Home

User Manual

1. Figure 2 25 Project Built In Arbitrary Waveform interface Table 2 12 Menu Explanations of Project Built in Arbitrary Waveform Function Settings Explanation m end ee i signal waveform www tmatlantic co _ AWG Series Buinatian A rhitrarw Wlarvrafarm Canaratar Select the built in loma prieta earthquake waveform Select the built in swept frequency cosine TwoTone Select the built in two tone signal waveform SNR Select the built in sin wave with white noise waveform Hamming Figure 2 26 Winfun Triangle Built In Arbitrary Waveform interface Table 2 13 Menu Explanations of Winfun Triangle Built in Arbitrary Waveform Function Settings Explanation Menu Select the built in hamming window Hamming waveform Select the built in hanning window Hann ng waveform Select the built in kaiser window Kaiser Waveform Blackman Select the built in blackman windows waveform Select the built in gaussian window Gaussian waveform Select the built in triangle window Triangle waveform Select the built in hairs window Hairs waveform Select the built in bartlett window waveform Select the built in tangent waveform Select the built in cotangent waveform Select the built in secant waveform Select the built in cosecant waveform Select the built in inverse sine waveform Select the built in inverse cosine waveform Select the built in tangent waveform Select the built in inverse cotangent
2. H Gated Set the gated mode Negative Signal www tmatlantic co AWG Series Functii To Store and Recall Press Store Recall button to enter the following interface You can save or recall the state or data documentation inside the generator The status file and data file on the U Disk are also allowed to rebuild or delete File names can only be English Figure 2 46 STATEZ STATES STATES STATES STATES STATE STATES STATES STATELO Figure 2 45 Save and Read Interface Table 2 24 Menu Explanations of Save and Recall Page 1 2 File Type State The setting of the generator Arbitrary waveform file All kinds of files Shift between the path Sey Directory and file place Recall Recall the waveform or setting n information in the specific position in the memory Delete 000 Delete the selected file About the browser The directory selection shift is done by the direction keys In the directory mode pressing the right key will open the lower directory while the left key will fold the directory Up and down key are used to shift between the directories in the Path mode right key stands for the lower www tmatlantic com AWG Series Function Arbitrary Waveform Generator directory left key upper up key route and down key the lowest or the stroll bar between the files To Save the Instrument State Users are allowed to store the instrument state in any of the 10 non volatile
3. In the frequency sweep mode the function generator steps from the start frequency to the stop frequency at the sweep rate you specify Sweep can be generated by sine square ramp or arbitrary waveforms pulse noise and DC are not allowed Figure 2 38 Setting Interface of Sweep Waveform Parameter Press Sweep button to enter the following menu Set the waveform parameters by using the operation menu Figure 2 39 Table 2 19 Menu Explanations of Waveform Sweep Page 1 2 Function Settings Explanation ne em Set the time span of the sweep in which the frequency changes from the start p Fre frequency to stop frequency Stop Freq Set the stop frequency of the sweep Freq Span Set the frequency span of the sweep Start Freq Set the start frequency of the sweep Mid Freq Set the center frequency of the sweep Source Internal Choose internal source External Choose external source use the Ext Trig Gate Fsk Burst connector in the rear panel Manual Set the start and stop time by hand www tmatlantic com AWG Series Function Arbitrary Waveform Generator Sweep Frequency Setting Use start freq and stop freq or center freq and freq span to set the range of the frequency Press the button again to switch between each other Figure 2 40 Table 2 20 Menu Explanations of Waveform Sweep Page 2 2 Function Settings Explanation Me ale Off Turn off trigger setting e a Log Set the sweep with loga
4. Steps Set the frequency amplitude and offset of the carrier wave Press Sine and choose the sine waveform as the carrier wave Press Freq and choose Freq which will display in white color Input 10 from the keyboard and choose the unit kHz to set the frequency 10KHz Press Ampl and choose Ampl which will display in white color Input 1 from the keyboard and choose the unit Vpp to set the amplitude 1 Vpp Press Offset and choose Offset which will display in white color Input 0 from the keyboard and choose the unit Vdc to set the offset 0Vdc Set the modulation type AM and parameters Press Mod Type AM choose AM Please notice that the message shown on the middle left side of the screen is AM Mod Press AM Freq input 200 from the keyboard and choose the unit Hz to set the AM freq 200Hz Press AM Depth input 80 from the keyboard and choose the unit to set the AM depth 80 Press Shape Sine to choose sine wave as the modulating waveform When all parameters above are set the wave generated is shown in Figure 3 9 Figure 3 9 AM Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 10 Generate a FM Wave Generate a FM waveform the carrier is a sine wave with 10 kHz frequency and the modulating wave is a sine wave with 1 Hz frequency 2kHz frequency deviation gt Steps Set the frequency am
5. 1 Press Sine and choose the sine waveform as the carrier wave 2 Press Freq and choose Freq which will display in white color Input 10 from the keyboard and choose the unit kHz to set the frequency 10kHz 3 Press Ampl and choose Ampl which will display in white color Input 5 from the keyboard and choose the unit Vpp to set the amplitude 5Vpp 4 Press Offset and choose Offset which will display in white color Input 0 from the keyboard and choose the unit Vdc to set the offset 0Vdc e Setthe modulation type PM and parameters l Press Mod Type PM choose PM Please notice that the message shown on the middle left side of the screen is PM Mod 2 Press PM Freq input 2 from the keyboard and choose the unit kHz to set the PM freq 2 KHz 3 Press Phase Dev input 90 from the keyboard and choose the unit to set the phase deviation 90 4 Press Shape Sine to choose sine wave as the modulating waveform When all parameters above are set the wave generated is shown in Figure 3 11 a Figure 3 11 PM Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 12 Generate a FSK Wave Generate a FSK waveform with 200Hz key frequency The carrier is a sine wave with 10kHz frequency and the hop wave is a sine wave with 500Hz frequency gt Steps e Set the frequency amplitude and offset of the carrier wave 1 Pr
6. Figure 2 48 File Storage Interface Figure 2 49 Table 2 25 Menu Explanation of File Storage Function Settings Explanation Menu Input English input ee Select the current character Delete Delete the current character Save Store the file with the current name 1 English Input The English input interface is as shown in Figure 2 50 to save a file named NEWFILE follow the steps below NEWF ILER 10 1 2 3 4 5 6 8 9 _ A B C DEN F G H 15 K L M N 0 P Q R Ss Tul Yl wl x z _ Figure 2 50 English Input Interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator 1 Press Input Type gt En to enter the English interface 2 Input the file name NEWFILE Use the Knob to adjust the cursor s horizontal position and the up and down key to adjust the vertical position Select the Character N and press Select Repeat this until you have inputted NEWFILE 3 EdittheFile Name When you have entered a wrong character move the cursor to the wrong character to be deleted and press Delete to remove it Reenter the file name 4 Press Save to finish and save the file www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set the Utility Function With the Utility Function you can set the parameters of the generator such as DC On Off Sync On Off Output Parameter Interface Parameter System Setting and Testing Parameter The DC switch of
7. iN AKTAKOM User Manual AWG Series Function Arbitrary Waveform Generator AWG 4105 AWG 4110 AWG 4150 www tmatlantic com AWG Series Function Arbitrary Waveform Generator General Safety Summary Review the following safety precautions to avoid injury and prevent damage to this product or any products connected to it To avoid potential hazards use this product only as specified Only qualified personnel should perform service procedures To Avoid Fire or Personal Injury Use proper power line Only the special power line of the products approved by the state should be used Ground the instrument This generator is grounded through the protective terra conductor of the power cord To avoid electric shock the grounding conductor must be connected to the earth ground Make sure that the instrument is properly grounded before connecting the input or output terminals Observe all the ratings of the terminal To avoid fire or shock observe all the ratings and symbols that marked on the instrument Read the user guide carefully before making connections to the instrument Donot operate without Covers Do not operate the product with covers or panels removed Avoid circuit or wire exposed Do not touch the exposed connections or components when the power is on Do not operate with suspected failures If you suspect there is damage with this product you should have it inspected by qualified service personnel authoriz
8. m Output Modulated Signal m Output Sweep Signal m Output Burst Signal m Store Recall m Utility Setting m Help System Bing Equarg Ramp Pulse Noise Ari Mod Bweep Burst Btore Recall Utility Help You are suggested to read this chapter carefully so as to understand AWG Series Generator s versatile waveform setting functions and more operation methods www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set Sine Signals Press Sine button to call the sine operation The sine waveform parameters are set by using the sine operation menu The parameters of sine waveforms are frequency period amplitude high level offset low level and phase Different sine signals are generated by setting these parameters As is shown in Figure 2 1 in the soft key menu select Freq Cursor is located in the frequency parameter area in the parameter display window and users can set the frequency value here I Mic pe ID en WAUBITOM 1 000 OOOKHZ 4 000Vpy 0 0 Figure 2 1 Sine Parameter Display Interface Figure 2 2 Table 2 1 Menu Explanations of Sine Waveform Function Setting s Explanations menu Freq Set the signal frequency or period Period Ampl H Level The current parameter will switch second press Set the signal amplitude or high level The current parameter will switch second press LLevel The current parameter will switch s
