2011-12-06 1201kB - Alge
Contents
1. 10 SUDDIY TIMING COVICE EE 10 rigide 10 Operation range and 10 NAST A IO Metisse casi 11 ee eee 12 Selecting the operations 13 Adaro eNO E 13 Field intensity test for location search 14 Interference test audio monitoring of the receiver for interference signals 14 Impulse transmission 14 Impulse transmission from a 16 Impulse transmission from a 16 Impulse transmission from a photocell with adapter 129 06 16 Impulse transmission with more than two timing channels 17 Impulse transmission several timing channels with Timy and cable 207 10 19 Data transmission eects DEA SR EVEREST REY EN EUREN TUERI ECKE DV Ax TEFUS NN UPRENS EDEN NUS 19 Data transmission 1 0 6 mere eren nes 20 Data transmission from Timer 54 to Timer 54 0 1 0 0 1 6 20 Data transmission from ALGE timing device to Printer2. 21 Display transmission 1 SSCOMG 72 22 Data transmission to display 2 22 Data transmission from Timy to ALGE soccer lt 22 Data transmission from ALGE timing device to 23 Data transmission 2 lt teo Uc aec Dina 24 WC __ _ gt 25 TED TX RX10 1 General The TED TX10 does not have to be authorized in EC and EFTA countries Nevertheless we recommend to check the legal conditions of the country to avoid problems with local and or new laws For countries outside Europe please check in the corresponding country if the device may be used Purpose Transmitting frequency TED TX10 TED RX10 Minimal equipment Extended equipment Recognition feature for TED TX Recognition feature for TED RX Impulse transmission Data transmission ALGE 1 Data transmission display board Data transmission 2400 baud Data transmission 4800 baud Data transmission direct System test Power supply National radio authorization 2 Power supply Wireless transmission of timing impulses or data in 433 MHz band Teledata transmitter with output power of 10mW ap prox 1 5 km operation range 1 4 antenna Teledata receiver for TED TX10 with 1 4 antenna 1 x TED TX 10 and 1 x TED RX10
3. 10 DIN socket C7 _ intermediate photocell 6 00140 DIN socket C9 intermediate photocell 8 00140 DIN socket Ct finish photocell 0 00140 DIN socket _ Page 17 Device Receiver 50 200 ing Tim OLXWM Q31 DO 0000 x G C TED TX RX10 Startgate STSn Photocell PR1a Photocell PR1a Photocell PR1a e S m DUXI TET Bienen 0LX1 Q31 OLXL GSL 0LX L Q31 0 JOUUBYD JBUUBYD y 1 9 5 5 5 OWI owl ejepeuueju usiulJ 18 TED TX RX10 45 Impulse transmission several timing channels with Timy and cable 207 10 The cable 207 10 works only in connection with the Timy Only start cables 000 xx or 002 xx may be used When using a stop cable no impulse is transmitted and an error message is printed The function of code switch 12 is as below stated This has no relevance for program train ing REF It is important that the channels of the TEDs differ Code switch Channel Function 0 CO sat 5 Data transmission For data transmission the Duty Cycle must be considered According to the regulations of the Regulatory Authority for Radio of the European
4. 3 8 thread for tripod fastening Code switch 16 positions Device button Device switch Code switch 10 positions Fastening screw for battery cover Battery cover Type plate with device number Antenna Red holder with Velcro fastener Light emitting diode LED Banana socket yellow data output Banana socket green signal output Banana socket black common mass DIN socket data and signal output and external supply 3 8 thread for tripod fastening Code switch 16 positions Device button Device switch Code switch 10 positions Fastening screw for battery cover Battery cover Type plate with device number Page 5 6 Manual TED TX RX10 NEN 7 wg 7 ____ 8 Battery replacement vens ipai aue paid d vul UE 8 Operation with alkaline batteries 8 mici WAN o ENTE ETT uM 8 Derun RT 9 Operation with NiCd rechargeable batteries 9 Rechargeable battery 9 MESRINE MPP eem 9 External 9
5. Union the radio transmitter must only be in operation 10 This also has to be considered when applying this device For operating the Teledata TED device class 1 the transmission period of 6 minutes per hour must not be exceeded 10 96 duty cycle This means it is not allowed to send data con stantly In case the device is used for data transmission of the timing times the transmitter is only active for 1 10 seconds for transmitting each time and stays below the duty cycle Field of application Data transmission from an ALGE timing device to an ALGE display board Data transmission from Timer S4 to Timer S4 program 0 Data transmission from an ALGE timing device to printer P5 Data transmission