ISOBE5600 Isolated Probe System
Contents
1. 72 Battery charging ISOBESSO0E Attest eet Geen 70 ISOBES5600tm 70 C EIERE ic ionici 96 Calibration system nan eneen enen 96 CAUNONS Segen Eet 33 E e E EE 41 E ui La e WE 92 El e 15 Command input aaneen eneen venen vens 43 Command output aen eneen 47 Configuration ann eneen er enenereennnerenens 36 CONMECIONS ssi 42 Creepage iii 15 D DAS nl 47 RB ARR RR A 43 Declaration of conformity 32 E leet 21 Environment ii 16 ESD elle 22 F FCC rel A ia n 8 EES soia 35 Functional description 36 FUSE Lilli 11 13 Fuse replacement receiver 49 112 ISOBE5600 G GIOUNO aos ria 11 22 Breet cina rin 12 SINO aa 25 I Jul al 2 Jee 41 Installation 40 ISOB5600m recorder Getting started aanrennen 67 INTOdUCIOR aaa 67 ISOBE5600r ISOBE5600m receiver 44 ISOLANO EE 15 L Laser Safety cine 24 LICENSE AGREEMENT AND WARRANTY 3 Lithium lon Li ion see Batteries 18 M Maintenance CIARA ariani 92 Manual Verification AC Coupling Test nnen 102 Analog Filter Bandwith Verification 107 Bandwidth Test 104 DC Accuracy Test _ 99 Introduction nnen ennen 97 Noise Test EE 109 Manual verification Calibration acini 98 Required equipment 97 Messages Firmware Version2. e Set coupling filter to AC_W e The DVM AC voltage measured has to be less than 0 2 Vous Set DC AC source to sine wave 200 Hz and 1 Vous 2 8 VPEAK PEAK e The DVM AC voltage measured has to be larger than 0 8 Vous 102 I2711 3 0 en ISOBE5600 I D lt ISOBE5600 DC AC Expected DVM Expected Pass Fail Span Source Min Volt Reading Max Volt Set Volt age 4 V DC_W AN AC W 4 V AC W Table 2 AC coupling checklist I2711 3 0 en 103 I D S 104 E 4 ISOBE5600 Bandwidth Test Required equipment e HF Generator recommended Fluke 5820A e Digital Voltmeter DVM recommended Hewlett Packard HP 3458A e Oscilloscope with a bandwidth of gt 50 MHz e 2x50 Ohm termination plug Hardware setup e Connect the HF Generator to the input on the ISOBE5600t ISOBE5600tm transmitter under test Place 50 Ohm termination on coax cable at Transmitter input e Connect the Oscilloscope to the output of the channel under test on the ISOBE5600r ISOBE5600m receiver Place 50 Ohm termination on coax cable at Oscilloscope input Procedure Bandwidth also called AC Gain will be measured on one or two frequency values to check if the 3 dB point is within the specifications As preparation a 90 span AC signal from the HF Generator recommended Fluke 5820A is applied to the input under test The reference signal frequency is set to 50 kHz The peak peak value measured with the oscilloscope will be r
3. nnee 64 MAINO ail 64 MOOIS ciare 36 Monitor output nennen 48 I2711 3 0 en I BM O Overall system specifications Analog In to Analog Out Overvoltage venn eer venrenvennenv eens P Physical and environmental specifications A WE RE nl EE Power and frequency ccccseeececeeeeeeneeeeeseeeeeeaes Power inlet vnanrr ener ennrnenen enen ennen Power management eenen eenen ennn Probes TOX Giele TW ee CTSA ario onore E T OEA Protective ground ene nenne neren R Receiver connectors and indicators Receiver specifications eenen Rotary KNOD siano S Safety A EE e EE Creepage vennennvenren vennen ve nnenr ennn CUI EMO ee ean oe E ee eee eee eee USS menemen en Instrument symbols International safety warnings ie idee NEEN Manual handling of loads Overvoltage nrsen een ennnenrennenr ennn Power and frequency annen OCIVICO snai tana SHIPPING sii ionica EEA RR A Shunt measurements nen ennen ene een I2711 3 0 en ISOBE5600 1190 RR E E A 25 33 T Technical Reference Battery charging annn neen eenen ennen 70 INIFOQUGHON acciai 70 Temperature oaanen ennn een erenen ennn venenens 66 Transmitter specifi
4. Shunt measurements Specifications Overall system specifications Analog In to Analog Out Transmitter Physical and environmental specifications transmitter ISOBE5600 49 50 51 51 52 52 53 53 54 57 57 58 58 59 61 61 62 62 62 64 64 64 66 67 67 67 70 70 70 70 70 72 74 75 75 80 82 I2711 3 0 en HBM A 4 Receiver specifications A 5 Physical and environmental specifications receiver B Probes B 1 General B 2 1X Probes B 3 10X Probes C Maintenance C 1 Cleaning C 2 Upgrading firmware D Service Information D 1 General D 2 Calibration verification E Manual Verification E 1 Introduction E 2 DC Accuracy Test ES AC Coupling Test E 4 Bandwidth Test E 5 Bandwith Verification Wideband E 6 Analog Filter Bandwith Verification ET Noise Test F Trouble Shooting F 1 Unit does not start after firmware upgrade I2711 3 0 en ISOBE5600 84 85 87 87 88 90 92 92 93 95 95 96 97 97 99 102 104 105 107 109 111 111 HBM ISOBE5600 1 Safety Messages 1 1 FCC and general The first WARNING note below is required by the FCC Federal Communications Commision and relates only to the interference potential of this equipment This message is a direct quotation WARNING The equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions manual may cause interference to radio communications As tem
5. 1 Maximum available memory if only 1 channel in use 32 MS Notes Power requirements Component Unit Description 90 264 Vac 47 63 Hz Fuse s Slow blow T 2x1A 5 x 20 mm I2711 3 0 en I D lt I2711 3 0 en A 5 91mm 4 69 ISOBE5600 Physical and environmental specifications receiver The following table shows data and physical measurements performed on the receivers ISOBE5600r ISOBE5600m Physical and environmental specifications receiver Component Unit Description ve including handles etc 221 mm 8 7 187mm 7 36 0 246mm 9 68 221mm 8 70 271mm 10 67 i a Li Figure A 8 Dimensions ISOBE5600r ISOBE5600m receiver Physical and environmental specifications receiver Unit Description Maximum KG BT 90 264 Vac 47 63 Hz 40 VA 0 C to 40 C 32 F to 104 F acc IEC 60068 2 6 Non operational 3 axis 0 30 mm or 2 g 1 oct min Sine sweep Shock half sine acc IEC 60068 2 27 Non operational 3 axis 10 g for 11 ms 25 g for 6 ms Humidity 2 Relative humidity non condensing 0 to 80 85 ISOBE5600 I D S Notes 1 During shock and vibration tests the ISOBE5600 receiver and transmitter was fully operational The system electronics continued to operate without any problem However no operational guarantee can be given due to the unknown quality of the cables and connectors in use Therefore specificat
6. Human Services DHHS regulation CDRH 21 CFR Chapter Subchapter J Part 1040 10 e Outside the USA the ISOBE5600 is certified as a Class 1 laser product conforming to the requirements contained in IEC EN 60825 1 1994 A1 A2 and IEC EN 60825 2 I2711 3 0 en I D lt I2711 3 0 en 1 12 ISOBE5600 Instrument symbols On the system a variety of symbols can be found Below is a list of symbols and their meaning This symbol is used to denote the measurement ground connection This point is not a safety ground This symbol is used to denote a safety ground connection Where caution is required this symbol refers to the user manual for further information gt This symbol warns that high voltages are present close to this symbol This symbol shows that the switch is a power switch When it is pressed the instrument state toggles between the operating and power off mode When in power off mode all electronics are disconnected from the power except for a small circuit used to detect the switch state C gt 25 ISOBE5600 I D S 1 13 Manual handling of loads The Manual Handling of Loads Directive 90 269 EEC from the European Community lays down the minimum health and safety requirements for the manual handling of loads where there is a risk particularly of back injury Before lifting or carrying a heavy object ask yourself the following questions e Can you lift this load safely or is it a two person li
7. 230 VAC 47 63 Hz Fuse s Slow blow T 2x 250 mA 5 x 20 mm Battery Internal rechargeable NiMH 12 V 300 mAh Operation Time Continuous AC powered 5 minutes battery operated with new and fully charged battery Consult www hbm com highspeed for more information 81 I D S 82 A 3 ISOBE5600 Physical and environmental specifications transmitter The following table shows data and physical measurements performed on the two transmitters ISOBE5600tm and the ISOBE5600t Physical and environmental specifications transmitter Dimensions ISOBE5600tm a Width including handles etc 175 mm 6 86 Don Posmm i044 epth Height 819 mm 4 69 sose oo o Width including handles etc 175 mm ag Depth 80mm 113 Height 819 mm 4 69 265 mm 10 44 280 mm 11 03 265 mm 10 44 Figure A 7 Dimensions ISOBE5600t top and ISOBE5600tm bottom frontends I2711 3 0 en ISOBE5600 I D lt Physical and environmental specifications transmitter Unit Description ISOBE5600tm eee Maximum ISOBE5600t CT Maximum including batteries Single metal shielding in plastic housing Correct operation has been verified by placing the frontend cabinet within 1 meter of an EMC field created by a 80 kA current ISOBE5600tm 0 C to 40 C 104 F ISOBE5600t 15 C to 50 C Vibration acc IEC 60068 2 6 Non operational 3 axis 0 30 mm or 2 g 1 oct min Sine sweep Shock 1 acc IEC
8. 3 0 en ISOBE5600 Safety Messages Proper and safe use of this instrument depends on careful reading of all safety instructions and labels Read the chapter for details Installation and Operation To know how to install this system in the correct way read the installation section We do not advise to install the system without reading this section This section also describes how to use the subsystem charge batteries replace batteries etc Read the chapter Introduction on page 40 Installation and Operation for details Technical Reference This section contains additional technical information pertinent to the ISOBE5600 Read the chapter Technical Reference for details Technical support Contact your local dealer or HBM directly for technical support general information and more Refer to the back of this manual for details of our address 39 HBM ISOBE5600 4 Installation and Operation 4 1 Introduction This section describes how to install and operate the ISOBE5600 This system is a combination of one or more ISOBE5600t transmitters and an ISOBE5600r ISOBE5600m receiver unit The ISOBE5600r ISOBE5600m receiver unit can control and receive data from up to four ISOBE5600t transmitters The ISOBE5600m adds a recording functionality to the receiver module which when working with Perception can make single shot recordings and as a stand alone unit can be used as a measurement device 40 I2711 3 0 en I D lt I
9. 40 V 100 V The input range relation to the set span is always 61 I D S 62 5 3 2 5 3 3 ISOBE5600 Span Range t Coupling and filter The ISOBE5600t ISOBE5600tm have three types of coupling and two filter types to select from Input Coupling Setting Input Filter Setting Selected Coupling Fil ter in Menu DC W Wideband DC F Bessel Filter AC W Wideband AC F Bessel Filter GND Last used filter setting When ground is selected the filter type is not changed Selecting GND when DC W was the previous setting the filter setting for GND will be Wideband Turn counter clockwise trough menu Selecting GND when AC F was the previous setting the filter setting for GND will be Bessel Filter Turn clock wise trough menu Menu Structure Operating the ISOBE5600r and ISOBE5600m receiver menu The menu is structured as shown in Figure 5 8 I2711 3 0 en ISOBE5600 I D lt rotate left right Chi Chi Ch2 Ch2 Ch3 Ch3 Ch4 Ch4 range filter range filter range filter range filter press to select or get back to previous selection rotate left right press DC DC AC AC wideband filter wideband filter GND rotate left right 0 2V 0 4V 1V 2V 4V 10V 20V 40V 100V Figure 5 8 ISOBE5600r and ISOBE5600m receiver menu I2711 3 0 en 63 I S 64 5 4 5 4 1 5 4 2 ISOBE5600 Menu Messages ISOBE5600 The ISOBE5600r ISOBE5600m can display a number of messag
10. 60 C 140 F 25 loss after 1 year 40 loss after 3 months Source www BatteryUniversity com I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 It is beneficial to avoid storing a Li lon battery at full charge A Li ion battery stored at 40 charge will last many times longer than one stored at 100 Charge particularly at higher temperatures If a Li ion battery is stored with too low a charge there is a risk of allowing the charge to drop below the battery s low voltage threshold resulting in an unrecoverably dead battery Once the charge has dropped to this level recharging it can be dangerous An internal safety circuit will therefore open to prevent charging and the battery cannot be used anymore In circumstances where a second Li ion battery is available for a given device it is recommended that the unused battery be discharged to 40 and placed in the refrigerator to prolong its shelf life Batteries should be allowed to completely warm to room temperature over up to 24 hours before any discharge or charge Avoid purchasing spare Li ion batteries for later use Observe the manufacturing date when purchasing Do not buy old stock even if sold at clearance prices Contact your battery supplier manufacturer or visit their web site for more details on battery specifications usage and maintenance 73 I lt 74 7 3 ISOBE5600 Shunt measurements Special care must be taken with shunt measure