9. ure tS Pe www tmatlantic co AWG Series Function 0 ee Test Cal Press Utility gt Test Cal to enter the following menu 11 000 OOOKHz 4 OOOUDT Ri 0 Ome Figure 2 68 Test Cal function Menu Figure 2 69 Table 2 35 Menu Explanations of Test Setting pr ctio aa a A Perform system self test www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 70 Table 2 36 Menu Explanations of Self Test Function Settings Explain Menu Rete Rune pos Key Test Run keyboard test program LED Test e Run LED test program 1 Ser Test Select Ser Test to enter the screen test interface The clew words Press 7 Key to continue Press 8 Key to exit is displayed You could press the 7 for test Figure 2 71 Screen Test Interface 2 Key Test Select keyboard Test to enter the keyboard test interface the on screen lathy rectangle shapes represent the front panel keys The shapes with two arrows beside them represent the front panel knobs Test all keys and knobs and you should also verify that all the backlit buttons illuminate correctly e Note When you operate the screen would display the white color LCD www tmatlantic coi To AWG Series Function Arbitrary Waveform Generator e The tested button or knobs corresponding area would display green color LCD e At the bottom of the screen display Press 8 Key Three Times to exit inform
10. AM FM PM ASK FSK Sweep and Burst e Multiple I O external modulation source external 10 MHz reference input external trigger source waveform output synchronous signal output e Support USB storage device Software updating could also be performed using USB devices e Up to 16k sample points of internal waveform depth which can rebuild or simulate any complex waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator e Remote control is realized using the USB e Multiple interfaces USB host amp device GPIB IEEE 488 option LAN option e Support the seamless connection with AKTAKOM Series Digital Oscilloscopes Can directly read and rebuild the stored waveform in the oscilloscopes e 2 languages English and Chinese user interface and built in help system www tmatlantic com AWG Series Function Arbitrary Waveform Generator Chapter 1 Getting Started This chapter covers the following topics General Inspection Handle Adjustment The Front Rear Panel To Set a Waveform To Set Modulate Sweep Burst To Set Output To Use Digital Input To Use Store Utility Help Function www tmatlantic com AWG Series Function Arbitrary Waveform Generator General Inspection When you get a new AWG Series Function Arbitrary Waveform Generator you are suggested to take the following steps to inspect the instrument 1 Inspectthe shipping container for damage If there are damages in the packing o
11. AWG Series Function Arbitrary Waveform Generator To Set Ramp Signals Press Ramp button to call the ramp operation The ramp waveform parameters are set by using the ramp operation menu The parameters for ramp waveforms are frequency period amplitude high level offset low level phase and symmetry As is shown in Figure 2 9 in the soft key menu select Symmetry Cursor is located in the symmetry parameter area in the parameter display window and users can set the symmetry value here 300 000 000kHz 0 Figure 2 9 Ramp Parameter Display Interface Figure 2 10 Table 2 3 Menu Explanations of Ramp Waveform Freq Ampl HLevel The current parameter will switch at a second press Offset Set the signal offset or low level The LLevel current parameter will switch at a second press Phase Set the phase of the signal EqPhase The current parameter will switch at a second press the symmetry for ramp waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Term Explanation Symmetry The percentage that the rising period takes up the whole Period Input Range 0 100 To Set the Symmetry l Press Ramp Symmetry to set the symmetry The symmetry shown on the screen when the instrument is powered is the default value or the set value beforehand When changing the function if the current value is valid for the new waveform it will be used sequentially 2 Input the desired Sym
12. HLevel The current parameter will switch at a Phase second press The current parameter will switch at a Offset Set the signal offset or low level LLevel The current parameter will switch at a second press Phase EqPhase Set the phase of the signal The current parameter will switch at a second press www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 20 Table 2 7 Menu Explanations of Arb Waveform Page 2 2 Function Settings Explanation e TT Select the built in arbitrary signal as output To Select the built in Arbitrary Waveform There are forty eight built in Arbitrary Waveforms and user definable Arbitrary Waveforms inside the Generator To select one of them follow the instructions below Press Arb Load Wform to enter the interface below Figure 2 21 Table 2 8 Menu Explanations of Built in Arbitrary Waveform Function Settings Explanation Fe had fone O Select one of the forty eight built in arbitrary waveforms see Table 2 8 gea ooo Select one of arbitrary waveforms Wforms stored in the non volatile memory Cancel Cancel the current operation and return to the upper menu the followings are the same and will not be explained 1 To Select the Built in Waveform Press Arb Load Wform gt Built In and enter the following interface As is shown in Figure 2 22 there are five kinds of arbitrary waveform www tmatlantic com AWG Series Fu
13. memories The state storage will memorize the selected function including the arbitrary waveform frequency amplitude DC offset duty cycle symmetry and other modulation parameter used To save the instrument state the procedures are given as followed 1 Choose the file type to store Press Store Recall Type State and choose state as the storage type 2 Choose the location of the file There are ten positions in the Local C choose anyone of them by rotating the knob 3 Name the file and save it Press Save button enter the desired name Press Save to finish To Save Data Users are allowed to store data document in any of the 10 non volatile memories If the place is already occupied new document will cover the old one The procedures for data storage are given as followed 1 Choose the file type to store Press Store Recall Type data and choose data as the storage type 2 Choose the location of the file There are ten positions in the Local C choose anyone of them by rotating the knob 3 Name the file and save Press Save button enter the desired name Press Save to finish To Use USB Storage As is shown in Figure 2 47 the storage location is divided into The internal storage Local C and the U Disk storage U Disk A At the left side of the front panel there is a USB interface When a USB storage is connected the storage menu will show Mobile Disk A www tmatlantic com AWG S
14. that the products that 1t manufactures and sells will be free from defects in materials and workmanship for a period of three years from the date of shipment from an authorized AKTAKOM distributor If a product proves defective within the respective period AKTAKOM will provide repair or replacement as described in the complete warranty statement To arrange for service or obtain a copy of the complete warranty statement please contact your nearest AKTAKOM sales and service office Except as provided in this summary or the applicable warranty statement AKTAKOM makes no warranty of any kind express or implied including without limitation the implied warranties of merchantability and fitness for a particular purpose In no event shall AKTAKOM be liable for indirect special or consequential damages www tmatlantic com AWG Series Function Arbitrary Waveform Generator Chapter 6 Appendix Appendix A Accessories AWG Series Function Arbitrary Waveform Generator Accessories Standard Accessories e A User Manual e A Certification e A Guaranty Card e A CD ncluding EasyWavel 0 computer software system e A Power Cord that fits the standard of destination country e A USB Cable Optional Accessories e BNC Cable e GPIB LAN interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Appendix B Specification Specification AWG 4105 AWG 4110 AWG 4150 Max output frequency 10MHz SOMHz Arbitrary wavefo
15. DC High frequency inhibition High frequency noise inhibition HFR open or close Sensitivity Three levels low middle high Trigger method Trigger voltage level range 3 V 0 1 100 Resolution 6 mV Adjust trigger voltage level manually automatically www tmatlantic com AWG Series Function Arbitrary Waveform Generator General Specification Display 3 5 TFT LCD 320xRGBx240 100 240 VACRrMSs 45 440 Hz CATH lt 30W 1A 250V Environment Cooling method Temperature range Others Dimension Weight Operation 0 C 50 C Storage 20 C 60 C natural cooling down 35 C 50 C lt 60 relative humidity Operation below 3 000 meters Below 35 C lt 90 relative humidity Storage below 15 000 meters IP protection IP2X Calibration Cycle www tmatlantic com AWG Series Function Arbitrary Waveform Generator Appendix C Daily Maintain and Cleaning Daily Maintain Do not store or leave the instrument in where the LCD will be exposed to direct sunlight for long periods of time CAUTION To avoid damage to the instrument do mot expose them to sprays AN liquids or solvents Cleaning If this instrument requires cleaning disconnect it from all power sources and clean it with a mid detergent and water Make sure the instrument is completely dry before reconnecting it to a power source To clean the exterior surface perform the following steps 1 Remove loose
16. KHz to set the frequency 5 kHz Press Ampl to choose Ampl which will display in white color Input 5 from the keyboard and choose the unit Vpp to set the amplitude 5 Vpp Press Offset to choose Offset which will display in white color Input 0 from the keyboard and choose the unit Vdc to set the offset 0Vdce Set the sweep time 6699 Press Sweep Sweep Time Input 2 from the keyboard and choose the unit s to set sweep time 2s Set the start frequency Press Start Freq Input 100 from the keyboard and choose the unit Hz to set start freq 100Hz Set the end frequency Press End Freq Input 10 from the keyboard and choose the unit kHz to set stop freq 10 kHz Set the Sweep Mode Press 1 2 Linear and choose Linear When all parameters above are set the linear sweep wave generated is shown in Figure 3 7 www tmatlantic com AWG Series Function Arbitrary Waveform Generator I Figure 3 7 Sweep Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 8 Generate a Burst Wave Generate a burst waveform of 5 cycles The period is 3ms Use internal trigger and 0 degree phase gt Steps e Set the sweep function Press Sine and choose the sine waveform as the burst function The default setting of the source is internal e Set the frequency amplitude and offset 1 Press Freq and choose Freq which
