Datasheet - TiePie engineering
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1. This measurement determines the area of an XY graph using multiplying integrating and differentiating O s The area is indicated in the Value window 16 V A Apply a low pass filter to a signal ol Average a number of consecutive measurements ih Limit the signal magnitude v Resample a signal to a different size GB Collect streaming data blocks ha Perform a Fast Fourier Transform on a signal rnn Determine the duty cycle of a signal and time and frequency 32 MSamples 1 ppm The in tegrated instruments make sure that most measurement problems can be solved and troubleshooting is limited to an absolute minimum Are you working in research and development manufacturing service or education the Handyscope HS5 is the instrument to deploy to vi sualize and analyze your signals The Handyscope HS5 offers excellent and sophisticated measurement possibil ities for an attractive budget for now and in the future Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator Handyscope HS5 an unbeatable High Resolution USB oscilloscope Specifications To achieve rated accuracy allow the instrument to settle for 20 minutes When subjected to extreme temperatures allow additional time for internal temperatures to stabilize Because of temperature compensated calibration the Handyscope HS5 will settle within specified accuracy regardless of the surrounding temperature Oscilloscope Numbe2. Warranty Warranty Three year standard five years optional covering all parts and labor excluding probes Accessories included Instrument Handyscope HS5 HS5 xxx xx see below 2x 1 1 1 10 HP 9250 Power adapter TP UE15WCP1 055200SPA USB power cable TP USB PWR P3 5 Probes Accessories Software For Windows XP Vista 7 8 10 Drivers For Windows XP Vista 7 8 10 Manual Instrument manual and software user s manual Handyscope H _ ARBITRARY WAVEFORM GENER ATOR STORAGE OSCILLOSCOPE 0 CORDER SPECTRUM ANALYZER MULTIMETE R TY oo oe 28 13s Customer service TiePie engineering instruments are designed manufactured and tested to provide high reli ability In the unlikely event you experience difficulties the TiePie engineering instruments are fully warranted for three years This warranty includes e No charge for return shipping e Long term 7 year support e Upgrade to the latest software at no charge Ordering information Handyscope HS5 Model Order code 500 MS s 40 MHz AWG 128 KiS 3 year warranty HS5 540 500 MS s 30 MHz AWG 128 KiS 3 year warranty HS5 530 200 MS s 20 MHz AWG 128 KiS 3 year warranty HS5 220 100 MS s 10 MHz AWG 128 KiS 3 year warranty HS5 110 50 MS s 5 MHz AWG 128 KiS 3 year warranty HS5 055 Available options for the Handyscope HS5 are e XM With the extended memory option 32 MiSamples memory per channel is available Add XM to the o
3. External power Power adapter External Input 110 to 240 Vac 50 to 60 Hz 0 85 A Max 50 VA to 80 VA Output 5 5 Voc 2 0 A Dimension Height 30 mm 1 2 Width 45 mm 1 8 Length 75 mm 3 EU US AU UK Order number TP UE15WCP1 055200SPA aeo 1 O connectors Replaceable mains plugs for Front CH1 CH2 BNC AWG BNC Rear 5 15VDC AUX I O AUX I O USB Extension connector Fixed cable with USB type A plug 1 8 m D sub 9 pins female Power 3 5 mm power socket Auxiliary I O connectors 1 to 2 HDMI type C socket Height 25 mm 1 0 Length 170 mm 6 7 Width 140 mm 5 2 Weight 430 g 15 ounce USB cord length 1 8 m 70 Interface Interface USB 2 0 High Speed 480 Mbit s System requirements PC I O connection USB 1 1 USB 2 0 or newer Operating System Windows XP Vista 7 8 10 32 and 64 bits TiePie engineering Koperslagersstraat 37 8601 WL Sneek The Netherlands ANN tT WY engineering www tiepie com Tel 31 515 415 416 Fax 31 515 418 819 E mail sales tiepie nl Environmental conditions Operating 0 to 55 C 5 to 90 non condensing Ambient temperature Relative humidity Storage 20 to 70 C 5 to 95 non condensing Ambient temperature Relative humidity Certifications and Compliances CE mark compliance Yes RoHS Yes EN 55011 2009 A1 2010 Yes EN 55022 2006 A1 2007 Yes EN 61000 6 1 2007 Yes EN 61000 6 3 2007 Yes
