Manual - Test Equipment Depot
Contents
1. AMPLITUDE CONTROL PUSH IN Counter PUSH OUT Internal Frequency Counter Frequency Range Selector Select Sine wave Triangle Wave Or Square Wave Output Selects Output Level By 20 dB Gate Time Is Selected Automatically By Input Signal Controls Output Frequency In Selected Range Indicates Unit Of Frequency Used As An External Frequency Counter On Off Switch For Internal Sweep Generator Adjusts Sweep Rate Of Internal Sweep Generator Pullout And Adjusts Magnitude Of Sweep Voltage Controlled Frequency Input Permits External Sweep Frequency Control Sweep Rate Control Should Be Off When Applying External Voltage At This BNC Adjust Symmetry Of Output Waveform 1 1 to 10 1 With Push Pull Switch On Selects TTL Or CMOS Mode Pull out CMOS Level Control Push In TTL Level TTL CMOS Level Output Adds Positive Or Negative DC Component To Output Signal Impedance 50 Ohm Adjusts Output Level From 0 TO 20 dB External Frequency Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com TILT STAND Pull Out To Adjust Tilt POWER SWITCH Push type switch turning on the power when pressed VOLTAGE SELECTOR 115V l 230V USE FUSE Made in Korea 22 21 FIG 2 REAR PANEL 2 FUSE HOLDER Replacing fuse with unscrewing 22 AC INLET For connection of the supplied AC power 3 2 Operating i2. 5 6 Testing Speakers And Impedance Networks Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 28 Frequencies can be switched electronically by using the set up shown in FIG 9 The preset voltages can be digitally selected and applied to the VCF IN BNC Although provision for two frequencies are shown additional frequencies can be added using redundant circuits This is convenient in frequency shift keying FSK systems TO VCF FIN ADJUST FOR FRONT PANEL FREQUENCY 1 OUTPUT 4 7K 10K OFF Lowi lt 4 H FIG 9 DIGITALLY PROGRAMMED FREQUENCY SELECTION 5 8 Additional Applications The triangle or ramp output of this instrument can be used at its lowest frequencies to simulate a slowly varying DC source This can be used to check threshold levels of TTL and CMOS logic as well as voltage compactors can be exercised from zero to full scale to observe defective deflection such as sticky meter movements Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 30
3. Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 18 in Use as FM Signal Generator paragraph B Applying a specific fixed DC voltage will produce a specific output frequency described in following Programmed Frequency Selection paragraph C Applying a ramp voltage or other type waveform if desired provides externally controlled sweep generator operation described in following Use as Externally Controlled Sweep Generator paragraph The following consideration apply to all modes of operation involving external control of the VCF voltage controlled frequency A The output frequency of generator is determined by the voltage applied to the VCF First of all this voltage is established by the setting of the FREQ dial Any voltage input drives the VCF TO A HIGHER FREQUENCY However The VCF can never be driven beyond its range limits the highest and lowest frequencies that can be attained with the dial on a given range B With the FREQ dial set at minimum 0 02 and 0 volts at the VCF in BNC the generator output frequency is at the lower limit of the selected range Increasing the voltage to 10 volts drives the generator frequency to the upper limit of the range Between 0 and 10 Volts the generator output frequency is proportional to the VCF IN voltage The VCF IN voltage can be correlated to equivalent dial settings as given in Table below
4. The standard sinewave frequency reopens curves do not give a full evaluation of the amplifier transient response the square wave because of the high harmonic content yields much information regarding amplifier performance when used in conjunction with an oscilloscope A Use the test set up of FIG 7 The 500 termination at the amplifier input is essential when using square waves to eliminate the ringing effects generated by the fast rise times B Using the triangle output set the AMPLITUDE control so that there is no signal clipping over the range of frequencies to be used Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 25 B Select the square wave output and adjust the frequency to several check points within the pass band of the amplifier such as 20 Hz 1000 Hz and 10 KHz C At each frequency checkpoint the waveform obtained at the amplifier output provides information regarding amplifier performance with respect to the frequency of square wave input FIG 7 indicates the possible waveforms obtained at the amplifier output Square wave evaluation is not practical for narrow band amplifiers The restricted bandwidth of the amplifier cannot reproduce all frequency components of the square wave in the proper phase and amplitude relationships Square Wave Selected Dual Trace Oscilloscope Preferred Test Equipment Depot 800 517 8431 99 Washin
