RF Receiver 7600SR
Contents
1. correct you have to configure correct NET ID on Sensor devices and 7600RF devices 6 5 1 DIP Switch for ON 7xxxRF Sensor devices The DIP Switch is setting by binary and each 7600RF RF Receiver have to configure as unique Network ID The valid channel id was between 0 and 15 Co Bit 2 o oO m a 4 Q x Figure 6 1 Identify DIP Switch for 7600RF RF Receiver Wireless network ID 18 Rev 2 1E 7600RF RF Receiver User s Manual 6 5 2 Wireless network Channel ID Setting ID 0 ID 1 ID 2 ID 3 ID 4 ID 5 ID 6 ID 7 ID 8 ID 9 ID 10 ID 11 ID 12 ID 13 ID 14 Figure 6 2 DIP Switch for Wireless network ID on 7600RF RF Receiver 7 Wireless Sensor ID Setting RurvTest Mode Channel ID 0 15 0 7 Figure 7 1 DIP Switch for 7002RF Temperature amp Humidify Sensor ID es Tae Temp ID 1 7 Channel ID a4 Figure 7 2 DIP Switch for 7001RF Freezer Temperature Sensor ID Rev 2 1E 7600RF RF Receiver User s Manual Run Test mode Lux ID 0 15 0 7 Figure 7 3 DIP Switch for 7200RF Lux Sensor ID 8 Wireless Frequency scope and PN code Channel ID Channel Primary Second PN Code PN code is for separate channel which is use same wireless frequency channel Channel 0 7 and 8 15 were use same radio frequency but there have different PN code for separate channel identify even there are use same frequency for wireless transmission Only correct frequen2. 7600RF RF Receiver User s Manual N 1 Technology 7600RF RF Receiver Manual Revision 2 1E SS V Nico Technology Ltd 24F No 37 SanMin Rd 2 Sec PanChiao City Taipei County Taiwan Phone 886 2 2954 5338 Fax 886 2 2954 5308 Product Info Thomas nico tech com Technical Support Tom Yeh nico tech com Web site http www nico tech com 1 Rev 2 1E 7600RF RF Receiver User s Manual This Manual This manual provides any required information for installation configuration and operation of the 7600RF RF Receiver It exclusively treats the handling of this device It neither describes the LonWorks technology by Echelon nor the LonMark profile implemented in detail More specific information concerning these subjects can be found in the documentation of Echelon www echelon com and the LonMark Interoperability Association www lonmark org The first part of this manual provides a survey about the device and its installation in chapters 1 to 3 The 2 part describes the implemented application for lighting control and its configuration possibilities Chapter 4 contains a description of the firmware interface while chapter 5 describes the implemented LonMark Objects in detail providing an outlook of the individual objects their tasks and their relevant configuration parameters Chapter 6 explains the basics required to connect the objects to each other This manual is relevant for all variants of the 7600RF RF Receiv
3. ASSiSmiment lt a 5 19254a2ssseaesdasdade tecsasadeaesneiseessenseeqw eaten 8 44 Mi kawa 10 4 5 Technical Specifications swewmmsemanmanmanamanzanzmnnmanaanmnimamanmna 10 4 6 DINA Sock as ng sree Morag naked ite aa cea Meee sh feadh Les odd 11 5 Application Software for ECOBINO eee eesceessecsseceseeeeseecsaeeeaeenseeeeneeesaeenes 12 5 2 Interoperable Interface ka 13 G SINEMA AI na as rage E T N 14 6 1 NIO BA wi 14 6 2 Sensor AA AI AA anseaten 15 6 3 Default CP Value of Sensor ObjJect wswwwmwwmmeemmenammwammmaim aweza 17 6 4 Bani UA AA 18 6 5 DIP S With Ua 18 6 5 1 DIP Switch for ON 7xxxRF Sensor dEViceS swwmmsemmammmeweza 18 6 5 2 Wireless network Channel ID Setting wwmmmwmmmammmwa 19 T Wireless Sensor ID SDA wawa 19 8 Wireless Frequency scope and PN Ccode lt swwmmswmmanemanamnammmawm amewa 20 PN code is for separate channel which is use same wireless frequency channel 20 Rev 2 1E 7600RF RF Receiver User s Manual 2 Product Information 2 1 Functional Elements Figure 1 1 7600RF RF Receiver 2 2 Variants and Identifications 2 3 Scope of Delivery 3 Installation This chapter first describes the installation of the device the installation of the configuration software is described in section 2 4 Rev 2 1E 7600RF RF Receiver User s Manual 3 1 Warnings Attention The dev