4. TiePie engineering Handyscope HS5 an unbeatable High Resolution oscilloscope SZ engineering Handyscope HS5 The world s best 500 MHz 14 bit USB oscilloscope 40 MHz Arbitrary Waveform Generator Datasheet Me A iA Vv ery 2 Ch 500MS s 32Mis 14bit 16 bit 0 25 MHz AWG 480 Mb RoHS Oscilloscope Spectrum analyzer Multimeter Data logger 14 bit 0 006 resolution 16 bit enhanced resolution 500 MS s sampling 250 MHz bandwidth 32 MSamples memory per channel AET reee D to A i pae mi O ch ami enin 20 MS s continuous streaming 0 25 DC vertical accuracy 0 1 typical arose ere 1 ppm timebase accuracy USB powered Arbitrary Waveform Generator 1 wHz to 40 MHz sine square triangular and arbitrary waves 240 MS s 14 bit 64 MSamples arbitrary waves 0 to 12 V output 24 Vpp 1 ppm timebase accuracy Spurious non harmonic lt 75 dB 8 ns rise and fall time Handyscope HS5 an unbeatable High Resolution USB oscilloscope Handyscope HS5 an unbeatable oscilloscope This Best in class USB oscilloscope features e 14 and 16 bit High Resolution USB Oscilloscope 256 times more amplitude resolution than an 8 bit oscilloscope with super zoom up to 32 Million samples 250 MHz USB Spectrum analyzer High Performance Digital Multimeter DMM Protocol analyzer USB Arbitrary Waveform Generator and provides the best that
5. Combining multiple instruments for fully synchronized measuring The Handyscope HS5 is equipped with a sophisti cated synchronization bus allowing to connect multi ple Handyscope HS5 s to each other which then can be used as a combined instrument One of the con nected Handyscope HS5 s will act as master the oth ers as slaves All instruments will measure at the same sample frequency 0 ppm deviation Apart from the synchronization bus there are also a trigger bus and a detection bus system Multiple Handyscope HS5 s can be connected to each other using a coupling cable The maximum number of instruments is only imited by num ber available USB ports When the Multi Channel software is started the coupled Handyscope HS5 s are identified each Handyscope HS5 has a unique number and automat ically combined to a larger instrument Both the syn chronization bus and the trigger bus are automatically terminated at both ends with the correct impedance Placing terminators is not required by the user Com bining the instruments is fully automatic This unique possibility to create e g a 8 channel instrument is only available with the Handyscope HS5 and no other USB oscilloscope n m a f gt f 2 A pa J A IA PAN SI 80V wv ed ORTI EI LN we 80v v Om 80V v O FORO Si 80V wv 2 Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator Handyscope HS5 an unbeat
6. C to 55 C 1 ppm per year LVDS on auxilary connectors 10 MHz 128 KiSamples per channel 32 MSamples per channel 64 MSamples when measuring one channel Type Resolution DC Accuracy Ranges Coupling Impedance Maximum voltage Maximum voltage 1 10 probe Bandwidth 3dB at 75 of full scale input AC coupling cut off frequency 3dB SureConnect Maximum voltage on connection Resistance measurement Ranges Accuracy Response time to 95 System Source Trigger modes Level adjustment Hysteresis adjustment Resolution Pre trigger Post trigger Trigger hold off Trigger delay Segmented trigger Maximum number of segments Minimum segment length Maximum segment length Trigger rearm time Digital external trigger Input Range Coupling Jitter Source channel Source External or Generator Sample frequency 500 MS s Sample frequency lt 500 MS s Sample frequency lt 100 MS s Multi instrument synchronization Maximum number of instruments Synchronization accuracy Attenuation settings Bandwidth Rise time Input impedance Input capacitance Compensation range Working voltage DC peak AC Single ended 8 12 14 16 bit user selectable 0 25 0 1 typical of full scale 1 LSB 200 mV to 80 V full scale AC DC 1 MQ 25 pF 200 V DC AC peak lt 10 kHz 600 V DC AC peak lt 10 kHz Chl Ch2 250 MHz 100 MHz 1 5 Hz Optionally available option S 200 V DC AC peak
7. Handyscope HS5 USB spectrum analyzer This method of troubleshooting is only possi ble and unique for the Handyscope HS5 because the Handyscope HS5 contains Top Bottom A ov e 250 MHz bandwidth e 14 and 16 bit resolution e 32 Million samples memory e very fast FFT calculations Because the Handyscope HS5 measures a with very high resolution in the frequency domain disturbances can be detected and analyzed at one tenth of a Hertz accuracy Up to 16 million frequency components can be displayed in a graph Because of the high resolu tion of the Handyscope HS5 14 and 16 bit resolution and 32 MSamples small disturbances can be easily de tected When a precaution is made to suppress the dis turbance its effectiveness can immediately be checked with the Handyscope HS5 With the high resolution and the large memory of the Handyscope HS5 a spectrum with a dynamic range of more than 120 dB can be mea sured This is unique in its class With this large dynamic range distortion measurements can be well performed Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator Handyscope HS5 an unbeatable High Resolution USB oscilloscope Mega deep memory of 32 MSamples per channel When measuring at high sample rates a long record length is a must otherwise the acquisition buffer is full before the signal is measured Where most oscillo scopes have 2 5 kSamples or 100 kSamples memory the
