Technical Reference - Steven M. Anlage Research Page
Contents
1. AWG7000 Spectrum analyzer F gt JE OO O DO Dp CIO OOOOO O si SI O OOOOO O o o O O OOOOO SS SVO Ojo ODE ee oo so 2200 OO 90000 i oo OOOO 6 Seca RAS eter HOO 0 ED O DO 00 O so eA aoooooooooo00oDdu 50 S SMA terminator SMA N adapter 50 92 SMA cable Figure 2 10 Equipment connections for verifying the analog phase noise 4 Press the Factory Default button on the AWG7000 5 On the AWG7000 load the sine 32 waveform as an output waveform a Press the File Open button or select File 5 Open File to open the Open dialog box b In the dialog box navigate to the C Program Files Tektronix AWG System PV directory and then select the pv awg70000 awg file The Waveform List window appears c In the window select drag and drop the sine 32 waveform on the User Defined tab 6 Press the Ch 1 On button on the AWG7000 to enable the channel 1 output 7 Press the Run button on the AWG7000 to output the waveform 8 Make the AWG7000 and spectrum analyzer settings shown in the first row or the corresponding row for your instrument of Table 2 7 9 Use the spectrum analyzer to measure phase noise of the Analog output 10 Verify that the analog phase2. COLI LEITOS EM AWG7000 VA o j 3030 0 O DO OPO o O o CI O E O 20 O OO OO OOOO oo OOOO oo 22 2000 Lo E209 o OO OO OOOO O 0 OOOO 0 0 D O 0000 a A O O 50 Q SMA attenuator HE 2 50 Q SMA attenuator 50 Q SMA cables 50 Q SMA terminator Figure 2 13 Equipment connections for verifying the marker output delay accuracy 6 Set the sampling oscilloscope settings as indicated below Vertical scale 250 mV div Horizontal scale 100 ps div Trigger source External Direct Trigger level OV Trigger slope positive Measure Pulse measurement gt Pulse Time gt Delay 7 Press the Factory Default button on the AWG7000 8 On the AWG7000 load the squarel waveform as an output waveform a Press the File Open button or select File gt Open File to open the Open dialog box b In the dialog box navigate to the C Program Files Tektronix AWG System PV directory and then select the pv awg70000 awg file The Waveform List window appears c In the window select the squarel waveform on the User Defined tab 9 Press the Ch 1 On button on the AWG7000 to enable the channel 1 output 10 Press the Run button o
3. 10 MHz Reference Freguency Accuracy Analog Offset Accuracy Analog Amplitude Accuracy Analog Harmonic Distortion Analog Non Harmonic Spurious Signal Analog Phase Noise Marker High and Low Level Accuracy Marker Output Delay Accuracy DC Output Voltage Accuracy AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 3 2 3 2 5 2 9 2 9 2 9 2 11 2 20 2 21 2 24 2 26 2 29 2 31 2 34 2 37 2 40 Table of Contents List of Figures Figure 2 1 Diagnostics dialog box 2 4 Figure 2 2 Calibration dialog box 2 5 Figure 2 3 Eguipment connections for checking the analog and marker outputs isso ssa a e 2 6 Figure 2 4 Output waveform from the Analog Mkrl and Mkr 2 CONMEC NS 026 cestas nas e isa o le pa era paris 2 8 Figure 2 5 Equipment connection for verifying the 10 MHz reference frequency accuracy 2 20 Figure 2 6 Equipment connection for measuring the terminator FeSistanCe AGANG NG NGALAN Nila vie lara sea a ed 2 21 Figure 2 7 Equipment connection for verifying the analog offset ACUC A dl o 2 22 Figure 2 8 Equipment connections for verifying the analog harmonic distortion 2 27 Figure 2 9 Equipment connections for verifying the non harmonic Spurious Signal uno As ara se asii a 2 29 Figure
4. 50 2 BNC terminator BNC dual banana adapter Figure 2 6 Equipment connection for measuring the terminator resistance Set the digital multimeter to the 2 2 wires mode Measure the resistance and note the value as Term_R Set the digital multimeter to the VDC mode nb op oN Disconnect the test setup AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 21 Performance Tests Verifying the Analog 1 Press the All Outputs On Off button on the AWG7000 to turn off all the Offset Accuracy outputs 2 Use the 50 2 BNC cable SMA BNC adapter 50 2 BNC terminator and BNC Banana adapter to connect the Channel 1 Analog connector on the AWG7000 to the HI and LO inputs on the digital multimeter See Figure 2 7 3 Use the 50 Q SMA terminator to terminate the Channel 1 Analog connector on the AWG7000 See Figure 2 7 AWG7000 l oo gt gt o O O O O OO DO OOOO z oo Esc Digital multimeter COCO 0 o O ODDO O O ggosovoooovooo oodlcj O Pa 50 Q SMA terminator BNC dual banana adapter SMA BNC 50 Q BNC terminator 50 Q BNC cable adapter Figure 2 7 Equipment connection for verifying the analog of
5. 1 div if necessary CH 2 position 1 div if necessary CH 3 position 3 div if necessary Trigger source CH1 Trigger level 0 mV Trigger slope Positive Trigger mode Auto 9 Press the Factory Default button on the AWG7000 10 Press the Ch1 Select button on the AWG7000 11 On the AWG7000 load the sine_mk1_mk2 waveform as an output waveform a Press the File Open button or select File gt Open File to open the Open dialog box b In the dialog box navigate to the C Program Files Tektronix AWG System PV directory and then select the pv awg7000 awg file The Waveform List window appears NOTE f your instrument is the AWG7051 or AWG7052 a warning message is displayed when you open the pv awg7000 awg file Press the OK button c In the window select drag and drop the sine mkl mk2 waveform on the User Defined tab 12 Press the Ch 1 On button on the AWG7000 to enable the cannel 1 output 13 Press the Run button on the AWG7000 to output the waveform AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 7 Brief Procedures 14 Check that the Channel 1 Analog Mkr 1 and Mkr 2 waveforms are properly displayed on the oscilloscope screen as shown in Figure 2 4 Lo AA Figure 2 4 Output waveform from the Analog Mkr1 and Mkr 2 connectors 15 Press the Ch 1 On button again to disable the channel 1 output 16 For
6. AAA AA Preface This manual contains specifications and performance verification procedures for the AWG7000 Series Arbitrary Waveform Generators Related Documents The following user documents are also available for this product m AWG7000 Series Arbitrary Waveform Generators Quick Start User Manual This document describes the functions and use of the instrument m AWG7000 Series Arbitrary Waveform Generators Service Manual This is an optional accessory that provides module level service information AWG7000 Series Arbitrary Waveform Generators Technical Reference ix Preface x AWG7000 Series Arbitrary Waveform Generators Technical Reference AS AS Specifications ES CS Specifications This section contains the specifications for the AWG7101 AWG7102 AWG7051 and AWG7052 Arbitrary Waveform Generators All specifications are guaranteed unless noted as typical Typical specifications are provided for your convenience but are not guaranteed Specifications that are marked with the 14 symbol are checked in the Performance Verification section of this manual Performance Conditions To meet specifications following conditions must be met m The instrument must have been calibrated adjusted at an ambient tempera ture between 20 C and 30 C m The instrument must have been operating continuously for 20 minutes within the operating temperature range specified m The instrument must be in an environment wh
7. 3 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 11 Performance Tests AWG7000 Series Performance Test Record Cont Performance Test AWG7102 Option 06 Ch 1 Ch Ch2 Ch2 Interleave Offset N A 0 V Offset N A 0 V Offset N A 0 V Offset N A 0 V Offset N A 0 V Analog Amplitude Accuracy AWG7000 standard 2 12 Chi Amplitude 50 mVp p 200 mVp p 500 mVp p 1 0Vp p 2 0Vp p 50 mVp p 200 mVp p 1 0Vp p Amplitude 50 mVp p 200 mVp p 500 mVp p 1 0Vp p 2 0Vp p 50 mVp p 200 mVp p 1 0Vp p mim gt owe C oume O AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests AWG7000 Series Performance Test Record Cont Performance Test Minimum Incoming Outgoing Maximum C2 Amd Omme OO It conve Diet Daou wmv LTs o nee Dies DAouoF gem znam soomvep Deci Dkowc Of em sire 109 Diet Dove Of oseev gt agay 2 pp Diet Dow Of a os conve DiestDiAout On ami lo so5mw zoomvep Dresi DIkowcOn wew nem 109 Die D A out On oseev gt agay GE Amplitude Outta OT somvep METE esw ll mm aomp Direct Doc tem am so mo Breet D Aout gm tre iopp brc Die OF tere mev zoo vee oc 188V fl 202v oms DreeblAow0n esa ssm 200 VP 28 ny Es ES AWG7000 Option 02 Do Ch 1 Amplitude 500 mVp p 488 m
8. C each 300 m above 1 5 km Up to 12 000 m approximately 40 000 feet 2 65 m s rms 0 27 Grms 5 Hz to 500 Hz 10 min three axes 22 3 m s rms 2 28 Grms 5 Hz to 500 Hz 10 min three axes 294 m s 30 G half sine 11 ms duration 560 W 600 VA maximum 30 A peak 25 C for lt 5 line cycles after product has been turned off for at least 30 s 2 cm 0 8 in 15 cm 5 9 in 7 5 cm 3 0 in AWG7000 Series Arbitrary Waveform Generators Technical Reference 1 13 Specifications Certifications and Compliances Table 1 22 Certifications and compliances Category EC Declaration of Conformity EMC Australia New Zealand Declaration of Conformity EMC EC Declaration of Conformity Low Voltage U S Nationally Recognized Testing Laboratory Listing Canadian Certification Additional Compliance Standards or description Meets the intent of Directive 89 336 EEC for Electromagnetic Compatibility Compliance was demonstrated to the following specifications as listed in the Official Journal of the European Communities EN61326 EMC requirement for Class A electrical equipment for measurement control and laboratory use 1 2 IEC 61000 4 2 Electrostatic discharge Immunity Performance Criterion B IEC 61000 4 3 RF electromagnetic field Immunity Performance Criterion A IEC 61000 4 4 Electrical fast transient burst Immunity Performance Criterion B IEC 61000 4 5 Power line surge Immunity Performance Criterio