11. ISOBE optical isolated digitizers designed by HBM Smaller less weight and improved performance compared to its predecessors make the ISOBE5600 the leading product for use in the most demanding test lab applications The digitizer is designed for applications that require high voltage isolation and safe and accurate measurements Successful operation of any laboratory whether independent or manufacturer owned relies on disturbance free and accurate measurements also when the object under test has a failure high frequency oscillating currents flow to ground and cause a high potential shift of the ground point The resulting problems of grounding and power supply connection are less when galvanic isolation from the test area is achieved by means of fiber optic links There are two principal ways of transmitting signals via fiber optic links analog or digital With a digital link the measured signal is digitized with an A to D converter close to the test object transmitted via the fiber optics processed directly in digital form and converted back to an analog signal with a D to A converter Digital fiber optic systems do not have drift or noise problems and surpass their analog counterparts when it comes to dynamic accuracy Bringing the A to D converters close to the test object however means that extra care must be taken to shield the equipment from strong electromagnetic fields The power for the A to D converters must be supplied from ba
12. The instrument should be positioned to allow access to the AC connector The front power switch on the instrument is not a disconnecting device When the instrument is connected some power will be consumed 45 I D S 46 4 3 4 ISOBE5600 Receiver connectors and indicators The receiver is a stand alone unit One receiver unit serves up to four front ends transmitters The ISOBE5600r is the standard receiver and comes without memory the ISOBE5600m receiver comes with on board memory is capable of making single shot recordings of data by using the unit in conjunction with the Perception software This unit is controlled by Perception and once connected will appear in the Available hardware section in Perception STATUS our 1 eme oS nmn GVL OVL OL Figure 4 5 Receiver connectors and indicators Front view Status LEDs Command output fiber optic and data input fiber optic Recording status and trigger status Monitor output USB Connection Rotary knob Display Zomm Do DS Channel position indication for display Trigger input A Status LEDs The LED indicators are used to give a visual indication of the fiber optic link frontend status The g icon is used to identify the signal detect function The RB icon is for data synchronization identification The 7 icon indicates the status of the battery The icon A identifies the temperature status of the front end When the power of the mainframe is switched on
13. an ambient temperature of between 0 C and 40 C for the ISOBE5600tm or 15 C and 50 C for the ISOBE5600t The equipment is specified for use in a Pollution Category Il environment which is normally non conductive with temporary light condensation but it must not be operated while condensation is present It should not be used in more hostile dusty or wet conditions The equipment will operate with full specified accuracy between 15 C and 35 C Humidity should be between 0 and 80 When moving the device from a cold to a warm environment the equipment has to be left turned off for a period of 30 minutes to avoid short circuits by condensation Direct sunlight radiators and other heat sources should be taken into account when assessing the ambient temperature The ISOBE5600t relies on a convection air cooling design that does not require a fan Adequate cooling can usually be achieved by leaving a 12 5 mm 0 5 gap around the transmitter The ISOBE5600tm has a fan installed Leave a space around the equipment for unrestricted ventilation especially at the front and back of the unit Do not store the equipment in hot areas High temperatures can shorten the life of electronic devices and damage batteries Do not store the equipment in cold areas When the equipment warms up to its normal operating temperature moisture can form inside the equipment which may damage the equipment s electronic circuit boards Do
14. at least one LED should be ON I2711 3 0 en I S I2711 3 0 en ISOBE5600 The following table lists the function and possible combinations of the four LEDs Table 4 1 Front panel LED indicators FRONT PANEL LED INDICATORS ek Off No power or No optical No optical No optical boot failure signal signal signal detected detected detected Red No optical Not Transmitter signal synchronized internal detected no valid data temperature too high Orange N A Green Optical signal Synchronized Battery power Transmitter detected and valid data OK internal temperature OK B Command output fiber optic This connector provides the command and timing output and must be connected using a fiber optic cable with the Optical Link Command connector on the transmitter unit The command output and data input are combined in a dual LC connector B Data input fiber optic This connector is the data input connector and must be connected using a fiber optic cable with the Optical Link Data connector on the transmitter unit The command output and data input are combined in a dual LC connector Figure 4 6 Example of a dual LC connector 47 I lt 48 ISOBE5600 C Recording status and trigger status Refer to Using the displays controls on page 58 for more information D Monitor output This is a BNC output It provides a copy of the analog signal connected to the analog input connector on
15. have a resistor and capacitor in parallel inserted into the probe Figure B 3 shows the circuit for the 10X probe connected to a high impedance input of an instrument 10X probe ISOBE5600t input Figure B 3 Input connected using a 10X probe If R C RyC5 then this circuit has the result that the effect of both capacitors exactly cancel The capacitor is usually made adjustable and can be tweaked for a near perfect match Under these conditions the relationship of VS to VIN IS IC P Vin Vs rr Ry is the input resistance of the instrument s high input impedance 1 MQ and R 9Ro From the previous equation this results in z _ 1l v Vin 5 Vs So the final result is a probe instrument input combination that has a much wider bandwidth than the 1X probe due to the effective cancellation of the two capacitors However the instrument now sees only one tenth of the original voltage hence the name 10X probe Also notice that the circuit being measured sees a load impedance of R R 10 MQ which is much higher than with the 1X probe I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 CAUTION For a correct compensation it is necessary that both impedances have the same value i e R C RC In practice this condition may not be met exactly but can be approximated The probe s compensation capacitor is usually made adjustable somewhere between 10 pF and 50 pF to compensate for the instrument
16. its icon in the Hardware list or drag the ISOBE5600m from Unused Hardware into the Used Hardware list samos CEO sbuipsosory 2sempacn Figure 6 3 Hardware list Part 2 You will now be connected to the ISOBE5600m and will see a message appear briefly while you connect to the instrument Unused Hardware OSE PROP aera D Q S ala E Figure 6 4 Hardware list Part 3 When you are connected a new group will appear in the Used Hardware section you can expand this to see the Recorder and it s individual Recorder Channels any of these can be dragged and dropped into the main window of Perception to start active viewing If you drag and drop in the entire recorder for viewing you will now see 4 color coded data channels each in its own pane with the same color coding as on the front of the ISOBE5600m You can now start a recording Make a single shot recording with a manual trigger this will make a recording of the full stop if no input signal connected you should see 4 straight lines I2711 3 0 en I D lt ISOBE5600 Note If a cable with no active signal is connected you may see some interference as shown in Figure 6 5 file Ede Control Automation Aciwe Window Sheets Help Dit Edi aa Control All HB Actrve Recordng013 I set ngs 4 informaton fj Formula 3 Report gf 1914 Automated Analysis fr Sequencer gt Name znane EE GS A BS UAE 5 sis Lia e A Bh et SDS s
17. link CONTROL Power management Serial to Fiber optic Parallel receiver 5 mm m O DI m n 5 tha 5 b Te I I I I I I I I I I I I I I I I CR Transmitter Figure 3 2 ISOBE5600 block diagram Transmitter 37 I D S 38 Fiber optic link ISOBE5600 Control USB to PC Fiber optic Serial to transmitter Parallel Parallel to Fiber optic i Serial transmitter Control knob Figure 3 3 ISOBE5600 block diagram Receiver Data emerging from the A to D converter is serialized before transmission Therefore only one fiber optic cable is required for data transmission This approach reduces cost and increases reliability and ease of handling The data receiving end of the system consists of fiber optic interfaces a deserializing component and a D to A converter The ISOBE5600m includes an on board memory component for single shot recordings The fiber optic isolation is fully transparent to the user How to use this manual This manual has been written to help you to benefit as quickly as possible from the ISOBE5600 and gain maximum results from its usage Many people read their user manual only as a last resort If you are one of those people the next paragraphs tell you where to find the right information when you need it CAUTION READ THE NEXT SECTION EVEN IF YOU DO NOT READ ANYTHING ELSE I2711 3 0 en I D lt I2711
18. not drop knock or shake the equipment Rough handling can break internal circuit boards I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 Do not use harsh chemicals cleaning solvents or strong detergents to clean the equipment To clean the equipment disconnect all power sources and wipe the surfaces lightly with a clean soft cloth dampened in a mild soap and water solution It is the responsibility of the user to ensure the safety of any accessories such as probes used with the equipment 17 I D S 1 7 ISOBE5600 Batteries The ISOBE5600t transmitter operates on removable rechargeable Lithium lon Li ion batteries The ISOBE5600tm has internal rechargeable Ni MH batteries that are not serviceable Precautions and warnings when using batteries e Never use any charger or battery that is damaged in any way e Use the battery only for its intended purpose e Do not take batteries apart or modify them The batteries must not be damaged crushed pierced or exposed to high temperatures In case of inappropriate handling of a battery there could be a risk of combustion or explosion e Battery charging time depends on the remaining battery charge and the type of battery and charger used The batteries can be charged and discharged hundreds of times but will gradually wear out When the operation time is noticeably shorter than normal it is time to buy new batteries e If left unused a fully charged battery will
19. of your environment e Install ESD specific prevention items such as grounding mats and wrist straps While you should always take appropriate precautions to discharge static electricity if you are in an environment where you notice ESD events you may want to take extra precautions to protect your electronic equipment against ESD Use of wrist straps Use an ESD wrist strap whenever you open a chassis particularly when you will be handling circuit cards and appliques In order to work properly the wrist strap must make good contact at both ends with your skin at one end and with the chassis at the other WARNING The wrist strap is intended for static control only It will not reduce or increase your risk of receiving an electric shock from electrical equipment Follow the same precautions you would use without a wrist strap 23 I D S 24 ISOBE5600 Laser Safety The system is classified as a Class 1 laser product The ISOBE5600 uses an LC optical transceiver for data and command communication between ISOBE5600r ISOBE5600m receiver and ISOBE5600t ISOBE5600tm transmitter It does not emit hazardous light but it is recommended to avoid direct exposure to the beam The built in laser complies with laser product standards set by government agencies for Class 1 laser products e Inthe USA the ISOBE5600 is certified as a Class 1 laser product conforming to the requirements contained in the Department of Health and
20. software 4 To start the upgrader on your PC click Start point to All Programs point to HBM point to ISOBE5600 point to Firmware Upgrader and click ISOBE5600 Firmware Upgrader This will launch the application 5 Read pop up messages carefully before continuing They may contain important information with respect to the upgrade process 6 Depending on your security settings a confirmation dialog may come up If so Select Unblock to continue 7 A dialog appears N Figure C 1 Image Loader Drop down list box A Mainframe list 8 Click the down arrow of the Select mainframe list This will give you a list of available units identified by the serial number ID You may need to click the Scan network button to update refresh the list 93 ISOBE5600 I D S 9 When connected the Firmware Upgrader utility checks your unit s current versions and compares them to the upgrade versions to see if an upgrade is necessary A B Mainframe v Scan for mainf ames New Vi Slot Module Type mage Name Current Version USB Isobe5600 inal 1 10 7339 1 10 7339 USB Isobe5600 Fallback 0 01 0 01 D ssepol UC Sa Figure C 2 Image Loader Firmware versions A Current version of the installed firmware B New version which is available for this mainframe 10 Click Upgrade Now to start the upgrade process Allow up to 15 minutes for the upgrade to complete A progress indicator is shown in the bottom
