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Cosinus BP4610 Instruction Manual

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BIPOLAR DC POWER SUPPLY
BP4610
Instruction Manual

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  • Page 1 BIPOLAR DC POWER SUPPLY BP4610 Instruction Manual...
  • Page 2 DA00010493-005 BIPOLAR DC POWER SUPPLY BP4610 Instruction Manual...
  • Page 3 Describes the names of the various parts of the BP4610. 4. OPERATION Describes how to use the BP4610, from its basic operation to the use of advanced functions. 5. USB INTERFACE Describes the commands for controlling the BP4610 via the USB interface.
  • Page 4 NF Corporation or one of our representatives.  If lightning occurs, power off this product and unplug the power cord. A lightning may cause an electric shock, a fire and a failure. BP4610...
  • Page 5 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. BP4610...

  • Page 6: Table Of Contents

    General ........................1-2 Features ........................1-2 Principle of Operation ....................1-4 PREPARATIONS BEFORE USE ..............2-1 Before Using the BP4610 ..................2-2 Installation Environment ..................2-3 Grounding and Power Supply Connection ............2-5 2.3.1 Grounding ..........................2-5 2.3.2 Power supply .......................... 2-5 Connection to I/O terminals ..................
  • Page 7 4.11 External Signal Input ....................4-85 4.12 Voltage and Current Monitor ................. 4-86 4.13 Measurement Function ..................4-87 USB INTERFACE ..................5-1 Preparations Before Usage ..................5-2 Program Message List ..................... 5-3 Explanation of Each Program Message ..............5-9 BP4610...
  • Page 8 Cleaning the Air Filters .................... 7-6 Backup Battery ......................7-7 Operation Inspection ....................7-8 Performance Test ....................7-10 SPECIFICATIONS ..................8-1 Specification Conditions ..................8-2 Output........................8-3 Output Limiters ......................8-5 Signal Sources ......................8-6 Monitor Output ......................8-7 Measurement Functions ..................8-7 BP4610...
  • Page 9 External Dimensions and Weight ................8-12 8.18 Safety, EMC and RoHS ................... 8-13 8.19 Output Voltage and Output Current Supply Ranges ........... 8-13 8.20 Drawing of External Dimensions ................8-18 INITIAL SETTING LIST ................9-1 Initial Setting List ..................... 9-2 BP4610...
  • Page 10 Figure 1-1. Block Diagram ........................1-4 Figure 2-1. Ambient Temperature and Ambient Humidity Ranges ............2-3 Figure 2-2. Hand Positions when Carrying BP4610 ................2-4 Figure 2-3. Power Supply Input Terminals ..................... 2-6 Figure 2-4. Output Terminals ........................2-7 Figure 2-5.
  • Page 11 AC Output Range (When Negative Voltage Limiter Setting Is Fixed to 7 V) ....8-17 Figure 8-8. Figure 8-9. AC Output Range (When Positive Voltage Limiter Setting Is Fixed to +7 V) ....8-17 Figure 8-10. Drawing of External Dimensions ..................8-18 BP4610...
  • Page 12 Arbitrary Waveform Memory ....................5-7 Table 5-6. Memory ............................. 5-7 Table 5-7. Status Reporting ........................5-7 Table 5-8. Overlap Command ........................5-8 Table 5-9. Other ............................5-8 Table 5-10. Interface Messages ........................ 5-27 Table 6-1. Self-Diagnosis Errors ......................6-2 BP4610...
  • Page 13 Warning Display ........................6-6 Table 6-5. Protective Functions ....................... 6-7 Table 9-1. Setting Memory ........................9-2 Table 9-2. Store/Recall Memory (All Memories) ..................9-3 Table 9-3. Arbitrary Waveform Memory ....................9-3 Table 9-4. Sequence Memory (All Steps) ....................9-4 BP4610...

  • Page 15: Overview

    1. OVERVIEW General ··································································· 1-2 Features ·································································· 1-2 Principle of Operation ················································· 1-4 BP4610...

  • Page 16: General

    1.1 General 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.
  • Page 17 External control can be performed from a PC, etc., via the USB interface.  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...

  • Page 18: Principle Of Operation

    1.3 Principle of Operation 1.3 Principle of Operation Figure 1-1 shows a block diagram of the BP4610. <1> POWER LINE MAIN DCPS LINE POWER A C/DC V each DCPS BLOCK Isolation <3> MONITOR OUT <2> E XT SIG NAL IN...
  • Page 19 1.3 Principle of Operation The BP4610 is composed of the four major blocks. <1> 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.

  • Page 21: Preparations Before Use

    2. PREPARATIONS BEFORE USE Before Using the BP4610 ············································ 2-2 Installation Environment ·············································· 2-3 Grounding and Power Supply Connection ······················ 2-4 2.3.1 Grounding ························································· 2-5 2.3.2 Power supply ····················································· 2-5 Connection to I/O terminals ········································· 2-6 2.4.1 Connection to power supply input terminals ·············· 2-6 2.4.2...

  • Page 22: Before Using The Bp4610

    2.1 Before Using the BP4610 Before setting up and using the BP4610, make sure that it 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.

  • Page 23: Installation Environment

    (EMFs), because output current gauge indications may become temporarily incorrect.  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 is not impeded and that forced air cooling of the product functions fully.

  • Page 24: Figure 2-2. Hand Positions When Carrying Bp4610

    If the panel or case of the BP4610 becomes dirty, wipe it with a soft cloth. If the case of resistant stain, use a cloth that has been moistened with a neutral detergent and then thoroughly wrung.

  • Page 25: Grounding And Power Supply Connection

    To prevent the risk of electric shock, observe the following points. The BP4610 uses a line filter. The leakage current is a maximum of about 0.9 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.

  • Page 26: Connection To I/O Terminals

    Insert the supplied power cord to the inlet on the rear panel. The BP4610 operates on a power supply of AC 100 V to 230 V 10% (250 V or lower). 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.

