Nedap N V SF2 Inductive Card Reader User Manual D300F 06 Feeding CPS4FSS gb

N. V. Nederlandsche Apparatenfabriek NEDAP Inductive Card Reader D300F 06 Feeding CPS4FSS gb

14_D300F.06 Feeding CPS4FSS gb Manual CGD-SF2

Hardware components for VC4/VC5 Single Feeder 1 / Single Feeder 2 FEEDING PROM CPS4FSS CONTENTS page 1 General 1 2 Operation 2 3 Installation 3 4 Set Address 5 5 Adjust antenna 6 6 Output Configuration 7 7 Display values 8 8 Internal test menu 9 9 Trouble shooting 11 Fig. 1 Overview T/R SF model 1 PCB 12 Fig. 1a Overview T/R Single Feeder model 2 PCB 13 Fig. 2 SF model 1 Feeder cable connections 14 Fig. 2a Single Feeder model 2 cable connections 15 Fig. 3 Display menu CPS4FSS 16 4- 2012 Nedap Agri D300F.eng version 0.6
4/2012 T/R Single Feeding VC4 - 0 - D300F Version 0.6 FCC ID: CGD-SF2 IC: 1444A-SF2 Compliance statements (Part 15.19) This device complies with Part 15 of the FCC Rules and to RSS210 of Industry Canada. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Cet appareil se conforme aux normes RSS210 exemptés de license du Industry Canada. L'opération est soumis aux deux conditions suivantes: (1) cet appareil ne doit causer aucune interférence, et (2) cet appareil doit accepter n'importe quelle interférence, y inclus interférence qui peut causer une opération non pas voulu de cet appareil. Warning (Part 15.21) Changes or modifications not expressly approved by party responsible for compliance could void the user’s authority to operate the equipment. This in particular is applicable for the antenna which can be delivered with this System.
D300F T/R Single Feeding VC4 4/2012 Version 0.6 This documentation is part of the service manual VC4 CattleCode D300. Documentation version 0.6, replacing the last edition completely. Modifications since last documentation version : - FCC text added PROM overview CPS4FSS CPS4FSI 0.04 first release with inverse motor contact CPS4FSS 1.00 motor installation menu added CPS4FSS 2.00 - Menu of the Self test (St) is automatically adjusted to the found values during the output configuration test (Oc). - Modification of motor routine, analogue in stead of digital. - Modification for factory test : by pushing the button during start up the menu for tuning the HF-field will appear automatically. After pushing the button the responder test menu will appear. This function can also be used at installation/test. - Modification for single feeder 2 : extra in- and output squelch menu, SF depending on type CPS4FSS 3.00 Identification : The prom is capable to identify future phase-code activity responders. Feedmotor : The feedmotor may consume a higher current before the transmitter receiver signals an error. St Menu : The test menu will not jump automatically to the next menu item after testing an in- or output Relay output : When an output is configured as a relay output it is possible to block the feeding temporarily. The transmitter receiver will always first read the input before the output is activated. The program will only then continue to activate the outputs when the blocking input is ‘high’ (no connection with I-). Responder Selection : An AM code (X-ponder and Respactor) and a PM code (earbutton and phase code activity) can not be identified simultaneously. A selection item is introduced in the HF menu of the Single 2 transmitter receiver to select one of these modes. This selection item is called rS (responder select). You can make a choice between either rA, for AM code carriers, or rP voor de PM code carriers. Squelch : The adjustment of the squelch in four levels is re-introduced (0,-1,-2,-3 instead of on/of). The default value for the squelch level depends on the transmitter receiver type and the choice of code carrier. CPS4FSS 3.05 - Suitable for HC11E1 micro processor (yellow sticker) - SF2 with 4 outputs: operation of motor on output 4 improved - Menu settings for neutrodynistation have been added. - When overloaded, the time after which the transmitter/receiver switches the output off, is set higher. This means that during congestion or blockade of the auger the motor remains switched on longer. CPS4FSS 3.08 2-hour activity added (Lactivator) CPS4FSS 4.00 Program change for use with SF model 2, 3 and 4