21. str mst llaren for vaxelstromsmatning p instrumentet skadas och den b r d inspekteras av en ingenj r med l mpliga kvalifikationer F r att koppla bort instrumentet fr n v xelstr mstillf rseln tag ut IEC anslutningen p bakpanelen Str mst llaren f r v xelstr mstillf rsel p detta instrument r enbart till f r funktionerliga ndam l Den r inte avsedd som eller l mplig som en bortkopplingsanordning SIE English SAFETY WARNING Do not remove the covers If the supply fuse blows as the result of a fault itis possible that the instrument s AC supply switch will be damaged and should be checked by a suitably qualified engineer I2711 3 0 en I S I2711 3 0 en ISOBE5600 To disconnect this instrument from the AC supply unplug the IEC connector on the rear panel The AC supply switch on this instrument is provided for functional purposes only It is not intended or suitable as a disconnecting device RE Logg FINE EY PRETEEN CK ES BRE LANE KUMA GE BaD ACE RAT YF PREIS BEND DOLD MOONEN EZR EBEAIKAORRERIT lt KES Wo za AC ERA SENT SHNAILICH D IEC IRI AEX ERI AHMAD AC BRA TYF ld SelobmotCHLU SL WET LEN 237 HROLBREMACULTERE NTS ISLTUERTA mz REGS TEN LS DSR BI RG LAME EN UA AT BEIRA EEE SCH RF KH BS RASH LETS W TX Ra Jo ARCA IEC SEK EN AAA BR Maa LAY Wh BRA AMA THREE MRE ATRIA KE 31 I D S 32 1 15 ISOBE5600 Declaration of confirmity For inform
22. that heavy metals such as lead mercury cadmium and chromium and flame retardants such as polybrominated biphenyls PBB or polybrominated diphenyl ethers PBDE are substituted with safer alternatives In certain circumstances the regulations also place responsibilities on end users of WEEE to be responsible for the recovery and recycling of this equipment when it becomes waste Therefore please arrange the return of any product that reaches the end of its lifetime with HBM I2711 3 0 en I D lt I2711 3 0 en 1 9 ISOBE5600 Electro Magnetic Compatibility EMC EMC stands for electromagnetic compatibility The overall intention is that electronic equipment must be able to co exist with other electronic equipment in its immediate vicinity and does not emit large amounts of electromagnetic energy Thus there are two distinct requirements for electromagnetic compatibility emission and immunity This equipment generates accepts and can radiate radio frequency energy and if not installed and used in accordance with the user manual may cause harmful interference to other equipment However there is no guarantee that interference will not occur in a particular installation All immunity tests are done with the failure criterion being a change of the equipment s control settings Any of these tests may produce a spurious trigger Measurements are not valid during and immediately after the immunity tests In demanding applicat
23. the front end E USB Connection This connection is used for communication with a PC and for firmware upgrade only e ISOBE5600r firmware upgrade only ISOBE5600m PC and firmware upgrade F Rotary knob Refer to Using the displays controls on page 58 for more information G Display Refer to Navigating the display menu on page 58 for more information H Channel position indication for display Refer to Navigating the display menu on page 58 for more information I ISOBE5600m trigger input has different functions e ISOBE5600r No function e ISOBE5600m Used for external triggering I2711 3 0 en x lt I2711 3 0 en 4 4 4 4 1 ISOBE5600 Installation This section describes how to install and interconnect the various components Fuse replacement receiver and ISOBE5600tm The ISOBE5600r ISOBE5600m receiver uses up to 40 VA and operates from line voltages from 90 Vac to 264 Vac at 47 63 Hz The ISOBE5600tm uses up to 12 VA and operates from line voltages of 115 Vac or 230 Vac at 47 63 Hz WARNING Inspect the voltage selector at the rear of the front end cabinet for the correct setting before applying power If necessary see the section below for instructions on changing the voltage selector To gain access to the fuses proceed as follows 1 Unplug the power cord Using a pocket screwdriver insert the screwdriver in the slot under the fuse door and gently rotate the screwdriver to unl
24. the front panel next to the display allows you to navigate through the menus and enter settings for your front end transmitters When controlled by Perception software the knob is non functional MENU push to select Figure 5 2 Front panel controls Rotary knob A Rotary knob During normal operation the ISOBE5600r ISOBE5600m receiver displays the current settings for each of the four front end transmitters that can be connected Navigating the display menu All available settings for each of the attached transmitter unit are displayed The selected menu item is indicated by an arrow following the setting I2711 3 0 en I D lt I2711 3 0 en 5 2 2 ISOBE5600 Figure 5 3 ISOBE5600r ISOBE5600m receiver First setting A Selection arrow First setting By rotating the rotary knob clockwise the next item in the menu is selected first down then to the right Figure 5 4 ISOBE5600r ISOBE5600m receiver Second setting A Selection arrow Second setting By rotating the rotary knob counter clockwise the previous item in the menu is selected first up then to the left Continuing to rotate the rotary knob after the last item will result in a wrap around back to the first menu item Changing transmitter settings When the required setting in the menu is selected this setting can be altered by pressing the rotary knob for a short moment When the setting in the menu is ready for editing the settings c
25. to analog out The input span of the ISOBE5600t ISOBE5600tm transmitter is always scaled to a fixed 4 Volt span on the ISOBE5600r ISOBE5600m receiver output into 1 MOhm The ratio between input span and output span is Span out Span in or the divider factor As the error is measured at the output but is referred to the input RTI referred to input the measured value and error needs to be backscaled to the input So the limits of specification for ISOBE5600 are calculated as _ SPAN outmut gt 0 3 x Span input 6 Vigne Span d x h Input a 50 x 107 i KA ULE Verification is carried out according to the following steps e Set coupling filter to DC_W e Select input span to be tested e Set DC source to 45 of selected span e Compare reading of DVM output voltage to corresponding Min Max value of table 1 99 I D S 100 ISOBE5600 e Set DC source to 45 of selected span e Compare reading of DVM output voltage to corresponding Min Max value of table 1 e Repeat steps for every span to be tested e Set coupling filter type to DC_F e Repeat steps for every span to be tested ISOBE5600 DC Expected Pass Calcu Span Source Min Volt Reading Max Volt lated Set Volt Error age Table 1 DC accuracy checklist In addition to the within specifications check you might want to compute the real error for each span You can do so by comparing the DC voltage reading of
26. 12711 3 0 en Genesis HIGH SPEED English Isolated Probe System ISOBE5600 Series L BM ISOBE5600 I D S Document version 3 0 October 2010 References made to the Perception software are for version 6 10 or higher For HBM s Terms and Conditions visit www hbm com terms HBM GmbH Im Tiefen See 45 64293 Darmstadt Germany Tel 49 6151 80 30 Fax 49 6151 8039100 Email info hbm com www hbm com highspeed Copyright 2010 All rights reserved No part of the contents of this document may be reproduced or transmitted in any form or by any means without the written permission of the publisher 2 I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 LICENSE AGREEMENT AND WARRANTY For information about LICENSE AGREEMENT AND WARRANTY refer to www hbm com terms I2711 3 0 en HBM Table of Contents 3 1 1 3 1 2 3 1 3 3 1 4 4 1 4 2 4 2 1 4 2 2 4 3 4 3 1 4 3 2 4 3 3 4 3 4 4 4 Safety Messages FCC and general Protection Power and frequency requirements Fuse requirements and protection Overvoltage and current protection isolation Environment Batteries WEEE Waste Electrical and Electronical Equipment Electro Magnetic Compatibility EMC Electro Static Discharge ESD Laser Safety Instrument symbols Manual handling of loads International safety warnings Declaration of confirmity About this Manual Symbols used in this manual Introduction Introduction the ISOBE5600 Configura
27. 2711 3 0 en 4 2 4 2 1 4 2 2 ISOBE5600 Unpacking For transportation the ISOBE5600 units are sealed in a polyethylene bag and cushioned in its box by shock absorbent material Accessories are separately sealed in polyethylene bags and included in the box Unpacking and inspection Unpack the equipment carefully and examine it thoroughly to ascertain whether or not damage has occurred in transit Report immediately any such damage to the agent or manufacturer Retain the packing materials and box for use if further transportation is necessary Also be sure to keep all documents supplied with the equipment some may be addenda or update bulletins applicable to the manual or equipment Equipment checklist Check that the equipment contained in the transportation box complies with the packing list It typically includes ISOBE5600r ISOBE5600m receiver s ISOBE5600t ISOBE5600tm front end s Fiber optic cables as ordered User Manual that you are reading now Charger as ordered ISOBE5600t only Power cord ISOBE5600tm only Miscellaneous documents 41 I D S 42 ISOBE5600 4 3 Connector locations This section describes the location of the various connectors on the ISOBE5600t and tm transmitters 4 3 1 Front end I O connectors Refer to the following diagrams for the position of the signal input and fiber optic connectors on the transmitter units ISOBE5600tm ISOBE5600t B2 Cc D E A B1 C D E Figure 4 1 Front en
28. 60068 2 27 Half sine Non operational 3 axis Half sine 10 g for 11 ms 25 g for 6 ms Relative humidity non condensing 0 to 80 jemen IP Class IP20 Notes 1 During shock and vibration tests the ISOBE5600 receiver and transmitter was fully operational The system electronics continued to operate without any problem However no operational guarantee can be given due to the unknown quality of the cables and connectors in use Therefore specifications are given as non operational 2 When moving the device from a cold to a warm environment the device has to be left turned off for a period of 30 minutes to avoid short circuits by condensation Consult www hbm com highspeed for more information I2711 3 0 en 83 I D S 84 A 4 ISOBE5600 Receiver specifications A single receiver unit serves up to four ISOBE5600 front ends Receiver ISOBE5600r and ISOBE5600m Component Unit Description Channels Per front end Connector Non isolated BNC one BNC per channel on receiver front panel Conversion D to A converter per channel 100 MS s DAC Resolution 14 bit 0 006 Output filter 6 pole Bessel reconstruction filter 40 MHz 3 dB Output impedance 50 Q 2 Output level Full scale 1 MQ load Full scale 50 Q load Receiver ISOBE5600m only Unit Description Available memory per receiver 32 MS Signal trigger Available on all channels External trigger Available on all TIL channels
29. Always recycle Do not dispose of batteries in a fire I2711 3 0 en ISOBE5600 I D lt WARNING If leaked battery fluid comes into contact with your eyes immediately flush your eyes with water and consult a doctor as it may result in blindness or other injury If leaked battery fluid comes in contact with your body or hands wash thoroughly with water If leaked battery fluid comes into contact with the instrument carefully wipe the transmitter avoiding direct contact with your hands WARNING For protection against electric shock the transmitter may not be operated without both battery bays closed either by a battery module installed or by a bay cover in place Make sure that input signals are detached from the transmitter before a battery module is removed I2711 3 0 en 19 I lt 20 1 8 ISOBE5600 WEEE Waste Electrical and Electronical Equipment Since February 2003 European Union legislation has been in force stating that EU members are now restricting the use of hazardous substances in electrical and electric equipment Directive 2002 95 EC as well as promoting the collection and recycling of such electrical equipment Directive 2002 96 EC The legislation may require the creation of collection or drop off schemes where consumers return their used electronic waste free of charge The objective of these schemes is to increase the recycling and or re use of such products It is also required
