Instruction Manual SyCore / PC104 - Manual Release
Contents
1. sequence at the right side to be operated with the keys 7 Oscillator 3 3 2 Display Contrast For changing the contrast of the display please act as follows e Press the help key e Press the cursor right key or turn the incremental switch to the right to increase the contrast e Press the cursor left key or turn the incremental switch to the left to decrease the contrast e Leave the help menu with ESC or Enter e Ifyou want to store the adjustments go to Set up Save and Yes in the menu 3 3 3 Menu Sequence The menu sequence indicates the designations of the menu available 3 3 3 1 Opening a Menu For opening a menu move the cursor by means of UP and or DOWN or with the incremental switch to the requested menu and press Enter 3 3 4 Softkeys Status Sequence The status sequence indicates the designations of the available dialog windows or functions 3 3 4 1 Open a Dialog Window or a Function For opening a dialog window or a function press the corresponding key right beside the status sequence 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 6 User Manual SyCore 3 3 5 Dialog Window The dialog window indicates the available input panels and switch panels 3 3 5 1 Input Lines At the input panel for example a voltage value can be adjusted e By means of the numeric keys you can input a value e With you can change the sign of a value2. Transfer data into IEEE Buffer Wait 10 Ieee SendString 6 DATA WRITE Copy data from JEEE Buffer Wait 1000 to oscillator waveform memory 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 93 User Manual SyCore Proceeding A page with a stored sine is required When using a standard oscillator the page 1 is already initialised with sine 50Hz after switching on This is the standard page for the output of the waveform see section 4 2 The transferred ring waveform is now in page 17 The first PCL list cell is used for the ring waveform the second one for the remaining state Example with SPS ScriptManager send 6 10 osc amplitude 1 50 send 6 10 0sc page clear send 6 10 0sc page cycles 1 1 send 6 10 0sc page number 1 1 17 send 6 10 0sc page amplitude 1 1 100 send 6 10 0sc page cycles 2 1 send 6 10 0sc page number 2 1 1 send 6 10 0sc page amplitude 2 1 50 send 6 10 0sc page totalcycles 1 send 6 10 0sc page go Amplitude of Phase 1 at 50 JO 270V range 135V PCL clear List cell 1 output page 1x List cell 1 waveform memory of phase 1 Page 1 set to waveform memory of phase 2 Page 17 at 64kByte oscillators List cell 1 amplitude of phase 1 at 100 List cell 2 output page 1x List cell 1 waveform memory of Phase 1 Page 17 re set waveform memory to phase 1 Page 1 List cell 2 amplitude of phase 1 at 50 JO 270V range 13
3. 3600 Return lt FLOATI gt Examples osc fpuls delayt 1 With this command the delay time is adjusted to 1 second osc fpuls delayt Return 1 This query returns a delay time of 1 second 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 75 User Manual SyCore 9 4 28 OSC FPuls GO This command is required for the starting of a frequency pulse see section 4 7 2 Execution time approx 20ms Risetime Durationtime Falltime see section 9 2 Default value none During the pulse no commands except BREAK can be sent see section 9 5 14 Group Oszillator Syntax OSC FPuls GO Arguments Return Example osc fpuls go With this command the frequency pulse is started 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 76 User Manual SyCore 9 5 Page Control List The Page Control List in the following text described as PCL offers a simple possibility for the sequential link of waveform in the waveform memory The PCL is a list with 256 list cells maximum In each list cell a waveform with its features like amplitude phase angle etc is defined After definition the PCL can be started as a result one after the other of the list cells is worked off and the output signal is generated according to the specifications For programming of the PCL an extensive command set is available These commands are referring to all phases 1 OSC
4. Go to Coupling by means of the cursor keys select the AC or DC and press Enter Leave the dialog with Enter to accept the adjustments Leave the dialog with Esc to cancel the adjustments 6 1 4 Supply To switch off and or on the device to be controlled e g amplifier type PAS go to Power by means of the cursor keys select Off or On and press Enter 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 31 User Manual SyCore 6 2 Enhanced Amplifier Functions Go to Amplifier Enh with the cursor keys and press Enter amplifier Enh Moda LIWO C JA Ri by puls COFFE DnA Ri Fuba Oti lt On 6 2 1 Operation Mode optional Go to Mode with the cursor keys select V for Voltage Amplification or A for Current Amplification and press Enter 6 2 2 Internal Resistance at Pulse Output optional Go to RI by pulse with the cursor keys select OFF or ON and press Enter Leave the dialog with Enter to accept the adjustments Leave the dialog with Esc to reject the adjustments At the output of the amplitude pulse A AF Pulse or of the PCL the internal resistance is switched for the adjusted duration A AF Pulse Duration 6 2 3 Internal Resistance optional Go to RI with the cursor keys adjust the requested value and press Enter Leave the dialog with Enter to accept the adjustments Leave the dialog with Esc to reject the adjustments RI is the value of the internal resistance which is
5. Measuring error AC Measurement with Shunt when using amplifier type PAS 1000 PAS 2000 PAS 2500 and Automotive Systems 15Hz 40Hz 3 of measured value 50digit 40Hz 450Hz 1 of measured value 50digit 450Hz 5kHz 2 5 of measured value 50digit Measurement with LEM module when using amplifiers gt PAS 5000 exception Automotive systems always with Shunt measurement 15Hz 40Hz 3 of measured value 50digit 40Hz 450Hz 1 of measured value 50digit 450Hz 2kHz 2 5 of measured value 50digit 2kHz 5kHz 6 of measured value 50digit Measuring error DC 1 of measured value 50digit 10 100 of measured range Power factor PF Measuring error 0 1 10 100 of measured range Peak value Up Ip technical data see voltage current measurement Crest factor CFU CF1 Measuring error 0 3 10 100 of measured range Frequency Frequency range fMeas 3Hz 20kHz Reference frequency fRef 1OMHz fMess Measuring error 100 error in fRef for f 50Hz 0 1 error Oscilloscope Signal representation OHz 2kHz Time base 0 5ms 2s Vertical deflection voltage channel CH1 IN 2V 5V 10V 20V 50V 100V 200V 5000V current channel CH2 1A 2A 10A 20A 50A Trigger Trigger level edge triggering Trigger channel CH1 or CH2 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 139 User Manual SyCore Phase angle 0
6. 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 41 User Manual SyCore 8 Set up Open the menu Setup The display shows Save Info 8 1 Adjustment of the Interface address Go to Interface with the cursor keys and press Enter IEEE 488 LEER CE Go to Address with the cursor keys feed the requested IEEE Interface address and press Enter 8 2 Info Go to Info with the cursor keys and press Enter This window displays the following information Copyright and name of the company Version number of the firmware Number of the connected amplifiers and control mode Installed oscillator cards Installed and or connected measurement cards Configuration Bytes 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 42 User Manual SyCore 9 IEEE488 Interface The device can be controlled via IEEE488 interface A large number of commands and queries are available This section describes the installation of the IEEE module IEEE488 is a parallel 8 bit communication standard that enables the communication of the device with an external controller e g a computer or a terminal To each device a single IEEE address is assigned The application of one address for two devices is not allowed The IEEE address is factory set to 6 If required the IEEE address can be changed in the configuration menu section 8 1 Command sequences have to be close
7. Return lt FLOATI gt Examples osc ang 1 0 With this command the phase angle of the first phase is adjusted to 0 osc ang 2 120 With this command the phase angle of the second phase is adjusted to 120 osc ang 3 240 With this command the phase angle of the third phase is adjusted to 240 osc ang 2 Return 120 This query returns a phase angle of 120 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 51 User Manual SyCore 9 4 4 OSC FREQuency This command is required for adjustment or query of the frequency The frequency determines the clock pulse of the waveform memory Execution time approx 20ms Default value 50 Hz Group Oscillator Syntax OSC FREQuency lt FLOAT1 gt OSC FREQuency Arguments lt FLOAT1 gt is the frequency value Range fres fmax see table below Resolution fres see table below Hz Min Frequency Hz po 4096 1035 0 004657 pe S oo 256 2 Periods 78131 00 0 596046 256 4 Periods 156262 00 1 192092 Return lt FLOATI gt Examples osc freq 50 With this command the frequency is adjusted to 50Hz osc freq Return 50 50Hz are adjusted 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 52 User Manual SyCore 9 4 5 OSC TRigger This command is required for adjustment or query of the trigger angle The trigger angle determines the moment of acceptance of adjustments like
8. User Manual SyCore 6 7 Amplifier Selection optional Go to Use with the cursor keys and press Enter The following is displayed Hol 32 6 7 1 Oscillator Card Selection Go to Osc with the cursor keys select 1 or 2 and press Enter if available All following changes in the oscillator menu refer to the selected oscillator card 6 7 2 Measurement Card Selection Go to Meas with the cursor keys select 1 or 2 and press Enter if available All following changes in the measurement menu refer to the selected measurement card 6 7 3 Amplifier Selection Go to Amp with the cursor keys select 1 2 3 4 or all and press Enter if available All following changes in the amplifier control dialog refer to the selected amplifier 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 37 User Manual SyCore 6 8 Safe Communication with Amplifier optional This function can not be switched via menu It is enabled by the manufacturer when the used amplifier supports the protocol Background advanced safety the amplifier amplifiers are switched off safely when the communication between SyCore and amplifier fails 6 8 1 Reaction of the SyCore to incorrect Response from the Amplifier When the adjustment of one or several amplifier fails three times in a row all amplifiers are switched off by the SyCore Power off The display indicates the message Error RS485 Switched
9. User Manual SyCore 9 4 19 OSC AFPuls GO This command is required for the starting of an amplitude and frequency pulse see 4 7 1 Execution time ca 20ms Risetime Durationtime Falltime see section 9 2 Default value none During the pulse no commands except BREAK can be sent see section 9 5 14 Group Oscillator Syntax OSC AFPuls GO lt INT1 gt Arguments lt INT1 gt is the phase number and or a combination of the phases Range 1 4 Return lt INT1 gt Example osc afpuls go 1234 With this command the amplitude and frequency pulse is started on the phases 1 2 3 and 4 osc afpuls go Return 1234 This query returns the phase numbers 1234 that means the amplitude and frequency pulse is executed on each phase 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 67 User Manual SyCore 9 4 20 OSC FPuls START This command is required for adjustment and query of the start frequency of a frequency pulse see 4 4 2 Execution time approx 20ms Default value 50 Hz Group Oscillator Syntax OSC FPuls START lt FLOAT1 gt OSC FPuls START Arguments lt FLOAT1 gt is the frequency value in Hertz Range fres fmax see section 9 4 4 Resolution fres see section 9 4 4 Return lt FLOATI gt Examples osc fpuls start 50 With this command the start frequency is adjusted to 50Hz osc fpuls start Return 50 This query returns a start frequency of
10. Arguments lt INT1 gt is the device address Range 0 31 Return Examples conf ieee adr 6 With this command the device address is adjusted to 6 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 125 User Manual SyCore 9 9 5 IEEE Binary Transfer The IEEE binary transfer is required to transfer specific data e g for the oscillator waveform Examples please see section 9 5 17 Example 2 or 9 9 5 5 9 9 5 1 DATA SET This command is required for the switching to the binary mode Execution time approx 20ms After switching to the binary mode data in the range 0 255 can be transferred When an EOI End or Identify is set or the number of the transferred data is equal to the binary data size DATA SIZE the normal data mode is set Group Interface Syntax Syntax DATA SET Arguments Return Examples DATA SET This command switches to the binary mode 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 126 User Manual SyCore 9 9 5 2 DATA SIZE This command is required for the adjustment of the binary data size Execution time approx 20ms After switching to the binary mode the normal data mode is set when the number of the transferred bytes is equal to the binary data size Note 2 Byte are required for each amplitude point Group Interface Syntax Syntax DATA SIZE lt INT1 gt Syntax DATA SIZE Arguments lt INT1 gt is th
11. If you want to switch between both parallel modes you first have to switch off the parallel operation AMP PAR 0 Group Amplifier Syntax AMP PAR 0 1 2 3 AMP PAR Arguments 0 Switching off the parallel operation 1 Switching off the parallel operation conterminously to 0 2 Parallel switching of amplifier 1 and amplifier 2 3 Parallel switching of amplifierl amplifier 2 and amplifier 3 Return lt INT1 gt is the mode 0 3 Examples amp par 2 The amplifiers 1 and 2 are connected in parallel 9 7 9 Status Amp This command queries the amplifier status Execution time approx 20ms Default value None Group Amplifier Syntax Status Amp Arguments Return lt INT1 gt is the current status Possible values 16 the amplifier has switched off Examples Status Amp Return 16 This query returns the status Byte 16 the amplifier has switched off 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 110 User Manual SyCore 9 7 10 AMP USE This command selects the active amplifier that means the subsequent commands refer to the selected amplifier only This command is only available for systems with more than one amplifier and the corresponding option Execution time approx 20ms Default value 0 corresponds to all Group Amplifier Syntax AMP USE 0 1 2 3 AMP USE Arguments 0 corresponds to all all amplifiers are addressed 1 the subsequent
