Installation guide and users-manual of the Pod
Contents
1. Installation guide and users manual of the Pod and Schottelsteering SST1 IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 1 14 Thank you very much for choosing our Pod and Schottelsteering SST1 Please read the entire user s manual carefully prior installing and using the device This user s manual contains important safety instructions detailed information about fitting parameterization and operation of the SST1 steering You will recognize even the steps are complicate in reading will work out pretty simple as we have concentrated on practicality during engineering If you face any additional question about the initial installation the parameterization or the operation please view our videos at www imth de or contact us This user s manual is part of the product Please keep it safely and in case of forwarding the product to a third party please make sure the user s manual goes with it Any non observance of this user manual or the safety regulations will result in void of warranty Continuous improvement is driving our work Therefore scope of delivery in form function design and technical ability might be subject of change Please be aware that no claims can be derived out of any pictures given information descriptions and drawings Delivery contents 1 x user manual 1x PCB SST1 1 x disc Magnet Safety The SST1 PCB is designed to operate in models of ships and is only allowed to be used in that way2. Servos and remote controls are not able to provide such realistic steering because the Servos are limited with no endless turn You overcome this boundary with your SST1 steering first time Maneuvering your model ship absolutely as real is now possible with standard model components After fitting the SST1 and accompanying mechanical and electrical adjustments you need to align the SST1 to your remote control and pod This parameterization only need to be done once as all settings will be saved The settings are available to upload at next restart Basic requirements to use the SST 1 To enable your ship for realistic steering with the SST1 your model needs to provide following two basic properties 1 Your pods can show a 360 electrical turn without the given turn limit You have two options to achieve this requirement e A speed control directs an engine in both directions This engine is linked to a gear and achieves an alternative turn of the pod e You choose a Servo and remove the turn limitation Doing so you achieve a single unit including speed control engine and gear in one housing The recommended 2nd option to simply remove the turn limitation and keep using the professionally built combination of speed control engine and gear is shown in an example video on www imth de 2 The actual position of the pod needs to be recorded by a sensor which is directly on the SST 1 board The sensor uses a magnet to record the p
3. Run through every single endpoint of the joystick within 5 seconds It doesnt matter if you take this action clockwise or counterclockwise Once finished let the joystick go back and stay in neutral position During this step the LED is on constantly The steering detects some settings of the Pod automatically In case your speed control is connected the propeller might start turning After the settings have been detected the Pod speed goes close to zero related to the servo When the LED goes back flashing quicker again the step is finished and you can proceed to step 6 Now you have to stop the Pod Servo by using the joystick To do so you have to move the joystick in one of the 90 degree positions While doing this you will recognize the Pod is going faster or slower In case the Pod goes faster you need to move the joystick to the opposite position Once the servo is not turning and also not changing the position of the Pod the Servo is also not allowed to make a noise press the button and continue with the next step please The LED flashes slowly now In case the speed control is connected you need to stop the propeller using the joystick Refer to step 6 to control the speed using your joystick Once achieved a full stop of the propeller press the button and continue If you want to parameterize your speed control at a later stage overtake the settings Now we start to adjust the Pod to run straight The LED is flashing sl
4. Use this device only within the given specification see table of specification Store and use the SST1 steering only in a dry environment Any mechanical or electrical change to the steering or exceed of the specification will result in immediate loss of any warranty against the manufacturer Any damage to the guarantee seal on the bottom result in immediate loss of warranty also Pay special attention of running in Master Slave mode is more unsafe You should only operate this mode in a safe environment More details are under Master Slave Mode at page 11 of this manual Check the correct operation and function of the steering out of the water prior any ride Specification Voltage 5 5 10 0 V Operating Power ca 30 mA at 6 0 V Max Power 1 0 A Impulse In lt DDV Impulse Out ca 5 0 V Weight ca 15g Size BxTxH 80 x 40 x 12 mm Operating Temperature 0 40 C Demanding Channels 2 IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 2 14 Introduction Different ways of steering are common in navigation Also one is named Pod propulsion and offered by different manufacturers All of them have one thing common The Pods are able to run a full circle with no limit in turn As the direction to move the propeller keeps always the same you only achieve a change of direction by turning the propeller half a circle The benefits of such engines are not only the ability in exact maneuvering The available