  • Page 27: Connection To Output Terminals

    ! CAUTION Note that since the “Lo” output terminal of the BP4610 is connected to the chassis, 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...

  • Page 28: Figure 2-6. Connection To Output Terminals

    <5> After connecting both the “Hi” and “Lo” output terminals, attach the supplied terminal covers. ● To tighten: Turn clockwise. ● 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...

  • Page 29: Connection To Usb Connector

    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.

  • Page 30: Table 2-2. External Control I/O Connector Pin List

    Sequence hold Falling detection Input Sequence branch trigger 0 Falling detection Input Sequence branch trigger 1 Falling detection   +5 V 50 mA or lower Output Reserved Output Reserved Output Reserved Output Reserved Output Reserved Output Reserved BP4610 2-10...

  • Page 31: Connection To External Signal Input Pin

    Gain accuracy: Input impedance: 10 k 5 V Non-destructive max.: EXT SIGNAL IN terminal BIPOLAR DC PO MEASURE POWER EXT SIGNAL IN MONITOR OUT 1/100 1V/10A OUTPUT CANCEL SEQUENCE MENU START STOP HOLD Figure 2-9. EXT SIGNAL IN Terminal BP4610 2-11...

  • Page 32: Connection To Monitor Output Pin

    (1 kHz reference, 1 M monitor output load impedance) 50  Output impedance: MONITOR OUT terminals BIPOLAR DC PO MEASURE POWER EXT SIGNAL IN MONITOR OUT 1/100 1V/10A OUTPUT CANCEL SEQUENCE MENU START STOP HOLD Figure 2-10. MONITOR OUT Terminal BP4610 2-12...

  • Page 33: Power On/Off And Operation Check

    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 are applied.

  • Page 34: Radio Law

    Applications must be submitted by the person who installed the equipment. Information such as the installation location must be filled in. d) The BP4610’s external view drawings or photographs are required as attached documents. If you have any questions, contact an NF Corporation.

  • Page 35: Nomenclature

    3. NOMENCLATURE Nomenclature ························································ 3-2 3.1.1 Operation panel················································ 3-2 3.1.2 Front panel ······················································ 3-4 3.1.3 Rear panel ······················································ 3-6 Access to the Volume Area ······································· 3-6 BP4610...

  • Page 36: Operation Panel

    3.1 Nomenclature 3.1 Nomenclature 3.1.1 Operation panel BP4610 BIPOLAR DC POWER SUPPLY <1> <5> <6> <4> <2> OUTPUT CANCEL ENTER <7> SEQUENCE MENU START STOP HOLD LOCAL <3> <8> <9> <1> LCD This is a 320 (horizontal)  240 (vertical) pixel, blue and white 2-color liquid crystal display.
  • Page 37 Refer to “4.2 Basic Operation”. <8> DIGIT key This key is used to move the digit cursor in a modify box. Refer to “4.2 Basic Operation”. <9> Shortcut keys These keys are used to call frequently used functions. Refer to “4.2.7 Shortcut key”. BP4610...

  • Page 38: Front Panel

    <10> POWER switch This switch is used to power on/off the BP4610. <11> Intake vent This is the vent for intaking air for cooling the BP4610. Periodically clean the filter. Refer to “7.5 Cleaning the Air Filter”. <12> EXT SIGNAL IN This is the connector used to input an external signal.
  • Page 39 Refer to “4.10 Response Calibration”. <16> V volume This volume is used to adjust the voltage feedback amount. Refer to “4.10 Response Calibration”. <17> I volume This volume is used to adjust the current feedback amount. Refer to “4.10 Response Calibration”. BP4610...

  • Page 40: Rear Panel

    This is the vent for exhausting the cooling air of the BP4610. <20> USB connector This is the USB interface connector for controlling the BP4610 from an external computer. Refer to “2.4.3 Connection to USB connector” and “5 USB INTERFACE”.

  • Page 41: Figure 3-1. Lift Operation Panel

    (4) Once the panel is at the desired angle, release (2) Pull out the operation panel until it stops. Figure 3-2. Operation Panel Lifting Method ! CAUTION Do not try to lift the operation panel without first pulling it out, as this will damage the panel. BP4610...

  • Page 42: Figure 3-3. Operation Panel Return Method

    (2) Lower the panel until it is 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.

  • Page 43: Operation

    4.5.7 Sequence operation execution ································ 4-50 Control via External Control I/O Connector ··················· 4-54 Memory Function ····················································· 4-55 Remote Control ······················································· 4-58 4.8.1 Switching USB interface ········································· 4-59 4.8.2 USB ID ······························································· 4-60 4.8.2.1 USBTMC ··················································· 4-60 4.8.2.2 USB 488 ···················································· 4-62 BP4610...
  • Page 44 4.10 Response Calibration ··············································· 4-76 4.10.1 Outline ······························································ 4-76 4.10.2 Fixed characteristics ············································ 4-77 4.10.3 Adjustment characteristics ···································· 4-78 4.10.4 Adjustment example ············································ 4-81 4.11 External Signal Input ················································ 4-85 4.12 Voltage and Current Monitor ······································ 4-86 4.13 Measurement Function ············································· 4-87 BP4610...

  • Page 45: Lcd Screen

    4.1 LCD Screen 4.1 LCD Screen The LCD on the operation panel is displayed divided into several windows, as shown in Figures 4-1 and 4-2. Figure 4-1. LCD Screen (Normal Display) Figure 4-2. LCD Screen (Warning Display) BP4610...

  • Page 46: Status Icons

    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...

  • Page 47: Warning And Error Display

    For details on error messages, 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 Message...

  • Page 48: 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.

  • Page 49: Table 4-3. Set Menu Item List

    Table 4-4. MISC Menu Item List Item Name Setting Item Reference SEQUENCE Open sequence menu “4.5 Sequence Operation” MEMORY Open memory menu “4.7 Memory Functions” REMOTE Open remote menu “4.8 Remote Control” SYSTEM Open system menu “4.9 System Menu” BP4610...

