MDO4000 Series Mixed Domain Oscilloscopes Datasheet
Contents
1. 11 CO Enable PLE Voltade BY SPI MOSI Titi wn 2 Pea 40 0us 25 0MS s 10k points Mea IMA i 75 N RAI a we AA A A r f AN AN a i ala Aman eac IIOSCODES M MLONDO Sariac Domain Oscilloscopes MDO4000 Series Nhiiwan Mixed VCO Enable dll PLC Voltage Pene mm 250mVv fy 1 40 0us 25 0MS s o 10k points CTT CATT Fe f 1 80V CCE TT CAPE Fe f 1 80V J Hosen Figure 2 Spectrum Time is moved about 60 us to the right At this point the spectrum Figure 4 The PLL eventually settles on the correct 2 400 GHz frequency about 340 us shows that the PLL is in the process of tuning to the correct frequency 2 400 GHz It after the VCO was enabled has made it up to 2 3168 GHz Tek EE So ______ole ia GGR 5 55 Visualizing changes in your RF signal o co enabie The time domain graticule on the MDO4000 Series display provides support anne for three RF time domain traces that are derived from the underlying and Q 2 PIT Vartade data of the RF input including BV SPICMOSI same CCI Amplitude The instantaneous amplitude of the RF input vs time i MN Frequency The instantaneous frequency of the RF input relative to E the center frequency vs time Phase The instantaneous phase of the RF input relative to the center frequency vs time Each of these traces may be turned on and off independently and all three may be displayed simult2. Mixed Domain Oscilloscopes MDO4000 Series Datasheet a MS gt aa mm oom m a KO ess S JOG f To w E bee le S a H u eS Skk kir a an agaang a Key performance specifications 4 analog channels 1 GHz 500 MHz 350 MHz and 100 MHz bandwidth models 16 digital channels MagniVu high speed acquisition provides 60 6 ps fine timing resolution 1 RF channel 50 kHz to 3 GHz or 50 kHz to 6 GHz frequency range models Ultra wide capture bandwidth 21 GHz Standard passive voltage probes with 3 9 pF capacitive loading and 900 MHz or 1 GHz analog bandwidth Key features Introducing the world s first and only oscilloscope with a built in spectrum analyzer For the first time ever you can capture time correlated analog j digital and RF signals for a complete system view of your device See both the time and frequency domain in a single glance View the RF spectrum at any point in time to see how it changes over time or with device state Solve the most complicated design issues quickly and efficiently with an oscilloscope as integrated as your design Winner of 10 industry awards ACE AWARDS 2012 WINNER Readers Choice a Is AWARD 7 Test amp Measurement World Elektra2011 y Award wean Electronics tr WINNER 2012 AWARD WINNER testfarc Montreal 514 856 0970 Atlantic Canada 902 442 7707 Ottawa 613 829 6859 Tor
3. Limit test vertical tolerance from 0 to 1 division in 1 m division increments Limit test horizontal tolerance from 0 to 500 m division in 1 m division increments Load standard mask from internal memory Load custom mask from text file with up to 8 segments Lock to Source ON mask automatically re scales with source channel settings changes Lock to Source OFF mask does not re scale with source channel settings changes Minimum number of waveforms from 1 to 1 000 000 Infinity Minimum elapsed time from 1 second to 48 hours Infinity From 1 to 1 000 000 Stop acquisition save screen image to file save waveform to file print screen image trigger out pulse set remote interface SRQ Trigger out pulse set remote interface SRQ Test status total waveforms number of violations violation rate total tests failed tests test failure rate elapsed time total hits for each mask segment 4 2350 MHz bandwidth models are recommended for mask testing on telecomm standards gt 55 Mb s 1 GHz bandwidth models are recommended for mask testing on high speed HS USB www tektronix com 17 Datasheet Software NI LabVIEW SignalExpress Tektronix Edition OpenChoice Desktop IVI driver e Scope Web based remote control LXI Class C Web interface Display system Display type Display resolution Interpolation Waveform styles Graticules Format Maximum waveform capture rate Input output ports USB 2 0 high speed ho
4. TEK USB 488 ACD4000B HCTEK54 RMD5000 24 www tektronix com 2 5 kV 500 MHz 100X high voltage passive probe 1 3 kV 50 MHz high voltage differential probe Preamplifier 12 dB nominal Gain 9 kHz 6 GHz Near field probe set 100 kHz 1 GHz Flexible monopole antenna N to TekVPI adapter Service manual English only TekVPI to TekProbe BNC adapter TekVPI Deskew pulse generator signal source Power measurement deskew and calibration fixture National Instruments LabVIEW Signal Express Tektronix Edition software full version Support for Altera FPGAs Support for Xilinx FPGAs GPIB to USB adapter Soft transit case Hard transit case requires ACD4000B Rackmount kit Tektronix is registered to ISO 9001 and ISO 14001 by SRI Quality System Registrar GPIB Product s complies with IEEE Standard 488 1 1987 RS 232 C and with Tektronix Standard Codes and Formats Mixed Domain Oscilloscopes MDO4000 Series www tektronix com 25 Datasheet ASEAN Australasia 65 6356 3900 Austria 00800 2255 4835 Balkans Israel South Africa and other ISE Countries 41 52 675 3777 Belgium 00800 2255 4835 Brazil 55 11 3759 7627 Canada 1 800 833 9200 Central East Europe and the Baltics 41 52 675 3777 Central Europe amp Greece 41 52 675 3777 Denmark 45 80 88 1401 Finland 41 52 675 3777 France 00800 2255 4835 Germany 00800 2255 4835 Hong Kong 400 820 5835 India 000 800 650 1835 Italy 00800 2255 4835 J apan 81 3 67
5. measurements for setup and hold clock delay signal skew and glitch characterization PreVu Zoom Factor 40 X Zoom Position 500ns LXVCO Enable N aa VCO Enable PLL Voltage 00 L 25 0MS s J 10k points TZ 1 00ps R Bus GHP Mosi 2031 41h N Capture Triggering on a specific transmit data packet going across a SPI bus A complete set of triggers including triggers for specific serial packet content ensures you quickly capture your event of interest Search Finding your event of interest in a long waveform record can be time consuming without the right search tools With today s record lengths pushing beyond a million data points locating your event can mean scrolling through thousands of screens of signal activity The innovative Wave Inspector controls give you the industry s most comprehensive search and waveform navigation capability These controls speed panning and zooming through your record With a unique force feedback system you can move from one end of your record to the other in just seconds User marks allow you to mark any location that you may want to reference later for further investigation Or automatically search your record for criteria you define Wave Inspector will instantly search your entire record including analog digital serial bus and RF versus time data 8 www tektronix com Along the way it will automatically mark every occurrence of your def
6. KQ in parallel with 3 pF 1 bit Horizontal system analog channels Time base range 1 GHz models lt 500 MHz models Maximum duration at highest sample rate all half channels 1 GHz models lt 500 MHz models Time base delay time range Channel to channel deskew range Time base accuracy 400 ps to 1000 s 1nsto 1000 s 8 4 ms 8 8 ms 10 divisions to 5000 s 125 ns 5 ppm over any 21 ms interval Horizontal system digital channels Maximum sample rate Main Maximum record length Main Maximum sample rate MagniVu Maximum record length MagniVu Minimum detectable pulse width typical Channel to channel skew typical Maximum input toggle rate 500 MS s 2 ns resolution 20M points 16 5 GS s 60 6 ps resolution 10k points centered around the trigger 1 ns 200 ps Mixed Domain Oscilloscopes MDO4000 Series 500 MHz Maximum frequency sine wave that can accurately be reproduced as a logic square wave Requires the use of a short ground extender on each channel This is the maximum frequency at the minimum swing amplitude Higher toggle rates can be achieved with higher amplitudes www tektronix com 13 Datasheet Trigger system Trigger modes Auto Normal and Single Trigger coupling DC AC HF reject attenuates gt 50 kHz LF reject attenuates lt 50 kHz noise reject reduces sensitivity Trigger holdoff range 20 ns to 8 s Trigger sensitivity Internal DC cou
