FIELD MICROSENSOR MULTIMETER USER MANUAL
Contents
1. LED display 18 bit color high contrast 800x480 pixel 350x 300 x 148 mm Wx Dx H Approx 8 5 kg 19 Ibs Operating conditions 10 C to 50 C OXYGEN SOLUBILITY TABLE The table below shows equilibrium concentrations of oxygen umol O litre at ambient partial pressure of 0 21 atm in water as a function of temperature and salinity More detailed tables available at www unisense com Yoo TC 0 0 2 0 4 0 6 0 8 0 10 0 12 0 14 0 16 0 18 0 20 0 22 0 24 0 26 0 28 0 30 0 32 0 34 0 36 0 38 0 40 0 42 0 0 0 456 6 450 4 444 2 438 1 432 1 426 1 420 3 414 5 408 8 403 2 397 7 392 2 386 8 381 5 376 2 371 0 365 9 3609 355 9 351 0 346 2 341 4 5 0 398 9 3956 388 5 383 3 378 3 5755 368 4 5055 358 7 354 0 349 3 344 7 340 2 335 7 gt 1 326 9 5225 3183 314 1 5099 305 8 301 8 10 0 3520 348 1 343 7 3394 335 1 330 8 326 7 725 318 4 3144 310 4 306 5 302 6 298 7 294 9 2912 287 5 2839 280 3 276 7 2732 269 4 15 0 314 9 SIIS 307 3 303 6 29919 296 2 292 6 289 1 285 5 282 1 278 6 272 2717 268 5 265 3 262 0 258 8 2557 2325 249 5 246 4 243 4 20 0 283 9 280 6 2175 274 0 270 8 267 6 264 5 261 4 258 3 2553 2523 249 3 246 4 243 5 240 6 237 8 2250 2322 2295 226 8 224 1 22155 25 0 2575 2550 252 1 249 3 246 5 243 7 240 9 238 2 2555 232 8 2302 227 6 225 0 22215 2199 217 4 215 0 2125 210 1 207 7 205 4 203 1 30 02. WARNING Microsensors have very pointed tips and must be handled with care to avoid personal injury and only by trained personnel Unisense A S recommends users to attend instruction courses to ensure proper use of the products WARRANTY AND LIABILITY The Field Microsensor Multimeter is covered by a one year limited warranty The warranty does not include repair or replacement necessitated by accident neglect misuse unauthorized repair or modification of the product In no event will Unisense A S be liable for any direct indirect consequential or incidental damages including lost profits or for any claim by any third party arising out of the use the results of use or the inability to use this product REPAIR OR ADJUSTMENT Equipment that is not covered by the warranty will if possible be repaired by Unisense A S with appropriate charges paid by the customer In case of return of equipment please contact us for return authorization For further information please see the documents General Terms of Sale and Delivery of Unisense A S and Warranty and Shipping Information as well as the manuals for the respective products SENSORT RACE SUITE SOFTWARE Unisense SensorTrace Suite software is checked and validated for the Windows platform as given in the specification The Customer must ensure PC is fully updated and no conflicting third party software is installed Unisense do not warrant compliance with any other operating
3. The Field Microsensor Multimeter will use the power of the external power supply before using the internal battery Battery capacity shows the remaining capacity of the internal battery Should the free storage capacity be limited then some of the storage data from previous deploy ments should be deleted In general it is not recommended to use the Field Microsensor Multimeter for long term data backup 49 SETTINGS In the Settings window the current date and time can be adjusted Here you can also get firmware updates and product information Current date and time Here you can set up and verify that the real time clock is set This is particularly important if you use delayed deployments as the real time clock is used to activate the start and stop time for a scheduled data logging o E Sensors Signal plot Seguences Deployments Status Current date 21 09 2015 Current time 13 33 36 Network mode Direct Network id 1 Firmware update Product information Mon Sep 21 2015 13 33 36 Network mode The default Direct link between the Field Microsensor Multimeter and the PC is where the Field Microsensor Multimeter is given a fixed IP address to the PC In the Network mode the Field Microsensor Multimeter accepts any IP address and network setup from an external DHCP server router The given IP address is then shown on the screen of the Field Microsensor Multimeter in the Network ID box Network ID As default the Netw
4. Multimeter is ON and a delay timer is active The system is therefore waiting to execute a programmed sequence e Red blinking The controller is ON running a sequence and actively logging data e Constant Red The controller is in an error state e g if a motor is disconnected or a sequence is set up incorrectly 5 The screen light will automatically dim if the keypad is not used To turn it on again simply press any key on the keypad 6 To turn off the Field Microsensor Multimeter press the Power button and acknowledge the power down selection SENSORS 1 Prepareone or more microsensors and preferably a spare Ensure that the sensors are ready for use for further details refer to the respective sensor manual for pre polarization etc 2 Connect the microsensors to the Field Microsensor Multimeter using one of the analogue channels 1 8 Photo 4 Channel 1 to 5 are amperiometric sensor channels Red box channel 6 and 7 are potentiometric Blue box and finally channel 8 is a temperature channel Green box Calibration 1 Enter the calibration menu for each active sensor on the Field Microsensor Multimeter 2 Prepare calibration solutions and calibrate the microsensors Make sure the sensor reacts as described in the sensor manual 3 Once all sensors are calibrated carefully remove the sensors protective tube 19 Autonomous DEPLOYMENT Make a 1D or 2D profiling sequence in the Sequ
5. N In this manual we will in detail describe how to use the Field Microsensor Multimeter Information on how to use the Field Microsensor Multimeter as a part of the Field MicroProfiling System is described in the Field MicroProfiling System manual Information on the SensorTrace Profiling software is found in the SensorTrace Suite manual and information on how to make advanced seguences for the Field Microsensor Multimeter using the Programming Tool software is found in the Programming Tool manual OPERATING AND SETUP CONDITIONS The Field Microsensor Multimeter is built for outdoor use When closed it is protected against water dust and salt The Field Microsensor Multimeter is splash proof also when the lid is open All channels must be closed with the protective caps when not in use Avoid water salt and dust getting into the connectors as this can damage the instrument Temperature 10 C to 50 C charge temp 0 C to 45 C Calibration The Field Microsensor Multimeter is offset calibrated on the eight sensor channels Both motor channels come with a factory calibration Power Batteries internal Li lon 78 Ah External voltage 9 V 6 28 V Charge voltage 12 VDC 4A Charger supply 100 to 240 VAC 50 60 Hz When an external power supply is disconnected internal battery supply will continue operating Unisense serial number is placed inside the lid SYSTEM FEATURES Field and in situ instruments are excellent tool
