1. Function 1. Push-button interface 4g.plus. Push-button interface 4-gang plus. 2. Installation. Table of Contents
|
|
- Sharleen Griffith
- 5 years ago
- Views:
Transcription
1 Chaper 4: Binary inpus 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Push-buon inerface 2-gang plus Push-buon inerfacechaper 4:Binary inpusar. no.6708xxversion 08/054.6Push-buon inerfaces. Funcion insabus EIB Taserschniselle 2f.plus Push-buon inerface 2g.plus Push-buon inerface 4-gang plus insabus EIB Taserschniselle 4f.plus Push-buon inerface 4g.plus A4 A3 A2 A E 4 E 3 E 2 E GD WH WHWH WH RD GN B N BU GY RD GN BN BU Aricle no Aricle no Each Meren push-buon inerface for INSTABUS EIB has wo (ar. no ) or four (ar. no ) inpus and oupus. The inpus can be used o esablish binary sauses (via floaing conacs) and he oupus can be used o acivae conrol lamps (lowcurren LEDs). By connecing e.g. floaing push-buons or swiches o he inpus, you can use INSTABUS EIB o execue a range of funcions including swiching, dimming, operaing blinds, acivaing scenes ec. To check saes, you can connec conrol lamps (lowcurren LEDs, e.g. in he swich) o he oupus and acivae hem via INSTABUS EIB for a saus check. The conac supply volage (SELV) for he conneced push-buons/swiches and he conrol lamps comes from he push-buon inerface. Cauion: The device could become damaged. Never connec he device o 230 V! 2. Insallaion le of Conens. Funcion 2. Insallaion 3. Technical daa 2 4. Applicaion descripion 3 Cauion: The device could become damaged. Never connec he device o 230 V! Cauion: The device could become damaged. If here are any 230 V cables in he viciniy, make sure ha he disances beween hem specified in he applicable sandards and regulaions are mainained. Never insall he device in a flushmouned box ogeher wih 230 V cables. You can inser he push-buon inerface ino flushmouned or caviy-wall insallaion boxes (D 60 mm) or in juncion boxes. To make insallaion easier, use deep insallaion boxes. The cores of he inpus and oupus are mouned on a cable plug which mus be plugged ino he corresponding socke a he push-buon inerface. If he cores in he plug are no long enough, you can exend hem o a maximum of 7.5 m. Normally, he inpus are o be conneced wih a floaing push-buon or swich and he oupus are o be conneced wih he corresponding conrol lamps (low-curren LEDs) in his push-buon or swich (see he connecion example in Figure ). You may only connec he push-buons and swiches o he pushbuon inerface. The required volage (conac supply volage, SELV) for he push-buon or swich and for he conrol lamps comes from he push-buon inerface (from he EIB bus volage). There is no galvanic separaion beween he conac supply volage and he EIB bus volage. Version 08/05
2 Chaper 4: Binary inpus 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Colour codes of he incoming cables grey Reference poenial (GD) blue Inpu brown Inpu 2 green Inpu 3 (ar. no only) red Inpu 4 (ar. no only) whieblue Oupu whiebrown Oupu 2 whiegreen Oupu 3 (ar. no only) whiered Oupu 4 (ar. no only) 3. Technical daa Iniialisaion: Afer a bus volage failure or a bus resehe push-buon inerface will no be ready for operaion for a leas 7 seconds. Power supply from he bus: DC 24 V/< 0 ma Inpus: Use: Conac resisance: Oupus: Use: connecion of floaing conacs < 500 Ω (wih closed conac) connecion of low-curren LEDs (< ma) Conac volage Uk: < 3 V (SELV) Conac curren: < 0.5 ma Display elemen: programming LED Operaing elemen:programming buon Ambien emperaure: Operaion -5 C o +45 C Sorage -25 C o +55 C Transpor -25 C o +70 C Max. humidiy: 93 % relaive humidiy, no moisure condensaion Environmen: he device is designed for use a up o 2000 m above sea level (MSL). Proecion class: II Type of proecion: IP 20 Connecions: Inpus, oupus: Ar. no each 2 and GD, single-core Ar. no each 4 and GD, single-core Maximum cable lengh: 7.5 m Version 08/05 2
3 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 4. Applicaion descripion 4.0. Muli-funcion.couner, LED 22A/.0 General informaion You can use his applicaion o program he pushbuon inerface. Up o wo objecs are available for each inpu. Group addresses are managed dynamically. Maximum no. of group addresses and associaions: 50. Applicaion funcions This applicaion offers a wide range of seing opions in order o execue numerous funcions wih a pushbuon inerface and conrolled EIB devices (e.g. dimming acuaors, swich acuaors ec). Naurally, which funcion is possible in each individual case depends on he EIB devices being conrolled. The funcions of his applicaion described here can herefore only apply o hose specific EIB conrol funcions. Here, only hose abs and parameers which are of relevance o hese conrol funcions are described. You will find an overview of all he abs, parameers and he relaed adjusable values in he las secion "s and seings. The following descripion assumes ha pushbuons are conneced o he inpus of he pushbuon inerface, and ha (saus) LEDs are conneced o he oupus. Adjusable imes (saircase imer, ON delay, OFF delay ec.) are adjused via he ime base and ime facor parameers. The acual ime is calculaed by muliplying boh values; e.g. ime base second imes ime facor 3 gives 3 seconds. If only one of hese parameers is shown, no ime adjusmen is possible for he parameer seing seleced. Basic seings 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Operaing mode For he inpu funcions, you can selec beween he "Make conac" and "Break conac" operaing modes. Inpu X Addiional sarup delay of he applicaion You can sar up he applicaion laer afer he bus volage has been swiched on. General Debounce ime You can se a debounce ime. General Operaing mode Addiional sarup delay of he applicaion Debounce ime Transmi /8 bi oggle commands You can address wo acor groups wih or 8 bis ( bye) simulaneously. Wih a bi objec ype, he objec value is firs invered wih each push-buon acion, hen sen on he bus, i. e. a "0" becomes a "", and when he same key is pushed again, a "" becomes a "0". The device is herefore swiched on and off alernaely. This swiching behaviour is called "oggling". An updae or change o he -bi/-bye objec value is possible via he bus when anoher sensor swiches he acuaor (e.g. via a wo-way circui or a cenral command). To preven "incorrec" oggling, you mus load he saus of he acuaor ("" or "0") ino he push-buon inerface. To do his, connec he group address of he second sensor o he swich/value objec of he pushbuon inerface. For -bye objec ypes, you can se wo values, which are ransmied alernaely afer each push-buon acion. Two objecs can also be sen in any combinaion when he push-buon is acivaed ( bi / bye). Device selecion Firs you mus adap he applicaion o he hardware used, since when he device selecion is oggled, parameer seings and relaed group addresses are changed by ETS. Selec he "2-gang" or "4-gang" seing. Inpu X Funcional selecion Number of objecs Objec A/B Value /2 General Push-buon inerface Version 08/05 3
4 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Communicaion objecs You can selec he following communicaion objecs: Per inpu: Funcion Objec name Type Prio Flags Behaviour Inpu X Swich objec A/B bi Low WCT Transmi/ Transmi /8 bi swiching commands You can address wo acuaor groups wih or 8 bis simulaneously. Depending on he parameer seings, one of he following will be ransmied via he swich/value objec whenever a key is ed: an ON or OFF elegram bye values (0 % - 00 % in levels) bye values (0-255) infiniely wo objecs, ( bi / bye) in any combinaion sen via he swich/value objec. Inpu X Communicaion objecs You can selec he following communicaion objecs: Per inpu: Funcional selecion Number of objecs Objec A/B Value Funcion Objec name Type Prio Flags Behaviour Inpu X Swich objec A/B bi Low WCT Transmi/ Dimming You can use he dimming funcion for he following: dim brigher and darker via one key (single-surface dimming) eiher dim brigher or darker. You need a second key (second inpu) o dim in he oher direcion (dualsurface dimming). You can use he corresponding key (inpu) o swich he ligh on or off ( key briefly) or dim i ( key for a longer period, he parameers for he exac period can be se). When swiching akes place, an ON/OFF elegram is sen via he swich objec. When dimming, dimming up or dimming down is carried ou via he 4- bi dimming objec; he parameers for he dimming seps can be se. In addiion, you can also ransmi he corresponding dimming sep cyclically for a period of ime which can be se as required. 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Common parameers for single-surface and dualsurface dimming Inpu X Funcional selecion Deecion of prolonged acivaion 00 ms * Facor (4-250) Dimming direcion Cyclical sending of he dimming levels only wih cyclical ransmission of he dimming seps: Base for cyclic inerval only wih cyclical ransmission of he dimming seps: Facor for cyclic inerval (3-255) Addiional parameers for single-surface dimming You can dim brigher or darker and also swich on or off using a single key. The curren swiching or dimming direcion is always dependen on he previous acion, i. e. if swiched off, ing he key briefly will swich he ligh on and vice versa, and if he ligh has been dimmed up, prolonged acivaion of he key will dim he ligh down again. On afer prolonged acivaion, a sop elegram will be sen via he 4-bi dimming objec, hus erminaing he dimming procedure in he dimming acuaor. An updae or change o he swich/objec value is possible via he bus when anoher sensor swiches or dims he acuaor (e.g. via a wo-way circui or a cenral command). To preven he "wrong" swiching/dimming aciviy, you mus load he saus of he acuaor ino he push-buon inerface. To do his, connec he group address of he second sensor o he swich/ dimming objec of he push-buon inerface. A single command is sufficien o cycle hrough he dimming range. This dimming procedure can be used for mos applicaions. The oher possible dimming seps (/2 - /64 brigher or darker) dim brigher or darker by he seleced sep. For example, o dim from min. o max. brighness, you would need o push he key for a prolonged period four imes in succession if he level se is /4. Inpu X Dimming direcion Dimming seps (brigher) Dimming seps (darker) "Dimming direcion" parameer value for single-surface dimming: brigher and darker Version 08/05 4