  • Page 50: Table 4-5. Sequence Menu Item List

    Branch 0 BRANCH1 Branch 1 MEMORY... Clear sequence memory “4.5.5 Sequence memory clear” Table 4-6. MEMORY Menu Item List Item Name Setting Item Reference STORE... Store setting contents RECALL... Recall setting contents “4.7 Memory Functions” CLEAR... Clear setting contents BP4610...

  • Page 51: Menu Tree Navigation Method

    <2> Pressing the [ENTER] key in this condition causes the lower menu to be displayed. <3> Further pressing the [CANCEL] key in this condition causes the higher menu to be displayed again. <4> Further pressing the [CANCEL] key ultimately causes the top menu to be returned to. BP4610...

  • Page 52: Numerical Input Operation

    The selection cursor cannot be moved over the “▲” and “▼”. 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. Figure 4-5. Select Box BP4610 4-10...

  • Page 53: Execution Input

    [CANCEL] key, the item is not executed. 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 Key No. Display on Operation Panel...

  • Page 54: Basic Functions

    4.3 Basic Functions 4.3 Basic Functions The BP4610 allows the following functions to be set via the SET screen in the Menu window. Selects the operation mode.  Refer to “4.3.1 Setting of operation mode”.) Selects output on/off.  Refer to “4.3.2 Output on/off”.) Sets the DC voltage to be output.

  • Page 55: Setting Of Operation Mode

     Setting of signal source The BP4610 can be set to one of three signal source modes, INT (internal), EXT (external), and ADD (internal + external).  INT: Uses the internal signal source of the BP4610. The DC/AC voltage (current) and the AC frequency waveform set via the menus on the operation panel are output.

  • Page 56: Figure 4-8. Block Diagram Of Signal Source Block

    ENTER <2> Press the key to display the Select box. CANCEL ENTER <3> Press the keys to move the cursor to the mode to be set. CANCEL ENTER ENTER <4> Press the key to set the selected mode. BP4610 4-14...

  • Page 57: Output On/Off

    4.3 Basic Functions 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.
  • Page 58 CAUTION When switching the output on and off, pulse voltage output or current output may occur by switching the internal circuit of BP4610. Therefore, an effect of this voltage or current may occur depending on the load. It is possible to prevent from applying such voltage or current to the load by adding the switch to the output.

  • Page 59: Setting Of Dc Voltage And Dc Current

    4.3 Basic Functions 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.  Setting range: 115 V to 115 V ...

  • Page 60: Setting Of Superimposed Ac Voltage And Superimposed Ac Current

    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.
  • Page 61 [MODIFY] dial to set the desired value. When the output is on, the value that is set is immediately reflected to the output. ENTER CANCEL <4> Once all the digits have been set, press the key to end the setting procedure. BP4610 4-19...

  • Page 62: Figure 4-9. Frequency Characteristics For 6  Load In Cv And Cc Modes

     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.

  • Page 63: Setting Of Frequency

    [MODIFY] dial to set the desired value. When the output is on, the value that is set is immediately reflected to the output. ENTER CANCEL <4> Once all the digits have been set, press the key to end the setting procedure. BP4610 4-21...

  • Page 64: Setting Of Waveform

    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.
  • Page 65 4.3 Basic Functions <3> Press the keys to move the cursor to the waveform to be output. CANCEL ENTER ENTER <4> Press the key to set the selected waveform. BP4610 4-23...

  • Page 66: Setting Of Limiters

    4.4 Setting of limiters 4.4 Setting of limiters To protect the load, the BP4610 has output voltage and output current limiter functions implemented through hardware. The maximum values for the output voltage and output current can each be set independently for the negative and positive range.
  • Page 67 [MODIFY] dial to set the desired value. When the output is on, the value that is set is immediately reflected to the output. ENTER CANCEL <4> Once all the digits have been set, press the key to end the setting procedure. BP4610 4-25...

  • Page 68: Shifting The Output Voltage Range

    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 the 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.

  • Page 69: Figure 4-11. Dc Output Range (When Negative Voltage Limiter Setting Is Fixed To 7 V)

    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.

  • Page 70: Output Voltage Limiters

    In such a case, make the set value of the current limiter large. BP4610 4-28...

  • Page 71: Sequence Operation

    4.5 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.

  • Page 72: Table 4-13. Step Execution Parameters

    The following items are provided as output behavior specifications for each step.  Constant (CONST) [Step operation types]  Sweep (SWEEP)  Output using end value of previous step (KEEP) Note If KEEP is selected for [Step operation type], the [Output parameters] settings are ignored. Note BP4610 4-30...

  • Page 73: Figure 4-12. Basic Step Transition Example

    If 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 Step 3 Regular Time Step 1 Step 2 Step 3 output step <START> Figure 4-12. Basic Step Transition Example BP4610 4-31...

  • Page 74: Figure 4-13. Sequence Status Transition Block Diagram

    Idle status Status in which regular output is performed. Run status Status in which sequence is executed. Status in which sequence is paused. Hold status The output is held at the point in time when <Hold> is executed. BP4610 4-32...

  • Page 75: Figure 4-14. Example Of Sequence Operation When Is Executed From Hold Status

    Step 2 settings  Last value  Step time  Branch step 5 <Branch> Output parameter Step 5 settings  End value of previous step Step 1 Step 2 Step 5 Time Figure 4-15. Example of Sequence Operation During <Branch> BP4610 4-33...

  • Page 76: Figure 4-16. Loop Specification Method And Step Transition Example

    + 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 4-34...

  • Page 77: Figure 4-17. Step Sync Output Example

    Moreover, the operation after the set step time has elapsed is held to the setting value for that step. Held at setting value Value set to this step SWEEP Time set with [Step time] Phase 0 wait time Figure 4-18. Sequence Operation upon Phase 0 deg Wait Occurrence BP4610 4-35...