6. power supplies to increase the capacity further If you wish to use a Unisense External Battery contact sales unisense com for further information The Unisense External Battery is connected to the Field Micro sensor Multimeter using the FMM BAT001 cable whereas your own external power supply is connected using a FMM POWO001 cable During ordering of the FMM POW001 cable please specify the output connection of the cable so it can connect to your power supply Use the following procedure when connecting an external power supply to the Field Microsensor Multimeter NOTE 1 Connect the FMM BATOO1 to the Unisense Do not unplug the External Battery or FMM POWO001 cable to external battery from the Field Microsensor your external power supply Multimeter when it is in 2 Remove the protective cap from the Field me ost wi tir Microsensor Multimeter Power connector the Field Microsensor and insert the LEMO connector from the Multimeter FMM BAT001 FMM POWO001 cable to this 3 Start up the Field Microsensor Multimeter Recharging a Unisense External Battery takes by pressing the POWER button y about 4 hours 4 Ifyou wish to use additional external bat teries connect a second cable between the connectors of the two external batteries 53 FIRMWARE UPDATE If the Field Microsensor Multimeter firmware needs updating this can be done after receiving firmware update information from Unisense Hereafter you start the softwar
7. powers up the Sensors window is the first window shown Microsensors will be recognized as they are plugged in and for most sensors the polarization and amplifier ranges are automatically set All sensor signals and standard derivations std dev are updated twice every second and the standard derivation is continuously calculated from the last 20 signal points If a sensor has been calibrated then the calibrated value is also shown Motors Signal plot Sequences Deployments Channel 1 102 20 mV Channel 2 v Std dev 37 02 mV Std dev Amperometric Oxygen 201 32 umol L Amperometric vi Channel 3 Channel 4 Std dev Std dev Amperometric Amperometric Channel 5 D Channel 6 Std dev Std dev Amperometric Pontentiometric gt Channel 7 Channel8 si Std dev Std dev gt Pontentiometric Temperature m In the submenu of each sensor channel you can enter the Calibrate menu and Edit sensor parameters You can navigate between the channels with the arrow keys on the keypad 25 Calibrate Edit sensor parameters Select item or close with or EDIT SENSOR PARAMETERS You may need to adjust the pre amplification range of the sensor if it is not recognized as a standard sensor This is done by selecting the EDIT SENSOR PARAMETERS Following window will pop up Sensor parameters for channel 1 Calibrated u
8. systems language settings or third party software For instrumentation and sensors please refer to our warranty conditions as given in the document General Terms of Sale and Delivery of Unisense A S found on www unisense com LICENSE AGREEMENT The following terms shall apply to the software provided by Unisense A S Unisense in connection with the simultaneous sale to you Customer of a Unisense SensorTrace Suite Software All rights title and interest in the software belong to Unisense Unisense grants to the Customer a royalty free non exclusive and non transferable license to use the software solely in connection with the Unisense Product purchased from Unisense simultane ously with the purchase of the software The Customer undertakes not to copy modify reverse engineer disassemble or de compile all or any part of the software or rent lease distribute or sell the software The Customer shall however be entitled to make one copy of the software for backup and recovery purposes for use solely in connection with the Unisense Products supplied by Unisense together with the software Nothing in this License Agreement or any other agreement between Unisense and the Customer shall be construed as an obligation for Unisense to provide to the Customer updates of the software This License Agreement shall automatically terminate if the Customer violates the terms of the license In case of termi nation of the license
9. the Customer shall immediately destroy the software and any copy thereof CONGRATULATIONS WITH YOUR NEW PRODUCT SUPPORT ORDERING AND CONTACT INFORMATION The Field Microsensor Multimeter uses Unisense microsensors which are miniturized Clark type sensors that facilitate reliable and fast measurements with a high spatial resolution designed for research applications If you wish to order additional products or if you encounter any problems and need scientific technical assistance please do not hesitate to contact our sales and support team We will respond to your inquiry within one working day E mail sales unisense com Unisense A S Tueager 1 DK 8200 Aarhus N Denmark Tel 45 8944 9500 Fax 45 8944 9549 Further documentation and support is available at our website www unisense com Note If you find errors in this manual or have suggestions to improvements do not hesitate to contact us at salesaunisense com OVERVIEW The Field Microsensor Multimeter is a digital microsensor amplifier with automatic sensor detection It includes built in datalogger motor control a long battery life and a robust design The user interface consists of a keypad and a graphical 7 LED display with high color contrast allowing the user to view and adjust signals directly on the instrument in the field The Field Microsensor Multimeter can be used as a stand alone instrument PC controlled or with autonomous operation Ws N Y KON
10. you to work with the microsensor setup directly without the need for a PC Below is an introduction to the functionalities available on the Field Microsensor Multimeter KEYPAD The Field Microsensor Multimeter is equipped with a simple but multifunctional keypad that depending on the menu context can be used for both menu browsing and for entering numbers and N NOTE aN The STOP key can beusedat any time when text a sequence or Oy is started Power button The power button is found in the lower right corner and is always green when the system is turned on The screenlight will automatically dim if the keypad is not used To turn it on again simply press any key on the keypad Start amp Stop The START and STOP keys are for execution control of the active seguence selected in the Seguences window see below Menu bar To browse the menu bar use the right and left arrows on the keypad To select a tab or menu point press SELECT e Use the up and down arrow keys to adjust a menu point 23 e To exit a menu point press the left arrow key In cases where a user input is needed browse to and highlight the input box and then press SELECT on the keypad This will result in an input ribbon popping up Use the arrow keys to navigate right and left in the input ribbon and use the SELECT button to enter the highlighted character or number 100 UZGUZUZUNS HMDHRDRHHD Mi 24 SENSORS When the system
11. 2555 2255 230 8 2283 225 8 223 3 220 9 2185 216 1 213 211 4 209 1 206 8 204 5 202 3 200 1 1978 1957 193 6 191 4 189 3 187 3 35 0 217 0 214 7 212 4 210 2 207 9 205 7 203 6 201 4 199 3 1772 195 1 193 0 191 0 189 0 187 0 185 0 183 0 1811 1772 120755 175 4 173 6 Sources Garcia H E and Gordon L I 1992 Limnol Oceanogr 37 1307 1312 Millero FJ and Poisson A 1981 Deep Sea Res 28A 625 629 40 0 200 4 198 3 196 3 194 3 1925 1905 188 4 186 5 184 6 182 7 180 8 179 0 177 1 1755 1735 1757 170 0 1682 166 5 164 8 163 1 161 5 59 UNISENSE UNISENSE DENMARK www unisense com info unisense com
