ISO 00:000 C R US MULTITURN ABSOLUTE ENCODERS EAM PARALLEL - SSI Description of the PARALLEL multiturn absolute encoder The EAM range of parallel multiturn absolute encoders was studied for applications requiring high accuracy, also on extended linear development; they are available with resolution levels up to bits and therefore 8 PositionsTurn on the turn and with resolution levels of up to bits, 0 Positionsturn for turns. The robust mechanics and the different types of flanging mean that it can be used in a broad range of applications, guaranteeing correct operation, even in the most arduous conditions. This range of encoders is available with cable or connector output and as for the single turn, they can reach a level of protection up to IP, depending on the model. The output configurations are both grey code and binary and the output electronics cover all fields of application being available in the NPN, NPN OPEN COLLECTOR, PNP and PUSH PULL formats. Description of the SSI multiturn absolute encoder The range of multi-turn absolute encoders with SSI format output, supply the data in this format, created by technology already introduced into the single turn. The use of this standard increases the efficacy of this type of encoder; this is because the amount of data of a multi-turn is much higher and the serial approach becomes an optimum solution to the growing number of wires. For this series in fact, the output data is formed by a bit word, as the standard in which the useful bits are numerically proportional to the resolution chosen for the encoder. This type of transmission therefore considerably reduces the wiring problem, while maintaining the device performance the same. In this encoder range, the data connections are reduced, as for the single turn, to just four wires; one pair for the position code and one for the clock signal, both in differential logic. The mechanical components, above all the flanging available are highly diverse and capable of satisfying the most widely ranging demands.
EAM = multiturn absolute encoder 8 = body dimension = body dimension 0 = body dimension = body dimension Ordering codes for multiturn absolute encoder PARALLEL EAM A 0 0 G 88 P P X X In case of a particular Customer variant separate by a full stop MA R. XXX = R = radial A = axial XXX Special Customer variants indicated by a progressive number from 00 to A = mod.eam 0 B = mod.eam8 C = mod.eam8 D = mod.eam E = mod.eam F = mod.eam G = mod.eam Type of flanges 8 8 08 0 Turns 8 8 08 0 8 Resolutions N.B.: For impulse availability contact our offices B = Binary G = Gray (Standard) P = PUSH PULL with short circuit protection (Standard positive logic) Code 8 8 Encoder power supply (Vdc) N.B.: For the optionals on the output configurations contact our offices Electronics output configuration = ø g mm -- 8B 8 = ø 8g mm -- 8B -- A D E -- 0A = ø.g mm -- A D E -- 0A = ø g mm -- 8B C -- A D E -- 0A -- A = ø g mm -- A 8 = ø 8H mm = ø H mm = ø H mm = ø H mm = ø H mm = ø H mm PD = poles cable standard output cable. m PE = poles cable standard output cable. m MA= Connector MS type poles ME= Connector MS type poles = 000 with IP = 000 R.P.M. X = IP S = optional IP excluding EAMG F - EAMA Protection Shaft diameter Hole diameter only for mod. G F L = Latch (only Gray) X = to indicate if not use N = Negative P = Positive Options Logics
Output connections for multiturn absolute PARALLEL encoder FUNCTION bit (LSB) bit bit bit bit bit bit bit 8 bit bit bit bit bit bit bit bit bit bit 8 bit bit 0 bit bit bit bit bit LATCH B G 0 B G B G B G B G B G B G B G B G 8 B G B G B G 8 0 B G B G B G B G B G 0 Volt U D + Vdc B G B G B G B G B G 8 8 B G B G 0 0 B G B G WAY CABLE COLOUR green yellow blue brown pink white gray violet graypink whitegreen browngreen whiteyellow Yellowbrown black redblue red WAY CABLE COLOUR green yellow blue brown pink white Gray violet graypink whitegreen browngreen whiteyellow yellowbrown Whitegray graybrown whitepink pinkbrown whiteblue brownblue whitered brownred whiteblack brownblack graygreen yellowpink yellowgray black redblue red PIN MMP A B C D E F G H J K L M N P R S T U V PIN MMP A B C D E F G H J K L M N P R S T U V W X Y Z a d e f j g h Connector or cable choice According to the resolution on turn and to the turns number chose is possible to calculate the necessary connections of the connector or of the cable to use. From the table below is possible to get the connections number: Resolutions on turn + Turns number: Resolution N Turns 8 0 8 80 0 Bit Number Connections Number Risoluzione 8 8 0 0 00 0 00 00 0 800 000 08 880 00 000 0 8 EXAMPLE : ResolutionsTurn = 8 connections N Turns = connections Total connections. EXAMPLE : ResolutionsTurn 0 = connections N Turns 0 = connections Total connections. From to connections to consider poles cable or poles connector. From to connections to consider poles cable or poles connector.
