Reference Manual of K8016 & PCG10
Contents
1. PCG10 K8016 CHECK THE Pc Lab2000 GETTING STARTED GUIDE FOR SOFTWARE INSTALLATION Reference Manual E TIS S UME VELLEMAN instruments is a division of VELLEMAN Components NV Legen Heirweg 33 9890 Gavere Belgium Support amp updates http www Velleman be Velleman Instruments HPCG10 UK 2001 1 PCG10 K8016 a iil rm ri PCG10 K8016 Ne TRUMENTE FCC information for the USA This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference ina residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures e HReorient or relocate the receiving antenna e Increase the separation between the equipment and receiver e Connect the equipment into an outlet on a circuit different2. by point are written to the file This method is usable for complicated waveforms and for the waveforms extracted from the oscilloscope data files 2 Onlythe corner values of the waveform data are written to the file The software generates automatically the values between the corners This method is fast and easy way to generate waveform consisting of horizontal vertical or diagonal straight lines Below there are some example files and the corresponding waveform images In both cases the values are written on separate lines in the text file 10 erem Data formats In both cases the voltage values can be written in decimal or integer format In the decimal format 1 0 represents the negative peak voltage and 1 0 represents the positive peak voltage In integer format 0 represents the negative peak voltage and 255 represents the positive peak output voltage The software detects the data format as decimal if there is at least one decimal separator in the data file Both and dot are interpreted as decimal separators Writing the waveform file The data points in the waveform file make up one function generator output cycle There must be at least two data points in the wave data file Start and stop of the wave Two cycles of the wave are displayed The contents of the file 1 0 1 0 Adding the data points With additional points between the start and the stop points you can create corner
3. frequency range selected Repetition rate Noise frequency range ims 2kHz 16MHz 10ms 200Hz 1 6MHz 100ms 20Hz 160kHz 1s 2Hz 16kHz 10s 0 2Hz 1 6kHz 100s 0 02Hz 160Hz AR FR a PCG10 K8016 Setting the Frequency There are two alternative ways to set the output frequency 1 Move the track bar below the frequency display 2 Click the frequency display frame type the value and press the Enter key Setting the Output Voltage There are two alternative ways to set the output voltage and the offset 1 Move the track bar adjacent to the voltage display frame 2 Click the voltage display frame type the value and press the Enter key Output Filter The output of the generator is equipped with a low pass filter This filter is used to eliminate any imperfections and noise caused by the D A converter When generating user defined waveforms in LIB mode you can activate or deactivate the filter When generating the standard waveforms the filter is automatically set by default Editing and creating the waveform library file Library files Waveform library files are normal text files Files can be created and edited with standard text editors such as Notepad or Wordpad or with a spreadsheet such as Microsoft Excel Spreadsheet is useful when extracting the data from PC oscilloscope files Most of the files can be created and edited using this Wave Editor There are two methods to construct the waveform file 1 Alldata values point
4. ame ramp dn lib The contents of the file 1 0 1 0 Triangle wave with skew File name tri skw lib rT TL FL ty The contents of the file IAS 1 0 Triangle wave File name tri1 lib The contents of the file 1 0 1 0 1 0 Trapezoidal wave File name trap1 lib The contents of the file 1 0 1000 0 0 5 1000 1 0 13 INSTRUMENTS PCG10 K8016 Sawtooth wave File name saw1 lib The contents of the file 1 0 10 10 1 0 Stairs The contents of the file Pulses of different amplitude File name pulses1 lib 14 PCG10 K8016 Sine wave File name sine1 lib Sine burst File name burst01 lib PT TAAL LL FAM Rectangular pulse File name rect1 lib The contents of the file 0 00 0 31 0 31 0 59 0 59 0 81 0 81 0 95 0 95 1 00 1 00 0 95 0 95 0 81 0 81 0 59 0 59 0 31 0 31 0 00 0 00 The contents of the file 0 00 21 0 31 0 31 0 59 0 59 0 81 0 81 0 95 0 95 1 00 1 00 0 95 0 95 0 81 0 81 0 59 0 59 0 31 0 31 0 00 0 00 The contents of the file 1 0 1000 0 1 0 100 linet ju 57 oe E 15 Menu Options File menu Exit Terminates the program Options menu Hide Oscilloscope Hides oscilloscope s control panel Fine Tune Allows to set a 5 level adjustment to the output voltage and 120mV adjustm
