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TEXIO FGX-2220, Instruction Manual

The TEXIO FGX-2220 is a high-quality function generator designed for precision testing and measurement. Ensure optimum performance by referring to the Instruction Manual available for free download from manualshive.com. This comprehensive manual provides step-by-step guidance on operating the FGX-2220 for accurate results in your testing applications.

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8-4-5. *SRE .................................................................................................. 137

 

8-5. System Remote Commands ...........................................137

 

8-5-1. SYSTem:LOCal ................................................................................. 137

 

8-5-2. SYSTem:REMote .............................................................................. 138

 

8-6. Apply Commands ...........................................................138

 

8-6-1. SOURce[1|2]:APPLy:SINusoid .......................................................... 139

 

8-6-2. SOURce[1|2]:APPLy:SQUare ............................................................ 140

 

8-6-3. SOURce[1|2]:APPLy:RAMP .............................................................. 140

 

8-6-4. SOURce[1|2]:APPLy:PULSe ............................................................. 141

 

8-6-5. SOURce[1|2]:APPLy:NOISe .............................................................. 141

 

8-6-6. SOURce[1|2]:APPLy:USER ............................................................... 142

 

8-6-7. SOURce[1|2]:APPLy? ........................................................................ 142

 

8-7. Output Commands .........................................................142

 

8-7-1. SOURce[1|2]:FUNCtion ..................................................................... 143

 

8-7-2. SOURce[1|2]:FREQuency ................................................................. 144

 

8-7-3. SOURce[1|2]:AMPlitude .................................................................... 145

 

8-7-4. SOURce[1|2]:DCOffset ...................................................................... 146

 

8-7-5. SOURce[1|2]:SQUare:DCYCle .......................................................... 147

 

8-7-6. SOURce[1|2]:RAMP:SYMMetry ......................................................... 147

 

8-7-7. OUTPut[1|2] ....................................................................................... 148

 

8-7-8. OUTPut[1|2]:LOAD ............................................................................ 149

 

8-7-9. SOURce[1|2]:VOLTage:UNIT ............................................................ 149

 

8-8. Pulse Configuration Commands......................................150

 

8-8-1. SOURce[1|2]:PULSe:PERiod ............................................................ 150

 

8-8-2. SOURce[1|2]:PULSe:WIDTh ............................................................. 151

 

8-9. Amplitude Modulation (AM) Commands  ..........................152

 

8-9-1. AM Overview ..................................................................................... 152

 

8-9-2. SOURce[1|2]:AM:STATe ................................................................... 153

 

8-9-3. SOURce[1|2]:AM:SOURce ................................................................ 153

 

8-9-4. SOURce[1|2]:AM:INTernal:FUNCtion ................................................ 154

 

8-9-5. SOURce[1|2]:AM:INTernal:FREQuency ............................................ 154

 

8-9-6. SOURce[1|2]:AM:DEPTh ................................................................... 155

 

8-10. Frequency Modulation (FM) Commands  ........................156

 

8-10-1. FM Overview .................................................................................... 156

 

8-10-2. SOURce[1|2]:FM:STATe ................................................................. 156

 

8-10-3. SOURce[1|2]:FM:SOURce .............................................................. 157

 

8-10-4. SOURce[1|2]:FM:INTernal:FUNCtion .............................................. 157

 

8-10-5. SOURce[1|2]:FM:INTernal:FREQuency .......................................... 158

 

8-10-6. SOURce[1|2]:FM:DEViation ............................................................. 159

 

8-11. Frequency-Shift Keying (FSK) Commands ....................160

 

8-11-1. FSK Overview .................................................................................. 160

 

8-11-2. SOURce[1|2]:FSKey:STATe ............................................................ 160

 

8-11-3. SOURce[1|2]:FSKey:SOURce ......................................................... 161

 

8-11-4. SOURce[1|2]:FSKey:FREQuency ................................................... 161

 

Summary of Contents for FGX-2220

Page 1: ...B71 0406 01 INSTRUCTION MANUAL ARBITRARY FUNCTION GENERATOR FGX 2220...

Page 2: ...are the trademark or the registered trademark of each company or group in each country and region About the Instruction Manual Permission from the copyright holder is needed to reprint the contents of...

Page 3: ...dulation 12 2 4 5 SUM Modulation 13 2 5 Sweep 13 2 6 Burst 14 2 7 ARB 15 2 7 1 ARB Add Built In Waveform 15 2 7 2 ARB Add Point 15 2 7 3 ARB Add Line 15 2 7 4 ARB Output Section 16 2 8 Utility Menu 16...

Page 4: ...Carrier Frequency 37 4 1 4 Modulating Wave Shape 38 4 1 5 AM Frequency 39 4 1 6 Modulation Depth 40 4 1 7 Selecting the AM Modulation Source 41 4 2 Frequency Modulation FM 42 4 2 1 Selecting Frequenc...

Page 5: ...6 6 Marker Frequency 73 4 6 7 Sweep Trigger Source 74 4 7 Burst Mode 75 4 7 1 Selecting Burst Mode 75 4 7 2 Burst Modes 76 4 7 3 Burst Frequency 76 4 7 4 Burst Cycle Burst Count 77 4 7 5 Infinite Bur...

Page 6: ...0 7 3 4 Clear the Waveform 111 7 3 5 ARB Protection 113 7 4 Ouput an Arbitrary Waveform 115 7 4 1 Ouput Arbitrary Waveform 115 7 5 Saving Loading an Arbitrary Waveform 116 7 5 1 Saving a Waveform to I...

Page 7: ...8 7 9 SOURce 1 2 VOLTage UNIT 149 8 8 Pulse Configuration Commands 150 8 8 1 SOURce 1 2 PULSe PERiod 150 8 8 2 SOURce 1 2 PULSe WIDTh 151 8 9 Amplitude Modulation AM Commands 152 8 9 1 AM Overview 15...

Page 8: ...1 2 FREQuency CENTer 173 8 14 6 SOURce 1 2 FREQuency SPAN 174 8 14 7 SOURce 1 2 SWEep SPACing 175 8 14 8 SOURce 1 2 SWEep TIME 175 8 14 9 SOURce 1 2 SWEep SOURce 176 8 14 10 SOURce 1 2 MARKer FREQuen...

Page 9: ...8 19 2 SOURce 1 2 FREQuency COUPle OFFSet 194 8 19 3 SOURce 1 2 FREQuency COUPle RATio 195 8 19 4 SOURce 1 2 AMPlitude COUPle STATe 195 8 19 5 SOURce 1 2 TRACk 196 8 20 Save and Recall Commands 196 8...

Page 10: ...is incorrectly used in that part a serious danger may be brought about on the user s body or the product To use the part with this pictorial indication be sure to refer to the manuals WARNING If you...

Page 11: ...n 125VAC Accordingly you must change the power cord if you want to use the product at the power supply voltage higher than 125VAC If you use the product without changing power cord to 250VAC rated one...

Page 12: ...in and around a place where an inflammable or explosive gas or steam is generated or stored may result in an explosion and fire Do not operate the product in such an environment Also use in and aroun...

Page 13: ...fications stable For consultation about the product calibration ask us or your local dealer Daily Maintenance When you clean off the dirt of the product covers panels and knobs avoid solvents such as...