5 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Addiional parameers for dual-surface dimming These are used o dim eiher brigher or darker and o eiher swich on or off using a single key. Therefore, you mus se he parameers for a second key (second inpu) for he opposie direcion. You can se wheher a sop elegram is o be ransmied when he key is d. When you have enabled he ransmission of a sop elegram, a sop elegram will be sen via he 4-bi dimming objec afer prolonged acivaion of he key, hus erminaing he dimming procedure in he dimming acuaor. A single command is sufficien o cycle hrough he dimming range. This dimming procedure can be used for mos applicaions. The oher possible dimming seps (/2 - /64 brigher or darker) dim brigher or darker by he seleced sep. For example, o dim from min. o max. brighness, you would need o push he key for a prolonged period four imes in succession if he level se is /4. Inpu X "Dimming direcion" parameer value for dual-surface dimming: brigher darker Communicaion objecs You can selec he following communicaion objecs: Per inpu: Dimming direcion only in he dimming direcion "brigher": dimming seps (brigher) only in he dimming direcion "darker": dimming seps (darker) Sop elegram afer Funcion Objec name Type Prio Flags Behaviour Inpu X Swich objec bi Low WCT Transmi/ Inpu X Dimming objec 4 bi Low WCT Transmi/ Blind conrol 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx You can use he blind conrol funcion o do he following: move he blind using an individual key and adjus he slas (single-surface blind operaion). Wih he blind conrol funcion, you can raise he blinds / adjus he slas using a single key and lower he blinds / adjus he slas using a second key (dualsurface blind operaion). Move he blind o a pre-specified posiion. Move he blind beween wo previously specified posiions. Inpu X Funcional selecion Blind conrol funcion up or down wih one key in each case (dual-surface blind operaion) Afer he corresponding key is ed for a shor ime, a sop/sep elegram will be ransmied; afer he key is acivaed for a prolonged period (he parameers for he exac period can be se), a movemen elegram will be ransmied. Wih his funcion, you mus se he parameers for a second key (second inpu) wih he corresponding seings for he blind movemen in he opposie direcion. Boh keys (inpus) mus be given he same group addresses. Inpu X Funcional selecion Deecion of prolonged acivaion from 00 ms * Facor (4-250) Direcion of movemen Blind conrol funcion up or down wih a single key (single-surface blind operaion) The curren direcion of movemen of he blind, or he direcion of he sla adjusmen, always depends on he previous acion, i. e. when he blind has jus been moved downwards, i will move upwards he nex ime he key is acivaed for a long period (parameers for he period can be se). Afer a sop/sep elegram has been ransmied o adjus he slas, a sop/sep elegram for he same direcion of movemen can be creaed by ing he key again, as long as his subsequen push-buon acion is carried ou wihin a ime period, he parameers for which can be se. If his ime period has elapsed, he direcion of roaion of he slas will change when he key is ed briefly. Version 08/05 5
6 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 The push-buon (inpu) can elegrams via he sop/sep movemen objecs, and can creae corresponding elegrams when he key is ed, depending on he values d. An updae or change o he swich/objec value is possible via he bus when anoher sensor swiches he acuaor (e.g. via a wo-way circui or a cenral command). To preven "incorrec" movemen, you mus load he saus of he acuaor ino he push-buon. To do his, connec he group address of he second sensor o he sop/sep and he movemen objec of he push-buon inerface. Inpu X Deecion of prolonged acivaion from 00 ms * Facor (4-250) Direcion of movemen Change in direcion for sla adjusmen from 00 ms * Facor (5-50) Move he blind o a pre-specified posiion. If he blind acuaor is capable of approaching a specific posiion, you can define one or wo posiions using his funcion, which can be approached by he blind using -bye posiion values wih a push-buon acion. The posiion values can be se in seps beween 0% and 00%, or infiniely from When approaching a posiion, he se value for he blind posiion and he sla posiion is ransmied using a shor (or long) push-buon acion. To rigger wo posiions, ener he required blind posiion and sla posiion for boh. Posiion value is ransmied wih a shor push-buon acion, while posiion value 2 is ransmied wih a long push-buon acion. No movemen or sop/sep objecs exis wih hese se parameers. Inpu X Direcion of movemen Selecing he posiioning Posiion value ( briefly) Value for blind posiion Value for sla posiion only wih "wo posiions": Posiion value 2 ( for long period) 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Communicaion objecs You can selec he following communicaion objecs: Per inpu: Funcion Objec name Type Prio Flags Behaviour Inpu X Sop/sep objec bi Low CT Transmi/ Inpu X Movemen objec bi Low CT Transmi/ Inpu X Blind posiion bye Low CT Transmi/ Inpu X Sla posiion bye Low CT Transmi/ Transmi bi, 2 bi (prioriy conrol), 4 bi or bye pulse edge commands You can use hese pulse edge funcions o parameerise differen objec acions. You can ransmi one or wo objecs simulaneously, and selec he size of he objecs required ( bi, 2 bi prioriy conrol, 4 bi or bye in seps or infiniely) as needed. This enables you o parameerise a large number of applicaion opions. You can specify which acions should be carried ou when a key is ed, and which should be carried ou when a key is d. These acions could include: Transmi or 0 (wih bi) Transmi value or value 2 (wih 2 bis, 4 bis or bye): You can ener wo values and se wheher and how hey are o be ransmied. Transmiing a value: The objec ransmis he value which i has currenly been given. You can herefore ransfer a value e. g. wih he ransmiing group address which was previously d by anoher group address. Toggling: The curren objec value is invered and hen ransmied. I is herefore swiched on and off alernaely (oggled). The value can be modified via he bus. no acion Inpu X Funcional selecion Pulse edge funcion only wih exended pulse edge funcion: Deecion of prolonged acivaion from 00 ms * Facor (4-250) Number of objecs Version 08/05 6
7 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/ Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Normal pulse edge funcion Wih he sandard pulse edge funcion, you can ransmi bi, 2 bi, 4 bi prioriy conrol or bye in seps or infiniely. Inpu X - (objec A&B) Objec A/B Acion on acivaion Acion on only wih 2 bi and 4 bi (prioriy conrol): value / value 2 only wih bye in seps 0-00 % value / value 2 only wih bye infiniely 0-255: value / value 2 Principle of he pulse edge funcion Using he following diagrams, you can see how he pulse edge funcion behaves when pulse edges rise or fall. Objec A = Bye variable value = 255 value 2 = 50 acion a ed/d send value / send value 2 deahman circui Objec A swiching / non swiching under force Objec A Example: Funcion "deah man circui" or "swiching under force" Objec A = 2 Bi (guidance under force) Wer = (swiching on under force) Wer 2 = 0 (swiching off under force) Acion a ed/d send value / send value 2 swiching / non 50 Objec A = Bi acion a ed/d send / non non / send 0 Objec A 0 0 Objec A 0 Objec A Objec A Objec A = Bi acion a ed/d send / non Objec A Objec A Objec A = Bi acion a ed/d non / send 0 Exended pulse edge funcion Wih he exended pulse edge funcion, you have a wider range of funcions available, e. g. you can se differen acions wih a shorer or longer acivaion ime, which apply o boh he acions which resul when he key is ed and when he key is d. You can also se a cycle ime which can be parameerised for each objec. When parameerising, bear in mind ha you need o se all four ypes of key acivaion (brief/ long, ing and releasing he key) in order o ensure ha he push-buon (inpu) funcions as required. Inpu X - (objec A&B) Objec A/B send / non non / send 0 Objec A 0 Objec A 0 0 Version 08/05 7
8 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 A descripion of he mos imporan acions is given below: ransmis [value]: ransmis he curren value and sops a cyclical ransmission. ransmis [value] immediaely and hen cyclically: If no cycle ime is running, [value] is ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is inerruped, [value] is ransmied and a new cycle ime is sared. ransmis [value] only cyclically: If no cycle ime is running, [value] is ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is no inerruped, [value] is ransmied afer he curren cycle ime has elapsed, and a new cycle ime is sared. ses objec value o [value] (readable only) [value] is wrien ino he objec and is no ransmied An acive cycle ime is erminaed. oggles: compares he curren objec value wih [value]. If boh are he same, value or value 2 is ransmied. If boh are differen, [value] is ransmied. oggles, ransmis immediaely, hen cyclically: The value is oggled (see "oggles") if no cycle ime is running, ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is inerruped, he oggled value is ransmied and a new cycle ime is sared. Subsequenly, he value which has already been oggled is always ransmied cyclically. oggles, only ransmis cyclically: If no cycle ime is running, he oggled value is ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is no inerruped, he oggled value is ransmied afer he curren cycle ime has elapsed, and a new cycle ime is sared. Subsequenly, he value which has already been oggled is always ransmied cyclically. oggles and is no ransmied: The oggled value is wrien ino he objec and is no ransmied. An acive cycle ime is erminaed. oggles cyclically, ransmis immediaely, hen cyclically: The value is oggled (see "oggles") if no cycle ime is running, ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is inerruped, he oggled value is ransmied and a new cycle ime is sared. I is always subsequenly cyclically oggled, and he new value is ransmied. oggles cyclically, only ransmis cyclically: If no cycle ime is running, he oggled value is ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is no inerruped, he oggled value is ransmied afer he curren cycle ime has elapsed, and a new cycle ime is sared. I is always subsequenly cyclically oggled, and he new value is ransmied. 