4/2012 T/R Single Feeding VC4 - 1 - D300F Version 0.6 1 General The Transmitter/Receiver Single Feeding (T/R SF) is used for identifying and feeding animals in a feed station. Three or four motors can be connected. • 3 outputs T/R art. nr. 9845062 • 4 outputs T/R art. nr. 9863397 This transmitter/receiver can also be used for a floor antenna in the feed station for leg respactors, see special chapter at the end. CPS4FSS The name of the EPROM for the standard feed station is CPS4FSS x.xx. Description of the code : Cattlecode Poiesz Single feeder VC4 Feed Station Standard, x.xx = version number. This VC4 Transmitter / Receiver can only identify responders with a fast code (X-ponders and respactors) T/R-single 1 and T/R-single 2 The T/R-single 2 is the new generation hardware for the T/R-single. The PCB has been re-designed in order to meet the new EMC demands in Europe. Furthermore, the board has been extended with a 4th motor connection. The motor connections are now fully protected against over-voltage and short circuiting. In this module, the existing generation Single feeder hardware will be referenced as T/R-single 1, to distinguish it from the redesigned version, the T/R-single 2. T/R-single 2 : new motor brake circuit On the T/R-single 2 PCB the motor control circuitry has been changed. The new motor connections include a common brake circuitry, that is used to slow motors down quickly. When an T/R-single 1 board is replaced by a T/R-single 2 board, please check the parking-position of the motors that are connected. For every motor connection (output), the use of the new brake circuit has to be enabled. This can be done by means of the “brake jumpers”. These jumpers to the left (“BRAKE” or “BR”) enables the brake system for the corresponding motor. The brake system should be enabled for an output only when a motor is connected to that output. When e.g. a solenoid, or a lamp is connected, the brake system must be disabled for that output. If the brake system is enabled e.g. for a connected lamp, and the lamp is switched on, this will interfere with the brake function of a motor, connected to another port. When over heated the brake circuit will switch off, the brake does not function anymore at that moment, when the temperature drops again, the brake function will restore itself. Compatibility Single 1 versus Single 2 The T/R-single 2 PCB has been set up in such a manner, that all programs that run on the T/R-single 1 hardware, also run on the new board of T/R Single 2.
D300F T/R Single Feeding VC4 - 2 - 4/2012 Version 0.6 2 Operation Feeding - Wait until a X-ponder of a cow is identified in the antenna. - When a cow is identified send the X-ponder number to the process controller and wait for feed data. - When feed data are received, start feeding - First feed 1 will be dispensed, then feed 2 and 3 when connected en programmed - Wait until interval time has passed. - When there is no feed balance left, the feeding will stop Interval time calculation Definition of interval time interval time = time between last motor run (of any connected motor) and the next motor run (of any connected motor) The interval time is calculated per feed type out of the following parameters (supplied by the process controller) : • feed portion size of 1 motor run • feed consumption / minute Calculation of interval time interval time = (per feed type) feed portion-size x 60 (sec.) feed consumption / minute Example : feed 1 • feed portion-size = 100 gr. • feed consumption / minute = 1000 gr. / min. feed 2 • feed portion-size = 150 gr. • feed consumption / minute = 500 gr. / min. interval time feed 1 = 100 x 60 = 6 sec. 1000 interval time feed 2 = 150 x 60 = 18 sec. 500 Proportional feeding The T/R SF feeds proportional, which means that the total feed-amount is fed proportional in time : the ratio between the different feed types is constant. Example : feed 1 • feed portion-size = 100 gr. • feed balance = 3.0 kg. ⇒ # portions = 30 • interval time = 6 sec. feed 2 • feed portion-size = 150 gr. • feed balance = 0.9 kg. ⇒ # portions = 6 • interval time = 18 sec. The portion-ratio feed 1 / feed 2 = 30 : 6 = 5 : 1, which implicates that on every portion of feed 2, five portions of feed 1 are fed. The following feeding-procedure is executed supply 1 portion of feed 1, wait interval time feed 1 supply 1 portion of feed 1, wait interval time feed 1 supply 1 portion of feed 1, wait interval time feed 1 supply 1 portion of feed 1, wait interval time feed 1 supply 1 portion of feed 1, supply 1 portion of feed 2, wait interval time feed 1, wait interval time feed 2 supply 1 portion of feed 1, wait interval time feed 1 supply 1 portion of feed 1, wait interval time feed 1, etc.