Page 14: ...waveform length 10 groups of 4k waveform memories True waveform output to display User defined output section DWR Direct Waveform Reconstruction capability Waveform editing via PC Features Sine Square...

Page 15: ...LCD display Return Key Return Goes back to the previous menu level Operation Keys Waveform The waveform key is used to select a type of waveform FREQ Rate The FREQ Rate key is used to set the frequenc...

Page 16: ...nnel select key is used to switch between the two output channels Output ports OUTPUT 50 50 CH2 CH1 CH1 Channel 1 output port CH2 Channel 2 output port Power Button Turns the power on or off Arrow Key...

Page 17: ...Trigger Counter Trigger MOD External trigger input Used to receive external trigger signals Trigger Output IN OUT Trigger Counter Trigger MOD Marker output signal Used for Sweep and ARB mode only Fan...

Page 18: ...Input IN OUT Trigger Counter Trigger MOD Modulation input terminal Display Soft Menu Keys Status Tabs Parameter Windows Waveform Display Parameter Windows The Parameter display and edit window Status...

Page 19: ...handle sideways and rotate it A FG 2 2 2 5 Place the FGX 2220 horizontally Or tilt the stand Place the handle vertically to hand carry Power Up 1 Connect the power cord to the socket on the rear panel...

Page 20: ...w keys and scroll wheel The following instructions will show you how to use the digital inputs to edit parameters 1 To select a menu item press the corresponding function keys below F1 F5 For example...

Page 21: ...Press Select to choose the item Keypad Provides help on any front panel key that is pressed Create Arbitrary Waveform Provides help on creating arbitrary waveforms Modulation Function Explains how to...

Page 22: ...3 Selecting a Waveform 2 3 1 Square Wave Example Square wave 3Vpp 75 duty cycle 1kHz Output 50 CH1 1 Press Waveform and select Square F2 Waveform Square 2 Press Duty F1 7 5 F2 Duty 7 5 Input N A 3 Pre...

Page 23: ...eform Sine 2 Press the Freq Rate key followed by 1 0 0 kHz F4 FREQ Rate 1 0 0 kHz 3 Press the AMPL key followed by 1 0 VPP F5 AMPL 1 0 VPP 4 Press the output key OUTPUT 2 4 Modulation 2 4 1 AM Example...

Page 24: ...he Freq Rate key followed by 1 kHz F4 FREQ Rate 1 kHz 4 Press the MOD key select FM F2 Shape F4 Square F2 MOD FM Shape Square 5 Press the MOD key select FM F2 FM Freq F3 MOD FM FMFreq 6 Press 1 0 0 Hz...

Page 25: ...800Hz sinusoidal carrier wave 15 kHz modulating sine wave 50 phase deviation Internal Source Output 50 CH1 1 Press Waveform and select Sine F1 Waveform Sine 2 Press the MOD key and select PM F4 MOD PM...

Page 26: ...F3 MOD SUM SUM Freq 6 Press 1 0 0 Hz F2 1 0 0 Hz 7 Press the MOD key and select SUM F5 SUM Ampl F2 MOD SUM SUM Ampl 8 Press 5 0 F1 5 0 9 Press MOD SUM F5 Source F1 INT F1 MOD SUM Source INT 10 Press t...

Page 27: ...ess FREQ Rate 1 kHz F4 FREQ Rate 1 kHz 2 Press Burst N Cycle F1 Cycles F1 Burst N Cycle Cycles Input N A 3 Press 5 Cyc F2 5 Cyc 4 Press Burst N Cycle F1 Period F4 Burst N Cycle Period 5 Press 1 0 msec...

Page 28: ...2 Return Length 1 0 0 Enter Return 4 Press Scale F3 327 Enter F2 Return Done F5 Scale 3 2 7 Enter Return Done 2 7 2 ARB Add Point Example ARB Mode Add point Address 40 data 300 Output 50 CH1 1 Press A...

Page 29: ...2 7 4 ARB Output Section Example ARB Mode Output ARB Waveform Start 0 Length 1000 Output 50 CH1 1 Press ARB Output F4 ARB Output 2 Press Start F1 0 Enter F2 Return Start 0 Enter Return 3 Press Length...

Page 30: ...put N A Input IN OUT Trigger Counter Trigger MOD 1 Press UTIL Counter F5 UTIL Counter 2 Press Gate Time F1 and press 1 Sec F3 to choose a gate time of 1 second Gate Time 1 Sec 3 Connect the signal of...

Page 31: ...select the amplitude coupling function Ampl Cpl On 3 Couples the amplitude and offset between both channels Any changes in amplitude in the current channel are reflected in the other channel 2 11 Tra...

Page 32: ...gated with the operation or soft menu keys Pressing the Return key will return you to the previous menu level 2 12 1 Waveform Duty Waveform Width nSEC uSEC mSEC SEC SYM Sine Square Pulse Ramp Noise 2...

Page 33: ...Length Done All All Done Start Length Done Unprotect Done Clear Enter Clear Enter Clear Enter Clear Enter Clear Enter Clear Enter Clear Enter Clear Enter Clear Enter Clear Enter Clear Enter Clear Ent...

Page 34: ...Length Memory USB Save ARB Select Enter Char Back Space Save New Folder Enter Char Back Space Save New File More Clear Enter Clear Enter Select Done 2 12 6 ARB Load Memory USB To Done Load ARB More S...

Page 35: ...Hz kHz AM Freq Sine Square Triangle UpRamp DnRamp Shape mHz Hz kHz FM Freq Sine Square Triangle UpRamp DnRamp Shape Int EXT Source uHz mHz Hz kHz MHz Hop Freq mHz Hz kHz MHz FSK Rate Int EXT Source D...

Page 36: ...rt Stop More SWEEP Int EXT uHz mHz Hz kHz MHz uHz mHz Hz kHz MHz Go to the Sweep More menu Manual Trigger 2 12 10 SWEEP More Span Center Marker Freq uHz mHz Hz kHz MHz uHz mHz Hz kHz MHz uHz mHz Hz kH...

Page 37: ...nfinite Phase Period Clear Cyc N Cycle Burst TRIG Setup Clear Degree uSEC mSEC SEC Int Rise Fall EXT Trigger Manual nSEC uSEC mSEC SEC Delay Rise Fall ON OFF TRIG out 2 12 12 Burst Gate Polarity Phase...

Page 38: ...ec Gate Time Counter Off On Ampl Cpl Off On Inverted Tracking Done Done Done English S_Phase 2 12 14 CH1 CH2 Load Phase 50 OHM High Z Phase Degree DSO Link CH1 CH2 CH3 CH4 Search CH1 CH2 2 13 Default...

Page 39: ...Modem status Off Sweep Start Stop frequency 100Hz 1kHz Sweep time 1s Sweep type Linear Sweep status Off Burst Burst frequency 1kHz Ncycle 1 Burst period 10ms Burst starting phase 0 Burst status Off Sy...

Page 40: ...35 and 98 3 1 Select a Waveform The FGX 2220 can output 5 standard waveforms sine square pulse ramp and noise 3 1 1 Sine Wave Panel Operation 1 Press the Waveformkey Waveform 2 Press F1 Sine Sine F1...