5. com 5 Sine wave Flatness E 2 5V to 2 MHz Distortion Less than 1 at 0 2 Hz to 100 KHz Square wave Rise and Fall Time Less than 120 nS Triangle wave Linearity More than 99 at 0 2 Hz to 100 KHz TTL Output Rise and Fall time Less than 25 nS Output Level TTL Level H 2 4V LS 0 4V CMOS Output Rise and Fall Time Less than 140 nS Max Out Output Level 4V to 15V 1V Variable DUTY RATIO 1 1to 10 1 m SWEEP FUNCTION CHARACTERISTICS Mode Linear Width Variable from 1 1 to 100 1 Rate 0 5 Hz to 50 Hz 20 mS to 2 S External VCF Input Input Voltage 0 to 10 V Input Impedance Approx 10 KQ m FREQUENCY COUNTER CHARACTERISTICS Display 6 digit green LED Gate time MHz KHz Hz mHz Frequency Range 200 mHz to 50 MHz With Auto Range Accuracy Time base Error 1 count Time base 10 MHZ Input Sensitivity 100 mVrms Max Input Voltage 250 Vpp m DIMENSION AND WEIGHT Dimension 255 W x 255 D x90 H mm Weight Approx 2 0Kg 1 3 Equipment Ratings eo Power AC 230V 115V 50 60 Hz 15W Plug and Socket 3 wire ac power plug and 3 wire outlet Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 6 e Fuse 200mA 250V F Type e Operating Environment TEMPERATURE 0 Cto 40 C HUMIDITY up to 85 to 40 C without temperature extremes causing condensation within the instrument Storage Environment TEM
6. j 5V Output Terminated In 500 Positive Nagathe DC Offset DC Offset FIG 4 USE OF DC OFFSET CONTROL D The main output BNC is labeled 50Q This means that the source impedance is 50Q but the output may be fed into any circuit impedance However the output level varies in proportion to the terminating impedance If it is desired to maintain a constant output level while injecting signal into various circuits with various impedance a constant terminating impedance is necessary When the Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 13 generator output is connected to a coaxial connector on the equipment under test it usually moderate to high impedance A reasonably constant terminating impedance may be maintained while injecting signal into moderate and high impedance circuits 500Q and up by adding a coaxial tee in the output cable and connecting a 500 termination to one leg Remove the 50Q termination when injecting into a 50Q circuit Also keep DC injection point the DC offset should be set to match the circuit voltage or blocking capacitor may be required to avoid DC loading with 500 E When using the higher output frequencies and when using the square wave output terminate the cable in 500 to minimize ringing Keep the cables as short as possible F To set output amplitude to a specific level measure peak to peak amplitude on an oscillos
7. Adjust the shorter duration portion of the waveform pulse width for pulse fall time for ramp waves with the frequency controls FREQ dial and RANGE switch b Adjust the longer duration portion of the waveform rest time for pulses rise time for ramp waves with the SYMMETRY control D If a specific pulse width specific fall time for ramp wave is not critical ae in rails IS Esquire ter dd waveform may be obtained as CMOS ery a ObsEWE4RG Wavilloscope and adjust the SYMMETRY control to obtain the approximate dasne tpufsentyidth vs rest time ratio rise time vs fall time ratio for ramp waves b Adjust the repetition rate with the frequency controls FREQ dial and RANGE switch the frequency controls affect both the pulse width and repetition rate Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 15 2 Considerations A When generating ramp waves or skewed sine waves it may be easier to measure the time periods on oscilloscope using the square wave mode then switch to the desired operating mode B For ease and accuracy in measurement use a higher sweep speed on the oscilloscope to expand the pulse width for measurement then reduce sweep speed to measure the repetition rate C Repetition rate may be expressed as a frequency or time period Measure the repetition rate as a time period on oscilloscope and convert to frequency if required The repetition
