ULS HF5-A User Manual
Contents
1. Network Enabler Administrator Configuration File Function Configuration View Help Uu 4 2 gt Configuration e F Information Auto Warning IP Address Report Password Digital ID Model Basic Network Serial Operating Mode Accessible IPs 41105 E MAC Address 4 E 00 90 6 05 33 04 Pot Alias OP Mode 1 Real COM Modi Serial Number ees 748 Firmware Ver Ver 1 6 BIOS Ver Ver 1 2 lt Settings Message No 1 2 Click the Modify check box to modify configuration DK x Cancel Nowv 08 03 2005 11 35 35 Figure 9 Operation mode Mode Choice e COM Mode further Settings Transparent line with up to 4 connections default e TCP Server Mode further Settings The module isthe serverand the connections are established by the client Computer e TCP Server Mode further Settings The module isthe client and establishesa connection to a server computer UDP Mode further Settings Improved TCP mode R Network Enabler Administrator Figure 10 Mode c hoice onfiguration File Function Confiauration View 2 Operating Mode e 1 Port s Selected 1st port is Port 1 Operating Mode Real COM Mode J Digital 10 TCP Server Mode Accessible IPs d RESTES TCP Client Mode UDP Mode Max Connection 2 E Miscellaneous Optional TCP Alive Check Timeout 7 0 99 min Data Packing Optional Delimiter 1 00 04 Delimiter 2 00 0 ft Hex E Force Tx Timeout 0 0 555352. after expert opinion has been sought Material and or labour costs arising asa result will not be charged All exchanged parts become the property of G A Conditions for labour rendered under warranty Instruments delivered must have been operated correctly unauthorised modifications or repairs must not have taken place and the benchtop instrument must not have been opened No warranty claim exists in the following cases Parts subject to normal wear Damage caused by incorrect maintenance fitting and addition of non approved parts and devices aswell asunauthorised modification of components Damage caused by electrolysis Damage caused by fire or accident incorrect usage misuse or negligence Damage rust comosion caused by the entry of water Explicit or tacit guarantees These guarantees confer special rights to you and you may also have other rights which differ from country to country or from province to province Where these guarantee claims apply all other explicit or tacit guarantees provided by G A automatically lose their validity incl all market access guarantees or guarantees of fitness for every specific purpose Conversely the guarantees thus arising are limited to the period of this warranty Neither sales partners nor traders are authorised to make any other assurances representation of facts or warranty offers than those contained in the warranty conditions Page 18 UttraLab ULS HF5 A User Manual G
3. 8 f A is installed Here 230 volt has to be connected with Furher a serial interface RS 232 cable can plugged in for digital data reading on any terminal program The digital data of all fourchannels will be exported via this socket Please note After switching on of the power supply it needs 20 seconds for initiation of the system After 10 seconds of intemal tests the system starts the count down from 10 for digital data output only Right after the initiation time the data telegram follows 3 2 Physical setup of the sensors Example from Figure 2 The expected wave or level fluctuations are around 600 mm The sensor s range varies from 200mm up to 1200mm below the sensors lower edge As environmental disturbances always increase with distance it should be attempted to bring the measuring range as close as possible to the sensor Therefore a measurement set up as shown in the lower figure would be ideal The window limits are at 200 mm and the measuring window away from the sensor at 1200 mm below the sensor edge This results in a measuring range of 1200 200 1000 mm the value representing the expected max wave amplitude The sensor s analogue output distributes the output voltage of 10V across the measuring range of 1000mm Page 9 UttraLab ULS HF5 A User Manual GENERRL ncausrics near zone max measuring window max wave amplitude Figure 2 Measuring setup Page 10 UttraLab ULS HF5 A U