Page 41: ...ge 0 3 2 1 4 7 8 5 9 6 5 Press F2 to select units F2 Range Frequency Duty Range 100kHz 1 0 99 0 100kHz 1MHz 10 0 90 0 1MHz 25MHz 50 Fixed 3 1 3 Setting the Pulse Width Panel Operation 1 Press the Wave...

Page 42: ...l wheel or number pad to enter the pulse width 0 3 2 1 4 7 8 5 9 6 5 Press F2 F5 choose the unit range nSEC F2 SEC F5 Range Pulse Width 20ns 1999 9s Note Minimum Pulse Width Frequency 25MHz 20ns pulse...

Page 43: ...4 Setting a Ramp Waveform Panel Operation 1 Press the Waveform key Waveform 2 Press F4 Ramp to create a ramp waveform Ramp F4 3 Press F1 SYM The SYM parameter will be highlighted in the parameter win...

Page 44: ...31 3 1 5 Selecting a Noise Waveform Panel Operation 1 Press the Waveform key Waveform 2 Press F5 Noise Noise F5...

Page 45: ...eter will become highlighted in the parameter window 3 Use the arrow keys and scroll wheel or number pad to enter the frequency 0 3 2 1 4 7 8 5 9 6 4 Choose a frequency unit by pressing F1 F5 uHz F1 M...

Page 46: ...he AMPL parameter will become highlighted in the parameter window 3 Use the arrow keys and scroll wheel or number pad to enter the amplitude 0 3 2 1 4 7 8 5 9 6 4 Choose a unit type by pressing F1 F5...

Page 47: ...Offset 2 The DC Offset parameter will become highlighted in the parameter window 3 Use the arrow keys and scroll wheel or number pad to enter the DC Offset 0 3 2 1 4 7 8 5 9 6 4 Press F1 mVDC or F2 V...

Page 48: ...enerator also will not allow sweep or burst mode to be used with AM FM Activating a modulation mode will turn the previous modulation mode off 4 1 Amplitude Modulation AM An AM waveform is produced fr...

Page 49: ...e is not available as a carrier shape Before the carrier shape can be selected choose AM modulation mode see above Select a Standard Carrier Shape 1 Press the Waveform key Waveform 2 Press F1 F4 to ch...

Page 50: ...ss the FREQ Rate key FREQ Rate 2 The FREQ parameter will become highlighted in the parameter window 3 Use the arrow keys and scroll wheel or number pad to enter the carrier frequency 0 3 2 1 4 7 8 5 9...

Page 51: ...amp modulating waveform shapes Sine waves are the default wave shape Panel Operation 1 Press the MOD key MOD 2 Press F1 AM AM F1 3 Press F4 Shape Shape F4 4 Press F1 F5 to select the waveform shape Si...

Page 52: ...2 Press F1 AM AM F1 3 Press F3 AM Freq AM Freq F3 4 The AM Freq parameter will become highlighted in the Waveform display area 5 Use the arrow keys and scroll wheel or number pad to enter the AM freq...

Page 53: ...imum amplitude of the modulated waveform compared to the carrier waveform as a percentage Panel Operation 1 Press the MOD key MOD 2 Press F1 AM AM F1 3 Press F2 Depth Depth F2 4 The AM Depth parameter...

Page 54: ...source for AM modulation The default source is internal Panel Operation 1 Press the MOD key MOD 2 Press F1 AM AM F1 3 Press F1 Source Source F1 4 Press F1 INT or F2 EXT to select the modulation source...

Page 55: ...a carrier waveform and a modulating waveform The instantaneous frequency of the carrier waveform varies with the magnitude of the modulating waveform When using the FGX 2220 function generator only o...

Page 56: ...ot be used as a carrier wave Panel Operation 1 Press the Waveform key Waveform 2 Press F1 F4 to select the carrier shape Sine F1 Ramp F4 Range Carrier Shape Sine Square Ramp 4 2 3 FM Carrier Frequency...

Page 57: ...become highlighted in the parameter window 3 Use the arrow keys and scroll wheel or number pad to enter the carrier frequency 0 3 2 1 4 7 8 5 9 6 4 Press F1 F5 to select the frequency unit uHz F1 MHz...

Page 58: ...amp DnRamp as the internal modulating waveform shapes Sine is the default wave shape Background 1 Select MOD MOD 2 Press F2 FM FM F2 3 Press F4 Shape Shape F4 4 Press F1 F5 to select the waveform shap...

Page 59: ...OD 2 Press F2 FM FM F2 3 Press F3 FM Freq FM Freq F3 4 The FM Freq parameter will become highlighted in waveform display panel 5 Use the arrow keys and scroll wheel or number pad to enter the FM frequ...

Page 60: ...ess F2 FM FM F2 3 Press F2 Freq Dev Freq Dev F2 4 The Freq Dev parameter will become highlighted in the waveform display panel 5 Use the arrow keys and scroll wheel or number pad to enter the frequenc...

Page 61: ...INPUT terminal on the rear panel when using an external source IN OUT Trigger Counter Trigger MOD Note If an external modulating source is selected the frequency deviation is limited to the 5V MOD INP...

Page 62: ...ency The frequency at which the carrier and hop frequency shift is determined by the internal rate generator or the voltage level from the Trigger INPUT terminal on the rear panel Only one modulation...

Page 63: ...l Operation 1 Press the Waveform key Waveform 2 Press F1 F4 to choose the carrier wave shape Sine F1 Ramp F4 Range Carrier Shape Sine Square Pulse Ramp 4 3 3 FSK Carrier Frequency The maximum carrier...

Page 64: ...wave 1 Hz 15MHz Ramp wave 1 Hz 1MHz Pulse wave 500 Hz 15MHz Default frequency 1kHz 4 3 4 FSK Hop Frequency The default Hop frequency for all waveform shapes is 100 Hz A square wave with a duty cycle...

Page 65: ...arrow keys and scroll wheel or number pad to enter the hop frequency 0 3 2 1 4 7 8 5 9 6 6 Press F1 F5 to select the frequency range uHz F1 MHz F5 Range Waveform Carrier Frequency Sine wave 1 Hz 25MHz...

Page 66: ...1 Select the MOD key MOD 2 Press F3 FSK FSK F3 3 Press F3 FSK Rate FSK Rate F3 4 The FSK Rate parameter will become highlighted in the waveform display area 5 The arrow keys and scroll wheel or numbe...

Page 67: ...n an external source is selected the FSK rate is equal to the frequency of the Trigger INPUT signal on the rear panel Panel Operation 1 Press the MOD key MOD 2 Press F3 FSK FSK F3 3 Press F1 Source So...

Page 68: ...any one time If PM is enabled any other modulation mode will be disabled Likewise burst and sweep modes cannot be used with PM and will be disabled when PM is enabled 4 4 1 Selecting Phase Modulation...

Page 69: ...he maxium carrier frequency for the carrier wavefrom The default carrier frequency is 1kHz Panel Operation 1 Press the FREQ Rate key to select the carrier frequency FREQ Rate 2 The FREQ parameter will...

Page 70: ...and down ramp The default wave shape is sine Panel Operation 1 Select the MOD key MOD 2 Press F4 PM PM F4 3 Press F4 Shape Shape F4 4 Press F1 F5 to select a waveform shape Sine F1 DnRamp F5 5 Press...

