SIMADYN D Digital Control System User Manual Interface module SE21.2 Edition 05.95 DK-Nr. 282042
User Manual, Interface module SE21.2 Edition Edition status 1 Interface module SE21.2 04.91 2 Interface module SE21.2 05.95 Copying of this document and giving it to others and the use or communication of the contents thereof is forbidden without express authority. Offenders are liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model or design. We have checked the contents of this Manual to ensure that they coincide with the described hardware and software. However, deviations cannot be completely ruled-out, so we cannot guarantee complete conformance. However, the information in this document is regularly checked and the necessary corrections included in subsequent editions. We are thankful for any recommendations or suggestions.
Contents Contents Warning information............ 1 1. Function Description............ 3 2. Board Design............ 4 3. Application Notes............ 4 4. Technical Specification............ 7 5. Pin Allocation of the SE21.2............ 10 5.1.X1: Actual values 1............10 5.2. X2: Actual values 2............11 5.3. X3: Frequency outputs and Binary inputs........12 5.4. X4: Diagnostics outputs......... 13 5.5. X5: Binary outputs (Limit values), Frequency outputs (Absolute values) and the SIMADYN D power supply......... 14 5.6. X6: Power supply converter side and binary inputs for polarity switching... 14 5.7. X9: Power supply and Signals......... 15 6. Appendices............ 16 6.1.Block Diagram............ 16 6.2. Scale Drawing and Table of the plug connector...... 16 6.3. Allocation Plan SE21.2......... 16 7. ECB instructions............ 17 Siemens AG Dk-Nr. 282042 Edition 05.95
Warning information Edition 05.95 Siemens AG Dk-Nr. 282042
Warning information N O T E! The information in this Manual does not purport to cover all details or variations in equipment, nor to provide for every possible contingency to be met in connection with installation, operation or maintenance. Should further information be desired or should particular problems arise which are not covered sufficiently for the purchaser s purposes, please contact your local Siemens office. Further, the contents of this Manual shall not become a part of or modify any prior or existing agreement, committment or relationship. The sales contract contains the entire obligation of Siemens. The warranty contained in the contract between the parties is the sole warranty of Siemens. Any statements contained herein do not create new warranties nor modify the existing warranty. Warning information W A R N I N G! Electrical equipment has components which are at dangerous voltage levels. If these instructions are not strictly adhered to, severe bodily injury and material damage can result. Only appropriately qualified personnel may work on this equipment or in its vicinity. This personnel must be completely knowledgeable about all the warnings and service measures according to this User Manual. The successful and safe operation of this equipment is dependent on proper handling, installation, operation and maintenance. Siemens AG Dk-Nr. 282042 Edition 05.95 1
Warning information Definitions * QUALIFIED PERSONNEL For the purpose of this User Manual and product labels, a Qualified person is someone who is familiar with the installation, mounting, start-up and operation of the equipment and the hazards involved. He or she must have the following qualifications: 1. Trained and authorized to energize, de-energize, clear, ground and tag circuits and equipment in accordance with established safety procedures. 2. Trained in the proper care and use of protective equipment in accordance with established safety procedures. 