9. Resolution 1024 X 768 pixels Touch screen Built in touch screen Table 1 19 Power supply Characteristics Description Source voltage and frequency Rating voltage 100 VAC to 240 VAC Voltage range 90 VAC to 250 VAC Frequency range 47 Hz to 63 Hz Power consumption 450 W Surge current 30 A peak 25 C for lt 5 line cycles after product has been turned off for at least 30 s Mechanical Physical Characteristics Table 1 20 Mechanical characteristics Characteristics Description Net weight Without package Approximately 19 kg 41 9 Ib With package Approximately 28 kg 61 7 Ib Dimensions Height 245 mm 9 6 in Width 465 mm 18 3 in Length 500 mm 19 7 in 1 12 AWG7000 Series Arbitrary Waveform Generators Technical Reference Specifications Environmental Characteristics Table 1 21 Environmental characteristics Characteristics Temperature Operating Non operating Relative humidity Operating Non operating Altitude Operating Non operating Dynamics Vibration Operating Non operating Shock Non operating Installation requirements Power dissipation Surge current Cooling clearance Top and bottom clearance Side clearance Rear clearance Description 10 C to 40 C 20 C to 60 C 5 to 80 no condensation Maximum wet bulb temperature 29 C 5 to 90 no condensation Maximum wet bulb temperature 29 C Up to 3 000 m approximately10 000 feet Maximum operating temperature decreases 1
10. 2 10 Equipment connections for verifying the analog phase MOS A a Man NA aaa 2 32 Figure 2 11 Example of the analog phase noise measurement 2 33 Figure 2 12 Equipment connection for verifying the marker high and low Level accuracy 2 34 Figure 2 13 Equipment connections for verifying the marker output delay accuracy vio ii ke deke 2 38 Figure 2 14 Equipment connection for verifying the DC output voltage ACCULACY sci ike ce e a ANG 2 40 AWG7000 Series Arbitrary Waveform Generators Technical Reference Table of Contents List of Tables Table 1 1 Run mode eisai cob ie ea seks a a 1 2 Table 1 2 Arbitrary waveform 1 2 Table 1 3 Clock generator 1 3 Table 1 4 Trigger generator 1 3 Table 1 5 Inter channel skew control 2 channels model only 1 3 Table 1 6 Analog output standard 1 4 Table 1 7 Analog output Option 02 and Option 06 1 6 Table 1 8 Interleave analog output AWG7102 Option 06 1 7 Table 1 9 Marker output 1 8 Table 1 10 Trigger and gate input 1 8 Table 1 11 Event input 1 9 Table 1 12 Reference clock input 1 10 Table 1 13 Oscillator external clock input 1 10 Table 1 14 DC
11. O OOOO OFJ o o ao0o000909000 Oollo O KS x kaa 50 92 SMA Terminator A BNC dual banana adapter O BNC t t SMA BNC 50 C terminator 50 Q BNC cable adapter Figure 2 12 Equipment connection for verifying the marker high and low Level accuracy 2 34 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests 5 Press the Factory Default button on the AWG7000 6 Press the Ch1 Select button on the AWG7000 7 On the AWG7000 load the marker hi waveform as an output waveform a Press the File Open button or select File 5 Open File to open the Open dialog box b In the dialog box navigate to the C Program Files Tektronix AWG System PV directory and then select the pv awg70000 awg file The Waveform List window appears c In the window select the marker hi waveform on the User Defined tab 8 Press the Ch 1 On button on the AWG7000 to enable the channel 1 output 9 Press the Run button on the AWG7000 to output the waveform 10 Make the AWG7000 High Level setting shown in the first row of Table 2 8 Table 2 8 Marker High and Low level accuracy High level settings Accuracy limits 14V 1 21 V to 1 59 V 0 0 V 50 mV to 50 mV 0 9 V 1 04 V to 0 76 V Low level settings Accuracy limits 0 9 V 0 76 V to 1 04 V 0 0 V 50 mV to 50 mV 1 4 V 1 59 V to 1 21 V 11 Measure the output voltage on the digital multimeter and note the value as Measured_voltage_1 12 Use the following formula to c
12. charge for parts and labor or will provide a replacement in exchange for the defective product Batteries are excluded from this warranty Parts modules and replacement products used by Tektronix for warranty work may be new or reconditioned to like new performance All replaced parts modules and products become the property of Tektronix In order to obtain service under this warranty Customer must notify Tektronix of the defect before the expiration of the warranty period and make suitable arrangements for the performance of service Customer shall be responsible for packaging and shipping the defective product to the service center designated by Tektronix shipping charges prepaid and with a copy of customer proof of purchase Tektronix shall pay for the return of the product to Customer if the shipment is to a location within the country in which the Tektronix service center is located Customer shall be responsible for paying all shipping charges duties taxes and any other charges for products returned to any other locations This warranty shall not apply to any defect failure or damage caused by improper use or improper or inadequate maintenance and care Tektronix shall not be obligated to furnish service under this warranty a to repair damage resulting from attempts by personnel other than Tektronix representatives to install repair or service the product b to repair damage resulting from improper use or connection to incompatible equipmen
13. noise at 10 kHz offset falls within the limits given in Table 2 7 11 Repeat steps 8 through 12 for each row in Table 2 7 12 For the AWG7102 or AWG7052 Repeat the test for the Channel 2 output 13 For the AWG7102 Option 06 Repeat the test for Interleave output 2 32 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Table 2 7 Analog phase noise AWG7000 model and settings Spectrum analyzer settings Accuracy Limit Model Output mode Amplitude Sampling rate Center frequency Span RBW at 10 kHz offset AWG710x Direct out On Off 1 0 Vp p 10 GS s 312 5 MHz 50kHz 100Hz lt lt 90 dBc Hz AWG7101 1 0 Vp p 10 GS s 312 5 MHz 50 kHz 100 Hz lt 90 dBc Hz Option 02 AWG7102 Interleave Off 1 0 Vp p 10 GS s 312 5MHz 50 kHz 100 Hz lt 90 dBc Hz m CT EEN Interleave On 1 0 Vp p 20 GS s 625 MHz 50 kHz 100Hz lt 85 dBc Hz Zeroing Off Interleave On 0 5 Vp p 20 GS s 625 MHz 50 kHz 100 Hz lt 85 dBc Hz Zeroing On AWG705x Direct out Direct out On Off 10 1 0 Vpp p 5 SGSis lt 90 dBc Hz AWG705x 1 0 o p HES 156 25 HE 50 Ea 100 Ea lt 90 dBc Hz Option 02 14 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs 15 Disconnect the test setup Tektronix RSA 3308A 6 13 2006 7 54 45 PM SPAN el Frequency 3125 MHz RBW 100 Hz Cancel Back Span 50 kHz Trace 1 Average 100 100 Span j Input Att 26 dB Trace 2 of F H
14. output oooooooocococococrocrrmmmo oros 1 10 Table 1 15 10 MHz clock output 1 11 Table 1 16 TekLink port 1 11 Table 1 17 CPU module and peripheral devices 1 11 Table 1 18 Display 0 1 12 Table 1 19 Power supply 1 12 Table 1 20 Mechanical characteristics 1 12 Table 1 21 Environmental characteristics 1 13 Table 1 22 Certifications and compliances 1 14 Table 2 1 Equipment required 2 9 Table 2 2 Test Waveforms 2 10 Table 2 3 Analog offset accuracy 2 23 Table 2 4 Analog amplitude accuracy 2 25 Table 2 5 Analog harmonic distortion 2 28 Table 2 6 Analog non harmonic spurious signal 2 30 Table 2 7 Analog phase noise 2 33 Table 2 8 Marker High and Low level accuracy 2 35 Table 2 9 DC output voltage accuracy 2 40 AWG7000 Series Arbitrary Waveform Generators Technical Reference ili Table of Contents iv AWG7000 Series Arbitrary Waveform Generators Technical Reference AAA IA General Safety Summary Review the following safety precautions to avoid injury and prevent damage to this pro
15. the AWG7102 or AWG7052 Repeat the test for the Channel 2 Analog Mkr 1 and Mkr 2 outputs 2 8 AWG7000 Series Arbitrary Waveform Generators Technical Reference _ See e Performance Tests This section contains performance verification procedures for the specifications marked with the symbol Prerequisites The tests in this section comprise an extensive valid confirmation of perfor mance and functionality when the following requirements are met m The cabinet must be installed on the instrument m You must have performed and passed the procedure Diagnostics and Calibration beginning on page 2 3 and the procedure Functional Tests beginning on page 2 5 m The instrument must have been last adjusted at an ambient temperature between 20 C and 30 C must have been operating for a warm up period of at least 20 minutes and must be operating at an ambient tempera tures between 10 C and 40 C Equipment Required Table 2 1 lists the test equipment required to perform all of the performance verification procedure The table identifies examples of recommended equipment and lists the required precision where applicable If you substitute other test equipment for the listed examples the equipment must meet or exceed the listed tolerances Table 2 1 Equipment required Frequency counter tea Frequency accuracy within 0 01 ppm Agilent Technologies 53181A Sampling oscilloscope Bandwidth 20 GHz or higher Tektronix CSA820