8. Handyscope HS5 has 32 MSamples memory per chan nel This gives the user 300 to 10000 times more mem ory The advantage of deep memory is that once only fast phenomena can be measured accurately or com plete serial communication signal blocks like CAN Bus signals can be measured all at once In the USB spec trum analyzer the deep memory gives the advantage that a large dynamic range is created which sets trou bleshooting in the frequency domain as a new standard The unlimited super zoom feature of the Handyscope HS5 allows to zoom in up to one individual sample no matter what record length was selected TiePie Multi Channel File Instruments Quick functions Help Handyscope HS5 30000000 Samples Time out Infinite D b A BB oro17 100 MHz 14 bits chi va H ch2 Bev SB eGGee 1 60 000 ms 120 000 ms 180 000 ms 240 000 ms 300 000ms f 60 000 ms 62 000 ms 64 000 ms x lt 2 ORE DA soo 4 000 66 000 ms 68 000 ms 70 000 ms ALNE 2 000 0 000 2 000 4 000 6 000 aD 65 520 ms 65 450 ms 65 490 ms 65 530 ms 65 570 ms 65 610 ms 65 650 ms 65 522 ms 65 524 ms 65 526 ms 65 528 ms 65 530 ms Shown is a 30 million samples long measurement The same signal is shown four times in different zooming factors the lower right graph shows just 0 01 ms of the total 300 ms a zoom factor of 30000 It still provides enough detail for accurate signal analysis SureCon
9. level of detail as the standalone oscilloscope the display can be Industry s first 1 ppm oscilloscope The time base of the Handyscope HS5 is 25 to 100 times better than the comparable instruments of the compe tition With a time base accuracy of 1 ppm frequency and timing can be measured very accurately 256 times larger Viewing the signals on a 24 moni tor immediately gives a very detailed impression of the signal The smallest deviations are very well visible and because of the high resolution it is still possible to zoom in and reveal additional details Monna De 4 x EE Gs OR ie Bh A ed a BAe ee Oe E RRA Rhee Rh a BOM foc cto lt b yids hited GE dda Ee A aed a Goo esd eee tee Se Boe ele pee hy Ky a De fee a A Sy ee eRe ce ae es ee Ec EE Os te he vel eA ee ee a ca oe Ee we lee vs Ceres acne as Sits aw ae a wai We ea we eee eG es ee i Se a a ee ee ee a ee a a ee Shown are two displays both showing a measurement of the same signal The left display size corresponds to a size comparable to a standalone oscilloscope at 8 bit resolution zooming will not reveal more details The right display corresponds to a maximized window on a standard PC screen at 14 bit resolution zooming will still reveal more details Coupling multiple instruments to a large combined instrument does not affect the time base accuracy the timing deviation between the coupled instruments is 0
10. 0011601 000000862 0x28C6 SF A9 31 00 0046 90AF 0x0F15 Table1 CAN analyzerl RHE AEAU Begin End Node ID Function code Object ID 0s 188 ps 12 SDO rx 0x00000651 o CACDelimiter Ac A 1 262 ms 2 962 ms 3 324 ms 3 589 ms 9 977 ms 10 211 ms 12 10 231 ms 10 461 ms 12 11 506 ms 11 615 ms 5 13 356ms 13 59 ms 5 13 618 ms 13 844 ms 5 15 362 ms 15 598 ms 9 19 976 ms 20 206 ms 12 23 076 ms 23 254 ms 23 342 ms 23 57 ms 23 576 ms 23 81 ms 23 817 ms 24 05 ms 24 057 ms 24 283ms 8 1 442 ms 8 3 196 ms 6 3 558 ms 5 3 814 ms 5 0x00000470 PDO2 rx 0x00000320 000000280 PDO2 tx Ox00000288 SDO rx Ox00000657 SDO rx Ox0000065D PDO2 tx Ox000002C3 0x00000280 PDO2 ftx Ox00000288 0x00000480 0x00000655 O0x00000621 0x00000520 SDO rx SDO rx 000000280 PDO2 rx 000000320 PDO2 tx 000000288 OC Oio1ro1fro1reor1rse oioroiacioioro o1e o CH H H H H H H H N H H H i H I CH H H H H H R H I H H H H R H H o o n o o o o o o o oo n m SureConnect is optionally available on the Handyscope HS5 Handyscope HS5 models with SureConnect come with resistance measurement on all channels Resistances up to 2 MOhm can be mea sured Resistance can be shown in meter displays and can also be plotted versus time in a graph creating an Ohm scope The various serial protocol analyzers of the Handyscope HS5 can be used to analyze and debug serial data buses The data is