30. G ELECTRICAL SHOCK HAZARD Remove any input signal before proceeding 51 I D S 52 ISOBE5600 Removing a battery module To remove a battery module do the following 1 Using a flat blade screwdriver loosen the multi turn screw that holds the battery module in place 2 Pull the battery module gently out of the cabinet Figure 4 8 Battery module removal A Screws Placing a battery module To place a battery module proceed as follows 1 Place the battery module in the cabinet 2 Push it firmly into the connector in the rear of the cabinet until you feel it snap without using excessive force 3 Using a flat blade screwdriver fasten the multi turn screw to hold the battery module in position Battery module The battery module is a battery holder with a standard Lithium lon battery The batteries can be charged and discharged hundreds of times but will gradually wear out When the operation time is noticeable shorter than normal it is time to renew the batteries I2711 3 0 en I D lt 4 4 3 I2711 3 0 en ISOBE5600 Figure 4 9 Battery module A Battery holder B Battery pack C Lock strip The battery module is designed to fit in the supplied battery charger i e it is not necessary to remove the battery from its holder when charging However when you are using a non standard charger it may be necessary to remove the battery from its holder before you can place the battery in a charger Renewi
31. T the same procedures as used in the HBM calibration verification process The procedures used by HBM are more complex more time consuming and deliver more accurate results But as these are too work intense to be performed manually this section describes easier less complex and less accurate procedures Last but not least not all the specifications as tested by the HBM calibration verification process are re tested in the manual procedures as described here Only fundamendal specifications are tested The verified specifications are DC accuracy AC coupling Bandwidth Noise Required equipment For the verification of ISOBE5600 front end high accuracy test equipment is required HBM uses the following equipment to calibrate and verify the specifications of ISOBE5600 e Voltmeter HP 3458A Digital Multimeter e LF Generator Fluke 5700A Multifunction Calibrator e HF Generator Fluke 5820A Oscilloscope Calibrator e Oscilloscope General purpose oscillo scope with a bandwidth gt 50 MHz 97 I S 98 S ISOBE5600 For the manual process any other equivalent equipment can be used However it should be clear that the accuracy of the used equipment influences the measurement process and therefore might impact the final Pass Fail result All error limits provided in this section include the inaccuracy as caused by using the equipment mentioned above Since less accurate test equipment is likely to result in
32. a power supply without SELV Separated Extra Low Voltage or Class Il qualification I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 The international standard for test equipment safety is IEC 61010 1 formerly IEC 1010 1 It defines four overvoltage categories CAT I CAT II CAT III and CAT IV sometimes called installation or location categories based on the magnitude of danger from transient impulses IMPORTANT The ISOBE5600 Isolated Probe System is a combination of one or more transmitters and a receiver unit When a reference is made to the complete system transmitters and receiver this is referred to as the equipment If not the transmitter and receiver unit are identified explicitely WARNING All inputs are rated for CAT Category 1 signals only The equipment should not be used to measure high energy signals of Categories Il Ill and IV The covers protect the user from live parts and should only be removed by suitably qualified personnel for maintenance and repair purposes The equipment must not be operated with the covers removed There are no user serviceable parts inside the units I S ISOBE5600 Protection WARNING Do not remove covers Refer servicing to qualified individuals Proper use of this device depends on careful reading of all instructions and labels If the instrument is used in a manner not specified by HBM the protection provided by the instrument
33. and indicators Detail A Datain B Command out C Front end I O connectors and indicators Detail Initial check out For an initial check out of the system verify as follows e ISOBE5600t Make sure that a battery is in place and charged ISOBE5600tm Make sure the voltage selector is set to the correct voltage and the power cord is connected I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 e Check the fiber optic cabling between the transmitter unit and the receiver unit e ls the receiver installed properly fuses power cord connected Now you can switch on the receiver unit and the front end s The LED s on the front panel of the fiber optic receiver unit must indicate that both connections and batteries are OK for each channel installed and connected This completes the installation 55 I D S 56 ISOBE5600 For a functional check out of the system verify as follows 1 Connect a fiber optic cable from the transmitter to the optical input 1 on the receiver 2 Turn power on for both the receiver and the transmitter 3 Connect a signal generator to the transmitter input 4 Set input span on receiver to 20 V See Settings on page 61 for details 5 Seta generator to 10 V peak peak 50 Hz AC 6 Connect an oscilloscope to the analog output 1 on the receiver 1 Set the oscilloscope range to approximately 2 V The output is scaled See specifications for details 8 The oscilloscope should
34. atch the door When unlatched raise the fuse door 49 I D S 50 ISOBE5600 3 With the door in the raised position gently position the screwdriver at the slot in the end of the fuseholder and gently lever to raise the fuseholder and remove it from the housing Replacing the fuses The fuseholder is equipped with two identical fuses WARNING Replace both fuses at the same time with correct type and rating as indicated on the rear of the ISOBE5600r ISOBE5600m receiver box or ISOBE5600tm and in this manual I2711 3 0 en I D lt I2711 3 0 en 4 4 2 ISOBE5600 Figure 4 7 Fuseholder shown with 5x20 mm fuse To replace the fuses proceed as follows 1 Remove the fuses from their fixture and insert new fuses 2 When done re insert the fuseholder and close the fuse door Changing the voltage selection for ISOBE5600tm To change the voltage selection do the following Turn the fuseholder Re insert the fuseholder and close the fuse door 3 The correct voltage must now be visible from the outside of the power entry housing N Re insertion of the fuseholder should go smoothly Do not use excessive force Verify proper placement of fuses as well as the position of the unit if it won t snap into place easily Battery re placement for ISOBE5600t Before you can use the transmitter a battery module must be installed When a battery is low and needs to be charged it must be removed WARNIN
35. ation about the EC Declaration refer to www hbm com highspeed I2711 3 0 en HBM ISOBE5600 2 About this Manual 2 1 Symbols used in this manual The following symbols are used throughout this manual to indicate warnings and cautions WARNING Indicates a potentially hazardous situation which if not avoided could result in death or serious injury WARNING Indicates an electrical shock hazard which if not avoided could result in death or serious injury WARNING Indicates a risk of fire which if not avoided could result in death or serious injury CAUTION Indicates a potentially hazardous situation which if not avoided could result in minor or moderate injury or alerts against unsafe practices or alerts against actions which could damage the product or result in a loss of data CAUTION The ESD susceptibility symbol indicates that handling or use of an item may result in damage from ESD if proper precautions are not taken I2711 3 0 en 33 I D S 34 ISOBE5600 HINT TIP The info icon indicates sections which provide additional information about the product This information is not essential for correct operation of the instrument but provides knowledge to make better use of the instrument I2711 3 0 en HBM 3 Introduction 3 1 I2711 3 0 en ISOBE5600 Introduction the ISOBE5600 Welcome You have made the right choice the ISOBE5600 is the third generation of
36. can be impaired WARNING This instrument must not be operated in explosive atmospheres WARNING This instrument and related accessories are not designed for biomedical experimentation on humans and should not be directly connected to human subjects or used for patient monitoring I2711 3 0 en I D lt I2711 3 0 en 1 3 ISOBE5600 Power and frequency requirements The ISOBE5600t transmitter is battery powered Refer to the various sections in this document on batteries their usage storage charging and power management for more information The ISOBE5600t transmitter uses up to 12 VA The ISOBE5600tm uses up to 12 VA and operates from line voltages of 115 Vac or 230 Vac at 47 63 Hz The power connection of the ISOBE5600tm is via a standard IEC 320 EN 60320 C14 male appliance inlet 2 pole 3 wire designed for 250 V 10A Access to the AC supply fuse s and voltage selector can only be made if the AC supply connector is removed Two 250 mA fuses must always be used Refer to Fuse requirements and protection on page 13 for details To disconnect the instrument from the AC supply unplug the IEC connector on the rear of the instrument The instrument should be positioned to allow access to the AC connector The front power switch on the instrument is not a disconnecting device When the instrument is connected some power will be consumed The ISOBE5600r ISOBE5600m receiver uses up to 40 VA and operates f
37. cations 80 Trouble shooting Unit does not Start aaneen 111 U UNDACKINO WEE 41 W Waste Equipment nennen eneen 20 113 114 I2711 3 0 en Head Office HBM Im Tiefen See 45 64293 Darmstadt Germany Tel 49 6151 8030 Email info hbm com France HBM France SAS 46 rue du Champoreux BP76 91542 Mennecy Cedex T l 33 0 1 69 90 63 70 Fax 33 0 1 69 90 63 80 Email info fr hbm com Germany HBM Sales Office Carl Zeiss Ring 11 13 85737 Ismaning Tel 49 89 92 33 33 0 Email info hbm com UK HBM United Kingdom 1 Churchill Court 58 Station Road North Harrow Middlesex HA2 7SA Tel 44 0 208 515 6100 Email info uk hbm com USA HBM Inc 19 Bartlett Street Marlborough MA 01752 USA Tel 1 800 578 4260 Email info usa hbm com PR China HBM Sales Office Room 2912 Jing Guang Centre Beijing China 100020 Tel 86 10 6597 4006 Email homchina hbm com cn Hottinger Baldwin Messtechnik GmbH All rights reserved All details describe our products in general form only They are not to be understood as express warranty and do not constitute any liability whatsoever measure and predict with confidence I S 12711 3 0 en
38. ch B Power inlet A Power switch The switch turns on or off the mains supply to the receiver B Power inlet The power connection of the receiver is via a standard IEC 320 EN 60320 C14 male appliance inlet 2 pole 3 wire designed for 250 V at 10 A The receiver is delivered with a standard power cord that should be inserted into B see Figure 4 3 and must be connected to a suitable AC power outlet According to the standards utilized in your country you may be required to purchase a different power cord I2711 3 0 en I S I2711 3 0 en 4 3 3 ISOBE5600 To disconnect the instrument from the AC supply unplug the IEC connector on the rear of the instrument The instrument should be positioned to allow access to the AC connector ISOBE5600tm power connector The AC power inlet of the ISOBE5600tm is located on the rear of the front end cabinet Figure 4 4 ISOBE5600tm rear view with AC power inlet A Power inlet The power connection of the ISOBE5600tm is via a standard IEC 320 EN 60320 C14 male appliance inlet 2 pole 3 wire designed for 250 V 10A The ISOBE5600tm is delivered with a standard power cord that should be inserted into this socket and must be connected to a suitable AC power outlet According to the standards utilized in your country you may be required to purchase a different power cord To disconnect the instrument from the AC supply unplug the IEC connector on the rear of the instrument
39. cope e Write down peak peak value V meas e Check if bandwidth is within specification using the formula Veer Vmeas 2 0 707 VREF If the equation is correct bandwidth spec is met e Repeat steps for every span At high input voltage ranges the Fluke 5820A will not be able to reach 90 of the input span Lower voltages are acceptable and will not affect calculations Use 5 5 Vpp for ranges of 10 V and above 105 I D S 106 ISOBE5600 AC Source Span Set Voltage Table 3 Wideband bandwidth checklist ISOBE5600 I2711 3 0 en I D lt I2711 3 0 en E 6 Note ISOBE5600 Analog Filter Bandwith Verification Verification is carried out according to the following steps e Set coupling filter to DC_F e Select input span to be tested e Set AC source to LEVEL SINE 50 kHz 90 of selected input span e Read back peak peak value on oscilloscope e Write down peak peak value Vper e Set Fluke 5820A to LEVEL SINE 9 MHz 90 of selected input span e Read back peak peak value on oscilloscope e Write down peak peak value V meas Io e Set Fluke 5820A to LEVEL SINE 11 MHz 90 of selected input span e Read back peak peak value on oscilloscope e Write down peak peak value V meas ni e Check if bandwidth is within specification using the formula F led ai 5 f Vises lo gt 0 707 ki REF gt meas hi If the equation is correct filter cutoff frequenc
