UAC389AE01 HIEE300888R0001 UAC389AE02 HIEE300888R0002 UAD142A01 3BHE012551R0001 UAD149A0001 3BHE014135R0001 UAD149A1501 3BHE014135R1501 UAD155A0111 3BHE029110R0111 Option module interface
This technology allows communication and network modules to control data transmission to and from the CPU, maximizing the flexibility of communication interfaces. This technology is widely used in modules such as Modbus Plus and Ethernet peer-to-peer networks. The number of option module interfaces supported by each CPU model is shown in the table below.
When Quantum RIO is required, the Quantum controller can support up to 31 RIO drops. stay
RIO configuration, the RIO head module is connected to each remote drop off module of the RIO tapping module via coaxial cable. Note: In a single cable configuration, it is recommended to connect the cables in channel a to two local I/O (CRP) and remote I/O (CRA). Note: In a dual cable configuration, channel A must have channel A from R connected from local I/O (CRP)
summary
Quantum DIO is implemented through a Modbus Plus network. The CPU or NOM module can be a network head through its Modbus Plus port. The Quantum DIO Modbus Plus tap adapter is designed specifically for connecting Quantum I/O modules through a shielded twisted pair cable (Modbus Plus) to the head. The DIO tap changer module also provides power (up to 3 A) input/output from a 24 VDC or 115/230 VAC power supply. Each DIO network supports up to 63 distributed taps using repeaters.
UAD154A 3BHE026866R0101 h 3BHE029110R0111 UAD206A101 3BHE019958R0101 3BHE019959P201AENDC UBC717AE01 HIEE300927R0101 UBC717BE101 3BHE021887R0101 UCD208A101 3BHE020018R0101 UCD224A102 3BHE023681R0102 UCD224A103 3BHE023681R0103/3BHE023682P201REVC UDC920BE01 3BHE034863R0001 UDD406A 3BHE041465P201 UFC718AE01 HIEE300936R0001 UFC718AE01 HIEE300936R0001 UFC718AE101 HIEE300936R0101 UFC719AE01 3BHB003041R0001 3BHB000272R0001 UFC721AE101 3BHB002916R0101 UFC721BE101 Modbus Plus
Modbus Plus combines high-speed, peer-to-peer communication, and ease of installation, simplifying applications and reducing installation costs. It allows hosts, controllers, and other data sources to communicate as peers throughout the entire process through low-cost twisted pair cables or optional fiber optic cables connected to the network. As a deterministic token passing network, Modbus Plus communicates at 1 megabaud to achieve fast access to process data. Its advantage lies in its ability to control I/O and drives without performance degradation due to load or flow. The bridge between Modbus and Modbus Plus automatically completes the network module on the CPU and Modbus Plus. Bridge mode redirects Modbus messages to the Modbus Plus network for easy connection between Modbus and Modbus Plus devices.
UFC721BE101 3BHE021889R0101 UFC760BE143 3BHE004573R0143 UFC921A101 3BHE024855R0101 UFC762AE101 3BHE006412R0101 UFC921A101 3BHE024855R0101 UFD203A101 3BHE019361R0101 UNC4672AV1 HIEE205012R1 UNITROL1020 UNS0119A-Z,V1 3BHE030579R0001 UNITROL 1020 3BHE030579R0003 UNS0119A-Z,V1 3BHE030579R0001 UAC389AE01 HIEE300888R0001 UAC389AE02 HIEE300888R0002 UAD142A01 3BHE012551R0001 UAD149A0001 3BHE014135R0001 UAD149A1501 3BHE014135R1501 UAD155A0111 3BHE029110R0111 UAD154A 3BHE026866R0101 UAD155A0111 3BHE029110R0111 UAD206A101 3BHE019958R0101 3BHE019959P201AENDC UBC717AE01 HIEE300927R0101 UBC717BE101 3BHE021887R0101 UCD208A101 3BHE020018R0101 UCD224A102 3BHE023681R0102 UCD224A103 3BHE023681R0103/3BHE023682P201REVC UDC920BE01 3BHE034863R0001 UDD406A 3BHE041465P201 UFC718AE01 HIEE300936R0001 UFC718AE01 HIEE300936R0001 UFC718AE101 HIEE300936R0101 UFC719AE01 3BHB003041R0001 3BHB000272R0001 UFC721AE101 3BHB002916R0101 UFC721BE101 UFC721BE101 3BHE021889R0101 UFC760BE143 3BHE004573R0143 UFC921A101 3BHE024855R0101 UFC762AE101 3BHE006412R0101 UFC921A101 3BHE024855R0101 UFD203A101 3BHE019361R0101 UNC4672AV1 HIEE205012R1 UNITROL1020 UNS0119A-Z,V1 3BHE030579R0001 UNITROL 1020 3BHE030579R0003 UNS0119A-Z,V1 3BHE030579R0001UAC389AE01 HIEE300888R0001 UAC389AE02 HIEE300888R0002 UAD142A01 3BHE012551R0001
The maximum number of requests provided depends on different levels of restrictions:
Module Port Restrictions: The number of requests provided depends on the module port capacity meeting these requirements.