4. F Receiver User s Manual 5 2 Interoperable Interface The LonMark profile 1040 1050 1010 are realized in the 7600RF RF Receiver As some customized NVs are used the network interface remains standardized clear and especially it is interoperable That means the 7600RF RF Receiver can be used in connection with network components by other manufactures The following table contains a survey of the network variables defining the 7600RF RF Receiver network interface and their assignment Table 4 4 Allocation of NVs and LonMark objects Under the order code 7600RF a data carrier containing the interface describing files ECOBINO_WG_P2 XIF and the applications ECOBINO_WG_P2 APB is provided free of charge at simultaneous purchase of ECOBINO system The XIF file is necessary for integration with LonMaker for Windows or any other LonWorks network management tool 13 Rev 2 1E 7600RF RF Receiver User s Manual 6 System Objects This chapter describes the LonMark objects implemented in the 7600RF RF Receiver For each it states the network variable les used special configuration properties general object properties response during modification of the configuration and after a reset and if available further object properties 6 1 Node Object The functionality of the node object is defined in the Application Layer Guidelines of LonMark Interoperability Association www lonmark org Network Variables NV Name NV Type Com
5. Manual 4 6 Dimensions Figure 3 5 Device dimensions without plug screw clamps 11 Rev 2 1E 7600RF RF Receiver User s Manual 5 Application Software for ECOBINO On the 7600RF RF Receiver an application for energy saving control is implemented making output functionality as well as switch control functions available Therefore the relevant LonMark profiles stated in Table 4 1 are implemented The use of network variables NV compiles with the LonMark standard no customized network variables are used SCPT s are used for parameterization by applying the read write memory method Title Present Identification Version LonMark Application Layer Interoperability Guidelines V3 1 078 0120 01D The SNVT Master List and Programmer s Guide V 8 0 The SCPT Master List V 8 0 Sensor Object Table 4 1 Referring document about LonMark profiles 5 1 System Scope The 7600RF RF Receiver is equipped between Wireless and LonWorks channels Each Wireless network allows then connection eight wireless sensors Sensor Object according to LonMark Standard can be assigned to these output and configured Furthermore the 7600RF RF Receiver can act as constant sensor controller The sensor received value from wireless sensor generated by the internal via an output network variable The 7600RF RF Receiver is equipped with one LonWorks communication circuit to connect LonWorks network 12 Rev 2 1E 7600RF R
6. ation see figure 3 1 LonWorks Network Connection The double core bus line can be connection either to Net No polarity has to be considered by connecting the LonWorks network Rev 2 1E 7600RF RF Receiver User s Manual Ea SMJOAAUO iddns jamo Figure 3 1 Connector pin assignment LonWorks network Rev 2 1E 7600RF RF Receiver User s Manual 4 4 EMC The 7600RF RF Receiver is a CE certified device according to the regulation 89 336 EEC for electron magnetic compatibility modified by 92 31 EEC Concerning the emission it fulfills classification B living area according to EN 55022A B EN 55011 A B and EN 50081 1 2 and concerning the interference sensibility classification A industrial area according to EN 50082 2 4 5 Technical Specifications CPU Echelon Neuron 3150 10MHz Memory 64Kbytes Flash memory 512Bytes EEPROM 2Kbytes SRAM 8Kbyte external SRAM LonWorks Transceiver FT X1 Power supply 12 24VDC 24VDC is recommend Power consumption 1 5w Connection M2 5 screw Pitch 3 5mm Temperature Operation 0 50 Storage 20 70 Admitted relative humidity 10 90 non condensing Dimensions 60 x 94 x 30 mm Mounting Wall mounting Display amp Operation Service pin and Reset LED indicator and button Max connections 8 wireless sensor devices Max trans len 10 Meters Table 3 1 Technical Specification 10 Rev 2 1E 7600RF RF Receiver User s