11. 1 0 01 to 99 99 lt 0 of period 5 ns 50 duty cycle lt 50 ps Depending on model 1 uHz to 30 MHz above 30 MHz not specified 1 wHz to 30 MHz 1 uwHz to 20 MHz 1 uwHz to 10 MHz 1 uwHz to 5 MHz lt 0 01 0 to 100 0 1 steps 100 ns to 1000 s 15 ns to 1000 s 20 nstols lt 1 lt 50 ps 30 MHz Depending on model 1 uHz to 30 MHz 1 uHz to 20 MHz 1 uHz to 10 MHz 1 uHz to 5 MHz 1 to 256 KiSamples 1 to 64 MiSamples Depending on model 240 MS s 200 MS s 100 MS s 50 MS s lt 8ns lt 0 01 lt 8 ns to 10 final value lt 50 ps Waveforms Standard Built in arbitrary Sine square triangle pulse noise DC Exponential rise and fall sin x x cardiac haver sine lorentz d lorentz System characteristics System Output channel DAC resolution Output range Amplitude Range Resolution Accuracy DC offset Range Resolution Accuracy Noise level 0 12 V 1 2 V 12 V Coupling Impedance Overload protection Memory Standard model XM option Operating modes Sampling rate Model HS5 540 model HS5 530 Model HS5 220 Model HS5 110 Model HS5 055 Sampling source Accuracy Stability Time base aging Constant Data Size 1 analog BNC 14 bit 12 to 12 V open circuit 0 12 V 1 2 V 12 V open circuit 12 bit 0 4 of range 12 to 12 V open circuit 12 bit 0 4 of range 900 uVRMS 1 3 MVRMS 1 5 MVRMS DC 50 Q Output turns off automatically when ov
12. Signal characteristics Sine Frequency range Model HS5 540 Model HS5 530 Model HS5 220 Model HS5 110 Model HS5 055 Amplitude flattness lt 100 kHz lt 5 MHz lt 20 MHz lt 30 MHz lt 40 MHz Spurious non harmonic lt 100 kHz 100 kHz to 1 MHz 1 MHz to 10 MHz 10 MHz to 15 MHz 15 MHz to 20 MHz 20 MHz to 30 MHz 30 MHz to 40 MHz Square Frequency range Model HS5 540 Model HS5 530 Model HS5 220 Model HS5 110 Model HS5 055 Rise fall time Overshoot Variable duty cycle Asymmetry Jitter RMS Triangle Frequency range Model HS5 540 Model HS5 530 Model HS5 220 Model HS5 110 Model HS5 055 Nonlinearity of peak output Symmetry Pulse Period Pulse width Variable edge time Overshoot Jitter RMS Noise Bandwidth typical Arbitrary Frequency range Model HS5 540 model HS5 530 Model HS5 220 Model HS5 110 Model HS5 055 Waveform pattern length Standard model XM option Sampling rate Model HS5 540 model HS5 530 Model HS5 220 Model HS5 110 Model HS5 055 Rise fall time Nonlinearity of peak output Settling time Jitter RMS Depending on model 1 uwHz to 40 MHz 1 uHz to 30 MHz 1 uwHz to 20 MHz 1 uwHz to 10 MHz 1 uHz to 5 MHz Relative to 1 kHz 20 Vpp 0 1 dB 0 15 dB 0 3 dB 0 4 dB 1 dB 75 dBc 70 dBc 60 dB 55 dBc 45 dBc 35 dB 30 dB Depending on model 1 uHz to 30 MHz above 30 MHz not specified 1 uHz to 30 MHz 1 uHz to 20 MHz 1 uHz to 10 MHz 1 uHz to 5 MHz 8 ns lt
13. a RMS 0 0000 Crest factor Containing five instruments the Handyscope HS5 is the most powerful compact measuring instrument in industry For a user not always measuring at the same location or one who needs more space at his desk the Handyscope HS5 is the best instrument Its compact and robust construction makes the Handyscope HS5 perfect for portable use in combination with a laptop computer Built in extremely low distortion USB arbitrary waveform generator The Handyscope HS5 is the first High Resolution USB a custom signal shape is required this can be created oscilloscope with a built in 40 MHz signal generator in the 64 million samples large memory or by loading a The built in USB Arbitrary Waveform Generator uses previously measured signal from the oscilloscope the latest techniques on signal synthesis developed by 2 ttc File Instruments Quick functions Help TiePie engineering giving the best signal fidelity in jF Amerenmenresnns Handyscope H55 5000000 Samples Time out 100 ms ii a e ra D b A BB 27517 20 MHz 14 bits Ch1 ye Och B2V 5 Och BM 200mv its class An expensive stand alone Arbitrary Waveform gt m I LL E DAELE S gt HS5 27917 Generator is easily surpassed With a spurio