Page 71: ...Press F4 PM PM F4 3 Press F3 PM Freq PM Freq F3 4 The PM Freq parameter will become highlighted in the Waveform Display area 5 Use the arrow keys and scroll wheel or number pad to enter the PM frequen...

Page 72: ...he MOD key MOD 2 Press F4 PM PM F4 3 Press F2 Phase Dev Phase Dev F2 4 The Phase Dev parameter will become highlighted in the waveform display area 5 Use the arrow keys and scroll wheel or number pad...

Page 73: ...turn to the previous menu Return External Source Use the MOD INPUT terminal on the rear panel when using an external source IN OUT Trigger Counter Trigger MOD Note If the modulation source is set to e...

Page 74: ...ercentage of the carrier amplitude If SUM is enabled any other modulation mode will be disabled Likewise burst and sweep modes cannot be used with SUM and will be disabled when SUM is enabled 4 5 1 Se...

Page 75: ...noise wave 4 5 3 SUM Carrier Frequency The maximum carrier frequency depends on the selected carrier waveform The default carrier frequency is 1kHz Panel Operation 1 Press the FREQ Rate key to select...

Page 76: ...ternal sources The FGX 2220 includes sine square triangle UpRamp and DnRamp as internal sources The default waveform is sine Panel Operation 1 Press the MOD key MOD 2 Press F5 SUM SUM F5 3 Press F4 Sh...

Page 77: ...ency of the modulating waveform SUM Frequency can be set from 2mHz to 20kHz Panel Operation 1 Press the MOD key MOD 2 Press F5 SUM SUM F5 3 Press F3 SUM Freq SUM Freq F3 4 The SUM Freq parameter will...

Page 78: ...kHz F3 Range Modulating range 2mHz 20kHz Default frequency 100Hz 4 5 6 SUM Amplitude The SUM amplitude is the offset in percent relative to the carrier of the signal that is added to the carrier Panel...

Page 79: ...M SUM F5 3 Press F1 Source Source F1 4 Press F1 INT or F2 EXT to select the source INT F1 EXT F2 5 Press Return to return to the previous menu Return External Source Use the MOD INPUT terminal on the...

Page 80: ...hen sweep is enabled burst mode is automatically disabled In Sweep mode the function generator will sweep from a start frequency to a stop frequency over a number of designated steps The step spacing...

Page 81: ...n generator will sweep from the start through to the stop frequency and cycle back to the start frequency The sweep is phase continuous over the full range sweep range 1 Hz 25MHz Panel Operation 1 Pre...

Page 82: ...YNC signal is at a TTL low level that rises to a TTL high level at the frequency midpoint The frequency of the SYNC signal is equal to the sweep time When marker is on at the start of the sweep the SY...

Page 83: ...uency 0 3 2 1 4 7 8 5 9 6 6 Press F1 F5 to select the Start Stop frequency units uHz F1 MHz F5 Range Center frequency 1 Hz 25MHz sine wave 1 Hz 1MHz Ramp wave 1 Hz 15MHz square wave Span frequency DC...

Page 84: ...signal is equal to the sweep time When marker is on at the start of the sweep the SYNC signal is at a TTL high level that drops to a TTL low level at the marker The SYNC signal is output from the mar...

Page 85: ...in the scan depending on the length of the scan Panel Operation 1 Press the SWEEP key Sweep 2 Press F5 More More F5 3 Press F1 SWP Time SWP Time F1 4 The Time parameter will become highlighted in the...

Page 86: ...550 Hz Panel Operation 1 Press the SWEEP key Sweep 2 Press F5 More More F5 3 Press F4 Marker Marker F4 4 Press F2 ON OFF to toggle the marker on or off ON OFF F2 5 Press F1 Freq to select the marker f...

Page 87: ...outputs the start frequency and waits for a trigger signal before completing the sweep The default trigger source is internal Panel Operation 1 Press the SWEEP key Sweep 2 Press F1 Source Source F1 3...

Page 88: ...r of cycles Burst mode supports sine square and ramp waveforms 4 7 1 Selecting Burst Mode When burst mode is selected any modulation or sweep modes will be automatically disabled If no settings have b...

Page 89: ...qual to the starting phase of the burst waveforms ready for the signal to go high again Burst Mode Burst Count Burst Period Phase Trigger Source Triggered Int Available Available Available Immediate T...

Page 90: ...burst period is the time between the bursts in N Cycle mode 4 7 4 Burst Cycle Burst Count The burst cycle burst count is used to define the number of cycles that are output for a burst waveform Burst...

Page 91: ...es the rate of bursts and the time between bursts Burst cycle must be less than the product of the burst period and wave frequency Burst Cycle Burst Period x Wave Frequency If the burst cycle exceeds...

Page 92: ...using manual triggering 4 7 6 Burst Period The burst period is used to determine the time between the start of one burst and the start of the next burst It is only used for internally triggered bursts...

Page 93: ...for internal triggers Burst period settings are ignored when using gated burst mode or for external and manual triggers The burst period must be large enough to satisfied the condition below Burst Per...

Page 94: ...are triangle or ramp waveforms 0 is the point where the waveforms are at zero volts 0 is the starting point of a waveform For sine square or Triangle Ramp waveforms 0 is at 0 volts assuming there is n...

Page 95: ...mpleted the function generator waits for the next trigger Internal source is the default triggered burst N cycle mode on power up Panel Operation 1 Press the Burst key Burst 2 Press F1 N Cycle N Cycle...

Page 96: ...is received a burst is output with the defined number of cycles If a trigger signal is received during a burst it is ignored When using the manual or external trigger only the burst phase and burst c...

Page 97: ...r signal is output at the start of each burst Panel Operation 1 Press the Burst key Burst 2 Press F1 N Cycle N Cycle F1 3 Press F5 TRIG set TRIG set F5 4 Press F5 TRIG out TRIG out F5 5 Press F3 ON OF...

Page 98: ...85...

Page 99: ...h When data ARB or Setting data is stored in a memory file the data will be shown in red If a file has no data it will be shown in blue Save Recall Properties ARB Rate Frequency Length Display horizon...

Page 100: ...er out Type Cycles Phase Period Delay Panel Operation 1 Press the UTIL key UTIL 2 Press F1 Memory Memory F1 3 Use the scroll wheel to highlight a memory file number 4 Choose a file operation Press F1...

Page 101: ...ne to choose the data type Done F5 Range Memory file Memory0 Memory9 Data type ARB Setting ARB Setting 7 Press F5 Done to confirm the operation Done F5 Delete All 8 To delete all the files for Memory0...

Page 102: ...information will be shown on screen Instrument Version FPGA Revision Update Firmware 5 To update the firmware insert a USB flash drive with a firmware file in the USB host drive Press F2 Upgrade Upgr...

Page 103: ...time 1 second Output N A Input IN OUT Trigger Counter Trigger MOD 1 Press UTIL F5 Counter UTIL Counter 2 Press F1 Gate Time and press F3 1 Sec to choose a gate time of 1 second Gate Time 1 Sec 3 Conne...

Page 104: ...Freq Cpl F1 3 Press F2 Offset The offset is the frequency difference between CH1 and CH2 Use the number keys or scroll wheel to enter the offset Offset F1 There are two different coupling modes They...

