP JUMP STEF a lt 4 gt Press the lt and 2 keys to move the cursor to the third item from the left and then turn the MODIFY dial to set 2 Next move the cursor to the fourth item from the left and turn the MODIFY dial to set 5 thus setting 2 5 V AC VOLT ae pp CONS FREQ SA E CONS SYNC CODE a E CONS STOP PHS DISABLE STEP TERM STOP JUMP STEP bl ENTER lt 5 gt Press the key to apply the set value BP4610 4 44
130. port the weight of the BP4610 and provide adequate protection During transportation handle the BP4610 with care and protect 1t from strong shocks BP4610 7 2 7 4 Version Number Verification Method CD Y 7 4 Version Number Verification Method The firmware version of the BP4610 is for a few seconds at power on At times other than power on the system information can be displayed and checked via the operation panel E Operation procedure via operation panel lt 1 gt Press the A and y keys to move the cursor to the icon 4 CY INT JFF OFF A AA A ALU P P SO Hz SIN SE CLIT ca W CANCEL ENTER gt BELE lE g git I pi oh oh mo Mi MI I Ca O Y gt gt 4 ENTER lt 2 gt Press the key to display the MISC screen Press the y key to move the cursor to SYSTEM MISC SEQUENCE MEMORY REMOTE SYSTEM Jp ENTER lt 3 gt Press the key to display the SYSTEM screen A FREQ UNIT Hz CANCEL ENTER fet seiner z INIT OUT OFF INIT RSP OFF EXT CONTROL DISABLE RE ET INFORMATION BP4610 7 3 7 4 Version Number Verification Method lt 4 gt Press the Ly key to move the cursor to INFORMATION A FREQ UNIT Hz CANCEL ENTER A TIME UNIT KI INIT GUT See INIT FSF DFF EXT CONTROL DISABLE FEET a INFORMATION ENTER lt 5 gt Press the key to display the SYSTEM INFORMATION screen CANCEL A ENTER gt gt gt SYSTEM INFO
131. pping of the current waveform will occur and overload will be displayed on the LCD screen of the BP4610 BP4610 7 7 7 7 Operation Inspection ES S E Check during CV mode external signal input operation After setting initialization has been performed set the operation mode to CV EXT Connect the output of the external oscillator to the external signal input of the BP4610 Connect the output of the external oscillator and the voltage monitor output to an oscilloscope and observe them In this state try changing the output amplitude and frequency of the external oscillator and check whether the BP4610 functions normally The amplitudes of the external oscillator output and voltage monitor output should be almost the same up to approximately 10 kHz E Check during CC mode external signal input operation After performing setting initialization set the operation mode to CC EXT Connect the output of the external oscillator to the external signal input of the BP4610 Connect the external oscillator output and the current monitor output to the oscilloscope and observe them In this state try changing the external oscillator output amplitude and frequency and check whether the BP4610 functions normally The amplitudes of the external oscillator output and the current monitor output should be almost the same up to approximately 2 kHz E Check during CV mode adjusted characteristics operation Lift the operation panel and turn all three response cali
132. pply Ranges 8 11 Drawing of External Dimensions OEA Ae 8 16 Values that indicate accuracy are guaranteed values but values that do not indicate accuracy are for reference only BP4610 8 1 Specification Conditions E Y 8 1 Specification Conditions Unless otherwise specified the following conditions apply Power supply input 100 V AC 10 V 50 Hz Output frequency 1 kHz Signal External input signal Output waveform Sine wave DC 0 V Output voltage current 60 V 10 A Load 6 Q resistance Response characteristics Fixed characteristics Output voltage limiter setting 62 V Output current limiter setting 26 A In this chapter the terms fixed characteristics and adjusted characteristics have the following meanings E Fixed characteristics These characteristics are fixed when the BP4610 is shipped and cannot be changed by the user They are set with the aim to achieve both wide frequency band characteristics and load stability E Adjusted characteristics These characteristics are adjusted by the user for the CV or CC mode using the response calibration function so as to achieve the fastest possible step response waveform rise time and fall time as well as overshoot undershoot and sag that fall within 5 of the P P amplitude BP4610 8 1 8 2 Output 8 2 Output E Operation mode Constant voltage CV or constant current CC E Maximum output voltage CV DC Condit
133. r on off Parameter 0 Off 1 On Setting example Setting header on HEAD 1 IDN Description Queries the model number Response format NF Corporation BP4610 serial number version number Example NF Corporation BP4610 0000001 1 00 IOUT AOUT Description Sets output on off at power on Parameter 0 Off 1 On Setting example Setting the output on at power on IOUT 1 IRSP IRSP Description Sets the response calibrator on off at power on Parameter 0 Off Setting example BP4610 I On Sets the response calibrator on at power on IRSP 1 5 20 Aa Mw E RST Description Caution M TST Description Response format E VERS Description Response example E XCTL XCTL Description Parameter Setting example BP4610 5 3 Explanation of Each Program Message E S Resets the device This operation cannot be performed while output is on Es Refer to 9 INITIAL SETTING LIST Self test Self diagnosis result 1s returned at power on The diagnosis result is returned as 16 bit data The higher 8 bits and lower 2 bits are fixed to 0 so judge errors based on the values of bits 2 to 7 0 No error Other than 0 Error occurrence Bit 7 The backup waveform and sequence memories have been initialized due to version upgrade Bit 6 Not calibrated or initialized without calibration value Bit 5 Calibration defect or initialized without calibration value Bit 4 Initializ