14. able High Resolution USB oscilloscope High performance USB digital multimeter With the high resolution of 16 bits the Handyscope HS5 can be used as a comprehensive and accurate high performance digital multimeter with good specifications like e g RMS peak peak Max Min Mean Variance Standard deviation Frequency duty cycle Crest fac tor Rise time Fall time dBm etc Both numerical and gauge displays are available The stable and very accurate time base of the Handyscope HS5 of lppm make very accurate frequency and time measurements possible These qualities make an extra multimeter or frequency counter redundant and make the Handyscope HS5 unique in its class You can make as many displays as you want in any size and different layouts Troubleshooting in the frequency domain The Handyscope HS5 definitely brings an end to the idea that spectrum analyzers are expensive hard to con trol and difficult to understand The large flexibility of the spectrum analyzer makes it not just suitable for measuring high frequency signals of transmitters and receivers A spectrum analyzer displays frequency along the X axis and along the Y axis the magnitude of the signal is displayed This is called a frequency domain display When troubleshooting usually an oscilloscope is used But when the disturbance is small in amplitude and contains many frequencies these signals are badly visible on an oscilloscope They appear like noise signa
15. displayed in an elaborate table with infor mation on the serial data Locating wrong data pack ets has become very easy For each developer or service technician this is a welcome option Protocol analyzers for CAN bus data I2 C communication and various other serial data communications are available To the left decoded CAN bus messages are shown Very fast 20 MSamples per second streaming Data logger When unlimited deep memory is required it is possi ble to stream the measured data directly to disk The Handyscope HS5 is capable of streaming up to 20 mil lion samples per second at 14 bit resolution Using streaming measuring difficult problems can be mea sured easily and traced back and analyzed Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator Handyscope HS5 an unbeatable High Resolution USB oscilloscope Scope and AWG synchronisation With both the High Resolution USB oscilloscope and the USB arbitrary waveform generator in one unit it is easy to perform a synchronized measurement It is e g possible to perform a sweep and directly measure the frequency spectrum In the shown measurement a sweep from 1 MHz to 7 MHz is generated and injected in a resonance filter of 4 MHz the output is directly measured This is a real time measurement When the resonance filter is heated the drop in resonance fre quency is immediately visible Fast to work with the Handyscope HS5 By using se
16. ediately using the correct instrument setup and reference signals Trou bleshooting becomes very effective By storing all set files on a computer a historical overview of signals be comes easy and unlimited available Hi m o saving or recalling measurements for each opened in strument for each channel and for the quick functions Using quick functions complex measurements can be performed immediately by a single click Create a data logger Create a CAN Bus analyzer Create an I C analyzer Create a serial analyzer With the cursor measurements individually for each graph many signal properties can be determined I The sample value at the left cursor gt The sample value at the right cursor The value difference between right and left cursor yal The slope between the cursors AY The maximum value between the cursors The minimum value between the cursors The top bottom value between the cursors RMS The RMS value between the cursors The mean value between the cursors oO The variance of the values between the cursors The standard deviation of the values between the cursors AL The frequency of the signal between the cursors nn The duty cycle of the signal between the cursors A The crest factor of the signal between the cursors tt The rise time of the signal between the cursors tlt The fall time of the signal between the cursors The dBm value of the signal between the cursors 6 Handysc