8. Connect a variable resistor in series with the impedance network as shown in FIG 8 2 Measure the voltage at points E1 and E2 respectively and adjust variable resistor R1 so that voltage E2 equals one half of voltage E1 5 7 Digital Frequency Selection Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 29 CAUTION MAKE SURE THAT THE RATED AND SPECIFIED FUSES ARE USED FOR REPLACEMENT 4 2 Adjustment and calibration It is recommendable to regularly adjust and calibrate this instrument Qualified and authorized personnel only should execute performance and procedures 4 3 Cleaning and decontamination The instrument can be cleaned with a soft clean cloth to remove any oil grease or grime Never use liquid solvents or detergents If the instrument gets wet for any reason dry the instrument using low pressure clean air at less than 25 PSI Use care and caution around the window cover areas where water or air could enter into the instrument while drying 5 OTHERS 5 1 Introduction Because of the great versatility of this Sweep Function Generator it would be impossible to include all of its possible applications in this manual However many of the primary applications are described in detail to allow the user to adapt the procedures to other applications The instrument has vast numbers of applications as a Signal source in electronics design labs classro
9. VCF voltage Equivalent dial Setting 0 1 2 3 4 5 6 7 8 9 10 Correlation between VCF IN voltage and equivalent dial setting dial set to 0 02 C The FREQ dial is usually set to 0 02 when using external VCF control This reduces the dialed VCF voltage to zero and allows the external VCF voltage to exercise complete control It also reduces the effects of dial setting inaccuracy D If the summed dial setting and VCF IN voltage exceeds 10 volts oscillation ceases and no output is produced If the swing of the VCF IN signal is Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 19 too great oscillation will cease each time the instantaneous voltage reaches the limit 3 8 Programmed Frequency Selection A specific output frequency can be selected each time a specific VCF input voltage is applied assuming a common dial setting Such operation may be advantageous where there is a requirement to return to a specific frequency periodically Eliminating the need for frequency measurement reduces set up time and precision tuning each time frequency is needed Just set the dial against its lower stop and turn on the external VCF voltage Using multiple DC voltage values which may be selected by a switch or electronic switching circuits may program a set of two or more specific frequencies This type of operation would be desirable in production testing wher
10. or 5 volts into 50Q load Remember that the combined signal swing plus DC offset is also limited to 10 V open circuited or 5 V into 50Q Clipping occurs slightly next page these levels FIG 4 illustrates the various operating conditions encountered when using DC offset If the desired output signal is large or if a large DC offset is used an oscilloscope should be used to make sure that the desired Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 12 combination is obtained without clipping Keeping the Amplitude control in the lower half of its adjustment range reduces the probability of clipping B To set the DC offset to zero or a specific DC voltage depress the Function Switches slightly so that all switches are released all buttons out This removes signal from the output and leaves the DC only Measure the DC output on an oscilloscope or DC voltmeter and adjust the DC offset control for the desired value C It is easier to accurately set the FREQ dial if settings between 0 1 and 2 0 are used Since the dial rotation overlaps ranges it is not usually necessary to use readings below 1 Just change to a lower range and use a higher dial setting 5V A Zero DC Offset With Maximum Signal ON 5V B Offset Limits TaN Without Clipping oV 5V Positive Negative DC Offset DC Offset C Excessive Offset 5V 7 a O a al All Example ov A Ae N o
11. rate includes the full cycle both the pulse width and rest time for pulses the rise time and fall time for ramp waves D Repetition rate can be measured accurately and easily as a frequency or time period with a frequency counter E Pulse width also can be measured on a frequency counter but only with the SYMMETRY control set off before the pulse waveform is stretched Pulse width equals one half the time period of the square wave If the counter is not equipped for period measurement calculate the frequency which is equivalent to the desired pulse width and measure the frequency of the waveform 4 DESIRED PULSE WIDTH x 2 DESIRED FREQUENCY 3 5 TTL CMOS OUTPUT TTL CMOS output is specifically designed for compatibility with TTL CMOS digital logic circuits Set up time is considerably reduced because the fixed logic levels and polarity are ready for direct injection into TTL CMOS circuits there is a need for protection from accidental Application of too high amplitude or incorrect DC offset which might damage semiconductors Another advantage is the extremely fast rise time and fall time of signal To use the TTL CMOS output connect a cable from TTL CMOS BNC on the Front panel to the point at which it is desired to inject the signal TL CMOS output may be used in several modes of operation Some examples follow Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipment
12. 0 6K A FREQ dial setting of 2 0 and a Range switch setting of 1M produces 2 MHz output 2 0x1M 2M E And also it can display the desired frequency by 6 digit LED display F Select sine square or triangle wave output by pressing the corresponding FUNCTION button FIG 3 illustrates the output waveforms and their phase relationships G Connect a cable from the 50Q BNC to the point where it is desired to inject the signal H Adjust the 50 output to the desired amplitude with the AMPLITUDE control Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 11 TIL Pulse ovl J L Triangle OV BON yy Sine OV Laar N ia A a E Square ov FIG 3 OUTPUT WAVEFORMS AND PHASE RELATIONSHIPS A positive or negative DC component can be added to the signal at the 500 BNC by use of the DC OFFSET control as required by the circuit into which the signal is being injected J A fixed amplitude TTL square wave is available at the TTL OUT BNC on the front panel This signal is unaffected by the AMPLITUDE ATTENUATOR or DC OFFSET TTL output is a square wave for use in digital circuits even though FUNCTION SWITCH is on sine or triangle wave 2 Considerations CAUTION KNOWLEDGE OF THE FOLLOWING FACTORS IS ESSENTIAL FOR PROPER OPERATION OF THE INSTRUMENT A The DC offset control can provide over 10 volts open circuited
13. 30V IN CASE OF AC115V SWITCH SHOULD BE SELECTED DOWN TO 115V POSITION 2 3 Cooling And Ventilation No special cooling and ventilation is required However the instrument should be operated where the ambient temperature is maintained 2 4 Position This instrument is built as a bench type instrument with rubber feet and tilt stand in place Stand up angle can be adjusted by rotating angle of carrying handle 2 5 WARMING UP Allow more than 20 minutes for the unit to warm up so that it is stabilized and ready for use 3 OPERATION 3 1 Controls indicators and connectors 12 7 10 11 13 1 44 16 6 8 FG 7002C OV MAX SWEEP FUNCTION GENERATOR EXT COUNTER IN vol IN i EA home lm Am gt A MHz KHz BEz WIDTHCPULL mupus FSET PUL FIG 1 FRONT PANEL OPERATOR S CONTROLS LED DISPLAY Displays Internal Or External A OAA Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 8 INTERNAL EXTERNAL SWITCH RANGE SWITCHES FUNCTION SWITCHES ATTENUATOR GATE TIME INDICATOR FREQUENCY DIAL MHz KHz Hz mHz INDICATOR EXTERNAL COUNTER INPUT BNC SWEEP RATE CONTROL SWEEP WIDTH CONTROL VCF INPUT BNC SYMMETRY CONTROL TTL CMOS CONTROL TTL CMOS OUTPUT BNC 9 DC OFFSET CONTROLS MAIN OUTPUT BNC
14. Depot com 16 A Using the square wave generator or pulse generator modes clock pulses can be generated for testing troubleshooting or circuit analysis The instrument could even be used as a substitute master clock generator as TTL CMOS circuits can be driven from the TTL CMOS BNC B The CMOS Level Control potentiometer pull out position provides CMOS level output from 5V to 15V Variable and Continuously For TTL CMOS output level Rotate the potentiometer switch and Observe the TTL or CMOS output Push in is TTL Pull out is CMOS 3 6 Use As FM Signal Generator 1 Procedure A Set up equipment as described for function generator operation Use the frequency and amplitude controls to set the carrier to the desired frequency and amplitude B Connect an AC modulating signal with no DC component to the VCF IN BNC on the front panel of generator C Adjust amplitude of the AC modulating signal for the desired frequency deviation 2 Considerations A The approximate frequency deviation for a given VCF IN signal can be determined as follows The 0 1 V change at the VCF IN BNC produces a frequency change of 1 of the highest frequency obtainable on a given range For example the highest frequency obtainable on the 100 K range is 200 KHz One percent of 200 KHz equals 2 KHz Therefore 0 1 V change at the VCF IN BNC will deviate the output frequency 2 KHz on the 100K range Following table summarizes the frequency deviation ver