Page 105: ...e following assumes that the amplitude has already been set to 4Vpp with a DC offset of 1Vdc 2 Press UTIL F4 Dual Chan to enter the coupling function UTIL Dual Chan 3 Press F2 Ampl Cpl F1 ON to select...

Page 106: ...from CH1 with an amplitude of 5Vpp and a DC offset of 1Vdc 2 Press UTIL F4 Dual Chan to enter the coupling function UTIL Dual Chan 3 Press F3 Tracking F2 On to turn on the tracking function Tracking...

Page 107: ...ut impedance is 50 The output impedances are to be used as a reference only If the actual load impedance is different to that specified then the actual amplitude and offset will vary accordingly Panel...

Page 108: ...e used if the ARB MOD SWEEP or BURST functions are not active 2 Press F4 Phase and then press F1 Phase Phase F4 Phase F1 3 The Phase parameter in the parameter window will become highlighted 4 Use the...

Page 109: ...e to synchronize the phase of the channels S_Phase F2 6 4 DSO Link Background DSO Link enables the FGX 2220 to receive lossless data from a DCS 7500A Series DSO to create ARB data Connect the FGX 2220...

Page 110: ...CS Find will be displayed DSO Link Phase Load GDS XXXXFind 5 To select a DSO channel Press F2 CH1 F3 CH2 F4 CH3 or F5 CH4 The acquired data can then be displayed CH1 F2 CH4 F5 Edit Display Built in Ou...

Page 111: ...1 Create an AbsAtan Waveform Panel Operation 1 Press the ARB key ARB 2 Press F3 Built in Built in F3 3 Press F4 Wave Wave F4 4 Press F1 Common Common F1 5 Use the scroll wheel to select AbsAtan from t...

Page 112: ...ON Absatan Abssin Abssinharf Ampalt Attalt Diric_even Diric_odd Gauspuls Harvercosin Harversine N_pulse Negramp Rectpuls Roundharf Sawtoot Sinetra Stair_ud Stair_up Stepwsp Trapezia Tripuls Math Arcco...

Page 113: ...Horizon to enter the horizontal menu Horizon F1 Using a Start Point 4 Press F1 Start Start F1 5 The H_From parameter will become highlighted 6 Use the arrow keys and scroll wheel or number pad to ente...

Page 114: ...ut function will increase the length by 2 The maximum allowable length is 4096 Zoom out F5 Below an arbitrary waveform has a start of 0 length of 200 and is centered at 100 7 2 2 Set the Vertical Disp...

Page 115: ...eat steps 4 9 for V_High F2 High F2 Setting the Center Point 11 Repeat steps 4 9 for Center F3 Center F3 Zoom 12 To zoom in from the center of the arbitrary waveform press F4 Zoom in The Zoom in funct...

Page 116: ...ow can be moved forward and backward using the Next Back Page functions Panel Operation 1 Press the ARB key ARB 2 Press F1 Display Display F1 3 Press F4 Back Page to move the display window one view l...

Page 117: ...g the waveform the display window can be moved forward and backward using the Next Back Page functions Panel Operation 1 Press the ARB key ARB 2 Press F1 Display Display F1 3 Press F3 Next Page to mov...

Page 118: ...105 H_From H_From Length Center Center Length H_From Length 4096 Below shows the display after Next Page has been pressed H_From 0 200 Length 200 Center 100 300...

Page 119: ...511 511 Overview F5 Below shows the display after Overview has been selected H_From 0 0 Length 400 4096 Center 200 2048 Vertical low high 511 7 3 Editing an Arbitrary Wavefrom 7 3 1 Adding a Point to...

Page 120: ...7 Press F2 Enter to save the settings Enter F2 8 Press Return to return to the previous menu Return 9 Press F2 Data Data F2 10 The Data parameter will become highlighted 11 Use the selector keys and...

Page 121: ...rary Waveform Background The FGX 2220 has a powerful editing function that allows you to create points or lines anywhere on the waveform Panel Operation 1 Press the ARB key ARB 2 Press F2 Edit Edit F2...

Page 122: ...r F2 8 Press Return to return to the previous menu Return 9 Repeat steps 4 8 for Start Data F2 Stop Address F3 and Stop Data F4 10 Press F5 Done to confirm the line edit Done F5 11 Press Return to ret...

Page 123: ...oll wheel or number pad to enter the Copy From address 0 3 2 1 4 7 8 5 9 6 7 Press F2 Enter to save the settings Enter F2 8 Press Return to return to the previous menu Return 9 Repeat steps 4 8 for Le...

Page 124: ...Clear Clear F4 4 Press F1 Start Start F1 5 The Clear From properties will become highlighted in red 6 Use the arrow keys and scroll wheel or number pad to enter the Clear From address 0 3 2 1 4 7 8 5...

Page 125: ...selected section of the arbitrary waveform Done F3 Delete All 11 Press F4 ALL to delete the whole waveform ALL F4 12 Press F1 Done again to confirm the deletion Done F1 13 Press Return return to the p...

Page 126: ...ot be altered Panel Operation 1 Press the ARB key ARB 2 Press F2 Edit Edit F2 3 Press F5 Protect Protect F5 4 Press F2 Start Start F2 5 The Protect Start properties will become highlighted in red 6 Us...

Page 127: ...to protect the whole waveform ALL F1 12 Press F1 Done to confirm Done F1 Unprotect All 13 Press F5 Unprotect to unprotect the whole waveform Unprotect F5 14 Press F1 Done to confirm Done F1 15 The wav...

Page 128: ...eration 1 Press the ARB key ARB 2 Press F4 Output Output F4 3 Press F1 Start Start F1 4 The Start property will become highlighted in red 5 Use the arrow keys and scroll wheel or number pad to enter t...

Page 129: ...oading an Arbitrary Waveform The FGX 2220 can save and load arbitrary waveforms from 10 internal memory slots Arbitrary waveforms can also be saved and loaded from a USB memory stick 7 5 1 Saving a Wa...

Page 130: ...ress Return to return to the previous menu Return 9 Repeat steps 4 8 for Length F2 Length F2 10 Press F3 Memory Memory F3 11 Select a memory file using the scroll wheel Memory0 Memory9 12 Press F1 Sel...

Page 131: ...row keys and scroll wheel or number pad to enter the Start address 0 3 2 1 4 7 8 5 9 6 7 Press F2 Enter to confirm the start point Enter F2 8 Press Return to return to the previous menu Return 9 Repea...

Page 132: ...croll wheel to move the cursor 4 Use F1 Enter Char or F2 Backspace to create a folder name Enter Char F1 Backspace F2 5 Press F5 Save to save the folder name Save F5 Create a New File 1 Press F3 New F...

Page 133: ...e name Enter Char F1 Backspace F2 5 Press F5 Save to save the file name Save F5 Below the folder BIN has been created in the root directory 7 5 3 Load a Waveform from Internal Memory Panel Operation 1...

Page 134: ...To F3 8 The Load To parameter will become highlighted in red 9 Use the selector keys and scroll wheel or number pad to enter the starting point 0 3 2 1 4 7 8 5 9 6 10 Press F2 Enter to confirm the sta...