3. Trained in rendering first aid. * DANGER For the purpose of this User Manual and product labels, Danger indicates death, severe personal injury and/or substantial property damage will result if proper precautions are not taken. * WARNING For the purpose of this User Manual and product labels, Warning indicates death, severe personal injury or property damage can result if proper precautions are not taken. * CAUTION For the purpose of this User Manual and product labels, Caution indicates that minor personal injury or material damage can result if proper precautions are not taken. * NOTE For the purpose of this User Manual, Note indicates information about the product or the respective part of the User Manual which is essential to highlight. C A U T I O N! This board contains components which can be destroyed by electrostatic discharge. Prior to touching any electronics board, your body must be electrically discharged. This can be simply done by touching a conductive, grounded object immediately beforehand (e.g. bare metal cabinet components, socket protective conductor contact). W A R N I N G! Hazardous voltages are present in this electrical equipment during operation. Non-observance of the safety instructions can result in severe personal injury or property damage. It is especially important that the warning information in all of the relevant Operating Instructions are strictly observed. 2 Edition 05.95 Siemens AG Dk-Nr. 282042
Function Description 1. Function Description The interface board SE21.2 is designed in the SIMADYN D system as an interface between the PS16 digital control and the converter power section of a SIMOVERT S or SIMOVERT D drive (inverter motor or cyclo-converter). It converts and prepares the current and voltage actual values from the converter to SIMADYN D signals or signal groups. The board can process a maximum of 6 actual value signals. The three phase actual value systems U1, U2, U3 and I1, I2, I3 measured from operation of a cyclo-converter are supplied via X1. The two phase actual value systems U1, U2 and I11, I12, measured in connection with a inverter motor, is fed via X1 as well as for 12 pulse operation I21 and I22 via X2. The set-up of the corresponding mode of operation is implemented via the coding plug X250 as well as via solder bridges. The actual value transducer signals are matched via plug-in burden modules (SE24.1) and subsequently V/F converted (V/F converters = voltage to frequency converters). Three phase absolute values are used for the individual actual value systems, whereby the third phase, for SIMOVERT S, is calculated from both the measured phases. Overcurrent and overvoltage signals are derived from monitoring these values for their limits and frequency signals generated through V/F conversion (only for both current systems for SIMOVERT S). If, in the case of cyclo-converters, the currents are acquired as absolute values, then the absolute values are inverted via binary inputs and made available to the control system with the correct polarity. There is complete galvanic isolation between the SIMADYN D side and the converter side. The binary signals are isolated via opto-couplers and the frequency signals by trigger pulse transmitters. All actual values and binary signals as well as the supply voltages are short circuit protected and decoupled. They are available at the connector X4 for diagnostics, display and monitoring purposes (actual values in analog form and not as frequency signals). The released version of the board is upwards compatible to the previous board version SE21.1 (6DD1681-0CB1) with the following restrictions: a) The pins 3 and 4 on the burden module are no longer connected to 2M. Application with single pin sources, where this is necessary, require the corresponding connector pins X1: Z4, Z8, Z12, Z20, Z24 or X2: Z16, Z20 to be connected to 2M. 2M is connected to X1: b6, b10, b14, b18, b22, b26 and X2: b18, b22. b) The designations of the components on the board have been changed. Replacement of a SE21.1 with a SE21.2 requires the equipment documentation to be updated. c) If un-used terminal or connector pins on the SE21.1 board have been used as common points, then they must be compared with the pin allocation on the SE21.2. (Several terminals and connector pins have been additionally used on the SE21.2 for new functions). Siemens AG Dk-Nr. 282042 Edition 05.95 3
