Product Information SIMATIC ET 200S DI UC2.. V High Feature Digital Electronic Module X 2 Release New Digital Input Module Available The DI UC2.. V High Feature Digital Electronic Module has been added to the ET 200S family. The order number for this module is 6ES 11-CD00-0AB0. This product information includes details about the characteristics and technical specifications of the DI UC2.. V High Feature Digital Electronic Module. Refer to the ET 200S Distributed I/O Manual for more information about the ET 200S product family. You will also learn how to start up the module. Additional Assistance For assistance in answering technical questions, for training on this product, or for ordering, contact your Siemens distributor or sales office. Copyright 2002 by Siemens Energy & Automation, Inc.
DI UC2.. V High Feature Digital Electronic Module Order Number 6ES 11-CD00-0AB0 Features The DI UC2.. V High Feature Digital Electronic Module has the following characteristic features:! Digital electronic module with inputs! Rated input voltage 2-- VDC/VAC! Parameterization length: bytes! Diagnostic: Wire break! Diagnostic: Blown Fuse! Diagnostic: Missing load voltage! Suitable for switches and proximity switches (BEROs) Configuration Tool Support Support for the DI UC2.. V Digital Electronic Module can be found in the following:! Step V5.1 SP! GSD File Siem06a V1.11! GSD File Siem06b V1.6 2
Terminal Assignment The following table illustrates the terminal assignment of the DI UC2.. V for the different terminal modules: Table 1. Terminal Assignment of the DI UC2.. V High Feature View Terminal Assignment Remarks Channel 0: TM-E15S2-A1 and DI UC2.. V; High Feature Terminals 1 to Channel 1: Terminals 2 to CH0 CH2 Channel 2: 2 conductors conductors conductors Terminals 5 to DI 0 DI 1 5 2 Channel : Terminals 6 to DI 1 2 6 DI DI: Input signal 2 VDC: Sensor supply PE: Ground AUX1 (PE) AUX1 (PE) When there are conductors, AUX1 must be applied to PE. CH0 DI 0 1 5 TM-E15S2-01 and DI UC2.. V; High Feature CH1 2 conductors conductors DI 2 Channel 0: Terminals 1 to Channel 1: Terminals 2 to Channel 2: Terminals 5 to Channel : Terminals 6 to DI 1 2 6 DI DI: Input signal 2 VDC: Sensor supply CH0 DI 0 1 5 DI 1 DI 2 6 TM-E15S2-01 and DI UC2.. V; High Feature CH1 2 conductors conductors DI 2 Channel 0: Terminals 1 to Channel 1: Terminals 2 to Channel 2: Terminals 5 to Channel : Terminals 6 to DI: Input signal 2 VDC: Sensor supply
CH0 DI 0 1 5 DI 1 2 6 DI TM-E15S26-A1 and DI UC2.. V; High Feature CH1 2 conductors conductors DI 2 Channel 0: Terminals 1 to Channel 1: Terminals 2 to Channel 2: Terminals 5 to Channel : Terminals 6 to DI: Input signal 2 VDC: Sensor supply AUX1 AUX1 A A A A AUX1 AUX1 AUX:Terminals A, A, A DC/AC and A can be used for unneeded wires of up to 0 VDC.