17. Offset setting offset value l 1 mV setting offset value 1 1 mV accuracy www tmatlantic coi To AWG Series Function Arbitrary Waveform Generator Waveform Output 50ohm typical value 50ohm typical value short circuit protection short circuit protection AM Modulation CH1 CH2 Carrier Sine Square Ramp Arbitrary except DC Source Internal External Modulation waveform Sine Square RAMP Noise Arbitrary 2 mHz 20 kHz Modulation depth 0 120 FM Modulation CH1 CH2 Carrier Sine Square Triangle Arbitrary except DC Source Internal External Modulation waveform Sine Square RAMP Triangle Gaussian Noise Arbitrary 2 mHz 20 kHz Frequency deviation AWG 4105 0 2 5 MHz AWG 4110 0 5 MHz AWG 4150 0 25 MHz PM Modulation CH1 CH2 Carrier Sine Square Triangle Arbitrary except DC Source Internal External Modulation Sine Square RAMP Triangle Gaussian Noise Arbitrary 2 mHz 20 kHz waveform Deviation 0 360 FSK Modulation CH1 CH2 Carrier Sine Square Triangle Arbitrary except DC Internal External 50 duty square waveform 2 mHz 50 kHz Source Modulation waveform ASK Modulation CH1 CH2 waveform PWM Modulation CH1 CH2 Frequency 500uHz 20kHz Source Internal External www tmatlantic coi To AWG Series Function Arbitrary Waveform Generator Modulation waveform Sine Square RAMP Triangle Arbitrary except DC Extern
18. Press Burst button burst for sine square ramp pulse or arbitrary waveform can be generated dra Figure 1 16 Burst Waveform Display Interface Term Explanation Burst Output waveforms with set cycle times Burst can last for certain times of waveform cycle N Cycle Burst or be controlled by external gated signals Gated Burst Burst applies to all kinds of waveforms but noise can only be used in gated burst Generally it is called burst function within every signal generator www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set Output As shown in Figure 1 17 there are two buttons on the right side of the operation panel which are used to output control The instruction below will help you familiarize with these functions Figure 1 17 Output Buttons Press Output button activate or deactivate the output signal To Use Digital Input As shown in Figure 1 18 there are three sets of buttons on the operation panel which are direction button the knob and the keypad The instruction below will help you familiarize with the digital input function 2 LI i in Prot n z ARG f Pa pa kS ar C ha p 4p sH 6 Aiz PA si hie i F PE Figure 1 18 Front Panel Digital Input 1 The up and down keys are used to shift parameters and the left and right keys are used to shift digits 2 Keypad is used to directly set the parameters value 3 Knob is used to chan
19. al 6 6V Gorresponding modulation depth 0 100 modulation Sweep CH1 CH2 Sine Square RAMP Triangle Arbitrary except DC linear logarithmic ection eep time 1 ms 500 s 0 1 Manual external internal Burst CH1 CH2 Internal cycle 1 us 500 s 1 Rear Panel Connector External modulation 6 Vpk 100 modulation depth 5 KQ input impedance External trigger TTL compatible The external input voltage can t be over 6V otherwise instrument gets damaged Trigger Input Trigger Output Voltage level TTL compatible Pulse width gt 400 ns typical value Output impedance 50 typical value www tmatlantic com AWG Series Function Arbitrary Waveform Generator SYNC Output Voltage level TTL compatible Pulse width gt 50ns typical value Output impedance 50 typical value Max frequency 2MHz Frequency Counter Measurement Frequency Cycle Positive negative pulse width duty cycle Single Channel 100 mHz 200 MHz 6 bits s Frequency range Frequency resolution Voltage range and sensitivity non modulated signal Manua DC DC deviation couplin range 100 mHz 100 20m VRMS 5 Vac de MHz 100 MHz 200 40m VRMS 5 Vac de MHz AC 1 Hz 100 50m Vpp 5 Vpp couplin MHz g 100 MHz 200 190m Vpp 5 Vpp MHz n Un lt J Q Pulse width and duty 1 Hz 10 MHz 100 mVpp 10 Vpp measurement Input adjustment Input impedance 1 MQ Coupling methods AC
20. arrier waveform and the modulating waveform In FM the frequency of the carrier waveform varies with the instantaneous voltage of the modulating waveform The parameters for the FM are as shown in Figure 2 30 www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 30 Setting Interface of FM Waveform Parameter Press Mod Type FM to enter the following menu Figure 2 31 Table 2 15 Menu Explanations of the FM Parameters Function Settings Explanation oe pe fe Es Set the modulating waveform frequency Frequency range 2mHz 20kHz internal source only FM maximum frequency ari a a Shape Choose the modulating waveform To change the carrier waveform parameter press Sine Square etc Source External The source is external Use the Modulation In connector in the rear panel T LA VV NI DPWILINI 1 ULIVUIVILT ZALUILUL aL y VVUVWVIUILILI IMVIINIULUI Term Explanation Frequency Deviation The deviation should be equal to or less than the carrier waveform frequency The sum of the deviation and the carrier frequency should be equal to or less than maximum frequency of the selected function For an external source the deviation is controlled by the voltage level of the connector connected to the Modulation In 6V corresponds to the selected deviation and 6V to the negative selected deviation ASK ASK is a form of modulation that represents digital data as varia
21. ase varies from 0 to 360 and the default setting is 0 For an Arbitrary Waveform 0 is the first waveform point N Cycle Gated N Cycle has specific number of waveform cycles and every burst is activated by a trigger event Gated burst use external source to control burst as when to be activated Figure 2 43 Table 2 22 Menu Explanations of the N Cycle Parameters Page2 2 Function Settings Explanation Menu Trig Out Signal Triggered at Rise Edge L Signal Triggered at Fall Edge Off Turn off Trigger Setting Cycles Set the number of the bursts in a N Cycle Infinite Set the number of the bursts ina N Cycle to be infinite Delay Set the delay time before the burst starts Cycles Set the number of waveform cycle in an N Cycle 1 to 50 000 or Infinite If you choose Infinite then a continuous waveform will be generated which will not stop until a trigger event happens www tmatlantic com AWG Series Function Arbitrary Waveform Generator e Ifneeded Burst Period will increase to cater to the specific number of cycles e For an infinite cycle burst external or manual trigger is needed to activate burst Delay Set the time delay between the trigger input and the start of the N Cycle burst The minimum delay is 240ns Set the Gated Burst Press Burst Gated to enter the following interface Figure 2 44 Table 2 23 Menu Explanations of the Gated Burst Parameters Function Settings Explanation Fea e
22. ation prompt to show that press 8 three times for quitting the test Figure 2 72 Key Test Interface 3 LED Test Select LED Test to enter the lighten interface the on screen lathy rectangle shapes represent the front panel keys The shapes with two arrows beside them represent the front panel knobs The clew words Press 7 Key to continue Press 8 Key to exit is displayed You could press the 7 button continuously for testing when buttons are lighted the corresponding area on the screen would display green color LCD Figure 2 73 Led Test Interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Edit Information Press the EditInfo option button of the Utility Menu to view the generator s hardware and software configuration Figure 2 74 Edit Info Interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Updating Firmware m Using USB flash drive update firmware The software of the generator can be updated directly via USB flash drive This process takes about two minutes Follow the next steps 1 Insert USB flash drive with firmware procedure to USB host interface on the front panel of the generator 2 Press the Utility button to enter the Utility Menu 3 Press Next Page option button to enter the second page of Utility Menu 4 Press the Update Firmware option button 5 Select the update file to up
23. atlantic com AWG Series Function Arbitrary Waveform Generator Onde 90 04 Figure 1 8 Square Signal Display Interface As shown in Figure 1 8 the default signal parameters are 1 kHz frequency 4 0 Vpp amplitude OVdc offset and 50 duty cycle 3 Press Ramp button and the waveform window displays ramp waveform AWG Series Generator can generate ramp signal with a frequency of from 1uHz to 300 KHz and variable symmetry Figure 1 9 Ramp Signal Display Interface As shown in Figure 1 9 the default signal parameters are 1kHz frequency 4 0 Vpp amplitude OVdc offset and 50 symmetry 4 Press Pulse button and the waveform window displays pulse waveform AWG Series Generator can generate pulse signal with a frequency from 500uHz to 5 MHz and variable pulse width and delay www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 1 10 Pulse Signal Display Interface As shown in Figure 1 10 the default signal parameters are 1 kHz frequency 4 0Vpp amplitude OVdc offset 200us pulse width 5 Press Noise button and the waveform window displays noise waveform AWG Series Generator can generate noise signal with a band width up to 50 MHz 0004 0 Onde Figure 1 11 Noise Signal Display Interface As shown in Figure 1 11 the default signal parameters are 4 0Vpp amplitude and 0Vdc offset 6 Press Arb button and the waveform window displays arbitrary waveform AWG Series Generator can gene