4/2012 T/R Single Feeding VC4 - 3 - D300F Version 0.6 PC-calibration In order to work properly, the T/R SF needs additional information from the process controller at start-up. The following data has to be entered in the PC and is automatically transferred at start-up : Data transfer at start-up from process controller →→→→ T/R SF : • HF row-number used in HF-scanning procedure • motor row-number used in motor-request procedure • clixon time used in motor safeguard procedure (< 15 seconds) • motor configuration informs T/R SF that motors or relays are connected • feed portion-size feed amount when motor makes one turn 3 Installation The Nedap guarantee-regulations are only valid when the T/R is installed as indicated in this manual. The following is important : Technical specifications Single Feeder 2 Input voltage 24 VDC -/+10% Power consumption with motors At least 1.5 A Power consumption without motors 0.25 A Max. current per output 3A DC Operating temperatures (environment) -10ºC / +45ºC Transport / storage temperatures -25ºC / +70ºC Humidity (rh) 45ºC / 93% Enclosure protection class (cover and cables installed correctly !) IP65 Never change a prom when the power to the T/R is still switched on ! Shut off the power when service is needed for the station ! Install data cables at a safe distance from (high) powered cables Wiring the T/R Single Feeding Figure 2 shows an overview of the T/R SF cable-connection. Wiring the motors Cable connections between T/R and motor : T/R motor M+ + M1,2,3 M Attention : when using “new” grey motors I1,2,3 I the I- has to be connected to the R of the motor I- R Hardware motor safeguard When the micro processor has no control over the T/R anymore and a motor is running uncontrolled and keeps turning continuously, a hardware circuit on the T/R will stop the motor by means of a relay (25 seconds). This motor safeguard can only be reset by switching off the power from the T/R for a few seconds.
D300F T/R Single Feeding VC4 - 4 - 4/2012 Version 0.6 Software motor safeguard This software function monitors the motor current. If a motor current is detected which is too high (Imotor > 900 mA) for a certain time, the T/R program will try to stop the motor. At the VC4 system this time programmable, the default setting is 15 seconds. If the motor cannot be stopped, the T/R program will shut off the power supply on all outputs. An error message will be sent to the process controller. Motor with 3-wire connection It is possible to use this motor after modification. The green wire must be cut at the cover (near the soldering). The green wire can be connected with a separate connector. The present resistor (under the connection block) must be removed. At motor configuration, "Oc menu", must “1n” appear on the display. This means a normal motor connection. Connections : Green MOTOR COLOUR T/R + red M+ green M1,2,3 - blue I1,2,3 M black I- Max. cable-lengths, wire-ø's and cable colours The cable-overviews in the figures all show Lmax. at wire-ø = 0.8 mm. cable colour C white The values for Lmax at ø=1.0 and ø=1.2 : D yellow Lmax.(ø=1.0) = 1.5 x Lmax.(ø=0.8) - black Lmax.(ø=1.2) = 2.0 x Lmax.(ø=0.8) + red Shielding, grounding In order to protect the VC-System for over-voltages, due to severe thunderstorms, cable A in figure 2 must be a shielded cable. The cable-shield however may not be used as a wire for current-supply. The connection of the cable-shield of cable A is as follows : interface bridge connected to "-"terminal Transmitter / Receiver connected to ground-terminal N.B. All T/R electronics must be isolated from the calf drink station. Also the T/R bottom has to be isolated from the T/R ground-terminal. Warnings • Due to guarantee-regulations, the entire T/R PCB (incl. metal plate) must be changed. • Always replace with same type and rating of fuse.