40. d additionally in the UK a fuse should be fitted in the line supply plug The fuse must be a 5 x 20 mm slow blow T fuse with a rating of 1 A WARNING ELECTRICAL SHOCK HAZARD Any interruption of the protective conductor inside or outside the apparatus is likely to make the apparatus dangerous Intentional interruption is prohibited When the apparatus is connected to its supply terminals may be live and the opening of covers for removal of parts is likely to expose live parts Whenever it is likely that the protection has been impaired the apparatus shall be made inoperative and be secured against any unintended operation The protection is likely to be impaired if for example the apparatus shows visible damage or has been subjected to severe transport stresses It is the responsibility of the user to ensure the safety of any accessories such as probes used with the equipment WARNING ELECTRICAL SHOCK HAZARD Do not remove covers Refer servicing to qualified individuals Proper use of the equipment depends on careful reading of all instructions and labels ISOBE5600 I D S If the equipment is used in a manner not specified by HBM the protection provided by the equipment can be impaired WARNING This equipment must not be operated in explosive atmospheres WARNING This equipment and related accessories are not designed for biomedical experimentation on humans and should not be directly conn
41. d I O connectors and indicators A Removable batteries B1 LED battery status indicators B2 LED power status indicator C Standby ON OFF switch Isolated signal input BNC connector LI E Fiber optic connector A Removable batteries For more details refer to Battery re placement for ISOBE5600t on page 51 B1 LED Power status indicator This indicator shows the power status of the ISOBE5600tm e When OFF system is switched off e When ON GREEN system is active and working from the mains power supply e When ON RED system is active and running on internal batteries I2711 3 0 en I D lt I2711 3 0 en Note ISOBE5600 When the LED is GREEN and BLINKING the system is in use but there is no valid communication between the front end and the Receiver e g the cable is not connected B2 LED battery status indicators This indicator shows the power status of the ISOBE5600t There are two LED indicators one for each battery The LEDs can have one of the following states OFF System is switched off or battery is not installed FLASHING Battery is not in use ON Battery is in use GREEN Battery capacity is high ORANGE Battery capacity is medium RED Battery capacity is low Battery should be charged or replaced with a fully loaded one Any combination of ON FLASHING and GREEN ORANGE RED is possible e g an orange flashing LED indicates that the corresponding battery is not in use and has a m
42. discharge itself over time e Use only HBM approved batteries and recharge your batteries only with HBM approved chargers When a charger is not in use disconnect it from the power source Do not leave a battery connected to a charger for more than a week since overcharging may shorten its life e Extreme temperatures will affect the charging capacity of the battery it may require cooling or warming first e Remove the batteries before charging e Do not leave the batteries in hot or cold places as you will reduce the capacity and lifetime of the batteries Always try to keep batteries at room temperature A transmitter with hot or cold batteries may temporarily not work even if the batteries are fully charged e Standard Li ion batteries cannot be charged below 0 C 32 F Although the packs appear to be charging normally they will be damaged If done repeatedly such damage can compromise the safety of the pack The battery will become more vulnerable to failure if subjected to impact crush or high rate charging e Do not short circuit the battery Accidental short circuit can occur when a metallic object causes a direct connection between the plus and minus terminals of the battery for example when you carry a spare battery in a pocket or bag Short circuiting the terminals may damage the battery or the object causing the short circuiting e Dispose of used batteries in accordance with local chemical waste regulations only
43. e battery more often except before a long storage There is no concern of memory when applying unscheduled charges the Li ion battery does not suffer from the memory effect at all Li ion batteries should be kept cool Ideally they are stored in a refrigerator Aging will take its toll much faster at high temperatures The high temperatures found in cars cause Li lon batteries to degrade rapidly However never freeze a battery When using a notebook computer or any other device with Li lon batteries running from fixed line power over extended periods the battery can be removed and stored in a cool place so that it is not affected by the heat produced by the device Storage temperature and charge Store the battery at a 40 charge level Never fully charge or discharge the battery before storage The 40 charge assures a stable condition even if self discharge robs some of the battery s energy Storing a Li lon battery at the correct temperature and charge makes all the difference in maintaining its storage capacity The following table shows the amount of permanent capacity loss that will occur after storage at a given charge level and temperature Storage Temperature 40 Charge 100 Charge Permanent Capacity Loss versus Storage Conditions 0 C 32 F 2 loss after 1 year 6 loss after 1 year 25 C 77 F 4 loss after 1 year 20 loss after 1 year 40 C 104 F 15 loss after 1 year 35 loss after 1 year
44. ected to human subjects or used for patient monitoring 14 12711 3 0 en HBM ISOBE5600 1 5 Overvoltage and current protection isolation All signal inputs are protected against overloads of 250 Vpk 125 Vpk for lower ranges see specifications continuously and 800 V transient impulse spark over voltage Exceeding these limits particularly when connected to potentially high current sources can cause severe damage that is not covered by the manufacturer s warranty In addition the ISOBE5600t transmitter inputs have an isolation of 500 Vpk Creepage and clearance distances within this instrument are tested for the complete range of 500 250 Vpk WARNING For connection of a signal to the isolated BNC input of the ISOBE5600t ISOBE5600tm transmitter use isolated BNC connectors only The ISOBE5600t ISOBE5600tm transmitter is designed to be used in combination with the ISOBE5600r ISOBE5600m receiver The fiber optic cables determine the maximum clearance distance and creepage distance between the Isolated Digitizer and the acquisition system WARNING The minimum clearance and creepage distance depends on the position of the ISOBE5600t ISOBE5600tm transmitter and the ISOBE5600r ISOBE5600m receiver A safety factor of at least twice of the creepage and clearance distance is required I2711 3 0 en 15 I D S 1 6 Note ISOBE5600 Environment The instrument should be operated in a clean dry environment with
45. edium capacity When both LEDs light up GREEN and FLASHING the system is in use but there is no valid communication between the front end and the ISOBE5600r ISOBE5600m receiver for example the cable is not connected C Power ON OFF switch Use this switch to toggle between the operating and power off mode When in power off mode all electronics are disconnected from the power except for a small circuit used to detect the switch state When the unit is switched to operating mode and no fiber optic cables are connected then the unit is in stand by mode and power consumption is reduced to approximately 25 of normal operation D Isolated signal input BNC connector E Fiber optic connector This connector is used in combination with a fiber optic plug connector LC As seen from the front the left most fiber optic link transmits the data Data Output and the right most fiber optic link receives the commands Command Input Both transmitter and receiver units are equipped with an LC duplex connector 43 I D S 44 4 3 2 ISOBE5600 Figure 4 2 Example of an LC duplex connector The fiber optic link is used to transfer digitized data from the front end to the receiver unit and to transfer control commands from the receiver unit to the front end ISOBE5600r ISOBE5600m receiver The AC power inlet is located on the rear of the receiver unit Figure 4 3 ISOBE5600r ISOBE5600m rear view with AC power inlet A Power swit
46. equired for later calculations Vree For the wideband verification the signal frequency is set to F_34g The peak peak value of the result is compared to the specification For the verification with the Filter ON the signal frequency is set to two values below above the specified cutoff frequency The peak peak values of the results are compared to the specification Note on verification with Filter ON e The nominal bandwidth of the switchable input signal filter is 10 MHz e The accuracy of this cutoff frequency is 10 e This cutoff frequency however cannot be measured seperately As this additional filter is always used together with the system bandwidth of 20 MHz just another filter both filters work together and superimpose As a 20 MHz input bandwidth will already expose a small effect on a 10 MHZ signal the actual 3 dB point of the system will be lower than the nominal 3 dB point of the 10 MHz filter alone I2711 3 0 en I S I2711 3 0 en E S Note ISOBE5600 Bandwith Verification Wideband Verification is carried out done according to the following steps e Set coupling filter to DC_W e Select input span to be tested e Set AC source to LEVEL SINE 50 kHz 90 of selected input span e Read back peak peak value on oscilloscope e Write down peak peak value Vper e Set Fluke 5820A to LEVEL SINE 20 MHz 90 of selected input span e Read back peak peak value on oscillos
47. es including firmware version and warnings that occurred Any message can be discarded by pressing the knob briefly this will return the display to the settings menu Firmware version The current firmware version number on the receiver is displayed the first 3 seconds after the receiver unit is turned on Figure 5 9 ISOBE5600r ISOBE5600m receiver Firmware version A Firmware version number Warnings A number of warning messages can be shown on the display informing the user of issues that occur on the front end transmitter or the receiver With every warning an audio alarm is activated The alarm is de activated when the warning is acknowledged I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 Figure 5 10 ISOBE5600r ISOBE5600m receiver Warning message A Warning message e g BATT LO CH1 Warning TEMP HI CH1 TEMP HI CH2 TEMP HI CH3 TEMP HI CH4 BATT LO CH1 BATT LO CH2 BATT LO CH3 Internal temperature of Warning only once when transmitter 1 too high crossing limit channel will be turned off by Re ceiver for five minutes Internal temperature of Warning only once when transmitter 2 too high crossing limit channel will be turned off by Re ceiver for five minutes Internal temperature of Warning only once when transmitter 3 too high crossing limit channel will be turned off by Re ceiver for five minutes Internal temperature of Warning only once when transmitter 4 too hi
48. ft How far will you have to carry the load Is the path clear of clutter cords slippery areas overhangs stairs curbs or uneven surfaces Will you encounter closed doors that need to be opened Once the load is lifted will it block your view Can the load be broken down into smaller parts Should you wear gloves to get a better grip and protect your hands Contact the Occupational Health and Safety organization or equivalent in your country for more information The ISOBE5600t and ISOBE5600tm transmitter weigh approximately 4 kg maximum the ISOBE5600r and ISOBE5600m receiver approximately 1 5 kg 26 I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 International safety warnings Dansk SIKKERHEDSADVARSEL D kslerne m ikke fjernes Hvis netsikringen springer som f lge af en fejl er det muligt at instrumentets AC netafbryder er blevet beskadiget hvorfor den b r efterses af en kvalificeret tekniker Afbryd instrumentet fra lysnettet ved at fjerne IECstikket fra bagpanelet Dette instruments AC netafbryder er kun beregnet til funktionelle form l Den er hverken beregnet til eller egnet til afbrydelse af lysnettet Nederlands VEILIGHEIDSWAARSCHUWING De deksels nooit verwijderen Als de zekering doorbrandt als gevolg van een storing of een defect dan is het mogelijk dat de wisselstroom voedingsschakelaar van het instrument beschadigd is Die schakelaar moet worden gecontroleerd door een desk