16. within the limits given in Table 2 3 13 Repeat steps 9 through 12 for each offset setting in Table 2 3 14 Move the SMA BNC adapter from the Channel 1 Analog connector to the Channel 1 Analog connector and move the 50 Q SMA terminator from the Chamnel 1 Analog connector to the Channel 1 Analog connector 15 Repeat steps 9 through 13 16 For the AWG7102 or AWG7052 Repeat steps 7 through 14 for the Channel 2 output 17 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs 18 Disconnect the test setup AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 23 Performance Tests Analog Amplitude Accuracy 2 24 Equipment required Prerequisites 1 2 10 Digital multimeter 50 Q BNC cable SMA BNC adapter 50 Q BNC terminator BNC dual banana adapter 50 Q SMA terminator As listed under Prerequisites on page 2 9 Perform Measuring the Terminator Resistance on page 2 21 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Use the 50 Q BNC cable SMA BNC adapter 50 Q BNC terminator and BNC Banana adapter to connect the Channel 1 Analog connector on the AWG7000 to the HI and LO inputs on the digital multimeter See Figure 2 7 on page 2 22 Use the 50 Q SMA terminator to terminate the Channel 1 Analog connector on the AWG7000 See Figure 2 7 on page 2 22 Press the Factory Default button on the AWG7000 Press the Ch 1 Select
17. 0 GHz 5 dBm to 11 dBm 1 1 1 2 1 4 1 8 1 256 1 2 1 4 1 8 1 256 Description 2 x 4 pin header 2 54 mm pitch female 4 3 0 V to 45 0 V 10 mV Independent for each output 3 of setting 80 mV into Hi Z load 100 mA maximum 19 AWG7000 Series Arbitrary Waveform Generators Technical Reference Specifications Table 1 15 10 MHz clock output Characteristics Connector type Output impedance Amplitude typical Table 1 16 TekLink port Characteristics Connector type Function Description BNC 50 Q AC coupled 1 2 Vp p into 50 Q 2 4 Vp p into 1 MQ Description 40 pin Future capability Table 1 17 CPU module and peripheral devices Characteristics CPU Memory Hard disk drive Optical disk drive USB 2 0 port LAN port Video output port GPIB port Keyboard port Mouse port Serial port Parallel port Audio connectors Real time clock Description Celeron D processor 512 MB DDR2 SDRAM More than 80 GB CD RW DVD drive 6 2 x front 4 x rear 1000 100 10 BASE T D sub 15 pin IEEE 488 2 standard interface 24 pin PS 2 compatible mini DIN 6 pin PS 2 compatible mini DIN 6 pin RS 232C D sub 9 pin D sub 25 pin Line output line input mic input stereo jack Lifetime gt 3 years CR2032 Li 3 V 220 mAh AWG7000 Series Arbitrary Waveform Generators Technical Reference Specifications Table 1 18 Display Characteristics Description Size 210 mm X 158 mm
18. 0 Q SMA cable and SMA N adapter to connect the Channel 1 Analog connector on the AWG7000 to the INPUT connector on the spectrum analyzer See Figure 2 8 Use the 50 Q SMA terminator to terminate the Channel 1 Analog connector on the AWG7000 See Figure 2 8 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests AWG7000 Spectrum analyzer j l DO 00000 O 29 CO CIO DOODO O si OO OOOOO ES O oro tele sea OO OO 0000 SO so 2229 OO ooooo M oo OOOO 6 esse OO OO 0000 2000 0 OOOO OOOOO o O 90000 O so E sooo00000000000a D SMA N adapter ae 50 Q SMA terminator 50 92 SMA cable Figure 2 8 Equipment connections for verifying the analog harmonic distortion 4 Set the spectrum analyzer settings as indicated below Center frequency 1 5 GHz 2 GHz for the AWG7102 Option 06 Interleave On SPA ic sas rea 3 GHz 5 Press the Factory Default button on the AWG7000 6 Press the Ch 1 Select button on the AWG7000 7 On the AWG7000 load the sine_32 waveform as an output waveform a Press the File Open button or select File gt Open File to open the Open dialog box b In the dialog box nav
19. 0 with 80E03 2 channels Spectrum analyzer Tektronix RSA3308A Digital multimeter Keithley 2000 DMM 50 Q BNC cable Tektronix part number 012 0057 01 50 Q SMA cable Tensolite 1 3636 465 5236 50 Q SMA terminator 2ea DC to 18 GHz Tektronix part number 015 1022 01 supplied with the AWG7000 50 Q BNC terminator DC to 1 GHz feedthrough Tektronix part number 011 0049 02 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 9 Performance Tests Table 2 1 Equipment required Cont Item Recommended equipment 50 Q SMA attenuator Tektronix part number 015 1002 01 SMA BNC adapter Tektronix part number 015 0554 00 SMA N adapter Tensolite 5004CCSF BNC dual banana adapter Tektronix part number 103 0090 00 DC output lead set tea 8 pin twisted pair 24 inch Tektronix part number 012 1697 00 supplied with the AWG7000 Test Waveforms Table 2 2 lists the test waveforms that are used for the performance verification procedures and functional test These are included in the pv_awg7000 awg file on the C drive Table 2 2 Test Waveforms 7 sine mkt mk2 For the functional test refer to page 2 5 1 For checking the analog amplitude accuracy 2 For checking the analog amplitude accuracy 3 For checking the analog offset accuracy 4 For checking the marker high level accuracy 5 For checking the marker low level accuracy 6 For checking analog harmonic distortion analog sine mkl squaret non harmonic spurious sig
20. 156 25 MHz 1 5 kaaa 3 ca 1 a lt 50 dBc Option 02 2 30 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Analog Phase Noise 10 11 12 13 14 15 Equipment required Prerequisites Use the spectrum analyzer to measure non harmonic spurious signal of the Analog output over a frequency range of DC to 5 GHz for the AWG705x DC to 2 5 GHz For example note the reference level of the fundamental waveform and then measure each spurious Verify that the non harmonic spurious signal falls within the limits given in Table 2 6 Repeat steps 9 through 12 for each setting in Table 2 6 For the AWG7102 or AWG7052 Repeat the test for the Channel 2 output Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Disconnect the test setup Spectrum analyzer 50 92 SMA cable SMA N adapter 50 Q SMA terminator As listed under Prerequisites on page 2 9 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Use the 50 Q SMA cable and SMA N adapter to connect the Channel 1 Analog connector on the AWG7000 to the INPUT connector on the spectrum analyzer See Figure 2 10 on page 2 32 Use the 50 Q SMA terminator to terminate the Channel 1 Analog connector on the AWG7000 See Figure 2 10 on page 2 32 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 31 Performance Tests
21. 3 on page 2 21 13 In the Waveform List window select the de minus waveform on the User Defined tab 14 Measure the output voltage on the digital multimeter and note the value as Measured voltage 2 15 Use the following formula to compensate the voltage for the 50 92 BNC terminator V low Term R 50 2 x Term R x Measured voltage 2 Where Term R is the resistance of the 50 Q BNC terminator measured in step 3 on page 2 21 16 Verify that the voltage difference V high V low falls within the limits given in Table 2 4 17 Repeat steps 7 through 16 for each amplitude setting in Table 2 4 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 25 Performance Tests 18 19 20 21 22 Move the SMA BNC adapter from the Channel 1 Analog connector to the Channel 1 Analog connector and move the 50 92 SMA terminator from the Channel 1 Analog connector to the Channel 1 Analog connector Repeat steps 10 through 17 For the AWG7102 or AWG7052 Repeat steps 6 through 18 for the Channel 2 output Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Disconnect the test setup Analog Harmonic Distortion Equipment required Prerequisites 2 26 Spectrum analyzer 50 92 SMA cable SMA N adapter 50 Q SMA terminator As listed under Prerequisites on page 2 9 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Use the 5
22. 7051 and AWG7052 Random jitter on clock pattern typical Normal mode Direct D A mode Total jitter on random pattern typical Normal mode Direct D A mode Description Amplitude 1 0 Vp p offset 0 V DAC resolution 8 bit measured with 32 points sine waveform lt 35 dBc when clock 10 GS s signal 312 5 MHz lt 42 dBc when clock 10 GS s signal 312 5 MHz lt 40 dBc when clock 5 GS s signal 156 MHz lt 45 dBc when clock 5 GS s signal 156 MHz Amplitude 1 0 Vp p offset 0 V measured with 32 points sine waveform lt 50 dBc DC to 5 GHz when clock 10 GS s signal 312 5 MHz lt 50 dBc DC to 2 5 GHz when clock 5 GS s signal 156 MHz Normal output mode amplitude 1 0 Vp p offset 0 V DAC resolution 10 bits 45 dB when clock 10 GS s signal 312 5 MHz 51 dBc when clock 5 GS s signal 156 MHz Normal output mode amplitude 1 0 Vp p offset 0 V DAC resolution 8 bits lt 90 dBc Hz at 10 kHz offset when clock 10 GS s signal 312 5 MHz lt 90 dBc Hz at 10 kHz offset when clock 5 GS s signal 156 MHz By 0101 clock pattern amplitude 1 0 Vp p offset 0 V 1 6 ps 0 9 ps PN15 pattern amplitude 1 0 Vp p offset 0 V measured at bit error rate 1e 12 50 ps p p at 500 MS s 30 ps p p from 1 GS s to 6 GS s AWG7000 Series Arbitrary Waveform Generators Technical Reference 1 5 Specifications Table 1 7 Analog output Option 02 and Option 06 Characteristics Connector type Type of output Output impeda