  • Page 78: Setting Of Sequence

    The sequence setting method is described below.  Input at every step via operation panel  Programming on PC and transmission to BP4610 via USB  Creation of sequence data with sequence editing software (sold separately) and transmission to BP4610 For details on the program messages during sequence operation, refer to “5.3.3 Sequence...
  • Page 79  To program a sequence: Select [PROGRAM]. Refer to “4.5.3 Sequence programming”.)  To control the sequence memory: Select [MEMORY]. Refer to “4.5.5 Sequence memory clear”.) CANCEL ENTER ENTER <5> Press the key to display the various screens. CANCEL ENTER BP4610 4-37...

  • Page 80: Sequence Programming

    “4.3.6 Setting of For the output method for sine wave, square, and arbitrary waves, waveform”. The various items displayed on the PROGRAM screen are listed in Table 4-17. BP4610 4-38...

  • Page 81: Table 4-17. Program Screen Item List

    Frequency operation type Selects the type of transition to the specified waveform. The type of transition can be selected from the following three.  CONST: Output of the specified waveform  KEEP: Output of the waveform of the previous step BP4610 4-39...
  • Page 82  0: Disabled branching. BRANCH1 Branch step 1  1 to 255: Jump to the specified step number. BP4610 4-40...
  • Page 83 <3> Press the key to display the Select box. CANCEL ENTER <4> Press the keys to move the cursor to the operation to be set. CANCEL ENTER ENTER <5> Press the key to set the operation at step termination. BP4610 4-41...
  • Page 84 [MODIFY] dial to set the desired value. <5> In the same way, set all the digits. ENTER <6> Once all the digits have been set, press the key. This enables the setting values and completes the step time setting procedure. BP4610 4-42...

  • Page 85: Sequence Operation Control

    For details on the procedure until display of the CONTROL select box, Setting of sequence”. <2> Press the keys to move the cursor to the item indicating the operation to be set. CANCEL ENTER ENTER <3> Press the key to perform the selected operation. BP4610 4-43...

  • Page 86: Figure 4-19. Sequence 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. BP4610 BIPOLAR DC POWER SUPPLY OUTPUT CANCEL...

  • Page 87: Sequence Memory Clear

    Exe box. CANCEL ENTER ENTER <3> Pressing the key when [Clear] is selected clears the sequence memory. When the sequence memory is cleared, the initial value is stored in the memory. ( Refer to “9 INITIAL SETTING LIST”.) BP4610 4-45...

  • Page 88: Sequence Operation Setting Example

    5 is set to 0.2 s and the branch 0 jump step of step 5 is set to step 6, so the sequence will immediately move to step 6 when the branch 0 is input within the step time (<3> in Figure 4-20). BP4610 4-46...
  • Page 89 [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”). ENTER <5> Press the key to apply the set value. BP4610 4-47...
  • Page 90 <8> Press the key and move the cursor to [SWEEP]. CANCEL ENTER ENTER <9> 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 4-48...
  • Page 91 Using the same operation as in steps <2> to <5>, set DC VOLT = 2.5, and using the same operation as in steps <6> to <9>, set the DC voltage operation type to “KEEP”. Then go on to set Step 3 and subsequent steps using the same procedure. BP4610 4-49...

  • Page 92: Sequence Operation Execution

    <2> Press the key to move the cursor to the icon. CANCEL ENTER ENTER <3> Press the key to display the Select box. CANCEL ENTER <4> Press the key to move the cursor to “ON”. CANCEL ENTER BP4610 4-50...
  • Page 93 CANCEL ENTER ENTER <7> Press the key to display the MISC screen. CANCEL ENTER ENTER <8> Check that the cursor is positioned over [SEQUENCE], and then press the key to display the SEQUENCE screen. CANCEL ENTER BP4610 4-51...
  • Page 94 The output is set to on and the on/off LED goes OUTPUT OUTPUT Output off Output on <2> Press the [START] shortcut key to start the sequence. SEQUENCE MAIN START STOP HOLD LOCAL BP4610 4-52...

  • Page 95: Figure 4-21. Lcd Screen When Sequence Is Running

    Status window. A message box that displays the number of the step currently being executed is also displayed. Status icon indicating that シーケンス実行中を示す sequence is running 状態アイコン Number of step currently 実行中のステップ番号 being executed Figure 4-21. LCD Screen When Sequence Is Running BP4610 4-53...

  • Page 96: Control Via External Control I/O Connector

    External control input must be enabled to perform external control. Refer to “4.9.7 Setting of external control input enable/disable”.) The status of the BP4610 can also be monitored by reading the output signal from the external control I/O connector. (Switching cycle 0.1 ms) The sequence step synchronized output signals are output from the external I/O connector.

  • Page 97: Memory Function

    Calls the setting contents of the specified memory number. CLEAR... Clears the setting contents of the specified memory number. Displays setting 選択したメモリ内の contents of selected 設定内容を表示 Figure 4-22. Memory Contents Display Example refer to “9 INITIAL SETTING LIST”. For the setting values after clear is executed, BP4610 4-55...
  • Page 98 CANCEL ENTER ENTER <2> Press the key to display the MISC screen. Press the keys to move the cursor to [MEMORY]. CANCEL ENTER ENTER <3> Press the key to display the MEMORY screen. CANCEL ENTER BP4610 4-56...
  • Page 99 CANCEL ENTER <7> 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 4-57...

  • Page 100: Remote Control

    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.

  • Page 101: Switching Usb Interface

    MISC screen. Press the keys to move the cursor to [REMOTE]. CANCEL ENTER ENTER <3> Press the key to display the REMOTE screen. Press the keys to move the cursor to [INTERFACE]. CANCEL ENTER BP4610 4-59...

