ABB Microcomputer intermediate protection REG670 PM866K01 3BSE050198R1 PFEA111–65 Electrical Installation Guidelines
Correct wiring is the foundation for reliable operation of servo systems. Arrange power cables and control cables separaby. We suggest maintaining a distance of at least 200mm. This improves anti-interference perbance. If a motor power cable is used, it includes a core for brake control, which must be individually shielded. Ground both ends of the shield. Ground all shields on a large area (low impedance) and use blized connector shells or shield connection clips as much as possible. Attention Regarding connection technology, please refer to page 52. The feedback line may not be extended as shielding may be interrupted and signal processing may be disrupted. The line braking resistor between the amplifier and the external must be shielded. Install all power cables with sufficient cross-section according to IEC 60204 (page 28) and use the required cable materials (page 53) to achieve maximum values. Cable length.
Each SM128V occupies a single slot in the VME rack.
1. Carefully open the packaging of the card. Use a grounding wire or release any static electricity before touching the card and remove it from oneself.
2. Place the card welding face down on a unib, clean, and dry surface to set the DIP switch as required.
3. Turn off the VME bus rack.
4. Use the two sliding elements (handles) between the thumb and index finger to hold each finger of the card.
5. Carefully slide the card into the corresponding slot of the VME system.
6. Before sliding the card into the end, ensure that the two guide pins at the rear are secure
Slide the side of the front panel into the dedicated holes on the rack.
7. Unless already completed, lift the lower and upper sliding elements (handles) separaby until they click.
8. Press your thumb on the front panel and push the card firmly to the back.
9. Use the two screws at the top and bottom of the front to secure the card to the upper panel of the rack. The GE90/70 system rack does not have an opening for the SM128V board card guide pin. If this fact is not taken into account when ordering the card, the guide pin must be removed before installing the card.3BSE050090R65 REC670 RED670 REG670 REM543BM215AAAB UFC760BE41 3BHE004573R0041 PPC907BE101 3BHE024577R0101 NBRA-659C https://www.weikunfadacai1.com/UFC760BE01
To remove a board from a VME rack, perb the following steps:
1. Turn off the power to the VME rack.
2. Loosen the screws on the front panel.
3. Press the two sliding elements (handles) apart. This will release
Card in the backplane connector.
4. Pull the card out of the slot.
Fiber optic connectors TX and RX (5) (6)
Channel 1 communicates bi-directional with compatible devices through TX and RX interface ports. Both ports use standard ST connectors. TX realizes fiber optic transmitter, while RX realizes fiber optic receiver.
The fiber optic connector TX (10) channel 2 communicates unidirectionally with compatible devices through the TX interface. This port uses standard ST type connectors. TX achieves fiber optic transmission for channel 2.
RJ11 connector channel 1 (11)
Channel 1 can send data unidirectionally to a single ibaPCMCIA-F device. This port uses the dedicated serial cable included with PCMCIA-F. Synchronize data transmission with optical channel 1. RJ11 connector channel 2 (12) channel 2 can send data unidirectionally to a single ibaPCMCIA-F device. This port uses the dedicated serial cable included with PCMCIA-F. Synchronize data transmission with optical channel 2.
The DIP switch on the board is located at the bottom of the board. They are used to set interrupts, data bats, and memory addresses. The service interface (D-sub 9) for loading firmware is also located in this area. 3BHB007030R0001 UUD148AE02 USC329AE01 3BHB002483R0001 UNITROL1020 UNS0119A-Z,V1 3BHE030579R0001 RED670 1MRK000028-CAR01 KUC321AE HIEE300698R1 PPD113B01–10–150000 3BHE023784R1023 PCD230A 3BHE022291R0101 GFD233A 3BHE022294R0101 UAD155A0111 3BHE029110R0111 3BHB013088R0001 ALSPA CP80/A800 (AEG Logidyn D) settings ALSPA CP80/A800 is a high-perbance name control system compatible with Alstom, CP80/A800, and Logidyn D from AEG. It is a VME based system for rapid control and regulation, developed by Alstom Power Conversion GmbH, Berlin, Germany, berly known as AEG, AEG Daimler Benz, and AEG Cegelec. In order to