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx oggles cyclically and is no ransmied: The oggled value is wrien ino he objec and is no ransmied. I is always subsequenly cyclically oggled, and he new value is wrien ino he objec. ransmis is value: The curren objec value is ransmied. An acive cycle ime is erminaed. sends is value immediaely and hen cyclically: If no cycle ime is running, he curren objec value is ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is inerruped, he curren objec value is ransmied and a new cycle ime is sared. Subsequenly, he curren objec value is always ransmied cyclically. increase he curren objec value by [value] cyclically: If no cycle ime is running, [value] is added o he curren objec value, he objec value is ransmied, and a new cycle ime is sared. If a cycle ime is already running, his is no inerruped, he curren objec value wih [value] added is ransmied and a new cycle ime is sared. reduce he curren objec value by [value] cyclically: If no cycle ime is running, [value] is subraced from he curren objec value, he objec value is ransmied, and a new cycle ime is sared. If a cycle ime is already running, his is no inerruped, he curren objec value wih [value] subraced is ransmied and a new cycle ime is sared. ransmis [valuea] and afer a cycle ime [valueb]: [ValueA] is ransmied immediaely, and [valueb] is ransmied afer one cycle ime, regardless of wheher a cycle ime is already running or no (saircase imer funcion). none (sops cyclical ransmission): No acion is carried ou, and any acive cycle ime is sopped. no change: The curren acion remains unchanged (e. g. "ransmis value and afer a cycle ime, ransmis value2"). none (sop afer curren cycle ime has elapsed): No acion is currenly carried ou, bu any acive cycle ime is no sopped. I runs hrough unil he end, and hen ransmis he corresponding value. Examples of use for he pulse edge funcion The following acivaion sequence diagram shows he phases ino which he pulse edge funcion is divided: buon acion direc a ing acion a before arriving long acivaion ime long acivaion ime acion a arrive of long acivaion ime acion a afer arriving long acivaion ime Version 08/05 8
9 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Example: Saircase lighing funcion wih cleaning lighing funcion Wih a brief push-buon acion, he swich acuaor swiches on he ligh. A long push-buon acion exends he saircase lighing funcion (= cleaning lighing funcion) unil a second, long push-buon acion swiches off he acuaor. The swich acuaor requires a saircase lighing funcion and a disable funcion for his funcion. Number of objecs = 2 (objec A/B) Objec A/B = bi Objec A: Acion on before he long acivaion ime has elapsed = ransmis Objec B: Acion on compleion of he long acivaion ime = oggles To do his, connec objec A wih he swich objec and objec B wih he disable objec of he swich acuaor. 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Example: shor and long saircase ime You can use his funcion o produce a brief and a long saircase ime wih he push-buon. The swich acuaor requires no saircase lighing funcion for his reques. Wih a brief push-buon acion, he swich acuaor swiches on he ligh, and afer a parameerised cycle ime (e. g. 3 minues), i swiches i back off again. Wih a long push-buon acion, he same funcion is carried ou, bu wih a longer cycle ime (e. g. 6 minues). Number of objecs = 2 (objec A/B) Objec A/B = bi Objec A: Acion on before he long acivaion ime has elapsed = ransmis. Afer a cycle ime has elapsed (here 3 minues) = ransmis 0 Objec B: Acion on when he long acivaion ime is compleed = ransmis. Afer a cycle ime has elapsed (here 6 minues) = ransmis 0 To do his, connec objec A and objec B wih he swich objec of he swich acuaor. Objec A Objec B 0 objec A 0 cycle shor swich acuaor relais sairs objec B 0 cycle long swich acuaor relais Example: Swich he ligh on/off permanenly, or swich off afer a cycle ime has elapsed. Wih a brief push-buon acion, he swich acuaor swiches he ligh on or off permanenly. Wih a long push-buon acion, he ligh swiches on, and afer a parameerised cycle ime (e.g. 6 minues), i swiches back off again. Due o he cycle ime in he push-buon which can be parameerised, he swich acuaor requires no saircase lighing funcion for his funcion. Number of objecs = 2 (objec A/B) Objec A/B = bi Objec A: Acion on before he long acivaion ime has elapsed = oggles Objec B: Acion when he long acivaion ime is compleed = ransmis. Afer a cycle ime has elapsed (here 6 minues) = ransmis 0. Acion on when he long acivaion ime is compleed = no change. To do his, connec objec A and objec B wih he swich objec of he swich acuaor. Version 08/05 9
10 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Example: elecronic proecion agains hef This example will show you how o program elecronic proecion agains hef for he push-buon. I is acivaed by a brief push-buon acion and hen ransmis cyclically. As soon as he push-buon is forcibly separaed from he push-buon inerface, his can be shown on a display, or an alarm can be riggered. Number of objecs = (objec A) Objec A = bi Objec A: Acion on before he long acivaion ime has elapsed = ransmis immediaely and hen cyclically. Acion when he long acivaion ime is compleed = no change. Acion on afer he long acivaion ime is compleed = no change. Cycle ime = e. g. 0 minues To do his, connec objec A wih an objec which anicipaes cyclical elegrams (e. g. a safey objec). The monioring ime se on he safey objec mus be longer han he cycle ime of he push-buon. If he safey objec s no elegrams from he pushbuon during his ime, a reacion which can be parameerised is acivaed (e. g. he channel is swiched on). Objec A cycle cycle cycle 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx long acivaion ime has elapsed = none (sops cyclical ransmission). Acion when he long acivaion ime is compleed = none (sops cyclical ransmission). Acion on afer he long acivaion ime has been compleed = oggles cyclically, ransmis immediaely, hen cyclically. Value =, value 2 = 2nd cycle ime = e. g. minue. To do his, connec objec A and objec B wih he exension uni objec of he scene funcion. Objec A Objec B 2 2 cycle cycle cycle Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Inpu X Objec A/B bi Low WCT Transmi/ Inpu X Objec A/B 2 bi Low WCT Transmi/ Inpu X Value objec A/B bye Low WCT Transmi/ 3 Safeyobjec (d) conrolling conrolling reacion Example: Effec lighing This example shows you how o program effec lighing, for example for a display window. A long push-buon acion swiches beween wo differen lighing scenes. A shor push-buon acion sops he oggling and ransmis a scene (o rerieve he scene, use he scene module for he acuaor which has been acivaed) which swiches off everyhing. Number of objecs = 2 (objec A/B) Objec A/B = bye infinie Objec A: Direc acion when acivaed = none (sops cyclical ransmission). Acion on before he long acivaion ime has elapsed = ransmis. Acion when he long acivaion ime is compleed = none (sops cyclical ransmission). Acion on afer he long acivaion ime is compleed = none (sops cyclical ransmission). Value = 3. Objec B: Direc acion when acivaed = none (sops cyclical ransmission). Acion on before he Version 08/05 0
11 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Transmi 2 bye pulse edge commands via an objec You can also use hese pulse edge funcions o parameerise differen objec acions. However, in conras o pulse edge funcions, you can only ransmi one objec wih bi, 2 bis, 4 bis or bye. You can ransmi normal or exended pulse edge commands. Wih normal pulse edge commands, you can specify which acions should be carried ou when a key is ed, and which should be carried ou when a key is d. Wih exended pulse edge commands, you can also se he acions before and afer he long acivaion ime is compleed. You can ransmi floaing poin numbers and whole numbers, wihou or wihou a sign. Inpu X Funcional selecion Pulse edge funcion only wih exended pulse edge funcion: Deecion of a long acivaion ime from 00 ms * Facor (4-250) Acion when acivaed Acion on only wih exended pulse edge funcion: Acion on before he long acivaion ime has elapsed Acion when he long acivaion ime is compleed Acion on afer he long acivaion ime has been compleed Explanaion of acions: See -bi pulse edges. Inpu X - values Objec ype value Only wih floaing poin: value /2 Basic value, adjusable value range in brackes only wih whole number wih sign: value /2 ( ) Only wih floaing poin: value /2 ( ) 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Inpu X Value objec A 2 bye Low WCT Transmi/ Seing he parameers for he 8-bi linear regulaor You can use he 8-bi linear regulaor funcion o program a key (inpu) as a linear regulaor. You can parameerise all four acions when ing/releasing wih a shorer or longer operaing ime in each case. You can esablish he funcion wih or wihou limi values (sar/end value). Inpu X buon Inpu X (2 acion direc a ing acion a before arriving long acivaion ime long acivaion ime acion a arrive of long acivaion ime acion a afer arriving long acivaion ime Funcional selecion Deecion of long acivaion ime from 00 ms * Facor (4-250) Linear regulaor funcion Direc acion when operaed Acion on before he long acivaion ime has elapsed Acion when he long acivaion ime is compleed Acion on afer he long acivaion ime has been compleed only wih "sar value and end value" Sar value Sep value only wih "sar value and end value" end value Base for cyclic inerval Facor for cyclic inerval (3-255) Version 08/05