23. Arbitrary Waveform Generators Technical Reference Brief Procedures Functional Test Checking the Analog and Marker Outputs Calibration Status Error Codes Pass Pass Pass Pass Eguipment reguired Prereguisites Figure 2 2 Calibration dialog box Click the Execute button to start the routine Verify that Pass appears in the status column for all items when the calibration completes Click the close button to close the dialog box The purpose of the procedure is to confirm that the instrument functions properly The eguipment reguired is SMA cables SMA terminators SMA female to BNC male adapters and an oscilloscope Oscilloscope TDS5054B or eguivalent Three 50 2 SMA cables Three 50 22 SMA terminators Three SMA female to BNC male adapters None Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Use a 50 2 SMA cable and a SMA female to BNC male adapter to connect the Channel 1 Analog connector on the AWG7000 to the CH1 connector on the oscilloscope See Figure 2 3 on page 2 6 Use a 50 2 SMA cable and a SMA female to BNC male adapter to connect the Channel 1 Mkr 1 connector on the AWG7000 to the CH2 connector on the oscilloscope See Figure 2 3 on page 2 6 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 5 Brief Procedures AWG7000 Use the 50 Q SMA cable and the SMA female to BNC male adapter to connect the Channel 1 Mkr 2 c
24. Technical Reference Tektronix AWG7000 Series Arbitrary Waveform Generators Specifications and Performance Verification 071 1853 00 Warning The servicing instructions are for use by qualified personnel only To avoid personal injury do not perform any servicing unless you are qualified to do so Refer to all safety summaries prior to performing service www tektronix com Copyright O Tektronix All rights reserved Licensed software products are owned by Tektronix or its subsidiaries or suppliers and are protected by national copyright laws and international treaty provisions Tektronix products are covered by U S and foreign patents issued and pending Information in this publication supercedes that in all previously published material Specifications and price change privileges reserved TEKTRONIX and TEK are registered trademarks of Tektronix Inc Contacting Tektronix Tektronix Inc 14200 SW Karl Braun Drive P O Box 500 Beaverton OR 97077 USA For product information sales service and technical support m In North America call 1 800 833 9200 m Worldwide visit www tektronix com to find contacts in your area Warranty 2 Tektronix warrants that this product will be free from defects in materials and workmanship for a period of one 1 year from the date of shipment If any such product proves defective during this warranty period Tektronix at its option either will repair the defective product without
25. V 1 0 Vp p 0 978 V E py EA ES Ss Rm lo tw CT Amplitude Eb ee 500 mVp p Bem o 5i2mv 1 0 Vpp 08786 tv KA iz NEE olo KA olo ol Ch2 Amplitude 500 mVp p 488 mV 512 mV 1 0 Vp p 0 978 V 1 022 V Ch2 Amplitude BU 500 mVp p 488 mV 512 mV 1 022 V 1 0 Vp p 0 978 V AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 13 Performance Tests AWG7000 Series Performance Test Record Cont Performance Test Minimum Incoming Outgoing Maximum ANG7102 Option 06 EE HO TI Chi Ampinude EA AA 500 mp Dem sem 1 0 Vp osem tom oT Anu EU A ovos amo sem tow osem A o Al Eos so nos E E tow osem i 7 Amu ae sg amo em 1 0 Vp p 0 978 mv 102mV Analog Harmonic Distortion A AWGTIO sand RR AG oi Ampid oe 2 Ampid owe po 35 dBc 42 dBe AWG705x standard cht Amado owpmoe 1 0V Direct D A out Off none LOV Direct D A out On none 40 dBc 45 dBc Ch2 Ampitude 1 0 V Direct D A out Off 1 0 V Direct D A out On AWG7101 Option 02 40 dBc a IESO sa Ch1 Amplitude E A 1 0V none 42 dBc AWG705x Option 02 misi Ch 1 Amplitude AE 1 0V more 45 dBc Ch2 Amplitude aa 1 0V nre 45 dBc 2 14 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests AWG7000 Series Performance Test Record Cont Performance Test Minimum Incoming Outg
26. apter 50 92 SMA cable Figure 2 9 Equipment connections for verifying the non harmonic spurious signal 4 Press the Factory Default button on the AWG7000 5 Press the Ch1 Select button on the AWG7000 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 29 Performance Tests 6 On the AWG7000 load the sine 32 waveform as an output waveform a Press the File Open button or select File 5 Open File to open the Open dialog box b In the dialog box navigate to the C Program Files Tektronix AWG System PV directory and then select the pv_awg70000 awg file The Waveform List window appears c In the window select drag and drop the sine_32 waveform on the User Defined tab 7 Press the Ch 1 On button on the AWG7000 to enable the channel 1 output 8 Press the Run button on the AWG7000 to output the waveform 9 Make the AWG7000 and spectrum analyzer settings shown in the first row or the corresponding row for your instrument of Table 2 6 Table 2 6 Analog non harmonic spurious signal AWG7000 model and settings Spectrum analyzer settings Model Accuracy Limit AWG710x Direct out On Off 10 GS s 312 5 MHz 1 5 15GHz 3 3GHz 1 1 MHz lt 50 dBc AWG7101 1 0 Vp p 10 GS s 312 5 MHz lt 50 dBc AWG7102 Interleave Off 1 0 Vp p 10 GS s 312 5 MHz lt 50 dBc AWG705x 1 5 1 5GHz 3 3GHz 1 pt MHz lt 50 dBc AWG705x 1 0 Vp p 5GS s
27. ategory are generally encapsulated hermetically sealed or located in clean rooms Pollution Degree 2 Normally only dry nonconductive pollution occurs Occasionally a temporary conductivity that is caused by condensation must be expected This location is a typical office home environment Temporary condensation occurs only when the product is out of service Pollution Degree 3 Conductive pollution or dry nonconductive pollution that becomes conductive due to condensation These are sheltered locations where neither temperature nor humidity is controlled The area is protected from direct sunshine rain or direct wind Pollution Degree Pollution Degree 2 as defined in IEC 61010 1 Note Rated for indoor use only Eguipment Type Test and measuring eguipment Safety Class Class 1 grounded product AWG7000 Series Arbitrary Waveform Generators Technical Reference 1 15 Specifications 1 16 AWG7000 Series Arbitrary Waveform Generators Technical Reference ES AAA Performance Verification EAS 4S eee Performance Verification Procedures Two types of performance verification procedures can be performed on the instrument Brief Procedures and Performance Tests You may not need to perform all of these procedures depending on what you want to accomplish m To rapidly confirm that the instrument functions and was adjusted properly perform Diagnostics and Calibration beginning on page 2 3 Advantages These procedures are quick to d
28. ations Table 1 22 Certifications and compliances Cont Category Standards or description Safety Complies with the following safety standards regulations UL 61010 1 Standard for Electrical Measuring and Test Equipment CAN CSA C22 2 No 61010 1 04 Safety Requirements for Electrical Equipment for Measurement Control and Laboratory Use EN 61010 1 2001 Safety Requirements for Electrical Equipment for Measurement Control and Laboratory Use Installation Overvoltage Category Terminals on this product may have different installation overvoltage category designations The installation categories are CAT Ill Distribution level mains usually permanently connected Equipment at this level is typically in a fixed industrial location CAT Il Local level mains wall sockets Equipment at this level includes appliances portable tools and similar products Equipment is usually cord connected CAT Secondary signal level or battery operated circuits of electronic equipment Overvoltage Category Overvoltage Category II as defined in IEC 61010 1 Pollution Degree Descriptions A measure of the contaminates that could occur in the environment around and within a product Typically the internal environment inside a product is considered to be the same as the external Products should be used only in the environment for which they are rated Pollution Degree 1 No pollution or only dry nonconductive pollution occurs Products in this c
29. button on the AWG7000 On the AWG7000 load the de_plus waveform as an output waveform a Press the File Open button or select File gt Open File to open the Open dialog box b In the dialog box navigate to the C Program Files Tektronix AWG System PV directory and then select the pv_awg70000 awg file The Waveform List window appears c In the window select drag and drop the de plus waveform on the User Defined tab Press the Ch 1 On button on the AWG7000 to enable the channel 1 output Press the Run button on the AWG7000 to output the waveform Set the the amplitude and output mode of the AWG7000 as shown in the first row or the corresponding row for your instrument of Table 2 4 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Table 2 4 Analog amplitude accuracy Model Accuracy limits AWG7000 50 mVpp o ra 46 5 mV to 53 5 mV OVpp mm 0 968 V to 1 032 V 20Vpp 1 938 V to 2 062 V 46 5 mV to 53 5 mV 0 968 V to 1 032 V AWG7000 Option 02 500 mVp p Interleave Off 488 mV to 512 mV 06 Option 06 1 0 Vp p Interleave Off 0 978 V to 1 022 V Option 06 11 Measure the output voltage on the digital multimeter and note the value as Measured voltage 1 12 Use the following formula to compensate the voltage for the 50 2 BNC terminator V high Term R 50 2 x Term R x Measured voltage 1 Where Term R is the resistance of the 50 Q BNC terminator measured in step