17. erload is applied Instrument will tolerate a short circuit to ground indefinitely 256 KiSamples 64 MiSamples Continuous triggered gated Depending on model 240 MS s 200 MS s 100 MS s 50 MS s Internal TCXO 0 0001 1 ppm over 0 C to 55 C 1 ppm per year Waveforms Count Trigger Sine square triangle noise arbitrary 1 to 65535 Software external Sweep only available on models with option XM Waveforms Type Direction Trigger Modulation Sine square triangle noise arbitrary Linear logarithmic Up down Software external AM Carrier waveforms Modulating waveforms Modulating frequency Depth Source FM Carrier waveforms Modulating waveforms Modulating frequency Peak deviation Source FSK Carrier waveforms Modulating waveforms Modulating frequency Peak deviation Source Sine square triangle arbitrary Sine square triangle noise arbitrary 2 mHz to 20 MHz 0 0 to 100 Internal Sine square triangle arbitrary Sine square triangle noise arbitrary 2 mHz to 20 MHz DC to 20 MHz Internal Sine square triangle arbitrary 50 duty cycle square 2 mHz to 20 MHz 1 uHz to 20 MHz Internal Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator 9 Handyscope HS5 an unbeatable High Resolution USB oscilloscope General Power From USB or external input 5 Vpc 2000 mA max From second USB port or power adapter Consumption
18. is available in industry for a limited budget The flexibility and quality that the Handyscope HS5 offers is unparalleled by any other oscilloscope in its class Models The Handyscope HS5 is available in four different models with an extended memory option XM and with optional SureConnect connection test and resistance measurement S Handyscope HS5 model 540 530 220 110 055 Maximum sampling rate 500 MS s 500 MS s 200 MS s 100 MS s 50 MS s Maximum streaming rate 20 MS s 20MS s 10 MS s 5 MS s 2 MS s standard model 128 KiS 128 KiS 128 KiS 128 KiS 128 KiS Record length per channel JY Y _ _ ______TW______H______ _ ____ XM option 32 MiS 32 MiS 32 MiS 32 MiS 32 MiS Maximum AWG frequency 40 MHz 30 MHz 20 MHz 10 MHz 5 MHz standard model 256 KiS 256 KiS 256 KiS 256 KiS 256 KiS AWG memory T L T Te o y CS XM option 64 MiS 64 MiS 64 MiS 64 MiS 64 MiS More instruments in the smallest package TiePie Multi Channel 2 4 TiePie Multi Channel AWG Handyscope HS5 27917 lela B Meer lel J Hes 7e17 cha Hs5 7917 che E ada eubmracts M Help Bidii 8 Cre lean Rms RMS zonmooosaneles Ochi Biv VAD Oca avy Vv A gt Jm aig OF lw EL ee 1x Maximum jean 3 0000 j mv it i lll HII ae es a oomo BSH Sam Ei Torea ca a m Bay ae z 5 el bee 2 SHH ww MOND Ae be bee bee eee Epes step ede e sedis P Frequency B Meer s5 7017 ch
19. ls But when these signals are viewed in the frequency do main a much better overview is presented of the dis turbance signals that are present and which frequencies they contain TiePie Multi Channel File Instruments Quick functio Help SARZSKS amp ere Cr gt A na Hanus ope H55 ee aa mples Time out Os i a ch2 M 200 mv 2 17 Hz 14 bits chi BeGGes Oe E BB Instruments S HS5 27917 W ai HS5 27917 Sinks 1 00 a E O 00Hz2 20 00kHz 40 00 kHz 60 00 kHz 80 00kHz 100 00 m 120 00 kHz 140 00 ECE 160 00 kHz 180 00 kee 200 00 kHz When e g measurements are performed on a system that contains switch mode power supplies the distur bances caused by a power supply are easily detected 2 B amp B Meter3 xs H95 27917 ch2 HS5 27917 Ch1 HS5 27917 Ch2 SEB nw eae COO Crest a 53 OOD d m by measuring in the frequency domain The switch fre quency of the switch mode power supply is measured by holding the probe close to the inductor of the power sup ply This unique switch frequency is now known and can be stored in a reference channel When this frequency is also measured at other locations in the system the frequency is caused by the power supply Precautions can be made to suppress the disturbing signal from the switch mode power supply The suppression can be mea sured directly by the
20. lt 10 kHz Optionally available option S 100 Ohm to 2 MOhm full scale 3 lt 5 ms Digital 2 levels CH1 CH2 digital external OR generator start generator new period generator stop Rising falling any edge inside outside window enter exit window pulse width 0 to 100 of full scale 0 to 100 of full scale 0 024 12 bits 0 006 14 16 bits 0 to 32 MiSamples measuring 2 channels 0 to 64 MSamples measuring 1 channel 1 sample resolution 0 to 32 MiSamples measuring 2 channels 0 to 64 MSamples measuring 1 channel 1 sample resolution 0 to 63 MSamples 1 sample resolution O to 16 GSamples 1 sample resolution Available via LibTiePie SDK 1024 1 sample 32 M number of segments 64 M number of segments measuring 1 channel Sample frequency dependent lt 700 ns on highest sample frequency Extension connector pins 1 2 3 0 to 2 5 V TTL DC depending on trigger source and sample frequency lt 1 sample lt 8 samples lt 4 samples lt 1 sample Limited by number available USB ports 0 ppm Probes HP 9250 X1 X10 6 MHz 250 MHz 58 ns 1 4 ns 1 MQ 10 MQ incl 1 MQ scope impedance scope impedance 47 pF 17 pF scope capacitance 10 to 35 pF 300 V CAT 600 V CAT I 150 V CAT II 300 V CAT II e Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator Handyscope HS5 an unbeatable High Resolution USB oscilloscope Arbitrary Waveform Generator