12 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 A descripion of he acions is given below: Transmi he sar value, hen increase cyclically by he sep value: If no cycle ime is running, he sar value is ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is inerruped, he sar value is ransmied and a new cycle ime is sared. Transmi he end value, hen reduce cyclically by he sep value: If no cycle ime is running, he end value is ransmied immediaely and a new cycle ime is sared. If a cycle ime is already running, his is inerruped, he end value is ransmied and a new cycle ime is sared. Increase he curren objec value cyclically: Increase he curren objec value cyclically by he parameerised sep inerval. Increase he curren objec value once: Increase he curren objec value once by he parameerised sep inerval. An acive cycle ime is erminaed. Reduce he curren objec value cyclically: Reduce he curren objec value cyclically by he parameerised sep inerval. Reduce he curren objec value once: Reduce he curren objec value once by he parameerised sep inerval. An acive cycle ime is erminaed. Reverse he slide direcion and ransmi cyclically: If no cycle ime is running, he slide is pushed in he opposie direcion (of his push-buon) and a new cycle ime is sared. If a cycle ime is already running, i is inerruped, he slide is immediaely pushed in he opposie direcion (of his pushbuon) and a new cycle ime is sared. Move sep-by-sep o he limi values, and hen back again: The limi values are approached by one sep inerval a a ime. When a limi is reached, he slide direcion is reversed for he nex acion. none (sops cyclical ransmission): No acion is carried ou, and any acive cycle ime is sopped. no change: No acion is carried ou, and any acive cycle ime is coninued. You can only mainain he limi values and he oggling o a new slide direcion by operaing on sie! 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Inpu X Value objec A bye Low WCT Transmi/ Rerieving scenes The scene rerieval funcion does no access he inernal scene module, bu only accesses he bus exernally via communicaion objecs. There are wo ypes of scene funcion: normal exended Wih he sandard scene funcion, a scene is rerieved by a brief push-buon acion while a long push-buon acion is used o save a scene. You merely have o se he ime afer which a push-buon acion is idenified as being long, ogeher wih he saus LED conrol and he scene address. Inpu X buon acion direc a ing acion a before arriving long acivaion ime long acivaion ime acion a arrive of long acivaion ime acion a afer arriving long acivaion ime Funcional selecion Deecion of long acivaion ime from 00 ms * Facor (4-250) Scene funcion Only wih "exended" Number of objecs Only wih "normal scene funcion" Scene address (0-63) Wih he exended scene funcion, a wider range of funcions are available. You can se acions for a shorer or longer acivaion ime for boh ing and releasing he keys. You can also program a cycle ime. Depending on how many objecs you have se in he scene funcion, you mus make he seings in addiional windows ("Inpu X - objec A") or ("Inpu X - objec B"): Version 08/05 2
13 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Inpu X - (objec A/B) Communicaion objecs You can selec he following communicaion objecs: You can use he impulse couner funcion o cyclically coun he acivaion of he inpu wihin a parameerisable ime frame and ransmi his as a value (2-bye value objec) via he bus. A coun can be made up o (6 bis). Afer he ime frame has elapsed, he curren couner reading is ransmied, he couner is rese and he couning process begins again. The impulse couner can also be rese via anoher inpu which is programmed accordingly as a synchronous inpu. The curren couner reading can be read by seing he read flag. Direc acion when acivaed Acion on before he long acivaion ime has elapsed Acion when he long acivaion ime is compleed Acion on afer he long acivaion ime has been compleed Value Scene address (0-63) Scene addresses are designed for he scene Value 2 Scene address (0-63) Scene addresses are designed for he scene Base for cyclic inerval Facor for cyclic inerval (3-255) Funcion Objec name Type Prio Flags Behaviour Inpu X Objec A/B bye Low WCT Transmi/ buon acion direc a ing acion a before arriving long acivaion ime long acivaion ime acion a arrive of long acivaion ime Acivae impulse couner acion a afer arriving long acivaion ime Ensure ha he couner reading is no overwrien via he bus (wrie flag)! You can deermine wheher he coun should be made while he pulse edge is rising or falling, or while i is boh rising and falling. You can parameerise he cyclic inerval using he cycle ime base and a cycle ime facor (cycle ime = cycle ime base x cycle ime facor). Inpu X 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Communicaion objecs You can selec he following communicaion objecs: You can use he swiching couner funcion o cyclically coun he acivaion of he inpu and afer a parameerisable couner reading, ransmi his as a value (2-bye value objec) via he bus. In addiion, you can ransmi a swiching elegram when he couner reading is reached. A coun can be made up o (6 bis). Afer he se couner reading is reached, he curren couner reading is ransmied and he couner reading is rese o 0. The curren couner reading can be read off by seing he read flag. Funcional selecion Coun he impulses when Base for cyclic inerval Facor for cyclic inerval (3-255) Funcion Objec name Type Prio Flags Behaviour Impulse couner Value objec A 2 bye Low RWC T Acivaing he swiching couner Transmi Ensure ha he couner reading is no overwrien via he bus (wrie flag)! Addiionally, you have he opion of ransmiing he couner reading cyclically afer an adjusable number of couning impulses. You can deermine wheher he coun should be made while he pulse edge is rising or falling, or while i is boh rising and falling. Inpu X Funcional selecion Coun he impulses when Command when maximum couner reading is reached Maximum couner reading ( ) Gradual couner oupu (-255) Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Swiching Value objec A 2 bye Low WCT Transmi couner Swiching couner Swich objec A bi Low WCT Transmi Version 08/05 3
14 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Reseing he couner You can use he couner rese funcion o rese he impulse couner and he cycle ime or he swiching couner of anoher inpu. Addiionally, you can use his funcion o ransmi swiching commands. You can deermine wheher he coun should be rese while he pulse edge is rising or falling, or while i is boh rising and falling. Addiionally, you can program a swiching elegram o be ransmied when he pulse edge is rising and/or falling. Inpu X Funcional selecion Influences inpu (-4) Behaviour on rising pulse edge Behaviour on falling pulse edge Couner and cyclic inerval Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Rese couner Swich objec A bi Low WCT Transmi Cyclical ransmission for devices wih cyclical monioring You can use he cyclical monioring funcion o ransmi elegrams cyclically. This is necessary when oher devices are monioring he presence of he push-buon inerface via heir cyclical elegrams (proecion agains hef, faul monioring). If no elegram is d from he push-buon inerface wihin a parameerisable ime period, e. g. a signal is issued by his device. For his purpose, you can parameerise he push-buon inerface accordingly. Inpu X Inpu X (objec A/B) Funcional selecion Operaing mode Number of objecs Objec A/B Acion when acivaed Acion on Value Value 2 Base for cyclic inerval Facor for cyclic inerval (3-255) 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx When a disable funcion is acivaed via he disable objec, all curren push-buon funcions are rese or inerruped. Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Cyclical monioring Objec A/B bi/ 2 bi/ 4 bi/ bye Low WCT Transmi Acivaing he disable funcion for he inpus You can block he inpus in wo differen ways:. Separaely for each inpu 2. All inpus funcion as a maser inpu You can deermine wheher a disable objec = 0 or = should be blocked. Inpu disable funcion Disable funcion Blocking Behaviour a sar of blocking Maser inpu Separaely for each inpu You can use his funcion o block each of he four or eigh inpus individually. When an inpu is blocked, i fulfils no funcion. You can use an addiional parameer o parameerise he behaviour of cyclical funcions. Inpus X: Block Inpu x Cyclical acions are All keys funcion as a maser inpu You can use his acion o specify one of he wo or four inpus as he maser inpu. When any key is ed, he acion which has been parameerised for he maser key is carried ou. Inpu X Funcional selecion Type of blocking Maser inpu Version 08/05 4
15 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Disable funcion Disable objec bi Low WC Receive When a disable funcion is acivaed via he disable objec, all curren push-buon funcions are rese or inerruped. Swiching oupus The oupus are swiched depending on he value of he swiching objec. According o he parameerisaion, when a elegram is d, he oupu is swiched on or off swiched alernaely (flashing) once every few seconds You can aach a ime delay o he swiching on and off when a elegram is d. Disable funcions and logic funcions have a higher prioriy. If a funcion of his ype has been se for he oupu, he execuion of he swiching commands depends on he saus of hese funcions. Oupu X Oupu X: Times Communicaion objecs You can selec he following communicaion objecs: Per key: Oupu operaion Time base for ON delay Facor for ON delay ON delay is Time base for OFF delay Facor for OFF delay OFF delay is Funcion Objec name Type Prio Flags Behaviour Oupu X Swiching objec - oupu X bi Low WC Transmi/ 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Eiher acive (ransmission by changing he value o he bus) or passive (mus be rerieved) objecs are available as saus informaion. Communicaion objecs You can selec he following communicaion objecs: The saircase imer funcion swiches he oupu on when an ON elegram is d for a parameerisable ime period. You can also se wheher he ON period is exended by a new ON elegram (can be reriggered) and wheher he period is ended by an OFF elegram. The end of he ON period can be shown by a "flickering" of he oupu (swiching on/off briefly several imes). The ime a which he pre-warning begins before he period expires and he number of inerrupions can be se. In order o indicae a pre-warning, he saircase imer period mus be a leas 5 seconds longer han he pre-warning ime. You can aach a ime delay o he swiching on and off when a elegram is d (only swich off when "saircase ime wih manual off" has been se). Saus informaion Oupu X: General Saus informaion Funcion Objec name Type Prio Flags Behaviour acive saus feedback objec Passive saus feedback objec Saus feedback objec bi Low LCT Transmi Saus objec bi Low LC Read Seing he oupus for saircase imer saus In order for he LEDs on he oupus o also show he saus of he acual lighing, you mus mach he parameer values of he oupus on he push-buon inerface o he parameer values of he corresponding acuaor for he lighing. Disable funcions and logic funcions have a higher prioriy. If a funcion of his ype has been se for he oupu, he execuion of he swiching commands depends on he saus of hese funcions. Version 08/05 5
16 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/ Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Oupu X Oupu X: Times Oupu X: Saircase imer Saircase imer funcion Time base for ON delay Facor for ON delay ON delay is Time base for OFF delay Facor for OFF delay OFF delay is Base for saircase imer Facor for saircase imer Saircase ime is Saircase ime Pre-warning a he end of he saircase ime Number of pre-warnings Warning ime AND logic operaion: swich objec logic objec 0 0 oupu 0 0 Communicaion objecs You can selec he following communicaion objecs: AND wih rese logic operaion: Per inpu: Funcion Objec name Type Prio Flags Behaviour Inpu X Swiching objec - oupu X bi Low WC Transmi/ swich objec Seing logic operaions for he oupus logic objec You can use he logic funcion o logically link he swiching objec wih a logic objec. You can choose beween an OR, AND and an AND wih rese funcion. You will find he curren saus of he oupu for he differen ypes of logic operaion in he following chars. The logic objec has higher prioriy han he swiching objec. Is commands are always given prioriy. Delay imes are no aken ino accoun wih he logic objec. OR logic operaion: oupu swich objec logic objec oupu Version 08/05 6