7. MD04034 3 MD04054 3 MD04054 6 MD04104 3 MD04104 6 Analog channels 4 4 4 4 4 4 Analog channel bandwidth 100 MHz 350 MHz 500 MHz 500 MHz 1 GHz 1 GHz Rise time 3 5 NS 1 ns 700 ps 700 ps 350 ps 350 ps Sample rate 1 ch 2 5 GS s 2 5 GS s 2 5 GS s 2 0 GS s 5 GS s 5 GS s Sample rate 2 ch 2 0 GS s 2 0 GS s 2 0 GS s 2 0 GS s 5 GS s 5 GS s Sample rate 4 ch 2 0 GS s 2 0 GS s 2 0 GS s 2 0 GS s 2 0 GS s 2 0 GS s Record length 1 ch 20M 20M 20M 20M 20M 20M Record length 2 ch 20M 20M 20M 20M 20M 20M Record length 4 ch 20M 20M 20M 20M 20M 20M Digital channels 16 16 16 16 16 16 RF channels 1 1 1 1 1 1 RF channel frequency range 50 kHz 3 GHz 50 kHz 3 GHz 50 kHz 3 GHz 50 kHz 6 GHz 50 kHz 3 GHz 50 kHz 6 GHz RF channel Real time capture bandwidth gt 1 GHz Crosstalk to RF channel from oscilloscope channels lt 1 GHz input frequencies gt 1 GHz 2 GHz input frequencies Phase noise at 2 GHz CW 10 kHz 100 kHz 1 MHz Level measurement uncertainty 20 C 30 C Over operating range Residual FM Maximum operating input level Average continuous power DC maximum before damage Maximum power before damage CW Maximum power before damage pulse Power level trigger Frequency range Amplitude range Limits Minimum pulse duration RF to analog channel skew Frequency domain trace types Time domain trace types Detection methods Automatic markers Manual markers Marker readouts Mixed Domain Oscilloscopes MDO
8. adjustable variables and results of parametric measurements Period Freq Delay Rise Fall PosWidth NegWidth BurstWidth Phase PosDutyCycle NegDutyCycle PosOverShoot NegOverShoot PeakPeak Amplitude RMS CycleRMS High Low Max Min Mean CycleMean Area CycleArea and trend plots e g Intg Ch1 Mean Ch1 x 1 414 x VAR Power measurements optional Power Quality Measurements Switching loss measurements Power loss Energy loss Harmonics Ripple measurements Modulation Analysis Safe operating area dV dt and di dt measurements Limit Mask testing optional Included standard masks Test source Mask creation Mask scaling Test criteria run until Violation threshold Actions on test failure Actions on test complete Results display Vams Verest Factor Frequency Irms Icrest Factor True Power Apparent Power Reactive Power Power Factor Phase Angle Ton To Conduction Total Ton To Conduction Total THD F THD R RMS measurements Graphical and table displays of harmonics Test to IEC61000 3 2 Class A and MIL STD 1399 Section 300A VRipple and Ripple Graphical display of Pulse Width Pulse Width Period Frequency Duty Cycle and Duty Cycle modulation types Graphical display and mask testing of switching device safe operating area measurements Cursor measurements of slew rate ITU T ANSI T1 102 USB Limit test Any Ch1 Ch4 or any R1 R4 Mask test Any Ch1 Ch4
9. analyzing its characteristics and your device s behavior Discover To debug a design problem first you must know it exists Every design engineer spends time looking for problems in their design a time consuming and frustrating task without the right debug tools The industry s most complete visualization of signals provides fast insight into the real operation of your device A fast waveform capture rate greater than 50 000 waveforms per second enables you to see glitches and other infrequent transients within seconds revealing the true nature of device faults A digital phosphor display with intensity grading shows the history of a signal s activity by intensifying areas of the signal that occur more frequently providing a visual display of just how often anomalies occur Discover Fast waveform capture rate over 50 000 wfm s maximizes the probability of capturing elusive glitches and other infrequent events Capture Discovering a device fault is only the first step Next you must capture the event of interest to identify root cause Accurately capturing any signal of interest begins with proper probing Low Capacitance probes are included with the oscilloscope one for each analog channel These industry first high impedance passive voltage probes have less than 4 pF of capacitive loading to minimize the affect of the probe on your circuit s operation offering the performance of an active probe with the f
10. bag User manual Power cord OpenChoice Desktop Software NI LabVIEW SignalExpress Tektronix Edition Software Calibration certificate documenting traceability to National Metrology Institute s and 1509001 quality system registration Three year warranty covering all parts and labor excluding probes 20 www tektronix com Application Modules Mixed Domain Oscilloscopes MDO4000 Series Application modules have licenses which can be transferred between an application module and an oscilloscope The license may be contained in the module allowing the module to be moved from one instrument to another Or the license can be contained in the oscilloscope allowing the module to be removed and stored for safekeeping Transferring the license to an oscilloscope and removing the module permits the use of more than 4 applications simultaneously DPO4AERO DPO4AUDIO DPO4AUTO DPO4AUTOMAX DPO4COMP DPO4EMBD DPO4ENET Aerospace Serial Triggering and Analysis Module Enables triggering on packet level information on MIL STD 1553 buses as well as analytical tools such as digital views of the signal bus views packet decoding search tools and packet decode tables with time stamp information Signal Inputs Any Ch1 Ch4 Math Ref1 Ref4 Recommended Probing Differential or single ended only one single ended signal required Audio Serial Triggering and Analysis Module Enables triggering on packet level information o
11. binary hex unsigned decimal and don t care digits Data packet trigger Any data type DATAO DATA1 Data can be further specified to trigger on lt lt gt 2 a particular data value or inside or outside of a range Handshake packet trigger Any handshake type ACK NAK STALL Special packet trigger Any special type Reserved Error trigger PID Check CRC5 or CRC 16 Bit Stuffing 14 www tektronix com Mixed Domain Oscilloscopes MDO4000 Series USB Full speed optional Trigger on Sync Reset Suspend Resume End of Packet Token Address Packet Data Packet Handshake Packet Special Packet Error Token packet trigger Any token type SOF OUT IN SETUP Address can be specified for Any Token OUT IN and SETUP token types Address can be further specified to trigger on lt lt gt 2 a particular value or inside or outside of a range Frame number can be specified for SOF token using binary hex unsigned decimal and don t care digits Data packet trigger Any data type DATAO DATA1 Data can be further specified to trigger on lt lt gt 2 a particular data value or inside or outside of a range Handshake packet trigger Any handshake type ACK NAK STALL Special packet trigger Any special type PRE Reserved Error trigger PID Check CRC5 or CRC 16 Bit Stuffing USB High speed optional Trigger on Sync Reset Suspend Resume End of Packet Token Address Packet D