134. rary waveform memory is memory for the superimposed AC of the internal signal source It is battery backed up Number of waveform memories 16 Waveform length Waveform data Remark BP4610 1024 words 16 bits Write to arbitrary waveform memory from the operation panel is not possible Write is performed via the USB interface 8 7 8 9 Setting Memory PND S 8 9 Setting Memory Settings are backed up and the settings that were applied the previous time the BP4610 was powered off can be restored the next time is powered on However the selected response characteristics are not saved Moreover among the various settings the basic settings operation mode DC superimposed AC output limiters can be saved to store recall memories No 1 to No 30 and the saved settings can be called and used The store recall memory call operation is possible only when the output is off 8 10 Protective Functions Output overload If output voltage over output current over or internal output loss over is detected overload is displayed on the panel screen and the output voltage or current is reduced If the overload status continues 10 or more seconds the output is switched off Power supply anomaly Upon anomaly detection the output and power are both switched off Internal overheating Upon anomaly detection the output and power are both switched off Operation panel anomaly Upon detection of an operation panel anomaly suc
135. ration is judged to be normal Operation Mode Setting Rated Range CV EXT 50 mVrms or lower CC EXT 8 mArms or lower 48 mVrms or lower 6 Q load E Output voltage limiter accuracy test Load No load Measurement connection Measure the voltage of the output terminal of the BP4610 with a DC voltmeter Settings After performing setting initialization set the output voltage limiters and DC output voltage according to the following table Judgment If the output voltage of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal This is the output voltage when overload has occurred The output is switched off after approximately 10 seconds Voltage Limiter Setting Voltage Limiter Setting DC Output Voltage Setting Rated Range 112 V 115 V 111 to 113 V 112 Y SV 113 to 111 V E Output current limiter accuracy test Load Short via a current shunt resistor Measurement connection Measure the detection voltage of the current shunt resistor with a DC voltmeter and convert the measured value to a DC value Settings After setting initialization has been performed set the current limiter to 10 A and the current limiter to 10 A Set the output voltage limiter and DC output voltage according to the following table Judgment If the output current of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal This is the output current
136. rformed gt MEMORY STORE RECALL a CLEAR se Ft ENTER lt 5 gt Press the key to display the Select box gt MEMORY Em C INT TORE 1 M Aa OG 2 E E Ea S Y E ME i Lt Ls 9 l Em pa m LECE CANCEL ENTER y a foe 6 E E lt 7 gt Check the setting contents displayed in the left part of the Menu window and if they are ENTER correct press the key to perform the specified operation to that memory number BP4610 4 54 4 8 Remote Control CD Y 4 8 Remote Control Remote control of the BP4610 can be done by transmitting program messages from an external computer connected via the USB interface Ie Refer to 5 USB INTERFACE The various operation modes are entered by transmitting the interface messages listed in Table 4 22 to the BP4610 The current operation mode of the BP4610 can be known by looking at the status icon displayed in the Status window on the LCD screen The status icons are displayed at the same location top right on the operation panel Table 4 22 Operation Mode List Icon Operation Mode Interface Message on Local mode The various settings can be changed and output on off can be switched via the operation panel No status icon 1s displayed at the top right of the operation window Local lockout mode Switching to the local mode via the LOCAL key on the operation panel or via Remote mode Control is performed from the external
137. rminals attach the supplied terminal covers e To tighten Turn clockwise e To loosen Turn counterclockwise Figure 2 6 Connection to Output Terminals WARNING For safety s sake be sure to connect the outputs after switching the power off BP4610 2 7 2 4 Connection to I O terminals 2 43 Connection to USB connector Using a commercially available USB cable connect the USB connector on the rear panel to a PC For details on control from an external PC via USB ES refer to 5 USB INTERFACE POUTPUr USB interface Figure 2 7 USB Connector CAUTION As the USB cable use a commercially available type A male Type B female cable 2 4 4 Connection to external control I O connector The BP4610 has an external digital I O 8 bits each for input and output for control from external via digital signal input and status output via digital signals The connector is a D sub 25 pin connector JN OUTRUN External control I O ti AEE fy a AE ME OST EA i aL Figure 2 8 External Control I O Connector Table 2 2 lists the various pin signals BP4610 2 8 BP4610 2 4 Connection to I O terminals Table 2 2 External Control I O Connector Pin List Pin No Remark 0 Off l Output Power on off status 1 On 0 Off 2 Output Output on off status 1 On 0 Normal 3 Output Overload 1 Overload 0 Normal
