EtherCAT Terminal 2017 by Beckhoff Automation

More catalogs by Beckhoff Automation | EtherCAT Terminal 2017 | 136 pages | 2017-09-16

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Catalog EtherCAT Terminal 2017

permanent magnet synchronous motor electronic terminal blocks spring loaded terminal strips flat ribbon cable flat ribbon cable 1 flat ribbon cable connectors flat ribbon cable connector flat ribbon cable 6 pin flat ribbon cable 3 pin 9 pin flat ribbon cable flat ribbon cable 4 pin flat ribbon cable 5 pin flat ribbon cable 9 pin flat ribbon cable 7 pin 6 pin flat ribbon cable non inductive loads flat ribbon cable 15 flat ribbon cable 9 pin connector flat ribbon cable 4 pin connector flat ribbon cable 6 pin connector flat ribbon cable 8 pin connector flat ribbon cable 5 pin connector flat ribbon cable 24 pin flat ribbon cable 14 18 awg flat ribbon cable flat ribbon cable 60 pin 28 awg flat ribbon cable flat ribbon cable 30 pin flat ribbon cable 100 pin flat ribbon cable 15 pin flat ribbon cable 50 pin flat ribbon cable 25 pin 15 pin flat ribbon cable flat ribbon cable 60 pin connector flat ribbon cable 10 pin flat ribbon cable 14 pin 10 pin flat ribbon cable flat ribbon cable 15 pin connector flat ribbon cable 16 pin connector flat ribbon cable 13 pin 14 pin flat ribbon cable flat ribbon cable 11 pin flat ribbon cable 12 pin flat ribbon cable 12 connector flat ribbon cable 50 pin connector flat ribbon cable 14 pin connector 4 position push pull switch flat ribbon cable 10 pin connector flat ribbon cable 12 pin connector round to flat ribbon cable 300 ma 12 v dc 28 awg stranded wire flat ribbon cable 10 pin 50 low pass filters manufacturer 14 stranded wire

EtherCAT Terminal 2017 is listed under these categories

Industrial Supply > Industrial Automation

Featured catalog pages of EtherCAT Terminal 2017

ethercat terminal digital output el2xxx/es2xxx em2xxx signal 2-channel 4-channel 5 v dc el2124 8-channel 16-channel 361 imax ±20 ma 12 v dc el2024-0010 361 imax 2.0 a 24 v dc el2042 357 2 x 4 a/1 x 8 a el2002 354 imax 0.5 a el2004 354 el2008 el2014 with diagnostics 355 355 em2042 d-sub connection 356 el2872 flat-ribbon cable 355 el2808 8 x 0 v 355 el2809 355 el2819 with diagnostics 356 el2084 360 el2088 negative switching el1859 filter 3.0 ms type 3 negative switching el2022 356 el2024 357 el2828 el2032 357 el2034 357 24 v dc xfc el2202 ton/toff 1 µs push-pull outputs 358 el2212 el1259 358 overexcitation 359 el2262 timestamp 24 v dc el2901 safe outputs twinsafe 1 safe output 357 with diagnostic inputs and outputs el2258 359 oversampling 371 el2902 359 8 multi-timestamping multi-timestamping el2252 356 el2872-0010 flat-ribbon cable imax 2.0 a 359 multi-timestamping 371 el2904 twinsafe 2 safe outputs 371 twinsafe 4 safe outputs 30 v ac/dc el2784 362 el2788 363 imax 2.0 a

k-bus ethercat couplers ethercat couplers with e-bus bus couplers an i/o station consists of an ethercat couplers with k-bus con optical fibre connection the bus couplers for ethercat ethercat coupler and almost any nection can also be used to connect for linking devices over large terminals are used to connect number of terminals the ethercat beckhoff bus terminals this way distances with plastic optical fibre conventional fieldbus systems protocol is maintained right down compatibility and consistency with up to 50 m multimode glass fibre with ethercat into the individual terminal existing system are guaranteed up to 2 km or singlemode glass fibre up to 20 km ethercat terminal e-bus ethercat couplers 331 the ethercat couplers are the link between the ethercat protocol at the fieldbus level and e-bus-based el/es/em terminals different versions are available depending on – which physical layer is used “on the left” i.e on the fieldbus side – whether the