4/2012 T/R Single Feeding VC4 - 5 - D300F Version 0.6 4 Set Address For communication the Transmitter / Receiver needs an address. Then the computer knows where to send the information to. At the transmitter / receiver with help of the display and the push button the stations address is configured. The two segment display and the yellow push-button must also be used for several adjustments of the Transmitter / receiver. A number of different codes will appear on the display when the push-button is pushed, these codes represent the so-called menus. Each menu on its turn is divided into a number of functions. By varying the pushing time of the push-button, you will get access to the different menus and/or functions. The first time you switch on the power of the T/R, the display will show "0-". The Transmitter / Receiver asks now for the first address. When an address is entered the display will blank out and the transmitter / receiver returns to the normal status. The address setting concerns the following menus and procedures (see figure 3): • Address menu - Set Address - display Address N.B. The address-range of all connected peripherals on the same controller channel is from 1-50. Remember that the used peripheral-address has to be unique on this controller channel. Changing addresses When the display shows SA, the "Set Address procedure" is entered by pressing the button until the display blinks. The procedure is as follows : set decimal-digit display scrolls from 0- through 5- set unit-digit display scrolls from x0 through x9 • to indicate that the "Set Address procedure" has been entered, the display will show "0-" • by pressing the button short, the next decimal will be displayed ("1-","2-"...."5-") • the displayed decimal is entered by pressing the button until the display blinks • when the decimal has been entered, the display will show "x0" (where x = entered decimal), the unit-digit now can be entered • by pressing the button short, the next unit will be displayed ("x1", "x2", .. , "x9") • the displayed unit is entered by pressing the button until the display blinks The following points should be noted • the "Set Address procedure" can be quit by pressing the button until the display blanks. The entered digits then are not stored • the T/R will restart when the address is changed Show addresses When the display shows dA, the "display Address procedure" is entered by pressing the button until the display blinks. The display then shows the T/R address.
D300F T/R Single Feeding VC4 - 6 - 4/2012 Version 0.6 5 Adjust antenna The antenna adjustment has to be done with help of the display, push button, potentio meter (P1) and the tuning capacitor (Ct) on the transmitter / receiver. The T/R HF-menu looks as follows : HF menu Responder Select Adjust Antenna Adjust Power Adjust Squelch Identification • selection of responder type • adjust antenna by means of tuning capacitor Ct • adjust transmitter-power by means of potentio meter P1 • adjust receiver-sensitivity (0,1,2,3) • Test identification ⇒⇒⇒⇒ The antenna adjustment-procedure consists of several steps. It is essential that these steps are executed in the sequence as in the manual described. Responder Select Auto detect of type T/R, 120kHz (for rA and rP) or 134.2 kHz (for ri and r2) rA = AM labels, X-ponder and Respactor (default) rP = PM labels, ear button and Phase code responders ri = ISO responder types (default) r2 = Nedap 2 hour activity meter (Lactivator) Select rS on the display and then rA or rP, press until display blinks to enter. Adjust antenna procedure Select HF on the display and then AA (see figure 3). When the display shows AA, the "Adjust Antenna procedure" is entered by pressing the button until the display blinks. The display now shows the percentage of the maximum transmitting-power of the T/R. The tuning-procedure is as follows : • tune P1 until the display shows a value about 30 (i.e. 30% of maximum transmitter-power) • tune Ct until the display shows a maximum value. During tuning, this maximum should not exceed 95%. If this is the case, the power must be reduced again (P1), the LC-tuning (Ct) then can be continued. When the maximum value is found and it does not exceed 95 (%) you can continue by pressing the button short. The next step is tuning the power with AP. Adjust power procedure After correct processing the antenna adjustment procedure, Ct is adjusted (highest point is on the