24. date the system software Note Don t cut off the power during product is being updating www tmatlantic com AWG Series Function Arbitrary Waveform Generator How to Use the Built in Help System You can get a particularly help for every button on the front panel by using the built in help system Or you can get help about the operation of the front panel buttons with the help list Press Help to enter the following interface Figure 2 75 Help Menu Figure 2 76 Table 2 37 Help Menu Explanations Function Settings Explanation Menu O F Cursor upward to select OO e ooo Cursor downward to select Select Select to read the information www tmatlantic com AWG Series Funeti 0 7 Chapter 3 Application and Examples To help the user master how to use the Function Arbitrary Waveform Generator more efficiently we will describe some examples in detail All the examples below use the default setting of the instrument except especial explanations This chapter includes the following topics m Example 1 Generate a Sine Wave m Example 2 Generate a Square Wave Example 3 Generate a Ramp Wave Example 4 Generate a Pulse Wave Example 5 Generate a Noise Wave Example 6 Generate an Arbitrary Wave Example 7 Generate a Sweep Wave Example 8 Generate a Burst Wave Example 9 Generate an AM Wave Example 10 Generate a FM Wave Example 11 Generate a PM Wave Example 12 Generate a FSK Wave Example 13 Gen
25. dust on the outside of the instrument with a lint free cloth Use care to avoid scratching the clear plastic display filter 2 Usea soft cloth dampened with water to clean the instrument A WARNING To avoid damage to the surface of the instrument do not use any N abrasive or chimerical cleaning agents www tmatlantic com AWG Series Function Arbitrary Waveform Generator
26. e noise waveform parameters are set by using the noise operation menu The parameters for noise waveforms are amplitude high level and offset low level As is shown in Figure 2 16 in the soft key menu select Offset Cursor is located in the Offset parameter area in the parameter display window and users can set the offset value here Noise is non regulated signal which has no frequency or period Ampl Figure 2 16 Noise Parameter Display Interface Figure 2 17 Table 2 5 Menu Explanations of Noise Waveform Function Settings Explanation Menu Ampl Set the signal amplitude or high Ampl HLevel level The current parameter will switch at a second press Offset Set the signal offset or low level LLevel The current parameter will switch at a second press www tmatlantic com AWG Series Functiv vivi r uvuvi ovumi To Set Arbitrary Signals Press Arb button to call the arb operation The arb waveform parameters are set by using the arb operation menu The arb signal consists of two types the system built in waveform and the user definable waveform The parameters for arb waveforms are frequency period amplitude high level and offset low level and phase Figure 2 18 Arb Parameter Display Interface Figure 2 19 Table 2 6 Menu Explanations of Arb Waveform Page 1 2 Function Settings Explanation Freq Set the signal frequency or period CER second press cme Set the signal amplitude or high level
27. e signs for the functional buttons on the operation panel are represented by squared words such as Sine which represents the transparent functional key with Sine on it on the front panel while the menu buttons are represented by brighten words such as Freq which means the frequency option in the Sine menu Note The main Output and Sync Channels are located in the front panel which only allow signal output If they are used as signal input channels they will be burned and lead to instrument malfunction www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set a Waveform On the operation panel there is a set of buttons with waveform icon See Figure 1 6 The exercise below will help you familiarize with the waveform selection settings GEL Figure 1 6 Waveform Selection Buttons l Press Sine button and the waveform window will display sine waveform AWG Series Generator can generate sine signal with a frequency from 1uHz to 50MHz By setting frequency period amplitude high level offset low level sine signal with different parameters can be generated 0 wc Figure 1 7 Sine Signal Display Interface As shown in Figure 1 7 the default signal parameters are 1 kHz frequency 4 0Vpp amplitude and OVdc offset 2 Press Square button and the waveform window displays square waveform AWG Series Generator can generate square signal with a frequency from 1uHz to 25MHz and variable duty cycle www tm
28. e unit The phase is set to be 45 e Set the symmetry Press Symmetry to choose Symmetry which will display in white color 2 Input 30 from the keyboard and choose the unit 30 The symmetry is set to be 30 When the period amplitude offset phase and symmetry are set the wave generated is shown in Figure 3 3 www tmatlantic com AWG Series Function Arbitrary Waveform Generator 10 000us a OY Figure 3 3 Ramp Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 4 Generate a Pulse Wave Generate a pulse wave with 5 kHz frequency 5V high level 1V low level 40us pulse width and 20ns delay gt Steps e Set the frequency Press Pulse Freq and choose Freq which will display in white color 2 Input 5 from the keyboard and choose the unit KHz The frequency is set to be 5 KHz e Set the high level Press Ampl and choose the HLevel which will display in white color 2 Input 5 from the keyboard and choose the unit V The high level is set to be SV Set the low level Press Offset and choose the LLevel which will display in white color 2 Input 1 from the keyboard and choose the unit V The low level is set to be 1V e Set the pulse width 1 Press PulWidth and choose PulWidth which will display in white color 2 Input 40 from the keyboard and choose the unit us The pulse width is set t
29. econd press Phase EqPhase Set the phase of the signal The current parameter will switch Offset n Set the signal offset or low level second press To Set the Output Frequency Period 1 Press Sine Freq to set the frequency parameter The frequency shown on the screen when the instrument is powered is the default value or the set value beforehand When setting the function if the current value is valid for the new waveform it will be used sequentially If you want to set the period for the waveform press Freq Period button again to switch to the period parameter The current operation is displayed in inverse color 2 Input the desired frequency Use the keypad to input the parameter value directly and press the corresponding button to select the parameter unit Or you can use the direction button to select the digit you want to edit and then use the knob to change its value Figure 2 3 Setting the Frequency Instruction When using the keypad to enter the digit you can use the left direction button to move the cursor backward and delete or change the value of the previous digit www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set the Output Amplitude 1 Press Sine gt Ampl to set the amplitude The amplitude shown on the screen when the instrument is powered is the default value or the set value beforehand When changing the function if the current value is valid for the n
30. ed by AKTAKOM before further operations Provide proper ventilation Donot operate in wet damp conditions Donot operate in an explosive atmosphere Keep the product s surfaces clean and dry www tmatlantic com AWG Series Function Arbitrary Waveform Generator Safety Terms and Symbols Terms in this guide These terms may appear in this manual A A L Hazardous Refer to the Protective Earth Voltage Instructions Earth Ground Ground Terms on the product Terms below may appear on the product DANGER Indicates an injury or hazard that may immediately happen WARNING Indicates an injury or hazard that may not immediately happen CAUTION Indicates that a potential damage to the instrument or other property might occur Symbols on the product Symbols as followed may appear on the product WARNING Warning statements indicate the conditions or practices that could result in injury or loss of life CAUTION Caution statements indicate the conditions or practices that could result in damage to this product or other property www tmatlantic com AWG Series Function Arbitrary Waveform Generator Introduction of AWG Series The manual covers the following 3 types of AWG Series Function Arbitrary Waveform Generators AWG 4105 AWG 4110 AWG 4150 AWG Series Function Arbitrary Waveform Generators adopt the direct digital synthesis DDS technology which can provide stable high precision pure and low distortion sig
31. erate an ASK Wave Example 1 Generate a Sine Wave Generate a sine wave with 50kHz frequency 5Vpp amplitude and 1 Vdc offset gt Steps e Set the frequency Press Sine Freq and choose frequency which will display in white color 2 Input 50 from the keyboard and choose the unit kHz The frequency is set to be 50 kHz e Set the amplitude Press Ampl to choose Ampl which will display in white color 2 Input 5 from the keyboard and choose the unit Vpp The amplitude is set to be 5 Vpp e Set the Offset Press Offset to choose Offset which will display in white color 2 Input 1 from the keyboard and choose the unit Vdc The offset is set to be 1 Vdc When the frequency amplitude and offset are set the wave generated is shown in Figure 3 1 Figure 3 1 Sine Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 2 Generate a Square Wave Generate a square wave with 5 kHz frequency 2 Vpp amplitude 0Vdc offset and 30 duty cycle gt Steps e Set the frequency Press Square Freq and choose Frequency which will display in white color 2 Input 5 from the keyboard and choose the unit KHz The frequency is set to be 5 KHz e Set the amplitude Press Ampl to choose Ampl which will display in white color 2 Input 2 from the keyboard and choose the unit Vpp The amplitude is set to be 2 Vpp Set the of
32. eries Function Arbitrary Waveform Generator Otherwise the default location is the internal location Local C 5061 000 5ET Figure 2 47 To Use the USB Storage 1 Install the Mobile Disk Insert the Mobile Disk into the USB interface on the front panel and the screen will show Detect a Mobile Disk and storage menu will show Mobile Disk A 2 Choose the Mobile Disk Press Browser gt Directory move the cursor with the up or down direction key to select Mobile Disk A Press the right key to open the lower directory use the up and down direction key to choose the file AWG Use the right key to open the lower directory and up and down key to select the file Workspace Input the file name and save 3 Remove the Mobile Disk Remove the Mobile Disk from the interface The system will inform you The Mobile Disk is removed and the Mobile Disk A in the storage menu will disappear Note Mobile Disk can only be U Disk portable hard disk is not supported To Save a File Press Store Recall Store to enter the following interface Enter the desired file name in the File Name frame In the middle of the figure below is the input keypad used to edit the file name Use the up and down direction keys and knob to select the desired character use the left and right direction keys to edit the input file name www tmatlantic com AWG Series Function Arbitrary Waveform Generator