Page 135: ...122 7 5 4 Load a Waveform from USB Panel Operation 1 Press the ARB key ARB 2 Press F5 More More F5 3 Press F2 Load Load F2 4 Press F2 USB USB F2...

Page 136: ...nt for the loaded waveform To F3 8 The Load To property will become highlighted in red 9 Use the arrow keys and scroll wheel or number pad to enter the starting point 0 3 2 1 4 7 8 5 9 6 10 Press F2 E...

Page 137: ...124...

Page 138: ...the new hardware due to the security Please go to update the driver from the Other device in the Device Manager 8 1 2 Remote control terminal connection Terminal application Invoke the terminal appli...

Page 139: ...ully compatible SCPI 1994 partially compatible Command Tree The SCPI standard is an ASCII based standard that defines the command syntax and structure for programmable instruments Commands are based o...

Page 140: ...e SOURce1 FREQuency SOURce1 FREQuency MIN Command forms Commands and queries have two different forms long and short The command syntax is written with the short form of the command in capitals and th...

Page 141: ...ces are not sent with the command Angled Brackets Angle brackets are used to indicate that a value must be specified for the parameter See the parameter description below for details Angled brackets a...

Page 142: ...w line EOI IEEE 488 EOI End Or Identify Note j or m should be used when using a terminal program Command Separators Space A space is used to separate a parameter from a keyword command header Colon A...

Page 143: ...8 6 5 SOURce 1 2 APPLy NOISe 141 8 6 6 SOURce 1 2 APPLy USER 142 8 6 7 SOURce 1 2 APPLy 142 8 7 1 SOURce 1 2 FUNCtion 143 8 7 2 SOURce 1 2 FREQuency 144 8 7 3 SOURce 1 2 AMPlitude 145 8 7 4 SOURce 1 2...

Page 144: ...14 4 SOURce 1 2 FREQuency STOP 173 8 14 5 SOURce 1 2 FREQuency CENTer 173 8 14 6 SOURce 1 2 FREQuency SPAN 174 8 14 7 SOURce 1 2 SWEep SPACing 175 8 14 8 SOURce 1 2 SWEep TIME 175 8 14 9 SOURce 1 2 S...

Page 145: ...1 COUNTER STATE 192 8 17 2 COUNter GATe 192 8 17 3 COUNter VALue 193 8 18 1 SOURce 1 2 PHASe 193 8 18 2 SOURce 1 2 PHASe SYNChronize 194 8 19 1 SOURce 1 2 FREQuency COUPle MODE 194 8 19 2 SOURce 1 2 F...

Page 146: ...d string Include CR LF code 8 3 2 IDN Query Description Returns the function generator manufacturer model number serial number and firmware version number in the following format TEXIO FGX 2220 SN XXX...

Page 147: ...rsion Serial Number Mode Example SYST VERS FGX 2220 Version x xx_xxxx FPGA xxxxxxxx SN xxxxxxxx MODE Plant Pattern Returns the versions SN MODE 8 3 5 OPC Set Description This command sets the Operatio...

Page 148: ...all the event registers the error queue and cancels an OPC command Syntax CLS 8 4 2 ESE Set Description The Standard Event Status Enable command determines which events in the Standard Event Status E...

Page 149: ...dard event status register is returned Note The CLS will also clear the standard event status register Query Syntax ESR Return Parameter Bit Register Bit Register 0 Operation Complete 4 Execution Erro...

Page 150: ...e 0 255 Example SRE 12 Sets a bit weight of 12 bits 2 and 3 for the service request enable register Query Syntax SRE Return Parameter Bit Register Bit Register 0 Not used 4 Message Available 1 Not use...

Page 151: ...isable burst modulation and sweep modes Turns on the output commandOUTPut 1 2 ON The termination setting will not be changed As the frequency amplitude and offset parameters are in nested square brack...

Page 152: ...by the function and unit chosen Vpp and Vrms or dBm values may have different maximum values due to differences such as crest factor For example a 5Vrms square wave must be adjusted to 3 536 Vrms for...

Page 153: ...y amplitude offset Parameter frequency 1 Hz 25MHz amplitude 1mVpp 10Vpp 50 offset 4 99V 4 99V 50 Example SOUR1 APPL SQU 2KHZ MAX MAX Sets frequency to 2kHz and sets the amplitude and offset to the max...

Page 154: ...ffset Parameter frequency 500 Hz 25MHz amplitude 1mVpp 10Vpp 50 offset 4 99V 4 99V 50 Example SOUR1 APPL PULS 1KHZ MIN MAX Sets frequency to 1kHz and sets the amplitude to minimum and the and offset t...

Page 155: ...ts a string with the current settings Note The string can be passed back appended to the Apply Command Syntax SOURce 1 2 APPLy Return Parameter string Function frequency amplitude offset Example SOUR1...

Page 156: ...differences such as crest factor For example if a 5Vrms square wave is changed to a sinewave then the Vrms is automatically adjusted to 3 536 The modulation burst and sweep modes can only be used with...

Page 157: ...alue The duty cycle of square waveforms depends on the frequency settings 1 0 to 99 0 frequency 100 KHz 10 to 90 100 KHz frequency 1MHz 50 frequency 25 MHz If the frequency is changed and the set duty...

Page 158: ...pedance dBm units cannot be used The units will default to Vpp The output amplitude can be affected by the function and unit chosen Vpp and Vrms or dBm values may have different maximum values due to...

Page 159: ...so determined by the output termination 50 or high impedance If the offset has been set and the output termination has changed from 50 to high impedance the offset will double Changing the output term...

Page 160: ...y will be used A settings conflict error will result from the above scenario For square waveforms the Apply command and AM FM modulation modes ignore the duty cycle settings Syntax SOURce 1 2 SQUare D...

Page 161: ...7 OUTPut 1 2 Set Query Description Enables Disables or queries the front panel output from the selected channel The default is set to off Note If the output is overloaded by an external voltage the o...

Page 162: ...termination is set to high impedance dBm units cannot be used The units will default to Vpp Syntax OUTPut 1 2 LOAD DEFault INFinity Example OUTP1 LOAD DEF Sets the channel 1 output termination to 50...

Page 163: ...and low level control is possible including setting the rise time fall time period and pulse width Fall time Rise time Pulse Width Period 50 90 10 90 50 10 8 8 1 SOURce 1 2 PULSe PERiod Set Query Desc...

Page 164: ...s or queries the pulse width The default pulse width is 100us The minimum pulse width is affected by the period time If the period is over 20 or 200 seconds then the minimum pulse width is 1us and 10u...

Page 165: ...command 2 Use the APPLy command to select a carrier waveform Alternatively the equivalent FUNC FREQ AMPl and DCOffs commands can be used to create a carrier waveform with a designated frequency ampli...

Page 166: ...turn Parameter 0 Disabled OFF 1 Enabled ON Example SOUR1 AM STAT 1 AM modulation mode is currently enabled 8 9 3 SOURce 1 2 AM SOURce Set Query Description Sets or queries the modulation source as int...

Page 167: ...angle UPRamp DNRamp Example SOUR1 AM INT FUNC SIN Sets the AM modulating wave shape to sine Query Syntax SOURce 1 2 AM INTernal FUNCtion Return Parameter SIN Sine UPRAMP Upramp SQU Square DNRAMP Dnram...