12. 6 17 Measuresamples 7 seconds Completed MeasureSamples 2 seco 1 4 KB Wed Sep 10 2014 13 40 53 MeasureSamples 7 seconds Completed Measuresamples 2 seco 1 4 KB Wed Sep 10 2014 13 39 02 Temporary 135 Interrupted deleted 4 6 KB Mon Jun 30 2014 10 05 06 Temporary 134 Stalled deleted 1 2 KB Mon Jun 30 2014 10 01 51 Temporary 133 Stalled deleted 1 2 KB Mon Jun 30 2014 09 59 06 Temporary 132 Stalled deleted 1 2 KB Mon Jun 30 2014 09 55 55 Temporary 131 Stalled deleted 1 2 KB Mon Jun 30 2014 09 52 29 Temporary 130 Stalled deleted 1 2 KB Mon Jun 30 2014 09 46 37 Temporary 129 Stalled deleted 827 B Mon Jun 30 2014 09 43 50 Temporary 128 Stalled deleted 822 B Mon Jun 30 2014 09 38 00 Temporary 127 Stalled deleted 822B Mon Jun 30 2014 09 35 26 Temporary 126 Stalled deleted 822B Mon Jun 30 2014 09 32 53 Temporary 125 Stalled deleted 877B Mon Jun 30 2014 09 29 12 Temporary_124 Stalled deleted 822B Mon Jun 30 2014 09 18 27 Tassnssss TV resila I SS J nana m kde hea JA AAA fi 5 Name All files automatically receive the name of the seguence and a number All files are listed by the time of creation Active seguence data tell you that the file receives data from multiple runs from the same seguence Result Here you can see the status of a completed or running seguence A completed seguence is one seguence that has run to the end If the seguence has been interrupted before it has ended the result will show as interrupt
13. Microsensor Multi meter SELECT NONE will not show any signals on the display Signal motor axis In the signal and motor axis you can adjust the scale of the axis Tagging the auto adjust scale the axis will automatically adjust the scale of the graph based on the highest and lowest signal Alternatively you can manually add a minimum and maximum range for the axis In the time axis span you can choose between numbers of time ranges for the x axis ranging from 1 minute to 1 hour Motor control The motor control button in the Signal Plot window allows you to control the motor while you look at the motor and sensor plot This can be an advantage e g when moving the sensor towards the sediment surface Select MOTOR and it will be marked red A 1 Oo CO i d 33 Use the right and left arrows to switch between Motor 1 and Motor 2 Continually pressing ARROW DOWN will move the motor down and away from the motor head Continually pressing ARROW UP will move the sensors up and towards the motor head 34 SEOUENCES The Sequences window lists all the available autonomously preprogrammed sequences on the instrument Simple 1D and 2D profiling sequences can be made directly on the Field Microsensor Multimeter Advanced sequences are made in the Programming Tool software and subsequently uploaded to the Field Microsensor Multimeter Please consult the Programming Tool manual for further information E X Sensors Motors Sign
14. VA UNISENSE FIELD MICROSENSOR MULTIMETER USER MANUAL FiELD MicROSENSOR MULTIMETER USER MANUAL Copyright 2015 Unisense A S Version December 2015 FIELD MICROSENSOR MULTIMETER USER MANUAL UNISENSE A S TABLE OF CONTENTS WARRANTY AND LIABILITY eee tiye CONGRATULATIONS WITH YOUR NEW PRODUCT SUPPORT ORDERING AND CONTACT INFORMATION OVERVIEW samen ir one ok e ep eh e ela am ad OPERATING AND SETUP CONDITIONS DEI EE UME eee do b e emel kle mid tes ep MICROSENSOR MULTIMETER EQUIPMENT TO USE WITH THE FIELD MICROSENSOR MULTIMETER SOFTWARE FOR THE FIELD MICROSENSOR MULTIMETER GENERAL PERI Sais e i yl SEKIN GS A EE INTERNAL BATTERY AND CONNECTIONS SENSORS AuTONOMOUS DEPLOYMENT DEPLOYMENTS IN THE LABORATORY USING THE PC FIELD MICROSENSOR MULTIMETER USER INTERFACE KEYPAD E Ke E EDIT SENSOR PARAMETERS SENSOR CALIBRATION EXPORT OF CALIBRATION DATA EH le LR PE WEE SEET 1D MoTORIZED PROFILING 2D MoTORIZED PROFILING PEPEOY MENT e RP ire e wane eee Ce RE e KENT e ey ey ee ee SEL TING Sia lada e ala si l sua le TS BATTERY AND EXTERNAL POWER semen kei pk an BATTERY CHARGING AND MAINTENANCE EXTERNAL POWER SUPPLY FIRMWARE URDAI E enbe eba e le la os TROUBLESRHOOTIN e bn a e li cence e Gr IK GE FiELD MICROSENSOR MULTIMETER SPECIFICATIONS OXYGEN SOLUBILITY TABLE WARRANTY AND LIABILITY This product is for research use only Not for use in human diagnostic or therapeutic procedures
15. al plot Sequences Deployments Status Settings Name Trigger Duration est mins Created Profiling 2D Delay 0 Mon Sep 21 2015 13 29 14 Profiling 1D Delay 0 Mon Sep 21 2015 13 18 06 Profiling 1D Delay 10 Tue Sep 1 2015 18 30 46 Profiling 1D Delay 100000 Thu Aug 20 2015 16 53 08 Mon Sep 21 2015 13 29 18 The sequences can be executed directly from the Field Micro sensor Multimeter Select the sequence you wish to run The MeasureSamples window will give you different opportunities to start a sequence When you start a sequence the data are saved in a file given by the Field Microsensor Multimeter where the file name contains the date and time On the screen the trigger type and estimated duration is shown together with the creation date 35 Data storage Data are stored as soon as the seguence is started in the following way 1 Activate the seguence 2 Press START on the Field Microsensor Mul timeter or start the seguence by selecting RUN 3 When the sequence is finished the same seguence can be activated again and stored in two different ways a In one file including many sequenc es Press the START button on top of the Field Microsensor Multimeter and the active sequence will run again and store the data in the same file as the previous run When importing the data into Sensor Trace Profiling the profiles will be listed separately in the Experiment window b As separate files for each sequence Select RUN i
16. cessing section 28 MOTORS In the Motors window the current status and position of the linear motor stage can be followed Motors are by default named Motor 1 and Motor 2 In a 2D system the Motor 1 channel is used for profiling in the z axis direction and the Motor 2 channel for the x axis direction The precision of the motor is down to 10 um when moving in the forward direction The moving distances of the motor is given in mm 4 X Sensors Signal plot Seguences Deployments Status Settings Motor 2 1118 365 mm Step size 0 003 mm Status Stopped Motor 1 5 003 mm Step size 0 003 mm Status Stopped Tue Oct 27 2015 14 39 23 In the Motors window a motor control menu is shown Start Forward Start backwards Stop Step forward Step backward Reset position Advanced control Select item or close with or 29 Start forward Start Forward moves the motor downwards and away from the motor head Start backwards Start Backwards moves the motor upwards and towards the motor head Stop Stop will stop the motor The motor will also stop when pressing the red STOP button on top of the Field Microsensor Multimeter Step forward backwards Step forward or Step backwards moves the motor forward or backwards the distance set in Move distance in Advanced control By default the distance is 1mm Reset position Selecting RESET POSITION will set the current motor position to the depth given in Advanced c