display now), P1 must be adjusted with help of AP. When the display shows AP, the "Adjust Power procedure" is entered by pressing the button until the display blinks. The display now shows the percentage of the maximum transmitting-power of the T/R. The T/R is equipped with a power-limitter. When the transmitted HF-power exceeds a certain level, the HF-current will be limited automatically. To indicate this, the display will blink, after this point power-increase (P1) is not desirable. The tuning-procedure is as follows : set power-level tune P1 maximal until just before the point where the display starts to blink (SF2 : in most cases 99 and not blinking) You can continue by pressing the button short
4/2012 T/R Single Feeding VC4 - 7 - D300F Version 0.6 Adjust squelch procedure The adjusted squelch determines the sensitivity of the receiver in the T/R. In case e.g. animals outside the station are identified, the transmitted power can be reduced ("Adjust Power procedure") or the receiver-sensitivity can be reduced by means of the squelch-adjustment. Normally squelch does not have to be adjusted (automatically set to default) When the display shows AS, the "Adjust Squelch procedure" is entered by pressing the button until the display blinks. The display now shows the actual sensitivity of the receiver, a value from "-0" (most sensitive) "-1", "-2" or "-3" (less sensitive). By shortly pressing the button, the desired squelch can be adjusted. The setting can be entered by pressing the button until the display blinks. Advised and default Squelch settings CPS4FSS 3.00 Single Feeder model 1 (9842616) Squelch = 0 Single Feeder model 2 (9863311 or 9863320) AM CODE Squelch = -2 Single Feeder model 2 (9863311 or 9863320) PM CODE Squelch = -1 SF2 CPS4FSS 2.00 and SF2 CPS4FSS 3.00 with output 4 in use: Two levels “ON” and “OF” are available to set te Squelch level Note : AS can be used to reduce the HF-field if animals are identified outside the station, check if the identification is still sufficient 6 Output Configuration Since PROM version CPS4FSS 1.00. The “Oc-menu” is used as output installation menu. When selecting the menu option all outputs are tested. This means all the specific outputs are activated for a certain time. In this period the T/R monitors the input and the current. After this period it decides what is connected to that specific output. The result will be in the memory of the T/R until the outputs are changed. The following situation are possible: Connected to output display (x = output) motor, connected normally x n motor, connected inverse x i relays (or lamp) x r nothing x - If a motor is connected the motor will be turned to the start position. From now on the output configuration is determined, until the menu is selected again. The output install menu is selected automatically at start-up and when a PROM with a other version number is installed. Output configuration Motor Test Using the “Oc-menu” Select “Oc” on the display. Press the button until the display blinks. Select “Oi” on the display. Press the button until the display blinks. All outputs will be tested now.
D300F T/R Single Feeding VC4 - 8 - 4/2012 Version 0.6 7 Display values During operation, the program steps through different program-states which are monitored on the display. This gives information about the state of the T/R and therefore can be used as an extra service tool. The indication on the display is as follows : Start process : status 0-5 status description of the status 00 start : processor-initialisation 01 wait for valid address, "SA"-menu is started automatically 02 No communication with computer. Request for total peripheral number. At installation, the process controller asks here for peripheral information 03 request for external data 04 T/R SF under test 05 start-up process finished, task is killed Feeding process status description of the status 10 wait until cow identified 11 cow identified and wait for feed-data 12 check if cow has feed balance for connected motors 13 motor-request 14 motor active. This state contains several substates, see table below 15 wait until interval time has passed 16 no feed balance (left), wait for cow to leave station Motor rotation status description of the status 20 measuring motor current (check motor running) 21 read I-contact (must go low first) 22 read I-contact (must go high again) 23 M-output is switched off, wait until motor current is off