138. rs occur during operation Error messages are displayed in the message box The message box automatically closes 1 5 seconds later Table 6 3 Errors during Operation Execution error other than above Measurement out of range COMMAND ERROR USB interface command error QUERY ERROR USB interface query error en EEE T A A an g EE 1 mai le 2 Figure 6 2 Examples of Error Display During Operation BP4610 6 4 6 1 Error Messages Ae S 6 1 4 Warning display If output becomes off due to overload or over limiter one of the warnings listed in Table 6 4 is displayed During panel operation this warning is displayed in the message display window If a warning is displayed press the ENTER key or the CANCEL key During remote operation the warning is displayed in the message box The message box automatically closes after 1 5 seconds Ie Refer to 6 2 Protective Functions Table 6 4 Warning Display Output off caused by Indicates output off due to overload during panel operation OVERLOAD OUTPUT OFF CAUSED BY l l l Indicates output off due to overload during remote operation OVERLOAD Output off caused by Indicates output off due to over limiter during panel operation OVER LIMITER OUTPUT OFF CAUSED BY OVER o Indicates output off due to over limiter during remote operation LIMITER MESSAGE Output of Ff caused by OVER LIMITER Press ENTER key Figure 6 3 Warni
139. s E Output voltage monitor output Monitor ratio 1 100 of output voltage 1 V 100 V in phase Monitor accuracy 1 2 V of output voltage 1 MQ monitor output load impedance Frequency characteristics DC to 40 kHz 0 5 dB 40 kHz to 400 kHz 1 dB 3 dB 1 kHz reference 1 MQ monitor output load impedance Output impedance 50 Q E Output current monitor output Monitor ratio 1 10 of output current 1 V 10 A in phase Monitor accuracy 0 2A of output current 1 MQ monitor output load impedance Frequency characteristics DC to 20 kHz 0 5 dB 20 kHz to 200 kHz 1 dB 3 dB 1 kHz reference 1 MQ monitor output load impedance Output impedance 50 Q MONITOR OUT terminals Figure 2 10 MONITOR OUT Terminal BP4610 2 11 2 5 Power on off and Operation Check 2 5 Power on off and Operation Check Once the connections have been completed check the operation 1 Check whether the BP4610 is correctly connected as described heretofore 2 Switch the power switch of the BP4610 to on Power is supplied and the BP4610 starts operating lt 1 gt Press the right side of the POWER lt 2 gt The LCD lights up and the startup screen is switch displayed 3 The operation panel immediately after the power has been switched on shows the same setting values as when the power was switched off the previous time If the BP4610 is switched on for the first time after it is purchased the internal default settings
140. set CM TNT OFF OFF a OE y A ove A O Up p CANCEL ENTER _ gt oe a KI SIN lt ras EEE a A y 52 Bu EEE Le mai kal a E BP4610 4 16 4 3 Basic Functions CD Y ENTER lt 2 gt Press the key to display the Modify box CM TNT OFF OFF of wn Ely 7d uw aA Sn SE EE a fell Li E lt 3 gt Pres the and keys to move the cursor to the digit to be changed and then turn the MODIFY dial to set the desired value When the output is on the value that is set is immediately reflected to the output 4 CM TNT OFF OFF nana TERE v Ea En ME pa EJ ie A le E CANCEL ENTER lt 4 gt Once all the digits have been set press the or key to end the setting procedure BP4610 4 17 4 3 Basic Functions EG E Setting value and actual output Since the output of the BP4610 is influenced by the frequency characteristics of the amplification block a difference occurs between the amplitude setting value and the actual output amplitude in the case of a high frequency Figure 4 9 shows the relationship representative example between the setting values on the operation panel and the actual output values The frequency characteristics vary according to the load condition response characteristics output waveform load cable length etc Fixed Frequency charac
141. sor to TIME ENTER Press the key to display the Modify box Press the E and gt keys to move the cursor to the fourth digit from the right and then turn the MODIFY dial to set 2 thus setting 0 2 s Press the key to apply the set value Using the same operation as in steps lt 2 gt to lt 5 gt set DC VOLT 2 5 and using the same operation as in steps lt 6 gt to lt 9 gt set the DC voltage operation type to KEEP Then go on to set Step 3 and subsequent steps using the same procedure BP4610 4 46 4 5 Sequence Operation E Y 4 5 7 Sequence operation execution When the sequence programming has been completed start the sequence The sequence operation execution procedure is described below E Operation procedure in case of operation via the menu lt l gt Press the key to return to the top menu The top menu is displayed as SET in the top part of the menu window lt 2 gt Press the y key to move the cursor to the icon m 4 CU INT OFF OFF a GA A Ea pep oo wn alle CANCEL ENTER gt a al al ee me al fn wn toe Gs A En Aaa eae A Le E m 5 Ea r SJE E Jp EE 14 adi Lim E CANCEL ENTER pe LF o It A BP4610 4 47 4 5 Sequence Operation Aa Mw ENTER lt 5 gt Press the key to set the output on The on off LED goes on o e Output off Output on lt 6 gt Press the Ly key to
142. sponse calibrator BP4610 7 8 7 7 Operation Inspection NN 5 A NW USB check Change some of the settings that were used for checking the main functions of the BP4610 and check whether the same output changes are obtained At that time check whether RMT is displayed on the screen Also check that when the LOCAL key 1s pressed the RMT display disappears and the local status 1s returned to when the status 1s other than local lockout BP4610 7 9 7 8 Performance Test EG 7 8 Performance Test Performance test Performance testing is performed as part of preventive maintenance in order to prevent performance degradation of the BP4610 To facilitate execution this test 1s performed under conditions that partially differ from the specifications as the test items used measuring equipment and load condition are limited for the sake of convenience If more extensive testing 1s required contact NF Corporation or an NF Corporation sales representative Performance testing should be performed as part of acceptance inspection periodic inspection performance verification following repair of the BP4610 etc If as the result of performance testing the BP4610 is found not to meet its specifications repair 1s necessary In this case contact NF Corporation or an NF Corporation sales representative Verification prior to performance testing Prior to performance testing check the following items e Is the power supply vo