4. UttraLab ULS HF5 A User Manual G 2 4 The principles of measuring distances by means of air ultrasound The UrmaLAB ULS HF5 A sends out an acoustic pulse via the ultrasound sensor The ultrasound pulse emitted is reflected on the measurement object and isreceived backasan echo A key aspect when it comes to measuring distances is the time required for the transmitted pulse to cover the distance to the respective measurement object and back This sound propagation time is measured by the UrmaLAB ULS HF5 A with high resolution The measured propagation times are averaged A tolerance band expectation range is set around the average propagation time Only measurement values that lie within the expectation range are admitted forfurther calculation of the measurement value The average value is modified according to changesin distance The measured distance is either converted to a voltage signal 0 10V proportional to the distance analogue output ordisplayed in a data telegramm via serial interface RS 232 digital output An USS13 HF sensor i e ULTRALAB ULS HF5 A system controller can be divided into three functional groups for purposes of illustration 1 The ultrasound converter 2 The evaluation unit 3 The output end stage The sound source piezo crystal is simulated to oscillate fora brief period This emits ultrasound waves 1 ultrasound converter 2 evaluation unit 3 output stage Wy fig zl i mE t
5. 0 89 0345 44 0932 77 343 58 0000016 0946 97 0940 89 0345 44 0932 77 343 58 0000017 0946 97 0940 89 0345 44 0932 77 343 58 0000018 0946 97 0940 89 0345 44 0932 77 343 58 0000019 0946 97 0940 89 0345 44 0932 77 343 58 0000020 0946 97 0940 89 0345 44 0932 77 343 58 0000021 0946 97 0940 89 0345 44 0932 77 343 58 0000022 0946 97 0940 89 0345 44 0932 77 343 58 0000023 0946 97 0940 89 0345 44 0932 77 343 58 0000024 0946 97 0940 89 0345 44 0932 77 343 58 0000025 0946 97 0940 89 0345 44 0932 77 343 58 0000026 0946 97 0940 89 0345 44 0932 77 343 58 0000027 0946 97 0940 89 0345 44 0932 77 343 58 0000028 0946 97 0940 90 0345 44 0932 77 343 58 0000029 0946 97 0940 89 0345 44 0932 77 343 58 0000030 0946 97 0940 89 0345 44 0932 77 343 58 Figure 6 Example of data telegram Please note After switching on of the power supply it needs 20 seconds for initiation of the system After 10 seconds of intemal tests the system starts the count down from 10 for digital data output only Right after the initiation time the data telegram follows 4 2 1 Seral Select Modify The Settings will be activated Select Module and then click on Settings Page 14 UttraLab ULS HF5 A User Manual Eile Function Configuration View Help 237 Q gt F Ne Information Model NE 41105 MAC Address 00 90 8 04 93 04 ZA FIS Serial Number 748 Firmware Ver 1 6 BIDS Ver Ver 1 2 4m Message No Bom Network Ena
6. 6 CE CONFORMITY STATEMENT The instrument conforms to the requirements of the EEC directive 89 336 EWG and the revisions through 92 31 EWG and 93 68 EWG Article 5 pertaining to Electromagnetic Compatibility as well as 73 23 EWG and the revisions through 93 68 E WG Article 13 pertaining to Safety 7 TECHNICAL SPECIACATIONS Instrument model Sensors Ultra Lab ULS HF5 A USS13 HF IP 65 M30x1 5 Measuring range From 200 mm up to 1200 mm Technical resolution Up to 0 36mm Accuracy 1mm Sample rate 50 Hz Data readout Digital via data telegram RS 232 and or Analogue via BNC socket 0 10 V Electric power supply 230 VAC 250 mA 110 VAC optional Chassis ca 330 160 270 mm width height depth IP 50 Temperature range 20 70 C Delivery package UltraLab ULS HF5 A instrument max 4 ultrasound sensors USS13 HF sensor cables 1 reference sensor REF 300 including calibrated distance unit 1 reference sensor cable 1 powersupply cable 1 User Manual Page 19
7. GENERAL ACOUSTICS UltraLab ULS HF5 A User Manual 92007 GENERAL ACOUSTICS UttraLab ULS HF5 A User Manual G User notes Page 2 UttraLab ULS HF5 A User Manual G A CONTENTS 1 General 4 1 1 Safety instructions 4 2 Introduction 6 2 1 Overview 6 22 System components 7 23 Sensor characteristics 7 2 4 The principles of measuring distances by means of air ultrasound 8 3 Start up and Measurement setup 9 31 Sensor connectors 9 3 2 Physical setup of the sensors 9 3 3 Fluctuation in air velocity compensated by reference measurement 11 4 Measurement data output 12 4 1 Calculation of the calibration curve for analogue output BNC 12 42 Data telegram and trigger 13 4 2 1 Serial 14 4 2 2 Operation Mode 15 4 2 3 Real COM Mode 17 5 Warranty statement 18 6 conformity statement 19 7 Technical specifications 19 Page 3 UttraLab ULS HF5 A User Manual G 1 GENERAL 1 1 Safety instructions For your own safety and for the safe operation of the system please read the following instructions carefully PRIOR to operating the system forthe first time The UltraLab ULS HB A laboratory instrument as well as the associated ultrasound sensors represent state of the art technology and comply with the latest safety regulations The manufacturer has made every effort to guarantee safe operation The user must ensure that the instrument is set up and inst