12. LED off no limit switch off LED on limit LED offton switch off 6 5 5 Synchronized Amplitude Phases Go to Sync Phases with the cursor keys set the phases and press Enter The value Sync Phases indicates which amplitude phases are synchronized Adjust e g 123 to synchronize amplitude 1 2 3 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 35 User Manual SyCore Description Operating mode Limit When exceeding the adjusted current value the output voltage is reduced to OV and then increased until the pre set current flows The status LED LED on Func 4 push button indicates the limiting Operating mode Switch Off When exceeding the adjusted current value the output is switched off The status LED s LED off on Func 4 pushbutton indicate the switching off Reference The current control is working with r m s values The reaction time is approx 40ms 6 6 Resistor Load optional Go to R Load with the cursor keys and press Enter Resistor Load Z20 Load t Select the requested load The values are accepted by pressing the Enter key The specification of the power refers to 230V sink mode When using other voltages the power has to be converted accordingly Even though the load can be used in normal operation it is actually designed for the sink mode to increase the consumable power 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 36
13. Measuring error DC Indication Impedance Current input Amplifier type Meauring range Amplifier type Meauring range Frequency range Measuring error AC 10 100 of measured range Measuring error DC 10 100 of measured range Indication 16 07 2013 E SYC V6 Udo 300V 500V and or 500V DC DC 15Hz 5kHz 15Hz 40Hz 2 40Hz 450Hz 0 5 450Hz 5kHz 1 0 3 of measured value 3 digit 30V 300V 5 digit 99999 digit of measured value 3digit of measured value 3digit of measured value 3digit IMQ PASIk PAS2k PAS2k5 PAS5k PAS7kS5 20A 40A 40A 100A 150A PAS10k PASI5k PAS20k PAS25k _ PAS30k 200A 300A 400A 450A 500A DC 15Hz 5kHz Measurement with Shunt when using amplifier type PAS 1000 PAS 2000 PAS2500 and Automotive Systems 15Hz 40Hz 2 of measured value 30 digit 40Hz 450Hz 0 5 of measured value 30 digit 450Hz 5kHz 1 6 of measured value 30 digit Measurement with LEM module when using amplifiers gt PAS 5000 exception Automotive systems always with Shunt measurement 15Hz 40Hz 2 of measured value 30 digit 40Hz 450Hz 0 5 of measured value 30 digit 450Hz 2kHz 2 of measured value 30 digit 2kHz 5kHz 5 of measured value 30 digit 0 5 of measured value 30 digit 5 digit 99999 digit Spitzenberger amp Spies GmbH amp Co KG Page 138 User Manual SyCore Power P Q S
14. approx 200ms Default value 0 Group Impedance Syntax IMP Phase 0 1 2 3 Arguments 0 switch to neutral phase 1 switch to phase L1 2 switch to phase L2 3 switch to phase L3 Return Example imp phase 3 This command switches the measurement to phase 3 9 7 13 IMP Range This command switches the range of the line impedance simulating network if available Execution time approx 200ms Default value LOW Group Impedance Syntax IMP Range LOW HIGH Arguments LOW switch to 16A range HIGH switch to high current range e g 32A Return Examples imp range HIGH This command switches the impedance to high current mode 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 113 User Manual SyCore 9 7 14 IMP Mode This command switches the mode of the line impedance simulating network if available Execution time approx 200ms Default value DIRECT Group Impedance Syntax IMP Mode HARM FLICK HARMIMP DIRECT NONE IMP Mode Arguments HARM switch to harmonics mode impedance off FLICK switch to flicker mode impedance on HARMIMP switch to harmonics mode with impedance switched on DIRECT switch to direct mode no measurement NONE switch to no mode no measurement Return Adjusted operation mode Examples imp mode HARM This command sets the impedance to harmonics measurement mode 16 07 2013 E SYC V6 Udo Spit
15. 4 Start PCL OSC Page GO 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 78 User Manual SyCore 9 5 1 OSC Page CYcles This command defines how often the contents of a waveform memory page are output Syntax OSC Page CYcles lt INT1 gt lt INT2 gt Arguments lt INT1 gt List cell number Valid range 1 256 lt INT2 gt Number of repeats periods Valid range 1 32767 the valid range of some older devices is 1 1000 Default value after osc page clear 0 0 means no execution of the current list cell Examples osc page cycles 2 5 With this command a repeat value of 5 is stored in the list cell 2 After starting the PCL and reaching the list cell 2 the current waveform memory is output five times 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 79 User Manual SyCore 9 5 2 OSC Page SIze With this command the memory depth pagesize for a waveform output is defined Syntax OSC Page Size lt INT1 gt 0 1 4 16 64 256 1024 Arguments lt INT1 gt List cell number Valid range 1 256 0O 1 Memory depth for a waveform Valid arguments 0 0 25Kbyte 256 points 1 1Kbyte 1024 points 4 4Kbyte 4096 points only at 64kB or 1MB Oscillator 16 16Kbyte 16384 points only at 64kB or 1MB Oscillator 64 64Kbyte 65536 points only at 64kB or 1MB Oscillator 256 256Kbyte 264144 points only at IMB Oscillator
16. 50Hz 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 68 User Manual SyCore 9 4 21 OSC FPuls PULS This command is required for adjustment and query of the pulse frequency of a frequency pulse see 4 4 2 Execution time approx 20ms Default value 50 Hz Group Oscillator Syntax OSC FPuls PULS lt FLOAT 1 gt OSC FPuls PULS Arguments lt FLOAT1 gt is the frequency value in Hertz Range fres fmax see section 9 4 4 Resolution fres see section 9 4 4 Return lt FLOATI gt Examples osc fpuls puls 150 With this command the pulse frequency is adjusted to 150Hz osc fpuls puls Return 150 This query returns a pulse frequency of 150Hz 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 69 User Manual SyCore 9 4 22 OSC EEI END This value is required for adjustment and query of the end frequency of a frequency pulse see 4 4 2 Execution time ca 20ms Default value 50 Hz Group Oscillator Syntax OSC FPuls END lt FLOAT1 gt OSC FPuls END Arguments lt FLOAT1 gt is the frequency value in Hertz Range fres fmax see section 9 4 4 Resolution fres see section 9 4 4 Return lt FLOATI gt Examples osc fpuls end 50 With this command the end frequency is adjusted to 50Hz osc fpuls end Return 50 This query returns an end frequency of 50Hz 16 07 2013 E SYC V6 Udo Spitzenberger amp Sp
17. Co KG Page 89 User Manual SyCore 9 5 18 OSC Page MEMory This command is required for adjustment and query of the memory depth The memory depth determines the size of the waveform memory to be read out Execution time approx 20ms Default value 1k points After the adjustment the waveform has to be re generated Note amplitude 1 4 is adjusted to 0 Group Oszillator Syntax OSC Page MEMory lt INT1 gt OSC Page MEMory Arguments lt INT1 gt is the memory depth Possible values 0 256 points 1 1024 points 4 4096 points only at 64kB or 1MB Oscillator 16 16384 points only at 64kB or 1MB Oscillator 64 65536 points only at 64kB or 1MB Oscillator 256 264144 points only at IMB Oscillator 1024 1048576 points only at 1MB Oscillator Return lt INT1 gt Examples osc page mem 1 With this command a memory depth of 1 1024 points is adjusted osc page mem Return 1 This query returns a memory depth of 1 1024 points 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 90 User Manual SyCore 9 5 19 Examples Example 1 Generate a 10 amplitude magnification for one period 20ms Proceeding 1 A page with a stored sine is required When using a standard oscillator the page 1 is already initialised with sine 50Hz after switching on This is the standard page for the output of the waveform see section 4 2 The first PCL list cell is used
18. Example conf meas mode acdc This command switches to mixed signal measurement AC and DC for voltage and current 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 102 User Manual SyCore 9 6 13 Conf Meas PH This command selects the current measurement phase Execution time approx 200ms Default value 1 If you have got several measurement inputs you can route the input pair U I to the input pair of the measurement card Group Measurement Syntax Conf Meas PH lt INT1 gt Conf Meas PH Arguments lt INT1 gt no of measurement phase Range 1 3 Return lt INT1 gt Example conf meas ph 1 This example switches the current measurement phase to phase 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 103 User Manual SyCore 9 6 14 Meas Use This command selects the currently active measurement card Execution time approx 200ms Default value 1 If you have got several measurement cards installed in your system you can select the currently active card with this command All the following settings and queries are related to this card until you select a different one Group Measurement Syntax Meas Use lt INT1 gt Meas Use Arguments lt INT1 gt no of the measurement card Range 1 2 Return lt INT1 gt Examples meas use 1 meas voltage This command selects measurement card 1 and queries the currently measured volta
19. OSC ANGle 52 OSC APuls DElayt 66 OSC APuls DURAT 63 OSC APuls END 61 OSC APuls FALLT 64 OSC APuls GO 67 OSC APuls PULS 60 OSC APuls REpeats 65 OSC APuls RISET 62 OSC APuls START 59 OSC FPuls DElayt 76 OSC FPuls DURAT 73 OSC FPuls END 71 OSC FPuls FALLT 74 OSC FPuls GO 77 OSC FPuls PULS 70 OSC FPuls REpeats 75 OSC FPuls RISET 72 OSC FPuls START 69 OSC FREQuency 53 OSC Page AMplitude 85 OSC Page ANgle 84 OSC Page CLear 89 OSC Page CYcles 80 OSC Page FRequency 82 OSC Page FUnction 87 OSC Page GO 88 OSC Page GOBYtrigger 89 OSC Page MEMory 91 OSC Page NUmber 83 OSC Page PArameter 90 Spitzenberger amp Spies GmbH amp Co KG Page 142 OSC Page PEriods 90 OSC Page PULS 86 OSC Page SIze 81 OSC Page STopnumber 88 OSC Page TOtalcycles 88 OSC Page TRigger 82 OSC Syne 55 OSC TRigger 54 OSC Use 57 Oscillator 11 46 49 Oscillator Card 57 Oscilloscope 30 Oscilloscope Trigger 123 136 P Page Control List 47 78 Parallel Connection 34 Parallel Operation 111 PCL Clear 89 PCL Repetitions 88 PCL Run interrupt 89 PCL Run start 88 PCL Run start by trigger 89 PCL Stop 88 Peak Value Measurement 25 Phase Angle 52 84 Phase Selection 30 Pin Assignment 131 Power Factor 28 Power Factor Value Query 100 Power Measurement 27 Power Value Query 99 Pulse Amplitude 60 Pulse Duration 63 Pulse Operation 33 110 Pulse Frequency of a Frequency Pulse 70 R r m s Value Measurement U I 23 Radio Buttons 7 Reac
20. Page CYcles number of periods to be output 2 OSC Page SIze memory depth for one period 3 OSC Page TRigger acceptance trigger angle 4 OSC Page FRequency frequency These commands are referring to each single phase 1 OSC Page NUmber page number of the waveform memory 2 OSC Page ANngle phase angle 3 OSC Page AMplitude amplitude Further PCL commands 1 OSC Page TOtalcycles repetitions for the whole PCL 2 OSC Page STop number defines continuation of PCL after execution 3 OSC Page GO start PCL 4 BREAK interrupt PCL run 5 OSC Page CLear clear PCL 6 OSC Page PArameter query PCL 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 77 User Manual SyCore Schematic memory division of the PCL in relation with the waveform memory NOTICE Once activated an adjustment keeps its validity until it is overwritten in a later list cell Example If in list cell 1 a frequency of 50Hz is defined this frequency remains valid for all following list cells until a new frequency is defined in a later list cell This is also valid at PCL start The settings made by using normal commands or manual settings like osc amplitude or osc frequency remain valid until they are overwritten by the PCL For the programming of the PCL the following scheme should be used 1 Clear PCL command OSC Page Clear 2 Program the PCL with the requested function 3 Deposit the requested waveform in the waveform memory
21. Power Off The message disappears when any key is pressed 6 8 2 Reaction of the Amplifier to incorrect Checksum of the Adjustment or Measurement Commands When an amplifier receives an incorrect command false checksum the display indicates an error message Additionally both LEDs beside the output push button are illuminated as long as the fault applies at the amplifier 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 38 User Manual SyCore 7 Macros By means of the macro functions key strokes can be stored Record executed Run listed List loaded Load saved Save und deleted Delete Go to macros with the cursor keys and press Enter 7 1 Execute Macros Go to run with the cursor keys and press Enter Now the recorded or stored key strokes are executed 7 2 Store Macros Go to record with the cursor keys and press Enter In the right down corner rec is indicated You are in the macro record mode Now the key strokes except the soft keys are stored To end the macro record mode please press the Func4 key Rec will be deleted in the right down corner 7 3 List Macros Go to list with the cursor keys and press Enter Now the recorded or stored key strokes are listed 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 39 User Manual SyCore 7 4 Load Macros Go to Load with the cursor keys and press Enter Macro l
22. User Manual SyCore 9 7 3 AMP Mode This command switches the amplifiers input mode Execution time approx 50ms Default value AC Group Amplifier Syntax AMP Mode AC DC Arguments AC switches to AC mode DC switches to DC mode Return Example amp mode dc This command switches the amplifier to DC mode 9 7 4 AMP ON This command switches the amplifier on or off Execution time approx 500ms Default value 1 This command can be used to switch on the amplifier after a security switch off Group Amplifier Syntax AMP ON 0 1 AMP ON Arguments 0 switches the amplifier off 1 switches the amplifier on Return 0 or 1 Example amp on 1 This command switches the amplifier on 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 107 User Manual SyCore 9 7 5 AMP Power This command switches the amplifier on or off Execution time approx 500ms Default value 1 This command can be used to switch on the amplifier after a security switch off Group Amplifier Syntax AMP Power 0 1 AMP Power Arguments 0 switches the amplifier off 1 switches the amplifier on Return 0 or 1 Example amp power 1 This command switches the amplifier on Reference This command is similar to the command AMP ON section 9 7 4 9 7 6 Conf Amp Range This command defines the amplifier range value Execution time approx 20ms Default value depends on the hard
23. amplitude or phase angle Execution time approx 20ms Default value 0 Group Oscillator Syntax OSC TRigger lt FLOAT 1 gt OSC TRigger Arguments lt FLOAT1 gt is the phase angle value Range 360 in degree Resolution 360 memory depth e g 360 1k 0 35 Return lt FLOATI gt Example osc tr 90 With this command the trigger angle is adjusted to 90 osc tr Return 90 This query returns a trigger angle of 90 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 53 User Manual SyCore 9 4 6 OSC Sync This command is required for adjustment and query of the synchronisation between the oscillator cards Execution time approx 20ms Default value OUT If there are several oscillator cards in one device they can be synchronized In the oscillator is synchronised with the synchronizing pulse of the other internal oscillator Out the oscillator sets the synchronizing pulse for the other internal oscillator Line the oscillator is synchronised with line signal only at option mains synchronous If several oscillators are available all oscillators are set to Line in this operation mode Reference Never set all oscillators to In because this may cause undefined operation modes When switching off the operation mode Line firstly Out has to be set Afterwards one of the oscillators can be set to In again Group Oscillator Syntax OSC Synce lt STRING