17 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/ Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Oupu X: General Oupu X: Logic operaion Prioriy funcion Type of logic operaion Value of logic objec afer bus volage recovery Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Logic operaion Logic objec - oupu X bi Low WC Receive Acivaing he disable funcion for he oupus You can also block he oupus and deermine wheher a disable objec = "0" or = "" should be blocked. Disable funcion for he oupus Oupu X: Disable Disable funcion Oupu X Block Behaviour a sar of blocking Communicaion objecs You can selec he following communicaion objecs: Funcion Objec name Type Prio Flags Behaviour Disable funcion Disable objec oupus bi Low WC Receive When a disable funcion is acivaed via he disable objec, all curren oupu funcions (including cyclical acions) are rese or inerruped. Behaviour when bus volage is applied/ resored or fails Behaviour on applicaion/recovery of he bus volage When a bus volage is applied or recovered, elegrams can be sen depending on he seing. Behaviour on failure of he bus volage Any saus LEDs which were li will be swiched off. Version 08/05 7
18 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 s and seings General Push-buon inerface Addiional sarup delay of he applicaion s * facor Debounce ime 0ms * facor Inpu X Funcional selecion Operaing mode Seing 2-gang 4-gang 0-30, 0 defaul seing 2-5, 2 defaul seing Seing Toggle Swiching Dimming Blind conrol Pulse edges bi, 2 bi (prioriy), -bye values Pulse edges wih 2-bye values 8-bi linear regulaor Scene Impulse couner Swiching couner Rese couner Cyclical monioring make conac break conac When "Funcional selecion" has been se o "Toggle" in he "Inpu X" ab: Inpu X Funcional selecion Number of objecs Seing Toggle one wo Objec A/B bi bye in seps 0 % - 00 % bye infiniely Value 00 % adjusable in seps of en as well as 25% and 75% Value 0-255, 255 defaul seing When "Funcional selecion" has been se o "Swiching" in he "Inpu X" ab: Inpu X Funcional selecion Number of objecs Objec A/B Value Seing Swiching one wo bi bye in seps 0 % - 00 % bye infiniely ON elegram OFF elegram 4.6 Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Inpu X Seing Value 00 % adjusable in seps of en as well as 25% and 75% Value 0-255, 255 defaul seing When "Funcional selecion" has been se o "Dimming" in he "Inpu X" ab: Inpu X Funcional selecion Deecion of long acivaion ime 00 ms * Facor (4-250) Dimming direcion Dimming seps (brigher) Dimming seps (darker) Cyclical ransmission of he dimming seps Base for cyclic inerval Facor for cyclic inerval (3-255) Sop elegram afer Seing Dimming 4-250, 6 defaul seing brigher darker brigher and darker o max. brighness /2 brigher /4 brigher /8 brigher /6 brigher /32 brigher /64 brigher o min. brighness /2 darker /4 darker /8 darker /6 darker /32 darker /64 darker yes no 0. seconds second minue hour day 3-255, 8 defaul seing enabled disabled When "Funcional selecion" has been se o "Blind conrol" in he "Inpu X" ab: Inpu X Funcional selecion Deecion of long acivaion ime from 00 ms * Facor (4-250) Direcion of movemen Change in direcion for sla adjusmen from 00 ms * Facor (5-50) Selecing he posiioning Seing Blind conrol 4-250, 6 defaul seing UP DOWN up and down wih posiion values 5-50, 0 defaul seing one posiion ( briefly) wo posiions (differeniaion beween shor/long operaion) Version 08/05 8
19 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Inpu X Seing Posiion value (shor operaion) in seps of 0 %- 00 % infiniely Value for blind posiion wih "seps": 0 % - 00 % in seps of 0, 00 % defaul seing wih "infiniely": in single seps, 255 defaul seing Value for sla posiion wih "seps": 0 % - 00 % in seps of 0, 0 % defaul seing wih "infiniely": in single seps, 0 defaul seing Posiion value 2 (long operaion) in seps of 0 %- 00 % infiniely Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Inpu X Seing value / value , 255 defaul seing value, 0 defaul seing value 2 Inpu X - (objec A/B) Objec A/B Seing bi 2 bi (prioriy conrol) bye in seps 0 % - 00 % bye infiniely When "Funcional selecion" has been se o "Pulse edges bi, 2 bi (prioriy), -bye values" in he "Inpu X" ab: Inpu X Funcional selecion Pulse edge funcion Deecion of long acivaion ime from 00 ms * Facor (4-250) Number of objecs Objec A/B Acion when acivaed Acion on value / value 2 value / value 2 Seing Pulse edges bi, 2 bi (prioriy), -bye values normal (ed, d) exended (long and shor operaion) 4-250, 6 defaul seing one wo bi 2 bi (prioriy conrol) bye in seps 0 % - 00 % bye infiniely only wih bi: ransmis only wih bi: ransmis 0 only wih 2 bi/ bye: ransmis value only wih 2 bi/ bye: ransmis value 2 oggles ransmis is value none only wih bi: ransmis only wih bi: ransmis 0 only wih 2 bi/ bye: ransmis value only wih 2 bi/ bye: ransmis value 2 oggles ransmis is value none swich on wih prioriy conrol () swich off wih prioriy conrol (0) swich off prioriy conrol (00) 0-00 % in 0% seps 00 % defaul seing value, 0 % defaul seing value 2 Version 08/05 9
20 Chaper 4: Binary inpus Muli-funcion.couner, LED 22A/.0 Inpu X - (objec A/B) Direc acion when acivaed Acion on before he long acivaion ime has elapsed Acion on compleion of he long acivaion ime Acion on afer compleion of he long acivaion ime Seing only wih bi:ransmis only wih bi: ransmis immediaely and hen cyclically only wih bi: ransmis only cyclically only wih bi: ses objec value o (readable only) only wih bi:ransmis 0 only wih bi: ransmis 0 immediaely and hen cyclically only wih bi: ransmis 0 only cyclically only wih bi: ses objec value o 0 (readable only) only wih 2 bi/ bye: ransmis value only wih 2 bi/ bye: ransmis value immediaely and hen cyclically only wih 2 bi/ bye: ransmis value only cyclically only wih 2 bi/ bye: ses objec value o value (readable only) only wih 2 bi/ bye: ransmis value 2 only wih 2 bi/ bye: ransmis value 2 immediaely and hen cyclically only wih 2 bi/ bye: ransmis value 2 only cyclically only wih 2 bi/ bye: ses objec value o value 2 (readable only) oggles oggles, ransmis immediaely, hen cyclically oggles, only ransmis cyclically oggles and is no ransmied oggles cyclically, ransmis immediaely, hen cyclically oggles cyclically, only ransmis cyclically oggles cyclically and is no ransmied only wih bi: ransmis is value only wih bi: ransmis is value immediaely and hen cyclically only wih bi: ransmis immediaely and afer a cycle ime of 0 only wih 2 bi/ bye ransmis value and afer a cycle ime value 2 only wih bye increase he curren objec value by value cyclically only wih bye reduce he curren objec value by value 2 cyclically none (sops cyclical ransmission) no change none (sop afer curren cycle ime has elapsed) Inpu X - (objec A/B) value / value 2 value / value Push-buon inerfaces Push-buon inerface Ar. no. 6708xx Seing swich on wih prioriy conrol () swich off wih prioriy conrol (0) swich off prioriy conrol (00) 0-00 % in 0% seps 00 % defaul seing value, 0 % defaul seing value 2 value / value , 255 defaul seing value, 0 defaul seing value 2 Base for cyclic inerval 0. seconds second minue hour day Facor for cyclic inerval (3-255) 3-255, 0 defaul seing When "Funcional selecion" has been se o "Pulse edges wih 2-bye values" in he "Inpu X" ab: Inpu X Funcional selecion Pulse edge funcion Seing Pulse edges wih 2-bye values normal (ed, d) exended (long and shor acivaion) Deecion of long acivaion ime 4-250, 6 defaul seing from 00 ms * Facor (4-250) Acion when acivaed ransmis value only wih exended pulse edge funcion: ransmis value immediaely and hen cyclically only wih exended pulse edge funcion: ransmis value only cyclically only wih exended pulse edge funcion: ses objec value o value (readable only) ransmis value 2 only wih exended pulse edge funcion: ransmis value 2 immediaely and hen cyclically only wih exended pulse edge funcion: ransmis value 2 only cyclically only wih exended pulse edge funcion: ses objec value o value 2 (readable only) ransmis is value only wih exended pulse edge funcion: ransmis value and afer a cyclic inerval value 2 only wih exended pulse edge funcion: none (sops cyclical ransmission) none Version 08/05 20
Connections, displays and operating elements. 3 aux. 5 aux.
Taser PlusKapiel3:Taser3.1Taser Plus Meren2005V6280-561-0001/08 GB Connecions, displays and operaing elemens Taser Plus Arec/Anik/Trancen Operaing insrucions A 1 2 1 2 3 4 5 6 C B A B 3 aux. 7 8 9 aux.
More informationConnections, displays and operating elements. Status LEDs (next to the keys)
GB Connecions, displays and operaing elemens A Push-buon plus Sysem M Operaing insrucions 1 2 1 2 3 4 5 6 7 8 C B A 4 Inser he bus erminal ino he connecion of pushbuon A. 5 Inser he push-buon ino he frame.
More informationDimmer time switch AlphaLux³ D / 27
Dimmer ime swich AlphaLux³ D2 426 26 / 27! Safey noes This produc should be insalled in line wih insallaion rules, preferably by a qualified elecrician. Incorrec insallaion and use can lead o risk of elecric
More informationTimers CT Range. CT-D Range. Electronic timers. CT-D Range. Phone: Fax: Web: -
CT-D Range Timers CT-D Range Elecronic imers Characerisics Diversiy: mulifuncion imers 0 single-funcion imers Conrol supply volages: Wide range: -0 V AC/DC Muli range: -8 V DC, 7 ime ranges from 0.0s o
More informationPROCESS AUTOMATION MANUAL TIMER RELAY KF**-DU-EX1.D ISO9001
PROCESS AUTOMATION MANUAL TIMER RELAY KF**-DU-EX1.D ISO9001 Wih regard o he supply of producs, he curren issue of he following documen is applicable: The general erms of delivery for producs and services
More informationLocation. Electrical. Loads. 2-wire mains-rated. 0.5 mm² to 1.5 mm² Max. length 300 m (with 1.5 mm² cable). Example: Belden 8471
Produc Descripion Insallaion and User Guide Transiser Dimmer (454) The DIN rail mouned 454 is a 4channel ransisor dimmer. I can operae in one of wo modes; leading edge or railing edge. All 4 channels operae
More informationETD-BL-1T-OFF-CC-... Timer relay with off delay (with control contact) and adjustable time. INTERFACE Data sheet _en_01. 1 Description.