49. gh crossing limit channel will be turned off by Re ceiver for five minutes Battery capacity of chan Warning only once when nel 1 transmitter low crossing limit Consider battery replace ment Battery capacity of chan Warning only once when nel 2 transmitter low crossing limit Consider battery replace ment Battery capacity of chan Warning only oncewhen nel 3 transmitter low crossing limit Consider battery replace ment 65 I lt 66 5 4 3 ISOBE5600 BATT LO CH4 Battery capacity of chan Warning only once when nel 4 transmitter low crossing limit Consider battery replace ment HIGH INTERN TEMP Internal temperature of Warning persists warn receiver too high ing reoccurs every five minutes FAN FAILURE Receiver cooling fan mal Warning persists warn function ing reoccurs every five minutes MEMORY FAILURE Receiver memory has Warning persists warn failed to initialize ing reoccurs every five minutes A note on temperature warnings Within the front end a temperature sensor is mounted to observe the internal instrument temperature When the temperature inside the unit goes above 65 C the LED on the front panel of the receiver turns red Refer to Receiver connectors and indicators on page 46 for more information When the internal temperature raises above 75 C a warning is shown on the receiver display and the front end unit shuts down after one minute of overheati
50. hange without notice in order to improve design and or performance characteristics 19 I D S 80 A 2 ISOBE5600 Transmitter gt 5 O GC E G dl D O E O 5 Unit Description Per front end 1 Input type Single ended to isolated common unbalanced differential Component Channels Coupling AC DC GND AC coupling 1 6 Hz Fully isolated BNC Full scale in 1 2 5 steps 100 mV to 50 V 1 MQ 4 2 38 pF 5 Bandwidth 3 dB 25 MHz CMRR 80 Hz 100 dB SE Maximum static error 0 1 FS 50 HV RTI 0 1 FS 50 pV RTI 0 05 FS 0 1 mV RTI Within 10 of full scale TWithin MSE specification Protected for ranges lt 2 V Protected for ranges gt 2 V Low pass at 10 MHz Connector Ranges Impedance lt Offset error Noise RMS Bias current Rise time Recovery time Isolation Overload gt D CT D O Cp zh D Notes 1 Measured with a 1 kHz square wave signal at an input range of 1 V wideband I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 Power requirement ISOBE5600t Component Unit Description Value 1x removable rechargeable Li ion 11 1V 2nd battery optional 6600 mAh Operation Time 1 battery External charger not included 12 6 V DC 2 5 to 4 25 C 77 F Power requirement ISOBE5600tm Unit Description Value t Descr Power supply 12 VA maximum Isolated up to 10 kV 115
51. haracters will blink 59 I lt 60 ISOBE5600 Figure 5 5 ISOBE5600r ISOBE5600m receiver Blinking setting A Selected value will blink The setting can now be edited by rotating the rotary knob clockwise or counter clockwise until the desired value is reached A Figure 5 6 ISOBE5600r ISOBE5600m receiver New setting A New setting e g 40 V When you do not use the knob in edit mode for more than half a second the current setting will be applied The system remains in edit mode Press the rotary knob briefly again to apply the selected setting and leave the edit mode When no activity has been detected for five seconds the system will automatically apply the currently visible setting and return to navigation mode I2711 3 0 en I D lt I2711 3 0 en 5 3 5 3 1 ISOBE5600 Settings Available settings can be divided into range coupling and filter settings In the top line on the display the range settings can be seen in the bottom line coupling and filter settings are combined Figure 5 7 ISOBE5600r and ISOBE5600m receiver settings range coupling and filter A Value for range B Option for coupling C Option for filter Ranges The ISOBE5600r and ISOBE5600m have nine voltage ranges to select from see the following table in column Input Range set on Front end Input Range set Output in 1 MQ Gain attenuation on Front end Selected Span in Menu 0 2V 0 4V 1V 2V 4V 10 V 20 V
52. i Racordr9013 p AOQUIUDON Res D resero sbupuosay Senay hae ed aen jes Page 1 E o gt Haim NM Ke 8 487635 ms AX 8 487635 ms Figure 6 5 Perception work area with recordings You are now set up and ready to record your data In Figure 6 5 there is noise present on one of the channels The noise is present due to an inactive cable being plugged in which acts as an antenna for background noise I2711 3 0 en 69 HBM ISOBE5600 7 Technical Reference 7 1 Introduction This section contains additional technical information pertinent to the ISOBE5600 and its usage 7 1 1 Battery charging Design and construction of the transmitter battery combination are such as to provide for a 12 hour continuous operation 24 hours with optional secondary battery 7 1 2 ISOBE5600tm The internal battery of the ISOBE5600tm is automatically recharged when the front end is connected to the mains also when the system is in operation 11 3 ISOBE5600t To recharge the batteries of the transmitter you need a suitable charger HBM provides chargers that are targeted towards the delivered batteries Figure 7 1 Example of a battery charger To re charge a battery proceed as follows 1 Remove all cables from the ISOBE5600t transmitter 2 Remove the battery as described in Battery re placement for ISOBE5600t on page 51 70 I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 3 Place the battery or batterie
53. ingenigr Skal instrumentet koples fra vekselstromtilforselen kopler man ut IECkoplingen bak p panelet Vekselstrombryteren p dette instrumente tjener kun en funksjonell hensikt Den er ikke egnet og m ikke brukes som skillebryter ER Portugu s AVISO DE SEGURANCA Nao retire o inv lucro capas Se o fus vel suplementar queimar por causa de erro possivel que o interruptor da fonte AC do aparelho esteja com defeito e deveria ser checado por pessoa autorizada Para desconectar este aparelho da fonte AC retire o conector IEC do painel trazeiro Neste aparelho o interruptor da fonte AC existe s mente por raz es funcionais Nao deve ser usado e nem apropriado como dispositivo de desconexao 29 I D S 30 ISOBE5600 l Espa ol ADVERTENCIA SOBRE SEGURIDAD No quite las tapas Si se fundiera el fusible de alimentaci n como consecuencia de una aver a cabe la posibilidad de que el interruptor de encendido del equipo est da ado y sea necesario comprobarlo por personal t cnico especializado y autorizado al efecto Para desconectar este instrumento de la red desenchufe el conector IEC del panel trasero El interruptor de entrada de CA encendido se incluye solo para fines funcionales No est pensado para utilizarse como medio de desconexi n ni tampoco es adecuado para ello Svenska S KERHETSVARNING Tag ej bort skydden Om matars kringen sm lter p grund av ett fel r det m jligt att
54. ions if this equipment does cause minor harmful interference to other equipment which can be determined by turning this equipment off and on the user is encouraged to try to reduce the interference by one or more of the following measures Re orient or relocate the affected equipment Increase the distance between the equipment and the affected equipment Re orient or relocate interface cables Connect the receiver to an outlet on a different supply circuit than the affected equipment Supply cables interface cables and probes should be kept as short as practical preferably a maximum of 1 m Interface cables should be screened and interface cables longer than 3 m are not acceptable in terms of interference port immunity 21 I D S 22 ISOBE5600 Electro Static Discharge ESD Electrostatic discharge ESD can cause damage to electronic devices if discharged into the device so you should take steps to avoid such an occurrence CAUTION HBM uses state of the art electronic components in its equipment These electronic components can be damaged by discharge of static electricity ESD ESD damage is quite easy to induce often hard to detect and always costly Therefore we must emphasize the importance of ESD preventions when handling an ISOBE5600 system or its connections Description of ESD Static electricity is an electrical charge caused by the build up of excess electrons on the surface of a material To mo
55. ions are given as non operational 2 When moving the device from a cold to a warm environment the device has to be left turned off for a period of 30 minutes to avoid short circuits by condensation 86 I2711 3 0 en HBM B Probes I2711 3 0 en B 1 ISOBE5600 General A probe makes a physical and electrical connection between a test point or signal source and the instrument Depending on your measurement needs this connection can be made with something as simple as a length of wire or with something as sophisticated as an active differential probe For the purpose of this document we only describe attenuating probes within two categories e 1X Probes e 10X Probes 87 I lt 88 B 2 ISOBE5600 1X Probes Also known as 1 1 one to one probes simply connect the input of the instrument to the circuit being measured They are designed for minimum loss and easy connection but otherwise they are equivalent to using a cable to connect the instrument Figure B 1 shows the circuit diagram for an instrument input connected to a circuit under test The circuit under test is modelled as a voltage source with a series resistor The 1X probe or cable will introduce a significant amount of capacitance that appears in parallel with the input of the instrument A 1X probe may have around 40 to 60 pF of capacitance Circuit under test ISOBE5600t input Figure B 1 Input connected using a 1X probe The impedance ofthe c
56. ircuit and the input impedance of the instrument together produce a low pass filter For very low frequencies the capacitor acts as an open circuit and has little or no effect on the measurement For high frequencies the capacitor s impedance becomes significant and loads down the voltage seen by the instrument Figure B 2 shows this effect in the frequency domain If the input is a sine wave the amplitude tends to decrease with increasing frequency and the phase is shifted I2711 3 0 en I S I2711 3 0 en ISOBE5600 f 3dB Frequency Figure B 2 Frequency response with 1X probe Example assume a voltage source with a 1 MQ resistance and a 1X probe with 50 pF capacitance a 1X probe by itself has no resistance The ISOBE5600 input has a 1 MQ resistance and an approximately 38 pF capacitance This yields a 30B point at 7 E f 3 db 2m R Rin Cin Corobe 1 6 28 x 500 E 3 x 88 E 12 3 6 kHz The loading due to the input impedance of the instrument and the probe capacitance is twofold resistive loading and capacitive loading The resistive loading actually reduces the voltage delivered to the instrument 7 Rin Vin Vs x Sg e The effect of the capacitive loading is more complex and results in an exponential response in the voltage Va t Vyax 1 e t RsCin probe 89 I lt 90 B 3 ISOBE5600 10X Probes Also called 10 1 probes divider probes or attenuating probes
57. larger errors the acceptance boundaries may have to be adjusted if other equipment is used In this case check the accuracy of the equipment you want to use against the equipment recommended by HBM Consultwww hbm com highspeed for more information Calibration If any test indicates that ISOBE5600 is out of specification the unit has to be sent back for calibration IMPORTANT There is no way to MANUALLY calibrate ISOBE5600 Automated calibration verification software is also available as an option for the ISOBE5600 system ISOBE5600 is a combination of one or up to four transmitter s and a single receiver Due to the internal digital structure of the system any transmitter can be connected to any input channel of the receiver unit The calibration and the overall errors ARE NOT influenced by doing so I2711 3 0 en I D lt I2711 3 0 en E 2 ISOBE5600 DC Accuracy Test Required equipment e DC source recommended Fluke 5700A e Digital Voltmeter DVM recommended Hewlett Packard HP 3458A Hardware setup e Connect the DC source to the input on the ISOBE5600t ISOBE5600tm transmitter under test e Connect the DVM to the output of the channel under test on the ISOBE5600r ISOBE5600m receiver Procedure DC Gain will be determined in every range at 45 and 45 of the set span The results measured will be compared to the MSE Maximum Static Error specification MSE 0 3 FS mpu 50u VRTI Analog in
58. le 5 ns length Notes 1 See Bandwidth plot on page 76 Fiber optic link Cable type Cable ype Mutimoge bag 15 ISOBE5600 I D lt Bandwidth plot e Wideband li 10MHz Bessel ON d di BS di an LC ab vk on L 10 00 wi 00 0 TOPI D i ei PD d PN LI d e PPP WP OD E Figure A 1 Bandwidth plot in 0 4 V range 0 4V detail Wideband ec 10MHz Bessel 5 a Ke a O da A My D O 3 D D gt O Ke dr al S SS Figure A 2 Bandwidth plot in 0 4 V range detail 76 I2711 3 0 en ISOBE5600 I D lt Wideband zl 10MHz Bessel D NN QO amp d SNS BW 0 ab WV oan CO 0 LO VD 10 00 0 S Vv Figure A 3 Bandwidth plot in 4 V range 4V detail Wideband sl 10MHz Bessel Figure A 4 Bandwidth plot in 4 V range detail I2711 3 0 en TT ISOBE5600 I D S Wideband 10MHz Bessel Figure A 5 Bandwidth plot in 40 V range 40V detail e Wideband H 10MHz Bessel O N O Kc N b N O da y gt O ok wo S d di e SF Figure Ap Bandwidth plot in 40 V range detail Consult www hbm com highspeed for more information 78 I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 All specifications are typical at 25 C 77 F unless otherwise stated and subject to c