8. a b ULS HF5 A instrument must not come into contact with liquids e Never operate the instrument at sites where water may get into the instrument e Also take care that the instrument is always operated above the water line of experimental reservoirs Protect the instument against falling into water e Isolate all system devices from the mains before undertaking cleaning Ensure there is no current Do not use aggressive cleaning chemicals liquid cleaners or sprays only use a damp cloth Never bring this orany other cloth into contact with parts of the system that will subsequently conduct electricity Page 4 UttraLab ULS HF5 A User Manual G e Never attempt to open instruments with objects or to insert objects into an instrument The voltages existing in the instruments can lead to short circuits and electric shocks e Ensure adequate ventilation when operating the UltraLab ULS HF5 A As the instrument has low power consumption it requires no additional ventilation under normal conditions However the instrument should never be placed on a source of heat computer monitors radiators Only operate the Ultra Lab ULS HF5 A atthe intended mains voltage of 230 VAC optionally 110 VAC e For safety reasons the Ultra Lab ULS HF5 A is provided with a sealed appliance plug with earth contact for its mains power In this context only appliance cables and plugs with earth contacts may be used Operation of the system is prohibited if y
9. alled in such a way that its safe usage isnot impaired The instruments are factory tested and were delivered in a safe operational condition This User Manual contains information and wamings which must be observed by the user under all circumstancesto ensure safe operation of the instruments e The instrument may only be put into operation by authorised persons and only operated by trained personnel All users working with this instrument must read the User Manual priorto any operation e The user may only perform the repair and maintenance work described Only the specified parts are to be used Servicing work may only be carried out by authorised service technicians from G A e All instruments and additional devices used for this purpose must be properly earthed The earth leads must not be interrupted atany point e The UltraLab ULS HF5 A laboratory instrument may only be operated within the specified temperature range of 20 to 70 C Otherwise measurement inaccuracies and instrument faults or defects may occur The temperature stability of connection cables must match the operating temperature of the measurement system e The sensor should only be connected to the instrument when it is switched off e The sensors are to be treated with care and are only to be screwed in hand tight otherwise there is the risk of damage Sufficient leverage is obtained from the sensor casing itself e Avoid electrostatic discharges e The Ultra L
10. anks to the application of a special reference sensor all fluctuations of the sound velocity will be compensated intemally That means the data obtained from the measurement device are independent of all the sound velocity interfering parameters e g temperature air humidity air pressure etc Nevertheless the last column of the data telegram contains the sound velocity in m s Afterthe switch on of the UltraLab device and a short system test procedure needs some seconds the device delivers continuous data An opto isolated triggerinput makesa synchronisation with extemal data acquisition possible The UltraLa b ULS HF5 A is equipped with an serial interface RS232 So it is possible to receive the output data stream at any PC with a help of a terminal program Please for configuration of the terminal program on the PC see the respective chapters chapter 4 2 Page 6 UttraLab ULS HF5 A User Manual G 2 2 System components The Ultra La b ULS HF5 A instrument system consists of the following components 1 UltraLab ULS HF5 A controller minimum of 1 ultrasound sensor of the type USS13 HF maximum of 4 sensors 1 ultrasound sensor of the type REF 300 for precise sound velocity measurement mounted ina calibrated distance unit shielded cables between the sensors and the instrument 4 pin LEMO plug M12 industry standard 1 cable between the REF sensor and the instrument 3 pin LEMO plug M12 industry standard 2 3 Sens
11. argetobject transmitte echo pulse transmitted pulse amplitude reception readiness repetition time nl transmitted echo pulse output Figure 1 The functionality of an ultrasound based distance sensor Page 8 UttraLab ULS HF5 A User Manual G The sound source is then switched to receive comparable with a microphone and the incident pulses are evaluated The propagation time of the sound to a possible target is determined within the defined measurement window An analogue voltage or a digital value as an output is proportional to the measured distance START UP AND MEASUREMENT SETUP 3 1 Sensorconnectors The Ultra La b ULS HF5 A isequipped with fourindependent channels All four sensor cables are connected to the UltraLab ULS HF5 A controller by a 4 pole LEMO socket at the front of the control panel The reference sensor cable REF 300 is connected by a 3 pole LEMO socket on the right hand side of the control panel Right above to ita BNC socket is located TRIG IN Here the cable can be connected coming from the remote PC for purpose of time synchronisation for digital data output only It is an opto isolated TIL type input which triggers the time stamp to start counting every single data sample see chapter 4 2 Data Telegram At the rear panel the intemal power socket including a fuse 0