from an ALGE timing device to Timy parallel display Data transmission from Timy to soccer score board Data transmission from an ALGE timing device to a PC Data transmission from PC to PC The following operating modes are available Data transmission ALGE 1 second ALGE protocol 1 dataset per second Scoreboard transmission ALGE 1 second ALGE protocol 1 dataset per second Data transmission 2400 baud Data transmission with control character and 2400 baud Data transmission 4800 baud Data transmission with control character and 4800 baud Data transmission direct Data transmission without protocol and from 2400 to 4800 baud Page 19 TED TX RX10 Data repetition In case the data does not reach the receiver the
6. data can be repeated at the transmitter The latest dataset is always stored at the TED TX Press device button 10 at TED TX Ger te Taste dr cken Or Push Button 02 3 xx Press push button connected to green and black banana socket of TED TX Teledata TED TX10 51 Data transmission 1 second Setting Code switch 12 of TED TX and RX at position O When the TED TX recognizes sensible data protocol it changes to op erating mode Data transmission 1 second In this mode each dataset is transmitted ten times with a check sum As soon as the TED RX receives the dataset at least once with the correct check sum the dataset is output This mode is used when it is important that all data reaches the receiver safely This only works if data are not sent constantly In case the data are sent continuously e g for a dis play board they could be partly swallowed 511 Data transmission from Timer S4 to Timer S4 The Timer S4 can supply TED TX and RX via a serial interface 3 9 3 9 2 Cable 109 10 Cable 109 10 Teledata TED TX10 Teledata TED RX10 Timer S4 Timer S4 Program 3 Program 0 with time of day with time of day Timer S4 with TED without supply of the TEDs 3 3 3 3 Timer S4 from 2010 Cable 060 10 Timer S4 befor 2010 Cable 010 10 Cable 101 10 Teledata TED TX10 Teledata TED RX10 Timer S4 Timer S4 Program 3 Program 0 with time of
7. day with time of day Page 20 TED TX RX10 Data transmission of start time from a synchronized Timer S4 to another Timer S4 Set program 3 on Timer 54 at start and enter daytime Press yellow and red button at the same time The display of Timer S4 shows HP 0 00 00 Enter hours with red button Enter minutes with yellow button Set program 0 on Timer S4 at finish and enter daytime Press yellow and red button at the same time Press again red and yellow button at the same time The display of Timer S4 shows SY 0 00 00 Enter hours with red button Enter minutes with yellow button Start both Timer S4 simultaneously synchronized start display of finish timer shows the daytime Press yellow and red button at the same time to delete daytime Program 0 works now as described in Timer 54 manual The start Timer has to be taken to the start Data repetition If the start time does not reach the finish Timer the data can be sent again see page 20 5 1 2 Data transmission from ALGE timing device to Printer P4A 9 9 Timing Device e g Timer2 Teledata TED T X10 Cable 230 10 Cable102 10 Printer If the output RS232 of the timing device is used the TED TX requires the cable 060 10 wm Cable 060 10 Teledata TED TX10 Timing Device e g 4 8001 Cable102 10 Printer Page 21 TED TX RX10 5 2 D
8. impulse transmission For problem free work with the TED an optimal location has to be found Activate field intensity Switch on TED TX Press device button 10 Fasten TED in the height page 11 Switch on TED RX speaker of the TED RX makes a tone and the LED blinks The higher the tone the higher better the field intensity o LED blinks green gt signal is good o LED blinks orange signal is weak o LED blinks red gt signal missing or too weak lf you hear voices over the speaker this frequency is momentarily used by voice radio This might lead to data or impulse losses field intensity test is automatically ended by the TED TX after one minute For finding the optimal location the receiver has to be moved The best location is reached when the tone sounds the highest and the LED blinks green The field intensity can only be evaluated at the TED RX The TED TX and RX must have a distance of about 5 10 m for an undisturbed operation 3 7 Interference test audio monitoring of the receiver for interfer ence signals If the device button of the TED RX is pressed for about half a second the speaker is acti vated and can be used to monitor possible interference signals Simultaneously the LED shows the field intensity of the received signal also those of a possi ble interference ATTENTION The power consumption of the TED RX is doubled during this test To switch off the speaker p