24. commands refer to amplifier 1 2 the subsequent commands refer to amplifier 2 3 the subsequent commands refer to amplifier 3 Return lt INT 1 gt 1 Amplifier 1 2 Amplifier 2 3 Amplifier 3 4 Amplifier 4 5 All amplifiers are addressed Examples amp range 1 All amplifiers are set to range 1 amp use 1 Amplifier 1 is selected amp range 0 Amplifier 1 is set to range 2 amp use 0 All amplifiers are addressed 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 111 User Manual SyCore 9 7 11 AMP Quadrants This command switches between 2 and 4 quadrant operation The 2 quadrant mode enables only positive voltages gt 20V typ The advantage of the 2 quadrant mode compared to the 4 quadrant mode is the significantly lower power dissipation in DC sink mode Reference During DC recuperation the amplifier has to be set to the 2 quadrant mode Execution time approx 2 5s depends on amplifier type Default 4 4 quadrant mode Group Amplifier Syntax AMP Quadrants 2 4 AMP Quadrants Argumente 2 switches to 2 quadrant mode 4 switches to 4 quadrant mode Return 2 or 4 Example amp q 4 The 4 quadranten mode is switched on 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 112 User Manual SyCore 9 7 12 IMP Phase This command selects the measurement phase of the line impedance simulating network if available Execution time
25. e With Right and Left you can move the cursor in the input panel e With Del you can delete a figure above the cursor e With Esc the original value will be indicated again e With Enter the value will be accepted e With the incremental switch you can change a value incrementally or decrementally 3 3 5 2 Radio Buttons With the radio buttons a switch can be selected e With Right and Left you can move the cursor e With the numeric keys 1 9 the buttons can be selected directly 1 is the first button 2 is the second button et cetera e With Esc the original switch will be indicated again e With Enter the switch will be accepted e With the incremental switch you can move the cursor 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 7 User Manual SyCore 3 3 6 Description of the Keys 3 3 6 1 Edit Keys Esc indicates the origin value or leaves the menu and the dialog window Del deletes figures above the cursor changes signs of a number Enter accepts input lines radio buttons and dialog window 3 3 6 2 Cursor Keys A Up changes selection between input lines radio buttons and menu points Y Down changes selection between input lines radio buttons and menu points gt Right changes selection of radio buttons dd Left changes selection of radio buttons 3 3 6 3 Digital Keys 0 9 e Decimal point 3 3 6 4 Function Keys Output Output on off Funcl Imp
26. keys select Low or High and press Enter At Low the 16A Impedance is selected at High the 32A Impedance and or the 63A Impedance 6 4 2 Phase Go to Phase by means of the cursor keys select the phase and press Enter 6 4 3 Harmonic Range Go to Harmonic Range by means of the cursor key select the range and press Enter 6 4 4 Operation Mode Go to Mode by means of the cursor keys select the mode and press Enter HA Harmonics FL Flicker H I Harmonics and Impedance DIR Direct 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 34 User Manual SyCore 6 5 Current Limitation optional Go to Current Limitation by means of the cursor keys and press Enter Current Limitation DE CO OFF lt 30m Mode Current A Current A Current r5 00 A Current 75 00 A Sync phases Ei 6 5 1 Switching on For switching off and or on the current limitation go to Control by means of the cursor keys select Off or On and press Enter 6 5 2 Operation Mode Go to Mode by means of the cursor keys select Limit current limitation or Switch off switching off and press Enter 6 5 3 Current Value To adjust the limitation value and or switching off value of the current limitation go to Current by means of the cursor keys feed the current value and press Enter 6 5 4 Status The status is indicated by the 2 LED s of the Func 4 button The LED s mean
27. lt FLOATI gt Example meas current Return 50 000 This query returns a current value of 50A 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 97 User Manual SyCore 9 6 3 MEAS POWer With this command the power value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS POWer Arguments Query only Return lt FLOAT1 gt Example meas power Return 500 000 This query returns an active power value of 500W 9 6 4 MEAS S With this command the apparent power value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS S Arguments Query only Return lt FLOATI gt Example meas s Return 500 000 This query returns an apparent power value of SOOVA 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 98 User Manual SyCore 9 6 5 MEAS Q With this command the reactive power value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS Q Arguments Query only Return lt FLOAT1 gt Example meas q Return 50 000 This query returns a reactive power value of 50VAr 9 6 6 MEAS PF With this command the power factor value can be que
28. oscillator card Range 1 2 Return lt INT1 gt Examples osc use l osc amp 4 0 With this command the first oscillator card is selected and the amplitude of the fourth phase is adjusted to 0 osc use 2 osc freq 50 With this command the second oscillator card is selected and the frequency is adjusted to 50Hz 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 56 User Manual SyCore 9 4 9 Conf Osc PHases This command is required for adjustment and query of the number of phases The number of phases determines whether the waveform memory is read out for one two or four phases Execution time approx 20ms Default value 4 1 at some special devices This command can be used to increase the maximum frequency of four phase oscillators when only one phase is required See table 9 1 3 Syntax Conf Osc PHases lt INT1 gt Conf Osc PHases Arguments lt INT1 gt is the number of phases Range 1 2 4 Return lt INT1 gt Examples conf osc phases 4 With this command the number of phases is adjusted to 4 conf osc phases Return 4 This query returns a phase number of 4 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 57 User Manual SyCore 9 4 10 OSC APuls START This command is required for adjustment and query of the start amplitude of a amplitude pulse see 4 4 1 Execution time approx 20ms Default value 0 Group
29. pulse function for 12 seconds During this period the device does not accept device control commands exception BREAK command If further commands are sent during this period they are buffered in an input buffer 256 characters If more than 256 characters are sent the buffer overflows and the device does not accept any further character The LED Func3 at the frontpanel is set to On Subsequently the following might happen If the system controller releases no time out the process is continued after finishing the function no character is lost If time out occurs an incomplete command might remain in the input buffer For a normal continuation of the command processing the interface command DCL or SDC should be sent don t mistake with the device command DCL This command sets the input buffer to its initial state If no DCL is sent the device takes the incomplete command together with the following command due to the missing end character and interprets it wrongly The next but one command is interpreted correctly again In order to avoid these errors the application program and the command processing should be synchronized Following is recommended Wait the stated execution time after sending a command before sending the next one particularly for the time consuming functions amplitude pulse frequency pulse and their combinations and page control list After a group of commands the application could be synchron
30. switched when the amplitude pulse or PCL is output 6 2 4 Pulse Operation optional For switching on off the pulse operation switch power supply go to Pulse with the cursor keys select Off or On and press Enter The pulse operation has to be reset manually Although the amplifier switches off the pulse operation automatically after approximately two seconds voltage distortions are possible In any case a waiting period a few seconds is recommended to avoid overheating of the power supply 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 32 User Manual SyCore 6 3 Parallel Connection optional Go to Parallel Conn with the cursor keys and press Enter Parallel conn Par cB orf Ld ZO LAZO 6 3 1 Operation Mode Go to Par with the cursor keys select Off L12 for Parallel Connection Amplifier 1 2 or L123 for Parallel Connection Amplifier 1 2 3 and press Enter When selecting parallel mode L12 or L123 the system is controlled via phase L1 The EUT has to be connected to phase L1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 33 User Manual SyCore 6 4 Impedance optional Go to Impedance by means of the cursor keys and press Enter Imoedance HEME Lon High Phase AAN abi ALZU AL Harmonic range 36 16 36 8 Sad 3278 ZOZ HIZ Mode C OHA JFL ARS C oir 6 4 1 Range Go to Device by means of the cursor
31. the oscillator frequency Devices with 2 oscillators When one oscillator is synchronized to the mains frequency and the second oscillator adds a signal with a higher frequency the right correction angle is only used when the oscillator synchronized to the mains frequency is adjusted to Line When the mains synchronisation is switched on solely the tests EN 61000 3 2 3 11 12 can be performed Reference Never set all oscillators to In because this may cause undefined operation modes When switching off the operation mode Line firstly Out has to be set Afterwards one of the oscillators can be set to In again 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 14 User Manual SyCore 4 5 3 3 Card Selection Go to Ph1 Ph2 oder Ph3 with the cursor keys select Add oder Mult and press Enter You can select the phases 1 3 variously Add SyCore with 1 Oscillator SyCore with 2 Oscillators The voltages of referring phase of the first oscillator and the external control voltage sockets ext Input are added Mult SyCore with 1 Oscillator The voltages of the referring phases of both oscillators 1 and 2 are added SyCore with 2 Oscillators The voltages of the referring phase of the first oscillator and the external control voltage sockets ext Input are multiplied 16 07 2013 E SYC V6 Udo The voltages of the referring phase of both oscillators 1 and 2 are multip
32. to 360 referring to the pseudo phase Memory Depth Angle resolution Angle accuracy points Angle resolution 1 024 4 096 BEA o 16 384 Reference When the SyCore is integrated in a three phase system e g DM 15000 PAS the angular error of the complete system increases e g max 1 at 1024 points memory depth Trigger 0 to 360 Angle resolution please see table phase angle 11 4 General Interface IEEE 488 Listener Talker Mains supply 230Vims 10 50 60Hz Ambient temperature 0 C to 40 C Housing colour light grey RAL 7035 19 plug in unit 3U approx H 135mm B 483mm T 450mm Desk top casing 3U approx H 180mm B 540mm T 550mm Weight approx 10kg 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 140 User Manual SyCore 12 Index b Commands 46 Conf Amp Range 109 IDN 126 Conf Eee ADR 126 Conf Meas Mode 103 Conf Meas PH 104 Angle 12 Conf Osc PHases 58 Content of a List Cell 90 2 Control 32 48 106 2 quadrant operation 113 Crest Factor Measurement 25 CURR Limitation Control 117 4 CURR Limitation Level 118 4 quadrant operation 113 CURR Limitation Mode 117 A Current Crest Factor Value Query 102 Current Limitation 36 117 AC Mode 108 Current Limitation Mode 117 Active Amplifier 112 Active Measurement Card 105 Active Power 27 Adder 15 56 AMP Mode 108 AMP ON 108 AMP Output 107 AMP PAR 111 AMP Power 109 AMP
33. 1 gt OSC Sync Arguments lt STRINGI gt is the synchron mode Range IN adjusts to Synchron in OUT adjusts to Synchron out LINE adjusts to Synchron line optional Return lt STRINGI gt Example osc use 1 osc synce OUT osc use 2 osc synce IN With this command the first oscillator card is selected and the synchronisation set to Out the second oscillator card is selected and the synchronisation set to In 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 54 User Manual SyCore 9 4 7 OSC ADDMult With this command the adder and multiplier of the oscillator can be adjusted if multiplier available Execution time ca 50ms Default value Adder on Group Oscillator Syntax OSC ADDMult 0 1 OSC ADDMult Arguments 0 Adder on 1 Multiplier on Return lt INT1 gt 0 or 1 Examples osc addmult 1 0 The adder is switched on in the 1 Phase 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 55 User Manual SyCore 9 4 8 OSC Use This command is required for the selection of the active oscillator card Execution time approx 100ms Default value 1 If in one device several oscillator cards are available you can select to which oscillator card the following adjustments and queries refer Group Oscillator Syntax OSC Use lt INT1 gt OSC Use Arguments lt INT1 gt is the number of the
34. 1024 1024Kbyte 1048576 points only at IMB Oscillator The whole waveform memory has a size of 1K 1024 64K 65536 or 1M 1048576 points dependent on its configuration The maximum number of waveform memories pages is calculated from the size of the whole waveform memory and the adjusted memory depth e g IM 1048576 1K 1024 1K 1024 pages Examples osc page size 1 1 With this command a waveform memory depth of 1024 points is adjusted for the list cell 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 80 User Manual SyCore 9 5 3 OSC Page TRigger This command defines the trigger angle for the acceptance of the next list cell values Syntax OSC Page TRigger lt INT1 gt lt FLOAT1 gt Arguments lt INT1 gt List cell number Valid range 1 256 lt FLOATI1 gt Trigger angle value for the acceptance of the next list cell values Valid range 0 360 floating point number The possible angle resolution depends on the waveform memory depth By means of the following formula the angle resolution can be calculated Smallest possible resolution 360 waveform memory depth e g 360 1024 0 351 Example osc page trigger 1 90 With this command a trigger angle of 90 is stored in the list cell 1 9 5 4 OSC Page FRequency With this command the frequency for a waveform output can be programmed Note The frequency adjustment is valid for all phases of the cur