EAM = multiturn absolute encoder 8 = body dimension = body dimension 0 = body dimension = body dimension Ordering codes for multiturn absolute encoder SSI EAM A 0 0 G S X X X In case of a particular Customer variant separate by a full stop MC R. XXX = R = radial A = axial XXX Particular Customer variants indicated by a progressive number from 00 to A = mod.eam 0 B = mod.eam8 C = mod.eam8 D = mod.eam E = mod.eam F = mod.eam G = mod.eam Type of flanges 8 8 08 0 Turns PC = poles cable standard output cable. m MC= Connector MS type poles HA= Connector poles = 000 with IP = 000 R.P.M. X = IP S = optional IP excluding EAMG F - EAMA Protection 8 8 08 0 8 N.B.: For impulse availability contact our offices B = Binary G = Gray (Standard) 8 8 S = SSI (Serial Synchronous Interface) Resolutions N.B.: For the optionals on the output configurations contact our offices Code Encoder power supply (Vdc) Electronics output configuration = ø g mm -- 8B 8 = ø 8g mm -- 8B -- A D E -- 0A = ø.g mm -- A D E -- 0A = ø g mm -- 8B C -- A D E -- 0A -- A = ø g mm -- A 8 = ø 8H mm = ø.h mm = ø H mm = ø H mm = ø H mm = ø H mm Shaft diameter Hole diameter only for mod. F G X = not to utilize X = not to utilize Options Logics Output connections for multiturn absolute SSI encoder FUNCTION + Vdc 0 Volt UD Data + Data - Clock + Clock - WAY CABLE COLOUR red black redblue green brown yellow orange PIN M0MP G F E C D A B PIN H 8
EAMA MAX 0 ø*8. ø. ø.h ø8. N M su ø. *FOR ø SHAFT mm PROTUSION EAM8B 8 ø0 ø8 ø0h ø MAX 0 ø8.g ø0h EAM8C N M su ø ø. MAX 0 ø0 8 ø*8. øf *FOR ø SHAFT mm PROTUSION N M su ø8 EAMD - EAME MAX 0 ø 8 0 ø*8. *FOR ø SHAFT mm PROTUSION. N fori ø. su. ø.h R.. N fori ø. su. ø0h R. MOD.D FLANGE MOD.E FLANGE
EAMF - EAMG MAX 8. 8.8. ø8. H ø. ø. ESA8 TYPE "G" FIXING ø. 0 0 TYPE "F FIXING EAM0A ø,. 0 ø*8. ø80 *FOR ø SHAFT mm PROTUSION ø8 ø0 N M su ø0 N M su ø0 ø0h MAX 0.. EAMA MAX ø N fori su ø0 ø8h ø*8. *FOR ø SHAFT mm PROTUSION 8
Environmental Characteristics Mechanical Characteristics Protection Operating Temperature Storage Temperature IP IP optional --8BC --ADE --0A 0 +0 C - +0 C Electronic Characteristics PARALLEL Shaft diameters (mm) Hole diameters (mm) R.P.M. Max ø g -- 8B ø8 g -- 8B -- ADE -- 0A ø.(8 ) g -- ADE -- 0A ø g -- 8BC -- ADE -- 0A -- A ø g -- A ø8 H ø H ø H ø H ø H ø H --FG --FG --FG --FG --FG --FG 000 continuos 000 continuos for --FG 000 with IP Turns Resolutions Turn Power supply 8 8 08 0 8 8 08 0 8 8 8 Vdc Max shaft load Shock N ( Kp ) axial with shaft ø 0 N ( Kp ) radial with shaft ø 0 N ( Kp ) axial 0 N ( Kp ) radial 0 G per msec Current consumption without load Max commutable current Electronic output configuration Max output frequency ma 0 ma per channel PUSH PULL (positive logic) 0 KHz output code F= RPM x Resolution 0 Vibrations Bearings life Bearings Shaft material Body material G 000 Hz revolutions n ball bearings Stainless steel AISI0 Aluminium -UNI 00- (DS) Accuracy Turns Resolutions Turn +- ½ LSB Electronic Characteristics SSI 8 8 08 0 8 8 08 0 8 Cover material Flange material Weight Aluminium alloy 00 Aluminium -UNI 00- (DS) 00 g --8BC--ADEFG 800 g --0A--A Power supply Current consumption without load Electronic output configuration Monostable time Time between two clock sequences Frequency range Vdc 8 8 Vdc ma SSI (Serial Synchronous Interface) - µ s > µ s 0 KHz - MHz Accuracy +- ½ LSB
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