5. ditor SAW1 LIB Sawtooth wave SINE1 LIB Sine wave Only 21 data points STAIRS1 LIB Stairs Stairs wave TRAP1 LIB Trapezoidal wave SKW LIB Triangle wave with skew TRIH LIB Triangle wave 8 10 8016 i There are also following sample files on the disk PIANO1 LIB Piano sound SAMPLE_1 LIB Song sample Listen on 1Hz range at 0 1Hz frequency The library file is a text file including 2 to 32000 points of waveform data The data is entered either in floating point format or integer format The data range for floating point format is 1 0 to 1 0 and for integer format 0 to 255 Entered values are separated by line feed In this mode you can activate or deactivate the low pass filter of the generator output Sweep Generator You can enter the Start and Stop frequencies The sweep ranges are indicated on the buttons The sweep repetition rate is proportional to the sweep frequency range selected Sync output supplies a high going pulse at the start of each sweep This pulse is useful for triggering scopes or other equipment at the start of each Sweep Repetition rate Sweep range 1115 1kHz 1MHz 10ms 100Hz 5kHz 100ms 10Hz 500Hz 1s 1Hz 50Hz 10s 0 1Hz 5Hz 100s 0 01Hz 0 5Hz Noise Generator In this mode the generator output is a noise sequence The peak amplitude is equal to the Amplitude Vpp value The amplitude of the signal is Gaussian distributed The sequence repetition rate is proportional to the noise
6. e chained with Velleman PC oscilloscopes to the same PC printer port LPT1 2 or 3 Specifications e Power supply Standard 12V DC adapter 800mA PS1208 e Direct Digital wave synthesis DDS 32K wave table e Frequency setting resolution 0 01 e Amplitude range 100mVpp to 10Vpp 600 Ohm load e Amplitude resolution 0 496 of full scale e Offset from 0 to 5V or 5V max resolution 0 4 of full scale e Vertical resolution 8 bits 0 496 of full scale e Maximum sample rate 32MHz e Typical sine wave distortion THD 0 08 with OdB and 100 Khz 1v RMS e Output impedance 50 Ohm e Dimensions wxdxh 235x165x47mm 9 3 x6 5 x1 9 system requirements IBM compatible PC Windows 95 98 ME Win2000 or NT possible SVGA display card min 800x600 mouse free printer port LPT1 LPT2 or LPT3 CD Rom player Options e Soft carry case GIP PCG10 8016 itn SAFETY and WARNINGS Symbols displayed on the unit CEA Important safety information see user manual The PCG10 K8016 is optically isolated from the PC but even then it is advisable to use only on safe devices Measurements should be avoided in case of polluted or very humid air Before making measurements and for safety reasons it is important to know some information about the measured unit Safe devices are e Battery operated equipment e Equipment supplied via a transformer or adapter Unsafe devices are e Eq
7. e following selections on the Bode Plotter interface e Select proper Frequency Range e Select proper Frequency Start e Click the Start button The frequency response graph will be plotted on the screen You can take a look to the oscilloscope display to see the amplifier output waveform If the graph is too low position or partly out of the display area change the V Range or oscilloscope s Volts div setting so that the graph is at the desired vertical position on the screen and click the Start button again You can afterwards change the display mode frequency scale and the voltage scale V Range to survey the details of the graph Note Pay careful attention to the input and output signal levels of the amplifier to get correct test results PCG10 and K8016 generators can output 0 1V to 10V peak to peak signal If high sensitivity phono inputs are being tested an extra voltage divider potentiometer should be used to connect the signal to the amplifier input The maximum signal amplitude that can be plotted to the graph is 10Vrms Use the probe s attenuator position x10 or some other means to bring the maximum expected level below 10Vrms 17 ota Kl Coa i ee Aedes PCG10 K8016 Display mode The magnitude can be expressed either in volts or in decibels There are four vertical scale display modes Volts RMS 10dB div 5dB div and 1dB div Horizontal scale can be either logarithmic or linear In linear mode it is pos
8. e oscilloscope s input switch to AC position e Adjust the scope s trace to the middle of the screen Note When oscilloscope s input switch is in AC position there is attenuation at frequencies below 5Hz For the tests at low frequencies use DC coupling and be aware of the possible oscilloscope display overdrive at the most sensitive Volt DIV ranges Show Multiple Traces This option allows you to display many traces on the same graph You can even change the frequency scale between the measurements Frequency Step Size This option allows the change of the frequency step size The size can be set in 9o of the default step size The default step is equal to the Start frequency if the checkbox Log Freq Step is not checked and equal to the first frequency of each decade if the checkbox is checked Wait Time Use this option to add a delay of 1s to 10s before the RMS value is measured at each frequency Delay may be needed for circuit stabilization 19 4 ET TOT Aes 1 0 80 6 Colors Select the color for various items on the waveform display To change the color of an item click the corresponding button This will open a dialog in which you can select the new color Colors of Multiple Traces Use this option to change the trace colors when Multiple Trace Mode is selected View Menu Markers Marker function for absolute and relative voltage measurement is provided The absolute voltage level in dBV or