  • Page 102: Usb Id

    --------------------------------------------------------------------------------------------------------------------------------- 4.8.2 USB ID Used for a system connected with BP4610 through USB, to enable the application identify each source. 4.8.2.1 USBTMC If you are using USBTMC, USB ID has been assigned to each instrument. It can be checked in “REMOTE”...

  • Page 103: Usb 488

    ENTER ENTER <4> Press the key to display the Select box. Press the keys to select [USBTMC]. CANCEL ENTER ENTER <5> Press the key to switch interface to USBTMC. VENDOR ID, PRODUCT ID, and SERIAL NO are displayed. BP4610 4-61...

  • Page 104: Usb 488

    MISC screen. Press the keys to move the cursor to [REMOTE]. CANCEL ENTER ENTER <3> Press the key to display the REMOTE screen. If [INTERFACE] is USBTMC, switch interface to USB488. Press the keys to select [USB488 ID]. BP4610 4-62...

  • Page 105: Switch To Local Mode

     Operation via shortcut keys  Operation via menu The operation procedures are described below.  Operation procedure (operation via shortcut keys) Press the [LOCAL] shortcut key to switch to the local mode. SEQUENCE MAIN START STOP HOLD LOCAL BP4610 4-63...
  • Page 106 <2> Press the key to display the MISC screen. Press the keys to move the cursor to [REMOTE]. CANCEL ENTER ENTER <3> Press the key to display the REMOTE screen. CANCEL ENTER <4> Press the keys to select [LOCAL...]. BP4610 4-64...
  • Page 107 4.8 Remote Control CANCEL ENTER ENTER <5> Press the key to display the Exe box. CANCEL ENTER ENTER <6> Press the key when [EXEC] is selected to switch to the local mode. BP4610 4-65...

  • Page 108: System Menu

    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 Menu Item Name Setting Contents...
  • Page 109 MISC screen. Press the keys to move the cursor to [SYSTEM]. CANCEL ENTER ENTER <3> Press the key to display the SYSTEM screen. CANCEL ENTER <4> Press the keys to select the operation to be performed. BP4610 4-67...

  • Page 110: Keylock

    4.9 System Menu 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.

  • Page 111: Beep Sound

    “ON” to switch the beep on, or to “OFF” to switch the beep off. CANCEL ENTER ENTER CANCEL <4> Press the key to apply the setting, or press the key to cancel the setting. BP4610 4-69...

  • Page 112: Lcd Contrast Adjustment

    MODIFY dial to set the value. ENTER CANCEL <4> After setting all the digits, press the key. The LCD contrast is set. Press the key to cancel the setting. BP4610 4-70...

  • Page 113: Setting Of Lcd Display Color

    “BLUE” to set a blue screen, or to “WHITE” to set a white screen. CANCEL ENTER ENTER CANCEL <4> Press the key to apply the setting, or press the key to cancel the setting. BP4610 4-71...

  • Page 114: Setting Of Frequency And Time Units

    Select box. CANCEL ENTER <3> Press the keys to move the cursor to the unit to be displayed. CANCEL ENTER ENTER CANCEL <4> Press the key to apply the setting, or press the key to cancel the setting. BP4610 4-72...

  • Page 115: Setting Of Operation Of Output And Response Calibrator At Power-On

    4.9 System Menu 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. ( Refer to “4.10.3 Adjustment characteristics”.)

  • Page 116: Setting Of External Control Input Enable/Disable

    4.9 System Menu 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, refer to “2.4.4 Connection to external control input/output connector”.

  • Page 117: Reset Function

    4.9.8 Reset function The reset function returns the basic settings to the 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, refer to “9. INITIAL SETTING LIST”.

  • Page 118: Response Calibration

    (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 two types.

  • Page 119: Fixed Characteristics

    CANCEL ENTER ENTER <2> Press the key to display the Select box. CANCEL ENTER <3> Press the keys to move the cursor to “OFF”. CANCEL ENTER ENTER <4> Press the key to set the response calibrator to off. BP4610 4-77...

  • Page 120: Adjustment Characteristics

    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. RESPONSE BP4610 4-78...
  • Page 121 <5> Connect the load. <6> Press the keys to move the cursor to the icon. CANCEL ENTER ENTER <7> Press the key to display the Select box. CANCEL ENTER <8> Press the keys to move the cursor to “ON”. CANCEL ENTER BP4610 4-79...
  • Page 122 (including no-load). Therefore, when using adjustment characteristics, make sure that the adjustment knobs are set to their slowest and most stable settings on the left (counterclockwise) before using an external oscilloscope for waveform monitoring and before adjustment. BP4610 4-80...

  • Page 123: Adjustment Example

    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.

  • Page 124: Figure 4-23. Output Voltage Waveform For Cv Mode/Capacitive Load (C = 10  F)

    Ch1 rise  60.74 10 V/div  Figure 4-24. Output Voltage Waveform for CV Mode/Capacitive Load (C = 50 Ch1 rise  94.24 10 V/div  Figure 4-25. Output Voltage Waveform for CV Mode/Capacitive Load (C = 100 BP4610 4-82...

  • Page 125: Table 4-25. Adjustment Example For Cc Mode/Inductive Load

    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.

  • Page 126: Figure 4-26. Output Current Waveform For Cc Mode/Inductive Load (L = 150  H)

    Ch1 rise  48.96 2 A/div  Figure 4-27. Output Current Waveform for CC Mode/Inductive Load (L = 390 Ch1 rise  235.8 2 A/div Figure 4-28. Output Current Waveform for CC Mode/Inductive Load (L = 1.6 mH) BP4610 4-84...

  • Page 127: External Signal Input

    4.11 External Signal Input The BP4610 can also be used as a high-speed bipolar amplifier to which an external signal is input. It is also possible to perform output by adding the signal of an internal signal source to an external signal input.