12. changing RF phenomena The x axis represents frequency just like a typical spectrum display However the y axis represents time and color is used to indicate amplitude Spectrogram slices are generated by taking each spectrum and flipping it up on its edge so that it s one pixel row tall and then assigning colors to each pixel based on the amplitude at that frequency Cold colors blue green are low amplitude and hotter colors yellow red are higher amplitude Each new acquisition adds another slice at the bottom of the spectrogram and the history moves up one row When acquisitions are Mixed Domain Oscilloscopes MDO4000 Series stopped you can scroll back through the spectrogram to look at any individual spectrum slice PEZE l i i l Spectrogram display illustrates slowly moving RF phenomena As shown here a signal that has multiple peaks is being monitored As the peaks change in both frequency and amplitude over time the changes are easily seen in the Spectrogram display Triggered versus Free Run operation When both the time and frequency domains are displayed the spectrum shown is always triggered by the system trigger event and is time correlated with the active time domain traces However when only the frequency domain is displayed the RF input can be set to Free Run This is useful when the frequency domain data is continuous and unrelated to events occurring in the time domain Ultra wide
13. time and hold time between clock and data present on any of the analog and digital input channels Rise Fall Time Trigger on pulse edge rates that are faster or slower than specified Slope may be positive negative or either Video Trigger on all lines odd even or all fields on NTSC PAL and SECAM video signals Extended Video optional Trigger on 480p 60 576p 50 720p 30 720p 50 720p 60 8751 60 1080i 50 10801 60 1080p 24 1080p 24sF 1080p 25 1080p 30 1080p 50 1080p 60 and custom bi level and tri level sync video standards I2C optional Trigger on Start Repeated Start Stop Missing ACK Address 7 or 10 bit Data or Address and Data on I C buses up to 10 Mb s SPI optional Trigger on SS active Start of Frame MOSI MISO or MOSI and MISO on SPI buses up to 50 0 Mb s RS 232 422 485 UART Trigger on Tx Start Bit Rx Start Bit Tx End of Packet Rx End of Packet Tx Data Rx Data Tx Parity Error and Rx Parity Error up optional to 10 Mb s USB Low speed optional Trigger on Sync Active Start of Frame Reset Suspend Resume End of Packet Token Address Packet Data Packet Handshake Packet Special Packet Error Token packet trigger Any token type SOF OUT IN SETUP Address can be specified for Any Token OUT IN and SETUP token types Address can be further specified to trigger on lt lt gt gt a particular value or inside or outside of a range Frame number can be specified for SOF token using
14. 14 3010 Luxembourg 41 52 675 3777 Mexico Central South America amp Caribbean 52 55 56 04 50 90 Middle East Asia and North Africa 41 52 675 3777 The Netherlands 00800 2255 4835 Norway 800 16098 People s Republic of China 400 820 5835 Poland 41 52 675 3777 Portugal 80 08 12370 Republic of Korea 001 800 8255 2835 Russia amp CIS 7 495 7484900 South Africa 41 52 675 3777 Spain 00800 2255 4835 Sweden 00800 2255 4835 Switzerland 00800 2255 4835 Taiwan 886 2 2722 9622 United Kingdom amp Ireland 00800 2255 4835 USA 1 800 833 9200 European toll free number If not accessible call 41 52 675 3777 Updated 10 February 2011 For Further Information Tektronix maintains a comprehensive constantly expanding collection of application notes technical briefs and other resources to help engineers working on the cutting edge of technology Please visit www tektronix com Copyright Tektronix Inc All rights reserved Tektronix products are covered by U S and foreign patents issued and pending Information in this publication supersedes that in all previously published material Specification and price wees change privileges reserved TEKTRONIX and TEK are registered trademarks of Tektronix Inc All other trade names referenced are the service marks trademarks or registered trademarks of their respective companies ey 1 Aug 2012 48W 26875 4 www tektronix com Tektronix S
15. 4000 Series lt 68 dB from ref level lt 48 dB from ref level lt 90 dBc Hz lt 95 dBc Hz typical lt 95 dBc Hz lt 98 dBc Hz typical lt 113 dBc Hz lt 118 dBc Hz typical for input level 10 dBm to 50 dBm lt 1 dB lt 0 5 dB typical lt 41 5 dB lt 100 Hz peak to peak in 100 ms 30 dBm 1 W 40 V DC 33 dBm 2 W 45 dBm 32 W lt 10 us pulse width lt 1 duty cycle and reference level of 10 dBm 1 MHz 3 GHz or 1 MHz 6 GHz 30 dBm to 40 dBm With CF 1 MHz 3 25 GHz 35 dB from ref level With CF gt 3 25 GHz 15 dB from ref level 10 us On Time with a minimum settling Off Time of 10 us lt 5 ns Normal Average Max Hold Min Hold Amplitude vs Time Frequency vs Time Phase vs Time Peak Peak Average Sample One to eleven peaks identified based on user adjustable threshold and excursion values Two manual markers indicating frequency amplitude noise density and phase noise Absolute or Delta www tektronix com 11 Datasheet RF acquisition length FFT windows Span Maximum RF acquisition time gt 2 GHz 2 0 MS gt 1 GHz 2 GHz 5 ms gt 800 MHz 1 GHz 10 ms gt 500 MHz 800 MHz 12 5 ms gt 400 MHz 500 MHz 20 ms gt 250 MHz 400 MHz 25 ms gt 200 MHz 250 MHz 40 ms gt 160 MHz 200 MHz 50 ms gt 125 MHz 160 MHz 62 5 ms lt 125 MHz 79 ms FFT window Factor Kaiser 2 23 Rectangular 0 89 Hamm
16. 9 843 feet 9 144 meters 30 000 feet EC Council Directive 2004 108 EC UL61010 1 2004 CAN CSA C22 2 No 61010 1 2004 Low Voltage Directive 2006 95 EC and EN61010 1 2001 IEC 61010 1 2001 ANSI 61010 1 2004 ISA 82 02 01 www tektronix com 19 Datasheet Ordering information MDO4000 family MD04014 3 MD04034 3 MD04054 3 MD04054 6 MD04104 3 MD04104 6 Standard accessories Probes lt 500 MHz models 1 GHz models All models Accessories 200 5130 xx 103 0045 00 063 4367 xx 016 2030 xx Warranty Mixed Domain Oscilloscope with 4 100 MHz analog channels 16 digital channels and 1 3 GHz RF input Mixed Domain Oscilloscope with 4 350 MHz analog channels 16 digital channels and 1 3 GHz RF input Mixed Domain Oscilloscope with 4 500 MHz analog channels 16 digital channels and 1 3 GHz RF input Mixed Domain Oscilloscope with 4 500 MHz analog channels 16 digital channels and 1 6 GHz RF input Mixed Domain Oscilloscope with 4 1 GHz analog channels 16 digital channels and 1 3 GHz RF input Mixed Domain Oscilloscope with 4 1 GHz analog channels 16 digital channels and 1 6 GHz RF input TPP0500 500 MHz bandwidth 10X 3 9 pF One passive voltage probe per analog channel TPP1000 1 GHz bandwidth 10X 3 9 pF One passive voltage probe per analog channel One P6616 16 channel logic probe and a logic probe accessory kit 020 2662 xx Front cover N to BNC adapter Documentation CD Accessory
17. High speed support only available on models with 1 GHz analog channel bandwidth 2 2350 MHz bandwidth models are recommended for 100BASE TX www tektronix com 15 Datasheet MIL STD 1553 optional I2S LJ RJ TDM optional Parallel Acquisition system Acquisition Modes Sample Peak Detect Averaging Envelope Hi Res Roll Waveform measurements Cursors Automatic measurements time domain Automatic Measurements frequency domain Measurement statistics Reference levels Gating Waveform histogram Waveform histogram measurements Trigger on Sync Word Type Command Status Data Command Word set RT Address T R Sub address Mode Data Word Count Mode Code and Parity individually Status Word set RT Address Message Error Instrumentation Service Request Bit Broadcast Command Received Busy Subsystem Flag Dynamic Bus Control Acceptance DBCA Terminal Flag and Parity individually Data Word user specified 16 bit data value Error Sync Parity Manchester Non contiguous data Idle Time minimum time selectable from 2 us to 100 us maximum time selectable from 2 us to 100 ps trigger on lt minimum gt maximum inside range outside range RT Address can be further specified to trigger on lt gt lt 2 a particular value or inside or outside of a range Trigger on Word Select Frame Sync or Data Data can be further specified to trigger on lt lt gt 2 a specific data va