4/2012 T/R Single Feeding VC4 - 9 - D300F Version 0.6 8 Internal test menu The different functions of the transmitter / receiver can be tested by means of the push-button. A special program is build into the prom of the T/R. On the display this option is called "It", which stands for "Internal test" The Internal test menu is a powerful service tool in case of system-service. The T/R stores registered errors which can be displayed on demand of the trouble-shooter. Also the T/R can execute a complete self test on demand, the test results also are displayed. Internal test menu − display Error procedure − Self test menu : depends on result of the “Oc-test” Display error procedure The detected errors are stored by the T/R itself and can be monitored on the display. When the display shows dE, the "display Error procedure" is entered by pressing the button until the display blinks. Two types of messages can be displayed by the T/R : • error-messages (E1) • warning-messages (E2, not used yet) The procedure shows all registered errors on the display, one after the other, proceeded by the message-type. First all error-messages will be shown, then all warning-messages. error description how to handle - - no errors 01 error detected in motor 1 perform self test motor 1 02 error detected in motor 2 perform self test motor 2 03 error detected in motor 3 perform self test motor 3 04 error detected in motor 4 perform self test motor 4 07 motor hardware error : • no outputs were active, yet a motor current is detected • power supply to outputs then is switched off : − if motor current remains detected, T/R will restart − if motor current now is 0, T/R status remains unchanged possible cause(s) : • one or more motor-outputs defect • uProc A/D-converter defect solution : • switch power supply off and on again • if any motors are running unauthorised, outputs are defect, replace T/R PCB • if T/R continuously restarts, the A/D-converter is defect. Replace T/R -PCB 08 motor watchdog activated : • software detects that motor runs > 15 seconds (unauthorised) • T/R restarts possible cause : • unknown, probably software-error 09 Antenna error : • no or low HF-current detected possible cause(s) : • antenna not connected or wrong adjusted solution : • check antenna / tune antenna • check HF-field • replace T/R-PCB 11 RAM error at start up : • data written does not match data read solution : • replace T/R-PCB
D300F T/R Single Feeding VC4 - 10 - 4/2012 Version 0.6 12 ROM error at start up : • calculated checksum does not match checksum of EPROM solution : • replace T/R-PCB Self test menu When the display shows St, the "Self test menu" is entered by pressing the button until the display blinks. By shortly pressing the button, the T/R self tests can be selected. The selected test is executed by pressing the button until the display blinks. Test motor o1 (or o2, o3 and o4) A motor is found at the “Oc-test”. The motor now makes a complete revolution during which the motor current and status change of the I-contact of the motor are measured. N.B. When a motor self test is executed, the previously detected errors will be overwritten, it therefore is important to write down all messages in order to not forget a message. 00 motor run okay 02 no motor current measured 03 status change of I-contact not measured 05 unknown error 06 motor current > 3A Test Lamp L1 (or L2, L3 and L4) A valve, relay, lamp or nothing is found at the “Oc-test”. The concerning output is now activated. Test Input i1 (or i2, i3 and i4) A valve, relay, lamp or nothing is found at the “Oc-test”. The concerning input is now read. Test identification procedure When The HF-field now continuously will be on while the ID-status is displayed as follows: - - = no responder identified xx = responder identified ( xx = last two digits of responder number) Test HF-scan The HF-field now continuously is switched on (1.5 sec.) and off (1.5 sec.), during which the HF-status is displayed : ON = HF-field on OF = HF-field off Test ROM / RAM The T/R now will restart, during which the memory-tests are executed. The table underneath shows an overview of the return values of these tests. E1 RAM error E2 ROM error E3 RAM and ROM error