  • Page 128: Voltage And Current Monitor

    (1 kHz reference, 1 Mmonitor output load impedance) 50  Output impedance: MONITOR OUT terminal BIPOLAR DC PO MEASURE POWER EXT SIGNAL IN MONITOR OUT 1/100 1V/10A OUTPUT CANCEL SEQUENCE MENU START STOP HOLD Figure 4-30. MONITOR OUT Terminal BP4610 4-86...

  • Page 129: Measurement Function

    4.13 Measurement Function 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.

  • Page 131: Usb Interface

    Status byte ······················································ 5-23 5.4.2 Standard event statuses ····································· 5-24 5.4.3 Message queue ················································ 5-24 5.4.4 Operation statuses ············································ 5-25 5.4.5 Warning statuses ·············································· 5-26 5.4.6 Overload statuses ············································· 5-26 Response to Interface Messages ································ 5-27 Programming Cautions ············································· 5-27 BP4610...

  • Page 132: Preparations Before Usage

     Set the USB ID after making sure it is 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.  Windows Vista or later is not supported. BP4610...

  • Page 133: Program Message List

    20 to 7F), except for arbitrary waveform data blocks. Arbitrary waveform data consists of binary data blocks.  During reception of program messages by the BP4610, no distinction is made between uppercase and lowercase.  Response messages are in uppercase.

  • Page 134: Table 5-1. Basic Settings

    Header Function Max. Value Min. Value Resolution Setting Query + voltage limiter   LMVP 117.0  voltage limiter 7.0 117.0   LMVM + current limiter   LMCP 26.0  current limiter 1.0 26.0   LMCM BP4610...

  • Page 135: Table 5-3. Sequence Related

    Fixed to 0 deg Step transition STRP Step termination parameters 0: Continue sequence 5th parameter   1: Enter Idle status 2: Enter Hold status Jump step 6th parameter   0: Go to next step number 1 to 255: Step number BP4610...

  • Page 136: Table 5-4. Measurement Related

    MCUR? DC current measurement value 20.00  0.01 (99.99) 40.0 MACC? AC current measurement value   (99.9) -------- Comment -----------------------------------------------------------------------------------------------------------  The figures in parentheses ( ) are the values of response messages when measurement over-range occurs. --------------------------------------------------------------------------------------------------------------------------------- BP4610...

  • Page 137: Table 5-5. Arbitrary Waveform Memory

      Overload condition register OVCR? 32767   Overload transition filter OVTF 32767   Overload event register OVER? 32767   Overload event enable register OVEE 32767      Event register content clear *CLS BP4610...

  • Page 138: Table 5-8. Overlap Command

    *RST Device reset Self test 0: No error   *TST? Returns self-diagnosis result Other than 0: Error at power-on NF Corporation, BP4610, serial number, version number   *IDN? Model name query Example: NF Corporation, BP4610, 0000001,1.00  ...

  • Page 139: Explanation Of Each Program Message

    Settable in units of 0.001 A.  FREQ/FREQ? Description: Sets the superimposed AC frequency. Parameter: Frequency [Hz] 1.0 Hz to 100000.0 Hz Setting example: Setting the superimposed AC frequency to 70000 Hz FREQ 70000 Caution: Settable in units of 0.1 Hz. BP4610...
  • Page 140 Setting cannot be performed when the output is on.  VOLT/VOLT? Description: Sets the DC voltage. Parameter: Voltage [V] 115.00 V to 115.00 V Setting example: Setting the output voltage to 90 V VOLT 90 Caution: Settable in units of 0.01 V. BP4610 5-10...

  • Page 141: Limiter

    Settable in units of 0.1 A  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 5-11...

  • Page 142: Sequence Related

    1: Sequence start 2: Sequence hold 3: Sequence branch 0 4: Sequence branch 1 Setting example: Starting a sequence SCTL 1  SEQM Description: Controls the sequence memory. Parameter: 0: Clear Setting example: Clears the sequence memory. SEQM 0 BP4610 5-12...
  • Page 143 SEXP 10, 2, 5, 1, 20, 1, 4, 0, 0, 1  SLEN? Description: Specifies the sequence length. Parameter: 255, fixed  SSTS? Description: Returns the sequence status. Response format: 0: Idle status 1: Run status 2: Hold status BP4610 5-13...
  • Page 144 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, 0 BP4610 5-14...
  • Page 145 STPN SEXP 2.5, 2, STRP 0.1, 0, STPN SEXP 7.5, 1, STRP 0.2, 0, STPN SEXP 7.5, 0, STRP 0.1, 0, STPN SEXP STRP 0.2, 0, STPN SEXP 10, 2, STRP 0.2, 0, STPN SEXP STRP 0.3, 0, BP4610 5-15...

  • Page 146: Measurement Related

    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.  ARBM Description: Controls arbitrary waveform memory. Parameter: 0: Clear Setting example: Clears arbitrary waveform. ARBM 0 BP4610 5-16...

  • Page 147: Store/Recall Memory

    Reading the contents of store/recall memory 5 *RCL 5 Caution: This operation cannot be performed during output on.  *SAV Description: Saves the settings. Parameter: 1 to 30 Setting example: Saving settings to store/recall memory 5 *SAV 5 BP4610 5-17...

  • Page 148: Status Reporting

    Refer to “5.4.4 Operation statuses”. Parameter: 0 to 32767  OPER? Description: Operation event register Refer to “5.4.4 Operation statuses”. Response format: 0 to 32767  OPTF/OPTF? Description: Operation transition filter Refer to “5.4.4 Operation statuses”. Parameter: 0 to 32767 BP4610 5-18...
  • Page 149 Refer to “5.4.1 Status byte”. Response format: 0 to 255  WREE/WREE? Description: Warning event enable register Refer to “5.4.5 Warning statuses”. Parameter: 0 to 32767  WRER? Description: Warning event register Refer to “5.4.5 Warning statuses”. Response format: 0 to 32767 BP4610 5-19...

