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Detailed information FOR INTERNAL USE ONLY! CUBE20.

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Presentation on theme: "Detailed information FOR INTERNAL USE ONLY! CUBE20."— Presentation transcript:

1 Detailed information FOR INTERNAL USE ONLY! CUBE20

2 TYPICAL IP20 Applications
in decentralized distribution boxes / bus terminal boxes and centralized control cabinets

3 „Cube67 Rail“ is No.4 in the ranking of all Cube67 modules
CUBE20 I/O SYSTEMS FOR CONTROL CABINETS Our chances with CUBE20: Trend of Cube67 Rail  overporportional growth „Cube67 Rail“ is No.4 in the ranking of all Cube67 modules

4 IN THE CONTROL CABINET: PLC I/Os
PLC units cover 46% of all control cabinet I/Os. Customer is committed to one system inflexible Screw terminals  require maintenance PLC I/Os do not offer I/O diagnostic functions Common terminals not allocated Unit costs  high PLC I/Os Example Siemens S7: 16 digital inputs € 32 digital inputs € 16 digital outputs € 32 digital outputs € 16 digital inputs & outputs €

5 Rationalization with integrated approach
Cube 20 Rationalization with integrated approach combined with Cube67 or in direct operation at the bus transparent installation integrated diagnostic

6 CUBE20 - I/O SYSTEM FOR CONTROL CABINETS
Product overview Bus node Cube67 Ethernet IP ProfiNet I/O Profibus DP Expansion BN + 3 modules BN + 15 modules Digital I/Os DI 32 DO 32 DI 16 DO16 Analog I/Os AI 4 AO U/I AI 4 AO U/I AI 2 AO 2 U/I AI 4 RTD AI 4 TH Accessories Connectors Cables Common terminal block Diagnostic Channel diagnostics

7 UNIQUE SELLING POINTS (USP)
few components – time savings high packing density - saving in space Transparent terminals with status LED – allows clear assignment color-coded terminals design provides cost benefits 1, 2, 3, or 4 wire technology possible

8 LED channel diagnostics
REDUCTION OF DOWNTIME System level I/O level System Diagnostic Expanded diagnostic Control LED channel diagnostics Interface I/O-Module CUBE20 Cube67

9 CUBE20 – ERROR MESSAGES Output terminals
red LED  short circuit or overload Output is switched off UA – output supply terminal red LED  under voltage UI – input supply terminal US – sensor supply terminal Every message is also transferred to the control

10 CUBE20 Sensor supply max. 700 mA short-circuit and overload protected recognition of under voltage <18V red LED in supply terminal Output supply Total current max. 12A Outputs single channel switch off in case of short circuit or overload red LED in output terminal

11 CUBE20 small design 56 x 117 x 47mm (WxHxD), (with 90° Cube67-female connector D = 67mm) pluggable spring clamp terminals max. 2.5 mm2 Status LED in transparent terminal codeable terminals I/Os and system are galvanically separated

12 COLOR CODING Color of terminal Meaning INPUT voltage OV or ground
OUTPUT voltage Channel FE Clear marking of terminals from X0 to X3 and 00-07

13 CUBE20 CONNECTION TO CUBE67
Technical data: UI V US V max. 0.7 A (current monitored) UA V, max. total current 12A DO V 0.5A short-circuit and overload protected DI V acc. to IEC input characteristics Type II Internal communication LED UA = actuator supply Cube communication 8 DIO US = sensor supply UI = input supply 0V = Minus monitors

14 IP20 IO Station for control cabinet applications
Cube20 IP20 IO Station for control cabinet applications Analog and digital signals High channel density for low space requirements Clear signals for easy maintenance Easy handling for fast installation

15 Internal communication
CUBE20 – BUS NODE Technical data: UI V UB V US V max. 0.7 A (current monitored) DI V acc. to IEC input characteristics Type II Internal communication LED UB = module supply Ground UI = input supply FE monitors DI8 US = sensor supply 0V = Minus

16 CUBE20 – DIGITAL INPUT MODULE
Technical data: UI V US V max. 0.7 A (current monitored) DI V acc. to IEC input characteristics Type II Internal communication LED UI = input supply 0V = Minus 32 DI US = sensor supply monitors 1 byte per terminal

17 CUBE20 – DIGITAL OUTPUT MODULE
Technical data: UA V, max. total current 12A DO V 0.5A short-circuit and overload protected Internal communication LED UA1 = actuator supply 0V = Minus 16DO/0.5A UA2 = actuator supply 1 byte per terminal

18 CUBE20 – DIGITAL HYBRID MODULE
Internal communication LED UA = actuator supply 16DO/0.5A 16DI US = sensor supply Technical data: UI V US V max. 0.7 A (current monitored) UA V, max. total current 12A DO V 0.5A short-circuit and overload protected DI V acc. to IEC input characteristics Type II UI = input supply 0V = Minus monitors 1 byte per terminal

19 CUBE20 – ANALOG INPUT MODULE
Technical data: UI V US V max. 0.7 A (current monitored) AI V to +12V or 0 to 12V / 0 to 23 mA or 4 to 23mA Internal communication LED Channel 0 UI = Module and input supply Voltage or power input 0V = Minus Analogminus Preliminary module US = sensor supply (current monitored) FE

20 CUBE20 – ANALOG OUTPUT MODULE
Technical data: UI V UA V max. 0.7 A (current monitored) AO V to +10V or 0 to 10V / 0 to 20 mA or 4 to 20mA Internal communication LED Channel 0 UA = output supply Voltage or power input UB = module supply UA0-3 = actuator supply (current monitored) Preliminary module 0V = Minus FE

21 CUBE20 – ANALOG INPUT and OUTPUT MODULE
Technical data: UI V UA V max. 0.7 A (current monitored) US V max. 0.7 A (current monitored) AI V to +12V or 0 to 12V / 0 to 23 mA or 4 to 23mA AO V to +10V or 0 to 10V / 0 to 20 mA or 4 to 20mA Internal communication LED Outputs Inputs UI = Module and input supply UA = output supply 0V = Minus Channel 0

22 CUBE20 – TH MODULE Internal communication Technical data: LED
UI V US V max. 0.7 A (current monitored) AI bit (15 bit with sign) UI = module and input supply Channel 1 Input temperature sensor 0V = Minus KTY – for cold junction compensation* FE * Increases accuracy by measuring the terminal temperature and reduces installation time

23 Internal communication
CUBE20 – RTD MODULE Technical data: UI V US V max. 0.7 A (current monitored) AI - 16 bit (15 bit with sign) Internal communication LED UI = Module and input supply Channel 1 – RTD input 0V = Minus FE

24 GALVANIC SEPARATION Galvanic separation Different circuits Input
Communication Communication Communication Communication BUS Input Output Input Output Input Output Galvanic separation Different circuits

25 CONNECTION TO PROFIBUS
by “Drag and Drop” as usual

26 CONNECTION OF EXTENSION MODULES
the modules can be integrated into a project in the usual way integrate parametrize evaluate

27 CLEARTEXT - PARAMETRIZATION

28 DISASSEMBLY OF THE TERMINALS
Position for the screw driver Alternatively: Use of the terminal disassembly tool can also be used as bottle opener Art.-No Use of a pen

29


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