4/2012 T/R Single Feeding VC4 - 11 - D300F Version 0.6 9 Trouble shooting Symptom cause solution • T/R SF does not start up, display remains blank • No power • check wiring • T/R SF does not start up, display shows "E1", "E2" or "E3" • RAM, ROM or both failed • replace T/R SF • T/R SF does not start up, display shows "02" • T/R SF remains in start-up process, status 02 • check T/R SF address • T/R SF not supported by process controller • install T/R SF at PC-end • T/R SF does not feed • no feed balance for used X-ponder • check feed balance for this cow • motor not correct • check error-messages at T/R SF-display or at PC • perform motor self test, evaluate test-results • check wiring, motor • antenna not correct • perform identification self test, evaluate test-results • check wiring, antenna • Output wrong selected • perform motor self test, evaluate test-results • check wiring, motor • check the output configuration in the PC-program • poor identification • interference from HF-field nearby • perform identification self test, check reading-distance • if reading-distance not constant, HF-scanning must be enabled • antenna badly adjusted • perform identification self test, check reading-distance • if reading-distance constantly poor, readjust Ct, enlarge transmitting-power P1 or squelch • Transmitter / Receiver does not feed with a new motor • motor output blocked by Oc • use “Oc-menu” to select the outputs. Change functions of the T/R in the PC-program
D300F T/R Single Feeding VC4 - 12 - 4/2012 Version 0.6 ABCDERAMEPROMuProcFGHIJLKNABCDEFHGKJIML= Power supply= Communication= Potentiometer= Tuning capacitor= Display / button= T/R module= EPROM= RAM= Motor I/O's= Multi-connector= Micro processor= Ground tab= Tab'sSO-SO+SI-SI+HF-HF+I-I1M1M+I-I2M2M+I-I3M3M+CDDSDR-+N = Antenna adjustG Fig. 1 Overview T/R SF model 1 PCB
4/2012 T/R Single Feeding VC4 - 13 - D300F Version 0.6 A B C D E F GHIJKL M NO EPROMX11 X10BRAKEPM K7BRAKEPM K7PQR STU A Micro processor module N HF connector B EPROM O Bottom plate C HF ID module P Brake jumper : motor connected D Display’s Q Brake jumper : no motor connected E Frequency trimmer (not used) R “I4 low “ jumper : Phase code ID F HF power potentio meter (P1) S “I4 low “ jumper : No phase code ID G Push button T Antenna connection : antenna coil H HF trimmer (Ct) U Antenna connection : EWA transformer I “Enable brake” jumpers J “I4 low “ jumper K Cable ground connector X11 Signal ground L Power / communication connection X10 Responder signal M Input / output connectors Fig. 1a Overview T/R Single Feeder model 2 PCB
D300F T/R Single Feeding VC4 - 14 - 4/2012 Version 0.6 B B Bcable # wires max. length (meters)A 4 40B 4 10Ashieldingwire-D440.80.81.01.2 6080article numbersTransmitter / ReceiverT/R PCBMotor983315398426168005834CD-+Interface BridgeR+M I -T/RM+M1I1I-Motor + M I RR+M I -R+M I -T/RM+M2I2I-Motor + M I RT/RM+M3I3I-Motor + M I RVC4Feed motor 1Feed motor 2Feed motor 3uProc E-PROM RAMTransmitter / Receiver Single Feeder+ - + M I - + M I - + M I -P1CtHFHF+-SISI+-SOSO+-3 2 1IB 9813870D C Fig. 2 SF model 1 Feeder cable connections
4/2012 T/R Single Feeding VC4 - 15 - D300F Version 0.6 P1 EPROM CPS4FSS - + DR DS D C C D - + 9863311 M2 I2 I- M+ M1 I1 I- HF- HF+ B ANT I- M+ Mx Ix D B I- M+ Mx Ix 2 3 6 Ct 1 2 M+ M+ M3 I3 I- B I- M+ Mx Ix 4 3 M+ M4 I4 I- B I- M+ Mx Ix 5 4 1 7 A Cable nr. # of wires L.max. (m)* A 4 40 B 4 3** D 2 2 * at wire-D = 0.8mm. (other D’s see text) ** Longer cable no problem, but not CE approved 1. IB VC4 5. Feed motor 4 2. Feed motor 1 6. Antenna 3. Feed motor 2 7. Shielding 4. Feed motor 3 Feed motor 4 : only with T/R SF2-4M Fig. 2a Single Feeder model 2 cable connections
D300F T/R Single Feeding VC4 - 16 - 4/2012 Version 0.6 2 1 7 8 9 10 11 3 4 5 6 Fig. 3 Display menu CPS4FSS 1. Set Address 2. Display Address 3. Responder select AM (X-ponder/respactor) 4. Responder select PM (Phase code) 5. Responder select ri (ISO) 6. Responder select r2 (Lactivator) 7. Adjust Antenna 8. Adjust Power 9. Adjust Squelch 10. Not used 11. Test identification A B F D E C H G A. Display errors B. o1 motor output 1 o2 motor output 2 o3 motor output 3 o4 motor output 4 C. L1 output 1 (relais) L2 output 2 (relais) L3 output 3 (relais) L4 output 4 (relais) D. i1 input 1 i2 input 2 i3 input 3 i4 input 4 E. Test identification F. ROM/RAM reboot G. Output installation H. For robot use only : Blockade on/of Press button untill blinking Press button short To leave menu: press button untill display is empty
4/2012 T/R Single Feeding VC4 - 17 - D300F Version 0.6 Figure 4 Floor antenna in the feedstation

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