9. ent to the offset voltage when the square wave output mode is selected Tools menu Wave Editor Opens the waveform data editor Bode Plotter Starts the Circuit Analyzer for frequency response measurements Help menu Contents Displays this help file About Displays information of the program version 16 Phrases PCG10 8016 5 INETALIMEM TE Circuit Analyzer as a Bode Plotter Bode Plotter enables you to evaluate the frequency response of devices such as amplifiers and filters The frequency response is a representation of the device s output response to sinusoidal input voltage at varying frequencies The device under test is connected between the signal output of the function generator PCG10 or K8016 and the CH1 input of the oscilloscope PCS500 PC S100 or K8031 The function generator automatically steps a sine wave over a specified frequency range and the oscilloscope measures the output voltage of the device under test at each step These readings are plotted to the frequency response curve on the screen Operation of the Bode Plotter Assume that you want to measure the frequency response of an amplifier Connect the function generator signal output to the input of the amplifier Set proper output voltage to the generator e g 1 Vpp Connect the output of the amplifier to CH1 input of the oscilloscope Click oscilloscope s Run button and adjust the Y position until the trace is in the middle of the screen Mak
10. from that to which the receiver is connected e Consult the dealer or an experienced radio TV technician for help Important This equipment was tested for FCC compliance under conditions that include the use of shielded test leads between it and the peripherals It is important that you use shielded cables and connectors to reduce the possibility of causing Radio and Television interference Shielded probes suitable for the PCG10 unit can be obtained from the authorized Velleman dealer If the user modifies the PCG10 unit or its connections in any way and these modifications are not approved by Velleman the FCC may withdraw the user s right to operate the equipment The following booklet prepared by the Federal Communications Commission may be of help How to identify and Resolve Radio TV Interference problems This booklet is available from the US Government Printing Office Washington DC20402 Stock No 044 000 00345 4 PCG10 K8016 Features Frequency range from 0 01Hz to 1 MHz v1 Crystal based stability Optically isolated from the PC V Low sine wave distortion V TTL level synchronization output V Stores up to 32K of waveform points Standard waveforms Sine Square and Triangle Predefined library waveforms included Noise Sweep Extended bode plot option together with PC scope V You can create your own waveforms with the integrated signal wave editor V Can b
11. he repair will not be reimbursed by VELLEMAN Components VELLEMAN Components will not be held responsible for any damages caused by the malfunctioning of a unit 22
12. s to the wave All data values are equally spaced in time Any number of data points up to 32000 can be added to the file to get the desired shape of the wave The contents of the file 1 0 0 0 0 5 0 7 0 8 0 9 1 0 11 fa ie Repeating the same data value If you like to repeat same data value for consecutive data points you can type the value only once and type parenthesis on the same line the count how many times the value is repeated FPE ee 1 The contents of the file LL LL LL LLLI 0 0 1 0 0 0 10 1 0 0 0 Increasing the space between the data points In normal case the data points are connected with diagonal or horizontal lines together All the data points are equally distributed over the wave period If you like to increase the distance between two data points you can type the distance in parenthesis on separate line between the data values EPHE The contents of the file PEt LLL LLLI 1 0 3 10 1 0 3 Removing diagonal line between the data points To get fast edges to the wave you can prevent the software from connecting the consecutive data points with a diagonal line To do this write 0 on separate line between the data values The data points are connected with rectangular line going immediately to the level of the next data value The contents of the file 12 10 8016 AN Sample files included on the disk Ramp down File n