143. status 2 Hold status SCSN SCJN Acquires jump count of specified step number SEQM _ Sequence memory control CAUTION e SCSN return value 1 indicates that the sequence status is Idle 0 is an unused number e SCJN return value 1 indicates that the sequence status is Idle Table 5 4 Measurement Related 200 0 MVLT DC voltage measurement value 200 0 0 1 y 999 9 400 MACV AC voltage measurement value 999 l y 20 00 MCUR DC current measurement value 20 00 0 01 y 99 99 40 0 MACC AC current measurement value 99 9 0 1 y CAUTION The figures in parentheses are the values of response messages when measurement over range Occurs BP4610 5 5 5 2 Program Message List PD S Table 5 5 Arbitrary Waveform Memory Header Setting Query Specifies transmit receive arbitrary waveform ARBN 17 2 l y y memory 42048 Arbitrary waveform transmission reception Arbitrary waveform memory 0 Clear ARBM control CAUTION O Partial reading of an arbitrary waveform is not possible O When arbitrary waveforms are cleared sine waves square waves and triangular waves are written to ARBI to ARB8 ARB9 to ARB12 and ARB13 to ARB16 respectively Table 5 6 Memory SAV_ Storememoy 30 1 1 gt srce Recallmemoy o oa loo ao loo Table 5 7 Status Reporting Header Function Max Value Min Value Resolution Setting Quer
144. ster OVEE overload event enable register Overload status summary Status byte bit 0 The transition filter converts conditions into events If corresponding bit of transition filter is 1 When the corresponding bit of the condition register changes from 0 to 1 the corresponding bit of the event register is set to 1 If corresponding bit of transition filter is 0 When the corresponding bit of the condition register changes from 1 to 0 the corresponding bit of the event register is set to 1 BP4610 5 26 5 5 Response to Interface Messages A S 5 5 Response to Interface Messages The BP4610 allows USB interface control via the interface messages listed in Table 5 10 Table 5 10 Interface Messages Interface Message Initialize USB interface Clear USB I O buffer clear status and clear RQS bit Set BP4610 to remote status E Set BP4610 to local status Set BP4610 to local lockout status Disable LOCAL key on operation panel Perform lock so that switching to local mode via the operation panel is not performed 5 6 Programming Cautions E Arbitrary waveform data The arbitrary waveform data 1s the binary data part and therefore must be transmitted separately from the command part of the preceding ASCII program message The arbitrary waveform data must be transferred as 1024 words 2048 bytes If a different amount of data is transferred an error will occur or the correct waveform will not be ou
145. superimposed AC voltage value in the CV mode AC VOLT Superimposed AC voltage Setting range 0 0 Vp p to 120 0 Vp p Setting range 0 1 Vp p Sets the superimposed AC voltage value in the CC mode AC CUR Superimposed AC voltage Setting range 0 00 Ap p to 30 00 Ap p Setting range 0 01 Ap p Sets the type of transition to the specified superimposed AC voltage value and superimposed AC current value The type of transition can be selected from the following three e CONST Output of the specified value e KEEP Output of the last value of the previous step e SWEEP Output started with the last value of the preceding step with linear sweep outputting the specified value at the end Superimposed AC voltage superimposed AC current operation type of the step Sets the superimposed AC frequency Frequency Setting range 1 0 Hz to 100000 0 Hz Setting resolution 0 1 Hz E O Sets the type of transition to the specified frequency The type of transition can be selected from the following three e CONST Output of the specified value e KEEP Output of the last value of the previous step e SWEEP Output started with the last value of the preceding step with linear sweep outputting the specified value at the end Frequency operation type of the step WAVE Waveform Selects the arbitrary waveform to be output Setting range ARBltoARBl6 Frequency operation type Selects the type of transition to the specified waveform The type of transit
146. t Backup value posmo f a O e oeme f eov AC ae voltage limiter Backup value Table 9 3 Arbitrary Waveform Memory Setting Item Initial Value At Shipping After Clearing BP4610 9 2 9 1 Initial Setting List PD S Table 9 4 Sequence Memory All Steps Setting Item Initial Value At Shipping At Power on After Reset Step number specification Step time 0 1000 s DC voltage 0 00 V DC current DC voltage current operation type Superimposed AC voltage Superimposed AC current A ME LR E MU o AC voltage current NAS Frequency MN Frequency operation type MO Waveform E Waveform operation type a oe a a MU A MN Step sync output Step sync output operation type Step end phase Step termination STOP Jump count 1 Branch step 0 O invalid y Backup value Branch step 1 O invalid y Backup value BP4610 9 3 WARRANTY This product is shipped after having undergone full testing and inspection of the NF Corporation Should this product fail due to a manufacturing flaw or due to a mishap during shipping contact NF Corporation or an NF Corporation sales representative NF Corporation products purchased either from NF Corporation or from an NF Corporation sales representative are guaranteed for one full year from the date of purchase against defects in material and workmanship This warranty entitles you to free repair of the product covered under it as long as you contact either NF Corporatio