  • Page 150: Overlap Commands

     *OPC? Description: Upon completion of the device operation, 1 is returned.  *WAI Description: Until the device operation is completed, the device is prohibited from further executing commands or clearing. BP4610 5-20...

  • Page 151: Other

    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/IOUT? Description: Sets output on/off at power-on. Parameter: 0: Off...
  • Page 152 Bit 2: Initialized due to backup memory defect ■ VERS? Description: Queries the version number. Response example: 1.00 ■ XCTL/XCTL? Description: Sets external control input enable/disable. Parameter: 0: Disable 1: Enable Setting example: Enabling external control input XCTL 1 BP4610 5-22...

  • Page 153: Status Configuration

    Operation status summary Status byte register Service request DI08 DI06 DI05 DI04 DI03 DI02 DI01 generation Read through DI07 *STB? common query & & & & & & & Service request enable register *SRE common command *SRE? common query BP4610 5-23...

  • Page 154: Standard Event Statuses

    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 empty Message queue summary Status byte (bit 4) BP4610 5-24...

  • Page 155: Operation Statuses

    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. 5-25 BP4610...

  • Page 156: Warning Statuses

    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 BP4610 5-26...

  • Page 157: Response To Interface Messages

    When the corresponding bit of the condition register changes from 1 to 0, the corresponding bit of the event register is set to 1. 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 Response Initialize USB interface.

  • Page 159: Troubleshooting

    Error at power-on ················································ 6-2 6.1.2 Protective function related errors ···························· 6-3 6.1.3 Errors during operation ········································· 6-5 6.1.4 Warning display ·················································· 6-6 Protective Functions ··················································· 6-7 6.2.1 Overload ··························································· 6-8 6.2.2 Over-limiter ························································ 6-8 When Suspecting a Fault ············································ 6-9 BP4610...

  • Page 160: Error Messages

    6.1 Error Messages 6.1 Error Messages 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.

  • Page 161: Protective Function Related Errors

    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”.)

  • Page 162: Figure 6-1. Protective Function Related Error Display Examples

    6.1 Error Messages Figure 6-1. Protective Function Related Error Display Examples BP4610...

  • Page 163: Errors During Operation

    USB parameter range check error OUT OF RANGE Execution error other than above EXECUTION ERROR Measurement out of range OUT OF MEASURE RANGE USB interface command error COMMAND ERROR USB interface query error QUERY ERROR Figure 6-2. Examples of Error Display During Operation BP4610...

  • Page 164: Warning Display

    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 Indicates output off due to over-limiter (during remote operation) LIMITER Figure 6-3. Warning Display Example BP4610...

  • Page 165: Protective Functions

    6.2 Protective Functions 6.2 Protective Functions The BP4610 has the protective functions listed in Table 6-5. If the power is interrupted by a protective function at a time other than power failure, the cause is recorded and an error message (described in “6.1.2 Protective function related errors”) is displayed the next time the BP4610 powers on.

  • Page 166: Overload

    An error message, listed in Table 6-4, is also displayed.  If the overload further continues, the power switch is forced off. After the BP4610 is powered back on, an error message, listed in Table 6-2, is displayed.

  • Page 167: When Suspecting A Fault

    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...

  • Page 169: Maintenance

    7. MAINTENANCE Introduction ··························································· 7-2 Daily Maintenance ·················································· 7-2 Storage, Repacking, and Transportation ······················ 7-3 Version Number Verification Method ··························· 7-4 Cleaning the Air Filters ············································· 7-6 Backup Battery ······················································· 7-7 Operation Inspection ··············································· 7-8 Performance Test ·················································· 7-10 BP4610...

  • Page 170: Introduction

    7.1 Introduction 7.1 Introduction To ensure use of the BP4610 under the best possible conditions, it is important to perform maintenance as follows.  Operation verification: Check performed to verify whether the BP4610 operates correctly.  Performance test: Check performed to verify whether the BP4610 satisfies its ratings.

  • Page 171: Storage, Repacking, And Transportation

    For the installation conditions, refer to “2.2 Installation Environment”. If repacking the BP4610 for transportation, etc., make sure that the box that is used is sufficiently strong and large to support the weight of the BP4610 and provide adequate protection.

  • Page 172: Version Number Verification Method

    7.4 Version Number Verification Method 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.

  • Page 173: Figure 7-1. System Information Screen

    7.4 Version Number Verification Method <4> Press the key to move the cursor to “INFORMATION”. CANCEL ENTER ENTER <5> Press the key to display the “SYSTEM INFORMATION” screen. CANCEL ENTER Figure 7-1. SYSTEM INFORMATION Screen BP4610...

  • Page 174: Cleaning The Air Filters

    7.5 Cleaning the Air Filters 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.

  • Page 175: Backup Battery

    The backed up contents are checked at power-on, and if the contents have become degraded, an error message is displayed ( refer to “6.1 Error Messages”) and the values of the BP4610 are reset to the initial values ( refer to “4.7 Memory Functions”).

  • Page 176: Operation Inspection

    (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). ...
  • Page 177  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.

  • Page 178: Performance Test

    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.
  • Page 179 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.
  • Page 180 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.
  • Page 181 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.
  • Page 182  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.

  • Page 183: Specifications

    8.19 Output Voltage and Output Current Supply Ranges ······ 8-13 8.20 Drawing of External Dimensions ······························ 8-18 Values that indicate accuracy are guaranteed values, but values that do not indicate accuracy are for reference only. All of the adjusted characteristics values are also for reference only. BP4610...

  • Page 184: Specification Conditions

    In this chapter, the terms “fixed characteristics” and “adjusted characteristics” have the following meanings.  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.  Adjusted characteristics...

  • Page 185: Output

    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 DC to 2 kHz, 0.5 dB CC mode: 2 kHz to 8 kHz, +1, 3 dB BP4610...
  • Page 186 Condition: Input terminal short, measurement band 10 Hz to 300 kHz CV mode: 50 mVrms or less CC mode: 8 mArms or less  Output terminal M4 terminal block (rear panel) The Lo side is connected to the chassis. BP4610...