30. duct 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 Use Proper Power Cord Use only the power cord specified for this product and Personal Injury certified for the country of use Ground the Product This product is grounded through the grounding conductor of the power cord To avoid electric shock the grounding conductor must be connected to earth ground Before making connections to the input or output terminals of the product ensure that the product is properly grounded Observe All Terminal Ratings To avoid fire or shock hazard observe all ratings and markings on the product Consult the product manual for further ratings information before making connections to the product Do Not Operate Without Covers Do not operate this product with covers or panels removed Avoid Exposed Circuitry Do not touch exposed connections and components when power is present Do Not Operate With Suspected Failures If you suspect there is damage to this product have it inspected by qualified service personnel Do Not Operate in Wet Damp Conditions Do Not Operate in an Explosive Atmosphere Keep Product Surfaces Clean and Dry Provide Proper Ventilation Refer to the manual s installation instructions for details on installing the product so it has proper ventilation No Power Switch Power supply cord is considered th
31. e disconnecting device disconnect the main power by means of the power cord AWG7000 Series Arbitrary Waveform Generators Technical Reference v General Safety Summary vi Symbols and Terms A A Terms in this Manual These terms may appear in this manual WARNING Warning statements identify conditions or practices that could result in injury or loss of life CAUTION Caution statements identify conditions or practices that could result in damage to this product or other property Terms on the Product These terms may appear on the product DANGER indicates an injury hazard immediately accessible as you read the marking WARNING indicates an injury hazard not immediately accessible as you read the marking CAUTION indicates a hazard to property including the product Symbols on the Product The following symbols may appear on the product A A ao O W CAUTION WARNING Double Protective Ground Not suitable for Refer to Manual High Voltage Insulated Earth Terminal connection to the public telecom munications network AWG7000 Series Arbitrary Waveform Generators Technical Reference AA APRA TP Environmental Considerations Product End of Life Handling Restriction of Hazardous Substances This section provides information about the environmental impact of the product Observe the following guidelines when recycling an instrument or component Equipment Recycling Production of this equipment
32. ere the temperature altitude humidity and vibration conditions are within the operating limits described in these specifications AWG7000 Series Arbitrary Waveform Generators Technical Reference 1 1 Specifications Electrical Specifications Table 1 1 Run mode Characteristics Continuous mode Triggered mode Gated mode Sequence mode Table 1 2 Arbitrary waveform Characteristics Waveform length Without Option 01 With Option 01 Waveform granularity DAC resolution Number of waveforms Sequence length Sequence controls Repeat count Jump timing Description An arbitrary waveform is output continuously An arbitrary waveform is output only once when a trigger signal is applied After the waveform is output the instrument waits for the next trigger signal An arbitrary waveform is output only when a gate signal is asserted The waveform output is repeated while the gate signal stays asserted When the gate signal is deasserted the waveform output stops immediately A sequence of arbitrary waveforms are output Description 1 to 32 400 000 points interleave is off 1 to 64 800 000 points interleave is on 1 to 64 800 000 points interleave is off 1 to 129 600 000 points interleave is on 1 point 10 bits or 8 bits selectable when the 10 bits DAC mode is selected marker output is disabled 1 to 16 000 waveforms 1 to 4 000 steps Repeat count Wait for Trigger Go to N and Jump are available 1
33. espectively 25 26 27 28 29 2 36 Repeat steps 8 through 22 Repeat steps 8 through 25 for Channel 1 Mkr 2 and Mkr 2 For the AWG7102 or AWG7052 Repeat the test for the Channel 2 marker outputs Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Disconnect the test setup AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Marker Output Delay Accuracy Equipment required Sampling oscilloscope Two 50 92 SMA cables Two 50 Q SMA terminators Two 50 Q SMA attenuators As listed under Prerequisites on page 2 9 Prerequisites 1 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs 2 Use a 50 Q SMA cable and 50 Q SMA attenuator to connect the Channel 1 Mkr 1 connector on the AWG7000 to the CH1 connector on the sampling oscilloscope See Figure 2 13 3 Use the 50 Q SMA cable and 50 Q SMA attenuator to connect the Channel 1 Analog connector on the AWG7000 to the TRIGGER DIRECT connector on the sampling oscilloscope See Figure 2 13 4 Use a 50 Q SMA terminator to terminate the Channel 1 Analog connector on the AWG7000 See Figure 2 13 5 Use the 50 Q SMA terminator to terminate the Channel 1 Mkr 1 connector on the AWG7000 See Figure 2 13 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 37 Performance Tests Sampling oscilloscope
34. falls within the limits given in Table 2 5 13 Repeat steps 10 through 12 for each setting in Table 2 5 14 For the AWG7102 or AWG7052 Repeat the test for the Channel 2 output 15 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs 16 Disconnect the test setup 2 28 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Analog Non Harmonic Spurious Signal Equipment required Spectrum analyzer 50 Q SMA cable SMA N adapter 50 92 SMA terminator Prerequisites As listed under Prerequisites on page 2 9 1 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs 2 Use the 50 9 SMA cable and SMA N adapter to connect the Channel 1 Analog connector on the AWG7000 to the INPUT connector on the spectrum analyzer See Figure 2 9 3 Use the 50 Q SMA terminator to terminate the Channel 1 Analog connector on the AWG7000 See Figure 2 9 AWG7000 Spectrum analyzer y J 1 F gt DO 00000 29 O TIO DDODO O z OO 100000 O O OO e rece OO OO 0000 lj oo OOOO DO 00000 oo PP 6000 OOOO O OOOO OO OO 0000 OOOO OOOOO 0 O DOO 4101 so EQ aooo0o0000000 olo pd is 50 Q SMA terminator SMA N ad
35. fset accuracy 4 5 6 2 22 Press the Factory Default button on the AWG7000 Press the Ch1 Select button on the AWG7000 On the AWG7000 load the de_zero waveform as an output waveform a Press the File Open button or select File gt Open File to open the Open dialog box b In the dialog box navigate to the C Program Files Tektronix AWG System PV directory and then select the pv awg70000 awg file The Waveform List window appears c In the window select drag and drop the dc zero waveform on the User Defined tab Press the Ch 1 On button on the AWG7000 to enable the channel 1 output Press the Run button on the AWG7000 to output the waveform AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests 9 Set the offset of the AWG7000 to the level shown in the first row or the corresponding row for your instrument of Table 2 3 Table 2 3 Analog offset accuracy Model Accuracy limits AWG7000 480 mV to 520 mV 10 mV to 10 mV 520 mV to 480 mV AWG7000 Option 02 10 mV to 10 mV AWG7000 Option 06 10 mV to 10 mV 10 Measure the output voltage on the digital multimeter and note the value as Measured_voltage 11 Use the following formula to compensate the voltage for the 50 92 BNC terminator Voltage Term R 50 2 x Term R x Measured voltage Where Term R is the resistance of the 50 Q BNC terminator measured in step 3 12 Verify that the calculated value falls
36. h the digital multimeter Prerequisites As listed under Prerequisites on page 2 9 1 Use the test leads to connect the HI and LO inputs on the digital multimeter See Figure 2 14 2 Use the DC output lead set to connect the DC Output connector on the AWG7000 See Figure 2 14 AWG7000 k f Eo 7 de O e D OO OO OOOO oo OOOO Digital multimeter Oooo DO SO GOO OOOO O 0 O O OODO aaa O IK IZ DC output lead set Test leads Figure 2 14 Eguipment connection for verifying the DC output voltage accuracy 3 Set the digital multimeter to the VDC mode 4 On the AWG7000 select the DC Outputs tab in the Settings window 5 On the DC Output tab set the DC 1 DC 2 DC 3 and DC 4 levels to the setting shown in the first row of Table 2 9 on page 2 41 2 40 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Table 2 9 DC output voltage accuracy Model DC output settings Accuracy limits AWG7000 477V t0 523V 8 9 On the DC Outputs tab select the DC Output check box to enable the DC output The DC Output LED on the front panel lights Attach the black test lead to the connector lead from DC1 GND Attach the red test lead to the connector lead from DC1 Verify that the DC output level falls wit