21. nect connection test and resistance measurement SureConnect connection test shows immediately whether the probe or clip actually makes electrical con tact No more doubt whether the probe doesn t make contact or there really is no signal This is e g useful when surfaces are oxidized and the probe cannot get a good electrical contact or when back probing connec tors in confined places Simply activate SureConnect and you immediately know whether there is contact Protocol analyzer TiePie Multi Channel File Instruments Quick functions Help Handyscope HS5 131067 Samples Time out 100 ms a D b A BB 37 2 5 MHz 12 bits Ch1 ya Ochi Bev j Bee ge 6 0000 9M 6 0000 sue a j Ochr Bev E BB Instruments HS5 27917 ch ch E JA Function generators E awe H55 27917 Sources i Ke I O s E Add Subtract1 Ht CAN analyzer A Sinks Table1 CAN analy v y i 5 0000 s oo00f A E 4 0000 4 0000 3 0000 f 3 0000 f 7 1 2500 KEENAN E I i TI IL j laa DLC Data CRC CO 03 50 AF 26 47 0x242E 00 04 46 00 10 Ox5D9F 20011601 00000082 0x28C6 11 BA 00 00 28 00 2B 28 0x71E2 8F A931 00 0046 90AF 0x0F15 11 00E001 0C 000000 Ox5EA8 OD C7 01 00 00001213 0x52E6 OF 0x455C 11 BA 00 00 28 00 2B 2B 0x71E2 SF 931 00004690AF 0x0F15 CO 2C 000014 4000866 04801 7500603F1C 000040 Ox2E12 04 03 00 16 12 Ox 7F5 9287020300C70100 Ox4D72 11 BA 00 00 28 00 2B 28 0x71E2 2
22. ope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator Handyscope HS5 an unbeatable High Resolution USB oscilloscope Sophisticated mathematics for in depth signal analysis The Multi Channel software for the Handyscope HS5 of fers a large variety of mathematical operations like e g adding subtracting multiplying dividing integrating differentiating determining the square root determin ing the logarithm etc These mathematical operations are available in the form of processing blocks and can be used to process the measured signals and reference signals Besides the basic mathematical operations there are also several processing blocks to perform other more complex operations on the data like determining min imum or maximum values limiting to specified range averaging filtering applying gain and offset resampling etc Combining these mathematical processing blocks gives unrivaled possibilities in constructing complex mathematical operations to analyze your measurements thoroughly and obtain all the information you need from your data The results of these operations can be dis played in one or more graphs can be displayed in nu meric displays in tables and can be written to disk in various common file formats Apply gain and offset to a signal Add or subtract signals TU Multiply or divide signals Determine the square root of a signal IT Determine the absolute value of a signal A Differen
23. r of input channels CH1 CH2 Maximum sampling rate Model 540 model 530 8 12 bit 14 bit 16 bit Model 220 8 12 bit 14 bit 16 bit Model 110 8 12 bit 14 bit 16 bit Model 110 8 12 bit 14 bit 16 bit Maximum streaming rate Model 540 model 530 8 bit 12 14 bit 16 bit Model 220 8 bit 12 14 bit 16 bit Model 110 8 bit 12 14 bit 16 bit Model 110 8 bit 12 14 bit 16 bit Sampling source Internal Accuracy Stability Time base aging External Input range Memory Standard model XM option 2 analog BNC Depending on model Measuring one channel 500 MS s 100 MS s 6 25 MS s Measuring one channel 200 MS s 50 MS s 3 125 MS s Measuring one channel 100 MS s 20 MS s 1 25 MS s Measuring one channel 50 MS s 10 MS s 625 kS s Depending on model Measuring one channel 40 MS s 20 MS s 6 25 MS s Measuring one channel 20 MS s 10 MS s 3 125 MS s Measuring one channel 10 MS s 5 MS s 1 25 MS s Measuring one channel 4 MS s 2 MS s 625 kS s TCXO 0 0001 measuring two channels 200 MS s 100 MS s 6 25 MS s measuring two channels 100 MS s 50 MS s 3 125 MS s measuring two channels 50 MS s 20 MS s 1 25 MS s measuring two channels 20 MS s 10 MS s 625 kS s measuring two channels 20 MS s 10 MS s 6 25 MS s measuring two channels 10 MS s 5 MS s 3 125 MS s measuring two channels 5 MS s 2 MS s 1 25 MS s measuring two channels 2 MS s 1 MS s 625 kS s 1 ppm over 0