17. cription will help you get started with NOTE the Field Microsensor Multimeter A more detailed description of Sensors motors the Field Microsensor Multimeter interface is found later in this computer connection manual power supply and all external equipment INTERNAL BATTERY AND CONNECTIONS can safely be plugged N in and out at any time 1 Make sure the Field Microsensor Multimeter E during instrument battery internal or external is charged see operation the Battery and External Power section 2 If available connect the Field Motor Motors to the Field Microsensor Multimeter into Motor 1 and Motor 2 channel 3 Turn on the Field Microsensor Multimeter It will take a few seconds to boot 4 Thefirst window shown is the Sensors window Motors D Sequences Deployments Channel 1 102 20 mV Channel 2 Std dev 37 02 mV Std dev Amperometric Oxygen 201 32 umol L Amperometric Channel 3 Channel 4 Std dev Std dev Amperometric Amperometric Channel 5 Channel 6 N Std dev Std dev Amperometric Pontentiometric Channel 7 Channel8 Std dev Std dev Pontentiometric Temperature 17 In the lower right corner you can see the current status of the Field Microsensor Multimeter from the LED signal e Green blinking The Field Microsensor Multi meter is ON but inactive e Green blinking Slow The Field Microsensor
18. e instrument the charging process can be followed via the current battery level indicator Charging takes approximately 4 hours Charging temperature We recommend charging the battery at a temperature between 5 C and 35 C Although the system runs perfectly on the charger e g in a laboratory setting the self heating of the system during use can be close to 40 C There is an intelligent charging circuit that lowers the charging effect or even stops charging as the system temperature approaches 40 C This results in prolonged charging time In an environment with high temperatures it is recommended to turn off the Field Microsensor Multimeter during charging Also note that the Field Microsensor Multimeter is gray and if left charging in direct sunlight e g in the open field the internal temperature will quickly increase above 40 C Protect against sunlight and cover the case with a wet towel for cooling 52 NOTE Air transport of Li lon batteries is regulated due to potential hazard When travelling keep the battery Material Safety Data Sheet with the Field Microsensor Multi meter to verify that the battery load is not prohibitive The Material Safety Data Sheet is provided with the system EXTERNAL POWER SUPPLY The purpose of an external power supply like the Unisense External Battery a car battery or a generator is to increase operation time of the system It is possible to daisy chain several external
19. e parameters 2 3 Number of cycles Safe Z mm Start Z mm End Z mm Step size Z mm Start X mm End X mm Step size X mm Replicates Wait before measure s Measure period s Delay between cycles s Previous Cancel Go to next page 5 In the Sequence configuration you define if the seguence should have a delay or not and if so add how long in seconds the delay should be Select DONE when the 2D profiling seguence is ready Profiling 2D Seguence configuration 3 3 Previous Cancel Go to next page 6 44 Place Motor 1 and Motor 2 at your start position Reset both motors to 0 mm under Motor and Advanced control Select the PROFILING SEQUENCE in the Se quence list and press RUN This will start your profile All profiles of a 2D profiling cycle are stored in one file You can repeat the 2D profiling sequence by selecting RUN again Each 2D profiling series will be stored in a separate file Alternatively activate your sequence by selecting MARK AS ACTIVE and subsequently START on top of the Field Microsensor Multimeter When the 2D profiling sequence is finished you can start a new series on START All files will be stored in one file When importing the file into SensorTrace Profiling all profiles will be listed in the Experiment window 2D profiling data made on the Field Micro sensor Multimeter can be imported to the SensorTrace Profiling software for activation ca
20. e profile is stopped Step size mm The vertical step depths by which the sensor is moved from start to end position The step size should not be smaller than the size of the sensor tip e g if the sensor has a tip size of 50 um the step sizes should not be smaller than 50 um Replicates Enter the number of measurements that should be performed at each depth Wait before measure s When a new position in a profile is reached the system will wait for a period of seconds before it starts measuring This is to ensure that the sensor signal is stable before the measurements starts The time varies depending on the sensor When profiling with multiple sensors the response time of 39 the slowest sensor should be added Measure period s Sets the duration of the measurement in each position Each measurement will be an average value over this period of time When making profiles in an unstable environment it can be helpful to average over a longer period i e increase the measure period The setting should be set to match the measuring condition Delay Between s Used when starting a profile and during repeated profiles Each time a cycle is started the sensor is placed in the Safe position and the profile is started after a delay period given here Press NEXT to continue Profiling 1D Seguence configuration 3 3 lt previous Con Go to next page 4 In window three in the seguence configu ration you define whet
21. e update in the Settings window Sof update bafo The procedure is as follows 1 Make sure the Field Microsensor Multimeter battery internal is charged see the Battery and external power chapter for details 2 Turn the Field Microsensor Multimeter on 3 Connectthe Field Microsensor Multimeter to an Ethernet LAN port on the PC with the FMM COM001 cable 4 Make sure that the Field Microsensor Multimeter is inactive the status LED in the lower right corner blinks green 54 5 Download the firmware update file from www unisense com where you can always find the newest version of the software 6 Navigate to the Settings window and select FIRMWARE UPDATE 7 Enter the HTTP address listed in the popup window in any standard web browser e g http 10 254 239 1 SoftwareUpdate html 8 Browse to the firmware update file and upload the new firmware NOTE PRESS ONLY ONCE Should the upload fail the following page is shown Field Microsensor Multimeter Firmware Update The file could not be copied Update cancelled 9 When the upload has finished select APPLY UPDATE Field Microsensor Multimeter Firmware Update The file has been uploaded and can now be applied Apply update NOTE PRESS ONLY ONCE 55 Leave the system to unpack and install the software update file It can take several minutes The system will automatically reboot when the update has completed Once the Field Micro