147. t is set Press the key to cancel the setting BP4610 4 65 4 9 System Menu a S 4 9 4 Setting of LCD display color The display color of the LCD screen on the operation panel can be selected from blue white characters against blue background or white blue characters against white background E Operation procedure lt l gt Press the a and y keys to move the cursor to COLOR BEEP On CONTRAST 55 COLOR BLUE a ere FREQ WNIT Hz CANCEL ENTER IO KI INIT GUT OFF INIT RSP OFF ExT CONTROL DISABLE EESET D z a INFORMATION ENTER lt 2 gt Press the key to display the Select box KEYLOCK EEEF mO CONTRAST p pii E eee INIT OUT OFF INIT RSF OFF EXT CONTROL D DISABLE RESET INFORMATION lt 3 gt Press the a and y keys to move the cursor to BLUE to set a blue screen or to WHITE to set a white screen a FREQ UN NH 1 TE CANCEL ENTER gt TIME UNIT A INIT GUT OFF INIT FSF OFF EXT CONTROL DISABLE RESET CD z 4 a INFORMATION ENTER CANCEL lt 4 gt Press the key to apply the setting or press the key to cancel the setting BP4610 4 66 4 9 System Menu PD S 4 9 5 Setting of frequency and time units The unit used when displaying the frequency and time parameters can be specified The frequency unit can be selected from Hz and kHz The time unit can be selected from s and ms E Operation procedure lt l gt Press the a and LY keys
148. t load impedance 50 Q MONITOR OUT terminal BP4610 Figure 4 30 MONITOR OUT Terminal 4 81 4 13 Measurement Function CD Y 4 13 Measurement Function The BP4610 has a function for measuring the output voltage and output current DC value and P P value of each Since the measured values are displayed in the LCD s measurement value window the output status can be monitored The specifications of the measurement function are as follows E DC output voltage measurement Measures the AC DC average However AC DC must be within 200 V Full scale 200 V resolution 0 1 V Measurement accuracy 0 5 V within DC 115 V AC 0 V E DC output current measurement Measures AC DC average However AC DC must be within 20 A Full scale 20 A resolution 0 01 A Measurement accuracy 0 1 A DC 10 A AC 0 A E AC output voltage measurement Measures max value of AC DC Min value of AC DC However AC DC must be within 200 V Full scale 400 Vp p resolution 1 Vp p Measurement accuracy 2 Vp p DC 0V 120 Vp p 500 Hz Measurement frequency band 10 kHz 3 dB NW AC output current measurement Measures max value of AC DC Min value of AC DC However AC DC must be within 20 A Full scale 40 Ap p resolution 0 1 Ap p Measurement accuracy 1Ap p DC 0A 30Ap p 500 Hz Measurement frequency band 10 kHz 3 dB Figure 4 31 Measurement Value Display Example If measurement over range occurs
149. ted Upon detection of this anomaly contact NF Corporation or an NF Corporation sales representative The message is displayed the next time the power is switched on This message indicates that overheating of the radiator was detected Check if the air filter 1s clogged The message is displayed upon detection of power failure It indicates that an instantaneous power interruption has been detected The message is displayed the next time the power is switched on It indicates that the line monitoring circuit has not started up normally Upon detection of this anomaly contact NF Corporation or an NF Corporation sales representative The message is displayed the next time the power is switched on It indicates that the power on reset circuit has not started up normally Upon detection of this anomaly contact NF Corporation or an NF Corporation sales representative The message is displayed the next time the power is switched on It indicates that an anomaly has been detected in the communication data exchanged with the operation panel Upon detection of this anomaly contact NF Corporation or an NF Corporation sales representative 6 2 6 1 Error Messages ES S gt MESSAGE Emergency shutdowned caused by O VERLOAD Figure 6 1 Protective Function Related Error Display Examples BP4610 6 3 6 1 Error Messages 6 1 3 Errors during operation Table 6 3 lists error messages that are displayed when erro
150. ted according to the load conditions CS Refer to 4 10 Response Calibration System control block This block is in charge of the user interface etc 1 4 2 PREPARATIONS BEFORE USE 2 1 Before Using the BP4610 scree erect ttre teeter teen eens 2 1 2 2 Installation Environment rrr cctcrrct rte 2 2 2 3 Grounding and Power Supply Connection eene nenen sens 2 4 2 3 1 Grounding AA 2 4 2 3 2 Power supply ro 2 4 24 Connection to I O terminals cccccccttttt ttt tes 2 5 2 4 1 Connection to power supply input terminals 177777 2 5 2432 Connection to output pins rr 2 6 243 Connection to USB connector 2 8 2 4 4 Connection to external control I O connector 2 8 2 4 5 Connection to external signal input pin 2 10 2 4 6 Connection to monitor Output pin 2 11 2 5 Power on off and Operation OhNecCk qe 2 12 26 Radio LaWertrrrrrrrrr 2 13 BP4610 2 1 Before Using the BP4610 PND S 2 1 Before Using the BP4610 Before setting up and using the BP4610 make sure that 1t has not suffered damage during transportation and that all the accessories and the main unit are included If anything is missing contact the NF distributor from which the product was purchased E Safety check Before using the BP4610 read the INSTRUCTIONS FOR SAFE USE at the beginning of this instruction manual and perform a safety check Also before connecting the BP4610 to a power supply read 2 2 Installation Environment and thoroughl