Board Design 2. Board Design - 6 Analog inputs for actual values with differential amplifiers - 3 binary inputs for polarity switching - Summation for calculation of the third phase for two phase measured systems - Limit value generation for determining the overcurrent and overvoltage - 8 Frequency outputs for actual values (galvanic isolation) - 3 binary outputs for limit values (galvanic isolation) - 21 Diagnostic outputs, short circuit proof, decoupled (non isolated) - Actual value adaptation via the plug-in burden modules SE24 - Set-up for SIMOVERT D or SIMOVERT S via coded plug and solder bridges - For SIMOVERT S: overcurrent message via binary input switchable limit values - For SIMOVERT D: Selection input with voltage divider, differential amplifier and frequency actual value. Calibration circuit for V/F channels as a sub-module. 3. Application Notes - Default Setting The board set-up is implemented for the required application by cutting connections in the coding plug X250. The connection between the following pins in the plug are to be cut: - Cyclo-converter application Pin 2 - Pin 15 Pin 3 - Pin 14 Pin 6 - Pin 11 - Inverter motor application Pin 1 - Pin 16 Pin 4 - Pin 13 Pin 5 - Pin 12 - Power Supply The board power supply can either be fed via the connector X5 and X6 on the front panel or via the back plane connector X9. - Burden module 6DD 1681-0CE1 (Circuit diagram in the equipment block diagram) The burden module can be implemented as a voltage divider for actual value transducers with constant voltage output or as a simple burden for transducers with constant current output. The resistor R1 must be jumpered when transducers with constant current output are used.! WARNING: maximum permissible power loss per load resistor is 2W when resistors of type G204 are used! 4 Edition 05.95 Siemens AG Dk-Nr. 282042
Application Notes The potentiometer R7 can be used for fine calibration when activated by the series resistor R6.! WARNING: The potentiometer current must not exceed 20mA! The influence of the potentiometer on the divider resistance should be kept as small as possible because of it's relatively high temperature coefficient of ±100ppm/deg.C. - Actual Values Three contacts with +24V, -24V and the corresponding reference (ground) potential M are allocated to each actual value channel on the connectors X1 and X2. Therefore it is possible to supply the transducers via these connectors. The addition current requirement is therefore to be taken into account when configuring the SE21.2. The 6 burden modules are allocated the following actual values: SIMOVERT S SIMOVERT D Burden module in Plug Designation U1 U1 X122 and X269 A1 U2 U2 X10 and X141 A2 I11 I1 X72 and X175 A4 I12 I2 X170 and X280 A5 I21 I3 X294 and X392 A6 I22 U3 X427 and X523 A3 The following is valid for the signal Ua at the burden module and the output frequency: Ua = -10... 0... +10 V corresponds to f = 30... 60... 90 khz The input of the corresponding burden module must be shorted when the actual value is not used (i.e. by a jumper via R2 of the burden module). - Switching Polarity The absolute values of currents I1, I2 and I3, measured through the installed SE21.2 and in connection with a cyclo-converter, can be inverted through three binary inputs via the X6 connector when these values are required in the correct polarity by the control system. The following is valid for these inputs, which are at SIMADYN D potential level: Inputs 'Low' or open - Current actual value unchanged Inputs 'High' - Current actual value inverted - Overcurrent or Overvoltage Signals The comparator thresholds for detecting overcurrent or overvoltage in the two (three) three phase systems are set, in matched burden modules, to 1.38% ± 7% of the signal rated value (signal rated value corresponds to 5 Veff).! WARNING: The maximum permissible input voltage range for AC voltage is 10 V / 2 = 7.07 V(eff). The limit value indicator board reacts to peak values and not to average values. This results in pulsed signals on the threshold boundary. he hysteresis gap is approximately 2 %. Siemens AG Dk-Nr. 282042 Edition 05.95 5