13. sible start the measurement from DC 0Hz Frequency stepping There are two alternative stepping modes logarithmic and linear If the checkbox Log Freq Steps is checked the frequency step is at the first decade equal to the start frequency and on the next decades equal to the first frequency of the decade If the checkbox is not checked the frequency step is equal to the start frequency It is possible change the frequency step on the fly by selecting the Options menu item Frequency Step Size 18 ota ele PCG10 K8016 5 INETALIMEM TE Menu options File Menu Save Open modes The graph can be saved and opened either as a bitmap image or as a data The saved data can be afterwards retrieved for further examination Select Multiple Trace Mode from Options menu if the saved data contains more than one trace In this mode it is possible to continue the measurements The new trace data will be appended to the retrieved data The bitmap image can only be viewed as is Edit Menu Copy Copies the image to the Windows clipboard Paste Pastes the image residing in Windows clipboard to the screen Options Menu Automatic Voltage Scale When this option is selected the oscilloscope automatically changes the voltage scale if the input signal is too low or too high To avoid oscilloscope s voltage scale overdrive by DC it is good to do the following operations before the start of the measurements e Turn th
14. the voltage difference in decibels dB can be measured One vertical marker is provided for the frequency measurement Moving the markers Place the mouse pointer over a dashed marker line Press and hold the left mouse button The marker line turns solid Drag the marker to the appropriate position 20 tn Troubleshooting The Power LED is not ON No communication with the computer check that the cable is connected to parallel printer port LPT Check the printer port setting in the BIOS SETUP of the computer Select standard parallel port mode SPP also named compatible mode or Centronics mode No output signal Ready LED on the front panel is out No wave form is selected select a waveform If the above tips have no effect then test on a different computer or replace the printer port card 21 Ossie t0 8016 WARRANTY This product is guaranteed against defects in components and construction from the moment it is purchased and for a period of ONE YEAR starting from the date of sale This guarantee is only valid if the unit is submitted together with the original purchase invoice VELLEMAN Components limits its responsibility to the reparation of defects or as VELLEMAN Components deems necessary to the replacement or reparation of defective components Costs and risks connected to the transport removal or placement of the product or any other costs directly or indirectly connected to t
15. uipment directly connected to mains e g old TV sets e Equipment that contains components that are directly connected to mains e 115 advisable when measuring on above equipment to use a isolation transformer Use of unsafe devices can result in damage to the generator circuit PCG10 K8016 CONNECTIONS Survey of the connections and controls 1 BNC signal output connector 50ohm max 10Vpp 2 BNC external trigger output TTL level 3 Output ready LED indicates if output signal is present 4 Power indication LED software driven 5 Adapter connection observe the polarity 6 Parallel port connector to computer 7 Parallel pass through connector for optional PC scope PCS500 PCS100 K8031 The unit is connected to the printer port LPT of the computer using a standard 25P male female parallel cable pecio ksois O O OoOo o O Connection Connect the unit to the printer port LPT1 LPT2 or LPT3 A Velleman PC scope can be connected to the To PC Scope connector To select the LPT port address click Hardware Setup on Options menu of the oscilloscope window or run Pc Lab2000 software Connect the mains voltage DC adapter to the unit 12VDC 800mA pin positive ATTENTION Only use adapter with correct voltage otherwise the unit could be damaged Using a wrong power supply could blow the internal fuse The fuse is soldered onto the PCB please contact an experienced ser
16. vice center to replace the fuse The best way is to cut the leads of the fuse and to solder new 1 PICO fuse onto the old leads After starting the software see also getting started manual the LED on the front panel should lid 0 0 6 SOFTWARE CONTROLS e Remark Due to software upgrades the actual menus can differ from the ones described in this manual please also refer to the Help file English only Function Generator Mode Four standard waveforms and DC are included Sine Square Triangle Sine x x Each of these waveforms is generated using Direct Digital Synthesis to insure very low noise and low output distortion Direct digital synthesis DDS enables 5 digit frequency resolution The output signal is smoothed by alow pass filter Library Functions LIB This mode can be found by clicking the More Funct button and then the LIB button A set of library waveform files are included on the disk Waveforms of 32000 data points File name Description BURST1 LIB Sine burst 1 cycle BURST2 LIB Sine burst 2 cycles DAMP_WAV LIB Damping wave EXP_DEC LIB Exponential decay EXP_INC LIB Exponential rise GAUSSIAN LIB Gaussian pulse RAMP_DN LIB Ramp down RAMP_UP LIB Ramp up Following files are easy to modify with Wave Editor BURST01 LIB Sine burst Only 21 data points PULSES1 LIB Pulses of different amplitude RECT1 LIB Rectangular pulse Easy to change duty cycle with Wave E
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