22. ed e N A indicates that the file is currently receiving data from the Field Microsensor Multimeter e Stalled and crashed mean that the se guence has been interrupted unexpectedly 46 Seguence The used seguence is listed here Deleted means that the seguence has been deleted in the Seguence window andisno longer available on the Field Microsensor Multimeter Data size The size of the data file is shown here Created Here you find the date and time of when the file has been created You can always find a file by its date and time A sequence can be deleted by selecting it and subsequently choosing delete in the pop up window 47 STATUS The Status window allows you to get a guick overview over the Field Microsensor Multimeter and what is running E K Sensors Motors Signal plot Seguences Deployments Status Settings Seguencer Log messages Status Running Motor1 Mov Enter with position 0 speed 100 Elapsed time 00 23 29 System Running seguence Profiling 1D deploy Step Motor1 MoveToPosition 00 OT Current deployment System Name Profiling 1D 8 Power supply Charger Seguence Profiling 1D Battery capacity 100 Trigger Delay Free storage 7432 MB Duration est 00 10 00 Serial no 7416 Result n a IP address 10 254 1 1 Mon Sep 21 2015 13 31 38 Seguencer panel Shows the status of the autonomous operation of the Field Microsensors Multimeter i e whether it is idle or activel
23. ences window Place the instrument at the study site You may need to move the motors to posi tion the sensor before starting the autono mous sequence The sequence can be started directly from the Sequences window by selecting RUN or RUN WITHOUT DELAY or by marking it ready for activation the next time the START button is pressed When the measurement time has elapsed retrieve the instrument DEPLOYMENTS IN THE LABORATORY USING THE PC 1 2 20 Connect the Field Microsensor Multimeter to the PC Start SensorTrace Suite a Use SensorTrace Logger or Sen sorTrace Profiling for calibration of the sensor and for controlling the motor For more information please read the SensorTrace Suite manual b The Field Microsensor Multimeter can also be controlled from the PC by using Programming Tool Please read the Programming Tool manual for further information Data export and processing For the data to be accessible you have to download them from the Field Microsensor Multimeter to the PC Using SensorTrace Suite L The Field Microsensor Multimeter should be set on Direct in network mode in the Settings window In Status the IP address of the Field Microsensor Multimeter should be visible Start either SensorTrace Logger or Sensor Trace Profiling Select FILE and e g Down LOAD LOGGER EXPERIMENT FROM DEVICE Select the deployment s you want to down load from the Field Microsensor Multimeter Logger
24. experiments will be saved as x ulog files and profiling experiments as x upro files Make your post data analysis in SensorTrace Logger or Sensor Trace Profiling Using Programming Tool kb The Field Microsensor Multimeter should be set on Direct in network mode in the Status window and the IP address of the Field Microsensor Multimeter should be visible Select CONNECT in Programming Tool to connect the Field Microsensor Multimeter to the PC You can see the list of download files under Target Service Development data service In the Deployment data service you can download a complete deployment file 21 package or multiple deployment files by highlighting several deployment s and pressing DOWNLOAD SELECTED Likewise single or multiple deployments can be deleted The Programming Tool will prompt for a download directory or automatically place the files in the Windows Download folder Each sequence file will download several files e g a ddmmyyyy_hhmmss_data txt b ddmmyyyy_hhmmss_calibration txt c ddmmyyyy hhmmss optodel txt d ddmmyyyy_hhmmss_log txt Data downloaded from the Field Microsensor Multimeter are in a readable text format which can be imported into e g Excel for further data analysis For futher information please see the Programming Tool manual 22 FIELD MICROSENSOR MULTIMETER USER INTERFACE The Field Microsensor Multimeter is shipped with a full graphical user interface that allows
25. he data are now imported into the SensorTrace Profiling software and further data handling can be made 4 2D MOTORIZED PROFILING Here you define the 2D motorized profiling sequence along a depth and side gradient For 2D profiling the z axis Field Motor should be connected to the Motor1 connector and the x axis Field Motor to Motor2 As an example we make a sequence profiling into a sample with a step size of 100 um 20 mm into the sample Hereafter Motor 2 will move the sensor 1 cm and start a new profile into the sample This is repeated 10 times After the 2D profiling is finished Motor 1 and Motor 2 are placed at starting point 0 mm The 2D profiling sequence is made in the following Way 1 Goto the Sequence window on the Field Microsensor Multimeter place the green selecting bar on any sequence and press SELECT 2 Select ADD SEQUENCE and PROFILING 2D Add sequence Profiling 1D Select item or close with or gt 3 Name your profiling sequence and add op tional an estimated time in minutes for the profiling sequence The saved sequence will be listed in the Sequences window Profiling 2D General 1 3 Name Profiling 2D Duration estimate mins 0 Gencel Go to next page 4 Add the different parameters in the motor ized 2D profiling program see example below The detailed description of the different parameters is found under the 1D profiling seguence section Profiling 2D Seguenc
26. her the seguence should have a delay or not and if so how ling in seconds the delay should be 5 Select DONE when the seguence is ready 6 Before starting the seguence place the Field Motor at your start position Reset the position to 0 mm under the Motor window in the Advanced control menu 7 Select the PROFILING SEQUENCE in the Se quence list and press RUN This will start your profile All profiles of a 2D profiling cycle are stored in one file You can repeat the 2D profiling sequence by selecting RUN again Each 2D profiling series will be stored in a separate file Alternatively activate your sequence by selecting MARK AS ACTIVE and subsequently START on top of the Field Microsensor Multimeter When the 2D profiling sequence is finished you can start a new series on START All files will be stored in one file When importing the file into SensorTrace Profiling all profiles will be listed in the Experiment window 2D profiling data made on the Field Micro sensor Multimeter can be imported to the SensorTrace Profiling software for activation calculations You download the data in the following way Connect the Field Microsen sor Multimeter to the computer and make sure that the Network mode in the Settings window is set to Direct Start SensorTrace Profiling select DOWNLOAD PROFILING EXPERI MENT FROM DEVICE in the File tab and mark the experiments you want to download The downloaded files are stored as x upro T