35. 4 is adjusted to 0 Syntax OSC Page FUnction lt INT1 gt lt STRING1 gt OSC Page FUnction Arguments lt INT1 gt is the phase number lt STRINGI gt is the type of function Possible values SINE generates a sine waveform PULS generates a pulse waveform TRIA generates a triangle waveform RAMP generates a ramp waveform saw tooth RECT generates a rectangle waveform DC generates a DC waveform Return lt STRINGI gt Examples osc page function 1 SINE With this command a sine waveform is generated osc page function 1 Return SINE This query returns a sine waveform 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 86 User Manual SyCore 9 5 10 OSC Page TOtalcycles This value indicates how often the output of the whole PCL is repeated Syntax OSC Page TOtalcycles lt INT1 gt Arguments lt INT1 gt Number of repetitions Valid range 1 1000 Default value after osc page clear 0 Examples osc page totalcycles 2 With this command the value 2 is stored The complete PCL is running twice 9 5 11 OSC Page STopnumber This value indicates which list cell is running after a BREAK command before PCL is stopped 0 means output of the current list cell at the moment of the BREAK command Syntax OSC Page Stop number lt INT1 gt Arguments lt INT1 gt List cell number Valid range 0 256 Above all this command is useful f
36. 5V output a PCL start PCL After this cycle the output remains on this page However the smallest possible value 1 should be adjusted to make the fixed run of the PCL as short as possible 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 94 User Manual SyCore Example in C Ieee SendString 6 osc amplitude 1 50 Wait 10 Ieee SendString 6 0sc page clear Wait 10 Ieee SendString 6 osc page cycles 1 1 Wait 10 Ieee SendString 6 0sc page number 1 1 17 Wait 10 Ieee SendString 6 0sc page amplitude 1 1 100 Wait 10 Ieee SendString 6 osc page cycles 2 1 Wait 10 Ieee SendString 6 0sc page number 2 1 1 Wait 10 Ieee SendString 6 0sc page amplitude 2 1 50 Wait 10 Ieee SendString 6 0sc page totalcycles 1 Wait 10 Ieee SendString 6 0sc page go Wait 10 amplitude of phase 1 at 50 in 270V range 135V clear PCL List cell 1 output page 1x List cell 1 set waveform memory of phase 1 page 1 to waveform memory of phase 2 page 17 List cell 1 amplitude of phase 1 at 100 in 270V range 270V List cell 2 output page 1x List cell 1 re set waveform memory of phase Page 17 to waveform memory of phase 1 Page 1 List cell 2 amplitude of phase 1 at 50 in 270V range 135V output a PCL start PCL After this cycle the output remains on this page However the smallest possibl
37. 7 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 16 User Manual SyCore 4 7 Special Functions 4 7 1 Amplitude Pulse Go to A AF Pulse with the cursor keys and press Enter At tAF Pulse 1734 Startyvalue B DBO JU Pulsevalue 4 664 Y Endvalue 5 660 Repeats Risetine 1 000 ZO Duration 1 88868 Delay Falitine 1 000 f 6 880 Je Example U 3 i i i 3 Risetime gt lt Duration gt lt Falltime gt Reference A loop is started when 0 is input in the field repeats This operation can be stopped by means of the key break An amplitude pulse can be started by pressing the key St A after adjusting the values For the simultaneous starting of an amplitude and frequency pulse e g frequency sweep with simultaneous amplitude reduction the key St AF has to be pressed after adjusting the frequency and amplitude values adjustment of the frequency value please see section 4 7 2 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 17 User Manual SyCore 4 7 2 Frequency Pulse Go to F Pulse with the cursor keys and press Enter Frequency Pulse Start f E 38 88 Hz Pulse f 34 88 Hz End f 56 00 Hz Risetime 1 808 js Repeats Duration 1 000 COT Falltime 1 688 Js Delay 2 600 Js Example Risetime gt lt Duration pi Falltime gt be S on b 16 07 2013 E SYC_V6_11 doc Spitzenberger amp S
38. Co KG Page 64 User Manual SyCore 9 4 17 OSC APuls DElayt This command is required for adjustment and query of the delay time between the amplitude pulses see 4 7 1 Execution time approx 20ms Default value Is Group Oscillator Syntax OSC APuls DElayt lt FLOAT IZ OSC APuls DElayt Arguments lt FLOAT 1 gt is the time value in seconds Range 0 3600 Return lt FLOATI gt Examples osc apuls delayt 1 With this command the delay time is adjusted to 1 second osc apuls delayt Return 1 This query returns a delay time of 1 second 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 65 User Manual SyCore 9 4 18 OSC APuls GO This command is required for the starting of an amplitude pulse see 4 7 1 Execution time ca 20ms Risetime Durationtime Falltime see section 9 2 Default value none During the pulse no commands except BREAK can be sent see section 9 5 14 Group Oscillator Syntax OSC APuls GO lt INT1 gt Arguments lt INT1 gt is the phase number and or a combination of the phases Range 1 4 Return lt INT1 gt Example osc apuls go 1234 With this command the amplitude pulse is started on the phases 1 2 3 and 4 osc apuls go Return 1234 This query returns the phase numbers 1234 that means the amplitude pulse is executed on each phase 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 66
39. F ng CF U B BD CF I A oaa 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 27 User Manual SyCore 5 2 Frequency Measurement Go to RMS with the cursor keys and press Enter Freq LEZ BEE Hz Four different averaging factors can be adjusted via the key TSI Accu These factors specify the number of measurements to be averaged before the right measuring value is indicated The higher the adjusted averaging factor the longer the measuring duration L Accu Low averaging one measurement N Accu Normal averaging eight measurements M Accu Middle averaging 32 measurements H Accu High averaging 128 measurements 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 28 User Manual SyCore 5 3 Oscilloscope Open the menu oscilloscope The following is displayed 5 3 1 Channel Adjustment 5 3 1 1 Channel Selection and Trigger Adjustment Press the button TSI to select channel 1 or channel 2 or to get to the trigger adjustment CH1 CH2 or TRIG All adjustments S2 to S7 refer to the selected channel 5 3 1 2 Signal Representation Press the button S2 to switch on and or off the signal representation ON or OFF 5 3 1 3 Phase Selection Press the button TSO to select the phase to measure P1 P2 or P3 5 3 1 4 Amplitude Adjustment Press the button S5 and or TSO to adjust the amplitude of the sig
40. I O 10 5 RU_Control 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG 133 133 Page 1 User Manual SyCore 10 6 Digital I O Event Trigger 134 11 Technical Data 137 11 1 Oscillator 137 11 2 Multiplier 138 11 3 Measurement 138 11 4 General 140 12 Index 141 13 Annex 144 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 2 User Manual SyCore 1 General Instructions This device has been shipped in perfect safety condition However it has to be checked for mechanical defects before the first start up If there is any transportation damage please inform Spitzenberger amp Spies immediately In that case the device shall not be put into operation before contacting Spitzenberger amp Spies and getting instructions how to carry on Reference To avoid malfunctions the default values must only be changed by Spitzenberger amp Spies service technicians Exception IEEE address 2 Safety The device must only be operated by instructed personnel Energized parts might be uncovered when opening the housing Before opening the device the mains input cable has to be disconnected from the supply voltage due to safety regulations The chassis ground of the device is connected to earth 3 SyCore SyCore system core is an all round control and measurement device Similarly to a computer it is able to undertake several functions e device control unit for voltage an
41. Instruction Manual SyCore PC104 Manual Release V 6 11 Serial No UO467 12 0 0613 The manufacturer can not be held liable for incorrect statements and their consequences subject to change N ba User Manual SyCore General Instructions Safety SyCore 3 1 Front Panel 3 2 Rear Panel 3 3 Operation Oscillators 4 1 Function Diagram 4 2 Generation of Low Frequency AC Voltages 4 3 Generation of High Frequency AC Voltages 4 4 Basic Adjustment 4 5 Basic Functions 4 6 Flicker Simulation in Connection with Opt Multiplier 4 7 Special Functions Measurement 5 1 RMS 5 2 Frequency Measurement 5 3 Oscilloscope Control 6 1 Amplifier 6 2 Enhanced Amplifier Functions 6 3 Parallel Connection optional 6 4 Impedance optional 6 5 Current Limitation optional 6 6 Resistor Load optional 6 7 Amplifier Selection optional 6 8 Safe Communication with Amplifier optional Macros 7 1 Execute Macros 7 2 Store Macros 7 3 List Macros 7 4 Load Macros 7 5 Save Macros 7 6 Overwrite Macros Set up 8 1 Adjustment of the Interface address 8 2 Info IEEE488 Interface 9 1 Command Syntax 9 2 Command Synchronization 9 3 List of Commands 9 4 Oscillator 9 5 Page Control List 9 6 Measurement 9 7 Control 9 8 Input Output Port optional 9 9 Interface 10 Pin Assignment 10 1 Link In Out 10 2 IEEE488 10 3 Control 10 4 Analog
42. KG Page 11 User Manual SyCore 4 5 Basic Functions Open the menu Oscillator The display shows Frequency A AF pulse F pulse Tria Syune Add Mult Function Memory 4 5 1 Amplitude and Phase Angle Select amplitude angle The amplitude menu appears Amelitude Angle Amplitude Angle Pill ana v a aa Deg P2 B BERR IU 126 06 Deg P3 v Des Pa v Deg Anale Dea Syne phases 4 5 1 1 Amplitude Go to Amplitude with the cursor keys set the amplitude and press Enter The amplitude is set at the adjusted trigger angle The trigger angle refers to a virtual phase 0 4 5 1 2 Angle Go to Angle with the cursor keys set the angle and press Enter The phase angle is set to the adjusted trigger angle The trigger angle refers to a virtual phase 0 4 5 1 3 Angle Go to Angle with the cursor keys set the angle and press Enter This value is added to angles of the phases 1 4 If e g 90 is set the following angles result P1 0 90 P2 120 90 P3 240 90 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 12 User Manual SyCore 4 5 1 4 Synchronized Amplitude Phases Go to Sync Phases with the cursor keys set the phases and press Enter The value Sync Phases indicates which amplitude phases are synchronized Adjust e g 123 to synchronize amplitude 1 2 3 4 5 2 Frequency Adjustment Select frequency The frequency menu appears Frequency i
43. Manual SyCore Front Panel 4 Function Diagram 10 Function Keys 8 G General Instructions 3 Generation and Query of a Waveform 87 GTL 125 H Harmonic Range 35 Harmonics Mode 115 High Frequency AC Voltages 11 Identification 126 IEEE Buffer 129 IEEE488 44 IMP Harm Range 116 IMP Mode 115 IMP Phase 114 IMP Range 114 Impedance 35 Impedance Harmonics Measurement Range 116 Impedance Measurement Phase 114 Impedance Operation Mode 35 Impedance Phase 35 Impedance Range 35 114 Incremental Switch 4 Info 43 Input Lines 7 Input Output Port 122 Inrush Current Source 116 INRush Current Source 116 Interface 44 48 124 Interface Address 43 Internal Resistance 33 120 K Keys 8 L LEM module 139 140 List Cell 83 Local Control 125 Low Frequency AC Voltages 11 Macros 40 Mains Supply 141 Mains Synchronous 14 55 MEAS CFI 102 MEAS CFU 102 MEAS CURRent 98 MEAS FREQuency 103 MEAS IP 101 MEAS PF 100 MEAS POWer 99 6 07 2013 E SYC V6 Ido MEAS Q 100 MEAS S 99 MEAS UP 101 Meas Use 105 MEAS VOLTage 98 Measurement 23 47 97 Measurement Mode 103 Measurement Phase 104 Memory Depth 21 81 91 Menu 6 Menu Sequence 6 Menu Tree 9 Multiplier 14 16 56 139 N Number of Phases 58 Number of Repeats of a Frequency Pulse 75 Number of Repeats of an Amplitude Pulse 65 O Offset Compensation 25 Operation 6 Operation Mode 32 33 Options 3 OSC AddMult 56 OSC AFPuls GO 68 OSC AMPlitude 50 51
44. Oscillator Syntax OSC APuls START lt FLOAT1 gt lt LABEL1 gt OSC APuls START Arguments lt FLOAT I gt is the amplitude value Range adjusted range end value setup amplifier Resolution range end value 65536 e g 270V 65536 0 00412V lt LABEL I gt is the dimension of the amplitude value Range V A Return lt FLOATI gt Examples osc apuls start 230V With this command the start amplitude is adjusted to 230V osc apuls start Return 230 This query returns a start amplitude of 230V 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 58 User Manual SyCore 9 4 11 OSC APuls PULS This command is required for adjustment and query of the pulse amplitude of an amplitude pulse see 4 4 1 Execution time approx 20ms Default value 0 Group Oscillator Syntax OSC APuls PULS lt FLOAT1 gt lt LABELI gt OSC APuls PULS Arguments Amplitude value and dimension see above Return lt FLOATI gt Examples osc apuls puls OV With this command the pulse amplitude is set to OV osc apuls puls Return 0 This query returns a pulse amplitude of OV 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 59 User Manual SyCore 9 4 12 OSC APuls END This command is required for adjustment and query of the end amplitude of an amplitude pulse see 4 4 1 Execution time approx 20ms Default value 0 Group Oscillator S
45. Pulse 110 AMP Range 107 AMP USE 112 Amplifier 32 108 109 Amplifier Output 32 107 Amplifier Range 32 107 Amplifier Range Value 109 Amplifier Selection 38 Amplitude 12 50 51 85 Amplitude Adjustment 30 Amplitude and Frequency Pulse 18 Amplitude Pulse 18 Angle 12 Angle Resolution 22 Apparent Power 27 Apparent Power Value Query 99 Averaging Factor 26 Basic Adjustment 11 Basic Functions 12 Binary Data Size 128 Binary Data Transfer 127 Binary Mode 127 BREAK 89 E Card Selection 15 Channel Selection 30 Command Synchronization 45 Command Syntax 44 16 07 2013 E SYC V6 Udo Current Peak Value Query 101 Current Switch off Mode 117 Current Value Query 98 Cursor Keys 8 D DATA POINTER 129 DATA SET 127 DATA SIZE 128 DATA WRITE 129 DC Mode 108 DCL 125 Default 125 Delay Time between Amplitude Pulses 66 Delay Time between Frequency Pulses 76 Destination Pointer 129 Device Address 126 Dialog Window 7 Digital Keys 8 Display 6 Display Contrast 6 Duration of a Frequency Pulse 73 E Edge Selection 31 Edit Keys 8 End Amplitude 61 End Frequency of a Frequency Pulse 71 Enhanced Amplifier Functions 33 Event Trigger 123 135 External Control 5 F Fall Time 64 Fall Time of a Frequency Pulse 74 Flicker Mode 115 Frequency 13 53 82 Frequency Measurement 29 Frequency Pulse 19 Frequency Value of the Voltage Query 103 Spitzenberger amp Spies GmbH amp Co KG Page 141 User
46. _V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 130 User Manual SyCore 10 2 IEEE488 Pin _ Labelling ST Coo 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 131 User Manual SyCore 10 3 Control Labelling Remote obsolete Ho Ud a2 Overload Bo Jo o O d4 Release as JA R485 16 E E 24V Control voltage Control ground 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 132 User Manual SyCore 10 4 Analog I O Pin Labelling Ose O 2 Osr e U Meas lu 4 U Meas b O O fe O obsolete O 1 3 5 7 obsolete I Mon HEREN I Mon HERA A bk REO 10 HEO ee Ea ee edi a 20 U Mon shield obsolete EEK i only when R is adjustable 10 5 RU_Control Pin Labelling 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 133 User Manual SyCore 10 6 Digital I O Event Trigger Pin Labelling 2 Joor 3 Jnn EET 5 DUT E EE er e 7 JOUT B Joos 9 NI Trigger input 1 Pause 10 IKZ Trigger input 2 Stop Ga o ea E INS du a3 UNS E INS du BEREA Se dea eek dE aei BEREA 20 aJ o o S o O Gk EE o S T C 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 134 User Manual SyCore 10 6 1 Oscilloscope Trigger and Trigger Input 17 I E