12. bler Adiministrator Configuration Configuration e Auto Warning IP Address Report Password Digital IO Basic Network Serial perating Mode Accessible IPs Port Alias Settings 1 115200 N 8 1 No flowctrl Settings Click the Modify check box to modify configuration wv OK X Cancel Now 08 03 2005 11 33 15 Figure 7 Serial The interface parameters are adjusted here Thes are not freely eligible but permanently bound to the UltraLab ULS HF5 A A change of the parameters leadsto sending no usable data e Baud Rate 115200 baud s e Panty None e Data Bits 8 e Stop Bits 1 e Flow Control None e FIFO Enable Network Enabler Administrator Configuration File Function Configuration View Help LA e gt Configuration F BN Information Auto Warning IP Address Report Password Digital IO a Model Basic Network Serial perating Mode Accessible IPs 41105 i Serial Settings e E MAC Add E 4 00 30 E 1 Port s Selected 1st port is Port 1 Serial Nut 748 Port Alias Firmware Ver 1 6 Baud Rate Flow Control BIOS Ver 115200 None Ver 1 2 Parity None FIFO Enable Data Bits 8 Interface Stop Bits 1 E wm Message No L OK X Cancel 1 2 Click the Modify check to modify configuration wv OK x Cancel Now 08 03 2005 11 34 59 Figure 8 Interface parameters 4 2 2 Operation Mode Select Modify Select Module and click on Settings Page 15 UttraLab ULS HF5 A User Manual D
13. highly precise reference sensor including the reference track should be mounted Page 11 UttraLab ULS HF5 A User Manual G horizontal upside down nearby the UltraLab ULS HF5 A sensors It should be pointed out that the reference sensor has to be protected from splashing water and no object has to be between sensor and target in orderto avoid wrong data Waming The reference distance is highly calibrated The slightest deviation may cause inaccuracy of the measurements Sew Figure 4 Reference sensor REF 300 mounted on calibrated distance unit 4 MEASUREMENT DATA OUTPUT 4 1 Calculation of the calibration curve for analogue output BNC The ultrasound measurement system outputs voltage proportional to distance of between 0 and 10 V at the BNC output of the benchtop instrument From Figure 5 it may be seen that the calibration curve is a a straight line and b does not pass through the origin This means that a the conversion of distance to voltage is linear and b an offset offset 0 2 m has to be added to the distance value because all ultrasound sensors have a so called blind zone starting directly at the sensor s lower edge see specifications of the individual sensors Using an example it will be shown here how the calibration curve is calculated with the parameters It is recommended that the experimental set up be measured beforehand the expected wave heights determined and then to set the sensors accordi
14. ing correctly despite following the specified operating instructions e If one ofthe instruments has fallen down orthe chassis is damaged e If the instrument shows any noticeable departure from normal operation e If the sensor connections have become wet With the exception of the actions explicitly specified in the manual you should never attempt your own repairs on devices belonging to the UltraLab ULS HF5 A system Besides the resulting revocation of waranty coverage you also risk an electric shock or other injury from the components All maintenance work unless explicitly described in the manual should only be canied out by G A Page 5 UttraLab ULS HF5 A User Manual G 2 INTRODUCTION 2 1 Overview Ultrasound measurement of distances in laboratory measurement technology has become increasingly established in recent years The advantages gained are quite clear particulary in small scale experimental set ups it is imperative to avoid any mechanical intervention that may affect the experiment but at the same time parameters must be measured and evaluated This not only applies to laboratory operation and water As the distance to an object is measured by sound propagation time measurement and not by intensity measurement as is the case in optical methods ultrasound sensors have excellent background suppression Almost all materials that reflect sound are reliably detected irrespective of their colour Even transparent mate