Timer relay wih off delay (wih conrol conac) and adjusable ime INTERFACE Daa shee 103617_en_01 1 Descripion PHOENIX CONTACT - 09/2009 Feaures Compac ime relay in he 6.2 mm housing in order o conrol ime
More informationMIC2569. Features. General Description. Applications. Typical Application. CableCARD Power Switch
CableCARD Power Swich General Descripion is designed o supply power o OpenCable sysems and CableCARD hoss. These CableCARDs are also known as Poin of Disribuion (POD) cards. suppors boh Single and Muliple
More informationVoltair Version 2.5 Release Notes (January, 2018)
Volair Version 2.5 Release Noes (January, 2018) Inroducion 25-Seven s new Firmware Updae 2.5 for he Volair processor is par of our coninuing effors o improve Volair wih new feaures and capabiliies. For
More informationUSBFC (USB Function Controller)
USBFC () EIFUFAL501 User s Manual Doc #: 88-02-E01 Revision: 2.0 Dae: 03/24/98 (USBFC) 1. Highlighs... 4 1.1 Feaures... 4 1.2 Overview... 4 1.3 USBFC Block Diagram... 5 1.4 USBFC Typical Sysem Block Diagram...
More informationOrder code M F Type of relay
elay niversal MF for Curren Monioring elay niversal MF2 for Curren Monioring Sandard ype Large conac gap, swiching volage herefore 400 VAC Monioring of DC and AC currens Order Code Order code M F 2 0 40
More informationChapter 4 Sequential Instructions
Chaper 4 Sequenial Insrucions The sequenial insrucions of FBs-PLC shown in his chaper are also lised in secion 3.. Please refer o Chaper, "PLC Ladder diagram and he Coding rules of Mnemonic insrucion",
More informationBulletin 700-HA Plug-in Style Relays
Bullein 00-HA Bullein 00-HA or Changeover s Tube Base Socke Mouning Muli-Range Time and Surge Suppressor Modules Table of Conens Descripion Page Descripion Page Overview...........................................
More informationENDA ETM442 DIGITAL TIMER
Read his documen carefully before using his device. The guaranee will be expired by damaging of he device if you don' aend o he direcions in he user manual. Also we don' accep any compensaions for personal
More informationPART 1 REFERENCE INFORMATION CONTROL DATA 6400 SYSTEMS CENTRAL PROCESSOR MONITOR
. ~ PART 1 c 0 \,).,,.,, REFERENCE NFORMATON CONTROL DATA 6400 SYSTEMS CENTRAL PROCESSOR MONTOR n CONTROL DATA 6400 Compuer Sysems, sysem funcions are normally handled by he Monior locaed in a Peripheral
More informationMultifunctional time delay relay MFT U11S, MFT U21S, MFT U22S, MFT U31S, MFT U21P, MFT U22P, MFT U41SE
Mulifuncional ime delay relay MFT U11, MFT U21, MFT U22, MFT U31, MFT U21, MFT U22, MFT U41E 8 Funcions, 8 ime ranges Mulivolage: 24 Vac / dc 110... 240 Vac 12... 240 Vdc 24... 240 Vac 2 oupu conacs MFT
More informationENDA ETM742 DIGITAL TIMER
Read his documen carefully before using his device. The guaranee will be expired by damaging of he device if you don' aend o he direcions in he user manual. Also we don' accep any compensaions for personal
More informationTemperature Controller EXPERT-VT212 USER'S MANUAL
Temperaure Conroller USER'S MANUAL TABLE OF CONTENTS Page 1. PRECAUTIONS... 6 2. FEATURES... 7 3. LOCATION OF THE CONTROLS... 9 4. MOUNTING INSTRUCTIONS...12 4.1 CONNECTIONS... 12 5. CONTROLLER SETUP...14
More informationUsing CANopen Slave Driver
CAN Bus User Manual Using CANopen Slave Driver V1. Table of Conens 1. SDO Communicaion... 1 2. PDO Communicaion... 1 3. TPDO Reading and RPDO Wriing... 2 4. RPDO Reading... 3 5. CANopen Communicaion Parameer
More informationUser Manual. RINS Software Revision >V9.26
User Manual INTERNAL SIREN WARNING The Enforcer 32-WE conrol panel conains a 100 dba siren, please be aware of his when in use. RINS1503-2 Sofware Revision >V9.26 Conens Page A: Inroducion 3 B: Keypads
More informationLD7832A 4/17/2013. High Power Factor LED Controller with HV Start-up. General Description. Features. Applications. Typical Application REV: 00
4/17/2013 High Power Facor LED Conroller wih HV Sar-up REV: 00 General Descripion The is a buck soluion wih high PFC conrol for LED lighing. I feaures HV sar-up, easy o design wih minimum cos and PCB size.
More information3RP20, 3RP15 solid-state time relays
7 3RP20, 3RP15 solid-sae ime relays Secion Subjec Page 7.1 Specificaions/regulaions/approvals 7-2 7.2 Device descripion 7-3 7.2.1 Device ypes 7-3 7.2.2 Insallaion 7-5 7.2.3 Special feaures 7-5 7.2.4 Noes
More informationBETA Switching Timers
Siemens AG 2008 BETA Swiching /2 Produc overview /3 7LF4 digial ime swiches /11 7LF5 mechanical ime swiches /16 7LF6, 5TT1 3 imers for buildings /21 5TT3 18 imers for indusrial applicaions Siemens ET B1
More informationAssignment 2. Due Monday Feb. 12, 10:00pm.
Faculy of rs and Science Universiy of Torono CSC 358 - Inroducion o Compuer Neworks, Winer 218, LEC11 ssignmen 2 Due Monday Feb. 12, 1:pm. 1 Quesion 1 (2 Poins): Go-ack n RQ In his quesion, we review how
More informationTimers CT Range. CT-S Range. Electronic timers. CT-S Range. Phone: Fax: Web: -
CT-S Range Timers CT-S Range Elecronic imers Characerisics J Diversiy: J 8 mulifuncion imers J 13 single-funcion imers J 8 swiching relays J Conrol supply volages: J Muli range: 24-48 V DC, J Wide range:
More informationCOSC 3213: Computer Networks I Chapter 6 Handout # 7
COSC 3213: Compuer Neworks I Chaper 6 Handou # 7 Insrucor: Dr. Marvin Mandelbaum Deparmen of Compuer Science York Universiy F05 Secion A Medium Access Conrol (MAC) Topics: 1. Muliple Access Communicaions:
More informationSartorius Cubis Series
Brief Insrucions Sarorius Cubis Series Elecronic Precision and Analical Balances MSU Models 98648-017-12 Informaion for he User Conens Noes on using his manual....................... 3 Safe Insrucions.............................
More informationMotor Control. 5. Control. Motor Control. Motor Control
5. Conrol In his chaper we will do: Feedback Conrol On/Off Conroller PID Conroller Moor Conrol Why use conrol a all? Correc or wrong? Supplying a cerain volage / pulsewidh will make he moor spin a a cerain
More informationMOBILE COMPUTING 3/18/18. Wi-Fi IEEE. CSE 40814/60814 Spring 2018
MOBILE COMPUTING CSE 40814/60814 Spring 2018 Wi-Fi Wi-Fi: name is NOT an abbreviaion play on Hi-Fi (high fideliy) Wireless Local Area Nework (WLAN) echnology WLAN and Wi-Fi ofen used synonymous Typically
More informationMOBILE COMPUTING. Wi-Fi 9/20/15. CSE 40814/60814 Fall Wi-Fi:
MOBILE COMPUTING CSE 40814/60814 Fall 2015 Wi-Fi Wi-Fi: name is NOT an abbreviaion play on Hi-Fi (high fideliy) Wireless Local Area Nework (WLAN) echnology WLAN and Wi-Fi ofen used synonymous Typically
More informationElite Acoustics Engineering A4-8 Live-Performance Studio Monitor with 4 Channels, Mixer, Effects, and Bluetooth Quick Start Guide
Elie Acousics Engineering A4-8 Live-Performance Sudio Monior wih 4 Channels, Mixer, Effecs, and Blueooh Quick Sar Guide WHAT IS IN THE BOX Your A4-8 package conains he following: (1) Speaker (1) 12V AC
More informationTest - Accredited Configuration Engineer (ACE) Exam - PAN-OS 6.0 Version
Tes - Accredied Configuraion Engineer (ACE) Exam - PAN-OS 6.0 Version ACE Exam Quesion 1 of 50. Which of he following saemens is NOT abou Palo Alo Neworks firewalls? Sysem defauls may be resored by performing
More informationScheduling. Scheduling. EDA421/DIT171 - Parallel and Distributed Real-Time Systems, Chalmers/GU, 2011/2012 Lecture #4 Updated March 16, 2012
EDA421/DIT171 - Parallel and Disribued Real-Time Sysems, Chalmers/GU, 2011/2012 Lecure #4 Updaed March 16, 2012 Aemps o mee applicaion consrains should be done in a proacive way hrough scheduling. Schedule
More informationTimers CT Range. Electronic timers. Electronic timers. Phone: Fax: Web: -
Elecronic imers Timers Elecronic imers General informaion Elecronic imers Overview CT-D range CT-E range CT-S range Timing funcion mulifuncional single-funcional mulifuncional single-funcional mulifuncional
More informationMUX 1. GENERAL DESCRIPTION
256Mb Async./Burs/Sync./A/D MUX 1. GENERAL DESCRIPTION Winbond x16 ADMUX producs are high-speed, CMOS pseudo-saic random access memory developed for lowpower, porable applicaions. The device has a DRAM
More informationTroubleshooting PLCopen Block Behavior
Troubleshooing PLCopen Block Behavior Deailed Troubleshooing of he PLCopen Block Behavior General informaion Copyrigh Siemens AG 2 All righs reserved Subjec o change wihou prior noice. Copyrigh The disribuion
More informationIns Net2 plus control unit
S ns 0 Server Link 00 0/00 Eherne End of Line Terminaion RS485 Nework xi -4V. Ins-30080 Ne plus conrol uni C auion: For DC readers y Inruder Ne plus O u pus r Powe DC Only Relay C onac E Buo n P SU/ Page
More informationWORKSHOP SAFETY IN MOBILE APPLICATION
WORKSHOP SAFETY IN MOBILE APPLICATION Renaa Mondelaers Seven Bellens SICK SEW Cerified Funcional Safey Applicaion Exper Technology Leader Smar Facory CFSAE by SGS/TÜV Saar MOBILE APPLICATION AVAILABLE
More informationWireless LANs: MAC. Wireless LAN: MAC. IEEE protocol stack. Module W.lan MAC
Wireless LANs: W.lan.3-2 Wireless LAN: 802.11MAC Dr.M.Y.Wu@CSE Shanghai Jiaoong Universiy Shanghai, China Module W.lan.3 Dr.W.Shu@ECE Universiy of New Mexico Albuquerque, NM, USA managemen PANs & Blueooh:
More information4 Error Control. 4.1 Issues with Reliable Protocols
4 Error Conrol Jus abou all communicaion sysems aemp o ensure ha he daa ges o he oher end of he link wihou errors. Since i s impossible o build an error-free physical layer (alhough some shor links can
More informationPo,,ll. I Appll I APP2 I I App3 I. Illll Illlllll II Illlll Illll Illll Illll Illll Illll Illll Illll Illll Illll Illll Illlll Illl Illl Illl
Illll Illlllll II Illlll Illll Illll Illll Illll Illll Illll Illll Illll Illll Illll Illlll Illl Illl Illl US 20110153728A1 (19) nied Saes (12) Paen Applicaion Publicaion (10) Pub. No.: S 2011/0153728
More informationSaturday from 09:00-13:00 (GMT) Documentation on all Paxton Access products can be found on our website -
9/3/9 Ins-38 Ne plus conrol uni Paxon Access Technical Suppor +44 ()173 81111 suppor@paxon.co.uk Technical help is available: Monday - Friday from 7: - 19: (GMT) Saurday from 9: - 13: (GMT) Documenaion
More informationNEO 1200 SPA CONTROL SYSTEM
INSTRUCTION MANUAL NEO 200 SPA CONTROL SYSTEM The new sandard in Spa Conrol. NEO 00 CONTROL PANEL NEO 000 CONTROL PANEL C:.02 80-980.28 2200 E. Surgis Road, Oxnard, CA 93030 Phone 805.98.0262 Fax 805.98.9403
More informationFIELD PROGRAMMABLE GATE ARRAY (FPGA) AS A NEW APPROACH TO IMPLEMENT THE CHAOTIC GENERATORS
FIELD PROGRAMMABLE GATE ARRAY (FPGA) AS A NEW APPROACH TO IMPLEMENT THE CHAOTIC GENERATORS Mohammed A. Aseeri and M. I. Sobhy Deparmen of Elecronics, The Universiy of Ken a Canerbury Canerbury, Ken, CT2
More informationSaturday from 09:00-13:00 (GMT) Documentation on all Paxton products can be found on our website -
4/05/0 Ins-30080 Ne plus conrol uni Paxon Technical Suppor 073 80 suppor@paxon.co.uk Technical help is available: Monday - Friday from 07:00-9:00 (GMT) Saurday from 09:00-3:00 (GMT) Documenaion on all
More informationSam knows that his MP3 player has 40% of its battery life left and that the battery charges by an additional 12 percentage points every 15 minutes.