9. limit the range or the operation Attention Never place several radio receivers next to each other They might influence each other negatively A minimum distance of 0 2 m has to be kept We recommend 0 5 m or more Further causes for reduced operation ranges can be e High frequency interference of all sorts e Buildings or construction of any kind and vegetation Conducting metal parts in the proximity of the TED and or within or near the trans mission path e g metal insulation windows armored concrete ceilings radiators Interference of the radiation characteristics of the antennas by the distance of trans mitter or receiver to conducting surfaces or objects also to human or ground Broadband interference in urban areas that reduce the signal to noise ratio the sig nal is not recognized inside this noise e Radiation of electronic devices that are not or only inadequately shielded g open computers Page 10 TED TX RX10 3 2 Installation There are several possibilities to install or fit the TED Good Bad Fastening with Velcro TED should never be fastener In critical placed directly on the floor To situations always mount much operation range is lost overhead Bad The antenna always has to point upward Good Fastening on tripod 3 8 Bad No parts allowed in the prox imity of the antenna Photocell PR1a Teledata TED Holde
10. of TED TX and RX to position 6 LED of TED RX must glow LED of TED TX blinks One dataset has to be transmitted so that the TED switches to direct mode LED switches from blinking to glowing Every dataset is transmitted Page 12 TED TX RX10 3 4 Selecting the operations modes Signal Mode Code switch 12 tor selecting D timing channel T i The field intensity test can also be started by three times shorting the green and black ba nana socket 3 5 Addressing The code switch 9 for addressing has 16 positions and can be accessed from underneath In one system all TED TX and RX have to be addressed identically Address as desired with the included screw driver The arrow of the switch shows the switch position Default setting is 0 In case multiple TEDs are used in the same area different addresses have to be used It offers protection against false impulses or data but not against blocking by an oiher device For preventing a blocking by another TED a different radio frequency has to be used Example impulse transmission of a start signal e g Timy2 PXE startgate TED TX10 TED R X10 TED TX10 TED RX10 Cable 004 05 TED TX and RX must be switched to the same address Page 13 TED TX RX10 3 6 Field intensity test for location search The field intensity test can only be executed in the operation mode
11. DC internal 6 x alkaline batteries 1 5 V type AA or 6 x NiCd rechargeable batteries 1 2 V type AA Power input TED TX10 Transmitting mode approx 35 mA Standby mode approx 3 TED RX10 Standard mode approx 35 mA Test mode approx 70 mA Operating duration see pages 9 and 9 85232 interface for TED TX10 and TED RX10 Input Output format 1 startbit 8 AXCII bit no parity bit 1 stopbit Transmission speed 2400 or 4800 baud Connector pin assignment TED TX DIN socket TED RX DIN socket 1 Impulse input start 1 Impulse output start 2 Impulse input stop 2 Impulse output stop 3 GND 3 GND 4 Input V ext 4 Input V ext 5 Output 5V stabilized 5 Input 5V Input 5V 6 Data output 6 Data input Banana socket with yellow marking data identical to PIN 6 of DIN socket with green marking impulse identical to PIN 1 of DIN socket with black marking GND identical to PIN 3 of DIN socket Antenna at TED TX10 and TED RX10 4 antenna approx 165 mm Operating temperature 20 50 C Weight without batteries approx 600 g with batteries approx 750 g Page 25 ALGE ALGE TED IX RX10 EBENEN NE Dimensions Page 26 27 oubject to changes Copyright by ALGE TIMING GmbH Rotkreuzstr 39 6890 Lustenau Austria www alge timing com Page 28