7. ction to the LonWorks network is made by means of power line channels Attention The 7600RF RF Receiver power supply recommend use 24VDC power supply 3 4 Software Installation The configuration software of the 7600RF RF Receiver has to be installed by starting the program Setup exe on the data carrier provided It suns under Windows 9x 2000 and NT Download url http Awww nico tech com download Rev 2 1E 7600RF RF Receiver User s Manual 4 Device Description The 7600RF RF Receiver for LonWorks network in automation Its peripheral scope has been specially designed for the use as valve controller for device spreading control of applications such as valve control or lighting control 4 1 Hardware Survey The 7600RF RF Receiver disposes of one LonWorks circuit for each 4 2 Operation and Display Elements The 7600RF RF Receiver is fitted with a service button accessible via a small gap on the front panel see Figure 1 1 8 Activation of the buttons generates a service pin message transmitted via the LonWorks network The processor status as well as the service pin status are displayed by the service LED figure 1 1 A which is on while the service button is activated 4 3 Connection Pin Assignment The following tables show the connector pin assignment of the individual connectors Connections the 1 marking cf Figure 1 1 On previously page In each clamp block pin 1 is situated on the left For further wiring inform
8. cy setting and PN code then wireless sensor could be communication with receiver 20 Rev 2 1E
9. er where applications for lighting and switch control are implemented This documentation is subject to modification at any time without prior advice Nico does not take over any responsibility for mistakes or inaccuracies in this documentation and eventually occurring consequences In any case Nico as well as its representatives and staff are not reliable for eventual defaults damages caused indirectly or during use occurring due to the use or non usability of the software or the accompanying documentation Nico is a registered trademark of Nico Technology Ltd Echelon LON LonMark LonWorks and Neuron are registered trademarks of Echelon Corporation Other name may be registered trade marks of the respective companies Rev 2 1E 7600RF RF Receiver User s Manual Contents COMENTS riin hiie aa a sa a sosa id cede al AEE sag dead RE E US 3 2 sPEOCMCE TIOTINAN OM size ses emea AA os oh aos AT ASSA destin 4 2 1 Functional Elements issis Seth asda aa 4 a NS assa acca AE 4 3 1 WAITING oenn a RE SEE TEA a EA S easiness tees 5 3 2 MGUNDA gh AT E vent sa AI 6 3 3 Connections lt a astra stares etaa R A A R ia 6 3 4 SoftWare Tits teal Lata On eese cea asia Sos acto eaae saoi pass cae saa cutee cee desc 7 4 Device Description ii scecjasssecsaseviag cacts stains sides saeaasaadad aE ERE EE Ea 8 4 1 Hardware Sury Ua 8 4 2 Operation and Display Elements 2 0 0 0 ceescecessceceseececeeeeeceeeeeeseeeeneeeenes 8 4 3 Connection Pin
10. ice must be installed in compliance with the relevant DIN VDE regulations or the relevant national standards The connection to the supply voltage must be performed in accordance with VDE 0100 and VDE 0160 or the relevant national standards Installation should perform by qualified and technical experienced personnel only CAUTION At the connections of the LonWorks network 1 4 Fig 1 1 terminals 5 and the power supply terminals 6 12 24VDC main voltage with load guard band is accessible The installation of the unit therefore has to be effected in a switch cabinet or behind a respective cover Rev 2 1E 7600RF RF Receiver User s Manual 3 2 Mounting 3 3 Connections The 7600RF has to be connected to a 12 24VDC power supply and to the LonWorks network According to the respective application peripheral equipment has to be connected to outputs Rev 2 1E 7600RF RF Receiver User s Manual Attention Before connecting peripheral equipment the power supply device has to be switched off The connection is effected by means of the included screw less terminals Clamping range of the screw terminals Power supply connections 5 08mm grid terminals 6 0 2 2 5mm The pin assignment of the connections is described in chapter 3 1 also containing wiring details Voltage The 12 24 Volt DC connections are through connected in order to achieve easy installation LonWorks Network The conne