18. aneously RF time domain traces make it easy to understand what s happening with a time varying RF signal CTE AT CHI Pe ae f 180V Figure 3 Spectrum Time is moved another 120 us to the right At this point the spectrum shows that the PLL has actually overshot the correct frequency and gone all the way to 2 4164 GHz ee La L eS i A ANANAL TATA Vv SAM 2 www tektronix com 3 Datasheet RF Versus Time Traces The orange waveform in the Time Domain view is the frequency vs time trace derived from the RF input signal Notice that Spectrum Time is positioned during a transition from the highest frequency to the lowest frequency so the energy is spread across a number of frequencies With the frequency vs time trace you can easily see the different frequency hops simplifying characterization of how the device switches between frequencies Advanced triggering with RF analog and digital channels In order to deal with the time varying nature of modern RF applications the MDO4000 Series provides a triggered acquisition system that is fully integrated with the RF analog and digital channels This means that a single trigger event coordinates acquisition across all channels allowing you to capture a spectrum at the precise point in time where an interesting time domain event is occurring A comprehensive set of time domain triggers are available including Edge Sequence Pulse Width Timeout Runt Logic Setup Hold Viola
19. ata Packet Handshake Packet Special Packet Error Token packet trigger Any token type SOF OUT IN SETUP Address can be specified for Any Token OUT IN and SETUP token types Address can be further specified to trigger on lt lt gt 2 a particular value or inside or outside of a range Frame number can be specified for SOF token using binary hex unsigned decimal and don t care digits Data packet trigger Any data type DATAO DATA1 DATA2 MDATA Data can be further specified to trigger on lt lt gt 2 a particular data value or inside or outside of a range Handshake packet trigger Any handshake type ACK NAK STALL NYET Special packet trigger Any special type ERR SPLIT PING Reserved SPLIT packet components that can be specified include Hub Address Start Complete Don t Care Start SSPLIT Complete CSPLIT Port Address Start and End bits Don t Care Control Bulk Interrupt Full speed Device Low speed Device Isochronous Data is Middle Data is End Data is Start Data is All Endpoint Type Don t Care Control Isochronous Bulk Interrupt Error trigger PID Check CRC5 or CRC16 Ethernet optional 10BASE T and 100BASE TX Trigger on Start Frame Delimiter MAC Addresses MAC Q Tag Control Information MAC Length Type IP Header TCP Header TCP IPv4 MAC Client Data End of Packet and FCS CRC Error 100BASE TX Idle MAC Addresses Trigger on Source and De
20. be specified in either percent or units Isolate the specific occurrence within an acquisition to take measurements on using either the screen or waveform cursors A waveform histogram provides an array of data values representing the total number of hits inside of a user defined region of the display A waveform histogram is both a visual graph of the hit distribution as well as a numeric array of values that can be measured Sources Channel 1 Channel 2 Channel 3 Channel 4 Ref 1 Ref 2 Ref 3 Ref 4 Math Types Vertical Horizontal Waveform Count Hits in Box Peak Hits Median Max Min Peak to Peak Mean Standard Deviation Sigma 1 Sigma 2 Sigma 3 Trigger selection of Command Word will trigger on Command and ambiguous Command Status words Trigger selection of Status Word will trigger on Status and ambiguous Command Status words 16 www tektronix com Waveform math Arithmetic Math functions FFT Spectrum math Advanced math Mixed Domain Oscilloscopes MDO4000 Series Add subtract multiply and divide waveforms Integrate Differentiate FFT Spectral magnitude Set FFT Vertical Scale to Linear RMS or dBV RMS and FFT Window to Rectangular Hamming Hanning or Blackman Harris Add or subtract frequency domain traces Define extensive algebraic expressions including waveforms reference waveforms math functions FFT Intg Diff Log Exp Sart Abs Sine Cosine Tangent Rad Deg scalars up to two user
21. capture bandwidth Today s wireless communications vary significantly with time using sophisticated digital modulation schemes and often transmission techniques that involve bursting the output These modulation schemes can have very wide bandwidth as well Traditional swept or stepped spectrum analyzers are ill equipped to view these types of signals as they are only able to look at a small portion of the spectrum at any one time The amount of spectrum acquired in one acquisition is called the capture bandwidth Traditional spectrum analyzers sweep or step the capture bandwidth through the desired span to build the requested image As a result while the spectrum analyzer is acquiring one portion of the spectrum the event you care about may be happening in another portion of the spectrum Most spectrum analyzers on the market today have 10 MHz capture bandwidths sometimes with expensive options to extend that to 20 40 or even 140 MHZ in some cases In order to address the bandwidth requirements of modern RF the MDO4000 Series provides 21 GHz of capture bandwidth At span settings of 1 GHz and below there is no requirement to sweep the display The spectrum is generated from a single acquisition thus guaranteeing you ll see the events you re looking for in the frequency domain www tektronix com 5 as ita 4 4 Spectral display of a bursted communication both into a device through Zigbee at 900 MHz and out o
22. f the analog or digital channels in the instrument but is the spectrum acquired from the RF input Another key difference is that with traditional oscilloscope FFTs you can typically either get the desired view of the FFT display or the desired view of your other time domain signals of interest but never both at the same time This is because traditional oscilloscopes only have a single acquisition system with a single set of user settings such as record length sample rate and time per division that drive all data views But with the MDO4000 Series the RF input has its own acquisition system that is independent but time correlated to the analog and digital channel acquisition systems This allows each domain to be configured optimally providing a complete time correlated system view of all analog digital and RF signals of interest The spectrum shown in the Frequency Domain view is taken from the period of time indicated by the short orange bar in the time domain view known as the Spectrum Time With the MDO4000 Series Spectrum Time can be moved through the acquisition to investigate how the RF spectrum changes over time And this can be done while the oscilloscope is live and running or on a stopped acquisition 2 www tektronix com Spectrum time gt indicator Tee E ee J f Aaddr R so 2c AddriwE s0_ EST Frequency domain view The upper half of the MDO4000 Series display shows the Time Domai