12. Version E111206 TED TX RX10 Declaration of Conformity We hereby declare that the following product complies with the below stated standards All components used by us are CE certified by their producer and are not modified by ALGE TIMING GmbH We GmbH Rotkreuzstrasse 39 A 6890 Lustenau declare in sole responsibility that the radio receiver Teledata TED RX10 complies with the following standards normative documents and in case of intended use complies with the basic requirements of R amp TTE 1999 5 EC Telecommunication TC terminal device Short Range Device Applied harmonized standards EN 60950 1 2006 EMC EN300220 1 1 3 1 2000 09 EN 300220 3 1 1 1 2000 09 EN 301489 1 V1 8 1 2008 EN 301489 3 V1 4 1 2002 EN55022 2006 A1 2007 55024 1998 1 2001 2 2003 61000 3 2 2006 EN61000 3 3 1995 1 2001 2 2005 Additional information The product complies with the low voltage directive 73 23 EEC and directive 2004 108EG and carries the CE sign Lustenau 12 01 2010 ALGE TIMING GmbH yeh Albert Vetter CEO Page 2 TED TX RX10 Declaration of Conformity We hereby declare that the following product complies with the below stated standards All components used by us are CE certified by their producer and are not modified by ALGE TIMING GmbH We AlGE TIMING GmbH Rotkreuzstrasse 39 A 6890 Lustenau declare in sole responsibi
13. account The device must only be used by trained persons The setting up and installation must only be exe cuted according to the manufacturer s data Intended Use The device must only be used for its intended applications Technical modifications and any misuse are prohibited because of the risks involved ALGE TIMING is not liable for damages that are caused by improper use or incorrect operation Power supply The stated voltage on the type plate must correspond to voltage of the power source Check all con nections and plugs before usage Damaged connection wires must be replaced immediately by an authorized electrician The device must only be connected to an electric supply that has been installed by an electrician according to IEC 60364 1 Never touch the mains plug with wet hands Never touch live parts Cleaning Please clean the outside of the device only with a smooth cloth Detergents can cause damage Never submerge in water never open or clean with wet cloth The cleaning must not be carried out by hose or high pressure risk of short circuits or other damage Liability Limitations All technical information data and information for installation and operation correspond to the latest status at time of printing and are made in all conscience considering our past experience and knowl edge Information pictures and description do not entitle to base any claims The manufacturer is not liable for damage due to failure to obser
14. additional TED TX10 for impulse transmission and additional TED RX10 for data transmission RX C10 for impulse transmission in case of more than two tim ing channels except Timy Type plate 15 and green holder 2 Type plate 15 and red holder 2 The impulse transmission works directly from an ALGE impulse transmitter to an ALGE timing device Each dataset is transmitted 10 times for safety rea sons One dataset per second is transmitted Each dataset is transmitted once Every second one dataset can be transmitted Each dataset is transmitted once with 2400 baud At the beginning of each dataset there has to be an iden tifier for the beginning of the data transmission and at the end for the end of the data transmission Each dataset is transmitted once with 4800 baud At the beginning of each dataset there has to be an iden tifier for the beginning of the data transmission and at the end for the end of the data transmission All data is transmitted without check Field intensity and interference test With 6 batteries or with 6 NiCd rechargeable batteries or with external supply The authorization regulations are different in each country Please check if the acquired device complies with the legal conditions of the country in which it is used Two kinds of power supply are possible Internal power supply with either six batteries type AA or rechargeable batteries type AA External power supply with ALGE power su
15. an alternating high and low tone If the battery capacity at the TED RX ist less than 20 96 the speaker is immediately activated with an alternating high and low tone Page 8 TED TX RX10 2 3 2 Operating period The below stated measurements apply to alkaline batteries at room temperature 25 C Mind that the capacity of the batteries is extremely reduced at low temperatures at 20 C only about 20 capacity _TED TX10 datasetperminute 270 5 TED TX10 permanent operation seconds mode __ 54 hours TED RXt0 equal for operation modes ____ 54 hours 2 4 Operation with NiCd rechargeable batteries Each TED requires 6 NiCD rechargeable batteries type Energizer The batteries cannot be charged inside the device For charging a separate charging unit is required The battery condition battery capacity is indicated by the LED 3 during normal operation orange The TED automatically switches off if the battery voltage drops below 5 Volt Attention During field intensity test the LED has a different function see 3 6 2 4 1 Rechargeable battery warning See 2 3 1 2 4 2 Operation period The below stated measurements apply to batteries of the type Panasonic 700mAh at room temperature 25 C Mind that the capacity of the battery is reduced at low temperatures at 20 C only about 80 capacity _TED TX10 f1datase