5. f needed also in this case 80 0 32 0 4 0 40 0 IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 4 14 Electrical Installation For a safe use the pcb needs unshielded DC of 5 5 10 0 Volts which have to be connected to the headers X1 and X2 Pay attention that all connections within the SST1 are connected with each other as well as all connections With a DC of 5 5 to 10 0 Volts you should be able to connect the servo and the speed control to the header X2 directly only if the power carries less than 1 0 Ampere Pay attention to the max operating Power In the case the DC is higher 6 0 V normally most servos are not capable In this case you have to disconnect the to the servo or the speed control and reconnect to a suitable power support On the pulse inputs it is allowed to have max 5V only This will normally be the case if you have a direct connection from the receiver to the SST1 You can run the SST1 with 5V also To do so you have to place a solder bridge und cut a small trace Attention Following the modification some safety precautions will be overridden and you will lose the warranty Best if you use a BEC module providing 5 5 V to run the steering in this case In any case the operating power exceeds 5 5 V the steering will be destroyed If you still want to modify cut the existing bridge at J1 between 2 3 and solder a new fine bridge from 1 to 2 Sensor X4 LED DIP Switch B
6. ing two of the SST1 steering you have the option to handover the settings of the Master to the slave To enable both steering have to parameterize first In Master Slave Mode the slave will try to align the Pod analog to the Master You will run the master and the slave with the same joystick This mode is useful if you do not need to maneuver exactly or run your model by one joystick only The unused joystick you might use for other functions simultaneously You have to consider the negative side of this mode first The Master is sending data to the slave by a wire Normally this causes no issues and the slave receives the data safely Due to the way of transfer external influences might cause disruption and create data mismatch resulting in unexpected reactions of your model Please operate in Master Slave Mode when any danger can be excluded only Enter in Master Slave Mode only when master and slave have been connected with the data transfer wire and both have been operating at least 5 seconds without relation In case data transmission gets lost in Master Slave Mode the slave will hold and keep the data received latest the failsafe function is disabled in this mode It might occur that your model keeps going with full power Run in Master Slave Mode only when you are able to exclude any danger or damage For data transmission a wire from Master X1 9 to Slave X2 2 needs to be maintained The Master Slave Mode will be switched
7. on through the connection X2 1 using a wire which is connected to ground In case the slave moves opposite to the master exchange the 2 wires between the receiver and the master and parameterize the Master again Master Slave Wire to switch on the Master Slave Mode Data transmission wire Gleceeceeecee gt IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 11 14 Failures and possible root causes LED is flashing during parameterization Magnet is not close enough to sensor Remote control were not detected The Joystick is not set correctly LED flashes inconsistent Magnet is not close enough tot he sensor The Pod turns in the wrong direction The direction has been set incorrect during after parameterization see Step 3 The Pod turns slowly in 1 direction Potentially during Step 6 you have set the servo not precise enough for the turning the servo is not allowed to give any noise even hum or buzz nor trying to find another position Firmware Update Constantly we are working on improvements of our products This might result in enhancements of the software i e to integrate new functions or even safer operation Always we will deliver product with the latest software In case your steering carries older software feel free to send it to us for an update You will find further information for available updates at www imth de or contact us at service imth de or 49 40 67 38 05 27 IMT Innova
8. osition of the pod without touching it The magnet moves analog to the pod above the sensor lf the pod carries a full circle the magnet needs to do the same Right now it is uncritical if the direction of both turns are synchronic or opposite Important is the analogy of the two turns to provide a 1 1 balance of magnet to pod IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 3 14 Mechanical Installation As you already read the revolving magnet needs to be installed above the sensor The sensor is located in the middle of the SST1 in the smaller part of the pcb which is separated from the main part by the dotted line The magnet needs to be installed centered above the sensor with a distance of 0 5 to 1 5mm For your easier installation we have provided 4 holes around the sensor The sensor is installed in the center of these 4 holes For further easy identification you will find a cross on the backside of the pcb which also identifies the center As better you place the magnet as more accurate the sensor will recognize the angle of the pod and more exact you can run it If the SST1 dimensions are too big you might separate the sensor part from the main pcb at this dotted line and reconnect the two parts with 5 wires Connection 1 to connection 1 and so force of the row X3 and X4 The connection shouldn t be longer than 10 cm Attention You will lose the warranty carrying out this action Of course we will service you i