Application Notes The overcurrent thresholds can be commonly switched via a binary input for SIMOVERT S applications. The thresholds can be altered between 0 V and +15 V via the following voltage divider. The resistance values set in parentheses are the default installed values. SIMOVERT S SIMOVERT D Resistance Resistance on +15 V on 0 V U1,U2,U3 U1,U2,U3 R 502 (11 K) R 499 (10 K) I11,I12,I13 I1,I2,I3 R 506 (11 K) R 509 (10 K) I21,I22,I23 --- R 448 (11 K) R 513 (10 K)! WARNING: The supply tolerance of the +15 V is ±5 %. This should be taken into account when setting the threshold values. - Diagnostic Outputs X4 The diagnostic outputs can be accessed by installing a 40 pin ribbon cable and the SE23 terminal block. - Frequency Signals for Absolute Values: The absolute signals are scaled like the input signals. This signifies that when the actual values are loaded at 5 V(eff) = 100 %, then the absolute signals 5 V = 100 % average value. - Connection of the SE21.2 The front panel contains: X1: Plug connector 48 pin Actual values Type F to DIN 41612 from power section X2: Plug connector 48 pin Actual values Type F to DIN 41612 from power section X3: Plug connector 40 pin Interface to to DIN 41651 the PS16 board X4: Plug connector 40 pin Diagnostics to DIN 41651 X5: Terminal block 8 pin Power supply Plug - Screw - terminals and Signals X6: Terminal block 10 pin Power supply Plug - Screw - terminals and Signals 6 Edition 05.95 Siemens AG Dk-Nr. 282042
Technical Specification Supplementary components for the SE21.2: a) Cable 40 pin 1,2 m SC6 6DD1684-0AG0 2 m SC18 6DD1684-0BJ0 b) Terminal block SE23 6DD1681-0CD0 40 pin ribbon cable connector on 40 terminals 1:1 c) Burden sub-module SE24.1 Burden sub-modul 6DD1681-0CE1 Note : The SE21.2 is delivered with installed burden modules. The cables to X1 and X2 are to be made according to equipment requirements. 4. Technical Specification INSULATION GROUP Isolated to VDE 0160 for small function voltages with protection separation to VDE 0109 or 0106. (Degree of contamination 2, overvoltage category II) Rated insulation DC voltage 60 V. PROTECTION CLASS IP00 to DIN 40050 HUMIDITY CLASS F to DIN 40040 ALTITUDE RATING S to DIN 40040 AMBIENT TEMPERATURE 0 to 55 deg. C STORAGE TEMPERATURE -40 to +70 deg. C PACKAGING SYSTEM DIMENSIONS BOARD WIDTH WEIGHT ES 902 C 233.4 x 166.05 mm 4 SEP = 3 Slot = 60.42 mm 0.7 kg Supply Designat Reference Rated Permiss. Permiss. voltages potential value ripple range 1P24 1M +24 V 3.6 V +19... +30 V 2P24 2M +24 V 3.6 V +19... +30 V 2N24 2M -24 V 3.6 V -30... -19 V Current consumption 1P24 0.2 A Reference potential 1M 2P24 0.2 A _ without external output 2N24 0.05 A (i.e. Actual value transducers), Ref. potential 2M max. 2 A binary inputs Polarity switching signals 1, 2, 3 'H'-Signal Rated value +24 V permissible voltage range +10 V... +60 V 'L'-Signal Rated value 0 V; or binary inputs open permissible voltage range 0 V... + 6 V Input current for 'H'-Signal TYP. 1.5 ma Siemens AG Dk-Nr. 282042 Edition 05.95 7
Technical Specification 8 Edition 05.95 Siemens AG Dk-Nr. 282042