33. ess Sine and choose the sine waveform as the carrier wave 2 Press Freq and choose Freq which will display in white color Input 10 from the keyboard and choose the unit kHz to set the frequency 10KHz 3 Press Ampl and choose Ampl which will display in white color Input 5 from the keyboard and choose the unit Vpp to set the amplitude 5Vpp 4 Press Offset and choose Offset which will display in white color Input 0 from the keyboard and choose the unit Vdc to set the offset 0Vdc e Set the modulation type FSK and parameters 1 Press Mod Type FSK choose FSK Please notice that the message shown on the middle left side of the screen 1s FSK Mod 2 Press Key Freq input 200 from the keyboard and choose the unit Hz to set the key frequency 200 Hz 3 Press Hop Freq input 500 from the keyboard and choose the unit HZ to set the hop frequency 500Hz When all parameters above are set the wave generated is shown in Figure 3 12 300 000H Figure 3 12 FSK Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 13 Generate an ASK Wave Generate an ASK waveform with 500Hz key frequency The carrier is a sine wave with SkHz frequency gt Steps e Set the frequency amplitude and offset of the carrier wave Press Sine and choose the sine waveform as the carrier wave 2 Press Freq and choose Freq which will display in w
34. ew waveform it will be used sequentially If you want to set the waveform by high level or low level press the Ampl HLevel or Offset LLevel button again to switch into the high level or low level parameter the current operation is displayed in inverse color 2 Input the desired Amplitude Use the keypad or the knob to input the desired value choose the unit and press the corresponding button Figure 2 4 Setting the Amplitude www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set the DC Offset 1 Press Sine Offset to set the offset The offset shown on the screen when the instrument is powered is the default value or the set value beforehand When changing the function if the current value is valid for the new waveform it will be used sequentially 2 Input the desired Offset Use the keypad or the knob to input the desired value choose the unit and press the corresponding button Figure 2 5 Setting the Offset www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set Square Signals Press Square button to call the Square operation The square waveform parameters are set by using the Square operation menu The parameters of Square waveforms are frequency period amplitude high level offset low level phase and duty cycle As is shown in Figure 2 6 in the soft key menu select Duty Cursor is located in the duty parameter area in the parameter display window and use
35. fers the options of DC output or Arbitrary Waveform Output Sync Switch offers the option to choose the Sync Signal or not Output Setting provides the parameter setting for Load Impedance and Normal Inverse The System Setting provides the setting for Language Display Beep Screen Guard Format Power System Configure and default setting Test provides the self testing and calibration function Press Utility button to enter the Utility Menu Its functions are listed below in Table 2 26 Figure 2 51 Table 2 26 Menu Explanations of Utility System Setting Page1 2 Function Settings Explanation Menu DC Set the output waveform to be DC Set On the output waveform to be arbitrary Copy Copy settings of the source channel On to the other s Set the copy function disabled Output Set the output parameter Fic Frequency counter Figure 2 52 Table 2 27 Menu Explanations of Utility System Setting Page2 2 Function Settings Explanation Menu Se Set the system configuration Test Cal o Test and calibrate the instrument Edit Info SI Information of the system Update Update function www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set the DC Output Press Utility DC On to enter the following interface Please note that there is a Direct Current On sign at the middle left of the screen 0 000Udc Figure 2 53 DC Setting Interface DC Offset Set the DC voltage level To Shift in
36. fset Press Offset to choose Offset which will display in white color 2 Input 0 from the keyboard and choose the unit Vdc The Offset is set to be 0 Vdc e Set the duty Press Duty to choose Duty which will display in white color 2 Input 30 from the keyboard and choose the unit The duty is set to be 30 When the frequency amplitude offset and duty cycle are set the wave generated is shown in Figure 3 2 45 E OS a Hi Waveform 5 000 O00KZ 2 O00 0 Onde Figure 3 2 Square Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 3 Generate a Ramp Wave Generate a ramp wave with 10us period 100mVpp amplitude 20mVdc offset 45 phase and 30 symmetry gt Steps e Set the period Press Ramp Freq and choose Period which will display in white color 2 Input 10 from the keyboard and choose the unit us The period is set to be 10us e Set the amplitude Press Ampl to choose Ampl which will display in white color 2 Input 100 from the keyboard and choose the unit mVpp The amplitude is set to be 100mVpp Set the offset Press Offset to choose Offset which will display in white color 2 Input 20 from the keyboard and choose the unit mVdc The offset is set to be 20mVdc e Set the phase Press Phase to choose Phase which will display in white color 2 Input 45 from the keyboard and choose th
37. ge a signal digit value whose range is 0 9 Clockwise to increase 1 www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Use Store Utility Help Function As shown in Figure 1 19 there are three buttons on the operation panel which are used to call the store recall utility and help function The instruction below will help you familiarize with these functions Raai umy Ho Figure 1 19 Store Recall Utility and Help Button The Store Recall button is used to store waveform data and configure information 2 The Utility button is used to set the auxiliary system function change the output configure parameters interface setting system setting information or perform the instrument self test and read the calibration information etc 3 The Help button is used to read the help information www tmatlantic com AWG Series Function Arbitrary Waveform Generator Chapter 2 Operating Your Generator Up to now you have got a brief understanding about AWG series with the front rear panel every function control area and keys You should also know how to set your Function Arbitrary Waveform Generator for your usage If you are not familiar with these operations you are suggested to read chapter one Getting Started again This chapter covers the following topics m Setting Sine Signal m Setting Square Signal m Setting Ramp Signal m Setting Pulse Signal m Setting Noise Signal m Setting Arb Signal
38. gnal not the carrier signal e For ASK and FSK the Sync Signal Reference is the keying Frequency e For a Sweep when the sweep starts the Sync Signal becomes TTL Level High The Sync frequency equals the specific Sweep time e For the Burst when the burst starts the Sync Signal is Level High e For the External Gated Burst the Sync Signal follows the External Gated Signal To measure the frequency AWG Series have included a frequency counter which could measure frequency from 100mHZ to 200MHZ Press Utility gt Count to enter the following interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 56 Table 2 29 Menu Explanations of Frequency Counter Function Settings Explanation Menu Period Mesure perio Duty Measure duty a Eroe a NWidth Measure negative width Setup Set the count configuration Figure 2 57 Table 2 30 Menu Explanations of Setup Function Settings Explanation Moe fe Set the coupling mode to AC Dama fst iso Open the high frequency rejection filter Close the high frequency rejection To Set the System Press Utility System to enter the following interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 58 Table 2 31 Menu Explanations of System Setup Page 1 2 Settings Explanation Menu Number Set the number format format o Power On All the settings return to default when Defaul
39. hite color Input 5 from the keyboard and choose the unit kHz to set the frequency SKHz 3 Press Ampl and choose Ampl which will display in white color Input 5 from the keyboard and choose the unit Vpp to set the amplitude 5Vpp 4 Press Offset and choose Offset which will display in white color Input 0 from the keyboard and choose the unit Vdc to set the offset O0Vdc e Set the modulation type ASK and parameters 1 Press Mod Type ASK choose ASK Please notice that the message shown on the middle left side of the screen is ASK Mod 2 Press Key Freq input 500 from the keyboard and choose the unit Hz to set the key freq 500 Hz When all parameters above are set the wave generated is shown in Figure 3 13 300 000Hz Figure 3 13 ASK Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Chapter 4 Troubleshooting General Inspecting After receiving a new AWG Series Function Arbitrary Waveform Generator please inspect the instrument as followed 1 Inspect the shipping container for damage Keep the damaged shipping container or cushioning material until the contents of the shipment have been checked for completeness and the instrument has been checked mechanically and electrically Inspect the whole instrument In case there 1s any mechanical damage or defect or the instrument does not operate properly or fails performance
40. lue will be used 2 Input the desired load value Use the keypad or the knob to enter the desired value and choose the unit Q or KQ press the corresponding button _ Normal Figure 2 55 Set the Output Load www tmatlantic com AWG Series Function Arbitrary Waveform Generator Instruction AWG Series has a fixed 500 Series Impendence No matter what value the set parameter is if the real load is different from the set one the displayed voltage will not equal the real voltage 2 ToSetthe Invert Waveform Press Utility Output Setup Invert to set the Inverse Waveform Output When the waveform is inverse no offset will change 3 To Set the Sync Output The generator provides Sync output through the Sync connector on the rear panel All standard output functions except DC and Noise have a corresponding Sync signal For some applications they can be disabled if users do not want to use it e In the default setting the Sync signal should be connected to the Sync connector activated When the Sync Signal is disabled the output voltage of the Sync connector is level low e In the Inverse Mode the Waveform that corresponds to the Sync Signal does not inverse e The Sync Signal is a Pulse Signal with fixed positive pulse width which is more than 50ns e For non modulated waveform the Sync Signal reference is the carrier e For internal modulating AM FM and PM the Sync signal reference is the modulated si