15. Hz of external frequency E PUSHED IN FREQ RANGE S W X1 Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 21 CAUTION 1 APPLICATION OF INPUT VOLTAGES HIGHER THAN THE LIMITS LISTED IN THE SPECIFICATIONS SECTION MAY DAMAGE THE COUNTER BEFORE APPLYING ANY SIGNAL TO THE INPUTS MAKE CERTAIN THAT IT DOES NOT EXCEED THESE SPECIFIED MAXIMUMS 2 FREQUENCY COUNTER GROUND POINTS ARE CONNECTED DIRECTLY TO EARTH GROUND ALWAYS CONNECT FREQUENCY COUNTER GROUND ONLY TO GROUND POINTS IN THE CIRCUIT UNDER TES 4 MAINTENANCE CAUTION IT IS ESSENTIAL FOR SAFETY TO PROPERLY MAINTAIN AND SERVICE THIS INSTRUMENT WARNING VOLTAGES WITHIN THIS INSTRUMENT ARE SUFFICIENTLY HIGH TO ENDANGER LIFE COVERS MUST NOT BE REMOVED EXCEPT BY PERSONS QUALIFIED AND AUTHORIZED TO DO SO AND THESE PERSONS SHOULD ALWAYS TAKE EXTREME CARE ONCE THE COVERS HAVE BEEN REMOVED 4 1 Fuse replacement Disconnect and remove all connections from any live power source Unscrew fuse holder by screw driver Locate the defective fuse and remove it by gently pulling out Install a new fuse of the SAME SIZE AND RATING Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 22 This instrument can be used to provide information regarding the input impedance of a speaker or any other impedance network vs frequency In addition th
16. PERATURE 20 Cto 70 C HUMIDITY below 85 RH Insulation Category II Portable equipment of local level e Pollution Degree 2 e Protection to IEC 529 Ordinary 1 4 Supplied Accessories e Users Manual 1 BNC Cable 1 Power Cord 1 Spare FUSE 1 specifications are subject to change without notice 2 INSTALLATION 2 1 Initial Inspection This instrument was carefully inspected both mechanically and electrically before shipment lt should be physically free of damage To confirm this the instrument should be inspected for physical damage in transit Also check for supplied accessories 2 2 Connecting AC Power This instrument requires AC 230V 115V 50 60Hz power through 3 conductor ac power cable to be fit into three contact electrical outlet to secure grounding If forced to use 2 conductor cable use ground terminal in rear panel for grounding instrument Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 7 CAUTION THIS INSTRUMENT IS SET TO AC 230V BEFORE POWERING ON THIS INSTRUMENT MAKE SURE THE VOLTAGE OF THE POWER SOURCE IS AC 2
17. PULSE GENERATOR and a FREQUENCY COUNTER offering a wide range of applications in both analog and digital electronics such as engineering manufacturing servicing education and hobbyist fields VCF voltage controlled frequency produces precision sine square and triangle waves over the 0 02 Hz to 2 MHz for sub audible audio ultrasonic and RF applications A continuously variable DC offset allows the output to be injected directly into circuits at the correct bias level Variable symmetry of the output waveforms converts the instrument to a pulse generator capable of generating rectangular waves or pulses ramp or sawtooth waves and skewed sine waves of variable duty cycle The sweep generator offers linear sweep with variable sweep rate and sweep width up to 100 1 frequency change The frequency response of any active or passive device up to 2 MHz can be determined 1 2 Technical Specifications m OUTPUT CHARACTERISTICS Waveforms Sine Square Triangle Ramp Pulse Sawtooth TTL CMOS Leveled Square DC Frequency Range 0 02 Hz to 2 MHz in 7 Range 1 10 100 1K 10K 100K 1M Frequency Accuracy 5 1 10 100 1K 10K 100K 1MHz Range Full Scale Output Level 20 Vpp in open circuit 10 Vpp into 50 Q Load Output Impedance 50 Q 5 Attenuator 20 dB fixed and continuously variable m WAVEFORM CHARACTERISTICS Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot
18. Test Equipment 99 Washington Street Depot Melrose MA 02176 Fax 781 665 0780 1 800 517 8431 TestEquipmentDepot com FG 7002C Sweep Function Generator Operation Manual 2 EZ Digital Co Ltd WARRANTY Warranty service covers a period of one year from the date of original purchase In case of technical failure within one year our service center or sales outlet free of charge will provide repair service We charge customers for repair after the one year warranty period has been expired Provided that against any failure resulted from the user s negligence natural disaster or accident we charge you for repairs regardless of the warranty period For more professional repair service be sure to contact our service center or sales outlet Introduction Thank you for purchasing a EZ product Electronic measuring instruments produced by EZ Digital are high technology products made under strict quality control We guarantee their exceptional precision and utmost reliability For proper use of the product please read this operation manual carefully Note 1 To fully maintain the precision and reliability of the product use it within the range of standard setting temperature 10 C 35 C humidity 45 85 2 After turning of power please allow a pre heating period of as long as some 10 minutes before use 3 This equipment should be used with a triple line power cord for safety 4 For quality im