151. tem 1s locked upon detection of a power failure The output is switched off while a beep is emitted if the DC current voltage measurement value exceeds the voltage limiter range If the above conditions are exceeded during output operation the output cannot be switched on The output and power are switched off upon detection A reset anomaly error message is displayed the next time the BP4610 is powered on The output and power are switched off upon detection A reset anomaly error message is displayed the next time the BP4610 is powered on The output and power are switched off upon detection An operation panel anomaly error message is displayed the next time the BP4610 is powered on 6 6 6 2 Protective Functions CD Y 6 2 1 Overload The BP4610 detects overload in the following cases e The output voltage exceeds the limiter value e The output current exceeds the limiter value e The internal power loss average momentary is excessive e The DCPS average output power is excessive Upon detection of overload the BP4610 displays the overload status as follows e Upon detection of overload the OMEF icon flashes and a beep is emitted e If the overload continues for 10 seconds after overload detection a beep is emitted and the output is switched off An error message listed in Table 6 4 is also displayed e If the overload further continues the power is switched off After the BP4610 is powered back on
152. ter teeter teen tne nn cnnnncnanannenanccnans 7 1 Daily Maintenance AAA 7 1 Storage Repacking and Transportation etete 1 2 Version Number Verification Method e ertterrrerrresrronoos 7 3 Cleaning the Air Filters ca 5 Backup Battery o 7 6 Operation Inspection a a a a ree rere ri l 1 Performance Test ccc cnn riri nn ae 7 10 7 1 Introduction EG YZ 7 1 Introduction To ensure use of the BP4610 under the best possible conditions it is important to perform maintenance as follows e Operation verification Check performed to verify whether the BP4610 operates correctly e Performance test Check performed to verify whether the BP4610 satisfies its ratings e Adjustment amp calibration If the BP4610 does not satisfy its ratings its performance can be restored through adjustments and calibration by NF Corporation e Troubleshooting If the above actions fail to yield improvements NF Corporation will investigate the cause s of the fault and the fault location s and perform the necessary repairs This instruction manual explains operation inspections and performance tests that can be easily performed For more detailed inspections adjustments calibration and troubleshooting contact NF Corporation or an NF Corporation sales representative Operation inspections and performance tests require the following measuring equipment e Oscilloscope Frequency band 50 MHz and higher e Frequency counter Standard oscillator stability
153. teristics when output voltage is fixed to120 Vp p in CV Characteristics mode 6 Q load 140 120 E 100 a Z So 80 F S 9 gt gt 60 3 O 40 20 10 100 lk 10k 100 k Frequency Hz Fixed Frequency characteristics when output current is fixed to 20 Ap p in characteristics 6 CC mode Q load 20 16 R lt 12 oO E gt o 8 3 a 3 O 4 0 10 100 lk 10k 100 k Frequency Hz Figure 4 9 Frequency Characteristics for 6 Q Load in CV and CC Modes BP4610 4 18 4 3 Basic Functions EG YZ 4 3 5 Setting of frequency When superimposed AC voltage and superimposed AC current are generated the superimposed AC voltage frequency and superimposed AC current frequency can be set via the operation panel e Setting range 1 Hz to 100 kHz e Resolution 0 1 Hz E Operation procedure lt l gt Press the La and y keys to move the cursor to the icon CA INT OFF OFF a BB y A ALU P P f cei EE REE CANCEL ENTER gt A A E ES re A pe E ES E SET Exe DAT OFF OFF a AA y a A Upp CANCEL ENTER A ME CD I A LE 2 En lt 3 gt Press the and keys to move the cursor to the digit to be changed and then turn the MODIFY dial to set the desired value When the output is on the value that is set is immediately reflected to the output 4 CM TNT OFF OFF e e Ic Cie SC EEE TEER l dl ll a a E CANCEL ENTER lt 4 gt Once all the digits have
154. tialization has been performed set the operation mode frequency and AC output current according to the following table Judgment If the output current of the BP4610 falls within the rated ranges in the following table the operation is judged to be normal Operation Mode Setting Frequency Setting AC Output Current Setting Rated Range CC INT 500 Hz 30 Ap p 29 82 to 30 18 Ap p 10 55 to 10 67 Arms 3 Ap p 2 955 to 3 045 A 1 045 to 1 076 Arms BP4610 7 13 7 8 Performance Test EG E DC output voltage measurement accuracy test Load No load Measurement connection Measure the voltage of the output terminal of the BP4610 with a DC voltmeter Settings After setting initialization has been performed set the output voltage limiters and current output voltage according to the following table Judgment If the difference between the DC voltage measurement display value of the BP4610 and the value measured with the DC voltmeter falls within the rated ranges in the following table the operation is judged to be normal Voltage Limiter Setting Voltage Limiter Setting DC Output Voltage Setting Rated Range 117 Y 115 V 0 5 to 0 5 V 117 V 115 V 0 5 to 0 5 V E DC output current measurement accuracy test Load Short via a current shunt resistor Measurement connection Measure the detection voltage of the current shunt resistor with a DC voltmeter and convert the measured value to a DC value Settings After s