23. f the device through Bluetooth at 2 4 GHz captured with a single acquisition Spectrum traces The MDO4000 Series offers four different traces or views of the RF input including Normal Average Max Hold and Min Hold You can set the detection method used for each trace type independently or you can leave the oscilloscope in the default Auto mode that sets the detection type optimally for the current configuration Detection types include Peak Peak Average and Sample Spectrur Normal On on Aver age 10 on of Max Hold On on Min Hold a y I n Pi f The ft Veil I Hi TA WI n Spectrum Detection Spectrum RI Versus Spectrogram i sel Method Edit Traces Time Traces OT riggerec x Labels More A Free Run Auto A l Normal Average Max Hold and Min Hold spectrum traces 6 www tektronix com RF measurements The MDO4000 Series includes three automated RF measurements Channel Power Adjacent Channel Power Ratio and Occupied Bandwidth When one of these RF measurements is activated the oscilloscope automatically turns on the Average spectrum trace and sets the detection method to Average for optimal measurement results Channel Power 18 07 dem ih Ji J nf AANI FA PLANTY j iiaa FUMA w l Liv n F Mold a HQ i 7 i en WMA AF 4 Ae ese T mi U ih Midi LAT Automated Channel Power measurement Advanced RF measurements The MDO4000 can save
24. illoscope triggers the internal oscilloscope reference clock out or an event out for limit mask testing Time base system can phase lock to an external 10 MHz reference 10 MHz 1 Kensington style lock VESA mount Mixed Domain Oscilloscopes MDO4000 Series Rear panel security slot connects to standard Kensington style lock Standard MIS D 100 100 mm VESA mounting points on rear of instrument LAN eXtensions for Instrumentation LXI Class Version Power source Power source voltage Power source frequency Power consumption Physical characteristics Dimensions Weight Rackmount configuration Cooling clearance LXI Class C V1 3 100 to 240 V 10 50 to 60 Hz 10 at 100 to 240 V 10 400 Hz 10 at 115 V 13 225 W maximum mm in Height 229 9 0 Width 439 17 3 Depth 147 5 8 kg Ib Net 5 11 Shipping 10 7 23 6 5U 2 in 51 mm required on left side and rear of instrument EMC environment and safety Temperature Operating Nonoperating Humidity Operating Nonoperating Altitude Operating Nonoperating Regulatory Electromagnetic compatibility Safety 0 C to 50 C 32 F to 122 F 20 C to 60 C 4 F to 140 F High 40 C to 50 C 10 to 60 relative humidity Low 0 C to 40 C 10 to 90 relative humidity High 40 C to 60 C 5 to 60 relative humidity Low 0 C to 40 C 5 to 90 relative humidity 3 000 meters
25. ined event so you can quickly move between events PreVu Zoom Factor 25 X Zoom Position 2 40Gs 2Z 4 00ms f 00MS s yk JL JL1M points 2 402408GH2 31 5 dBm dB f i cary Search RS 232 decode showing results from a Wave Inspector search for data value n Wave Inspector controls provide unprecedented efficiency in viewing and navigating waveform data Analyze Verifying that your prototype s performance matches simulations and meets the project s design goals requires analyzing its behavior Tasks can range from simple checks of rise times and pulse widths to sophisticated power loss analysis and investigation of noise sources The oscilloscope offers a comprehensive set of integrated analysis tools including waveform and screen based cursors automated measurements advanced waveform math including arbitrary equation editing spectral math FFT analysis and trend plots for visually determining how a measurement is changing over time Specialized application support for serial bus analysis power supply design and video design and development is also available For extended analysis National Instrument s LabVIEW SignalExpress Tektronix Edition provides over 200 built in functions including time and frequency domain analysis limit testing data logging and customizable reports Value Mean Min Max Sid Dev PO a 10 0ns ERSTE 10k points Analyze Waveform histogram of a falling edge show
26. ing 1 30 Hanning 1 44 Blackman Harris 1 90 Flat Top 3 77 Vertical system analog channels Hardware bandwidth limits 2350 MHz models 100 MHz models Input coupling Input impedance Input sensitivity range 1 MQ 500 Vertical resolution Maximum input voltage 1MQ 500 DC gain accuracy Channel to channel isolation Offset range 12 www tektronix com 20 MHz or 250 MHz 20 MHz AC DC 1 MQ 41 50 Q 1 1 mV div to 10 V div 1 mV div to 1 V div 8 bits 11 bits with Hi Res 300 Vays CAT II with peaks lt 425 V 5 VRMS with peaks lt 20 V 1 5 derated at 0 10 C above 30 C Any two channels at equal vertical scale 2100 1 at lt 100 MHz and 230 1 at gt 100 MHz up to the rated bandwidth Volts div setting Offset range 1 MQ input 500 1 mV div to 50 mV div 1V 1 V 50 5 mV div to 99 5 mV div 0 5 V 0 5 V 100 mV div to 500 mV div 10 V 10V 505 mV div to 995 mV div 5 V 5 V 1 V div to 5 V div 100 V 5 V 5 05 V div to 10 V div 50 V NA Vertical system digital channels Input channels Thresholds Threshold selections User defined threshold range Threshold accuracy Maximum input voltage Input dynamic range Minimum voltage swing Probe loading Vertical resolution 16 digital D15 to DO Per channel thresholds TTL CMOS ECL PECL User Defined 40 V 100 mV 3 of threshold setting 42 Vpeak 30 V 200 MHz 10 Voip gt 200 MHz 400 mV 100
27. ing the distribution of edge position jitter over time Included are numeric measurements made on the waveform histogram data A comprehensive set of integrated analysis tools speeds verification of your design s performance Mixed Domain Oscilloscopes MDO4000 Series www tektronix com 9 Datasheet Specifications All specifications apply to all models unless noted otherwise Model overview Span Resolution bandwidth Reference level Vertical scale Vertical position Vertical units Displayed average noise level DANL 50 kHz 5 MHz 5 MHz 3 GHz 3 GHz 6 GHz Spurious response 2nd and 3rd harmonic distortion gt 30 MHz 2nd order intermodulation distortion 3rd order intermodulation distortion Other A D spurs Image and IF Rejection Residual response 10 www tektronix com 1 kHz 3 GHz or 1 kHz 6 GHz in a 1 2 5 sequence 20 Hz 10 MHz ina 1 2 3 5 sequence 140 dBm to 30 dBm in steps of 5 dBm 1 dB div to 20 dB div in a 1 2 5 sequence 10 divs to 10 divs dBm dBmV dBuV dBuW dBmA dBuA lt 130 dBm Hz lt 134 dBm Hz typical lt 148 dBm Hz lt 152 dBm Hz typical lt 140 dBm Hz lt 143 dBm Hz typical lt 55 dBc lt 60 dBc typical lt 55 dBc lt 60 dBc typical lt 60 dBc lt 63 dBc typical lt 55 dBc lt 60 dBc typical lt 50 dBc lt 55 dBc typical lt 78 dBm MD04014 3
28. lexibility of a passive probe A complete set of triggers including runt timeout logic pulse width glitch setup hold violation serial packet and parallel data help you quickly find www tektronix com 7 Datasheet your event With up to a 20M point record length you can capture many events of interest even thousands of serial packets in a single acquisition for further analysis while maintaining high resolution to zoom in on fine signal details From triggering on specific packet content to automatic decode in multiple data formats the oscilloscope provides integrated support for the industry s broadest range of serial buses IC SPI USB Ethernet CAN LIN FlexRay RS 232 422 485 UART MIL STD 1553 and 2S LJ RJ TDM The ability to decode up to four serial and or parallel buses simultaneously means you gain insight into system level problems quickly To further help troubleshoot system level interactions in complex embedded systems the oscilloscope offers 16 digital channels in addition to its analog channels Since the digital channels are fully integrated into the oscilloscope you can trigger across all input channels automatically time correlating all analog digital serial and RF signals The MagniVu high speed acquisition on these channels enables you to acquire fine signal detail up to 60 6 ps resolution around the trigger point for precision timing measurements MagniVu is essential for making accurate timing