19. cope 3 4 Use As Pulse Generator In a symmetrical square wave sine wave or triangle wave the positive and negative transitions are of equal time duration or 1 1 ratio This is the condition when the SYMMETRY control off When the SYMMETRY control is pulled and rotated the positive transition can be stretched in relation to the negative transition up to at least 10 1 ratio Square waves can be stretched into rectangular waves or pulses triangle waves can be stretched into distorted wave shape called a skewed sine wave FIG 5 illustrates the types of waveforms possible and includes a summary of control settings used to obtain the desired waveform 1 Procedure A Setup generator as described for function generator operation Display the output of generator on an oscilloscope B Select the desired type of waveform with the Function Switches Press the square wave button for pulses triangle button for ramp waves or sine wave button for skewed sine waves Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 14 Adjust Period Of Shorter Duration With Frea Controls Pulse Square Ramp Triangle NON Skewed Sine eee ee FIG 5 PULSE RAMP AND SKEWED SINE WAVE GENERATION C If both a specific pulse width and repetition rate specific rise time and fall time for ramp wave are required The waveform may be obtained as follows a
20. e resonant frequency of the network can be determined A Connect equipment as shown in Test Set Up in FIG 8 for frequency response measurement except that the signal input to the speaker or impedance network is monitored The oscilloscope may be used to verify that this instrument is not in a clipping condition B If the voltmeter method is used vary the range over the full range of interest and log the voltage measured at the speaker terminals vs Frequency The dB scales of the AC voltmeter are convenient for converting this information to standard response units C If the oscilloscope method is used use sweep operation as for frequency response measurement D In speaker testing a pronounced increase of voltage will occur at some low frequency This is the resonance frequency of the speaker systems FIG 8 The speaker enclosure will modify the results obtained from the same speaker without an enclosure A properly designed enclosure will produce a small peak on each side of the peak obtained without an enclosure the enclosure designer can use the response characteristics to evaluate the effects of varying port sizes damping materials and other basic enclosure factors E In testing other impedance networks resonance will not necessarily occur at low frequency However as resonance is approached the signal level will increase The impedance of the network can be measured at resonance or at other frequencies if desired as follows 1
21. e signals at several specific frequencies are required for various tests FSK frequency shift keying signals also may be generated in this manner To maintain the original accuracy each time the operation is repeated the FREQ dial must be accurately set to the same position Probably the easiest way to assure this common dial setting is to set it against its lower stop 0 02 Additional information on programmed frequency selection is given in APPLICATIONS chapter of this manual 3 9 Use As Sweep Generator 1 Procedure A Set up equipment as for function generator operation B Select the highest frequency to be swept with RANGE switch and the lowest frequency to be swept with FREQ dial C Adjust amount of sweep with the sweep rate control D Adjust repetition rate of sweep with the sweep rate control 2 Considerations 0 02 or low FREQ dial setting is recommended for most sweep generator operation The dial setting determines the lowest frequency of generator The sweep generator will sweep upward from that point However it will sweep upward only to the range limit highest frequency to which the dial can tune on the selected range Therefore a low dial setting is required to obtain a sweep covering a wide Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 20 frequency range The 0 02 setting must be used to obtain the maximum sweep width of 100 1 highe