8.F Baery Charging Task Sam wans o ake his MP3 player and his video game player on a car rip. An hour before hey plan o leave, he realized ha he forgo o charge he baeries las nigh. A ha poin, he plugged
More informationV103 TRIPLE 10-BIT LVDS TRANSMITTER FOR VIDEO. General Description. Features. Block Diagram
General Descripion The V103 LVDS display inerface ransmier is primarily designed o suppor pixel daa ransmission beween a video processing engine and a digial video display. The daa rae suppors up o SXGA+
More informationPLCopen for efficiency in automation
Technical Paper PLCopen Technical Commiee 2 Funcion Blocks for Moion Conrol Par 6 Fluid Power Exensions Version 2.0, Published DISCLAIMER OF WARRANTIES THIS DOCUMENT IS PROVIDED ON AN AS IS BASIS AND MAY
More informationTLE6251-3G. Data Sheet. Automotive Power. High Speed CAN-Transceiver with Wake and Failure Detection. Rev. 1.1,
High Speed CAN-Transceiver wih Wake and Failure Deecion Daa Shee Rev. 1.1, 2011-06-06 Auomoive Power Table of Conens 1 Overview....................................................................... 3
More informationOperating Instructions. Classic Light Balances AL/PL/PL-S Models
Operaing Insrucions Classic Ligh Balances AL/PL/PL-S Models Operaing insrucions in a nushell Press key briefly Press and hold key down unil he desired display appears auomaic sequence Swiching on On Swiching
More informationHigh Speed CAN Transceiver with Wake and Failure Detection
1 Overview Feaures HS CAN Transceiver wih daa ransmission rae up o 1 MBaud Complian o ISO 11898-5 Very low power consumpion in Sleep mode Bus Wake-Up and local Wake-Up Inhibi oupu o conrol exernal circuiry
More informationSimple Network Management Based on PHP and SNMP
Simple Nework Managemen Based on PHP and SNMP Krasimir Trichkov, Elisavea Trichkova bsrac: This paper aims o presen simple mehod for nework managemen based on SNMP - managemen of Cisco rouer. The paper
More informationPSD. Digital Pressure Sensor. LED Display with Switch & Analog Outputs
Digial ressure Sensor LED Display wih Swich & Analog Oupus measuring monioring analyzing SD Auhorized Disribuor: WESCHLER INSTRUMENTS phone: 800-903-9870 0-378-680 fax: 800-903-990 0-238-0660 www.weschler.com
More informationNetwork management and QoS provisioning - QoS in Frame Relay. . packet switching with virtual circuit service (virtual circuits are bidirectional);
QoS in Frame Relay Frame relay characerisics are:. packe swiching wih virual circui service (virual circuis are bidirecional);. labels are called DLCI (Daa Link Connecion Idenifier);. for connecion is
More informationElectric Ephemeris PCA Argus v 3.1 for Windows. Sales & CD development. Electric Ephemeris/PCA Argus Programming: Laurids Pedersen
Elecric Ephemeris PCA Argus v 3.1 for Windows MSP Soluions: Sales & CD developmen Elecric Ephemeris/PCA Argus Programming: Laurids Pedersen CD Design: Web Design: Magic Space MSP Soluions Technical suppor
More informationDATASHEET X80120, X Features. Applications. Pinout. Ordering Information
DTSHEET X80120, X80121 Volage Supervisor/Sequencer Dual Programmable Time Delay wih Local/Remoe Volage Moniors FN8151 Rev 0.00 The X80120 is a volage supervisor/sequencer wih wo buil in volage moniors.
More informationNEWTON S SECOND LAW OF MOTION
Course and Secion Dae Names NEWTON S SECOND LAW OF MOTION The acceleraion of an objec is defined as he rae of change of elociy. If he elociy changes by an amoun in a ime, hen he aerage acceleraion during
More informationSTEREO PLANE MATCHING TECHNIQUE
STEREO PLANE MATCHING TECHNIQUE Commission III KEY WORDS: Sereo Maching, Surface Modeling, Projecive Transformaion, Homography ABSTRACT: This paper presens a new ype of sereo maching algorihm called Sereo
More informationManual. Global Drive. PLC Developer Studio. Global Drive. Lenze9300Servo.lib. Function library
L Manual Global Drive PLC Developer Sudio Global Drive Funcion library Lenze9300Servo.lib The funcion library Lenze9300Servo.lib can be used for he following Lenze PLCs: Type from hardware version from
More informationPCMCIA / JEIDA SRAM Card
Daashee PCMCIA / JEIDA SRAM Card Version 10 Preliminary Version 10 Page1 Documen Version Version Descripion Dae Edior Approved by 8 Updae 2, April, 2002 Greg Lin Greg Lin 9 Updae 10, Aug., 2010 Amos Chung
More informationVideo streaming over Vajda Tamás
Video sreaming over 802.11 Vajda Tamás Video No all bis are creaed equal Group of Picures (GoP) Video Sequence Slice Macroblock Picure (Frame) Inra (I) frames, Prediced (P) Frames or Bidirecional (B) Frames.
More informationOutline. EECS Components and Design Techniques for Digital Systems. Lec 06 Using FSMs Review: Typical Controller: state
Ouline EECS 5 - Componens and Design Techniques for Digial Sysems Lec 6 Using FSMs 9-3-7 Review FSMs Mapping o FPGAs Typical uses of FSMs Synchronous Seq. Circuis safe composiion Timing FSMs in verilog
More information4.1 3D GEOMETRIC TRANSFORMATIONS
MODULE IV MCA - 3 COMPUTER GRAPHICS ADMN 29- Dep. of Compuer Science And Applicaions, SJCET, Palai 94 4. 3D GEOMETRIC TRANSFORMATIONS Mehods for geomeric ransformaions and objec modeling in hree dimensions
More informationCENG 477 Introduction to Computer Graphics. Modeling Transformations
CENG 477 Inroducion o Compuer Graphics Modeling Transformaions Modeling Transformaions Model coordinaes o World coordinaes: Model coordinaes: All shapes wih heir local coordinaes and sies. world World
More information! errors caused by signal attenuation, noise.!! receiver detects presence of errors:!