29. lue or inside or outside of a range Maximum data rate for 12S LJ RJ is 12 5 Mb s Maximum data rate for TDM is 25 Mb s Trigger on a parallel bus data value Parallel bus can be from 1 to 20 bits from the digital and analog channels in size Binary and Hex radices are supported Acquire sampled values Captures glitches as narrow as 800 ps 1 GHz models or 1 6 ns lt 500 MHz models at all sweep speeds From 2 to 512 waveforms included in average Min max envelope reflecting Peak Detect data over multiple acquisitions Real time boxcar averaging reduces random noise and increases vertical resolution Scrolls waveforms right to left across the screen at sweep speeds slower than or equal to 40 ms div Waveform and Screen 29 of which up to eight can be displayed on screen at any one time Measurements include Period Frequency Delay Rise Time Fall Time Positive Duty Cycle Negative Duty Cycle Positive Pulse Width Negative Pulse Width Burst Width Phase Positive Overshoot Negative Overshoot Peak to Peak Amplitude High Low Max Min Mean Cycle Mean RMS Cycle RMS Positive Pulse Count Negative Pulse Count Rising Edge Count Falling Edge Count Area and Cycle Area 3 of which one can be displayed on screen at any one time Measurements include Channel Power Adjacent Channel Power Ratio ACPR and Occupied Bandwidth OBW Mean Min Max Standard Deviation User definable reference levels for automatic measurements can
30. lug 50 Hz Brazil power plug 60 Hz No power cord English manual French manual Italian manual German manual Spanish manual Japanese manual Portuguese manual Simplified Chinese manual Traditional Chinese manual 6 USB high speed supported only on models with 1 GHz analog channel bandwicth 7 2350 MHz bandwidth models are recommended for mask testing on telecomm standards gt 55 Mb s 1 GHz bandwidth models are recommended for mask testing on high speed HS USB 22 Wwww tektronix com Mixed Domain Oscilloscopes MDO4000 Series Opt L9 Korean manual Opt L10 Russian manual Opt L99 No manual Language options include translated front panel overlay for the selected language s Service options Opt C3 Calibration Service 3 Years Opt C5 Calibration Service 5 Years Opt D1 Calibration Data Report Opt D3 Calibration Data Report 3 Years with Opt C3 Opt D5 Calibration Data Report 5 Years with Opt C5 Opt G3 Complete Care 3 Years includes loaner scheduled calibration and more Opt G5 Complete Care 5 Years includes loaner scheduled calibration and more Opt R5 Repair Service 5 Years including warranty Opt SILV900 Standard warranty extended to 5 years Probes and accessories are not covered by the oscilloscope warranty and service offerings Refer to the datasheet of each probe and accessory model for its unique warranty and calibration terms Recommended accessories Probes Tektronix offers o
31. ly 5 8 in 147 mm deep and 11 Ib 5 kg Connectivity Two USB 2 0 host ports on the front panel and two on the rear panel for quick and easy data storage printing and connecting a USB keyboard USB 2 0 device port on the rear panel for easy connection to a PC or direct printing to a PictBridge compatible printer Integrated 10 100 1000BASE T Ethernet port for network connection and video out port to export the oscilloscope display to a monitor or projector Optional application support Advanced RF triggering Power analysis Limit and mask testing HDTV and custom video analysis Introducing the Mixed Domain Oscilloscope Based on the industry standard MSO4000B Oscilloscope Series you can now use your tool of choice the oscilloscope to look at the frequency domain rather than having to find and re learn a spectrum analyzer However the power of the MDO4000 Series goes well beyond simply observing the frequency domain as you would on a spectrum analyzer The real power is in its ability to correlate events in the frequency domain with the time domain phenomena that caused them When both the RF channel and any analog or digital channels are on the oscilloscope display is split into two views The upper half of the display is a traditional oscilloscope view of the Time Domain The lower half of the display is a Frequency Domain view of the RF input Note that the Frequency Domain view is not simply an FFT o
32. n I S LJ RJ and TDM audio buses as well as analytical tools such as digital views of the signal bus views packet decoding search tools and packet decode tables with time stamp information Signal Inputs Any Ch1 Ch4 any DO D15 Recommended Probing Single ended Automotive Serial Triggering and Analysis Module Enables triggering on packet level information on CAN and LIN buses as well as analytical tools such as digital views of the signal bus views packet decoding search tools and packet decode tables with time stamp information Signal Inputs LIN Any Ch1 Ch4 any DO D15 CAN Any Ch1 Ch4 any DO D15 Recommended Probing LIN Single ended CAN Single ended or differential Extended Automotive Serial Triggering and Analysis Module Enables triggering on packet level information on CAN LIN and FlexRay buses as well as analytical tools such as digital views of the signal bus views packet decoding search tools packet decode tables with time stamp information and eye diagram analysis software Signal Inputs LIN Any Ch1 Ch4 any DO D15 CAN Any Ch1 Ch4 any DO D15 FlexRay Any Ch1 Ch4 any DO D15 Recommended Probing LIN Single ended CAN FlexRay Single ended or differential Computer Serial Triggering and Analysis Module Enables triggering on packet level information on RS 232 422 485 UART buses as well as analytical tools such as digital views of the signal bus views packet decoding search
33. n view of the analog and digital channels while the lower half shows the Frequency Domain view of the RF channel The orange bar Spectrum Time shows the period of time used to calculate the RF spectrum Figures 1 through 4 show a simple everyday application tuning of a PLL This application illustrates the powerful connection between the time domain and the frequency domain that the MDO4000 Series provides With its wide capture bandwidth and ability to move Spectrum Time throughout the acquisition this single capture includes the same spectral content as approximately 1 500 unique test setups and acquisitions on a traditional spectrum analyzer For the first time ever correlating events observing interactions or measuring timing latencies between the two domains is exceptionally easy giving you quick insight to your design s operation Pia 11 CO Enable ne PLE Voltade BUISPI MOSI ILLE l 2 PELL A 40 0us PAU A 10k points CTE A CEE Ge f 1 80V Figure 1 Time and Frequency Domain view showing the turn on of a PLL Channel 1 yellow is probing a control signal that enables the VCO Channel 2 cyan is probing the VCO tune voltage The SPI bus which is programming the PLL with the desired frequency is probed with three digital channels and automatically decoded Notice Spectrum Time is placed after the VCO was enabled and coincident with the command on the SPI bus telling the PLL the desired frequency