  • Page 187: Output Limiters

    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. ( Refer to “8.19 Output Voltage and Output Current Supply Ranges”.) BP4610...

  • Page 188: Signal Sources

    100 (100 V/1 V), in phase (CV mode) 10 (10 A/1 V), in phase (CC mode) 5% (1 kHz) Gain accuracy: Input impedance: 10 kΩ 5 V Non-destructive max. input voltage: Input terminal: BNC connector (front panel) Frequency range: DC to 200 kHz BP4610...

  • Page 189: Monitor Output

    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 (0.1 Ap-p resolution) 1 Ap-p (0 A DC, 30 Ap-p, 500 Hz) Measurement accuracy: Measurement frequency band: 10 kHz/3 dB BP4610...

  • Page 190: Sequence Function

    The arbitrary waveform memory is memory for the superimposed AC of the internal signal source. It is battery backed up. Number of waveform memories: Waveform length: 1024 words Waveform data: 16 bits Remark: Write to arbitrary waveform memory from the operation panel is not possible. Write is performed via the USB interface. BP4610...

  • Page 191: Setting Memory

    8.9 Setting Memory 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.

  • Page 192: External Control I/O

    0.1 ms 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  Terminal D-sub 25-pin multi connector (rear panel, female, M2.6 screw) BP4610 8-10...

  • Page 193: Usb Interface

    However, the absolute humidity must be 1 to 25 g/m , with no condensation 10 to +50C/5 to 95%RH Storage conditions: However, the absolute humidity must be 1 to 29 g/m , with no condensation Figure 8-1 shows the ambient temperature and humidity ranges. Pollution degree: BP4610 8-11...

  • Page 194: External Dimensions And Weight

    Performance Storage assurance 10 50C Figure 8-1. Ambient Temperature and Humidity Ranges 8.17 External Dimensions and Weight  External dimensions Width: 430 mm Height: 177 mm Depth: 551 mm (Not including projections)  Weight 26 kg or lower BP4610 8-12...

  • Page 195: Safety, Emc And Rohs

    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 8-13...

  • Page 196: Figure 8-2. Dc Output Range

    <2> <2> 42 <3> <3> 32 <4> <4> 22 <5> <5> 12 <6> <6> <6> 11 10 8 9 10 11 <5> <4> <3> <2> <1> Figure 8-3. DC Output Range (When Positive/Negative Voltage Limiter Settings Are Symmetric) BP4610 8-14...

  • Page 197: Figure 8-4. Dc Output Range (When Negative Voltage Limiter Setting Is Fixed To 7 V)

    62 <4> 11 10 9 8 2 3 4 8 9 10 11 <6> 42 <5> 22 <6> <5> <4> <3> <2> <1> Figure 8-5. DC Output Voltage (When Positive Voltage Limiter Setting Is Fixed to +7 V) BP4610 8-15...

  • Page 198: Figure 8-6. Ac Output Range

    <2> 82 <3> 62 <4> 11 10 9 8 2 3 4 8 9 10 11 <6> 42 <5> 22 <6> <5> <4> <3> <2> <1> Figure 8-7. AC Output Range (When Positive/Negative Voltage Limiter Settings Are Symmetrical) BP4610 8-16...

  • Page 199: Figure 8-8. Ac Output Range (When Negative Voltage Limiter Setting Is Fixed To 7 V)

    117 <1> 102 <2> 82 <3> 16 14 62 <3> <4> <6> 42 <5> <2> <5> 22 <6> <1> <4> <3> <2> <1> Figure 8-9. AC Output Range (When Positive Voltage Limiter Setting Is Fixed to +7 V) BP4610 8-17...

  • Page 200: Drawing Of External Dimensions

    8.20 Drawing of External Dimensions 8.20 Drawing of External Dimensions Figure 8-10. Drawing of External Dimensions BP4610 8-18...

  • Page 201: Initial Setting List

    9. INITIAL SETTING LIST Initial Setting List ···················································· 9-2 BP4610...

  • Page 202: Initial Setting List

    Output on/off at power-on Backup value Response calibrator on/off at   Backup value power-on   External control input enable/disable DISABLE Backup value Arbitrary waveform transmit/receive,    2 (ARB1) control memory specification    SRQ enable register BP4610...

  • Page 203: Table 9-2. Store/Recall Memory (All Memories)

    Table 9-3. Arbitrary Waveform Memory Setting Item Initial Value At Shipping At Power-on After Clearing   ARB1 to ARB8 Sine wave data Backup value   ARB9 to ARB12 Square wave Backup value   ARB13 to ARB16 Triangular wave Backup value BP4610...

  • Page 204: Table 9-4. Sequence Memory (All Steps)

    Backup value   Step termination STOP Backup value   Jump step Backup value   Jump count Backup value   Branch step 0 0 (invalid) Backup value   Branch step 1 0 (invalid) Backup value BP4610...
  • Page 205 ーーーー WARRANTY ーーーー NF Corporation certifies that this product was thoroughly tested and inspected and found to meet its published specifications when it was shipped from our factory. In the unlikely event that you experience an issue during use, please contact our company or agency of our company from which you purchased the product.
  • Page 207  We assume no responsibility for influences resulting from the operations in this manual. Copyright 2006-2017, NF Corporation BP4610 Instruction Manual NF Corporation 6-3-20, Tsunashima Higashi, Kohoku-ku, Yokohama 223-8508 JAPAN...
  • Page 208 COSINUS Messtechnik – Ihr Partner für Messlösungen in allen elektrischen und physikalischen Anwendungen. COSINUS Messtechnik GmbH Rotwandweg 4 82024 Taufkirchen Tel.: 089 / 66 55 94 - 0 Fax: 089 / 66 55 94 - 30 office@cosinus.de www.cosinus.de...

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