22. gton Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 26 A B est Waveforms Test Waveforms Li 1 FREQUENCY DISTORTION AMPLITIUDE REDUCTION OF OW FREQUENCY COMPO NENT NO PHASE SHIFT L 4 LOWD FREQUENCY PHASE SHIFT PHASE SHIFT U L 7 HIGH FREQUENCY LOSS AND 8 DAMPED OSCILLATION PHASE SHIF 2 LOW FREQ BOOST ACCEN UATED FUNDAMENTAL Y A Test Set up 27 5 LOW FREQUENCY LOSS AND OUTPUT LOAD y 3 HIGH FREQUENCY LOSS NO PHASE SHIF Ay 6 HIGH FREQUENCY LOSS AND OW FREQUENCY PHASE L 9 LOW FREQUENCY PHASE SHIFT TRACE THICKENED BY HUM VOLTAGE FIG 7 AMPLIFIER PERFORMANCE EVALUATION USING SQUARE WAVES Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com B Equivalent Circuit Of Test Set Up GENERATOR SPEAKER SYSTEM SPEAKER IMPEDANCE a ii sl a E A E pal C Graph Of Results 20 Toe IF CONE RESONANCE OF m 15 LOW FREQUENCY DRIVER 11 U Ly 10 N o 5 A A 0 oe 5 LJ gt E 10 lt a 15 L114 te 10 00 1K 10K OOK FREQUENCY Hz FIG 8 TESTING SPEAKER SYSTEMS AND IMPEDANCE NETWORKS
23. ndicate the presence or absence of output Inject the type of signal normally used by the equipment being tested This instrument can generate almost any type of signal normally required in the 0 02 Hz to 2 MHz range If the equipment under test lt can generate unique sounds or signals by means of sweep that should be easily distinguishable from any other signals that may be present 5 3 Troubleshooting By Signal Tracing This technique is similar to Troubleshooting by Signal Substitution except that the signal is injected at the input of the equipment under test An oscilloscope is then used to check for output at each stage starting nearest at the input area and moving toward to the output area Each stage which has no output is presumed to be defective 5 4 Amplifier Overload Characteristics The overload point for some amplifiers is difficult to determine by using sinewave input The triangle waveform is ideal for this type of test because any departure Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 24 from absolute linearity is readily detectable By using the triangle output the peak overload condition for an amplifier can be readily determined This overload condition is shown in shown in FIG 6 Input Waveform Output Waveform FIG 6 Amplifier overload characteristics 5 5 Amplifier Performance Evaluation Using Square Waves
24. nstruction This instrument is capable of generating a wide variety of waveforms and counting an external frequency with high resolution of 6 digits LED The most benefit and satisfaction can be gained from the instrument by fully understanding its capabilities and versatility and becoming familiar with operation procedure One of the best ways to initially gain this familiarization is to connect the generator to an oscilloscope Observe the waveforms and notice the effects of the various controls on the waveforms Use this manual as a reference until becoming accustomed to operating procedures 3 3 Use As Function Generator 1 Procedure Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 10 A Connect AC power cord into receptacle on rear panel and plug into AC inlet B To turn on equipment push power on off switch on C To make sure that the output is symmetrical and unaffected by the sweep generator set the following controls as below CONTROLS POSITION Sweep width OFF push Symmetry OFF push DC offset OFF push Attenuator RELEASE button out Counter INTERNAL button out D To select the desired frequency set the Range Switch and FREQ dial as follows The output frequency equals the FREQ dial setting multiplied by the Range Switch setting For example a FREQ dial setting of 0 6 and a Range switch setting of 10K produces a 6 KHz output 6x1
25. oms service shops and production facilities to test or analyze audio radio digital communications medical electronics sonar industrial electronics subsonic ultrasonic and many other electronic devices and circuits 5 2 Troubleshooting By Signal Substitution When troubleshooting dead audio equipment localize the trouble by injecting an audio signal from Sweep Function Generator to substitute for the normal signal Starting at the nearest speaker and moving toward the audio input area Step By Step sound will be heard from the speaker for each stage that is operating normally Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 23 When signal is applied to the defective stage no sound will be heard from the speaker CAUTION MAKE SURE THE DC OFFSET MATCHES THE NORMAL OPERATING VOLTAGE AT EACH POINT OF SIGNAL INJECTION IMPROPER DC OFFSET COULD BIAS A NORMALLY OPERATING STAGE TO CUT OFF AND MAKE IT APPEAR DEFECTIVE IMPROPER DC OFFSET COULD ALSO DAMAGE CERTAIN CIRCUITS A COUPLING CAPACITOR MAY BE USED TO BLOCK THE DC OFFSET AND ALLOW THE SIGNAL TO FLOAT AT THE DC LEVEL OF THE POINT OF INJECTION IF DESIRED The signal amplitude should also simulate the normal signal levels used in the circuit where signal is being injected This technique is equally applicable to non audio equipment Just connect an oscilloscope voltmeter or any other device which will i