34. onto 905 839 4290 Calgary 403 247 3725 Edmonton 780 328 0987 Vancouver 604 557 0715 www testforce com EE Times i Mixed domain analysis Time correlated analog digital and RF signal acquisitions in a single instrument Wave Inspector controls provide easy navigation of time correlated data from both the time and frequency domains Amplitude frequency and phase vs time waveforms derived from RF input Selectable spectrum time to discover and analyze how RF spectrum changes over time even on a stopped acquisition Spectral analysis Dedicated front panel controls for commonly performed tasks Automated peak markers identify frequency and amplitude of spectrum peaks Manual markers enable non peak measurements Trace types Include Normal Average Max Hold and Min Hold Detection types include Peak Peak Average and Sample Spectrogram display enables easy observation and insight into slowly changing RF phenomena Automated measurements include Channel Power Adjacent Channel Power Ratio ACPR and Occupied Bandwidth OBW Trigger on RF power level _ Triggered or Free Run spectral analysis Optional serial triggering and analysis serial protocol trigger decode and search for IC SPI USB Ethernet CAN LIN FlexRay RS 232 422 485 UART MIL STD 1553 and S LJ RJ TDM Tektronix Datasheet 10 4 in 264 mm bright XGA color display Small footprint and lightweight On
35. p information for low speed full speed and high speed USB serial buses Signal Inputs Low speed and Full speed Any Ch1 Ch4 any DO D15 Low speed Full speed and High speed Any Ch1 Ch4 Math Ref1 Ref4 Recommended Probing Low speed and Full speed Single ended or differential High speed Differential Power Analysis Application Module Enables quick and accurate analysis of power quality switching loss harmonics safe operating area SOA modulation ripple and slew rate dl dt dV dt Limit and Mask Testing Application Module Enables testing against limit templates generated from golden waveforms and mask testing using custom or standard telecommunications or computer masks HDTV and Custom nonstandard Video Triggering Module Advanced RF Power Level Triggering Module Enables the power level on the RF input to be used as a source in the following trigger types Pulse Width Runt Timeout Logic and Sequence Power cord and plug options Opt A0 Opt Al Opt A2 Opt A3 Opt A5 Opt A6 Opt A10 Opt All Opt Al2 Opt A99 Language options Opt LO Opt L1 Opt L2 Opt L3 Opt L4 Opt L5 Opt L6 Opt L7 Opt L8 North America power plug 115 V 60 Hz Universal Euro power plug 220 V 50 Hz United Kingdom power plug 240 V 50 Hz Australia power plug 240 V 50 Hz Switzerland power plug 220 V 50 Hz Japan power plug 100 V 110 120 V 60 Hz China power plug 50 Hz India power p
36. pled Trigger source Sensitivity 1 MQ path all models For 1 mV div to 4 98 mV div 0 75 div from DC to 50 MHz increasing to 1 3 div at rated bandwidth 50 Q path lt 500 MHz models For 25 mV div 0 4 div from DC to 50 MHz increasing to 1 div at rated bandwidth 50 Q path 1 GHz models 0 4 div from DC to 50 MHz increasing to 1 div at rated bandwidth Trigger level ranges Any input channel 8 divisions from center of screen 8 divisions from 0 V when vertical LF reject trigger coupling is selected Line The line trigger level is fixed at about 50 of the line voltage Trigger frequency readout Provides 6 digit frequency readout of triggerable events Trigger types Edge Positive or negative slope on any channel Coupling includes DC AC HF reject LF reject and noise reject Sequence B trigger Trigger Delay by Time 4 ns to 8 s Or Trigger Delay by Events 1 to 4 000 000 events Pulse Width Trigger on width of positive or negative pulses that are gt lt or inside outside a specified period of time Runt Trigger on a pulse that crosses one threshold but fails to cross a second threshold before crossing the first again Logic Trigger when any logical pattern of channels goes false or stays true for specified period of time Any input can be used as a clock to look for the pattern on a clock edge Pattern AND OR NAND NOR specified for all input channels defined as High Low or Don t Care Setup and Hold Trigger on violations of both setup
37. scope uses to automatically find the peaks The highest amplitude peak is referred to as the reference marker and is shown in red Marker readouts can be switched between Absolute and Delta readouts When Delta is selected marker readouts show each peak s delta frequency and delta amplitude from the reference marker Two manual markers are also available for measuring non peak portions of the spectrum When enabled the reference marker is attached to one of the manual markers enabling delta measurements from anywhere in the spectrum In addition to frequency and amplitude manual marker readouts also include noise density and phase noise readouts depending on whether Absolute or Delta readouts are selected A Reference Marker to Center function instantly moves the frequency indicated by the reference marker to center frequency 2 39761GH 39761GH2z 29 0 dBm Peak Markers 5 on Off To Center Threshold 50 0 dBm Excursion b 30 0 dB Manual Markers On Off Readout Absolute Delta Automated peak markers identify critical information at a glance As shown here the five highest amplitude peaks that meet the threshold and excursion criteria are automatically marked along with the peak s frequency and amplitude GD Ref 0 00 dEm___ Scale 10 0 dB div___sJ CF _2 40000000GHz_ Se Free Run Spectrogram The MDO4000 Series includes a spectrogram display which is ideal for monitoring slowly
38. ss or network name of the oscilloscope and a web page will be served to the browser Connect to the oscilloscope through a standard Web browser by simply entering the oscilloscope s IP address or network name in the address bar of the browser The Web interface enables viewing of instrument status and configuration status and modification of network settings and instrument control through the e Scope Web based remote control All Web interaction conforms to LXI Class C specification version 1 3 10 4 in 264 mm liquid crystal TFT color display 1 024 horizontal x 768 vertical pixels XGA Sin x x Vectors Dots Variable Persistence Infinite Persistence Full Grid Cross Hair Frame IRE and mV YT and simultaneous XY YT gt 50 000 wfm s Supports USB mass storage devices printers and keyboard Two ports on front and two ports on rear of instrument Rear panel connector allows for communication control of oscilloscope through USBTMC or GPIB with a TEK USB 488 and direct printing to all PictBridge compatible printers RJ 45 connector supports 10 100 1000 Mb s DB 15 female connector connect to show the oscilloscope display on an external monitor or projector XGA resolution Front panel pins 0 to 2 5 V 1 kHz Rear panel BNC connector Vout Hi 22 5 V open circuit 21 0 V 50 Q to ground Vour Lo 0 7 V into a load of lt 4 mA 0 25 V 50 Q to ground Output can be configured to provide a pulse out signal when the osc
39. st port USB 2 0 device port LAN port Video out port Probe compensator output voltage and frequency Amplitude Frequency Auxiliary out External reference input 18 www tektronix com A fully interactive measurement software environment optimized for your Tektronix oscilloscope enables you to instantly acquire generate analyze compare import and save measurement data and signals using an intuitive drag and drop user interface that does not require any programming Standard support for acquiring controlling viewing and exporting your live analog channel signal data is permanently available through the software The full version SIGEXPTE adds additional signal processing advanced analysis mixed signal sweeping limit testing and user defined step capabilities and is available for a 30 day trial period standard with each instrument Enables fast and easy communication between a Windows PC and your oscilloscope using USB or LAN Transfer and save settings waveforms measurements and screen images Included Word and Excel toolbars automate the transfer of acquisition data and screen images from the oscilloscope into Word and Excel for quick reporting or further analysis Provides a standard instrument programming interface for common applications such as LabVIEW LabWindows CVI Microsoft NET and MATLAB Enables control of the oscilloscope over a network connection through a standard web browser Simply enter the IP addre