37. hen amplitude 0 5 Vp p zeroing On lt 20 ps Output relay is available for each channel A control is common to the complementary output Measured with 32 points sine waveform lt 40 dBc when amplitude 0 5 Vp p clock 20 GS s signal 625 MHz lt 40 dBc when amplitude 1 0 Vp p clock 20 GS s signal 625 MHz Measured with 32 points sine waveform lt 45 dBc DC to 5 GHz when amplitude 0 5 Vp p clock 20 GS s signal 625 MHz lt 45 dBc DC to 5 GHz when amplitude 1 0 Vp p clock 20 GS s signal 625 MHz clock 20 GS s signal 2 5 GHz 30 dB when amplitude 0 5 Vp p 40 dB when amplitude 1 0 Vp p Measured with 32 points sine waveform lt 85 dBc Hz at 10 kHz offset when amplitude 0 5 Vp p clock 20 GS s signal 625 MHz lt 85 dBc Hz at 10 kHz offset when amplitude 1 0 Vp p clock 20 GS s signal 625 MHz AWG7000 Series Arbitrary Waveform Generators Technical Reference 1 7 Specifications Table 1 9 Marker output Characteristics Connector type Number of outputs Type of output Level controls Voltage window Amplitude Resolution Y Level accuracy Output current Variable delay control Range Resolution Variable delay accuracy Rise fall time typical Random jitter on clock pattern typical Total jitter on random pattern typical Skew between and outputs typical Skew between Marker 1 and Marker 2 outputs typical Table 1 10 Trigger and gate input Characteristics Connector
38. hin the limits given in Table 2 9 10 Repeat steps 8 through 9 for DC 2 DC 3 and DC 4 11 Repeat steps 5 through 10 for each row in Table 2 9 This completes the AWG7000 performance verification AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 41 Performance Tests 2 42 AWG7000 Series Arbitrary Waveform Generators Technical Reference
39. igate to the C Program Files Tektronix AWG System PV directory and then select the pv awg70000 awg file The Waveform List window appears c In the window select drag and drop the sine 32 waveform on the User Defined tab 8 Press the Ch 1 On button on the AWG7000 to enable the channel 1 output 9 Press the Run button on the AWG7000 to output the waveform 10 Make the AWG7000 settings shown in the first row or corresponding row for your instrument of Table 2 5 on page 2 28 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 27 Performance Tests Table 2 5 Analog harmonic distortion AWG7000 model and settings Measurement frequency la Accuracy Limit Sampling rate Model oe mode Amplitude output frequency sn fn reference AWG710x 1 0 Vp p 10 GS s 312 5 MHz 625 937 5 1250 1562 5 lt 35 dBe Direct out Direct out On lt 42 dBc AWG7101 E 0 BANG p 10 GS s 312 5 Ka Pe 5 Gall ad 5 lt 42 dBc Option 02 AWG7102 Interleave Off 1 0 k p 10 poh 312 5 MHz kad 5 baki bas 5 lt 42 dBc Option 06 AWG705x 1 0 p 5GS s 156 25 MHz 312 5 468 75 781 25 lt 40 dBc Direct out Direct out On lt 45 dBc AWG705x a 0 Vp p 5GS s 156 25 MHz 312 5 468 75 625 781 25 lt 45 dBc Option 02 11 Use the delta measurement function of the spectrum analyzer to measure harmonic distortion of each measurement frequency 12 Verify that the harmonic distortion
40. lity and proper adjustment Equipment None Prerequisites None 1 Disconnect all the cables from the output channels 2 Select System gt Diagnostics to open the Diagnostics dialog box See Figure 2 1 on page 2 4 AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 3 Brief Procedures Diagnostics Item Status Error Codes Front Panel Read wiite Access Pass AWG Register Read Back CH1 WFM MEM CH2 WFM MEM jek Register Read Back PLL Lock K da aa o Ss a amp Register Read Back Analog Level V Marker Level Output 2 cp fera Loop 1 raton Figure 2 1 Diagnostics dialog box 3 In the Diagnostics dialog box confirm that all the check boxes are selected If they are not all selected click the Select All button 4 Click the Execute button to execute the diagnostics The internal diagnostics perform an exhaustive verification of proper instrument function This verification may take several minutes When the verification is completed the resulting status will appear in the dialog box 5 Verify that Pass appears as Status in the dialog box when the diagnostics complete 6 Click the close button to close the dialog box Calibration Equipment None Power on the instrument and allow a 20 minute warm up before doing this procedure Prerequisites 1 Select System gt Calibration to open the Calibration dialog box See Figure 2 2 2 4 AWG7000 Series
41. lock 5 GS s signal 156 MHz Amplitude 1 0 Vp p measured with 32 points sine waveform lt 90 dBc Hz at 10 kHz offset when clock 10 GS s signal 312 5 MHz lt 90 dBc Hz at 10 kHz offset when clock 5 GS s signal 156 MHz 0 9 ps rms by 0101 clock pattern amplitude 1 0 Vp p 20 ps p p from 2 GS s to 10 GS s PN15 pattern amplitude 1 0 Vp p measured at bit error rate 1 e 12 AWG7000 Series Arbitrary Waveform Generators Technical Reference Specifications Table 1 8 Interleave analog output AWG7102 Option 06 Characteristics Connector type Type of output Output impedance Zeroing control Amplitude controls Range When Zeroing is On When Zeroing is Off Resolution Amplitude accuracy typical 1 DC offset accuracy Bandwidth typical Rise fall time typical Delay from marker typical Skew between and outputs typical ON OFF control Harmonic distortion typical When Zeroing is On When Zeroing is Off Non harmonic spurious typical When Zeroing is On When Zeroing is Off SFDR typical When Zeroing is On When Zeroing is Off 1 Phase noise When Zeroing is On When Zeroing is Off Description SMA and complementary output 50 Q Zeroing On and Off is selectable 0 25 V to 0 5 V peak peak 0 5 V to 1 0 V peak peak 1mV Within 8 of amplitude 2 mV at offset 0V Within 10 mV 5 8 GHz at 3 dB when amplitude 0 5 Vp p zeroing On 45 ps 20 to 80 when amplitude 0 5 Vp p zeroing On 1 0 ns w
42. lution Amplitude accuracy Offset accuracy Bandwidth typical Normal mode Direct D A mode Rise fall time typical Normal mode Direct D A mode Overshoot typical Low pass filter Normal mode Direct D A mode Delay from marker typical Skew between and outputs typical ON OFF control Description SMA and complementary output 50 Q 50 mV to 2 0 V peak peak 50 mV to 1 0 V peak peak 1mV 0 5 V to 40 5 V N A 1mV Within 3 of amplitude 2 mV at offset 0V Within 2 of amplitude 10 mV at minimum amplitude 750 MHz at 3 dB 3 5 GHz at 3 dB 350 ps 20 to 80 when amplitude 2 0 Vp p offset 0 V 75 ps 20 to 80 when amplitude 1 0 Vp p lt 10 when amplitude 1 0 Vp p 50 MHz 200 MHz Through Bessel type N A 9 7 ns low pass 50 MHz 3 9 ns low pass 200 MHz 2 1 ns low pass through 0 5 ns direct D A mode lt 20 ps direct D A mode when amplitude 1 0 Vp p offset 0 V Output relay is available for each channel A control is common to the complementary output AWG7000 Series Arbitrary Waveform Generators Technical Reference Specifications Table 1 6 Analog output standard Cont Characteristics 14 Harmonic distortion AWG710x Normal mode AWG710x Direct D A mode AWG705x Normal mode AWG705x Direct D A mode Non harmonic spurious AWG7101 and AWG7102 AWG7051 and AWG7052 SFDR typical AWG7101 and AWG7102 AWG7051 and AWG7052 1 Phase noise AWG7101 and AWG7102 AWG
43. m Generators Technical Reference 2 17 Performance Tests AWG7000 Series Performance Test Record Cont Performance Test Ch 2 2 18 Mkr 1 Mkr 2 NI High level setting 14 4 V 0 0 V 0 9 V Low level setting 0 9 V 0 0 V 1 4 V High level setting 1 4 V 0 0 V 0 9 V Low level setting 0 9 V 0 0 V 1 4 V High level setting 1 4 V 0 0 V 0 9 V Low level setting 0 9 V 0 0 V 1 4 V High level setting 1 4 V 0 0 V 0 9 V Low level setting 0 9 V 0 0 V 1 4 V ow ow E ow mv Pam A mv mv 1 59 V 450 mV 0 76 V 1 04 V 450 mV 1 21V 1 59 V 450 mV 0 76 V 1 04 V 450 mV 1 21V 1 59 V 450 mV 0 76 V 1 04 V 450 mV 121V 1 59 V 450 mV 0 76 V 1 04 V 450 mV 1 21V AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests AWG7000 Series Performance Test Record Cont Performance Test Minimum Incoming Outgoing Maximum Marker Output Delay Accuracy CU o TA TH AWG7000 E Cni Mr mee ams ITA mses ass DO Output Accuracy AAA AWG7000 EA AAA DO ouput Cl ay CO omw em AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 19 Performance Tests 10 MHz Reference Frequency Accuracy Equipment required Frequency counter 50 Q BNC cable Prerequisites As listed under Prerequisites on page 2 9 1 U
44. n B IEC 61000 4 6 Conducted RF Immunity Performance Criterion A IEC 61000 4 11 Voltage dips and Interruptions Performance Criterion B EN 61000 3 2 AC power line harmonic emissions EN 61000 3 3 Voltage changes fluctuation and flicker 1 Emissions which exceed the levels required by this standard may occur when this equipment is connected to a test object 2 To ensure compliance to the standards listed above attach only high quality shielded cables to this instrument High quality shielded cables typically are braid and foil types that have low impedance connection to shielded connectors at both ends Complies with EMC provision of Radio Communications Act per the following standard s ASINZS 2064 1 2 Industrial Scientific and Medical Equipment 1992 Compliance was demonstrated to the following specification as listed in the Official Journal of the European Communities Low Voltage Directive 73 23 EEC amended by 93 68 EEC EN 61010 1 2001 Safety requirements for electrical equipment for measurement control and laboratory use UL61010 01 2004 2nd Edition Standard for electrical measuring and test equipment CAN CSA C22 2 No 61010 1 2004 Safety requirement for electrical equipment for measurement control and laboratory use Part 1 IEC 61010 1 2001 Safety requirements for electrical equipment for measurement control and laboratory use AWG7000 Series Arbitrary Waveform Generators Technical Reference Specific