Page 168: ...nerator will not output more than 5V regardless of the modulation depth The modulation depth of an external source is controlled using the 5V MOD INPUT terminal on the rear panel and not the SOURce 1...

Page 169: ...ng the SOURce 1 2 FM SOUR command 4 Use the SOURce 1 2 FM INT FUNC command to select a sine square upramp dnramp or triangle modulating waveshape For internal sources only 5 Set the modulating frequen...

Page 170: ...from the MOD INPUT terminal on the rear panel For example if modulation depth is set to 100 then the maximum amplitude is 5V and the minimum amplitude is 5V Syntax SOURce 1 2 FM SOURce INTernal EXTern...

Page 171: ...gle Example SOUR1 FM INT FUNC SIN The shape for the modulating waveform is Sine 8 10 5 SOURce 1 2 FM INTernal FREQuency Set Query Description Sets the frequency of the internal modulating waveform onl...

Page 172: ...uency must not exceed the maximum frequency for a specific carrier shape If an out of range deviation is set for any of the above conditions the deviation will be automatically adjusted to the maximum...

Page 173: ...nternal or external modulation source using the SOURce 1 2 FSK SOUR command 4 Set the hop frequency using the SOURce 1 2 FSK FREQ command 5 Use the SOURce 1 2 FSK INT RATE command to set the FSK rate...

Page 174: ...ernal EXTernal Example SOUR1 FSK SOUR EXT Sets the FSK source to external Query Syntax SOURce 1 2 FSKey SOURce Return Parameter INT Internal EXT External Example SOUR1 FSK SOUR INT The FSK source is s...

Page 175: ...ernal RATE Set Query Description Sets or queries the FSK rate for internal sources only Note External sources will ignore this command Syntax SOURce 1 2 FSKey INTernal RATE rate in Hz MINimum MAXimum...

Page 176: ...r external modulation source using the SOURce 1 2 PM SOUR command 4 Use the SOURce 1 2 PM INT FUNC command to select a sine square upramp dnramp or triangle modulating waveshape For internal sources o...

Page 177: ...ax SOURce 1 2 PM SOURce INTernal EXTernal Example SOUR1 PM SOUR EXT Sets the PM source to external Query Syntax SOURce 1 2 PM SOURce Return Parameter INT Internal EXT External Example SOUR1 PM SOUR IN...

Page 178: ...2 PM INTernal FREQuency Set Query Description Sets the modulating waveform frequency for internal sources The default frequency is set to 100Hz Syntax SOURce 1 2 PM INTernal FREQuency frequency MINim...

Page 179: ...erminal on the rear panel If the phase deviation is set to 180 degrees then 5V represents a deviation of 180 degrees A lower input voltage will decrease the set phase deviation Syntax SOURce 1 2 PM DE...

Page 180: ...modulation source using the SOURce 1 2 SUM SOUR command 4 Use the SOURce 1 2 SUM INT FUNC command to select a sine square upramp dnramp or triangle modulating waveshape For internal sources only 5 Se...

Page 181: ...PUT terminal on the rear panel Syntax SOURce 1 2 SUM SOURce INTernal EXTernal Example SOUR1 SUM SOUR EXT Sets the SUM source to external Query Syntax SOURce 1 2 SUM SOURce Return Parameter INT Interna...

Page 182: ...ion Sets the modulating waveform frequency for internal sources The default frequency is set to 100Hz Syntax SOURce 1 2 SUM INTernal FREQuency frequency MINimum MAXimum Parameter frequency 2 mHz 20 kH...

Page 183: ...rease the AMPLitude up to the set amplitude whilst a negative voltage will reduce the amplitude Syntax SOURce 1 2 SUM AMPL percent minimum maximum Parameter percent 0 100 Example SOUR1 SUM AMPLitude 3...

Page 184: ...and SOURce 1 2 FREQ STOP to set the start and stop frequencies To sweep up or down set the stop frequency higher or lower than the start frequency Span Use the SOURce 1 2 FREQ CENT and SOURce 1 2 FREQ...

Page 185: ...bled OFF 1 Enabled ON Example SOUR1 SWE STAT 1 Sweep mode is currently enabled 8 14 3 SOURce 1 2 FREQuency STARt Set Query Description Sets the start frequency of the sweep 100Hz is the default start...

Page 186: ...z Square 1 Hz 1MHz Ramp Example SOUR1 FREQ STOP 2 0000E 03 Sets the stop frequency to 2kHz Query Syntax SOURce 1 2 FREQuency STOP MINimum MAXimum Return Parameter NR3 Returns the stop frequency in Hz...

Page 187: ...eries the frequency span of the sweep 900 Hz is the default frequency span The span frequency is equal to the stop start frequencies Note To sweep up or down set the span as positive or negative The m...

Page 188: ...SWEep SPACing Return Parameter LIN Linear spacing LOG Logarithmic spacing Example SOUR1 SWE SPAC LIN The spacing is currently set as linear 8 14 8 SOURce 1 2 SWEep TIME Set Query Description Sets or...

Page 189: ...eform EXTernal will output a swept waveform after each external trigger pulse Manual will ouput a swept waveform after the trigger softkey is pressed Note If the APPLy command was used to create the w...

Page 190: ...ency MINimum MAXimum Parameter frequency 1 Hz 25 MHz 1 Hz 1 MHz Ramp Example SOUR1 MARK FREQ 1 0000E 03 Sets the marker frequency to 1 kHz Query Syntax SOURce 1 2 MARKer FREQuency MINimum MAXimum Retu...

Page 191: ...pecified number of cycles Gate mode uses the external trigger to turn on or off the output When the Trigger INPUT signal is high waveforms are continuously output creating a burst When the Trigger INP...

Page 192: ...URS MODE command to select from triggered or gated burst modes 4 Use the SOURce 1 2 BURS NCYC command to set the burst count This command is only for triggered burst mode only 5 Use the SOURce 1 2 BUR...

Page 193: ...nual trigger commands are ignored in gated burst mode Syntax SOURce 1 2 BURSt MODE TRIGgered GATed Example SOUR1 BURS MODE TRIG Sets the burst mode to triggered Query Syntax SOURce 1 2 BURSt MODE Retu...

Page 194: ...nuous MINimum Sets the number to minimum allowed MAXimum Sets the number to maximum allowed Example SOUR1 BURS NCYCl INF Sets the number of burst cycles to continuous infinite Query Syntax SOURce 1 2...

Page 195: ...eriod in seconds Example SOUR1 BURS INT PER 1 0000E 01 The burst period is 10 seconds 8 15 6 SOURce 1 2 BURSt PHASe Set Query Description Sets or queries the starting phase for the burst The default p...

Page 196: ...output a burst waveform after each external trigger pulse Any additional trigger pulse signals before the end of the burst are ignored Manual Manual triggering will output a burst waveform after the t...

Page 197: ...DELay MINimum MAXimum Return Parameter NRf Delay in seconds Example SOUR1 BURS TRIG DEL 1 0000E 01 The trigger delay is 10 seconds 8 15 9 SOURce 1 2 BURSt TRIGger SLOPe Set Query Description Sets or...