155. tion panel Es Refer to 4 1 LCD Screen lt 2 gt On Off LED This is a lamp that displays the output on off status It is lit when the output is on and extinguished when the output is off ES Refer to 4 3 2 Output on off lt 3 gt OUTPUT key This key switches the output on off te Refer to 4 3 2 Output on off BP4610 3 1 3 1 Nomenclature ee OE lt 4 gt CANCEL key This key is used to cancel operations close entry boxes and move one level up at a time in the menu tree ls Refer to 4 2 Basic Operation lt 5 gt UP DOWN keys These keys are used to move the cursor in menus and select boxes ie Refer to 4 2 Basic Operation lt 6 gt ENTER key This key is used to enter settings open entry boxes and move one level down at a time in the menu tree ls Refer to 4 2 Basic Operation lt 7 gt MODIFY dial This dial is used change the value of the digit indicated by the digit cursor in a modify box ie Refer to 4 2 Basic Operation lt 8 gt DIGIT key This key is used to move the digit cursor in a modify box ie Refer to 4 2 Basic Operation lt 9 gt Shortcut keys These keys are used to call frequently used functions Le Refer to 4 2 7 Shortcut key BP4610 3 2 3 1 Nomenclature CD Y 3 1 2 Front panel EXT SIGNAL IN MONITOR OUT Vo lo lt 15 gt IGNAL IN MONITOR ou CAL lt 16 gt lt 17 gt lt 10 gt POWER switch This switch
156. tion via operation panel menu lt l gt Press the La and y keys to move the cursor to the MI I icon SET HOD CMV INT LIT OFF OFF A AA y A ES A Upp CANCEL ENTER ______ SA a Hz y Ea SIN WO Be AL i Wik 52 AL Lt 5 mn D I 26 04 ENTER lt 2 gt Press the key to display the MISC screen Press the a and y keys to move the cursor to REMOTE SMISC SEQUENCE MEMORY CANCEL a ENTER lt 3 gt Press the key to display the REMOTE screen REMOTE Use ID Sl ap lt 4 gt Press the A and LY keys to select LOCAL 2 2 gt REMOTE LE 10 LOCAL x CANCEL ENTER _____ BP4610 4 59 4 8 Remote Control Aa Mw ENTER lt 5 gt Press the key to display the Exe box gt REMOTE USE ID gt LOCAL EXEC So s ENTER lt 6 gt Press the key when EXEC 1s selected to switch to the local mode BP4610 4 60 4 9 System Menu 4 9 System Menu The system settings for the BP4610 are performed via the system menu on the SYSTEM screen Table 4 23 lists the SYSTEM screen items Table 4 23 System Menu Item List KEYLOCK Keylock on off BEEP Beep on off CONTRAST Setting of LCD contrast COLOR Setting of LCD display color pattern FREQ UNIT Setting of frequency display unit TIME UNIT Setting of time display unit INIT OUT Setting of output on off at power on INIT RSP Setting of response calibrator operation on off at power on
157. tput Example 1 ARBT 42048 2 higher byte of data 0 lower byte of data 0 higher byte of data 1 lower byte of data 1 lower byte of data 1023 BP4610 5 27 6 TROUBLESHOOTING BP4610 6 1 Error Messages AA 6 1 6 1 1 Error at DOW COM atar e 6 1 6 1 2 Protective function related errors vereren 6 2 6 1 3 Errors during operation nr rro 6 4 6 1 4 Warning display ers 6 5 6 2 Protective FUNCTIONS rrrrr rt tttttt teense 6 6 6 2 1 Overl oaq tort t ttt nese nena anne anna anne neneeeneees 6 7 6 2 2 OMT coc renee ees 6 7 6 3 When Suspecting a Fault ccccccccr cect ccc 6 8 6 1 Error Messages 6 1 Error Messages A S The BP4610 runs a self diagnosis at power on and if an anomaly is detected an error message is displayed An error message is also displayed when an incorrect setting or operation is performed The contents and cause of the error message as well as the required handling are listed below 6 1 1 Error at power on The BP4610 performs the following fault diagnoses at power on If an error occurs NG is displayed on the system check screen Table 6 1 lists the diagnosis items and the required handlings in case of fault detection ROM CHECK RAM READ WRITE CHECK BACKUP MEMORY CHECK WAVE MEMORY CHECK SEQUENCE MEMORY CHECK VERSION CHECK CALIBRATION MEMORY CHECK Table 6 1 Self Diagnosis Errors Fault Diagnosis Item Operation at Fault Detection amp Required Handling
158. tual setting value is not updated each time the MODIFY key is pressed By pressing the ENTER key to close the Modify box the setting value is actually updated If the Modify box is closed by pressing the CANCEL key the updated value is not applied Es Refer to 4 8 Remote Control 4 2 5 Selective input operation requiring confirmation If one item is selected from among various items and set a Select box is displayed When this select box is opened the selection cursor is displayed over one of the selection items The selection items are lineup vertically and the selection cursor is moved by pressing the UP and DOWN keys If there are items that do not fit within the Select box A and Y are displayed at the topmost and bottommost line respectively Each time the UP or DOWN key is pressed the items are scrolled one item at a time The selection cursor cannot be moved over the A and Y The actual setting is updated and the Select box closed by pressing the ENTER key If the Select box is closed by pressing the CANCEL key the changed setting is not applied A Ge uy Figure 4 5 Select Box BP4610 4 8 4 2 Basic Operation 4 2 6 Execution input Items that are actually executed by pressing the ENTER key are displayed in the Exe box Only one item recommended for execution is displayed in the Exe box at a time and the execution cursor is located over that item The item is actuall
159. ud Aca 4 38 PROGRAM Setting Listas Htc siete uate av ae aura vateawar chal Siweauiatecuetctee 4 43 Functions of External Control I O Connector oococcoccccococcccononcononcoroncnrnnnarnnnararnarnnnanns 4 51 MEMORY Screen Menu ltem List ninia ii A Aa 4 52 Operation Mode List aut laicos 4 55 System Menu ltem LIS cena 4 61 Adjustment Example for CV Mode Capacitive Load cocccococococococcncncacacacacananananananana 4 76 Adjustment Example for CC Mode Inductive Load ocococococococcccccccccacacacacacanananananano 4 78 Basic SENMO Sion 5 3 CUNIT Sita 5 3 Sequence Related il oie 5 4 Measurement Related ooooconcccccococoncnnacocononcnranononcnnnrnnoncnrnrnrornronnnrnrnronnnrnrnrnrnnnnrnrnnnnnnens 5 5 Arbitrary Wavetorm MemMoTy mssssinianaaca Aa 5 6 MEMO a o ida 5 6 Salus REDONO nilo ii ls ad a 5 6 Overlap Command asuimntamddatl alavesa dis 5 7 A dae Sra ee cin Sane dere aae ae eae eea deme eee am acta elect eet eeu tela 5 7 Interface Messages uan ide a 5 27 Table 6 1 Table 6 2 Table 6 3 Table 6 4 Table 6 5 Table 9 1 Table 9 2 Table 9 3 Table 9 4 BP4610 Tables SelfDIagnos IS ENOS aarin a lia 6 1 Protective Function Related ErrorS oooocncococonconococononcnnonononcncaronononnnrnrnronononrarnrnrnnnaranans 6 2 Errors during Operador aa 6 4 Warning DIS Pla ii diia 6 5 Protective FUNCIONO Sa 6 6 Setting Memoria colas 9 1 Store Recall Memory All Memories oococococccconocococoncncococononcanarononcarararn