CCPU architecture limitation: The number of requests provided depends on whether these requests are sent and processed through the PAC architecture.
CCPU com server restriction: parameter settings are used to define the maximum number of requests for the service.
The maximum number of requests is determined by the strictest limit.
summary
Quantum modules can be inserted into any slot in any rack. Although the power module should be installed in the first or last slot for cooling purposes. The module can be disassembled without damaging the module or rack due to insufficient power supply (hot swappable). When installing the module, please refer to the following diagram and steps. Note: In order to provide EMC level, the installation area of the CPU must provide metal contact. Therefore, remove any labels from the affected area and clean the surface with solvent. This Quantum PLC casing and wiring board are made of polycarbonate. This material can be damaged by strong alkalis and various hydrocarbons, esters, halogens, and ketones, combined with heat. Common products containing these substances include detergents, PVC products, petroleum products, insecticides, disinfectants, paint removers, and spray paint. Be careful when selecting and using cleaning solvents.
VME-PMC - caddy is used for VME board expansion of 2 PMC modules. VMEbus system can easily add up to 2 PMC modules to VMEbus system. All PMC I/O signals are routed to VMEbus connector P2 according to IEEE P1386/Draft 2.0 specification, Suitable for two single width PMC modules or one double width module, optional to provide alternative P2 pin allocation (VME-PMC-CADDY-32P2), high bandwidth connection between VME and PCI, powerful VME PCI bridge UNIVERSE CA91C142, level 4 VME arbitrator, The address space can reach up to A32/D32, and the VME64 expansion connector is designed with reliable master or slave functions - easy to operate and cost-effective. Designed specifically for low power consumption and easy cooling, it has been validated in many different industrial applications. Standard interfaces and external dimensions comply with IEEE P1386 and IEEE 1014 Rev. D. The available software library VME-PCI link VMEbus component VME-PMC-CADDY is a VME64 substrate, Can accommodate up to two single size PMC modules or one dual size module. Tundra's VME-PCI bridge UNIVERSE II CA91C142 has an internal clock rate of 33 MHz and is used to connect to the VME bus. The design of the VME bus interface CA91C142 allows the board to operate as a slave or master device on the VME bus. As the main control board, this board supports a 4-level arbitrator. VME-PMC-CADDY operates with a data width of up to 32 bits and 32 address signals on the VME bus.UAD149A0001 3BHE014135R0001 UAD149A1501 3BHE014135R1501 UAD155A0111 3BHE029110R0111 UAD154A 3BHE026866R0101 UAD155A0111 3BHE029110R0111 UAD206A101 3BHE019958R0101 3BHE019959P201AENDC UBC717AE01 HIEE300927R0101 UBC717BE101 3BHE021887R0101 UCD208A101 3BHE020018R0101 UCD224A102 3BHE023681R0102 UCD224A103 3BHE023681R0103/3BHE023682P201REVC UDC920BE01 3BHE034863R0001 UDD406A 3BHE041465P201 UFC718AE01 HIEE300936R0001 UFC718AE01 HIEE300936R0001 UFC718AE101 HIEE300936R0101 UFC719AE01 3BHB003041R0001 3BHB000272R0001 UFC721AE101 3BHB002916R0101 VMEbus interrupts can be placed on any of the seven interrupt request lines. According to IEC 603-xx and VME64 extensions, connect to the VME bus through two 160 pin VG connectors. The active VME bus interrupt request is indicated by a red LED, and the VME bus access to the circuit board is indicated by the yellow LED on the front panel. The PMC plugin unit has two PMC slots designed according to the IEEE P1286/Draft 2.0 standard draft (excluding standard I/O pin wiring). All commercially available PMC modules can be installed. In addition to the transmission connectors for PMC address/data and control signals, each slot of VME-PMC-CADDY is also equipped with an I/O connector for routing the I/O signals of the PMC module to VMEbus connector P2. Provide two different P2 pin assignments: in the default configuration, each P2 pin is only connected to one I/O pin of the PMC module (according to FORCETM's PMC update, in option "- 32P", pin assignments are based on IEEE P1386/Draft 2.0, Table 6-3). This pin arrangement allows for the connection of two PMC modules through P2, as some PMC I/O signals are placed side by side on P2. The front panel of VME-PMC-CADDY is equipped with two openings for the PMC module front panel. Includes a blind cover for unoccupied slots. Easy Expansion of VMEbus System ? Add up to 2 PMC boards to your system ? Connect to site using P2-IO ? Insert 2 single or 1 dual size PMC units ? High bandwidth connection between VME and PCI using P2 pin allocation option and 3.3 V power supply ?UFC721BE101 UFC721BE101 3BHE021889R0101 UFC760BE143 3BHE004573R0143 UFC921A101 3BHE024855R0101 UFC762AE101 3BHE006412R0101 UFC921A101 3BHE024855R0101 UFD203A101 3BHE019361R0101 UNC4672AV1 HIEE205012R1 UNITROL1020 UNS0119A-Z,V1 3BHE030579R0001 UNITROL 1020 3BHE030579R0003 UNS0119A-Z,V1 3BHE030579R0001