41. m Parameter AM The modulated waveform consists of two parts the carrier waveform and the modulating waveform In AM the amplitude of the carrier waveform varies with the instantaneous voltage of the modulating waveform The parameters for the AM are in Table 2 14 Press Mod Type AM to enter the following menu www tmatlantic com AWG Series Function Arbitrary Waveform Generator Fipure 2 29 Table 2 14 Menu Explanations of the AM Parameters re agi Explanati Seno s Apilanallor Menu 5 P Set the modulating waveform frequency AM Freq Frequency range 2mHz 20kHz internal source only AM Set the amplitude range Depth Sine Square Triangle Choose the modulating waveform To change UpKamp the carrier waveform parameter press DnRamp Sine Square etc Noise Arb Internal The source is internal The source is external Use the Modulation External In connector in the rear panel Term Explanation Modulation Depth The amplitude range also called Percentage Modulation Modulation depth varies from 1 to 120 e In the 0 modulation the output amplitude is the half of the set one e Inthe 100 modulation the output amplitude is the same with the set one e For an external source the depth of AM is controlled by the voltage level of the connector connected to the Modulation In 6V corresponds to the currently set depth 100 FM The modulated waveform consists of two parts the c
42. metry Use the keypad or the knob to input the desired value choose the unit and press the corresponding button The generator will change the waveform immediately Figure 2 11 Setting the Symmetry www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set Pulse Signals Press Pulse button to call the pulse operation The pulse waveform parameters are set by using the pulse operation menu The parameters for pulse waveforms are frequency period amplitude high level offset low level pulse width and delay As is shown in Figure 2 12 in the soft key menu select PulWidth Cursor is located in the pulse width parameter area in the parameter display window and users can set the pulse width value here Figure 2 12 Pulse Parameter Display Interface Figure 2 13 Table 2 4 Menu Explanations of Pulse Waveform Function Settings Explanation e el see Set the signal frequency or period Ampl The current parameter will switch at a second press Set the signal amplitude or high level The current parameter will switch at a second press PulWidth The current parameter will switch at a second press Set the signal pulse width or duty The current parameter will switch at a second press Setting the delay for pulse waveform Offset E Set the signal offset or low level Term Explanation Pulse Width Positive Pulse Width the time span between thresholds of 50 of the rising edge amplitude to
43. nals Its combination of excellent system features easiness in usage and versatile functions makes this generator a perfect solution for your job now and in the future AWG Series Function Arbitrary Waveform Generator has a clear and simple front panel The user friendly panel layout and instructions versatile terminals direct graph interface built in instructions and help system have greatly simplified the operation process with the help of which users do not have to spend a great deal of time learning and familiarizing the operation of the generator before they can use it proficiently The built in AM FM PM ASK and FSK modulation functions generate modulated waveforms at ease without the help of a separate modulating source USB I O 1s a standard accessory while LAN and GPIB are optional Remote instructions meet the SCPI specification requirements From the characteristics and specifications given below you will understand how AWG can satisfy your requirements e DDS technology provides precise stable and low distortional output signal e 3 5 TFT color LCD display e 125MSa s sampling rate 14 bit resolution e Frequency characteristics Sine luHz to 50 MHz Square luHz to 25 MHz Ramp luHz to 300 kHz Pulse 500uHz to 10MHz White Noise SOMHz bandwidth 3dB Arbitrary 1uHz to SMHz e 5 standard waveforms Sine Square Ramp Pulse Noise e Self defined arbitrary waveform Multiple modulation function various modulated waveform
44. nction Arbitrary Waveform Generator Figure 2 22 Table 2 9 Menu Explanations of Built In Arbitrary Waveform Function Settings Explanation Menu Common Common pr Select common waveform Math e Select math waveform Project Select project waveform Winfun Select windows function Triangle triangle waveform Choice Validate the built in waveform StairUp _NPulse_ Trapezia UpRamp DnRamp_ Figure 2 23 Common Built In Arbitrary Waveform interface Table 2 10 Menu Explanations of Common Built In Arbitrary Waveform Function Settings Explanation Frome ean een ind e Waveform I me waveform P Se waveform lL ee waveform C e e waveform Bonini DIO car waveform baud E Select the built in up ramp waveform M nTn waveform ExpFall LogFall Figure 2 24 Math Built In Arbitrary Waveform Interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Table 2 11 Menu Explanations of Math Built in Arbitrary Waveform Function Settings Explanation Menu Select the built in exponential fall waveform Select he built in exponential rise waveform Select the built in logarithmic fall waveform Select the built in logarithmic rise waveform Select the built in sinc waveform Sine sin x x Select the built in gaussian modulated sinusoidal pulse waveform Select the built in Gaussian monopulse waveform Select the built in triangle pulse waveform
45. o be 40us e Set the Delay Press Delay and choose Delay which will display in white color 2 Input 20 from the keyboard and choose the unit ns The delay is set to be 20ns When the frequency high level low level pulse width and delay are set the wave generated is shown in Figure 3 4 www tmatlantic com AWG Series Function Arbitrary Waveform Generator SI N 5 000 QOOkHz 40 us Figure 3 4 Pulse Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 5 Generate a Noise Wave Generate a noise waveform with 50mVpp amplitude and 5mVdc offset gt Steps e Set the Amplitude l Press Noise Ampl and choose the Ampl which will display in white color pa Input 50 from the keyboard and choose the unit mVpp The amplitude is set to be 50 mVpp e Set the Offset 1 Press Offset to choose Offset which will display in white color Input 5 from the keyboard and choose the unit mVdc The offset is set to be 1OmVdc m When the amplitude and offset are set the wave generated is shown in Figure 3 5 Figure 3 5 Noise Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 6 Generate an Arbitrary Wave Generate an arbitrary waveform Sinc with 5MHz frequency 2Vrms amplitude and 0Vdc offset gt Steps e Set the type of the arbitrary waveform Press Arb 1 2 LoadWform to choose the b
46. on for the operation and functions of the front rear panel The AWG Series Function Arbitrary Waveform Generator has a clear and simple front panel See Figure 1 2 and Figure 1 3 The front panel has a knob and functional keys The 5 blue grey buttons on the right side of the screen are menu buttons named F1 to F5 from up to down with the help of which you can enter different functions menu or have direct specific applications The signal input and output interfaces are set at the front and rear panels which can help generating multiple arbitrary waveforms The various interfaces can meet the need of the multiple interface communications Figure 1 2 Front Panel of AWG Series www tmatlantic com AWG Series Function Arbitrary Waveform Generator Menu Number Operation Keys Knob 1 00 st Direction Key Waveform Output fia C Selection iodio ontrol Figure 1 3 Front Panel of AWG Series 10MHz In Sync Out Ext Trio Gate DE Modulation STO Socket In Figure 1 4 Rear Panel of AWG Series www tmatlantic com AWG Series Function Arbitrary Waveform Generator Waveform Operation Menu Display Window Different functions have different menus Parameter Display and Editing Window Figure 1 5 Display Interface Sine Wave is the default display signal Character definitions in this User Manual The signs for buttons in this manual are the same as the panel buttons Please note that th
47. plitude and offset of the carrier wave Press Sine and choose the sine waveform as the carrier wave Press Freq and choose Freq which will display in white color Input 10 from the keyboard and choose the unit kHz to set the frequency 10kHz Press Ampl and choose Ampl which will display in white color Input 1 from the keyboard and choose the unit Vpp to set the amplitude 1 Vpp Press Offset and choose Offset which will display in white color Input 0 from the keyboard and choose the unit Vdc to set the offset 0Vdc Set the modulation type FM and parameters Press Mod Type FM choose FM Please notice that the message shown on the middle left side of the screen is FM Mod Press FM Freq input 1 from the keyboard and choose the unit Hz to set the AM Freq 1Hz Press FM Dev input 2 from the keyboard and choose the unit KHz to set the FM deviation 2K Hz Press Shape Sine to choose sine wave as the modulating waveform When all parameters above are set the wave generated is shown in Figure 3 10 Figure 3 10 FM Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 11 Generate a PM Wave Generate a PM waveform the carrier 1s a sine wave with 10 kHz frequency and the modulating wave is a sine wave with 2 kHz frequency 90 phase deviation gt Steps e Set the frequency amplitude and offset of the carrier wave