Technical Specification binary outputs 'H'-Signal 'L'-Signal analog inputs Limit Value indicator GW1, GW2, GW3 Rated Value 24 V permissible voltage range +19 V... +30 V OPEN-Collector Outputs Ri = 1.8 K Voltage range 0... +1 V maximum current in the 'L' state 50 ma Actual values 6 Act.val.: Impressed current: - 1 A... + 1 A Impressed voltage: - 60 V... + 60 V DC Matching via burden modules 6DD1681-0CE1 Series connected differential amplifier 1 Selector input (only for SIMOVERT D) Impressed voltage: - 60 V... + 60 V DC Matching via voltage divider Series connected differential amplifier Frequency outputs Number 8 (I/(ACT) / U(ACT) / Absolute value signals) Mean frequency 60 KHZ (for Input signal = 0 V) -10 % / +20 % Band width for matched Input signal ± 10 V = ± 30 khz (-10 % / +20 %) Level as with the binary outputs Temperature coefficient: without burden, without calibration circuits = ± 260 ppm/deg. C Diagnostic outputs Number analog diagnostic outputs binary diagnostic outputs 21 short circuit proof Supply voltages: Ri = 10 K Actual values : ± 10 V max. output current 5 ma Voltage level and output currents as other binary outputs Tolerance specification of the thresholds: The threshold values for the overcurrent or overvoltage indicators are derived from 2P15 (= +15 V). The threshold values drift slightly since the power supply tolerance is ± 5 %. (The voltage dividers are set at delivery to +7.14 V ± 5 %). Siemens AG Dk-Nr. 282042 Edition 05.95 9
Pin Allocation of the SE21.2 5. Pin Allocation of the SE21.2 ( ) Signals for operation with inverter motor [ ] Signals for operation with cyclo-converter 5.1.X1: Actual values 1 Actual value inputs - for cyclo-converter : all actual values - for inverter motor : Actual values motor inverter 1 (or 6 pulse operation) Pin Signal Pin Signal 2 d --- 18 d 2P24 b --- b 2 M z 3S9 (Shield) z 2N24 4 d --- 20 d --- b + Act.val 1 (U1) ; [U1] b + Act.val 5 (I12) ; [I2] z - Act.val 1 z - Act.val 5 6 d 2P24 22 d 2P24 b 2M b 2M z 2N24 z 2N24 8 d --- 24 d --- b + Act.val 2 (U2) ; [U2] b + Act.val 6 ( - ) ; [I3] z - Act.val 2 z - Act.val 6 10 d 2P24 26 d 2P24 b 2M b 2M z 2N24 z 2N24 12 d --- 28 d --- b + Act.val 3 ( - ) ; [U3] b --- z - Act.val 3 z --- 14 d 2P24 30 d --- b 2M b --- z 2N24 z --- 16 d --- 32 d --- b + Act.val 4 (I11) ; [I1] b --- z - Act.val 4 z --- Note: The power supply to the contacts 6, 10, 14, 18, 22 and 26 can be used, for example, to power actual value transducers. 10 Edition 05.95 Siemens AG Dk-Nr. 282042
Pin Allocation of the SE21.2 5.2. X2: Actual values 2 Actual value inputs - for cyclo-converter : not used - for inverter motor : Actual values motor inverter 2 Pin Signal Pin Signal 2 d --- 18 d 2P24 b --- b 2 M z 3S9 (Shield) z 2N24 4 d --- 20 d --- b --- b + Act.val 8 (I22) ; [-] z --- z - Act.val 8 6 d --- 22 d 2P24 b --- b 2M z --- z 2N24 8 d --- 24 d --- b --- b --- z --- z --- 10 d --- 26 d --- b --- b --- z --- z --- 12 d --- 28 d --- b --- b --- z --- z --- 14 d --- 30 d --- b --- b --- z --- z --- 16 d --- 32 d --- b + Act.val 7 (I21) ; [-] b --- z - Act.val 7 z --- Note: The power supply to the contacts 18 and 26 can be used, for example, to power actual value transducers. Siemens AG Dk-Nr. 282042 Edition 05.95 11
Pin Allocation of the SE21.2 5.3. X3: Frequency outputs and Binary inputs Pin No. Signal 1 3S9 (Shield) 2 --- 3 (U1) ; [U1] 4 --- 5 --- 6 (U2) ; [U2] 7 --- 8 Binary input Bit 0 9 --- 10 --- 11 --- 12 --- 13 ( I21,I22,I23 ) ; [ U1,U2,U3 ] 14 --- 15 --- 16 ( I11,I12,I13 ) ; [ I1,I2,I3 ] 17 --- 18 Binary input Bit 1 19 --- 20 --- 21 --- 22 --- 23 (I11) ; [I1] 24 --- 25 --- 26 (I12) ; [I2] 27 --- 28 Binary input Bit 2 29 --- 30 --- 31 --- 32 --- 33 (I21) ; [I3] 34 --- 35 --- 36 (I22) ; [U3] 37 --- 38 Binary input Bit 3 39 --- 40 1 M 12 Edition 05.95 Siemens AG Dk-Nr. 282042
Pin Allocation of the SE21.2 5.4. X4: Diagnostics outputs Pin No. Signal 1 1P24 D 2 1 M 3 3S9 (Shield) 4 2P24 D 5 2M 6 2N24 D 7 2 M 8 2P15 D 9 2 M 10 2N15 D 11 2 M 12 2P10 D 13 2 M 14 (U1) ; [U1] D 15 2 M 16 (U2) ; [U2] D 17 2 M 18 (I11) ; [I1] D 19 2 M 20 (I12) ; [I2] D 21 2M 22 (I21) ; [I3] D 23 2 M 24 (I22) ; [U3] D 25 2 M 26 ( U1,U2,U3 ) ; [ U1,U2,U3 ] D 27 2 M 28 ( I11,I12,I13 ) ; [ I1,I2,I3 ] D 29 2 M 30 ( I21,I22,I23 ) ; [-] D 31 2 M 32 Overvoltage ( U1,U2,U3 >) ; [ U1,U2,U3 >] D 33 Overcurrent ( I11,I12,I13 >) ; [ I1,I2,I3 >] D 34 Overcurrent ( I21,I22,I23 >) ; [-] D 35 Polarity switch I1 D 36 Polarity switch I2 D 37 Polarity switch I3 D 38 --- 39 --- 40 2 M Siemens AG Dk-Nr. 282042 Edition 05.95 13