59. ments Typical shunt measurements generate signals with an amplitude of only a few volts To prevent interference from higher voltage signals up to 100 V the following guidelines apply e Use only coaxial cables for all measurements e f possible place the ISOBE5600t transmitter as close as possible to the test object to reduce the length of the coax cable e Physically separate low voltage signal lines and high voltage signal lines as much as possible Do not combine them When the high voltage signals include high frequency transients these will easily cross over to the low voltage signals CAUTION Keep in mind that very strong magnetic fields can influence the amplifier setting relays Note that the ISOBE5600t transmitter has a relatively high bandwidth of 25 MHz As a result of this high bandwidth you may see high frequency transients that you have never seen before Use the filter to reduce the bandwidth to a physicaly relevant value I2711 3 0 en HBM ISOBE5600 A Specifications I2711 3 0 en A 1 Overall system specifications Analog In to Analog Out The ISOBE5600 has the following overall Analog In to Analog Out specifications Bandwidth fae flatness Miz 10 MHz wideband r aB 211 50 pV RTI 50 pV RTI Noise RMS 8 FS 0 1mV RTI SS Non linearity 0 05 Propagation delay Delay from input to output with 1 meter 650 ns 50 ns of optical cable Per added meter for additional cab
60. mer pays for shipping to HBM HBM will pay for the return of the equipment in the same fashion as it was received Outside the warranty period a quote will be given A purchase order must be received before work can be performed It is recommended that the unit always be shipped in the original shipping container 95 I D S 96 D 2 ISOBE5600 Calibration verification The ISOBE5600 is factory calibrated as delivered to the customer The ISOBE5600t ISOBE5600tm transmitter and ISOBE5600r ISOBE5600m receiver are calibrated independently Therefore a combination of any given transmitter and receiver will give the overall specifications Analog In to Analog Out The ISOBE5600 system should be verified and if necessary calibrated at one year intervals or after any major event that may effect calibration When in doubt consult your local supplier I2711 3 0 en HBM ISOBE5600 E Manual Verification I2711 3 0 en E 1 Introduction This section describes procedures to manually verify the performance of your ISOBE5600 transmitters and to verify if it still complies with published specifications Please note that HBM offers a full verification and calibration service for ISOBE5600 HBM also offers a calibration verification kit consisting of software and hardware for this product However if the user wants to do a manual verification himself this is the procedure Also note that the procedures described here are NO
61. need to be backscaled to the input RTI referred to input Specified noise limits for the ISOBE5600 output therefore are ru SPAN Output uu 0 07 Pre Noise Limit nn x Span Input X TOO 100 x 10 Verification is carried out according to the following steps e Set coupling filter to DC_W e Select input span to be tested e Read back AC RMS voltage value on DVM e Repeat steps for every span to be tested e Set coupling filter type to DC_F 109 ISOBE5600 I D S e Repeat steps for every span to be tested ISOBE5600 DVM Expected Pass Fail Span Reading Max Noise Table 5 Noise test checklist 110 I2711 3 0 en HBM ISOBE5600 F Trouble Shooting I2711 3 0 en F 1 Unit does not start after firmware upgrade Symptoms Solution No text on display of re The ISOBE5600 has a Minimum Mode firmware that ceiver but backlight is can be used when the upgrading process has failed on transmitter does not and the previous firmware version does not boot The connect to receiver Minimum Mode firmware can be activated by turning unit all LED indicators jon the receiver unit while holding down keeping press are Off ed the rotary knob for 2 to 3 seconds This boot mode can only be used to reinstall the firmware update load er It does not support other functionality 111 HBM Index B DANS ee 18 Og WE 70 Replacement i 51 Storage temperature and charge
62. ng After a thermal shutdown the unit will restart automatically after approximately 5 minutes Ambient room temperature is typically 20 C less than the internal temperature The warning for the receiver unit comes up also at 75 C I2711 3 0 en HBM ISOBE5600 6 Using the ISOBE5600m recorder 6 1 Introduction The ISOBE5600m can be used as a stand alone measuring device or as a transient recorder when controlled by Perception To use the ISOBE5600m as a data recorder plug in the USB cable connector from the ISOBE5600m to a computer 6 1 1 Getting started The first time you plug in the ISOBE5600m your computer should attempt to install the correct drivers which will already be installed with Perception you may need the Perception CD if your computer cannot find the drivers Would you like to install this device software Name HBM Netherlands BV Publisher HEM Netherlands B V Always trust software from HBM Netherlands Install Don t Install BV E You should only install driver software from publishers you trust How can decide which device software is safe to install Figure 6 1 ISOBE5600m Install drivers dialog Once Perception is running and the ISOBE5600 drivers are installed the new Hardware will appear in the Hardware list rij ISOBESSOOm_IFA12345 a S Figure 6 2 Hardware list Part 1 I2711 3 0 en 67 I lt 68 ISOBE5600 To connect to the ISOBE5600m double click on
63. ng a battery To renew a battery in the battery module do the following Remove the battery module from the cabinet and place it on a flat surface Remove the battery from the battery holder N e Gently bend down the strip that locks the battery into position until the battery is released e Pull the battery out of the holder 3 Place a new battery in the holder System connections Connect the transmitter and receiver by means of a fiber optic cable The fiber optic cable must be a dual core cable Both units have a dual LC connector Cables supplied by HBM are already correctly configured 53 I D S 54 4 4 4 ISOBE5600 Figure 4 10 Fiber optic cable with LC connector LC connector Insert the plug into the receiver Refer to Receiver connectors and indicators on page 46 for details Make sure the lock mechanism is positioned correctly You hear a click when the lock mechanism locks the cable To disconnect the LC connector push the lock mechanism and gently pull the connector out of the port on the receiver Do not use excessive force to pull out the plug When you are using your own fiber optic cables make sure that the COMMAND and DATA lines are connected correctly command out of the receiver to the command in of the transmitter data out of the transmitter to the data in of the receiver IN i ee 3 AR URTI YRS RTE ebzh CLASS 1 LASER PRODUCT A B Figure 4 11 Receiver connectors
64. now display a 2 V peak peak 50 Hz AC signal I2711 3 0 en HBM ISOBE5600 5 Using the Front Panel Controls I2711 3 0 en 5 1 Introduction Using the Front Panle Controls ISOBE5600 The ISOBE5600r ISOBE5600m receiver comes with firmware installed that allows you to set up the front end transmitter unit via the local display and rotary knob on the front panel of the receiver unit In addition to these controls the front panel contains the indicators for optical link status front end transmitter status recording and trigger indicators IN mm oa eee nua th Ei sl T CLASS 1 LASER PRODI CT Output Range A2 LME ar SOC B C D E F Figure 5 1 ISOBE5600r ISOBE5600m receiver O D ZE onmo Status LEDs Command output fiber optic and data input fiber optic ISOBE5600m Recording status and trigger status ISOBE5600r Only for service and calibration purposes Analog monitor output USB connector Rotary knob Display Channel position indication for display ISOBE5600m Trigger input ISOBE5600r Only for service and calibration purposes Refer to Receiver connectors and indicators on page 46 for more information 57 I S 58 5 2 Note 5 2 1 ISOBE5600 Using the displays controls The character display is used for front end transmitter settings and to display system alerts such as over temperature Settings can be made and viewed at any time during normal operation The rotary knob on
65. porarily permitted by regulation it has not been tested for compliance with the limits for Class A computing devices pursuant to Subpart B or Part 15 of FCC Rules which are designed to provide reasonable protection against such interference Operation of this equipment in a residential area is likely to cause interference in which case the user at his own expense will be required to take whatever measures may be required to correct the interference This manual contains information and warnings that must be observed to keep the instrument in a safe condition The equipment should not be switched on if it is damaged and it should not be used under wet conditions For the correct and safe use of this equipment it is essential that both operating and service personnel follow generally accepted safety procedures in addition to the safety precautions specified in this manual Whenever it is likely that safety protection has been impaired the equipment must be made inoperative and secured against any unintended operation Qualified maintenance or repair personnel should be informed Safety protection is likely to be impaired if for example the equipment shows visible damage or fails to operate normally This equipment must not be used in life support roles For protection against electric shock all external circuits or equipment shall have a safe insulation Therefore it is not permitted to connect peripheral equipment to the system with
66. ries on page 18 allow for continuous deployment while charging one set the unit operates on a spare set Standardized Lithium lon batteries are used to ensure proper operation in various environments The ISOBE5600m Memory module is based on the ISOBE5600r receiver however it also includes internal memory capabilities as standard This module is mains powered and has been designed to run as a stand alone recorder for single shot recordings providing a cost effective and portable solution to single shot recording requirements Functional description For each data channel the system has a front end the ISOBE5600t and tm transmitter a twin fiber optic link and a data channel receiver unit The data channel receiver unit can host up to 4 transmitter units ISOBE5600t ISOBES600r Fiber optic link SE eee e e eS e e Analog Output GEN series ISOBE5600tm ISOBE5600m or memory model only 3rd party recorder Figure 3 1 System block diagram I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 The front end comprises a high fidelity programmable amplifier with anti aliasing AA filter an A to D converter control logic fiber optic interfacing and a battery power management system For technical specifications refer to Overall system specifications Analog In to Analog Out on page 75 Programmable A to D Converter Parallel to Fiber optic amplifier Serial transmitter Fiber optic
67. rom line voltages from 90 Vac to 264 Vac at 47 63 Hz The power connection of the ISOBE5600r ISOBE5600m receiver is via a standard IEC 320 EN 60320 C14 male appliance inlet 2 pole 3 wire designed for 250 V at 10 A Access to the AC supply fuses can only be made if the AC supply connector is removed Two 1 A fuses must always be used Refer to Fuse requirements and protection on page 13 for details To disconnect the receiver from the AC supply put the switch in the O position or unplug the IEC connector on the rear of the receiver CAUTION Do not position the ISOBE5600r ISOBE5600m receiver so that it is difficult to remove the power input cable The ISOBE5600r ISOBE5600m receiver must be used with a ground connected via the conductor of the supply cable This is to ensure that all electromagnetic Compatibility EMC requirements are met I D S ISOBE5600 IMPORTANT The ISOBE5600r ISOBE5600m receiver is NOT connected to a protective ground I2711 3 0 en I D lt I2711 3 0 en 1 4 ISOBE5600 Fuse requirements and protection The ISOBE5600tm is equipped with a replaceable fuse The fuse arrangement stated here must be followed and additionally in the UK a fuse should be fitted in the line supply plug The fuse must be a 5 x 20 mm slow blow T fuse with a rating of 250 mA The ISOBE5600r ISOBE5600m receiver is equipped with a replaceable fuse The fuse arrangement stated here must be followed an
68. s in the charger e Refer to the documentation that came with your charger for additional information e Depending on the charger in use the complete battery module may not fit in the charger If so remove the battery pack from the battery holder as described 4 When the battery is fully loaded replace the battery as described Requirements Recharging the battery requires a typical charge current of 2 8 A 4 0 A maximum and a voltage of 12 6 Volts at 20 C When the battery is fully exhausted it will take 2 5 hours to reach the 100 capacity again at the typical charge rate In practice however the battery will not be fully exhausted reducing the recharge time Battery low vs recharge The battery low indication on the receiver front panel becomes active when the battery capacity has dropped to 1 Ah and stays active until the battery is depleted After this the front end will not function any more 71 I D S 72 7 2 ISOBE5600 Power management The following guidelines apply for optimum battery usage The most important thing to understand about Li ion batteries is that they are always losing a small amount of their charge The hotter the temperature the faster Li lon batteries lose their charge A Li ion battery typically provides 300 500 discharge charge cycles This battery type prefers a partial rather than a full discharge Frequent full discharges should be avoided when possible Instead charge th