24. rder code e S With the SureConnect option connection test and resistance measurement are available on all channels Add S to the order code e W5 With the extended warranty option warranty is five years on parts and labor Add W5 to the order code This information is subject to change without notice Copyright 2015 TiePie engineering All rights reserved Revision 1 5 September 30 2015 Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator
25. t files and reference signals a complex mea surement can be performed quickly A set file contains the setup of the Handyscope HS5 When a setup is made for a specific measurement it can be saved on hard disk A next time this set file with possible corresponding reference signals can be read and the measurement can be performed again immediately and compared to the reference signal Multiple reference signals can be in Ease of use SAM ek ac t eOkheB tre n Handyscope H55 5000 Samples Time out 100 ms D b A BB 377 500 MHz 12 bits Ch1 ae chi A 2 The convenient toolbars offer many ways to control the Handyscope HS5 The toolbars are fully customizable to meet the user s demands The size of the toolbar but tons can be changed to simplify touch screen control There are toolbars available for common operations like Create a new graph ki Create an Yt oscilloscope Id Create an XY oscilloscope Le Create a spectrum analyzer TiePie Multi Channel File Instruments Quick functions Help SAM SK ee teSOkH Bcr handyscope HS5 262144 Samples Time out 100 ms rx gt b ABE dal En Och mi Lai MLE AA 20 log10 1 FFT1 H55 27917 ch1 ch2 w mv 500 00 kHz 1 20MH2 1 90MH2 2 60MH2 3 30MH2 4 00MH2 4 70MH2 5 40MH2 6 10MH2 6 80MH2 7 50 MH2 cluded in a set file Exchanging measured signals with colleagues who have a Handyscope HS5 is very easy A lot of time can be saved by imm
26. tiate a signal J Integrate a signal log Determine the logarithm of a signal Education laboratory The many measurement examples and technical ex planations that are given on the TiePie engineering website give the beginning user much information on how to use the Handyscope HS5 and in what areas it can be used Basic information on measuring is given A must for the beginning user and a source of in spiration for the experienced measurement specialist www tiepie com classroom The Handyscope HS5 gives the user an instrument with a high accuracy both in amplitude up to 16 bit TiePie Multi Channel File Instruments Quick functions Help Db A BNP Stree toes ai ME cmt BV E EB Instruments i gt HS5 27917 chi ch2 eB gen Function generators D awe H55 27917 Sources KG To s A Differentiate1 HS5 2791 TCU Mubltiply Dividet HS5 27 f J Integrate1 Multiply Divid f lt Sinks Och M 0 000 s 200 000 ps 400 000 us 600 000 ps 800 000 ps 1 000 ms amanamziani 2 Gm ea 3 0000 2 0000 1 0000 0 0000 f 1 0000 2 0000 3 0000 CEMT 3 0000 2 0000 1 0000 0 0000 1 0000 2 0000 3 0000 v EMD Value window of graph 1 yE Measurement T Top Battom H55 27917 Ch1 4 033 H55 27917 Ch2 4 010 V Integrate1 Multiply Divide1 16 1 v is Js Domain Left Right Time 238 961 ps 732 468 ps 1 Difference 2 026 kHz Difference 493 506 ps
27. us distor 4 92 06 ul al AWG H55 27917 tion as low as 85 dB at 100 kHz signal frequency a 2 lu FFT1 H55 27917 Ch1 Sinks very flat amplitude spectrum and a rise time of 8 ns the created signals approach perfection Combined with an output voltage of 24 V a resolution of 14 bit at 240 MS s and a waveform buffer of 64 MSamples this makes the Handyscope HS5 AWG truly a high quality Qhepseeeeeeearrell orem come crores sores orn sore oom Taos ams sme aoe generator Standard signal shapes like sine wave square wave triangle pulse DC and noise are available When Z Handyscope HS5 an unbeatable USB oscilloscope with Arbitrary Waveform Generator Handyscope HS5 an unbeatable High Resolution USB oscilloscope High amplitude resolution 256 times more than a standard oscilloscope A standalone oscilloscope usually has a low resolution of 8 or 9 bit combined with a limited display of just 5 7 or 8 5 displaying the measured signals in their actual resolution Zooming in will then not reveal more details The Handyscope HS5 has high resolutions of 14 and 16 bit making it a truly high precision oscilloscope With a high resolution the original signal is sampled much more accurate the quantization error is much lower The effect of a higher resolution can be clearly seen in the images below To display a signal measured with the Handyscope HS5 High Resolution oscilloscope at the same
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