digital input el1008 el1018 ethercat terminal digital input 24 v dc positive switching 344 the digital inputs of a 24 v supply are among the most used signals the en 61131-2 standard describes the input characteristic and distinguishes three types type 1 has a small input current with low power dissipation this input is optimised for mechanical switches and activelyswitched electronic outputs type 2 has a significantly larger input current and is optimised for 2-wire sensors with a high quiescent current consumption in switched-on state the current consumption of this input is high the related power dissipation is generally not acceptable type 3 is a combination between type 1 with low current in switched-on state and a satisfactorily high quiescent current for the majority of modern 2-wire sensors the type 3 input can be used in almost all applications as a replacement for type 1 the diagram shows the typical current/voltage curves of the ethercat terminal inputs and the allowable

el2828 el20xx digital output 4-channel digital 8-channel digital 2-channel digital 4-channel digital 2-channel digital output terminal output terminal output terminal output terminal output terminal 2-wire 24 v dc 2-wire 24 v dc 4-wire 24 v dc 2-wire 24 v dc 3-wire 24 v dc 2a 2a 2 a diagnostics 2 a with diagnostics 2 x 4 a/1 x 8 a el2024 es2024 el2828 el2032 es2032 el2034 es2034 el2042 es2042 4-wire 2-wire 3-wire 2.0 a short-circuit-proof 2.0 a short-circuit-proof 4.0 a short-circuit-proof per channel per channel with diagnostics per channel 8 a for parallel 2-wire 2.0 a short-circuit-proof 2 a per channel ∑ 10 a per channel typ ton 60 µs typ ton 40 µs typ ton 40 µs typ toff 200 µs typ toff 250 µs typ toff 200 µs typ toff 200 µs typ toff 200 µs 4 8 2 4 2 ethercat terminal connection typ ton 40 µs typ ton 40 µs +60 °c +60 °c +60 °c +60 °c -25 °c -25 °c -25 °c -25 °c 357 8a 1 5 2 6 3 7 4 1 9 2 10 3 11 4 12 5 13 6 14 7 15

digital output el27xx ethercat terminal digital output triac outputs up to 230 v ac 370 in applications with particularly frequent switching operations the service life of a mechanical relay is potentially very short an electronic switch in the form of triacs and mosfet transistors is an almost wear-free replacement a triac is a robust switch and will only be used as a zero crossing switch in the ethercat terminals switch-on only occurs in zero crossing voltage and switch-off only in zero crossing current inductive loads are therefore switched off without overvoltage the disadvantage of a triac is a relatively high voltage drop in switched-on state which leads to a higher power dissipation compared to a relay contact an essential protective circuit leads to a leakage current in switched-off state the output is not safely isolated from the mains triacs need a minimum load so that they remain switched-on and a minimum voltage for error-free zero crossing detection when fusing ethercat

el302x analog input 1-channel analog 2-channel analog 4-channel analog input terminal input terminal input terminal 4…20 ma 12 bit 4…20 ma 12 bit 4…20 ma 12 bit differential input differential input differential input technical data el3021 es3021 el3022 es3022 el3024 es3024 signal voltage 4…20 ma resolution 12 bit 16 bit presentation incl sign technology differential input differential input differential input conversion time 0.625 ms default setting 0.625 ms default setting 0.625 ms default setting configurable configurable configurable 1 differential 2 differential 4 differential number of inputs ethercat terminal analog input 4…20 ma 12 bit differential input 383 +60 °c +60 °c +60 °c -25 °c -25 °c -25 °c 1 5 1 5 1 5 2 6 2 6 2 6 3 7 3 7 3 7 4 8 4 8 4 8 in the el302x series 4 to 20 ma overcurrent and undercurrent are displayed not only in the process image but also by an error led for each channel common-mode 10 v max 10 v max 10 v