47. a 20ms Default value 1s Group Oscillator Syntax OSC FPuls FALLT lt FLOAT1 gt OSC FPuls FALLT Arguments lt FLOAT I gt is the time value in seconds Range 0 3600 Return lt FLOATI gt Examples osc fpuls fallt 0 With this command the fall time is adjusted to Os osc fpuls fallt Return 0 This query returns a fall time of Os 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 73 User Manual SyCore 9 4 26 OSC F Puls REpeats This command is required for adjustment and query of the number of repeats of a frequency pulse see 4 7 2 Execution time approx 20ms Default value Is Group Oscillator Syntax OSC FPuls REpeats lt INT1 gt OSC FPuls REpeats Arguments lt INT1 gt is the number of repeats Range 0 1000 0 continuous mode Return lt INT1 gt Examples osc fpuls repeats 2 With this command the number of repeats is adjusted to 2 osc fpuls repeats Return 0 This query returns 2 repeats 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 74 User Manual SyCore 9 4 27 OSC F Puls DElayt This command is required for adjustment and query of the delay time between the frequency pulses see 4 7 2 Execution time approx 20ms Default value 1s Group Oscillator Syntax OSC FPuls DElayt lt FLOAT 1 gt OSC FPuls DElayt Arguments lt FLOAT gt is the time value in seconds Range 0
48. an be queried if available Execution time ca 20ms Default value none Group Current limitation Syntax Status Curr Arguments Return lt INT1 gt is the status Range 1 current limitation has new status 2 current limitation has limited 4 current limitation has switched off Examples Status Curr Return 4 This query returns a status of 4 that means the current limitation has switched off 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 118 User Manual SyCore 9 7 21 RNW RI With this command the internal resistance can be adjusted if available Execution time approx 50ms Default value none Group RNW Syntax RNW RI lt FLOAT1 gt RNW RI Arguments lt FLOAT I gt is the internal resistance which is switched when the amplitude pulse or the PCL is output Range 0 5 8 Ohm Return lt FLOAT1 gt Adjusted resistance in Ohm Examples GOSE 1 9 7 22 RNW Mode With this command the operation mode of the internal resistance of the amplifier can be adjusted if available Execution time approx 50ms Default value none Group RNW Syntax RNW Mode lt STRINGI gt RNW Mode Arguments lt STRINGI gt is the operation mode of the internal resistance Range DIR Internal resistance is not switched on when the amplitude pulse or the PCL is output P5 Internal resistance is switched on when the amplitude pulse or the PCL is ou
49. bH amp Co KG Page 122 User Manual SyCore 9 9 Interface The Interface sub system structured as follows GTL DCL IDN Conf Eeee ADR DAIA SET SIZE POINTER WRITE 16 07 2013 E SYC Mn Udo Spitzenberger amp Spies GmbH amp Co KG Page 123 User Manual SyCore 9 9 1 GTL This command switches the device back to local mode Execution time ca 20ms Default value none You can switch back from remote control to local mode Group Interface Syntax GTL Arguments Return Example GTL With this command you can switch back from remote control to local control 9 9 2 DCL This command resets the device to its default settings Verarbeitungszeit ca 1s Default value none Group Interface Syntax DCL Arguments Return Examples GTL This command resets the device to its default settings 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 124 User Manual SyCore 9 9 3 IDN This command queries the identification type of device number of version Execution time approx 20ms Default value none Group Interface Syntax IDN Arguments Return lt String gt Examples IDN Return SPS SyCore V1 01 000 This query returns a identification of SPS SyCoreV1 01 000 9 9 4 Conf Eee ADR This command adjusts the device address Execution time approx 20ms Default value 6 Group Interface Syntax Conf Eee ADR lt INT1 gt
50. d ESI BIS 0 004 657 rrira Er rr o 256 2 Periods 78 131 00 0 596 046 256 4 Periods 156 262 00 1 192 092 Attention Function frequency and voltage have to be readjusted after every change of the memory depth 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 20 User Manual SyCore 4 7 5 Angle Resolution Attention The lower the memory depth the lower the angle resolution The higher the memory depth the higher the angle resolution For detailed data please refer to the following table Depth memory depth Ages angle resolution 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 21 User Manual SyCore 5 Measurement Open the menu Measurement if available The display indicates Frequency Oscilloscope Reference The description of the soft keys can be found in the sections 3 3 1 and 3 3 4 5 1 RMS Go to RMS with the cursor keys and press Enter 5 1 1 Voltage and Current Measurement 5 1 1 1 r m s Value Measurement U I AC Mode U D DDD LU I A Aab EI Power A PF 4 HEE cru ZO crt The r m s value can be determined as follows iel dri The direct component is decoupled via a capacitor 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 22 User Manual SyCore DC Mode D DDD LU I A AAi EI Power aaa JH FF D DDD CF u CF I The direct componen
51. d current amplifiers e oscillator unit for voltage and current amplifiers e measurement unit for voltage and current amplifiers The firmware of the device supports the following options Resistor Load Control R Load Caution The functions must only be performed when the referring options available otherwise malfunctions might occur 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 3 User Manual SyCore 3 1 Front Panel Pos Lettering 1 POWER 2 3 SPEED 4 5 OUTPUT 6 ESC DEL 7 HELP 8 16 07 2013 E SYC V6 Udo Component Tumbler switch Incremental switch Indication Speed keys Cursor keys Function keys Indication Numeric keyboard Soft keys Display Ik Function Mains switch for switching on and off the device Manual tuning of frequency voltage etc Yellow high resolution of the incremental switch small steps Green low resolution of the incremental switch large steps Resolution of the incremental switch Menu selection e g output on off On red the output is switched on Off green the output is switched off Both LEDs red green at least one amplifier is overload Input Menu direct switching for indication of the menu setting values and measured values Spitzenberger amp Spies GmbH amp Co KG Page 4 User Manual SyCore 3 2 Rear Panel OoOO O00 O00 66 Pos L
52. d with the final character LF LINE FEED HEX 0A EOI line 9 1 Command Syntax The basic structure of a command is made up of the elements command space and argument Example AMP Output 1 AMP Output is the command is the argument and between command and argument there is always a space The capital letters of the command must be input the lower case letters are optional If several commands have to be transferred in one transfer sequence the commands have to be separated with a semicolon Example AMP Mode 1 AMP Output 1 The basic structure of a query is made up of a command and a question mark no space between command and question mark Example MEAS Voltage The return value is available for transmission in an output buffer In section 9 3 all control commands and queries are listed The following notation is used for the description of the command syntax Symbol Meaning lt gt Defined element Group one element is required Optional can be omitted Exclusive Or Previous element s may be repeated Example AMP Output 0 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 43 User Manual SyCore 9 2 Command Synchronization Complex test sequences or device control sequences require the synchronization of the executed program with the used IEEE device This is particularly important for time consuming functions Example The SyCore executes an amplitude
53. dance harmonic range IMP Harm Range 9 7 15 Impedance operation mode IMP Mode 9 7 14 Impedance phase IMP Phase BEA Impedance range IMP Range 9 7 13 Inrush Current Source INRush Current Source 9 7 16 Internal resistance adjustment RNW RI 9 7 21 Internal resistance operation mode RNW Mode 9 7 22 Parallel switching AMP PAR 9 7 8 Pulse operation AMP PUlse 9 7 7 Resistor load RLoad Load 9 7 23 Interface Description Command Section Binary data mode DATA SET 9 9 5 1 Binary data size EATE add Binary data transfer DATA WRITE 9 9 5 4 Default setting DCL 9 9 2 Device address Conf Eee ADR 9 9 4 Identification IDN 9 9 3 Manual control GTL 9 9 1 Source pointer destination pointer DATA POINTER 9 9 5 3 16 07 2013 E_SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 47 User Manual SyCore 9 4 Oscillator The Oscillator sub system is structured as follows Conf Osc OSC PHases AMPlitude ANGle FREQuency TRigger Sync ADDMult Use APuls FPuls START PULS END RISET DURAT FALLT DELAYT REPEATS GO START PULS END RISET DURAT FALLT DELAYT REPEATS GO AFPuls Page BREAK GO FUnction MEMory CYcles SIze TRigger FREQuency NUmber ANngle AMplitude TOtalcycles STopnumber PArameter CLear GO 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 48 User Manual SyCore 9 4 1 OSC AMPlitude This command is
54. e binary data size Range 1 2097152 220 2 Return lt INT1 gt Example DATA SIZE 2048 The binary data size 2048 is adjusted 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 127 User Manual SyCore 9 9 5 3 DATA POINTER This command is required for the adjustment of the destination pointer or the source pointer of the binary data The address of the memory range of oscillator cards gt 1kB can be calculated according to the following formula Address Phase number 1 total memory of the oscillator card 4 For 1kB oscillators always the address 0 is used Execution time approx 20ms Group Interface Syntax Syntax DATA POINTER lt INT1 gt lt INT2 gt Arguments lt INT1 gt is the segment address Range 1 Oscillator memory lt INT2 gt is the offset address Range 0 2097151 2420 2 Return Example DATA POINTER 1 0 With this command the segment address is adjusted to the oscillator and the offset address to Page 0 9 9 5 4 DATA WRITE This command is required for the Transfer of the binary date from the IEEE buffer to the destination pointer DATA POINTER Execution time approx 100ms per 1k Group Interface Syntax Syntax DATA WRITE Arguments Return Example DATA WRITE With this command the binary data are transferred from the IEEE buffer to the destination pointer 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 128 Use
55. e change is accepted immediately Execution time approx 20ms Default 1 changes are accepted immediately Group Oscillator Syntax OSC AMPlitude ACCept lt INT1 gt OSC AMPlitude ACCept Arguments lt INT1 gt je the value for the acceptance mode l Acceptance mode on amplitude changes are accepted immediately 0 Acceptance mode off amplitude changes are only accepted when the acceptance mode is switched on again Thus it is possible to enable simultaneous changes at different phases with varying amplitude Range 0 1 Return lt FLOAT1 gt Examples osc amp acc 1 With this command the acceptance mode is switched on Amplitude changes are accepted immediately osc amp acc Return 1 The acceptance mode is switched on 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 50 User Manual SyCore 9 4 3 OSC ANGle This command is required for the adjustment or query of the phase angle The phase angle determines the offset of the waveform memory readout The phase angle value is accepted at the adjusted trigger angle see 9 1 4 Execution time approx 20ms 1 frequency e g 20ms 1 50Hz 40ms Default value 0 120 240 0 Group Oscillator Syntax OSC ANGle lt INT1 gt lt FLOAT1 gt OSC ANGle lt INT1 gt Arguments lt INT1 gt is the phase number Range 1 4 lt FLOAT gt is the phase angle value Range 360 in degree Resolution 360 memory depth e g 360 1k 0 35
56. e dE U Vi V V V V y I j I Chi 1000 OO TORTO Chi 1000 OO OTE 18 Sep 2002 18 Sep 2002 23 40 11 29 35 23 40 11 29 52 The oscilloscope trigger will only be released when voltage and frequency adjustments are made at oscillator 1 When voltage and frequency are adjusted at oscillator 2 oscilloscope trigger is not released Note VCC EXT is galvanical isolated from the internal side But the GND EXT may be earthed if an oscilloscope is connected to the oscilloscope trigger Even if the scope is not connected to earth directly it may be earthed via the IEEE488 interface VCC INT 5V 9 VCC EXT 5V 10k Oscilloscope Trigger Interni GND EXT VCC INT 5V 9 VCC EXT 5V 10k Intern2 Pause Trigger GND INT GND EXT VCC INT 5V 9 VCC EXT 5V 10k Intern3 Stop Trigger GND INT GND EXT Schematic diagram of trigger output and trigger inputs 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 135 User Manual SyCore 10 6 2 Extern Output Switch optional The option Extern Output Switch enables the switching of the amplifier output by an externally connected switch contact For this a switch contact has to be connected between contact 11 and 24 at the socket DIGITAL I O The output is switched at each contacting on off 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 136 User Manual SyCore 11 Techn
57. e value 1 should be adjusted to make the fixed run of the PCL as short as possible Measured signal at oscillator output ES Signal Manager 2 36 Datei Bearbeiten Ansicht Abl ufe Funktionen Steuern Optionen Fenster Hilfe E jel H EES Funktionsfenster 1 Pts 1008 127 Scale 0 0ns 0 0 SNES E Ba x ES 556 26 Ons OV 16 07 2013 E SYC_V6_11 doc 11 50 EUREEN None Gould40 Spitzenberger amp Spies GmbH amp Co KG Page 95 User Manual SyCore 9 6 Measurement The measurement sub system is structured as follows MEAS Conf VOLTage CURRent POWer S Q PF UP IP CFU CFI FREQuency Meas Mode do de acdc PH Use 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 96 User Manual SyCore 9 6 1 MEAS VOLTage With this command the voltage value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS VOLTage Arguments Query only Return lt FLOATI gt Example meas voltage Return 230 000 This query returns a voltage value of 230V 9 6 2 MEAS CURRent With this command the current value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS CURRent Arguments Query only Return
58. edance on off Func2 Inrush current source on off Func3 not fitted Func4 Status indication current limit via LED push button without function Local Local remote control 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 8 User Manual SyCore 3 3 7 Menu Tree Oscillator Amplitude Angle Frequency A AF Pulse F Pulse Trig Sync Add Mult Function Memory Measurement Rms Frequency Oscilloscope Control Amplifier Amplifier Enh Parallel Conn Impedance Current Limit R Load Macros Run Record List Load Save Delete Setup Interface Info Use 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 9 User Manual SyCore 4 Oscillators Several arbitrary waveform generators are available For the utilisation of the all functions of these generator a certain basic knowledge on the way of function is required If you want to use only the standard functions for the time being you can overleap the following section Function Diagram 4 1 Function Diagram The main components are e frequency stable clock generator 10MHz e frequency conditioning 17bit divider e address counter up to 1Mbyte e waveform memory RAM up to 1Mbyte e amplitude multiplier for each channel phase e analog digital converter DAC for each channel phase D A Converter Analog Signal Frequency Conditioning Address Counter Waveform Memory Amplitude Multipli