69. s input capacitance Various probe manufacturers offer the possibility to purchase probes with other compensation ranges on request 91 HBM ISOBE5600 C Maintenance C 1 Cleaning To clean the instrument disconnect all power sources and wipe the surfaces lightly with a clean soft cloth dampened with water The ISOBE5600t ISOBE5600tm transmitter cabinet or the ISOBE5600r ISOBE5600m receivers do not require additional routine cleaning 92 I2711 3 0 en I S I2711 3 0 en C 2 ISOBE5600 Upgrading firmware Your instrument stores its operating instructions in an internal non volatile flash memory which you can easily upgrade as HBM adds new features and functions The process is comparable to upgrading the BIOS in your PC You may check HBM s website www hbm com highspeed for the latest versions or you may subscribe to an automatic maintenance service that will assure you always receive applicable upgrades Please contact your HBM representative for details on available subscriptions Upgrading the ISOBE5600 firmware requires an application that either came on a CD supplied with your hardware or that you downloaded through the Internet update service Run Setup to install this software To update the firmware proceed as follows Turn the ISOBE5600r ISOBE5600m receiver on Ensure your PC is connected correctly to the instrument by a USB cable 3 Make sure no other software is active on your PC before using the upgrade
70. st people static electricity and ESD are nothing more than annoyances For example after walking over a carpet while scuffing your feet building up electrons on your body you may get a shock the discharge event when you touch a metal doorknob This little shock discharges the built up static electricity ESD susceptible equipment Even a small amount of ESD can harm circuitry so when working with electronic devices take measures to help protect your electronic devices including your ISOBE5600 system from ESD harm Although HBM has built protections against ESD into its products ESD unfortunately exists and unless neutralized could build up to levels that could harm your equipment Any electronic device that contains an external entry point for plugging in anything from cables to acquisition cards is susceptible to entry of ESD Precautions against ESD Make sure to discharge any built up static electricity from yourself and your electronic devices before touching an electronic device before connecting one device to another or replacing acquisition cards You can do this in many ways including the following e Ground yourself by touching a metal surface that is at earth ground For example if your computer has a metal case and is plugged into a standard three prong grounded outlet touching the case should discharge the ESD on your body I2711 3 0 en I S I2711 3 0 en ISOBE5600 e Increase the relative humidity
71. status bar The receiver unit also shows a progress indicator WARNING DO NOT for any reason switch off your computer your instrument or close the upgrade program while an update is in process Your instrument could be DAMAGED PERMANENTLY and require factory repair if the upgrade is interrupted 11 When finished the message Ready appears at the bottom of the screen and the receiver unit will display 100 completed Click the Close button to exit 12 Your instrument must be powered down and restarted for the new firmware to take effect After rebooting the startup screen will display your new firmware version and the instrument is ready for use The upgrade is now completed 94 I2711 3 0 en HBM ISOBE5600 D Service Information I2711 3 0 en D 1 General HBM offers comprehensive factory servicing for all HBM Data Acquisition products Extended warranties for calibration repair or both are available Installation on site or factory training are also available Contact the factory or your local sales person for more information For local contact information visit www hbm com highspeed If servicing is ever needed on your ISOBE5600 contact the factory with the model and serial numbers a description of the problem and your contact information You will be issued a Return Material Authorization RMA number Attach this number to the unit and or the accompanying paperwork During the warranty period the custo
72. t entfernen Wenn die Sicherung der Versorgung infolge eines Defektes durchbrennt besteht die Moglichkeit einer Beschadigung des Wechselstromversorgungs Schalters des Gerates Der Schalter muss dann von einem qualifizierten Elektriker gepruft werden Zum Trennen des Gerates von der Wechselstromversorgung den IEC Stecker von der Ruckwand abziehen Der Wechselstromversorgungs Schalter dient bei diesem Gerat nur fur Funktionszwecke Er ist nicht als Trennvorrichtung bestimmt bzw geeignet P Italiano AVVISO DI SICUREZZA Non aprire lo strumento I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 Nel caso in cui il fusibile dell alimentazione dovesse scattare a causa di un guasto possibile che l interruttore dell alimentazione a corrente alternata dello strumento possa essere danneggiato e dovr pertanto essere controllato da un tecnico specializzato e qualificato Per disinnestare questo strumento dall alimentazione a corrente alternata levare il connettore IEC che si trova sul pannello posteriore L interruttore dell alimentazione a corrente alternata di questo strumento viene fornito esclusivamente per scopi operativi e non viene inteso n adatto per essere utilizzato come dispositivo di disinnesto BIE Norsk Li ADVARSEL Ikke fjern dekslene Hvis sikringen springer pa grunn av feil som oppstar er det mulig at instrumentets vekselstrgmbryter kan bli skadet den m derfor kontrolleres av en kvalifisert
73. the DVM with the applied input voltage using the following formula to correct the divider factor Error in DVM Reading x Span input Span output Set Input Voltage Span input I2711 3 0 en I D lt I2711 3 0 en ISOBE5600 To geta correct result the Set Input Voltage should be very close or equal the Span Input You might use the 90 45 values as in the verification process The computed error will then be slightly larger than the real error 101 ISOBE5600 I D S E 3 AC Coupling Test Required equipment e DC AC source recommended Fluke 5700A e Digital Voltmeter DVM recommended Hewlett Packard HP 3458A Hardware setup e Connect the DC AC source to the input on the ISOBE5600t ISOBE5600tm transmitter under test e Connect the DVM to the output of the channel under test on the ISOBE5600r ISOBE5600m receiver Procedure The AC coupling test determines how much DC signal and how much AC signal pass through the AC coupling This is calculated by determining the Standard Deviation in both cases Note As this is a Pass Fail test only the limit for the remaining AC Signal is set quite high to allow a Pass despite some noise which might be present but a Fail if no AC coupling was there Verification is carried out according to the following steps e Set coupling filter to DC_W e Set input span to 4 V e Set DC AC source to 1 Vpc e The DVM DC voltage measured should be about 1 Vpc
74. tion Functional description How to use this manual Technical support Installation and Operation Introduction Unpacking Unpacking and inspection Equipment checklist Connector locations Front end UO connectors ISOBE5600r ISOBE5600m receiver ISOBE5600tm power connector Receiver connectors and indicators Installation I2711 3 0 en ISOBE5600 Page 10 11 13 15 16 18 20 21 22 24 25 26 2 32 33 33 35 35 36 36 38 39 40 40 41 41 41 42 42 44 45 46 49 I D S 4 4 3 4 4 4 5 1 5 2 5 2 1 5 2 2 DS 5 3 1 5 3 2 oo Fo 5 4 5 4 1 5 4 2 5 4 3 6 1 6 1 1 7 1 7 1 1 7 1 2 7 1 3 7 2 7 3 A 1 A 2 A 3 Fuse replacement receiver and ISOBE5600tm Replacing the fuses Changing the voltage selection for ISOBE5600tm Battery re placement for ISOBE5600t Placing a battery module Battery module Renewing a battery System connections Initial check out Using the Front Panel Controls Introduction Using the Front Panle Controls ISOBE5600 Using the displays controls Navigating the display menu Changing transmitter settings Settings Ranges Coupling and filter Menu Structure Operating the ISOBE5600r and ISOBE5600m receiver menu Menu Messages ISOBE5600 Firmware version Warnings A note on temperature warnings Using the ISOBE5600m recorder Introduction Getting started Technical Reference Introduction Battery charging ISOBE5600tm ISOBE5600t Power management
75. tteries to avoid any coupling with the environment The ISOBE5600 eliminates the use of floating scopes protecting both operator and instrument even where high voltage and high EMI are involved The ISOBE5600 offers remote operation excellent signal fidelity and elimination of ground problems Features and advantages e Complete single channel isolated analog input to analog output system e Rugged enclosure for use in EMI hostile environments e Digital fiber optic data transmission for excellent DC stability e Wide dynamic range and unsurpassed dynamic accuracy 35 I lt 36 ISOBE5600 Configuration The ISOBE 5600 has two mechanical variants one for use in medium and one for use in high voltage environments The ISOBE5600tm Medium Voltage version is single layer shielded and uses AC power with an isolation voltage of 10 kV The m version of the transmitter can be used for isolated measurements up to 10 kV while being powered by AC power When higher isolation is required the tm version can be disconnected from the AC power and run from internal battery for 5 minutes When it is reconnected to AC power the internal battery will be recharged The ISOBE5600t High Voltage version is also single layer shielded and exclusively battery powered The removable batteries run for 24 hours with a software controlled sleep mode that extends the standby time significantly Hot swappable batteries not when acquiring data see Batte
76. undig technicus Als de IEC aansluiting op het achterpaneel uit het stopcontact wordt verwijderd zal het instrument niet langer zijn aangesloten op de wisselstroomvoeding De wisselstroom voedingsschakelaar op dit instrument is uitsluitend bestemd voor functionele doeleinden Die schakelaar mag nooit worden gebruikt om het instrument aan of af te zetten m Suomi TURVAOHJEITA l poista suojakansia Mik li laitteen verkkosulake palaa vian seurauksena on mahdollista ett laitteen verkkokytkin on vaurioitunut ja se tulee t ll in tarkastuttaa ammattihenkil ll 27 I D S 28 ISOBE5600 Erottaaksesi t m n laitteen k ytt j nnitteest irrota takapaneelissa oleva IEC liitin T m n laitteen verkkokytkimell on ainoastaan toiminnallinen tarkoitus Sit ei ole tarkoitettu eik se sovellu laitteen erottamiseen k ytt j nnitteest 8 Francais ATTENTION DANGER Ne pas d poser les panneaux de protection Le fait que le fusible d alimentation saute par suite d une anomalie risque de d t riorer l alimentation secteur de l instrument dans ce cas le faire contr ler par un technicien qualifi Pour couper l alimentation secteur de cet instrument d brancher le cordon secteur monte a l arri re L interrupteur d alimentation est purement secteur fonctionnel Il ne s agit pas d un dispositif de coupure du courant et n est pas congu pour cette fonction Deutsch WARNHINWEIS Die Schutzabdeckung nich
77. y specification is met e Repeat steps for every span At high input voltage ranges the Fluke 5820A will not be able to reach 90 of the input span Lower voltages are acceptable and will not affect calculations Use 5 5 Vpp for ranges gt 10 V ISOBE5600 AC Source DVM DVM DVM Pass Span Set Voltage Vineas io Vmeas ni VREF Fail 0 2 V 180 0 mV 0 4 V 360 0 mV 1V 900 0 mV 2V 1 80 V 4 V 3 60 V 107 ISOBE5600 I D S ISOBE5600 AC Source DVM DVM DVM Set Voltage V meas lo V meas hi VREF Table 4 Analog filter bandwidth checklist 108 I2711 3 0 en I D lt I2711 3 0 en E 7 ISOBE5600 Noise Test Required equipment e Digital Voltmeter DVM recommended Hewlett Packard HP 3458A e 50 Ohm termination plug Hardware setup e Terminate the input of the ISOBE5600t ISOBE5600tm transmitter channel under test with a 50 Ohm plug e Connect the DVM to the channel under test on the ISOBE5600r ISOBE5600m receiver with a coax cable and set to AC Voltage measure ment Procedure Noise will be determined in every range with the input terminated to 50 Ohm The results measured RMS will be compared to the Noise RMS specification Noise for ISOBE5600 is specified as follows Noiserms 0 07 FS mpu 0 1mVRTI Analog in to analog out The span from the ISOBE5600t transmitter input is always scaled to a 4 V span on the ISOBE5600r ISOBE5600m receiver output Therefore the measured results
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