15. ms Settings Messa No 1 2 wv OK X Cancel X Cancel Now 08 03 2005 11 36 29 Page 16 UttraLab ULS HF5 A User Manual G 423 Real COM Mode The real COM Mode isadjusted and recommended by GENERALACOUSIICS In this mode transparent connection four connectionsto different computers can be established r P Network Enabler Administrator Configuration File Function Configuration View 77 4 Operating Mode e 1 Port s Selected 1st port is Port 1 perating Mode Real COM Mode Digital 10 Real Accessible IPs Connection Miscellaneous Optional TCP Alive Check E 7 0 39 min Data Packing Optional Delimiter 1 00 0 ff Hex Delimiter 2 00 0 4 Hex EZ Force Tx Timeout 0 65535 ms Settings Messar No 1 2 3 wv OK X Cancel X Cancel Now 08 03 2005 11 38 17 Figure 11 Real COM Mode Page 17 UttraLab ULS HF5 A User Manual G A 5 WARRANTY SIATEMENT 1 Warranty period G AC GmbH as manufacturer will itself or through its authorised sales partners provide end users with warranty coverage on all G A ICS products purchased as 2 3 4 5 new and unused fora period of 12 months from the date of sale G ACO procedure Any part which has been conectly used and is found to be defective asa result of manufacturing and or material faults within the above mentioned warranty period will either be repaired orreplaced with a new part by G
16. nals and thin foils present no problems for our ultrasound sensors As a result of their high sensitivity our sensors are also predestined for the detection of liquid surfaces The sensors measure in dusty air as well as through fine fog Even thin deposition on the sensor membrane does not impair the sensor function These characteristics combined with extremely slender sound cones with practically no side lobes make for completely new laboratory applications The easy to use UltraLab ULS HF5 A laboratory instrument excels as a consequence of the diverse functions implemented making it suitable for use in complex measurement tasks without having to seta series of parameters The measurement object can be for example the water surface asa level or the moving water surface as a wave This is where the temporally highly resolved distance measurement comes into its own A complex measurement algorithm ensures high measurement accuracy and resolution as well asa high degree of data confidence The UltraLab ULS HF5 A is dedicated for sound propagation time measurement of very fast moving waves This device has four independent channels each one is equipped with an ultrasound sensor of the type USS13 HF The data output is realised in analogue voltage signal between 0 10 Volt and digital via serial interface RS 232 Due to high repetition rate of 50 Hz every measurement unit detects high dynamic processes in an impressive resolution of 0 36 mm Th
17. ngly If e g wave heights of 10 mm are expected the sensor should be placed close to the expacted waves but considering the blind zone of the sensor hm ZU x 0 1m V 0 2 m whereas hm 2 measured height to the sensor slow edge Um measured Voltage Page 12 UttraLab ULS HF5 A User Manual G 1200 mm blind zone 1 1 1 1 1 4 1 1 1 1 0V 10V Figure 5 The ca libration curve 42 Data telegram and trigger Via the serial interface RS 232 the UltraLab ULS HF5 A transmits ASCII telegrams to a PC There a program like Hyperterminal can be used to view and log the data extemally The settings in Hyperterminalare described in chapter 4 2 1 The telegrams contain sx numbers separated by lt tab gt charactersand ending with CR 4 F gt 1 The time stamp 2 Measuring channel 1 in xxxx xx mm 3 Measuring channel 2 in xxxx xx mm 4 Measuring channel 3 in xxxx xx mm 5 Measuring channel 4 in xxxx xx mm 6 Reference channel with the actual value of the sound velocity in xxx xx m s A TIL type I O port triggers the time stamp to start counting the telegrams beginning from 0000000 0000001 0000002 up to 9999999 see first column of 6 Before the time stamp istriggered orafterthe measurement has stopped the value of the time stamp is 1 Atthat moment the measuring system software program on the PC startsto measure the rising edge of
18. or characteristics Sensor identifier Measurement frequency Measurement range Technical resolution Accuracy kHz mm mm mm USS13 HF 200 200 1 200 0 36 1 The UltraLab ULS HF5 A sensors of the type USS13 HF are based on an ultrasound pulse echo technique They have been developed fortemporally and spatially high resolution measurement of distances in air The sensors permit a distance measurement from 200 mm up to 1200 mm The advantages of the ultrasound sensors made by G A in Comparison to common ultrasound sensorscan be described as follows The acoustic beam pattem could be nanowed to a beam cone below 3 and is valid not only forthe sending but also for the receiving process This is important to reduce the area size of the acoustic footprint onto the water surface in order to get only some small sections instead of a fullwave ormany waves The minor side lobe could quasi be eliminated This means that there are no disturbances from objects outside the area of interest e g basin walls etc The sending power on one hand and the receiving sensibility on the other could be increased This helps much to reduce the number of lost pings immensely which may occur on very steep flanks of waves The sampling rate is accelerated to 50 Hz This great achievement allows to measure fast waves in highest accuracy even though a measurement camiage is moving against the wave direction Page 7