Page 198: ...gically high INVertes Logically low Example SOUR1 BURS GATE POL INV Sets the state to logically low inverted Query Syntax SOURce 1 2 BURSt GATE POLarity Return Parameter NORM Normal High logical level...

Page 199: ...g edge NEG Falling edge Example SOUR1 BURS OUTP TRIG SLOP POS The trigger output signal slope to positive 8 15 12 OUTPut 1 2 TRIGger Set Query Description Sets or queries the trigger output signal on...

Page 200: ...the remote interface Output Arbitrary Waveform Select Waveform Frequency amplitude and offset Load Waveform Data Set Waveform Rate 1 Use the SOURce 1 2 FUNCtion USER command to output the arbitrary wa...

Page 201: ...eger values 511 correspond to the maximum and minimum peak amplitudes of the waveform For instance for a waveform with an amplitude of 5Vpp 0 offset the value 511is the equivalent of 2 5 Volts If the...

Page 202: ...start Start address 0 4095 length 1 4096 paste Paste address 0 4095 Example SOUR1 ARB EDIT COPY 1000 256 1257 Copies 256 data values starting at address 1000 and copies them to address 1257 8 16 5 SO...

Page 203: ...ax SOURce 1 2 ARB EDIT POINt address data Parameter address Address of data point 0 4095 data Value data 511 Example SOUR1 ARB EDIT POIN 1000 511 Creates a point on the arbitrary waveform at address 1...

Page 204: ...ints 8 16 10 SOURce 1 2 ARB EDIT PROTect ALL Set Description Protects the arbitrary waveform currently in non volatile memory currently being output Syntax SOURce 1 2 ARB EDIT PROTect ALL Example SOUR...

Page 205: ...cy counter 8 17 1 COUNTER STATE Set Query Description Turns the frequency counter function on or off Syntax COUNter STATe ON OFF Example COUNter STATe ON Turns the frequency counter on Query Syntax CO...

Page 206: ...d remotely controls the phase and channel synchronization 8 18 1 SOURce 1 2 PHASe Set Query Description Sets the phase Syntax SOURce 1 2 PHASe phase MIN MAX Parameter phase 180 180 min Sets the phase...

Page 207: ...Description Set the frequency coupling mode Syntax SOURce 1 2 FREQuency COUPle MODE Off Offset Ratio Example SOURce1 FREQuency COUPle MODE Offset Sets the frequency coupling mode to offset Query Synta...

Page 208: ...ratio mode Syntax SOURce 1 2 FREQuency COUPle RATio ratio Example SOURce1 FREQuency COUPle RATio 2 Set the CH2 to CH1 frequency ratio to 2 Query Syntax SOURce 1 2 FREQuency COUPle RATio Example SOURc...

Page 209: ...2 TRACk ON OFF INVerted Example SOURce1 TRACk ON Turns tracking on Channel 2 will track the changes of channel 1 Query Syntax SOURce 1 2 TRACk Return Parameter ON ON OFF OFF INV INVerted Example SOUR...

Page 210: ...o memory location 0 8 20 2 RCL Set Description Recall previously saved instrument states from memory locations 0 9 Syntax RCL 0 1 2 3 4 5 6 7 8 9 Example RCL 0 Recall instrument state from memory loca...

Page 211: ...received more parameters than were expected Example An extra not needed parameter was added to a command SOURce1 APPL 10 109 Missing parameter The command received less parameters than expected Exampl...

Page 212: ...k data not allowed Block data was received where block data is not allowed Example SOURce1 BURSt NCYCles 10 170 178 expression errors Example The mathematical expression used was not valid 8 21 2 Exec...

Page 213: ...ed when the trigger source is set to external 221 Settings conflict frequency reduced for pulse function Example When the function is changed to pulse the output frequency is automatically reduced if...

Page 214: ...ction 221 Settings conflict not able to burst dc burst turned off Example The burst function cannot be used with the dc voltage function 221 Settings conflict not able to sweep noise sweep turned off...

Page 215: ...ple If the period was set to a value out of range it is automatically set to an upper or lower limit 222 Data out of range frequency value clipped to Example If the frequency was set to a value out of...

Page 216: ...e in burst mode The burst frequency is automatically set to an upper or lower limit taking the burst period into account 222 Data out of range frequency in FM value clipped to Example The carrier freq...

Page 217: ...emory that stores the configuration settings 350 Queue overflow Indicates that the error queue is full over 20 messages generated and not yet read No more messages will be stored until the queue is em...

Page 218: ...er As well as the output and error queues Each register group is divided into three types of registers condition registers event registers and enable registers 8 22 1 Register types Condition Register...

Page 219: ...048 4096 8192 16384 NOT USED Condition Event Enable OR Questionable Status Register 1 20 Output Buffer 0 1 2 3 4 5 6 7 1 2 4 8 16 32 64 128 Event Enable Standard Event Register 0 Operation Complete 2...

Page 220: ...n the ESE 0 command is used The Standard Event Status Event register is cleared when the CLS command or the ESR command is used Bit Summary Register Bit Bit Weight Operation complete bit 0 1 Query Err...

Page 221: ...e enable register is cleared when the SRE 0 command is used The Status Byte Condition register is cleared when the CLS command is used Bit Summary Register Bit Bit Weight Error Queue 2 4 Questionable...

Page 222: ...atus Byte Register is set 8 22 7 Error Queue Description The error queue is queried using the SYSTem ERRor command The Error queue will set the Error Queue bit in the status byte register if there are...

Page 223: ...ability 20 ppm Aging 1 ppm per 1 year Tolerance 1 mHz Output Characteristics Amplitude Range 1mVpp to 10 Vpp into 50 2mVpp to 20 Vpp open circuit 1mVpp to 5 Vpp into 50 for 20MHz 25MHz 2mVpp to 10 Vpp...

Page 224: ...k output Variable Symmetry 0 to 100 0 1 Resolution Pulse Characteristics Period 40ns 2000s Pulse Width 20ns 1999 9s Overshoot 5 Jitter 20ppm 10ns AM Modulation Carrier Waveforms Sine Square Ramp Pulse...

Page 225: ...ernal External SUM Carrier Waveforms Sine Square Ramp Pulse Noise Modulating Waveforms Sine Square Triangle Upramp Dnramp Modulation Frequency 2mHz to 20kHz Int DC to 20kHz Ext SUM Depth 0 to 100 0 So...

Page 226: ...Hz Accuracy Time Base accuracy 1count Time Base 20ppm 23 C 5 C after 30 minutes warm up Resolution The maximum resolution is 100nHz for 1Hz 0 1Hz for 100MHz Input Impedance 1k 1pf Sensitivity 35mVrms...

Page 227: ...214 9 2 External Dimensions Figure...

Page 228: ...g Wait time typ Preset Recall SOUR 1 2 APPL Apply 1500ms Waveform ARB SOUR 1 2 FUNC Function 500ms FREQ SOUR 1 2 FREQ Frequency 200ms AMPL SOUR 1 2 AMP Amplitude 100ms Offset SOUR 1 2 DCO DC Offset 10...

Page 229: ...7F Towa Fudosan Shin Yokohama Bldg 2 18 7 Shin Yokohama Kohoku ku Yokohama Kanagawa 222 0033 Japan http www texio co jp...

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