27. lculations You download the data in the following way Connect the Field Microsen sor Multimeter to the computer and make sure that the Network mode in the Settings window is set to Direct Start SensorTrace Profiling select DOWNLOAD PROFILING EXPERI MENT FROM DEVICE in the File tab and mark the experiments you want to download The downloaded files are stored as x upro The data are now imported into the SensorTrace Profiling software and further data handling can be made 45 DEPLOYMENTS The Deployments window shows an updated list of already run sequences The result file name specific sequence name and running dates are listed along with the result of the run e Pe sensors Motors Signal plot Sequences Deployments tatus settings Name Result Sequence Data size Created Waiting 10 seconds 105 144 Completed Waiting 10 seconds 105 1 1 KB Mon Sep 15 2014 09 00 39 Waiting 10 seconds 105 143 Completed Waiting 10 seconds 105 1 1 KB Mon Sep 15 2014 08 59 54 Waiting 10 seconds 105 142 Completed Waiting 10 seconds 105 1 1 KB Mon Sep 15 2014 08 59 35 Waiting 10 seconds 105 _141 Completed Waiting 10 seconds 105 1 1 KB Mon Sep 15 2014 08 59 17 Waiting 10 seconds 100 140 Completed Waiting 10 seconds 100 1 1 KB Mon Sep 15 2014 08 58 04 Waiting 10 seconds 100 139 Completed Waiting 10 seconds 100 1 1 KB Mon Sep 15 2014 08 56 45 Waiting 10 seconds 105 138 Completed Waiting 10 seconds 105 1 1 KB Mon Sep 15 2014 08 5
28. n external battery the system will be powered from this power source and not draw power from the internal batteries Computer output input The PC communication cable is connected to the COM connector allowing a communication between the Field Microsensor Multi meter and computer Sequences made in the Programming Tool software can be added to the Field Microsensor Multimeter and data logged on the Field Microsensor Multimeter can be down loaded onto the computer using the SensorTrace Suite software External units The Field Microsensor Multimeter can be expanded to interface with other external units Three serial communications connectors and one digital input output connector 3 3 V I O are available depending on the hardware and software configuration 15 For instance an optical oxygen sensor connected to the Unisense Field Optode Meter can be useful to make an independent check of the ambient oxygen concentration The Field Microsensor Multimeter is also prepared to activate external units e g a light source water sampler etc The architecture of the Field Microsensor Multimeter is flexible and it is possible to interface to other units e g a reference oxygen sensor CTDs and MicroOptodes Cables and connectors The cables used for the Field Microsensor Multimeter are all fitted with LEMO splash proof connectors The motor and sensor cables are as a Standard 5 m GETTING STARTED In the following a short des
29. n the MeasureSamples window and the active sequence will be stored as a separate file You can stop a running sequence at any time by pressing the STOP button 36 MeasureSamples Profiling 1D Run Run without trigger Mark as active Add seguence Delete Select item or close with or gt Run Selecting RUN will start the seguences Run without trigger Selecting RUN WITHOUT TRIGGER starts the seguence without a trigger or delay even though it has been programmed so in the sguence Mark as active A seguence that is marked as active can subse guently be started by pressing the START button or by selecting RUN Add seguence Here it is possible to make 1D and 2D profiles Delete Here you can delete a seguence Add seguence Add seguence Profiling 2D Select item or close with or gt NOTE All measured data in an interrupted sequence will be stored 37 1D MoTORIZED PROFILING In Add seguence it is possible to make a simple 1D or 2D profiling seguence For makinga 1D profile the Field Motor z axis should be connected to Motor 1 on the Field Microsensor Multimeter For 2D profiling the x axis Field Motor is connected to the Motor 2 channel Profiling 1D General 1 3 Name Profiling 1D Duration estimate mins 0 Cancel Go to next page In the first window you add following information 1 Name Here you name the Profiling sequence The name of the sequence will sho
30. ne workday 57 APPENDIX FiELD MiCROSENSOR MULTIMETER SPECIFICATIONS FiELD MICROSENSOR MULTIMETER NPUT CONNECTOR Sensor Reference for mV channels AMPLIFIER Types Number Polarization Polarization range Input range Input impedance mV channels RESPONSE AND CONTROL Response time 90 Signal gain factor adjustment Signal offset adjustment Control POWER Power supply Battery operation time 25 C A D cONVERTER Resolution Sampling frequency INTERFACE Interface Communication Analog output DATA ACQUISITION SOFTWARE Field Multimeter Programming Tool SensorTrace Suite Other Unisense software Data rate Software data output DISPLAY Display PHYSICAL Dimensions Weight ENVIRONMENTAL Temperature range 58 Lemo Splash Proof IP68 Subcon plug on the cable of the measuring electrode Picoampere pH mV Temperature 5 2 1 Digitally adjustable N A N A EW N A N A 4500 pA 45 nA 4500 mV 10 100 C 450 nA 4 5 uA N A gt 10 Ohm lt 35 msec 1 10 2 5V Motors up to 2 z and x axis Field MicroOptode Meter 3 serial RS 232 UART I O 4x digital 3 3V Batteries internal LION 78 Ah External voltage 9V 5 28V Normal usage approx 60 h Power Save w screen off approx 75 h 16 bit 10 kHz On device control Remote programming tool Ethernet Optional Included Optional Logging only Optional SensorTrace Profiling Up to 10 samples sec CSV file Graphical 7
31. nit wa Polarization voltage mV 800 Offset mV 0 Gain 1 ADC input range 11V Preamp range mV Pa 1 Calibrated unit Calibrated unit Here you can select different units Choose the most appropriate unit for your measurements Data used for acti vation calculations in SensorTrace Profiling have to be in umol L Polarization voltage Add the polarization voltage in mV for the sensor if the sensor is not recognized For the correct polarization voltage value see the sensor manual Offset When the sensor signal is out of range you can use the offset to move the signal by 2 5V Gain Here you can increase the signal amplification by choosing a 26 value between 1 and 10 ADC input range By default the ADC range is set to 5V At low sensor Signals it is possible to increase the bit resolution on the display by selecting an ADC input range of 1V or 2V Preamp range The appropriate range is the lowest range that can accommodate the highest signal to be measured The range 1 mV pA is selected per default If the expected maximum signal in this range exceeds 4500 mV the range should be changed to 0 1 mV pA If the expected maximum signal is less than 50 mV in the 1 MV pA range then the 10 mV pA range should be selected Please refer to the individual sensor manuals for further information about amplifier settings SENSOR CALIBRATION The sensor can be calibrated directly from the Field Microsensor Multimeter Plea
32. on and data retrieval e Programming Tool software for advanced programming of the Field Microsensor Multimeter Not included to be ordered separately e Unisense Field Microsensors O Ha N20 NO NO Temperature pH H2S Redox with 5 m cable and LEMO splash proof connection Can be custom made with up to 10 m cable e External units e g other sensors optodes light sensors etc e Unisense Field Motor e Motor cable 5 m FMM MOT001 Can be custom made up to 10 m e PC communication cable FMM COM001 Can be custom made up to 70 m e LAN communication cable FMM COM003 e External power supply Unisense External Battery and cable FMM BAT001 Third party power supply cable FMM POW001 Specify cable termination e g banana plug 17 e Sensorlrace Profiling software e Any PC with web browser for software update SOFTWARE FOR THE FIELD MICROSENSOR MULTIMETER SensorTrace Suite The Field Microsensor Multimeter is compatible with SensorTrace Logger Profiling Rate and Photo SensorTrace Logger included and SensorTrace Profiling are the two most used programs in combination with the Field Microsensor Multimeter SensorTrace Profiling offers time series data logging along a path It can visualize these measurements and calculate activity rates WITT Files stored on the Field Microsensor Multimeter can be saved into SensorTrace Suite compatible files and subsequently be used for fur