160. y STR sasoe as oo f e y SRE SRQembleregiter as o a y esr Standardeeventstatusregister s o PESE Standard event status enable register s o v v opcr Operation condition register sr o v opre Operation mansione smr o oper Operaioneventregister ewm o f a fona OPEE 3276 p ly Warning event enable register OVER Overload event register 32767 OVEE _ Overload event enable register 32767 cLs Eventregistercomtentelear OVTF Overload transition filter 32767 OVCR Overload condition register 32767 MN a o la y la yal BP4610 5 6 5 2 Program Message List A Y Table 5 8 Overlap Command Header Setting When the device operation had ended an operation complete message in the standard event status y register 1s output to the device Upon completion of the device operation 1 1s OPC l l l V returned Until the device operation is completed the device prohibits further commands or clearing from being y executed Table 5 9 Other 0 Off BEEP Beep e l l y y n 0 Off IOUT Output on off at power on 1 On Response calibrator on off at 0 Off IRSP 1 1 a A power on 1 On External control input 0 Disable A 1 Enable east bace OO OOOO reset Self test 0 No error Returns self diagnosis result Other than 0 Error at power on NF Corporation BP4610 serial number version number Model name query i y Example NF Corporation BP461
161. y ensure that the installation environment is safe E Appearance and accessories check First check that the BP4610 has not been damaged during transportation Before installating the BP4610 check the product configuration which 1s listed in Table 2 1 Configuration List Table 2 1 Configuration List Main unit Instruction Manual this document Power cord set 125 V 15 A When repacking the product for shipping place it in a box of sufficient strength and size to safely accommodate the weight and size of the product making sure that the product is well protected NX WARNING This product contains high voltage parts Absolutely never remove its cover All internal inspections of this product are to be performed only by service technicians well trained in hazard control CAUTION The power cord set for use in Japan provided with this product 1s designed for use with this product only Do not use it for other products or applications BP4610 2 1 2 2 Installation Environment A 2 2 Installation Environment Observe the following points to ensure safe use of this product and maintain its reliability O To prevent the BP4610 from falling over set it on a floor that is flat free of vibrations and sufficiently strong to withstand the weight of the BP4610 26 kg per unit O Make sure that the ambient temperature and ambient humidity fall within the ranges indicated in the table below Perfor
162. y executed when the ENTER is pressed and the Exe box then closes If the Exe box is closed by pressing the CANCEL key the item is not executed EXT CONTROL DISABLE RESET lIEXEC INFORMATION p Figure 4 6 Exe Box 4 2 7 Shortcut keys The following operations can be performed using shortcut keys on the BP4610 Table 4 9 Shortcut Key List Display on Operation Panel TOP MENU Return to normal display menu top START Start sequence a STOP WEN HOLD Hold sequence LOCAL For details on the functions of keys No 2 to 4 ES refer to 4 5 Sequence Operation For details on the function of key No 5 amp amp refer to 4 8 2 Switch to local mode BP4610 4 9 4 3 Basic Functions Aa Mw 4 3 The BP4610 allows the following functions to be set via the SET screen in the Menu window Basic Functions e HOD Selects the operation mode ze Refer to 4 3 1 Setting of operation mode o DIT Selects output on off ze Refer to 4 3 2 Output on off e Sets the DC voltage to be output Ie Refer to 4 3 3 Setting of DC voltage and DC current e I Sets the DC current to be output Ie Refer to 4 3 3 Setting of DC voltage and DC current e 11 Setthe superimposed AC voltage a O BP4610 Es Refer to 4 3 4 Setting of superimposed AC voltage and superimposed AC current Sets the superimposed AC current le Refer to 4 3 4 Setting of superimp
163. zation is defined as follows 1 Medical equipment equipment used for medical treatment that generates high frequency energy and that uses output greater than 50 W 2 Industrial heating equipment equipment used for industrial heating that generates high frequency energy and that uses output greater than 50 W 3 Various equipment equipment that is used for heat generation or ionization and that imparts high frequency energy to a load O If the usage mode corresponds to high frequency application equipment as defined above according to Article 26 of the Radio Station License Procedure Regulations the required application must be submitted to the Bureau of Telecommunications that has jurisdiction over the location where the equipment is installed and the approval of the Minister of Public Management Home Affairs Posts and Telecommunications must be received For details refer to Article 100 of the Radio Law Article 45 of the Regulations for Enforcement of the Radio Law Article 26 of the Radio Station License Procedure Regulations and Article 65 of the Radio Equipment Law Instead of submitting an application to the Bureau of Telecommunications it is also possible to apply to the Internet Ministry of Public Management Home Affairs Posts and Telecommunications Electronic Applications and Notification System The application forms and form filling instructions can be obtained at the website of the Bureau of Telecommunications

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