59. ency pulse pulse frequency OSC FPuls PULS 9 4 21 Frequency pulse repeats OSC FPuls REpeats 9 4 26 Frequency pulse rise time OSC FPuls RISET 9 4 23 Frequency pulse start OSC FPuls GO 9 4 28 Frequency pulse start frequency OSC FPuls START 9 4 20 Phase angle OSC ANGle 9 4 3 Phases Conf Osc PHases 9 4 9 Synchronisation OSC Sync 9 4 6 Trigger angle OSC TRigger 9 4 5 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 45 User Manual SyCore Page Control List Description Command Section Enable pulse operation OSC Page PULS 9 5 8 Increase of the maximum frequency range OSC Page PEriods 9 5 17 List cell cycles OSC Page TOtalcycle 9 5 10 s List cell paramter OSC Page PArameter 9 5 16 List cell run after BREAK command OSC Page STopnumer 9 5 11 PCL clear OSC Page CLear 9 5 15 PCL interrupt OSC BREAK 9 5 14 PCL start OSC Page GO 9 5 12 PCL start by trigger OSC Page GO 9 5 13 Waveform frequency OSC Page FRequency 9 5 4 Waveform memory amplitude OSC Page AMplitude 9 5 7 Waveform memory cycles OSC Page CY cles 9 5 1 Waveform memory number OSC Page NUmber 9 5 5 Waveform memory phase angle OSC Page ANgle 9 5 6 Waveform memory size OSC Page Slize 9 5 2 Waveform memory trigger angle OSC Page TRigger 9 5 3 Waveform adjust query OSC Page FUnction 9 5 9 Memory depth adjust query OSC PAge MEMor
60. end value Proportional amplitude amplitude range end value 100 For adjusting an output voltage of 230V AC at a 270V AC standard amplifier a amplitude value of 81 18 has to be programmed Examples osc page amplitude 1 3 50 With this command an amplitude of 50 for phase 3 is stored in list cell 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 84 User Manual SyCore 9 5 8 OSC Page PULS With this command the pulse operation can be enabled see section 9 5 1 within the PageControlList if available Before using the pulse operation a 30ms pre lead time is required during PCL cycle for shifting up of the power supply by hardware This command shall also be sent in a preceding page Execution time ca 30ms Default 0 Syntax OSC PAGE PULSE lt INT1 gt lt INT2 gt Argumente lt INT1 gt List cell number Valid range 1 256 lt INT2 gt Switch pulse operation Valid range 0 OFF 1 positive 2 negative Examples osc page pulse 3 1 Switches the positive pulse operation in the 3rd page After 30ms it can be used osc page pulse 6 0 Switches off the pulse operation in the 6th page 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 85 User Manual SyCore 9 5 9 OSC Page FUnction This command is required for generation and query of a waveform Execution time approx 0 25s per 1k depth Default value SINE Note amplitude 1
61. er Frequency Ea Amplitude Adjustment GS OG oO Adjustment The requested waveforms sine delta square wave pulse ramp or even free programmable mixings of harmonics and subharmonics are stored in the waveform memory An address counter reads the digital values 16 bit values 32767 out of this waveform memory In the amplitude multiplier the requested voltage will be adjusted 16 bit 4 quadrant product of waveform and amplitude adjustment This multiplied value is converted to the analog control signal via a digital analog converter The frequency conditioning defines the speed to read the waveform frequency During multiphase operation the single phase signals are generated in time division multiplex procedure Therefore the maximum frequency decreases proportionally to the number of phases 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 10 User Manual SyCore 4 2 Generation of Low Frequency AC Voltages When generating low frequency AC and DC voltages high quality waveform is more important than the output speed Therefore we recommend to select higher memory depths 1k 4k or 16k to achieve a better harmonic distortion when using power engery frequencies 16 2 3Hz 50Hz 60Hz 400Hz When using multi phase systems the phase number has to be adjusted to a value gt 1 Thus the maximum possible output frequency is reduced but then again the frequency resolution is increased see tab
62. ettering Component Function 9 LINE Rubber connector for non Mains supply heating apparatus with 1A fuse 10 RU CONTROL Connector socket Mains control series 692 6 PE additional device e g amplifier type PAS 11 SPS Socket 25 pole SUB D Interface SPS with trigger assignment 12 RS232 Not fitted 13 IEEE488 Micro Ribbon 24 pole type IEEE 488 socket Ansley 14 CONTROL Plug 25 pole SUB D Control output 15 ANALOG I O Socket 25 pole SUB D Signal input output 16 EXT INPUT Safety lab socket External input Input impedance approx 10kQ 17 OUTPUT P4 Safety lab socket Oscillator output 4th phase Input and Output signals are related to earth In order to avoid beat or similar resulting from GND loops you are recommended to use an unearthed function generator laboratory an external generator with isolation transformer may be used The external input is designed as adder input to the internal oscillator oscillators Harmonics can be easily generated with this adder input The adder function is continuously available and therefore doesn t need to be enabled Reference The above shown front and rear panel diagrams and descriptions contain all components and options available for the device 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 5 User Manual SyCore 3 3 Operation 3 3 1 Display Design After starting the device you can see a menu sequence at the left and a soft key
63. for the rise the second one for the remaining state Example with SPS Scriptmanager send 6 10 osc amplitude 1 85 Amplitude of phase 1 at 85 in 270V range 230V send 6 10 osc page clear PCL clear send 6 10 0sc page cycles 1 1 List cell 1 output 1x page send 6 10 osc page amplitude 1 1 93 7 List cell 1 amplitude of Phase 1 at 93 7 in 270V range 253V send 6 10 osc page cycles 2 1 List cell 2 output 1x page send 6 10 0sc page amplitude 2 1 85 List cell 2 amplitude of phase 1 again at 85 in 270V range 230V send 6 10 0sc page totalcycles 1 output 1x PCL send 6 10 0sc page go start PCL After this cycle the output remains on this page However the smallest possible value 1 should be adjusted to make the fixed run of the PCL as short as possible Measured signal at oscillator output FAY Signal Manager 2 36 Datei Bearbeiten Ansicht Abl ufe Funktionen Steuern Optionen Fenster Hilfe E eel bell Sel OE alll 2 E Funktionsfenster 1 Pts 1008 127 Scale 0 0ns 0 0 702 10 Ons OV Kurve 1 1212 SYCOREB4K None Gould40 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 91 User Manual SyCore Proceeding 2 For a better illustration of the functionality the same rise is generated in another way A page with a stored sine is required as well Page 1 is used for standard page for the output of the waveform see sec
64. ge meas use 2 meas voltage This command selects measurement card 2 and queries the currently measured voltage 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 104 User Manual SyCore 9 7 Control The control subsystem is structured as follows Conf Status ATO AME Output Range Mode ON Power Pulse Par Q IMP Phase Range Mode Harm Range INRush Current Source Status Curr CURR Limitation Control Mode Level 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 105 User Manual SyCore 9 7 1 AMP Output This command switches the amplifier output Execution time max 2s Default value 0 Group Amplifier Syntax AMP Output 0 1 AMP Output Arguments 0 switches the output off 1 switches the output on Return 0 or 1 Example amp output 1 This example switches the output on 9 7 2 AMP Range This command selects the amplifier range When the amplifier range is changed the output and the control are reset Execution time min 2s depends on type of amplifier Default value lowest range which is higher than 230V Group Amplifier Syntax AMP Range lt INT1 gt AMP Range Arguments lt INT1 gt range number Return lt INT1 gt Example amp range 1 This command switches the amplifier range to range 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 106
65. ical Data 11 1 Oscillator Technical Data Number of phases Wave forms Internal External Input impedance EXT INPUT Memory Horizontal resolution Vertical resolution Output Amplitude resolution Voltage accuracy Voltage stability Output impedance Offset Frequency 1 2 4o0rn sine triangle rectangle saw tooth pulse DC free programmable signal shapes in connection with the software package SignalManager kd approx 10kQ 256 1024 4096 16384 65536 1048576 points 32768 points 16 bit 1 024 points 3 53 Vms 10Vpp 0 01 lt 1x 10 lt 0 1 10 100 modulation lt 2x 107 10min lt 1x10 24h approx 50Q lt ImV Phase number Memory depth B Max Frequency Frequency resolution Hz Min Frequency Hz 39062 50 9765 62 2441 40 19531 25 4882 81 1220 70 9765 62 2441 40 0 004657 0 001164 l 256 2 Periods 78131 00 0 596046 l 256 4 Periods 156262 00 1 192092 Frequency accuracy please see table frequency resolution Frequency stability lt 2x 10 Sampling frequency max 1OMHz 16 07 2013 E_SYC_V6_11 doc Spitzenberger d Spies GmbH amp Co KG Page 137 11 2 Multiplier User Manual SyCore Voltage input Frequency range Multiplication error max 5V DC 100Hz 2 DC 10 AC 11 3 Measurement Voltage input Measuring range max voltage Frequency range Measuring error AC 30V 300V
66. ies GmbH amp Co KG Page 70 User Manual SyCore 9 4 23 OSC FPuls RISET This command is required for adjustment and query of the rise time of a frequency pulse see 4 4 2 Execution time approx 20ms Default value Is Group Oscillator Syntax OSC FPuls RISET lt FLOAT1 gt OSC FPuls RISET Arguments lt FLOAT I gt is the time value in seconds Range 0 3600 Return lt FLOATI gt Examples osc fpuls riset 0 With this command the rise time is adjusted to Os osc fpuls riset Return 0 This query returns a rise time of Os 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 71 User Manual SyCore 9 4 24 OSC EES DUKAT This command is required for adjustment and query of the duration of a frequency pulse see 4 4 2 Execution time approx 20ms Default value 1s Group Oscillator Syntax OSC FPuls DURAT lt FLOAT1 gt OSC FPuls DURAT Arguments lt FLOAT I gt is the time value in seconds Range 0 3600 Return lt FLOATI gt Examples osc fpuls durat 0 02 With this command the duration is adjusted to 0 02s osc fpuls durat Return 0 02 This query returns a duration of 0 02 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 72 User Manual SyCore 9 4 25 OSC F Puls FALLT This command is required for adjustment and query of the fall time of a frequency pulse see section 4 7 2 Execution time c
67. ies GmbH amp Co KG Page 82 User Manual SyCore 9 5 6 OSC Page ANgle This value indicates the phase angle of the waveform memory page is output Syntax OSC Page ANgle lt INT1 gt lt INT2 gt lt FLOAT1 gt Arguments lt INT1 gt List cell number Valid range 1 256 lt INT2 gt Phase number Valid range 1 4 lt FLOATI1 gt Start angle the output of the waveform memory is started with Corresponds to a phase shift against pseudo phase 0 Valid range 0 360 floating point number The maximally possible angle resolution depends on the waveform memory depth With the following formula the angle resolution can be calculated Smallest possible resolution 360 waveform memory depth e g 360 1024 0 351 degree Examples osc page angle 1 1 90 With this command a phase angle of 90 is stored in the list cell 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 83 User Manual SyCore 9 5 7 OSC Page AMplitude This command defines the amplitude for a waveform output Syntax OSC Page AMplitude lt INT1 gt lt INT2 gt lt FLOAT I gt Arguments lt INT1 gt List cell number Valid range 1 256 lt INT2 gt Phase number Valid range 1 4 lt FLOAT1 gt Proportional amplitude value with which the content of the waveform memory is output Valid range 0 100 floating point number A proportional amplitude value of 100 corresponds to the current amplifier range
68. ized by a simple query e g send IDN and wait for the return The OPC function or similar is not available for the present firmware version of the SyCore 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 44 User Manual SyCore 9 3 List of Commands The SyCore interface is structured in several sub systems working more or less independent from each other Following the sub systems are described more closely Oscillator Description Command Section Active Oscillator card OSC Use 9 4 8 Adder Multiplier OSC ADDMult 9 4 7 Amplitude OSC AMPlitude 9 4 1 Amplitude acceptance OSC AMPlitude ACCept 9 4 2 Amplitude and frequency pulse start OSC AFPuls GO 9 4 19 Amplitude pulse delay time OSC APuls DElayt 9 4 17 Amplitude pulse durationt OSC APuls DURAT 9 4 14 Amplitude pulse end amplitude OSC APuls END 9 4 12 Amplitude pulse fall time OSC APuls FALLT 9 4 15 Amplitude pulse pulse amplitude OSC APuls PULS 9 4 11 Amplitude pulse repeats OSC APuls REpeats 9 4 16 Amplitude pulse rise time OSC APuls RISET 9 4 13 Amplitude pulse start OSC APuls GO 9 4 18 Amplitudenpuls start amplitude OSC APuls START 9 4 10 Frequency OSC FREQuency 9 4 4 Frequency pulse delay time OSC FPuls DElayt 9 4 27 Frequency pulse duration OSC FPuls DURAT 9 4 24 Frequency pulse end frequency OSC FPuls END 9 4 22 Frequency pulse fall time OSC FPuls FALLT 9 4 25 Frequ
69. le in section 4 7 4 4 3 Generation of High Frequency AC Voltages When generating high frequency AC voltages kHz range e g EV amplifiers high output speed is important while the waveform quality is inferior A higher harmonic distortion is secondary because the amplifier can t transmit high frequent components of the signal Therefore you should select lower memory depth for the generation of higher frequencies 256 1k For additional increasing of the maximum output frequency several periods of one signal can be written into the 256 point memory Furthermore the phase number of the oscillator should be set to 1 if possible Please see section 4 7 4 4 4 Basic Adjustment The amplifier is set to the following basic adjustments Oscillator e Amplitude 0 for each phase e Phase angle 0 phase 1 120 phase 2 240 phase 3 0 phase 4 only at 4 phase version at less phases reduced corresponding e Frequency 50Hz e Trigger 0 e Synchronisation Out e Function Sine for each phase e Memory depth 1k 1024 points Oscillator type 1Kbyte 64Kbyte 1024Kbyte Memory depth 1024 1024 1024 Start address Phase 1 0 0 Page 1 0 Page 1 Start address Phase 2 0 16384 Page 17 262144 Page 257 Start address Phase 3 0 32768 Page 33 524288 Page 513 Start address Phase 4 0 49152 Page 50 786432 Page 769 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co