9. owly Refer to step 6 and bring the Pod to run straight using the joystick Alternatively you might use your hand to turn the Pod to Straight drive position Once the Pod is in straight position press the button shortly please The LED stops flashing now and the propeller confirm the successful parameterization showing a short run You have now achieved all steps of the initial parameterization and might try out the steering and check out further settings using the DIP switches IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 8 14 DIP Switch The SST1 includes 10 DIP switches which you might use to set the steering towards your personal favor The following table shows an overview of the potential settings Before we like to take the opportunity to describe the single parameters in detail Turnout speed Straight Zero position Turn without drive Drive speed Reversal of direction Using DIP 1and 2 you can change the turnout speed of the Pods With DIP 3 you can set if the Pod goes automatically in the degree for straight drive in case the joystick is in neutral position or it stays in the degree lastly set by the joystick With DIP 4 and 5 you are able to choose 1 out of 4 different sized areas around the neutral position of the joystick just to allow smaller movements of the joystick will not affect the Pod and suppressing minor fluctuations of the remote control signal This is shown as N in the d
10. rawing Here again you have an area of tolerance D which you can choose out of 4 scales Within this area the Pod will be able to turn without the Pod starts driving The propeller starts driving when the joystick gets out of area N and D only In this area of tolerance you have to pay attention to following As larger you make this area as smaller gets the remaining way from starting to reach full soeed With a smaller way the speed is harder to adjust Again you have 4 options using DIP 8 and 9 to reduce the maximum speed of the propeller In case your Pods thrust forces the wrong direction do not use your soldering iron just switch DIP 10 and here you go with your Pod is reversing the direction IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 9 14 DIP switches short instruction turnout speed To achive a realistic behaviour the speed of the Pod can be reduced In neutral position the Pod will run straight automatically Area of tolerance around the neutral position to balance smaller fluctuations of the remote control Within this area of tolerance the Pod can be moved around without the engine starts DIP 3 DIP 9 The maximum speed can be reduced down to 55 reverse the direction DPS Moving this switch will reverse the direction of the engine N OFF anti clockwise 4 IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 10 14 Master Slave Mode In case you are us
11. the same or opposite direction In case the direction is synchronic to the magnet please remember right otherwise left which you will need in step 3 Any mistake during the parameterization will be shown by the LED flashing for 3 seconds The process will be canceled Various occasions might cause this Please read the section Faults and possible reasons further to the end of the manual Switch on the remote control receiver and all necessary power supplies If you start the parameterization the first time neither the pod nor the engine should move Now we really start Step 1 Place the joystick to the middle or neutral position Press the button for 3 seconds until the LED starts flashing slowly Keep the joystick in the neutral position until the LED accelerates the flash and proceed with step 2 Step 2 Push the joystick to the straight drive position You might choose a different position as shown but only in 90 raster Keep the joystick in this position until the LED slows down again and move on to step 3 Step 3 Now you will decide the direction of your pods turn If you remember right move the joystick to the right place and keep it in the position shown until the LED flashes quicker again For models with direction left you need to move and keep the joystick in the upper left hand corner which is the opposite as shown IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 7 14
12. tive Modell Technik Hamburg Jurgen Hartwig e K Pezolddamm 127a D 22175 Hamburg Environment This symbol shown on the product states that it is not allowed wasting the product through standard waste systems You have to return it for recycling at a collecting point for electrical and electronical devices Materials are signed to be reusable Recycling will provide an important impact o safe the environment Please contact your local community to learn about the collecting point IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 12 14 Problems with hacked Servo BSM 620MG Fa Conrad the servo is jerky IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 13 14 nm nee nn ann m EE SOONERS mm Konformit tserkl rung Der Unterzeichner der den nachstehenden Hersteller vertritt IMT Innovative Modell Technik Hamburg Pezolddamm 127a in 22175 Hamburg erkl rt hiermit dass das Produkt Pod und Schottelsteuerung SST1 in bereinstimmung mit dem nachstehenden EN Standard DIN EN 5514 1 ist Hamburg 28 02 2013 md The IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 14 14
13. utton J1 A IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 5 14 1 JTL 1 Slave 2 Channel A 2 RxD 3 3 not connected 4 not connected 4 gt IL 5 iu 6 Channel BI 16 X 7 not connected 8 not connected 8 9 TxD 9 Pod 10 Reset 10 Mi opeed control Ch A Ch B IMT Innovative Modell Technik Hamburg SST1 Version 1 3 Page 6 14 First Use and parameterization Now the fun starts Prior the initial operation please double check again ports right order of connections and mechanical structure Start on the remote control to set the trim to zero as well as all DIP switches to OFF on the SST1 steering with the exception of DIP 4 which you set to ON This will restrain the tolerances of the remote control slightly Best for switching the DIPs is using a small screw driver When set to OFF the switches show to the outside In case you are using a programmable remote control do not connect it during the parameterization You can connect the speed control after the parameterization and adjust separate The parameterization is carried out through the joystick only Refer to the following table for the right order The determined results will be stored by the SST1 automatically and ready to use for the next start The parameterization has only be done once or when changes have been applied to any components Prior you have to know the direction of the pod in relation to the magnet Is it running
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