Daa Link Layer! The Daa Link layer can be furher subdivided ino:!.! Logical Link Conrol (LLC): error and flow conrol!.! Media Access Conrol (MAC): framing and media access! differen link proocols may provide
More informationImplementing Ray Casting in Tetrahedral Meshes with Programmable Graphics Hardware (Technical Report)
Implemening Ray Casing in Terahedral Meshes wih Programmable Graphics Hardware (Technical Repor) Marin Kraus, Thomas Erl March 28, 2002 1 Inroducion Alhough cell-projecion, e.g., [3, 2], and resampling,
More informationChapter 8 LOCATION SERVICES
Disribued Compuing Group Chaper 8 LOCATION SERVICES Mobile Compuing Winer 2005 / 2006 Overview Mobile IP Moivaion Daa ransfer Encapsulaion Locaion Services & Rouing Classificaion of locaion services Home
More informationExercise 3: Bluetooth BR/EDR
Wireless Communicaions, M. Rupf. Exercise 3: Blueooh BR/EDR Problem 1: Blueooh Daa Raes. Consider he ACL packe 3-DH5 wih a maximum user payload of 1021 byes. a) Deermine he maximum achievable daa rae in
More informationMichiel Helder and Marielle C.T.A Geurts. Hoofdkantoor PTT Post / Dutch Postal Services Headquarters
SHORT TERM PREDICTIONS A MONITORING SYSTEM by Michiel Helder and Marielle C.T.A Geurs Hoofdkanoor PTT Pos / Duch Posal Services Headquarers Keywords macro ime series shor erm predicions ARIMA-models faciliy
More informationPCMCIA / JEIDA SRAM Card
Daashee PCMCIA / JEIDA SRAM Card Version 12 Preliminary Version 12 Page1 Documen Version Version Descripion Dae Edior Approved by 8 Updae 2,Apr. 2002 Greg Lin Greg Lin 9 Updae 10,Aug. 2010 Amos Chung Ken
More informationCOMP26120: Algorithms and Imperative Programming
COMP26120 ecure C3 1/48 COMP26120: Algorihms and Imperaive Programming ecure C3: C - Recursive Daa Srucures Pee Jinks School of Compuer Science, Universiy of Mancheser Auumn 2011 COMP26120 ecure C3 2/48
More informationImage segmentation. Motivation. Objective. Definitions. A classification of segmentation techniques. Assumptions for thresholding
Moivaion Image segmenaion Which pixels belong o he same objec in an image/video sequence? (spaial segmenaion) Which frames belong o he same video sho? (emporal segmenaion) Which frames belong o he same
More informationLP10RF & DIGISTAT+2RF
LP10RF & DIGISTAT+2RF Radio frequency conrolled programmable room rmosa wih domesic ho waer programmer Par number RF560DR Supp 401 Souhway Drive Plymouh PL6 6QT Unied Kingdom Technical: +44(0)333 7000
More informationTRANSFORMER TEST SYSTEMS
TRANSFORMER TEST SYSTEMS 20203 TRANSFORMER TEST SYSTEMS FROM PHENIX Broad Range Covers Mos Applicaions PHENIX Technologies offers a complee line of Transformer Tes Sysems, from a small porable uni wih
More informationSafety Integrated for drive technology and motion control siemens.com/safety-drives
Simply safe wice he efficiency! Safey Inegraed for drive echnology and moion conrol siemens.com/safey-drives Focused approach for more safey As machine builder and company operaing machines, your opmos
More informationEECS 487: Interactive Computer Graphics
EECS 487: Ineracive Compuer Graphics Lecure 7: B-splines curves Raional Bézier and NURBS Cubic Splines A represenaion of cubic spline consiss of: four conrol poins (why four?) hese are compleely user specified
More informationOverview of Board Revisions
s Sysem Overview MicroAuoBox Embedded PC MicroAuoBox II can be enhanced wih he MicroAuoBox Embedded PC. The MicroAuoBox EmbeddedPC is powered via he MicroAuoBox II power inpu connecor. Wih he common power
More informationShortest Path Algorithms. Lecture I: Shortest Path Algorithms. Example. Graphs and Matrices. Setting: Dr Kieran T. Herley.
Shores Pah Algorihms Background Seing: Lecure I: Shores Pah Algorihms Dr Kieran T. Herle Deparmen of Compuer Science Universi College Cork Ocober 201 direced graph, real edge weighs Le he lengh of a pah
More informationA Matching Algorithm for Content-Based Image Retrieval
A Maching Algorihm for Conen-Based Image Rerieval Sue J. Cho Deparmen of Compuer Science Seoul Naional Universiy Seoul, Korea Absrac Conen-based image rerieval sysem rerieves an image from a daabase using
More informationBEST DYNAMICS NAMICS CRM A COMPILATION OF TECH-TIPS TO HELP YOUR BUSINESS SUCCEED WITH DYNAMICS CRM
DYNAMICS CR A Publicaion by elogic s fines Microsof Dynamics CRM Expers { ICS CRM BEST OF 2014 A COMPILATION OF TECH-TIPS TO HELP YOUR BUSINESS SUCCEED WITH DYNAMICS CRM NAMICS CRM { DYNAMICS M INTRODUCTION
More informationUX260 QUICK START GUIDE
UX260 QUICK START GUIDE Transferring Music Playing Music Blueooh Pairing Taking a Picure/ Recording a Video www.lgusa.com Geing o Know Your Phone Camera BACK SIDE Lef Sof Key Speakerphone Key Talk Key
More information1 œ DRUM SET KEY. 8 Odd Meter Clave Conor Guilfoyle. Cowbell (neck) Cymbal. Hi-hat. Floor tom (shell) Clave block. Cowbell (mouth) Hi tom.
DRUM SET KEY Hi-ha Cmbal Clave block Cowbell (mouh) 0 Cowbell (neck) Floor om (shell) Hi om Mid om Snare Floor om Snare cross sick or clave block Bass drum Hi-ha wih foo 8 Odd Meer Clave Conor Guilfole
More informationLess Pessimistic Worst-Case Delay Analysis for Packet-Switched Networks
Less Pessimisic Wors-Case Delay Analysis for Packe-Swiched Neworks Maias Wecksén Cenre for Research on Embedded Sysems P O Box 823 SE-31 18 Halmsad maias.wecksen@hh.se Magnus Jonsson Cenre for Research
More informationPoint Cloud Representation of 3D Shape for Laser- Plasma Scanning 3D Display
Poin Cloud Represenaion of 3D Shape for Laser- Plasma Scanning 3D Displa Hiroo Ishikawa and Hideo Saio Keio Universi E-mail {hiroo, saio}@ozawa.ics.keio.ac.jp Absrac- In his paper, a mehod of represening
More informationCommunication Networks
Communicaion Neworks Chaper 10 Wireless Local Area Neworks According o IEEE 802.11 Communicaion Neworks: 10. IEEE 802.11 651 10. WLANs According o IEEE 802.11 Overview Organizaion of a WLAN according o
More informationOptimal Crane Scheduling
Opimal Crane Scheduling Samid Hoda, John Hooker Laife Genc Kaya, Ben Peerson Carnegie Mellon Universiy Iiro Harjunkoski ABB Corporae Research EWO - 13 November 2007 1/16 Problem Track-mouned cranes move
More informationWeb System for the Remote Control and Execution of an IEC Application
Web Sysem for he Remoe Conrol and Execuion of an IEC 61499 Applicaion Oana ROHAT, Dan POPESCU Faculy of Auomaion and Compuer Science, Poliehnica Universiy, Splaiul Independenței 313, Bucureși, 060042,
More informationChapter Six Chapter Six
Chaper Si Chaper Si 0 CHAPTER SIX ConcepTess and Answers and Commens for Secion.. Which of he following graphs (a) (d) could represen an aniderivaive of he funcion shown in Figure.? Figure. (a) (b) (c)
More informationnextgeneration II 2x7-280, , , Instruction manual
Page Issue 0. nexgeneraion II Firmware V.0 and higher nexgeneraion II Firmware version V.0 and higher Issue 0., page Insrucion manual nexgeneraion II x-0, -0, -0, -0 Firmware version V.0 and higher Microprocessor
More informationTLE9250V. 1 Overview. High Speed CAN FD Transceiver. Qualified for Automotive Applications according to AEC-Q100
High Speed CAN FD Transceiver 1 Overview Qualified for Auomoive Applicaions according o AEC-Q100 Feaures Fully complian o ISO 11898-2 (2016) and SAE J2284-4/-5 Reference device and par of Ineroperabiliy
More informationT775R Series 2000 Electronic Stand-Alone Controller
775R Series 2000 Electronic Stand-Alone Controller INSALLAION INSRUCIONS PRODUC DESCRIPION he 775 electronic stand-alone controllers are the next generation of commercial and agricultural controls capable
More informationMobile Computing IEEE Standard 9/10/14. CSE 40814/60814 Fall 2014
Mobile Compuing CSE 40814/60814 Fall 2014 IEEE IEEE (Ins4ue of Elecrical and Elecronics Engineers) esablished he 802.11 Group in 1990. Specifica4ons for sandard ra4fied in 1997. Ini4al speeds were 1 and
More informationOptics and Light. Presentation
Opics and Ligh Presenaion Opics and Ligh Wha comes o mind when you hear he words opics and ligh? Wha is an opical illusion? Opical illusions can use color, ligh and paerns o creae images ha can be
More informationshared via CourseHero.com This study resource was Exam #1 for Computer Networks (CIS 6930) Fall 2003 >>> SOLUTIONS <<<
Exam #1 for Compuer Neworks (CIS 6930) Fall 2003 >>> SOLUTIONS
More informationIDEF3 Process Description Capture Method
IDEF3 Process Descripion Capure Mehod IDEF3 is par of he IDEF family of mehods developmen funded by he US Air Force o provide modelling suppor for sysems engineering and enerprise inegraion 2 IDEF3 Mehod
More information1.4 Application Separable Equations and the Logistic Equation
1.4 Applicaion Separable Equaions and he Logisic Equaion If a separable differenial equaion is wrien in he form f ( y) dy= g( x) dx, hen is general soluion can be wrien in he form f ( y ) dy = g ( x )
More informationFunctional Differences Between the DSP56311 and DSP56321
Freescale Semiconducor Engineering Bullein EB365 Rev 5, 10/2005 Funcional Differences Beween he DSP56311 and DSP56321 The DSP56311 and DSP56321, wo members of he Freescale DSP56300 family of programmable
More informationDefinition and examples of time series
Definiion and examples of ime series A ime series is a sequence of daa poins being recorded a specific imes. Formally, le,,p be a probabiliy space, and T an index se. A real valued sochasic process is
More informationImproving the Efficiency of Dynamic Service Provisioning in Transport Networks with Scheduled Services
Improving he Efficiency of Dynamic Service Provisioning in Transpor Neworks wih Scheduled Services Ralf Hülsermann, Monika Jäger and Andreas Gladisch Technologiezenrum, T-Sysems, Goslarer Ufer 35, D-1585
More informationMB86297A Carmine Timing Analysis of the DDR Interface
Applicaion Noe MB86297A Carmine Timing Analysis of he DDR Inerface Fujisu Microelecronics Europe GmbH Hisory Dae Auhor Version Commen 05.02.2008 Anders Ramdahl 0.01 Firs draf 06.02.2008 Anders Ramdahl
More information