70. lied Spitzenberger amp Spies GmbH amp Co KG Page 15 User Manual SyCore 4 6 Flicker Simulation in Connection with Opt Multiplier The following flicker simulations can be only conducted when the option Multiplier is available For the direct generation of sinusoidal or rectangular voltage fluctuations flicker simulation for simplification purposes a DC voltage should additionally be added to the multiplicand Example Simulation of a sinusoidal flicker 8 8Hz 2 of nominal voltage Please act as follows 1 Switch on the multiplier Menu Oscillator submenu Trig Sync Add Mult For phase 1 select the adjustment Mult in Ph1 Select oscillator card 2 Set 230V amplitude at phase 1 Set 50Hz frequency Select oscillator card 1 Change the waveform of phase 4 to DC Set the amplitude of phase 4 to the maximum value 381 83V in range 270V Set the amplitude of phase 1 to 7 64V 381 83 2 100 Set 8 8Hz frequency dd E Ee SON i ge ee Item 2 4 Adjustment of the nominal voltage Item 6 9 Addition of a DC voltage with 100 amplitude corresponds to factor 1 to the adjusted voltage change item 8 Thus the requested voltage fluctuation can be defined directly in the amplitude adjustment Reference When using integer values item 9 of the basic frequency item 4 we recommend to enable the synchronisation of the oscillators in order to avoid disturbances by beats 16 0
71. meas cfu Return 1 41 This query returns a crest factor of 1 41 9 6 10 MEAS CFI With this command the current crest factor value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS CFI Arguments Query only Return lt FLOATI gt Example meas cfi Return LS This query returns a crest factor of 1 75 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 101 User Manual SyCore 9 6 11 MEAS FREQuency With this command the frequency value of the voltage can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS FREQuency Arguments Query only Return lt FLOAT1 gt Example meas frequency Return 50 000 This query returns a frequency value of 50Hz 9 6 12 Conf Meas Mode This command selects the current measurement mode coupling Execution time approx 200ms Default value AC The input of the measurement card is equipped with a coupling capacitor which is bridged in ACDC and DC mode but not in AC mode Group Measurement Syntax Conf Meas Mode AC DC ACDC Arguments AC switches to AC measurement mode for voltage and current DC switches to DC measurement mode for voltage and current ACDC switches to ACDC measurement mode for voltage and current Return
72. mitation Return 0 or 1 Examples curr limitation control 1 This command switches the current limitation on 9 7 18 CURR Limitation Mode This command selects the limitation mode of the current control if available Execution time approx 20ms Default value LIM Group Current limitation Syntax CURR Limitation Mode LIM SWI CURR Limitation Mode Arguments LIM switch to limiting mode SWI switch to switch off mode Return Adjusted operation mode Examples curr limitation mode SWI This command switches the current limitation to switching off mode 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 116 User Manual SyCore 9 7 19 CURR Limitation Level With this command the current value of the current limitation can be adjusted if available Execution time approx 20ms Default value 15 Group Current limitation Syntax CURR Limitation Level lt INT1 gt lt FLOAT1 gt CURR Limitation Level lt INT1 gt Arguments lt INT1 gt is the phase number Phase 1 3 lt FLOAT gt is the current value Range 0 15 Resolution 8bit Return lt FLOATI gt Example curr limitation level 1 5 With this command the current value is adjusted to 5A in phase 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 117 User Manual SyCore 9 7 20 Status Curr With this command the status of the current limitation c
73. nal representation AAMP or VAMP 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 29 User Manual SyCore 5 3 2 Trigger Adjustment Press the button TSI to select channel 1 or channel 2 or to get to the trigger adjustment CH1 CH2 or TRIG All adjustments S2 to S7 refer to the trigger adjustment 5 3 2 1 Edge Selection Press the button S2 to select the edge and the channel to trigger on CH1 CH1 CH2 or CH2 5 3 2 2 Trigger Level Press the button S5 and or S6 to adjust the trigger level to trigger on ALEV or VLEV 5 3 2 3 Time Base Press the button S7 and or S8 to adjust the time base ATB or VTB 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 30 User Manual SyCore 6 Control Go to Control by means of the cursor keys and press Enter Amplifier Enh Parallel conn Imeedance Current Limit Load 6 1 Amplifier Go to Amplifier by means of the cursor keys and press Enter Amelifier Output cU OFF DOn Range Coupling JDC GAR Power GADTTZ ADO 6 1 1 Output For switching off and or on the output go to Output by means of the cursor keys select Off or On and press Enter See section 3 3 6 4 Function keys 6 1 2 Range Go to Range by means of the cursor keys select the amplifier range and press Enter 6 1 3 Operation Mode
74. oad UET _ Feed the number of the macro 0 9 where the key stroke is are stored Now the loaded macro can be executed with Run 7 5 Save Macros Go to Save with the cursor keys and press Enter Macro save UET _ Feed the number of the macro 0 9 where the key stroke is to be stored The macro No 0 Start Macro is loaded and executed when starting the device Now the key strokes are saved under the fed number of the macro 0 9 7 6 Overwrite Macros Reference Macros can only be overwritten and not deleted Macros can be overwritten as described in section 7 5 Save Macros To delete a Start Macro No 0 act as follows 1 Go to Macros gt Record 2 Press the key Func4 to finish the macro recording 3 Go to Macros gt Save Feed the number 0 Start Macro 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 40 User Manual SyCore Example At switching on the device the following fundamental state of the oscillator has to be executed the angles of the phases 1 3 of the oscillator have to be at 0 Please act as follows 4 Go to Macros gt Record Now all key strokes are recorded 5 Go to Oscillator gt Amplitude Angle Feed an angle phase 3 of 0 6 Press the Func4 key to end the macro record 7 Go to Macros gt Save Feed the number 0 Start Macro Now the angles of the phases 1 3 are set to 0 when switching on the device
75. or the program development e g for defined interrupting of many repetitions cycles Examples osc page stop number 10 With this command list cell 10 is defined as stop list cell 9 5 12 OSC Page GO With this command the PCL run is started see section 9 2 Syntax OSC Page GO Arguments None NOTICE During the PCL run no commands should be sent to the SyCore Exception BREAK Examples osc page go Start of PCL 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 87 User Manual SyCore 9 5 13 OSC Page GOBY trigger optional With this command the PCL is armed for the start with an external trigger only when trigger card is installed Now the run can be started by a start trigger please see section 10 6 Syntax OSC Page GOBY trigger Arguments None Reference During the run of the PLC no commands can be sent to the SyCore except BREAK and OSC Page STopnumber Examples osc page gobytrigger The PCL is armed for the start by trigger 9 5 14 BREAK With this command a running PCL run can be interrupted Syntax BREAK Arguments None At BREAK the run of the current list cell is interrupted If stop number 0 is programmed an immediate interrupt happens Otherwise the list cell defined by stop number runs and the PCL is finished Examples BREAK With this command the running PCL is interrupted 9 5 15 OSC Page CLear This command is mean
76. pies GmbH amp Co KG Page 18 User Manual SyCore 4 7 3 Waveform Go to Function with the cursor keys and press Enter Function Phase 1 Sine Phase 2 Sine Phase 3 Sine Phase 4 EE 1234 Zr SLP C aTriangle d Rectangle oPulse Rame d ADD Example 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 19 User Manual SyCore 4 7 4 Memory Depth Go to Memory with the cursor keys and press Enter Here you can set the number of the digital resolution points per period Go to Periods with the cursor keys and press Enter The frequency can be increased the multiple of the set period with this function Memory Werth 3256 cH 1 KE coo dE SA 16 KE Periods Example When setting 2 periods the maximum frequency doubles i e two periods are generated in the selected memory range e g 1kB The doubling of the signal frequency with the same output frequency is calculated automatically in the manual frequency input Thus subsequent frequency specifications result in the correct signal output frequency The lower the memory depth the higher the maximum frequency the lower the frequency resolution the higher harmonic distortion and minimum frequency A good compromise are the adjustments 1kB or 4kB The number of the digital resolution points per period is equal to the memory depth For detailed data please refer to the following table Hz Min Frequency Hz
77. pulse time is adjusted to 0 02s osc apuls durat Return 0 02 This query returns a pulse time of 0 02s 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 62 User Manual SyCore 9 4 15 OSC APuls FALLT This command is required for adjustment and query of the fall time of an amplitude pulse see 4 4 1 Execution time approx 20ms Default value Is Group Oscillator Syntax OSC APuls FALLT lt FLOAT1 gt OSC APuls FALLT Arguments lt FLOAT gt is the time value in seconds Range 0 3600 Return lt FLOATI gt Examples osc apuls fallt 0 With this command the fall time is adjusted to Os osc apuls fallt Return 0 This query returns a fall time of Os 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 63 User Manual SyCore 9 4 16 OSC APuls REpeats This command is required for adjustment and query of the number of repeats of an amplitude pulse see 4 7 1 Execution time approx 20ms Default value Is Group Oscillator Syntax OSC APuls REpeats lt INT1 gt OSC APuls REpeats Arguments lt INT1 gt is the number of repeats Range 0 1000 0 continuous operation Return lt INT1 gt Examples osc apuls repeats 2 With this command the number of repeats is adjusted to 2 osc apuls repeats Return 0 This query returns 2 repeats 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp
78. put Pin 3 8 4 Output Pin 4 16 5 Output Pin 5 32 6 Output Pin 6 64 7 Output Pin 7 128 8 Output Pin 8 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 121 User Manual SyCore Return lt INT1 gt l l input Pin 9 is connected to GND Pin 25 break trigger 2 2 input Pin 10 is connected to Pin 25 start stop trigger 4 3 input Pin 11 is connected to Pin 25 8 4 input Pin 12 is connected to Pin 25 16 5 input Pin 13 is connected to Pin 25 32 6 input Pin 14 is connected to Pin 25 64 7 input Pin 15 is connected to Pin 25 128 8 input Pin 16 is connected to Pin 25 Example status sps 1 128 The 8 output is connected to GND status sps 2 Return 1 The first input is connected to GND 9 8 2 Event Trigger Oscilloscope trigger This trigger is released automatically by the oscillator at each voltage change amplitude change Thereby the trigger signal is set from 5V to OV for approx 2 periods approx 40ms at 50Hz via an open collector circuit At the moment of the amplitude change the voltage is set to 5V again baize II I po eeen ee e pre per poro er pur per ree prem pere ere eee pp eyes cme Curve 1 Sine with Curve 2 voltage drop Trigger pulse t start This picture shows the curve shape of the oscilloscope trigger Pin assignment please see section 10 6 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies Gm
79. r Manual SyCore 9 9 5 5 Example Example for transferring a waveform with memory depth 1kB 1024 points with 16bit each 2 Byte to phase 1 of the oscillator d D PO 1 0 2 D SI 2048 3 D SE 4 transfer of the values with binary transfer command transmitarray o 5 D WR Explanation 1 The destination address in the oscillator memory is set address 0 stands for the address of the memory range of the first phase The address of the memory range of other phases for oscillator cards gt 1kB can be calculated according to the following formula Address Phase number 1 total memory of the oscillator card 4 For 1kB oscillators always the address 0 is used The size of the data block to be transmitted is set Switching to binary mode Transmitting of the values function made available by the driver of the interface card ZE gi ger Za Copying of the transmitted data into the oscillator memory Note Data blocks gt 64kB must be dissected in blocks lt 64kB repeat point 1 to 5 the address has to be increased correspondingly 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 129 User Manual SyCore 10 Pin Assignment 10 1 Link In Out This interface is only available with firmware version lt V2 0 Pin Labelling LinkIn2 LinkIn3 ErrorIn ResetOut Z LinkIn2 LinkIn3 Errorin ResetOut Q Z J WI Fy 16 07 2013 E SYC
80. rent oscillator card Syntax OSC Page FRequency lt INT1 gt lt FLOAT1 gt Arguments lt INT1 gt List cell number Valid range 1 256 lt FLOAT1 gt Defines the frequency The minimum frequency the maximum frequency and the frequency resolution depend on several factors e g the waveform memory depth or the number of phases See also section memory depth for further details Examples osc page frequency 1 50 With this command a frequency of 50Hz is stored in the list cell 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 81 User Manual SyCore 9 5 5 OSC Page NUmber This command assigns a waveform memory page to the requested phase in a list cell Note The same waveform memory page can be assigned to several list cells Syntax OSC Page NUmber lt INT1 gt lt INT2 gt lt INT3 gt Arguments lt INT1 gt lt INT2 gt lt INT3 gt Example osc page osc page osc page osc page osc page osc page List cell number Valid range 1 256 Phase number Valid range 1 4 Page number 1 XXX The maximum page number depends on several factors see OSC Page SIze number 1 1 1 number 1 2 1 number 1 3 1 angle 1 1 0 angle 1 2 120 angle 1 3 240 The same waveform memory is assigned to the three phases of list cell 1 The different phase angles result in a three phase system 16 07 2013 E SYC V6 Udo Spitzenberger amp Sp
81. required for adjustment or query of the amplitude The amplitude determines the value to be multiplied with the value of the waveform memory The amplitude value is accepted at the adjusted trigger angle see 9 4 5 Execution time approx 20ms 1 frequency e g 20ms 1 50Hz 40ms Default value 0 Group Oscillator Syntax OSC AMPlitude lt INT1 gt lt FLOAT1 gt lt LABEL1 gt OSC AMPlitude lt INT1 gt Arguments lt INT1 gt is the phase number Phase 1 4 lt FLOAT I gt is the amplitude value Range adjusted range end value setup amplifier Resolution range end value 65536 e g 270V 65536 0 00412V lt LABEL 1 gt is the dimension of the amplitude value Range V A Return lt FLOATI gt Examples osc amp 1 100 With this command the amplitude of the first phase is set to 100 of the adjusted amplifier range osc amp 2 270V With this command the amplitude of the second phase is adjusted to 270V only at voltage amplifiers osc amp 3 20A With this command the amplitude of the third phase is adjusted to 20A only at current amplifiers osc amp 1 Return 123 4 This query returns an amplitude of 123 4 in the adjusted dimension 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 49 User Manual SyCore 9 4 2 OSC AMPlitude ACCept With this command the acceptance mode for amplitude changes can be switched on off The acceptance mode determines whether an amplitud