26. provement the exterior design and specification of the product can be changed without prior notice 5 lf you have further questions concerning use please contact the EZ Digital service center or sales outlet Safety Summary Please take a moment to read these operating instructions thoroughly and completely before operating this instrument Pay particular attention to WARNINGS used for conditions and actions that pose hazard to the user and CAUTIONS used for conditions and actions that may damage the instrument e Always to inspect the instrument and other accessories for any sign of damage or abnormality before every use Never ground yourself and keep your body isolated from ground Never touch exposed wiring connections or any live circuit conductors Do not install substitute parts or perform any unauthorized modification to the instrument Use caution when working above 60V DC or 30V AC rms Such voltages pose a shock hazard e Remember that line voltage is present on some power input circuit points such as on off switches fuse power transformers etc even when the equipment is turn off e Also remember that high voltage may appear at unexpected points in defective equipment Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 3 1 1 Introduction This instrument is the Most Versatile Signal Source used as FUNCTION GENERATOR SWEEP GENERATOR
27. st frequency sweep is 100 times that of lowest frequency swept If a high dial setting and high SWEEP WIDTH setting are used simultaneously the generator will sweep to the range limit and ceases operation for a portion of the sweep cycle effectively clipping the sweep Of course if only a small frequency band is to be swept a low dial setting is not important In fact it may be easier to set to the desired frequencies if the dial setting is 0 1 or higher 3 10 Use As Externally Controlled Sweep Generator A ramp voltage or any other type waveform desired can be applied for externally controlled sweep generator operation 0 to 10 volt swing will sweep frequencies over a 100 1 ratio with dial set to 0 02 Set up the instrument as described for internally controlled sweep generator operation except turn the SWEEP WIDTH control to OFF Apply the sweep voltage with no DC component at the VCF Input BNC Set the FREQ dial to the highest frequency to be swept and apply a negative going ramp voltage 3 11 Use As External Frequency Counter 1 USE AS EXTERNAL FREQUENCY COUNTER A EXTERNAL AND INTERNAL COUNTER SELECTION This instrument can be used as a counter by Push in of INT EXT selection switch B EXT COUNT IN BNC accepts external frequency input C COUNTER DISPLAY Input frequency is displayed with high resolution on a 6 digit LED display D mHz Hz KHz MHz INDICATOR mHz Hz KHz MHz indicators amp decimal points display the max 50 M
28. sus VCF IN voltage for all ranges Test Equipment Depot 800 517 8431 99 Washington Street Melrose MA 02176 FAX 781 665 0780 TestEquipmentDepot com 17 HIGHEST FREQ FREQ DEVIATION FOR EACH RANGE OBTAINABLE Hz 0 1 VOLT VCF IN CHANGE Hz 1 2 0 02 10 20 0 2 100 200 2 1K 2K 20 10K 20K 200 100K 200K 2K 1M 2M 20K Frequency deviation versus VCF IN voltage B For an example it is assumed that we wish to generate a 455 KHz signal with FM deviation of 15 KHz 30 KHz swing 1M range will be used to obtain the 455 KHz carrier with the FREQ dial set to 0 455 The highest frequency obtainable on the 1M range is 2 MHz One percent of 2 MHz is 20 KHz Our requirement of 30 KHz deviation is 1 5 times greater than 20 KHz deviation produced by a 0 1 volt VCF IN swing thus we will use 1 5 times as much peak to peak voltage swing or 0 15 V STATED ANOTHER WAY SUBSTITUTING THIS EXAMPLE desired deviation 30 KHz x0 1 V required VCF IN sianal x0 1 1 5x0 1V 0 15V 1 deviation 20 KHz C Remember that the value of VCF IN signal is the peak to peak amplitude 3 7 External Control Of VCF Within a given range the FREQ dial setting normally controls the output frequency of generator However applying voltage at the VCF IN BNC on the front panel also may control it There are three basic possible modes of external VCF control as detailed below A Applying an AC voltage produces FM modulation previously described
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