16. isplay transmission 1 second Setting Code switch 12 of TED TX and RX on position 1 Only for data with ALGE protocol One data transmission per second is effected from TED TX to RX Each dataset is only sent once Every dataset has a check sum If this is correct the incoming data is output In this mode the time can be transmitted with running seconds This mode is used when it is important that the data is available immediately or when many datasets are transmitted within a short period of time The transmission safety is not as high as with Data transmission 1 second 5 2 1 Data transmission to ALGE display board 2 3 3 Cable 037 10 Teledata TED TX10 Display Board GAZ or D LINE 5 2 2 Data transmission from Timy to ALGE soccer scoreboard 3 Terminal Timy2 XE Football Soccer Display Board Teledata TED TX10 Teledata TED RX10 Cable 103 10 Cable 230 10 or 037 10 In order to supply the TED TX by the Timy cable 108 10 is required It is recommende to supply the Timy by an power supply unit Page 22 5 2 3 Data transmission from timing device to PC 3 3 3 3 3 Teledata TED RX10 Cable 230 10 Page 23 TED TX RX10 5 3 Data transmission direct Setting Code switch 12 of TED TX and RX on position 6 Adapter 119 5 must be connected to TED TX One dataset must be transmitted so that the TED switches to direct mode LED
17. l PRia Timy2 PXE Teledata TED TX1 Teledata TED RX10 Adapter 129 06 With the adapter 129 06 it can be set if it is a start or stop impulse This is of advantage if only one photocell is used for a circuit Page 16 TED TX RX10 4 4 Impulse transmission with more than two timing channels For this the adapter RX C10 is required In connection with TDC8000 8001 and Timer S4 it is possible to transmit up to 10 timing channels However several TED TX have to be used for it Per each TED TX two timing channels can be transmitted The timing channels are set with code switch 12 at the TED TX The code switch 12 at the TED RX has no function in this mode ATTENTION Blocking time see 4 Impulse transmission Turn the arrow with the included screw driver to the correct position TED TX TED TX timing channel TED TX DIN socket TED TX DIN Stecker Code Schalter 12 banana socket timing channel timing channel 5 and black 6 switch position 0 switch position 1 switch position 2 switch position 3 switch position 4 switch position 5 switch position 6 Timing with 10 timing channels at a skiing test track Settings of code switch 12 at TED TX Impulse Switch position cable connection Channel transmitter code switch type socket startgate 0 000 10 intermediate time photocell 001 10 DIN socket intermediate time photocell 001 10 DIN socket intermediate time photocell 001
18. lity that the radio transmitter Teledata TED TX10 complies with the following standards normative documents and in case of intended use complies with the basic requirements of R amp TTE 1999 5 EC Telecommunication TC terminal device Radio equiment Short Range Device Device class 1 Applied harmonized standards EN 60950 1 2006 EMC EN300220 1 1 3 1 2000 09 EN 300220 3 1 4 4 2000 09 301489 1 1 8 1 2008 EN 301489 3 V1 4 1 2002 EN55022 2006 A1 2007 55024 1998 1 2001 2 2003 61000 3 2 2006 61000 3 3 1995 1 2001 2 2005 Additional information The product complies with the low voltage directive 73 23 EEC and directive 2004 108EG and carries the CE sign Lustenau am 12 01 2010 ALGE TIMING GmbH Albert Vetter CEO Page 3 TED TX RX10 Important Information General Before using your ALGE TIMING device read the complete manual carefully It is part of the device and contains important information about installation safety and its intended use This manual cannot cov er all conceivable applications For further information or in case of problems that are mentioned not at all or not sufficiently detailed please contact your ALGE TIMING representative You can find contact details on our homepage www alge timing com Safety Apart from the information of this manual all general safety and accident prevention regulations of the legislator must be taken into