11. lue and then send the Invalid data alarm of the sensor buffer_size Define totally of buffer_size max 100 Default value 100 Valid scope 1 100 average_calculate_time For average lux values calculate Minute default value 10 30 samples Every 20 seconds collect a sample from nvolux_value Valid scope 10 255 If samples of buffer not enough then sum all the value of current sample to division number of sample Ex Current number of samples 6 Value 1 Value_2 Value_3 Value_4 Value 5 Value_6 6 nvo_ave_lux modification mod0O Ref Lux Modification must change to 1 Valid range 1638 4 1638 3 modification mod1 Ref Lux Modification must change to 1 Valid range IEEE 754 modification mod2 modification dis Ref Lux Modification Valid range IEEE 754 Lux modification s distinction Valid range 0 65535 power up value Default output value for power up sensor gateway Before receive first time value of 16 Rev 2 1E 7600RF RF Receiver User s Manual sensor Valid range 32768 32767 Attention Do not use copy or dump function within LM4W when configure functional block That can get automatic generate a correct default value invalid high value invalid low value alarm high value and alarm low value dead_state_value Output value of sensor dead alarm occurs Valid range 32768 32767 invalid_state_value Output val
12. ment 14 Rev 2 1E 7600RF RF Re ceiver User s Manual 6 2 Sensor Object Sensor Object Network Variables Se Configuration Properties UCPTsensorCfg Sensor Configs Network Variables nvo_temp_ val nvo_ave_lux SNVT_lux Average value of Lux Valid range 1 65535 nvo_battery_life SNVT_lev_percent Battery life information Valid ragne 0 100 0 10 25 40 55 70 85 100 nvo_lux_val SNVT_lux Lux value nvo_RH_val SNVT_lev_percent Humidity value nvo_sensor_alarm UNVT_sensor_alarm Sensor Alarm Valid range 0 100 SNVT_temp_p Temperature value Valid range 50 70 Configuration Properties error_count Define how many No data error occurs then send the Sensor Dead alarm Default value 6 Valid range 1 100 When No data received within 30 second then error_count 1 When current error count equal then error_count cp value and then send the Sensor Dead 15 Rev 2 1E 7600RF RF Receiver User s Manual alarm When any signal is received reset the error_count invalid_ count Define how many Invalid data error occurs then send the Invalid data alarm Default value 6 Valid range 1 100 When Invalid or No data errors received within 30 secs then invald_count 1 When valid data is received reset invalid count When current invalid count equals to invalid count cp va
13. ue of sensor invalid data alarm occurs Valid range 32768 32767 valid_high_limit Define valid value of scope Max Valid range 32768 32767 value_low_limit Define valid value of scope Min Valid range 32768 32767 alarm_high_limit Define alarm value of scope Max Valid range 32768 32767 alarm_low_limit Define alarm value of scope Min Valid range 32768 32767 6 3 Default CP Value of Sensor Object CP Name Lux Room Temp Room Humidity Freezer error_count 6 6 6 6 invalid_count 6 6 6 6 buffer_size 100 100 100 100 average calculate time 10 10 10 10 modification mod0 0 0 0 modification mod1 1 1 I modification mod2 0 0 0 modification dis 0 0 0 0 power up value 1 20 50 0 dead state value 0 0 0 0 invalid state value 0 0 0 0 valid high limit 30000 100 99 100 value low limit 0 0 0 40 alarm high limit 30000 100 95 25 alarm low limit 1 0 0 25 17 Rev 2 1E 7600RF RF Receiver User s Manual 6 4 Battery life measure Battery Life Detect voltage 6 5 DIP Switch Setting DIP Switch overview there are two kinds of DIP Switch for 7600RF Receiver and 7xxxRF serial Sensors On 7600RF Receiver have 5 DIP switch for configure setting Wireless network ID On 7xxxRF serial Sensors have 5 DIP switch for configure setting Wireless network ID NET ID and Sensor devices Sensor ID In order to wireless devices can working
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