el3356 1-channel precise load cell analysis 1-channel precise load cell analysis resistor bridge 16 bit resistor bridge 24 bit el3356 es3356 el3356-0010 analog input 2 for 1 resistor bridge in 2 for 1 resistor bridge full bridge technology in full bridge technology 10…250 ms configurable 0.1…250 ms configurable max 100 samples/s max 10,000 samples/s ethercat terminal 24 bit 32 bit presentation 397 1 5 1 5 2 6 2 6 3 7 3 7 4 8 4 8 the el3356 analog input terminal is suitable for high-precision measurements with high demands on the prefiltering of the measured values in the terminal the el3356-0010 analog input terminal with measuring cycles of 100 µs and a resolution of 24 bits can be used for fast and precise monitoring of torque or vibration sensors up to 12 v from power contacts dependent on sensor up to 12 v from power contacts dependent on sensor depends on strain gauge supply min 1 ma depends on strain gauge supply min 1 ma typ 210 ma typ 210 ma – yes max

analog output el402x ethercat terminal analog output 4…20 ma 12 bit 1-channel analog 2-channel analog 4-channel analog 8-channel analog output terminal output terminal output terminal output terminal 4…20 ma 12 bit 4…20 ma 12 bit 4…20 ma 12 bit 4…20 ma 12 bit technical data el4021 es4021 el4022 es4022 el4024 es4024 el4028 es4028 signal voltage 4…20 ma resolution 12 bit connection technology 3-wire single-ended 3-wire single-ended 2-wire single-ended 1-wire single-ended conversion time 100 µs 150 µs 250 µs 400 µs number of outputs 1 2 4 8 410 +60 °c +60 °c -25 °c -25 °c 1 5 1 5 1 5 1 5 2 6 2 6 2 6 2 6 3 7 3 7 3 7 3 7 4 8 4 8 4 8 4 8 the ethercat terminals of the el402x series are analog output terminals with average conversion times and 12-bit resolution the channels use the 0 v power contact as common reference potential apart from the 8-channel version el4028 the terminals of the el402x series are designed for

el6688 communication communication ieee 1588 external synchronisation ieee 1588 ieee 1588 external synchronisation interface technical data el6688 ethernet interface 10base-t/100base-tx ethernet with 1 x rj45 data transfer rates 10/100 mbit/s ieee 802.3u auto-negotiation half or full duplex at 10 and 100 mbit/s possible automatic settings cable length up to 100 m twisted pair ethercat terminal the precision time protocol can be used in order to generate an identical time base within an application i.e over several networks ptp is a protocol that secures the synchronicity of the time settings of several devices in a network and which is defined in ieee 1588 standard as the protocol standard for the synchronisation of distributed clocks in networks as opposed to the ntp network time protocol the emphasis in ptp is on higher accuracy the applicational synchronisation can be implemented using twincat and the el6688 ieee 1588 external synchronisation interface if the ptp ethernet frames

motion el70xx ethercat terminal motion stepper motor terminals 436 stepper motors are often used in positioning drives they allow by the combination of single steps a positioning process without feedback of the rotor positions this “open control chain” mode of operation and the longevity of a stepper motor are particularly interesting for price-sensitive fields of application in contrast with a dc motor the control of a stepper motor is carried out by the different energisation of the individual motor windings following a defined pattern of pulses the electromagnetic field of the stator is switched intermittently so that the shaft turns through the step angle α the motor follows the impulse pattern of the control unit until the coupled momentum exceeds its holding momentum or the impulse demand is too dynamic which leads to standstill of the motor the el703x and el704x ethercat stepper motor terminals which are suitable for highly dynamic movement solve this problem

el9576 system terminals system terminals brake chopper terminal brake chopper terminal 72 v 155 µf el9576 es9576 technology brake chopper diagnostics temperature on board over undervoltage 1 ethercat terminal technical data 5 10 the el9576 ethercat terminal contains high-performance capacitors for stabilising supply voltages it can be used in connection with the motion terminals el7xxx e.g the el70xx stepper motor terminals the el73xx dc motor terminals or the el72xx servomotor terminals low internal resistance and high pulsed current capability enable good buffering in parallel with a power supply unit return currents are stored particularly in the context of drive applications thereby preventing overvoltages if the fed back energy exceeds the capacity of the capacitors the el9576 switches the load voltage through to the terminal points 1 and 5 the energy is dissipated by the connection of the zb8110 external ballast resistor 10 Ω 100 w the el9576 is characterised in