use the ibaLink-SM-128V-i-2O board in this system, a modified version with a 16 bit VME backplane connector is required. The backplane of the lower system has a PMB bus in the rack. The engineering instructions for SM128V and ALSPA CP80/A800 (Logidyn D) can be found on the next page. You will find a 24 bit card setting example mode and an integer value for transmitting analog signals.CI541V1 3BSE014666R1 UNITROL6000 ABB Microcomputer intermediate protection REG670 PM866K01 3BSE050198R1 PFEA111–65 3BSE050090R65 REC670 RED670 REG670 REM543BM215AAAB UFC760BE41 3BHE004573R0041 PPC907BE101The corresponding memory access can be managed in the LogiCAD program through subroutines (UP). These subroutines need to map the signal to be measured to the memory address of the board. Unable to provide a request solution for selecting the data to be measured through ibaPDA. This signal must be wired in the application. Allow the use of multiple cards in the rack. Setting of ALSPA C80 HPC (Logidyn D2) 3BHE024577R0101 NBRA-659C UFC760BE01 3BHB007030R0001 UUD148AE02 USC329AE01 3BHB002483R0001 UNITROL1020 UNS0119A-Z,V1 3BHE030579R0001 RED670 1MRK000028-CAR01 KUC321AE HIEE300698R1 The ALSPA C80 HPC system is a fast control and regulation system based on VME, developed by Converteam GmbH in Berlin, Germany. The standard version SM128V interface card can be used in HPC racks with Logidyn D2. For the older system A800/Logidyn D1, a modified version of the SM128V card with connectors provides a 16 bit VME backplane. Engineering Debion (Logidyn D2) for SM128V with ALSPA C80 HPC Alstom reserves four VMEbus addresses for up to four SM128V boards in one HPC rack. The memory range is 512 kByte wide, but limited to 256 kByte. Currently, it is used by SM128V cards and can be used as a reference for future expansion.PPD113B01–10–150000 3BHE023784R1023 PCD230A 3BHE022291R0101 GFD233A 3BHE022294R0101 UAD155A0111 3BHE029110R0111 3BHB013088R0001 CI541V1 3BSE014666R1 UNITROL6000 ABB Microcomputer intermediate protection REG670 PM866K01 3BSE050198R1 PFEA111–65 3BSE050090R65 REC670 RED670 REG670 REM543BM215AAAB UFC760BE41 3BHE004573R0041 PPC907BE101 3BHE024577R0101 NBRA-659C UFC760BE01 3BHB007030R0001 In order to write data into the memory range of the SM128V card, a subroutine?—?so called beter block “IBA_SM128V”?—?must be used in the application program until version 5. x of the D7-SYS configuration package, and only the software package developed by the Siemens module for this software package can be used in the system. Starting from version 6.0, standard VMEbus modules that meet certain requirements can also be used. The SM128V board of iba AG meets these requirements and can be used as an interface for ibaPDA systems. This board can transfer up to 128 analog signals and 128 binary signals from the VME system to the ibaPDA system.UUD148AE02 USC329AE01 3BHB002483R0001 UNITROL1020 UNS0119A-Z,V1 3BHE030579R0001 RED670 1MRK000028-CAR01 KUC321AE HIEE300698R1 PPD113B01–10–150000 3BHE023784R1023 PCD230A 3BHE022291R0101 GFD233A 3BHE022294R0101 UAD155A0111 3BHE029110R0111 3BHB013088R0001 CI541V1 3BSE014666R1 UNITROL6000 ABB Microcomputer intermediate protection REG670 PM866K01 3BSE050198R1 PFEA111–65 3BSE050090R65 REC670 RED670 REG670 REM543BM215AAAB UFC760BE41 3BHE004573R0041 PPC907BE101 3BHE024577R0101 NBRA-659C UFC760BE01 3BHB007030R0001
Peer-to-peer operation
If the device should operate in loopback mode (output coupled to its own b) or two SM128V boards should be directly coupled for operation, at least one SM128V board’s mode switch must be set to mode=8. In this setting, cascading multiple devices is not supported (as if the address switch is set to 1 and the range is set to 8). Figure 10 shows a peer-to-peer operation mode used to connect two VME systems to exchange data (64 analog signals and 64 digital signals) periodically within 1ms. No additional accessories, such as additional power or software, are required. In this operating mode, two VME bus memory ranges are transferred from one card to the other. The output of one card is the b of another card, and vice versa.
Rack Extender (XBE) UUD148AE02 USC329AE01 3BHB002483R0001 UNITROL1020 UNS0119A-Z,V1 3BHE030579R0001 RED670 1MRK000028-CAR01 KUC321AE HIEE300698R1 PPD113B01–10–150000 3BHE023784R1023 PCD230A 3BHE022291R0101 GFD233A 3BHE022294R0101 UAD155A0111 3BHE029110R0111 3BHB013088R0001 CI541V1 3BSE014666R1 UNITROL6000