45. n the AWG7000 to output the waveform 2 38 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests 11 12 13 14 15 16 17 18 19 20 21 22 23 24 On the oscilloscope store the channel 1 waveform to Ref 1 as a reference waveform On the AWG7000 set the Marker 1 delay value to 150 ps Use the oscilloscope to measure the delay time between the Ref 1 waveform and channel 1 waveform at the 50 level Verify that the delay time is within the range of 92 5 ps to 207 5 ps Press the Ch 1 On button on the AWG7000 to disable the channel 1 output Move the SMA cable from the Channel 1 Mkr 1 connector to the Channel 1 Mkr 2 connector Move the SMA terminator from the Channel 1 Mkr 1 connector to the Channel 1 Mkr 2 connector Press the Ch 1 On button on the AWG7000 to enable the channel 1 output On the oscilloscope store the channel 1 waveform to Ref 1 as a reference waveform On the AWG7000 set the Marker 2 delay value to 150 ps Repeat steps 13 and 14 For the AWG7102 and AWG7052 Repeat the test for the Marker 1 and Marker 2 of the Channel 2 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs Disconnect the test setup AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 39 Performance Tests DC Output Voltage Accuracy Equipment required Digital multimeter DC output lead set Test leads provided wit
46. nal and analog phase noise 8 square For checking the marker output delay accuracy test NOTE f your instrument is the AWG7051 or AWG7052 a warning message is displayed when you open the pv awg7000 awg file Press the OK button 2 10 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Test Record Photocopy this page and the next eight pages and use them to record the performance test results for your instrument AWG7000 Series Performance Test Record Instrument Model AWG7101 AWG7102 AWG7051 AWG7052 Instrument Serial Number Certificate Number Temperature RH Date of Calibration Technician Performance Test Minimum Incoming Outgoing Maximum 10 MHz Reference Frequency Accuracy 999998 MHz 10 00002 MHz Analog Offset Accuracy CU oh ll AWG7000 standard a ANNAN Cht Offset fo lo 05 V sow To som 0 0 V vow Hom 0 5 V Co sem o 480mV Chi Offset fo lo 05 V sow To som 00 V domwvj o o mv 05v sem o 480mV Ch2 Offset fo lo 05V 48omv som 0 0V tomy H0mv 0 5V E o 480 mV Offset ERA O a 05V sow o LY 0 0 V A0mv mom 0 5V sem 480 mV AWG7000 Option 02 FR NEK BRR Cht Ofiset D3 RE NE N A 0V tomy o Hom GRT Ofset CS spo Go N A 0V aow o mom Ch2 Offset sf Go N A 0 domwvj o mv Ch2 Offset E E S NJA 0V dom o mv
47. nce Amplitude controls Range Resolution 174 Amplitude accuracy 1 DC offset accuracy Bandwidth typical Rise fall time typical Overshoot typical Delay from marker typical Option 02 Option 06 Skew between and outputs typical ON OFF control 14 Harmonic distortion AWG7101 and AWG7102 AWG7051 and AWG7052 14 Non harmonic spurious AWG7101 and AWG7102 AWG7051 and AWG7052 SFDR typical AWG7101 and AWG7102 AWG7051 and AWG7052 W Phase noise AWG7101 and AWG7102 AWG7051 and AWG7052 Random jitter on clock pattern typical Total jitter on random pattern typical Description SMA and complementary outputs 50 Q 0 5 V to 1 0 V peak peak 1mV Within 2 of amplitude 2 mV at offset 0V Within 10 mV 5 8 GHz at 3 dB 45 ps 20 to 80 when amplitude 1 0 Vp p lt 3 when amplitude 1 0 Vp p 0 2 ns when amplitude 1 0 Vp p 1 0 ns when amplitude 1 0 Vp p lt 20 ps Output relay is available for each channel A control is common to the complementary output Amplitude 1 0 Vp p measured with 32 points sine waveform lt 42 dBc when clock 10 GS s signal 312 5 MHz lt 45 dBc when clock 5 GS s signal 156 MHz Amplitude 1 0 Vp p measured with 32 points sine waveform lt 50 dBc DC to 5 GHz when clock 10 GS s signal 312 5 MHz lt 50 dBc DC to 2 5 GHz when clock 5 GS s signal 156 MHz Amplitude 1 0 Vp p DAC resolution 10 bits 44 dB when clock 10 GS s signal 312 5 MHz 48 dB when c
48. o and require no external equipment or signal sources These procedures perform extensive functional and accuracy testing to provide high confidence that the instrument will perform properly m To further check functionality first perform Diagnostics and Calibration and then perform Functional Test beginning on page 2 5 Advantages The procedure requires minimal additional time to perform and requires minimal equipment The procedure can be used when the instrument is first received m If more extensive confirmation of performance is desired complete the self tests and functional test and then do the Performance Tests beginning on page 2 9 Advantages These procedures add direct checking of warranted specifica tions These procedures require suitable test equipment and more time to execute refer to Equipment Required on page 2 9 If you are not familiar with operating this instrument refer to the online help or the user information supplied with the instrument AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 1 Performance Verification Procedures 2 2 AWG7000 Series Arbitrary Waveform Generators Technical Reference _ AAA Brief Procedures There are three procedures in this section that provide a quick way to confirm basic functionality and proper adjustment m Diagnostics m Calibration E Functional Test Diagnostics The following steps run the internal routines that confirm basic functiona
49. oing Maximum ANG7102 Option 06 Ss ee E cht Ampiudo EA AAA C2 Ampiudo ESSE Analog Non Harmonic Spurious bo dl ff ed AWG7000 standard E po oj A Cm Ampiudo upit mode 02 Amde Owpuimode AWG7000 Option 02 CATA A Chi Ampiude cf h4 Cha Amplitude kh E o AWG7102 Option 06 y Chi Amplie Cl ARES Ch2 Amplitude EE SEA KI mane o mm AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 15 Performance Tests AWG7000 Series Performance Test Record Cont Performance Test Minimum Incoming Outgoing Maximum Analog Phase Noise at 10 kHz offset aaa CA SA AWGTD00 E mA Game 11 10 prea out oF nm 1 1 0m tov bre Aout on mne ET mo Ammo mn zov Dies DA out ON mne od tov Diet Dlaat On me pasa AWG7000 Option 02 o Chi Ampid EEE zov me mean 092 Ampiude AA lov me ECT AWG7102 Option 06 QoS Chi Ampid Edo zov me e 092 Anpiude Cl if 1 0V 90 dBc Hz Zeroing On Zeroing Off 2 16 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests AWG7000 Series Performance Test Record Cont Performance Test Minimum Incoming Outgoing Maximum Marker High and Low Level Accuracy CC TE 278 HA AWG7000 gt Ch1 Mkr 1 High level setting High level setting Mkr 2 High level setting High level setting ay a o as x 3 MR si x q N AWG7000 Series Arbitrary Wavefor
50. ompensate the voltage for the 50 92 BNC terminator Marker High Term R 50 2 Xx Term_R X Measured_voltage 1 13 Verify that the marker High level falls within the limits given in Table 2 8 14 Repeat steps 10 through 13 for each row in Table 2 8 15 In the Waveform List window select the marker low waveform on the User Defined tab AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 35 Performance Tests 16 17 18 19 20 21 22 23 24 Press the Ch 1 On button on the AWG7000 to enable the channel 1 output Press the Run button on the AWG7000 to output the waveform Make the AWG7000 Low Level setting shown in the first row of Table 2 8 on page 2 35 Measure the output voltage on the digital multimeter and note the value as Measured_voltage_2 Use the following formula to compensate the voltage for the 50 Q BNC terminator Marker Low Term R 50 2 x Term R x Measured voltage 2 Verify that the marker Low level falls within the limits given in Table 2 8 on page 2 35 Repeat steps 18 through 21 for each row in Table 2 8 on page 2 35 Press the Ch 1 On button to disable the channel 1 output Move the SMA BNC adapter from the Channel 1 Mkr 1 connector to the Channel 1 Mkr 1 connector and move the 50 2 SMA terminator from the Channel 1 Mkr 1 connector to the Channel 1 Mkr 1 connector NOTE For the Mkr 1 output read marker_hi and marker_low as marker_low and marker_hi r