33. ontrol When the Reset Position is set to O mm the Field Microsensor Multimeter will use the current motor position as 0 mm depth Advanced control Motor 1 advanced control 1 0 0 100 5 003 mm Stopped 0 003 mm Close Move distance Here you can add the distance in mm the motor should move in step forward and step backwards in the Motors window Move to position Adding a depth position moves the sensor to the defined position relative to the depth given in Reset position W 0 Reset position Here you define your zero depth If you e g have moved the motor so the microsensor tip is placed at the water sample interface and you want to define this depth as your zero depth add 0 and select RESET POSITION Start forward backwards START FORWARD activates the motor downwards and away from the motor head START BACKWARDS will move the motor upwards and towards the motor head Stop The STOP button stops the motor The motor will also stop when pressing the red STOP button on top of the Field Microsensor Multimeter Speed Here you can control the motor speed ranging from 0 to 100 percent If you add 100 percent the motor will run with a speed of about 1 mm per second Step size The Field motor comes with a factory calibration The step size listed here indicates the minimum steps in mm the Field Motor can move NOTE When adding a value in Move distance that is lower than the value added in Step size the mot
34. or will not move 31 SIGNAL PLOT In the Signal plot window the real time data collection from the microsensors and motors are plotted and displayed All graphs update automatically twice every second NOTE Live data are not stored on the Field Microsensor Multi meter Only data recorded by a sequence can be downloaded on the computer for further processing eg gt Signal plot Sequences Deployments Status Settings O Plot calibrated Motor time minutes 0 8 0 6 0 0 2 0 0 8 2 0 6 3 049 0 2 3 0 0 4 Signal time minutes 395 00 mV 0 453 mm piotoptions D Plot option In the plot option you can select the motor movements and sensor signals you wish to see on the display 32 Plot options General Series Plot calibrated Gi Channel 1 Show al rid O Motor 1 mmm mmm pm mmm mmm mlm O signal g ON ORE Show motor grid Auto adjust scale Auto adjust scale Dependent axis min GI Dependent axis max I Time axis span 1 minute Dependent axis min GM Dependent axis max Signal axes Motor axes Time axis span 1 minute n ent Save changes and close General You can choose to see the sensor signal and or the motor movements on a white background or a reader friendly grid plot Series Here you can highlight which sensors and motors you want to see signals from SELECT ALL displays signals from all the sensors and motors connected to the Field
35. ork ID is xx 1 see Status window If more than two instruments are connected to the computer each instrument should have its own Network ID 1 2 3 4 50 Firmware update You can update the Field Microsensor Multi meter firmware when connected to a PC Selecting the Firmware update button will give you the web browser address you should navigate to e g http 10 254 239 1 SoftwareUpdate html For further description see the software update section Product information Shows the basic information about the instrument Software version and contact details are found here as well Product information Field MultiMeter Product version 1 4 0 Copyright C 2013 Unisense Science a s For support and information sales unisense com Close with or 51 BATTERY AND EXTERNAL POWER BATTERY CHARGING AND MAINTENANCE The Field Microsensor Multimeter contains an internal rechargeable battery that powers the whole system The nominal capacity is 13 Ah 25 C There is an undercharge protection circuit which in practice leaves an operation time of approx 20 hours The battery is a Lithium ion type Li lon It has a very low self discharge rate and will remain charged for at least one year when not used Charging the battery If the batteries run low recharge the Field Microsensor Multimeter by plugging the charger cable FMM CHG001 into the Power channel of the Field Microsensor Multimeter In the Status window on th
36. p is applied to avoid water and dust to get into the connector Unisense Microsensors equipped with LEMO splash proof connectors can be directly connected to the Field Microsensor Multimeter The microsensors connection goes directly into the Field Microsensor Multimeter with full recognition and polarization setup of most Unisense microsensor types The microsensor signal is in the picoampere and microvoltage range and is amplified within the Field Microsensor Multimeter JI D WL a N Ez d ZS VS m N k Motor1 INN NN 4 f A Motor Photo 3 Connectors for auxiliary equipment 14 Motor The Field Microsensor Multimeter can control a high precision profiling motor in a linear stage system It controls the high precision movement of multiple sensors mainly in the vertical direction into the sample of interest 1D The Field Microsensor Multimeter is designed to function with 1 or 2 motors optional 2D system with full positional feedback Encoder signals from Motor 1 and Motor 2 are used to calculate the precise position of the linear stage and thus the sensors The Field Motors are connected to the Motor1 and or Motor2 connector of the Field Microsensor Multimeter Charging The Field Microsensor Multimeter battery is charged when connecting a power cable to the Power connector For long term deployments an external power supply unit is necessary When using an external power source like a
37. s for long term studies with continuous and automated measurements in the field The Field Microsensor Multimeter is designed for outdoor measurements right where the action takes place The Field Microsensor Multimeter comes with 8 channels for multi analyte studies and or replicate measurements It can be controlled either directly or online via cables from a PC or run autonomously by a program until retrieved The Field Microsensor Multimeter is delivered with easy sensor connection and automatic sensor polarization for our most common sensors and as a water resistant meter ready for outdoor use The Field Microsensor Multimeter can design sequences for 1D or 2D profiling with a spatial resolution down to 10 um using a Field Motor FiELD MiCROSENSOR MULTIMETER e Outdoor and water resistant amplifier 8 channels with plug and play sensor con nectors 5x pA 2x mV and 1 x temperature chan nel e Field Motor control e Three serial communication connectors and one digital input output connector e Built in fully programmable datalogger e Direct manual PC controlled or autonomous operation e Export of data into SensorTrace Suite for data analysis 10 EQUIPMENT TO USE WITH THE FIELD MICROSENSOR MULTIMETER Included with the Field Microsensor Multimeter e External charger with cable FMM CHG001 e PC communication cable 5 m FMM COM001 e SenssorTrace Logger software for system check setup calibrati