48. r foam keep them until the whole machine and the accessories pass the electric and mechanical testing 2 Checktheaccessories Accessories supplied with the instrument are listed in chapter 6 Appendix A Accessories If the contents are incomplete or damaged please notify your AKTAKOM sales representative 3 Inspect the instrument In case any mechanical damage or defect or if the instrument does not operate properly or pass performance tests notify your AKTAKOM sales representative If the shipping container is damaged or the cushioning materials show signs of stress notify the carrier as well as your AKTAKOM sales office Keep the shipping materials for the carrier s inspection AKTAKOM offices will arrange for repair or replacement at AKTAKOM s option without waiting for claim settlement www tmatlantic com AWG Series Function Arbitrary Waveform Generator Handle Adjustment To adjust the handle position of AWG Function Arbitrary Waveform Generator please grip the handle by the sides and pull it outward Then make the handle rotate to the desired position jibes Figure 1 1 Viewing Position and Carrying Position www tmatlantic com AWG Series Function Arbitrary Waveform Generator The Front Rear Panel When you get a new AWG Series Function Arbitrary Waveform Generator first you need to understand how to operate the front rear panel correctly This chapter will make a brief introduction and descripti
49. rate repeatable arbitrary waveform signals with at most 16K points and SMHZ frequency www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 1 12 Arbitrary waveform Signal Display Interface As shown in Figure 1 12 the default sine signal parameters are 1kHz frequency 4 0 Vpp amplitude and OmVdc offset www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set Modulate Sweep Burst As shown in Figure 1 13 there are three buttons on the front panel which are used for modulation sweep and burst settings The instructions below will help you familiarize with the setting of these functions Figure 1 13 Modulate Sweep Burst button 1 Press Mod button and the modulated waveforms will be generated The modulated waveform can be changed by modifying the parameters such as type internal external modulation depth frequency waveform etc AWG Series can modulate waveform using AM FM PM ASK and FSK Sine square ramp or arbitrary waveforms can be modulated pulse noise and DC can not be modulated Figure 1 14 Modulated Waveform Display Interface 2 Press Sweep button sine square ramp or arbitrary waveform can be swept pulse noise and DC can not be swept In the sweep mode AWG Series generate signal with variable frequencies www tmatlantic com AWG Series Function Arbitrary Waveform Generator Stop F eg Figure 1 15 Sweep Waveform Display Interface 3
50. re 2 61 According to the different choices of the point and the separator the format can have various forms 1 as point press Separator gt On the example is as followed 1 000 000khz Figure 2 62 Set Format 2 Fas point press gt Separator gt On the example is as followed 1 000 000kHz www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 63 Set Format 3 as point press Separator gt Off the example is as followed 1 Q00000kriz Figure 2 64 Set Format 4 F as point press Separator gt Off the example is as followed 1 000000kHz Figure 2 65 Set Format 5 as point press Separator gt Space the example is as followed 1 000 QOCKtZ Figure 2 66 Set Format 6 F as point press Separator gt Space the example is as followed 1 000 000khz Figure 2 67 Set Format 3 Language Setup The AWG Series Generator offers two languages English and Simplified Chinese for user to choose To Select Language press Utility and then Language to select the language The Procedure is as followed Press Utility System Language to change the language 4 To Return to Default Setting Press Utility System Set to Default to set the system to the default setting The default settings of the system are as followed www tmatlantic com AWG Series Function Arbitrary Waveform Generator Table 2 34 Factory Default Setting Phase
51. rithmic spacing Direct ii Sweep upward Sweep downward www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Generate Burst Burst function can generate versatile waveforms in burst which can last specific times of waveform cycle N Cycle burst or when external gated signals gated burst is applied any waveform could be used but noise can only be used in Gated Burst Press Burst button to enter the following interface Set the waveform parameters by using the operation menu Figure 2 41 Setting Interface of Burst Waveform Parameter Set the N Cycle Burst Press Burst N Cycle to enter the following interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 42 Table 2 21 Menu Explanations of the N Cycle Parameters Page 1 2 Function Settinos Explanation Menu Period _ Set the burst Period Set the start phase of the burst Use the N Cycle mode atei Use the Gated mode Choose internal source Choose external source use the External EXT Trig Gate Fsk Burst connector in the rear panel Choose external source set the start time Manual by hand Burst Period Set the time span between an N Cycle burst and the next If necessary the period will increase to allow the specific number of cycles in a burst Burst Period gt Carrier Period Burst Number Ir ernal Source Start Phase Define the start point in a waveform The ph
52. rm length 16 kpts vertical resolution 14 bits Waveform Sine Square Triangular Pulse Gaussian Noise 48 types of arbitrary waveform Pe area e luHz 5 Dimension WxHxD 229mm x 105mm x 281mm Attention All these specifications apply to the AWG Series Function Arbitrary Waveform Generator unless otherwise explanation To satisfy these specifications the following conditions must be met first 1 The instrument have been operating continuously for more than 30 minutes within specified operating temperature range 18 C 28 C 2 You must perform the Self Cal operation if the operating temperature changes by more than SC Note all specifications are guaranteed except noted typical value www tmatlantic com AWG Series Function Arbitrary Waveform Generator Frequency Specification e AWG 4105 AWG 4110 AWG 4150 Waveform Sine Square Ramp Triangle Pulse Noise Arb luHz SMHz luHz 25MHz Accuracy Within 90daysv 50 ppm within 1 year 100 ppm 18 C 28 C Temperaturecoefficient lt 5 ppm C Sine Wave Spectrum Purity Harmonic Distortion CHI CH2 1 MHz 5 MHz 55 dBc 40 dBc Total harmonic waveform distortion DC 20kHz 1 Vpp lt 0 2 Spurious signal Cnon harmonic DC 1 MHz lt 70 dBc 1 MHz 10 MHz lt 70 dBc 6 dB spectrum phase Phase noise 10kHz Offset 108 dBc Hz typical value Square Wave Rise fall time 10 90 typical value 1 kHz 1 de Ie 5 Du
53. rs can set the duty value here Freq Ampl Figure 2 6 Square Parameter Display Interface Figure 2 7 Table 2 2 Menu Explanations of Square Waveform Function Settings Explanation Menu Freq Set the signal frequency or period Period Ampl HLevel The current parameter will switch at a second press Set the signal amplitude or high level The current parameter will switch at a second press press Phase EqPhase Set the phase of the signal The current parameter will switch at a second press Set the duty cycle for square waveform Offset Set the signal offset or low level LLevel The current parameter will switch at a second Term Explanation Duty Cycle The percentage that the high level takes up the whole period Please Note for the Frequency Duty Cycle Value Below 10MHz 20 to 80 From 10MHz to20MHz included 40 to 60 Higher than 20MHz 50 To Set the Duty Cycle l Press Square Duty to set the duty cycle The duty cycle shown on the screen when the instrument is powered is the default value or the set value beforehand When changing the function if the current value is valid for the new waveform it will be used sequentially 2 Input the desired Duty Cycle Use the keypad or the knob to input the desired value choose the unit and press the corresponding button The generator will change the waveform immediately Figure 2 8 Setting the Duty Cycle www tmatlantic com
54. t powered All the settings return to the last one Last when powered detto Set all the settings to default om Pe Figure 2 59 Table 2 32 Menu Explanations of System Setup Page 2 2 Function Settings Explanation Menu Beep On Open beep Off Close beep Activate the screen saver program 7 screen saver will be on if no action is taken within the time that you have selected Press any button the resume Internal Deactivate the screen saver program Clock lateral Choose the system clock source External Key points Power On Choose the configuration setting when the machine is powered Two choices are available the default setting and the latest Once selected the setting will be used when the instrument is powered Beep Activate or deactivate the sound when an error occurs from the front panel or the remote interface Activate or deactivate any sound made by the button or knob on the front panel The current setting is stored in the non volatile memory 1 Set the Format Press Utility System Number Format to enter the following interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator 0 OnVde Figure 2 60 Set the number Format Table 2 33 Menu Explanations of Setting the Number Format Function Settings Explanation F Sp Ee Using comma to represent point Separator On Off Enable the Separator Space Close the Separator Use Space to separate Figu
55. tests notify the AKTAKOM sales representative If the shipping container is damaged or the cushioning materials show signs of stress notify the carrier as well as the AKTAKOM sales department Keep the shipping materials for carrier s inspection Check the accessories Accessories supplied with the instrument are listed below If the contents are incomplete or damaged notify the AKTAKOM sales representative Standard Accessories e A User Manual e A Certification e A Guaranty Card e A CD ncluding EasyWavel 0 computer software system e A Power Cord that fits the standard of destination country e A USB Cable www tmatlantic com AWG Series Function Arbitrary Waveform Generator Troubleshooting 1 After the waveform generator is powered on the screen remains dark please do the following steps 1 Check the power cable s connection 2 Ensure the power switch is turned on 3 After the inspections above restart the waveform generator 4 If the generator still doesn t work after the checking please connect with AKTAKOM company 2 If there is no signal wave output after setting the parameters please do as following steps 1 Check whether the BNC cable has connected with output channel or not 2 Check whether the output button have been turned on or not www tmatlantic com AWG Series Function Arbitrary Waveform Generator Chapter 5 Service and Support Maintain summary AKTAKOM warrants