40. stination 48 bit address values MAC Q Tag Control Information Trigger on Q Tag 32 bit value MAC Length Type Trigger on lt lt gt gt a particular 16 bit value or inside or outside of a range IP Header Trigger on IP Protocol 8 bit value Source Address Destination Address TCP Header Trigger on Source Port Destination Port Sequence Number and Ack Number TCP IPv4 MAC Client Data Trigger on lt lt gt 2 a particular data value or inside or outside of a range Selectable number of bytes to trigger on from 1 16 Byte offset options of Don t Care 0 1499 CAN optional Trigger on Start of Frame Frame Type data remote error overload Identifier standard or extended Data Identifier and Data End of Frame Missing ACK or Bit Stuffing Error on CAN signals up to 1 Mb s Data can be further specified to trigger on lt gt gt or a specific data value User adjustable sample point is set to 50 by default LIN optional Trigger on Sync Identifier Data Identifier and Data Wakeup Frame Sleep Frame Errors such as Sync Parity or Checksum Errors up to 100 kb s by LIN definition 20 kb s FlexRay optional Trigger on Start of Frame Type of Frame Normal Payload Null Sync Startup Identifier Cycle Count Complete Header Field Data Identifier and Data End of Frame or Errors such as Header CRC Trailer CRC Null Frame Sync Frame or Startup Frame Errors up to 100 Mb s 1
41. the baseband and Q data from RF acquisitions to a TIQ file These files can then be imported into Tektronix SignalVu PC and RSAVu analysis packages for further modulation analysis on many wireless standards RF probing Signal input methods on spectrum analyzers are typically limited to cabled connections or antennas But with the optional TPA N VPI adapter any active 50 TekVPI probe can be used with the RF input on the MDO4000 Series This enables additional flexibility when hunting for noise sources and enables easier spectral analysis by using true signal browsing on an RF input In addition an optional preamplifier accessory assists in the investigation of lower amplitude signals The TPA N PRE preamplifier provides 12 dB nominal gain across the 9 kHz 6 GHz frequency range The optional TPA N VPI adapter enables any active 50 Q TekVPI probe to be connected to the RF input The TPA N PRE preamplifier provides 12 dB nominal gain across the 9 kHz 6 GHz frequency range Mixed Domain Oscilloscopes MDO4000 Series Built on the award winning MSO4000B Series of Mixed Signal Oscilloscopes The MDO4000 Series provides you with the same comprehensive set of features available in the MSO4000B Mixed Signal Oscilloscope Series This robust set of tools will help you speed through every stage of debugging your design from quickly discovering an anomaly and capturing it to searching your waveform record for the event and
42. tion Rise Fall Time Video and a variety of parallel and serial bus packet triggers In addition you can trigger on the power level of the RF input For example you can trigger on your RF transmitter turning on The optional MDO4TRIG application module provides advanced RF triggering This module enables the RF input power level to be used as a source for Sequence Pulse Width Timeout Runt and Logic trigger types For example you can trigger on a RF pulse of a specific length or use the RF channel as an input to a logic trigger enabling the oscilloscope to trigger only when the RF is on while other signals are active 4 www tektronix com Fast and accurate spectral analysis When using the RF input by itself the MDO4000 Series display becomes a full screen Frequency Domain view Key spectral parameters such as Center Frequency Span Reference Level and Resolution Bandwidth are all adjusted quickly and easily using the dedicated front panel menus and keypad Key spectral parameters are adjusted quickly with the dedicated front panel menus and keypad Intelligent efficient markers In a traditional spectrum analyzer it can be a very tedious task to turn on and place enough markers to identify all your peaks of interest The MDO4000 Series makes this process far more efficient by automatically placing markers on peaks that indicate both the frequency and the amplitude of each peak You can adjust the criteria that the oscillo
43. tools and packet decode tables with time stamp information Signal Inputs Any Ch1 Ch4 any DO D15 Recommended Probing RS 232 UART Single ended RS 422 485 Differential Embedded Serial Triggering and Analysis Module Enables triggering on packet level information on 1 C and SPI buses as well as analytical tools such as digital views of the signal bus views packet decoding search tools and packet decode tables with time stamp information Signal Inputs IC Any Ch1 Ch4 any DO D15 SPI Any Ch1 Ch4 any DO D15 Recommended Probing Single ended Ethernet Serial Triggering and Analysis Module Enables triggering on packet level information on 10BASE T and 100BASE TX buses as well as analytical tools such as digital views of the signal bus views packet decoding search tools and packet decode tables with time stamp information Signal Inputs Any Ch1 Ch4 Math Ref1 Ref4 Recommended Probing 10BASE T Single ended or differential 100BASE TX Differential 9 2350 MHz bandwidth models are recommended for 100BASE TX www tektronix com 21 Datasheet DPO4USB DPO4PWR DPO4LMT DPO4VID MDO4TRIG Instrument options USB Serial Triggering and Analysis Module Enables triggering on packet level content for low speed full speed and high speed USB serial buses Also enables analytical tools such as digital views of the signal bus views packet decoding search tools and packet decode tables with time stam
44. ver 100 different probes to meet your application needs For a comprehensive listing of available probes please visit www tektronix com probes TPP0500 500 MHz 10X TekVPI passive voltage probe with 3 9 pF input capacitance TPP0502 500 MHz 2X TekVPI passive voltage probe with 12 7 pF input capacitance TPP0850 2 5 kV 800 MHz 50X TekVPI passive high voltage probe TPP 1000 1 GHz 10X TekVPI passive voltage probe with 3 9 pF input capacitance TAP 1500 1 5 GHz TekVPI active single ended voltage probe TAP2500 2 0 GHz TekVPI active single ended voltage probe TAP3500 3 5 GHz TekVPI active single ended voltage probe TCP0030 120 MHz TekVPI 30 Ampere AC DC current probe TCP0150 20 MHz TekVPI 150 Ampere AC DC current probe TDP0500 500 MHz TekVPI differential voltage probe with 42 V differential input voltage TDP1000 1 GHz TekVPI differential voltage probe with 42 V differential input voltage TDP1500 1 5 GHz TekVPI differential voltage probe with 8 5 V differential input voltage TDP 3500 3 5 GHz TekVPI differential voltage probe with 2 V differential input voltage THDP0200 1 5 KV 200 MHz TekVPI high voltage differential probe THDP0100 6 kV 100 MHz TekVPI high voltage differential probe TMDP0200 750 V 200 MHz TekVPI high voltage differential probe www tektronix com 23 Datasheet P5100A P5200A Accessories TPA N PRE 119 4146 00 119 6609 00 TPA N VPI 077 0585 xx TPA BNC TEK DPG 067 1686 xx SIGEXPTE FPGAView A MSO FPGAView X MSO
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