Pin Allocation of the SE21.2 5.5. X5: Binary outputs (Limit values), Frequency outputs (Absolute values) and the SIMADYN D power supply Pin Signal 1 Overvoltage ( U1,U2,U3 >) ; [ U1,U2,U3 >] 2 Overcurrent ( I11,I12,I13 >) ; [ I1,I2,I3 >] 3 Overcurrent ( I21,I22,I23 >) ; [-] 4 ( I11,I12,I13 ) ; [ I1,I2,I3 ] 5 ( I21,I22,I23 ) ; [ U1,U2,U3 ] 6 3S9 7 1 M 8 1P24 Pins 1, 2, 3 - Binary signals Pins 4, 5 - Frequency signals Pins 7, 8 - SIMADYN D power supply Note: The power supply can also be selected to be fed via X9. 5.6. X6: Power supply converter side and binary inputs for polarity switching Pin Signal 1 2P24 D 2 2 M 3 2N24 4 --- 5 --- 6 3S9 7 1 M 8 Switch I1 9 Switch I2 10 Switch I3 Pins 1, 2, 3 - Power supply, converter side Pins 8, 9, 10 - Binary signals Note: The power supply can also be selected to be fed via X9. 14 Edition 05.95 Siemens AG Dk-Nr. 282042
Pin Allocation of the SE21.2 5.7. X9: Power supply and Signals Pin Signal Pin Signal 2 d - Act.val 9 * 18 d + Act.val 2 b 1 P24 b - Act.val 2 z 1 P24 z --- 4 d + Act.val 9 * 20 d + Act.val 3 b 1 M b - Act.val 3 z 1 M z --- 6 d - Act.val 10 * 22 d + Act.val 4 b Switch 1 b - Act.val 4 z --- z --- 8 d + Act.val 10 * 24 d + Act.val 5 b --- b - Act.val 5 z --- z --- 10 d --- 26 d + Act.val 6 b 2 P24 b - Act.val 6 z 2 P24 z --- 12 d --- 28 d --- b 2 M b --- z 2 M z --- 14 d --- 30 d --- b 2 N24 b --- z 2 N24 z --- 16 d + Act.val 1 32 d 3S9 b - Act.val 1 b 3S9 z --- z 3S9 Pins 2b, 4b - Power supply SIMADYN D side Pins 10b, 12b, 14b - Power supply, Converter side Note: The power supply may be selected to be fed via the connectors X5 and X6. * Select inputs, only available with SIMOVERT D Actual value 10 only available when the V/F calibration not used Siemens AG Dk-Nr. 282042 Edition 05.95 15
Appendices 6. Appendices 6.1.Block Diagram Block Diagram 3GE 465 681 9021.20 SU 6.2. Scale Drawing and Table of the plug connector Scale Drawing and Table of the plug connector 3GE 465 681 9021.20 MB 6.3. Allocation Plan SE21.2 Allocation Plan SE21.2 3GE 465 681 9021.20 AO 16 Edition 05.95 Siemens AG Dk-Nr. 282042
ECB instructions 7. ECB instructions Components which can be destroyed by electrostatic discharge (ECB) Generally, electronic boards should only be touched when absolutely necessary. The human body must be electrically discharged before touching an electronic board. This can be simply done by touching a conductive, grounded object directly beforehand (e.g. bare metal cubicle components, socket outlet protective conductor contact. Boards must not come into contact with highly-insulating materials - e.g. plastic foils, insulated desktops, articles of clothing manufactured from man-made fibers. Boards must only be placed on conductive surfaces. When soldering, the soldering iron tip must be grounded. Boards and components should only be stored and transported in conductive packaging (e.g. metalized plastic boxes, metal containers). If the packing material is not conductive, the boards must be wrapped with a conductive packing material, e.g. conductive foam rubber or household aluminum foil. The necessary ECB protective measures are clearly shown in the following diagram. a = Conductive floor surface b = ECB table c = ECB shoes d = ECB overall e = ECB chain f = Cubicle ground connection Seated Standing Standing/sitting Siemens AG Dk-Nr. 282042 Edition 05.95 17
ECB instructions 18 Edition 05.95 Siemens AG Dk-Nr. 282042
ECB instructions Drives and Standard Products Motors and Drives Systems Group Postfach 3269, D-91050 Erlangen System-Based Technology Siemens AG Dk-Nr. 282042 Edition 05.95 19