19. ou do not have this option Never use an extension cable without an earth contact e The instrument is protected from mains voltage by a blowout fuse in the appliance plug A fine wire fast blow fuse G fuse 5 x 20 mm compliant with IEC with a nominal value of 0 8 f A is to be used asa replacement Only the specified values may be used Higher tipping values or bridging of fuses is not permissible If the fuse repeatedly blows the Service Department of G A should be informed as the cause would need to be resolved e We recommend protecting the circuit with protective switches to ensure safe operation of your complete system e Take care that power cables are not wom abraded or otherwise defective When routing connecting cables make certain that the cables do not represent an obstacle or risk of tipping e When using extension cables the total nominal current of all the devices connected must not exceed the allowable maximum current of the cable The curent ratings of all devices connected to a single plug should never exceed 15 A unless the plug is specifically designed for this purpose If you are unsure what type of mains power exists in your premises ask your Safety Officer or an authorised electrician It is imperative to isolate instruments from the mains in the following cases e If power cables or plugs are wom ordamaged e If waterorany other liquid has found its way into one of the instruments e If the instrument is not work
20. ser Manual G ON OFF SWITCH CH 1 BNC CH 1 output 0 10 V CH 2 BNC CH 2 output 0 10 V CH 3 BNC CH 3 output 0 10 V CH 4 BNC CH 4 output 0 10 V REF 300 Serial Interface B RS 232 TRIG IN Figure 3 Connection scheme forthe UltraLab ULS HF5 A 3 3 Ructuation in air velocity compensated by reference measurement The most accurate type of compensation isthat of a direct reference measurement This is necessary for extremely variable conditions or for the purpose of highest accuracy In the case of density variation or stratification of air masses through which the ultrasound pulse must penetrate it is necessary to measure the real speed of sound The UltraLab ULS HF5 A is equipped with a reference sensor REF 300 which has an extremely high accuracy The reference sensor emits sound along a path of maximum possible length parallel to the measurement channel through the same medium media as the measurement path itself onto a fixed target at a defined distance The same influences on the speed of sound are necessarily measured as those on the measuring path itself Due to data recording of the ultrasound velocity and the intemal calibration of the data received from all four channels the influence of temperature air pressure as well as air humidity variations can be excluded This method can consequently be used for highly accurate compensation of all parameters affecting the sound velocity The
21. the time stamp reset signal at the l O port being on high level switches the count This situation continues until the measurement is stopped Then the decreasing edge of the time stamp reset signal provokes a negative value 1 forthe telegram column 1 Nevertheless of the time stamp status the applied sensors are continuously sending measuring data for data preview purposesto the extemal PC Page 13 UttraLab ULS HF5 A User Manual G The TIL level trigger input is connected by a BNC socket at the front of the control panel It is electrically isolated from intemal electronics by an opto coupler Ultralab ULS HF5 A Version 1 0 General Acoustics GmbH 2007 wait a moment Il N CH1 CH2 CH3 CH4 REF 0000000 0946 97 0940 89 0345 44 0932 77 343 58 0000001 0946 97 0940 89 0345 44 0932 77 343 58 0000002 0946 97 0940 89 0345 44 0932 77 343 58 0000003 0946 97 0940 89 0345 44 0932 77 343 58 0000004 0946 97 0940 89 0345 44 0932 77 343 58 0000005 0946 97 0940 89 0345 44 0932 77 343 58 0000006 0947 07 0940 89 0345 44 0932 77 343 58 0000007 0946 97 0940 89 0345 44 0932 77 343 58 0000008 0946 97 0940 90 0345 44 0932 77 343 58 0000009 0946 97 0940 89 0345 44 0932 77 343 58 0000010 0946 97 0940 89 0345 44 0932 77 343 58 0000011 0946 97 0940 89 0345 44 0932 77 343 58 0000012 0946 97 0940 89 0345 44 0932 77 343 58 0000013 0946 97 0940 89 0345 44 0932 77 343 58 0000014 0946 97 0940 89 0345 44 0932 77 343 58 0000015 0946 97 094
Download Pdf Manuals
Related Search