19. pply unit via the timing device a 12V battery Page 7 TED TX RX10 2 1 Batteries In case the device is not in use for a long period we recommend to remove the batteries from the battery compartment Batteries can be perilous when swallowed Keep out of reach of children Do not throw into open fire Please dispose of the batteries ecologically sensitive 2 2 Battery replacement The battery compartment can be reach from underneath the TED The knurled screw has to be unscrewed counter clockwise Take away the cover Remove the batteries place device upright so that the batteries can slide out Insert new or charged batteries mind the polarity see battery compartment Close cover and tighten knurled screw The screw has to be tightened as far as it will go 2 3 Operation with alkaline batteries Every TED requires 6 alkaline batteries type AA The battery condition is indicated by the LED during normal operation Color of LED 3 Battery capacity 35 100 limit between green and orange approx 35 96 orange The TED automatically switches off if the battery voltage drops below 5 Volt Attention During field intensity test the LED has a different function see 3 6 2 3 1 Battery warning If the battery capacity at the TED TX is less than 20 LED red it transmits this information the TED RX with the next impulse or dataset The RX switches on the internal speaker for
20. r TTR to fasten the TED at a photocell bracket BBG or tripod Photocell bracket BBG Page 11 TED TX RX10 3 3 Switching on Normal operation Switch on device switch 11 TED works in operation mode impulse transmission LED blinks Test Mode Press device button 10 Device switch 11 at LED must blink Release device button Test mode switches automatically off after one minute immediate switch off with device button 10 Data transmission ALGE 1 sec Switch on TED LED must blink Ifthe first dataset arrives in correct format the data transmission is activated 1 second Data transmission ALGE 0 1 sec Turn code switch 12 of the TED TX and RX to position 1 Switch on TED LED must blink Data transmission 2400 baud Turn code switch of TED TX and RX to position Switch on TED LED must blink Every dataset is transmitted once with 2400 baud At the beginning of every dataset there has to be an identifier for the start of data trans mission and at the end for the end of the data transmission Data transmission 4800 baud Turn code switch of TED TX and RX to position 4 Switch on TED LED must blink Every dataset is transmitted once with 4800 baud At the beginning of every dataset there has to be an identifier for the start of data trans mission and at the end for the end of the data transmission Data transmission direct code switch
21. ress device button 10 4 Impulse transmission The impulse transmission works directly from an ALGE impulse transmitter to an ALGE timing device by radio Every impulse transmitted by the TED has a constant delay of 0 100 sec onds Maximum fault 0 001 seconds If only the start impulse is transmitted by the TED the running time has to be increased by one tenths of a second If only the finish impulse is transmitted the running time has to be decreased by one tenths of a second If both impulses are transmitted the running time is correct The TED TX is blocked for 0 163 seconds from the start of the impulse and or occurring im pulses within this time are delayed for until this time is up The TED RX is blocked for 0 1 seconds from the start of the impulse and ignores all impulses within this period Page 14 TED TX RX10 bounce protection The bounce pro tection prevents double impulses of 9V a bouncing switch contact Debounc ing time is 50 ms A Bouncing at the beginning of the impulse Bouncing at the end of the B impulse C Impulse duration plus bounc ing duration D E Bouncing duration 50 ms dL Lo Bounce protection C E The TED IX is provided with a A B OV Bounce protection is inter D rupted as the 50 ms are not E Test of impulse transmission If a timing impulse is transmitted the LED blinks longer once at TED TX and RX Safety of impulse transmission Always con
22. sider that the radio connection may be interfered by external factors In case of interference no impulse is transmitted With radio impulse transmission it is never possible to reach the same safety as with cable impulse transmission The following ALGE devices can be used as impulse transmitter all startgates photocells RLS1n RLS1c PR1a RLS3 etc 5 8 STB1 Tapeswitch push button 023 xx Touch pads TP ASC The following devices can be used as impulse receiver TDC4000 TDC8000 TDC8001 Timy Comet Timer S4 Timer 53 Videotimer VT2 VT2D Fotofinish OPTI only start impulse With the standard TED only two timing channels can be transmitted When using cable 004 xx this generally is start channel CO and finish channel C1 With an additional RX C10 up to 10 different channels can be received on TDC8000 8001 and Timer S4 Page 15 TED TX RX10 41 Impulse transmission from a startgate p Cable 001 10 finish Cable 002 10 start Photocell PR1a Timy2 PXE Teledata TED TX10 Teledata TED RX1 Adapter 129 06 4 2 Impulse transmission from a photocell m Cable 001 10 finish Cable 002 10 start Photocell PR1a Teledata TED T X10 Teledata TED RX10 Cable 004 05 4 3 Impulse transmission from a photocell with adapter 129 06 3 3 3 3 3 3 3 3 9 Cable 001 10 finish Cable 002 10 start Photocel