51. on 5 0 V to 5 0 V 0 1 V 5 of setting 0 1 V 0 5 Vp p minimum 20 ns 1024 sampling period 10 ns 128 sampling period 250 ns 832 sampling period 100 ns 640 sampling period 260 ns 3ns Description BNC 1 kQ or 50 Q selectable Positive or negative selectable 10 Vto 10 V lt 5 Vrms 5 0 V to 5 0 V 0 1 V 5 of setting 0 1 V 0 5 Vp p minimum 20 ns 1024 sampling period 280 ns 900 sampling period 10 ns AWG7000 Series Arbitrary Waveform Generators Technical Reference 1 9 Specifications Table 1 12 Reference clock input Characteristics Connector type Input impedance Input voltage swing Fixed mode input frequency Variable mode input frequency range Variable mode multiplier rate AWG710x without interleave AWG7102 with interleave AWG705x Description BNC 50 Q AC coupled 0 2 Vp p to 3 Vp p 10 MHz 20 MHz and 100 MHz within 0 1 5 MHz to 800 MHz Acceptable frequency drift while running is 0 1 1 to 2000 2 to 4000 1 to 1000 Table 1 13 Oscillator external clock input Characteristics Connector type Input impedance Frequency range Input voltage swing Divider AWG710x AWG705x Table 1 14 DC output Characteristics Connector type Number of outputs Output voltage control Range Resolution Control 1 Output voltage accuracy Output current Output impedance typical 1 10 Description SMA 50 Q AC coupled 5 0 GHz to 10
52. onnector on the AWG7000 to the CH3 connector on the oscilloscope See Figure 2 3 Use a 50 Q SMA terminator to terminate the Channel 1 Analog connector on the AWG7000 See Figure 2 3 Use a 50 Q SMA terminator to terminate the Channel 1 Mkr 1 connector on the AWG7000 See Figure 2 3 Use the 50 2 SMA terminator to terminate the Channel 1 Mkr 2 connector on the AWG7000 See Figure 2 3 i oo o O O o O DO DO DO CO OOOO OOOO OOOO OOOO OOOO OOOO o O o0 Do D T 50 Q SMA terminator Oscilloscope SMA cables o lo lo 2 9 9 O 018 M008 o oo a A ij Ol Figure 2 3 Equipment connections for checking the analog and marker outputs AWG7000 Series Arbitrary Waveform Generators Technical Reference SMA female to BNC male adapter Brief Procedures S Set the oscilloscope settings as indicated below Vertical scale 1 V div CH1 CH2 and CH3 Horizontal scale 20 ns div for the AWG710x 40 ns div for the AWG705x Input coupling DC Input impedance 50 Q CH 1 position
53. required the extraction and use of natural resources The equipment may contain substances that could be harmful to the environment or human health if improperly handled at the product s end of life In order to avoid release of such substances into the environment and to reduce the use of natural resources we encourage you to recycle this product in an appropriate system that will ensure that most of the materials are reused or recycled appropriately The symbol shown to the left indicates that this product complies with the European Union s requirements according to Directive 2002 96 EC on waste electrical and electronic equipment WEEE For information about recycling options check the Support Service section of the Z Tektronix Web site www tektronix com Mercury Nortification This product uses an LCD backlight lamp that contains mercury Disposal may be regulated due to environmental considerations Please contact your local authorities or within the United States the Electronics Industries Alliance www eiae org for disposal or recycling information This product has been classified as Monitoring and Control eguipment and is outside the scope of the 2002 95 EC RoHS Directive This product is known to contain lead cadmium mercury and hexavalent chromium AWG7000 Series Arbitrary Waveform Generators Technical Reference vii Environmental Considerations viii AWG7000 Series Arbitrary Waveform Generators Technical Reference
54. se the 50 92 BNC cable to connect the 10 MHz Reference Output connector on the AWG7000 to the frequency counter CH1 input See Figure 2 5 AWG7000 rear panel el Frequency counter 53181A 50 2 BNC cable Figure 2 5 Equipment connection for verifying the 10 MHz reference frequency accuracy 2 Set the frequency counter settings as indicated below MEASURE Freguency1 Gate Time 0 10 s CHANNELI Coupling AC Impedance 50 Q 3 Press the Factory Default button on the AWG7000 4 Verify that the frequency counter reading falls within the range of 9 99998 MHz to 10 00002 MHz 0 2 ppm 5 Disconnect the test setup 2 20 AWG7000 Series Arbitrary Waveform Generators Technical Reference Performance Tests Analog Offset Accuracy Equipment required Digital multimeter 50 Q BNC cable SMA BNC adapter 50 Q BNC terminator BNC dual banana adapter 50 Q SMA terminator As listed under Prerequisites on page 2 9 Prerequisites Measuring the Terminator Before verifying the analog offset accuracy you need to measure the resistance Resistance of the 50 2 BNC terminator 1 Connect the BNC dual banana adapter and 50 Q BNC terminator to the HI and LO inputs on the digital multimeter See Figure 2 6 Digital multimeter
55. t c to repair any damage or malfunction caused by the use of non Tektronix supplies or d to service a product that has been modified or integrated with other products when the effect of such modification or integration increases the time or difficulty of servicing the product THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECT TO THE PRODUCT IN LIEU OF ANY OTHER WARRANTIES EXPRESS OR IMPLIED TEKTRONIX AND ITS VENDORS DISCLAIM ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE TEKTRONIX RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE AND EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT SPECIAL INCIDENTAL OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES Table of Contents General Safety Summary Environmental Considerations Specifications Performance Conditions Electrical Specifications Mechanical Physical Characteristics Environmental Characteristics Certifications and Compliances Performance Verification Brief Procedures Diagnostics Calibration Functional Test Performance Tests Prerequisites ai naa pe aga Equipment Required Test Record
56. to 65 536 or infinite all channels operate the same sequence Synchronous or Asynchronous selectable AWG7000 Series Arbitrary Waveform Generators Technical Reference Specifications Table 1 3 Clock generator Characteristics Sampling rate control Range AWG7101 and AWG7102 AWG7102 Option 06 AWG7051 and AWG7052 Resolution 1 Internal clock frequency accuracy Internal clock frequency accuracy typical Reference oscillator accuracy Reference oscillator accuracy typical Table 1 4 Trigger generator Characteristics Trigger rate Range Resolution Accuracy Description 10 0000 MS s to 10 0000 GS s interleave is off 10 0000 GS s to 20 0000 GS s interleave is on 10 0000 MS s to 5 0000 GS s 8 digits Within 1 ppm aging Aging within 1 ppm year Within 1 ppm aging Aging within 1 ppm year Description 1 0 usto 10 0 s 3 digits and 0 1 us minimum Same as the reference oscillator Table 1 5 Inter channel skew control 2 channels model only Characteristics Skew control Range Resolution Skew accuracy Description 100 ps to 100 ps 1ps 10 of setting 10 ps AWG7000 Series Arbitrary Waveform Generators Technical Reference 1 3 Specifications Table 1 6 Analog output standard Characteristics Connector type Type of output Output impedance Amplitude controls Range Normal mode Direct D A mode Resolution Offset controls Range Normal mode Direct D A mode Reso
57. type Input impedance Polarity Input voltage range When 1 kQ selected When 50 Q selected Description SMA Marker 1 and Marker 2 are available for each channel and complementary output 1 4 V to 41 4 V into 50 Q 0 5 Vp p to 1 4 Vp p into 50 Q 0 01 V 10 of setting 50 mV into 50 92 28 mA max Available for Marker 1 and Marker 2 0 to 300 ps 1ps 5 of setting 50 ps 45 ps 20 to 80 of swing when Hi 1 0 V Low 0V 1 ps rms by 0101 clock pattern when Hi 1 0 V Low 0V 30 ps p p by PN15 pattern pattern when Hi 1 0 V Low 0V measured at bit error rate 1e 12 lt 13 ps lt 30 ps Description BNC 1 KQ or 50 Q selectable Positive or negative selectable 10 Vto 10 V lt 5 V rms AWG7000 Series Arbitrary Waveform Generators Technical Reference Specifications Table 1 10 Trigger and gate input Cont Characteristics Threshold control Level Resolution Accuracy typical Input voltage swing Minimum pulse width Trigger mode Gate mode Trigger delay to analog output typical Trigger hold off typical Gate delay to analog output typical Trigger jitter typical Table 1 11 Event input Characteristics Connector type Input impedance Polarity Input voltage range When 1 kQ selected When 50 Q selected Threshold control Level Resolution Accuracy typical Input voltage swing Minimum pulse width Delay to analog output typical Hold off time typical Descripti
58. z A1 2 10 kHz Marker 31 R 85 806 cB 106 81 dBc Hz 84 33 dBm 104 ite cc 106 8 Bare Start Freq dBm Hz Stop Freq Hz 312 525M 10 dB A Center 312 5 MHz Span 50 kHz Spectrum Analyzer Measurement Off Span kHz 50 Figure 2 11 Example of the analog phase noise measurement AWG7000 Series Arbitrary Waveform Generators Technical Reference 2 33 Performance Tests Marker High and Low Level Accuracy Equipment required Digital multimeter 50 Q BNC cable SMA BNC adapter 50 Q BNC terminator BNC dual banana adapter 50 Q SMA terminator As listed under Prerequisites on page 2 9 Prerequisites 1 Perform Measuring Terminator Resistance on page 2 21 2 Press the All Outputs On Off button on the AWG7000 to turn off all the outputs 3 Use the 50 92 BNC cable SMA BNC adapter 50 92 BNC terminator and BNC Banana adapter to connect the Channel 1 Mkr 1 connector on the AWG7000 to the HI and LO inputs on the digital multimeter See Figure 2 12 4 Use the 50 Q SMA terminator to terminate the Channel 1 Mkr 1 connector on the AWG7000 See Figure 2 12 AWG7000 Y 7 DO Sa O O O O OO DO OOOO oo Ss Digital multimeter OOOO E 0 o
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