82. ried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS PF Arguments Query only Return lt FLOATI gt Example meas pf Return 0 75 This query returns power factor 0 75 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 99 User Manual SyCore 9 6 7 MEAS UP With this command the voltage peak value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS UP Arguments Query only Return lt FLOATI gt Example meas up Return 325 000 This query returns a voltage value of 325p 9 6 8 MEAS IP With this command the current peak value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS IP Arguments Query only Return lt FLOATI gt Example meas ip Return 70 000 This query returns a current value of 70Ap 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 100 User Manual SyCore 9 6 9 MEAS CFU With this command the voltage crest factor value can be queried Execution time approx 200ms for the first query 20 ms for the following queries Default value None Group Measurement Syntax MEAS CFU Arguments Query only Return lt FLOAT1 gt Example
83. t for clearing the complete PCL Syntax OSC Page CLear Arguments None Examples osc page clear With this command all adjustments in the list are cleared 9 5 16 OSC Page PArameter With this command the content of a list cell can be read out 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 88 User Manual SyCore Syntax OSC Page PArameter lt INT1 gt Arguments lt INT1 gt List cell number Valid range 1 256 Return lt String gt Format TO TotalCycles ST Stop CY Cycles SI Size TR Trigger FR Frequency NU 1 Number P1 2 Number P2 3 Number P3 4 Number P4 AN 1 Angle P1 2 Angle P2 3 Angle P3 4 Angle P4 AM 1 Amplitude P1 2 Amplitude P2 3 Amplitude P3 4 Amplitude P4 Examples osc page parameter 1 Return TO 1 ST 0 CY 1 SI 1 TR 90 FR 50 NU 1 1 2 1 3 1 4 1 AN 1 0 2 120 3 240 4 0 NU 1 230 2 230 3 230 4 1 9 5 17 OSC Page PEriods With this command the frequency can be multiplied with the factor x in order to increase the maximum frequency range Syntax OSC Page PEriods lt INT1 gt Arguments lt INT1 gt Multiplication factor x valied factors 1 2 4 8 Example osc page periods 4 The maximum frequency is increased by the factor 4 Current maximum frequency range 2441Hz Increased maximum frequency range 9764Hz 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp
84. t for voltage and current is determined as follows U BEE I loa 1 T 0 0 AC DC mode D DDD LU I B Aii A Power 0 00 JU FF D DDD CF u CF 1 During the AC DC mode the direct component of a signal won t be decoupled The voltage and current value is determined like during the AC mode 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 23 User Manual SyCore 5 1 1 2 Peak Value U I and Crest Factor Measurement CF U CF I Peak mode D DDD LU I B AAi EI Power aaa Ju PF 6 aaa CF U B BAH CF I A Bee The peak value for voltage and current will be measured in the peak mode The crest factor for voltage and current is determined as follows U I CF erri CF U I At the peak value measurement the direct component of the measuring signal is not decoupled 5 1 1 3 Offset Compensation zero adjust U 6 AGAL I D 486A The DC offset of the measuring system will be compensated by this function For this the measuring inputs and or the measuring lines which go to the measuring object will have to be short circuited After pressing the key S4 0 off a window with the DC offset of the measuring system appears for approx 2s The offset compensation is active as soon as the window goes out and the position of the key TSA switches to 0 on During repeated operation of the key S4 the offset compensation switches off O off With the key TSO vie
85. tion 4 2 as well The first PCL list cell is used for the adjustment of the operation voltage the second for the rise Example with SPS Scriptmanager send 6 10 osc page clear send 6 10 0sc page cycles 1 1 send 6 10 0sc page amplitude 1 1 85 send 6 10 0sc page cycles 2 1 send 6 10 0sc page amplitude 2 1 93 7 send 6 10 0sc page stopnumber 1 send 6 10 0sc page totalcycles 1 send 6 10 0sc page go PCL clear List cell 1 output page 1x List cell 1 amplitude of phase 1 at 85 JO 270V range 230V List cell 2 output page 1x List cell 2 amplitude of phase 1 at 93 7 JIO 270V range 253V after run of the PCL List cell 1 is output output 1x PCL start PCL Because 230V should be output again after the cycle a stop number is defined here 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 92 User Manual SyCore Example 2 Generation of a ring waveform for 64k oscillator Duration one period 20ms First of all the following waveform has to be transferred into phase 2 page 17 Example in C Ieee SendString 6 DATA POINTER 1 32768 Set data destination at phase 2 Wait 10 Ieee SendString 6 DATA SIZE 2048 Set data size for 1K curve Wait 10 Ieee SendString 6 DATA SET Set transfer mode Wait 10 Ieee Transmit UNL UNT MTA LISTEN6 Address SyCore as Listener Wait 10 Ieee TransmitArray Value uint ActTransferPoints 2
86. tive Power 27 Reactive Power Value Query 100 Rear Panel 5 Remote Control 125 Repeats 65 75 80 Resistor Load 37 121 Rise Time 62 16 07 2013 E SYC V6 Udo User Manual SyCore Rise Time of a Frequency Pulse 72 RLoad Load 121 RNW Mode 120 RNW RI 120 S Safety 3 Set up 43 Shunt 139 140 Signal Representation 30 Softkeys 6 Source Pointer 129 Special Functions 18 Start Amplitude 59 Start Frequency of a Frequency Pulse 69 Starting of a Frequency Pulse 77 Starting of an Amplitude and Frequency Pulse 68 Starting of an Amplitude Pulse 67 Status 111 Status Amp 111 Status Curr 119 Status Sps 122 Supply 32 Synchronized Amplitude Phases 13 Synchronizing 14 55 T Technical Data 138 Time Base 31 Transportation Damage 3 Trigger 14 Trigger Adjustment 30 31 Trigger Angle 54 82 Trigger Input 136 Trigger Level 31 Trigger Pulse 123 V Version Number of the Firmware 43 Voltage Crest Factor Value Query 102 Voltage Peak Value Query 101 Voltage Value Query 98 W Waveform 20 Waveform Transfer 127 Spitzenberger amp Spies GmbH amp Co KG Page 143 User Manual SyCore 13 Annex 16 07 2013 E_SYC_ V6 11 doc Spitzenberger amp Spies GmbH amp Co KG Page 144
87. tput Return Mode String Examples rnw mode p5 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 119 User Manual SyCore 9 7 23 RLoad Load With this command the resistor load can be adjusted if available Execution time approx 200ms Default value 0W Group RLoad Syntax RLoad Load lt FLOAT1 gt RLoad Load Arguments lt FLOAT1 gt is the power of the switched on resistors referring to 230V Range 0 4000W internally rounded to 1000W Return lt FLOAT1 gt Adjusted power in Watt Examples rload load 2100 The power of the load resistor is adjusted to 2000W corresponds to approx 26 5 Ohm rload load Return 2000W 16 07 2013 E SYC Mn Udo Spitzenberger amp Spies GmbH amp Co KG Page 120 User Manual SyCore 9 8 Input Output Port optional 9 8 1 Status Sps With this command the outputs can be adjusted and the inputs at the socket SPS can be interrogated The output OUT1 is engaged for the oscilloscop trigger see section9 8 2 The inputs IN1 and IN2 are engaged as trigger inputs For releasing the input trigger the respective pin has to be pulled to GND Group Syntax Status Sps lt INT1 gt lt INT2 gt Status Sps lt INT1 gt Arguments lt INT1 gt is the number of the port 1 output port 2 Input port lt INT2 gt is the bit value 1 1 Output Pin 1 is engaged for the oscilloscope trigger 2 2 Output Pin 2 4 3 Out
88. w you have the capability to indicate the finally measured DC offset via a window which is faded in for approx 2s 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 24 User Manual SyCore 5 1 1 4 Averaging Factor D DDD LU I A AAi A Power 6 20 JH PF 4 HEE CF u CF 1 Four different averaging factors can be adjusted via the key TSA Accu These factors specify the number of measurements to be averaged before the right measuring value is indicated The higher the adjusted averaging factor the longer the measuring duration L Accu Low averaging via measurement N Accu Normal averaging via 8 measurements M Accu Middle averaging via 32 measurements H Accu High averaging via 128 measurements 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 25 User Manual SyCore 5 1 2 Power Measurement 5 1 2 1 Active Power P D DDD LU I B Aii EI Power A PF Baa CF U B GEE CF I A BRD Press the key S2 to select P 5 1 2 2 Apparent Power S egaa 1 aa Power SEE VA PF CF U EO Press the key S2 to select S 5 1 2 3 Reactive Power Q D DDD LU I B DDR EI Power var PF aaa CF U A BAH CF I A BEE Press the key S2 to select Q 16 07 2013 E SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 26 User Manual SyCore Power Factor PF 5 BAA i I E BRD A Power var P
89. ware Group Amplifier Syntax Conf Amp Range lt INT1 gt lt FLOAT1 gt lt LABEL1 gt Conf Amp Range Arguments lt INT1 gt is the range number lt FLOAT gt is the range end value lt LABEL I gt is the dimension of the range value Possible values V A Return Range limit value of the inividual values Examples conf amp range 1 270V This command adjusts a range value of 270V for range 1 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 108 User Manual SyCore 9 7 7 AMP Pulse The power supply of the amplifier can be switched to pulse operating voltage if available Execution time ca 20ms Default 0 Group Amplifier Syntax AMP Pulse 0 1 AMP Pulse Arguments 0 switches off the pulse operation 1 switches on the pulse operation Return Oor 1 Examples amp pulse 1 The pulse operation is switched on The pulse operation has to be reset manually Although the amplifier switches off the pulse operation automatically after approx 2 seconds voltage distortions are possible In any case a waiting period a few seconds is recommended to avoid overheating of the power supply 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 109 User Manual SyCore 9 7 5 AMP PAR The amplifier can be switched to parallel operation if available Execution time approx 10sec we recommend a 15 sec waiting period Default value 0 Reference
90. y 9 5 18 Measurement Description Command Section Active Measurement card Meas Use 9 6 14 Active power query MEAS POWer 9 6 3 Apparent power query MEAS S 9 6 4 Current crest factor query MEAS CFI 9 6 10 Current peak value query MEAS IP 9 6 8 Current value query MEAS CURRent 9 6 2 Frequency of the voltage query MEAS FREQuency 9 6 11 Measurement mode switching Conf Meas Mode 9 6 12 Measuring phase switching Conf Meas PH 9 6 13 Power factor query MEAS PF 9 6 6 Reactive power query MEAS Q 9 6 5 Voltage crest factor query MEAS CFU 9 6 9 Voltage peak value query MEAS UP 9 6 7 Voltage value query MEAS VOLTage 9 6 1 16 07 2013 E_SYC_V6_11 doc Spitzenberger amp Spies GmbH amp Co KG Page 46 User Manual SyCore Control Description Command Section Amplifier AMP ON 9 7 4 Amplifier AMP Power 9 7 5 Amplifier operation mode AMP Mode 9 7 3 Amplifier output AMP Output 9 7 1 Amplifier range AMP Range 9 7 2 Amplifier selection AMP USE 9 7 10 2 4 quadranten operation AMP Quadrants 9 7 11 Amplifier status Status Amp 9 7 9 Amplifier upper range values Conf Amp Range 9 7 6 Current limitation CURR Limitation Control 9 717 Current limitation current value CURR Limitation Level 9 7 19 Current limitation operation mode CURR Limitation Mode 9 7 18 Current limitation status Status Curr 9 7 20 Impe
91. yntax OSC APuls END lt FLOAT1 gt lt LABEL1 gt OSC APuls END Arguments Amplitude value and dimension see above Return lt FLOATI gt Examples osc apuls end 230V With this command the end amplitude is adjusted to 230V osc apuls end Return 230 This query returns an end amplitude of 230V 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 60 User Manual SyCore 9 4 13 OSC APuls RISET This command is required for adjustment and query of the rise time of an amplitude pulse see 4 4 1 Execution time approx 20ms Default value 1s Group Oscillator Syntax OSC APuls RISET lt FLOAT1 gt OSC APuls RISET Arguments lt FLOAT 1 gt is the time value in seconds Range 0 3600 Return lt FLOATI gt Examples osc apuls riset 0 With this command the rise time is adjusted to Os osc apuls riset Return 0 This query returns a rise time of Os 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 61 User Manual SyCore 9 4 14 OSC APuls DURAT This command is required for adjustment and query of the pulse duration of an amplitude pulse see 4 4 1 Execution time approx 20ms Default value Is Group Oscillator Syntax OSC APuls DURAT lt FLOAT1 gt OSC APuls DURAT Arguments lt FLOAT 1 gt is the time value in seconds Range 0 3600 Return lt FLOATI gt Examples osc apuls durat 0 02 With this command the
92. zau zte BR DO Go to Frequency with the cursor key set the frequency and press Enter The minimum and maximum possible frequency and the resolution are linked to the adjusted memory depth and phase number Closer information see section 4 7 4 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 13 User Manual SyCore 4 5 3 Trigger Synchronous Adder Multiplier Go to Trig Sync with the cursor keys and press Enter Trig Sync Add Mult E Eto Zunchren Pha Ph2 JD Add C Mult Ph3 dD Add Mult 4 5 3 1 Trigger Go to trigger with the cursor keys feed the trigger angle and press Enter The amplitude the phase angle as well as the amplitude pulse are set at the adjusted trigger angle The trigger angle refers to an internal virtual phase 0 4 5 3 2 Synchronizing Go to synchron with the cursor keys select in out or line and press Enter In the oscillator is synchronised with the synchronizing pulse of the other internal oscillator Out the oscillator sets the synchronizing pulse for the other internal oscillator Line the oscillator is synchronised with line signal only at option mains synchronous If several oscillators are available all oscillators are set to Line in this operation mode Line shall only be adjusted when the adjusted frequency of the oscillator corresponds to the mains frequency because the correction angle at 50Hz and or 60Hz refers always to
93. zenberger amp Spies GmbH amp Co KG Page 114 User Manual SyCore 9 7 15 IMP Harm Range This command switches the harmonics measurement range of the line impedance simulating network if available Execution time approx 200ms Default value 1 Group Impedance Syntax IMP Harm Range 1 2 3 4 5 6 Arguments 1 switch to 20A range 2 switch to 4A range 3 switch to 0 8A range 4 switch to 0 16A range 5 switch to 32A range 6 switch to 63A range Return Examples imp harm range 1 This command switches the harmonic measurement of the impedance to the 20A range 9 7 16 INRush Current Source This command switches the Inrush Current Source if available Execution time approx 200ms Default value 0 Group Inrush Current Source Syntax INRush Current Source 0 1 INRush Current Source Arguments 0 switch off the Inrush Current Source 1 switch on the Inrush Current Source Return 0 or 1 Examples inrush current souce 1 This command switches on the inrush current source 16 07 2013 E SYC V6 Udo Spitzenberger amp Spies GmbH amp Co KG Page 115 User Manual SyCore 9 7 17 CURR Limitation Control This command switches the current limitation if available Execution time approx 20ms Default value 0 Group Current limitation Syntax CURR Limitation Control 0 1 CURR Limitation Control Arguments 0 switch off the current limitation 1 switch on the current li
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