38. se refer to the sensor manual for information on which solutions to use for calibration A two point calibration is sufficient for most sensors It is recommended to use more than two standards 3 Le AN Signal plot Sequences Deployments Settings O Plot calibrated 700 650 E 600 a 550 500 0 8 0 6 0 4 0 2 0 Signal time minutes 713 00 mV 27 Calibration procedure 1 Prepare the calibration standards 2 Selectthe sensor channel of the sensor you wish to calibrate Select CALIBRATE in the Channel window 3 Place the sensor in the first standard Add the concentration of your standard 1 in Cali brated Value When the raw signal is stable select ADD POINT You can add several points for each standard and a middle value will be used Any point can be discarded during the procedure Select the point and delete 4 Repeat procedure 3 for one or more stan dards 5 When the values of all the standards have been placed select APPLY and the calibration is calculated and stored immediately 6 Acalibration can be deleted by selecting DISCARD 7 Calibrated values can now be shown in the Signal plot window as well as in the sensor signal display EXPORT OF CALIBRATION DATA The calibration values can also be downloaded through the SensorTrace Suite or Programming Tool software where both the raw mV signals and the calibrated values are shown for further information see the Data Export and Pro
39. sensor Multimeter is restarted it is ready for use again All user data and persistent settings will be retained across a software update 56 TROUBLESHOOTING Problem Possible cause Solution Problem Possible cause Solution Problem Solution Problem Possible cause Solution After a sequence is done the motor moves to an undefined depth The motor has not been reset to e g 0 mm before running the sequence Add the correct reset position into the Motor window under advanced control and reset the motor Two or more windows on top of each other A double motor action e g a motorized sequence is running while the same motor is controlled manually from the Field Microsensor Multimeter Reset the Field Microsensor Multimeter by holding the OFF button down for approximate 20 30 seconds The Field Microsensor Multimeter will not turn OFF and a green screen is shown Reset the Field Microsensor Multimeter by holding the OFF buttom down for approximate 20 30 seconds Data logger file is missing The active sequence has an unbroken error which is displayed in the log file Test the sequence in the Programming Tool software and change the settings so it gives a correct sequence How to test a sequence is described on page Test a Sequence section If you encounter other problems and need scientific technical assistance please contact sales unisense com for online support we will answer you within o
40. ther data analysis Programming Tool included The Programming Tool software is used for an advanced use of the Field Microsensor Multimeter In Programming Tool it is possible to build advanced sequences and load them onto the Field Micro sensor Multimeter GENERAL FEATURES The Field Microsensor Multimeter logs the analogue signals from the microsensors position data from the field motors and all digital signals from external equipment For the synchronization of these signals the Field Microsensor Multimeter uses high speed background data sampling and data is therefore available with your defined sampling speed e g 10 times per second The Field Microsensor Multimeter has 8 GB data capacity corre sponding to more than 120 days of data acquisition at 10 Hz The Field Microsensor Multimeter has internal batteries that will allow the system to run up to approximately 20 hours at 25 C The Graphical 7 LED display has 800 x 480 pixels and 18 bit color with high contrast allowing a good field reading Microsensors The Field Microsensor Multimeter has input for up to 8 microsensors at the same time Channel 1 to 5 are amperiometric sensor channels Red box channel 6 and 7 are potentiometric channels Blue box and finally channel 8 is a temperature channel Green box ay e gt 2 Photo 1 The sensor channels of the Field Microsensor Multimeter 13 Photo 2 When a channel is not in use a protective ca
41. w in the Sequence window m Duration estimate mins Here you can add the estimated time in minutes of the profile If you don t know the duration of the profile you just add 0 To continue select NEXT In window two you define the profile Example Profiling from a surface 0 mm and 12 mm into the sample in 50 um steps After each step the program waits 5 seconds to stabilize the signal before it measures in 3 seconds and notes the average value Only one replicate is made at each step and after the profile is finished the sensor is placed 5 mm above the surface Only one profile should be made 38 The sequence will look like this Profiling 1D Seguence parameters 2 3 Number of cycles Safe mm Start mm End mm Step size mm Replicates Wait before measure s Measure period s Delay between cycles s Previous Cancel ks Number of cycles Set the desired number of cycles here In a 1D setting one profile is identical to one cycle Safe mm The Safe position is the position where the motor will rest between cycles The safe position is to ensure that the sensor is resting outside the tissue or sediment between replica profiles Start mm The depth position relative to the Home depth from where the profile is started Negative values are above the surface and thus normally the start position should be negative or 0 End mm The depth position relative to the Home depth where th
42. y running a seguence The elapsed time and current step of the executing seguence is continuously updated When the status line shows armed the Field Microsensor Multimeter is waiting for a trigger external switch or a programmed delay A trigger can be activated before time by selecting the TRIG BUTTON 48 Log messages Holds a list of information on the last running autonomous sequence status messages etc This log file can be downloaded using the Programming Tool software See more information in the Programming Tool manual Context Message Timestamp System Sequence ended Result Completed Mon Sep 15 2014 10 07 46 Datalogger Measuresamples Leave with result 1 Mon Sep 15 2014 10 02 46 DataloggerMeasuresamples Enter with Frequency 1 samples 2 Mon Sep 15 2014 10 02 44 System Running sequence Measuresamples 2 seconds deploym Mon Sep 15 2014 10 02 44 System Starting previously armed sequence Mon Sep 15 2014 10 02 44 System Waiting for trigger Mon Sep 15 2014 10 02 43 Close with or Last deployment Holds information on the last completed autonomous sequence and whether it has completed success fully This information is needed if you return to the system after a longer unattended deployment System panel Contains real time updated information on the connections power source battery status and finally storage capacity left for further deployments The power supply will show when an external battery is connected
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