23. switches from blinking to permanent glow Every dataset is transmitted with a baud rate of 2400 to 4800 baud No control character is needed The transmitter is always switched on i e a power supply unit is recommended Data is not checked by receiver but passed on as received The check should be executed at the software of the receiving device PC Advantage Every dataset is transmitted No control characters are required Any data protocol is transmitted Disadvantage The transmitter TED TX has a high power consumption as always operating As the data is transmitted without protocol the receiver cannot check the data Area of application Wireless data transmission with any data protocol from one device to another PC 2 3 3 2 Cable 060 10 BUT c gt a c LLI Lr 5 E dim E E gt Cable 104 10 TdC8001 plug adapter 119 5 at DIN socket 2 3 3 Teledata TED TX10 Teledata TED RX10 Cable 105 10 plug adapter 119 5 at DIM socket Page 24 TED TX RX10 6 Technical data Operating frequency Standard 10mW 433 MHz band fix frequency set by pro ducer Emitting power TED TX10 10mW Operating range TED TX10 approx 1 5 km Antenna fix screwed OdB Signal input TED TX active low min 10 ms bounce time ca 50 ms Signal output TED RX active low 100 ms Supply external TED TX10 and TED RX10 6 5 to 28 V
24. tperminue 90 hours TED TX10 permanent operation seconds mode __ 18 hours PTED RX10 operation modes 18 hours 2 5 External supply The TED can be supplied from a power supply unit Supply voltage TED TX10 6 5 28 VDC TED RX10 6 5 28 VDC z B Metzgerat P512 TED TX10 oder TED RX10 TED TX RX10 2 5 1 Direct Supply The TED can be supplied by the ALGE power supply units 2 5 2 Supply by timing device In the operation mode impulse transmission the TED RX can be powered by the power sup ply unit of the timing device Cable 004 05 is required for connection between TED RX and timing device ATTENTION This only works if the timing device is connected with an external supply e g Timy2 PXE elis 100 240 VAC Zam Q4 e g Power Supply 512 TED T X10 TED RX10 Cable 004 05 3 Startup The operation range of the radio connection is extremely dependent on the location of the transmitter and receiver Often just a minimal change of location of the TED TX or TED RX results a considerable improvement of the receiving field intensity high field intensity high safety 3 1 Operation range and interference The TED TX10 and RX10 work in a 433 MHz frequency band This is also used by other radio services Devices working at the same or neighboring frequencies may
25. ve the manual improper use incorrect repairs technical modi fications use of unauthorized spare parts Translations are made in all conscience We assume no liability for translation mistakes even if the translation is carried out by us or on our behalf Disposal If a label is placed on the device showing a crossed out dustbin on wheels see drawing the European directive 2002 96 EG applies for this device Please get informed about the applicable regulations for separate collection of electrical and electronical waste in your country and do not dispose of the old devices as household waste Correct disposal of old equipment protects the environment and humans against negative consequences C X Operating ranges and interferences The ALGE Teledata TED TX10 and TED RX10 operate 433 MHz frequency ban This is also used by other radion services The operating range as well as the operation may be disturbed by devices work ing at the same or neighboring frequencies Copyright by ALGE TIMING GmbH All rights reserved Any duplication either in full or in part requires the prior written consent of the copyright holder Page 4 Transmitter Receiver Manual TED TX RX10 Antenna Green holder with Velcro fastener Light emitting diode LED Banana socket yellow data input Banana socket green signal input Banana socket black common mass DIN socket data and signal input and external supply
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