56. the next 50 of the falling edge amplitude Negative Pulse Width the time span between thresholds of 50 of the falling edge amplitude to the next 50 of the rising edge amplitude To Set the Pulse Width 1 Press Pluse PulWidth to set the pulse width The pulse width shown on the screen when the instrument is powered is the default value or the set value beforehand When changing the function if the current value is valid for the new waveform it will be used sequentially 2 Input the desired Pulse Width Use the keypad or the knob to input the desired value choose the unit and press the corresponding button The Generator will change the waveform immediately Figure 2 14 Setting the Pulse Width To Set the Delay 1 Press Pulse Delay to set the delay The delay shown on the screen when the instrument is powered is the default value or the set value beforehand When changing the function if the current value is valid for the new waveform it will be used sequentially www tmatlantic com AWG Series Function Arbitrary Waveform Generator 2 Input the desired delay Use the keypad or the knob to input the desired value choose the unit and press the corresponding button The generator will change the waveform immediately Figure 2 15 Setting the Delay www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Set Noise Signals Press Noise button to call the gaussian white noise operation Th
57. tion o ua cui Set the frequency at which the output frequency shifts between the carrier freque ncy and the hop frequency internal modulation only mHz 50KHz Frequency shift keying modulation External The source is external Use the Ext Trig Gate Fsk Bu rst connector in the rear panel PM The modulated waveform consists of two parts the carrier waveform and the modulating waveform In PM the phase of the carrier waveform varies with the instantaneous voltage level of the modulating waveform The parameters for the PM are as shown in Figure 2 36 M00 000z 1 000khz 1 000Vpp Figure 2 36 The Setting Interface of PM Waveform Parameter Press Mod Type gt PM enter the following interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 37 Table 2 18 Menu Explanations of the PM Parameters Pm Freq PM Freq Set the modulating waveform frequency Frequency range a 2mHz 20kHz internal source only Phase Dev Set the phase deviation between the modulating waveform and the carrier waveform ranging from 0 to 360 POSSI ema Choose the modulating wavefor m To change the carrier wavefo rm parameter press Sine Square etc Source Internal The source is internal ne The source is external Use the Ext Trig Gate Fsk Burst conne ctor in the rear panel www tmatiantic com AWG Series Function Arbitrary Waveform Generator To Generate Sweep
58. tions in the amplitude of a carrier wave The amplitude of an analog carrier signal varies in accordance with the bit stream modulating signal keeping frequency and phase constant The parameters for the ASK are as shown in Figure 2 32 Figure 2 32 Setting Interface of ASK Waveform Parameter Press Mod Type ASK to enter the following menu www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 33 Table 2 16 Menu Explanations of the ASK Parameters Function Settings Explanation Menu Key Freq Set the frequency at which the output amplitude shifts between the carrier and zero internal Amplitude shift keying modulation The source is external Use the Ext Trig Gate Fsk Burst connector in the rear panel FSK The FSK Modulation is a modulation method the output frequency of which switches between two the pre set frequencies carrier waveform frequency and the hop frequency The frequency at which the output frequency switches is called the key frequency The key freq is determined by the internal frequency generator or the signal voltage level offered by the Ext Trig Gate Fsk Burst connector in the rear panel M00 000z Figure 2 34 Setting Interface of FSK Waveform Parameter Press Mod Type FSK to enter the following interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 35 Table 2 17 Menu Explanations of the FSK Parameters Func
59. to the Arbitrary Waveform Output l Press Utility DC DC Off to close DC output and return to arbitrary waveform output 2 Press any functional button and the waveform output setting turns into the arbitrary waveform output The DC option is turned off automatically To copy the settings Press Utility Copy On to copy the settings to the other s channel To Set Output Parameter Press Utility Output Setup to enter the following interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator Figure 2 54 Table 2 28 Menu Explanations of Output Setting Page 1 2 Function Settings Explanation Menu Set the load connected to the Load Output Connector Set the load nese connected to the Output High Z Connector to be een ke Invert Inverse oii Sync Open Sync output Close Sync output 1 To Set the Output Load For the Output Connector on the Front panel the Generator has a built in 50Q series impendence If the actual load does not match the set one the displayed amplitude and offset will be incorrect This function is used to match the displayed voltage with the expected one Steps for setting the load 1 Press Utility Output Setup Load to enter the following interface Please note that the load parameter shown on the right bottom is the default setting when the power is on or the pre set load value If the current value is valid for the output then current va
60. ty 1 uHz 10 MHz 20 80 10 MHz exclude 20 MHz 40 60 20 MHz exclude 25 MHz Asymmetric 50 Duty Cycle Cycle 1 20 ns typical value 1 kHz 1 Vpp Vpp www tmatlantic com AWG Series Function Arbitrary Waveform Generator Ramp Wave e lt Peak value output0 1 typical value 1kHz 1 Vpp L an symmetric 100 0 to 100 Pulse Wave Specification Pulse width Max 2000s Min 20 ns Min resolution 1 ns Rise Fall time 10 90 typical value 1 kHz 1 6 ns cycle 100 ppm Arbitrary Waveform Specification Waveform length 16k points Vertical resolution 14 bits Cinclude symbol Sample rate 125 MSa s Min Rise Fall time 20ns typical value Jitter RMS 6ns 30ppm typical Storage in non volatile RAM 10 waveforms 10 waveforms memory 10 in total Output Specification Output CH 1 Amplitude 2 mVpp 10 Vpp 500hm lt 10MHz 2 mVpp 3 Vpp 50ohm 2 mVpp 5 Vpp 50ohm gt 10MHz 4mVpp 6 Vpp Chigh 4mVpp 20 Vpp Chigh impedance lt 10MHz 4 mVpp 10 Vpp high impedance gt 10MHz Vertical resolution 1 1 mVpp of setting value 1 1 mVpp of setting 100 kHz sine value waveform Amplitude flatness lt 100 kHz 0 1 dB lt 100 kHz 0 1 dB compared to 100 kHz sine waveform 5 Vpp 100 kHz 5 MHz 0 15 dB 100 kHz 5 MHz 0 15 dB gt 5 MHz 0 3 dB gt 5 MHz 0 3 dB DC Offset Range DC 5V 50ohm 1 5V 500hm 10 V high impedance 3V high impedance
61. uilt in waveform Press BuiltIn Math There are sixteen math arbitrary waveforms Choose Sinc and press Choice to enter Arb Main Menu e Set the frequency Press Freq and choose Frequency which will display in white color 2 Input 5 from the keyboard and choose the unit MHz The frequency is set to be SMHz e Set the amplitude Press Ampl to choose Ampl which will display in white color 2 Input 2 from the keyboard and choose the unit Vrms The amplitude is set to be 2 Vrms e Set the offset Press Offset to choose Offset which will display in white color 2 Input 0 from the keyboard and choose the unit Vdc The offset is set to be 0 Vdc When the arbitrary waveform s type frequency amplitude and offset are set the wave generated 1s shown in Figure 3 6 1 5 000 000 0 0 Figure 3 6 Sinc Waveform www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 7 Generate a Sweep Linear Wave Generate a sine sweep waveform whose frequency starts from 100Hz to 10K Hz Use internal trigger mode linear sweep and the sweep time is 2s gt Steps l Set the sweep function Press Sine and choose the sine waveform as the sweep function The default setting of the source is internal Set the frequency amplitude and offset Press Freq and choose Freq which will display in white color Input 5 from the keyboard and choose the unit
62. waveform 2 To Select the Stored Waveform Press Arb Load Wform gt Stored Wforms and enter the following interface As is shown in Figure 2 27 use the direction keys or knob to choose the corresponding arbitrary waveform and press Choice Stored WAVELL Worms CH1 Wavefrom __Load Hi Z 00D 0 000Vdc Figure 2 27 Stored Wform Display Interface www tmatlantic com AWG Series Function Arbitrary Waveform Generator To Generate the Modulated Waveform Use the Mod button to generate modulated waveform A WG Series can generate AM FM ASK FSK and PM modulated waveforms Modulating parameters vary with the types of the modulation In AM users can set the source internal external depth modulating frequency modulating waveform and carrier waveform In FM users can set the source internal external frequency deviation modulating waveform and carrier waveform In ASK users can set the source internal external modulating waveform and carrier waveform In FSK users can set the source internal external frequency range key frequency modulating waveform and carrier waveform In PM users can set the source internal external phase deviation modulating frequency modulating waveform and carrier waveform We will cover how to set these parameters in details according to the modulation types AM Freq Carrier Amplitude Pesce i 000kHz Figure 2 28 The Display Interface of Modulated Wavefor
63. will display in white color Input 10 from the keyboard and choose the unit kHz to set the frequency 10kHz 2 Press Ampl to choose Ampl which will display in white color Input 1 from the keyboard and choose the unit Vpp to set the amplitude 1 Vpp 3 Press Offset to choose Offset which will display in white color Input 0 from the keyboard and choose the unit Vdc to set the offset OVdc e Set the sweep mode Press Burst gt N Cycle choose N Cycle Mode e Set the burst period Press Period input 3 from the keyboard and choose the unit ms to set the period 3ms e Set the start phase Press Start Phase input 3 from the keyboard and choose the unit to set the start phase 0 e Set the burst cycles Press 1 2 Choose Cycles Input 5 from the keyboard and choose the unit Cycle to set the burst cycle 5 e Set the delay Press Delay and input 100 from the keyboard and choose the unit us to set the www tmatlantic com AWG Series Function Arbitrary Waveform Generator delay 100us When all parameters above are set the wave generated 1s shown in 8 Figure 3 8 Burst Waveform Output www tmatlantic com AWG Series Function Arbitrary Waveform Generator Example 9 Generate an AM Wave Generate an AM waveform with 80 depth The carrier is a sine wave with 10 kHz frequency and the modulating wave is a sine wave with 200Hz frequency gt

User Manual

Contents

Download Pdf Manuals

Related Search

Related Contents