Block Diagram Input electronics 1 Backplane bus ET 200S backplane bus interface module Input electronics Input electronics 2 5 Input electronics 6 Short circuit protection P1 P2 1M L+ Reverse polarity protection Figure 1 Block Diagram of the DI UC2.. V High Feature 5
Hazardous Location Information Power, input and output (I/O) wiring must be in accordance with Class I, Division 2 wiring methods [Article 501- (b) of the National Electric Code, NFPA 0] and in accordance with the authority having jurisdiction. Peripheral equipment must be suitable for the location it is used in. The equipment must be suitable for use in Class I, Div. 2, Groups A, B, C, and D Hazardous Locations and nonhazardous locations only.! Warning Explosion Hazard Substitution of components may impair suitability for Class I, Div. 2 Hazardous Locations. Different or lesser quality components may cause an explosion or other hazardous situation, which could result in death or serious injury, and/or damage to equipment. To avoid potentially hazardous situations, always use the appropriate components.! Warning Explosion Hazard Never disconnect equipment before powering off or before ascertaining that the area is nonhazardous. Disconnecting equipment before powering off in a hazardous area may cause an explosion, which could result in death or serious injury, and/or damage to equipment. To avoid potentially hazardous situations, always power off equipment and assure that the area is nonhazardous before disconnecting. 6
Technical Specification of the ET 200S DI UC2.. V High Feature Digital Electronic Module Dimensions and Weight Dimensions W H D (mm) 15 1 52 Weight Approximately 5 g Data for Specific Module Number of inputs Cable length! Unshielded max. 600 m! Shielded max. 1000 m Voltage, Currents, Potentials Rated supply voltage (from the power module)! Horizontal configuration Up to 60 C! Vertical configuration Up to 0 C! Reverse polarity protection 2-- VAC/VDC Automatically works with AC or DC Isolation! Between the channels No! Between the channels and backplane bus Yes Permitted potential difference! Between different circuits 5 VDC, 60 VAC Insulation tested with 2500 VDC Current input! From supply voltage Dependent on the sensor! From the backplane bus of the ET 200S max. 10 ma Power dissipation of the typ. 0. W module Status, Diagnostics Status display Diagnostic functions! Group fault display on the module Green LEDs per channel Parameters can be assigned Red LEDs (SF) Sensor Power Supply Output Output voltage! Loaded min. L+ (--0.5 V) Output current! Rated value 500 ma! Permitted range Short-circuit protection Input voltage! Rated value! For signal 1! For signal 0! Frequency range Input current! At signal 1 Input delay! At 0 to 1! At 1 to 0 0to500mA Yes, fuse per module Data for Selecting a Sensor Connection of Two-Wire BEROs 2 to VUC --15 VDC to --5.6 VDC 15 VDC to 5.6 VDC 15VACtoVAC -6VDCto6VDC 0VACto5VAC Hz to 6 Hz from ma to 10 ma max. 15 ms max. 25 ms Possible! Permitted bias current Input characteristic curve 1) max.0.5to2ma 2) Resistance circuit of the sensor for wire break monitoring! Nominal voltage 2 V (15 V to 5 V)! Nominal voltage V (0 V to 60 V) Sensor Switching 1 kω 9 kω 1) IEC 111 gives no specifications for UC modules. However, the values have been adapted to IEC 111 as close as possible. 2) Minimum bias current is necessary in the case of wire--break monitoring.
Assigning Parameters to the ET 200S DI UC2.. V High Feature Digital Electronic Module To find a description of the general procedure for assigning parameters to digital modules, see Section. of the S -00 and M -00 Programmable Controllers Module Specifications Manual. For details of the parameters of the digital module, see Appendix A. of the S -00 and M -00 Programmable Controllers Module Specifications Manual. Parameters of the ET 200S DI UC2.. V High Feature Digital Electronic Module Table 1 shows the parameters that you can set and their default setting for the ET 200S DI UC2.. V High Feature Digital Electronic Module. The default settings apply if you do not perform parameter assignments in STEP. Table 1 Terminal Assignment of the DI UC2.. V High Feature Parameter Value Range Default Settings Parameter Type Scope Enable! Diagnostics interrupts Yes/No No Dynamic Module! Wire Break Yes/No No Dynamic Module! Blown fuse Yes/No No Dynamic Module! Missing load voltage Yes/No No Dynamic Module
Interrupts of the ET 200S DI UC2.. V High Feature Digital Electronic Module The ET 200S DI UC2.. V High Feature Digital Electronic Module can trigger diagnostic interrupts. The OBs and SFCs mentioned below are explained in detail in the online help for STEP. Enabling Interrupts The interrupts are inhibited (not present) without appropriate parameter assignment. Assign parameters to the Interrupt Enable in STEP. Diagnostic Interrupt If you have enabled diagnostic interrupts, then active error events (initial occurrence of the error) and departing error events (message after troubleshooting) are reported by means of an interrupt. The CPU interrupts the execution of the user program and processes the diagnostics interrupt block (OB2). In the user program, you can call SFC51 or SFC59 in OB2 to obtain more detailed diagnostic information from the module. The diagnostic information is consistent until such time as OB2 is exited. When OB2 is exited, the diagnostic interrupt is acknowledged on the module. Ensuring a Wire Break When you ensure a wire break is enabled in diagnostics, any unused inputs must be biased to prevent them from triggering the module wire break. This can be accomplished by placing a resistor from the 2/ V terminal (,,, ) to the unused input. The resistor must provide greater than 0.5 ma of input current (see Sensor Switching in Specification Table). This ensures that enough current flows to prevent wire break detect. For wire break to function properly, a sensor must provide a minimum of 0.5 ma of current in the off state for the sensor to be detected as an active low and no wire break. Sensors that do not meet this requirement can be used if a resistor is placed across its sensor contact terminals to provide this level of current in the off state. 9