Quantum Instruments Splitter Boxes CANopen and DeviceNet bus extensions, CANopen bus presentation

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Presentation

IP 67 monobloc I/O splitter boxes

 

for fieldbuses

 

 

AdvantysDistributed I/O, FTB splitter boxes

 

CANopenand DeviceNetbus extensions

 

Advantys FTB splitter boxes are of the monobloc type.

 

 

Each splitter box comprises one part for connection of sensors and actuators by

 

means of M12 connectors, and one part for connection of splitter boxes on CANopen

 

and DeviceNet fieldbuses.

 

 

These splitter boxes enable inputs/outputs to be located remotely, as close as

 

possible to the equipment being controlled.

 

 

CANopen bus presentation

 

 

Master

 

 

Modicon®

 

 

Premium™ PLC

 

 

CANopen bus

From 1 to 127 Slaves

Altivar® 38 Drive Altivar® 58/58F Drive TeSys® Model U Tego®Power

FTB 1CN FTB 1CN pppP0 pppM0

The CAN system, initially developed for real-time exchange of information in the automobile industry, is now being used more and more throughout industry. There are several fieldbuses based on CAN base layers and components.

The CANopen bus conforms to international standard ISO 11898, promoted by the “CAN in Automation” association (a grouping of manufacturers and users), and guarantees a high degree of openness and inter-operability due to its communication profiles and its standardized equipment.

The CANopen bus is now recognized, in Europe, as the reference standard for building industrial systems based on the CAN concept.

The CANopen bus is a Multimaster bus, based on the Master/Slave principle. The physical link consists of a shielded twisted pair, to which up to a maximum of 127 Slaves can be connected by simple tap-off. The binary rate varies, depending on the length of the bus, from 1 Mbits/s for 40m (131.2 ft.) to 50 kbits/s for 1000m (3281 ft.).

Each end of the bus must be fitted with a line terminator.

The CANopen bus is a set of profiles on CAN systems, possessing the following characteristics:

bOpen bus system.

bData exchanges in real-time without overloading the protocol. b Modular design allowing modification of size.

b Interconnection and interchangeability of devices. b Standardized configuration of networks.

b Access to all device parameters.

b Synchronization and circulation of data from cyclic and/or event-controlled

processes (short system response time).

b Exchanges possible with numerous international manufacturers.

Presentation, functions:

Description, configuration:

Characteristics:

References:

Dimensions:

pages 14 - 17

pages 18 , 21, 24,

pages 26, 27

pages 28 - 30

pages 31 - 33

 

 

 

 

 

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Courtesy of Steven Engineering, Inc. ● 230 Ryan Way, South San Francisco, CA 94080-6370 ● General Inquiries: (800) 670-4183 ● www.stevenengineering.com

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Contents IP 67 I/O Splitter Boxes Catalog JanuaryPage 0IP 67 I/O Splitter Boxes Type of signal Type of input/output connectorsHousing type Fieldbus typeModular I/O splitter boxes Advantys, FTM splitter boxes IP 67 passive splitter boxes PresentationDescription Environmental characteristics Channel characteristicsConnection characteristics Substitution tableAccessories ReferencesSplitter boxes only, M12 Separate componentsDimensions Connector connectionABE 9C124 pL pp 16 I/O 8 I/O+ 8 diagnostic I/O 16 I 8 I + 8 diagnostic inputs+ 8 I/O 8 I + 8 diagnostic I/O FTB 1DNpppP0 FTB 1DNpppM0 FTB 1DPpppP0 FTB 1DPpppM0 FTB 1IB Selection of signal type per channel FunctionsFTB Pp16E Pp08E08S Pp12E04S Pp16C 1D p08E08C M12Diagnostics Diagnostics per channel Sensor short-circuitActuator short-circuit Actuator warningCANopen and DeviceNet bus extensions CANopen bus presentationDeviceNet bus presentation CANopen bus configuration ConfigurationDeviceNet bus configuration Cabling accessories Cabling systemProfibus-DP bus Profibus-DP presentationAdvantys Distributed I/O, FTB splitter boxes Profibus-DP bus AddressingProfibus-DP bus connection cables InterBus bus extenson InterBus bus presentationInterBus bus extention InterBus bus extension Fieldbus characteristics Input/output characteristics Input characteristicsOutput characteristics Splitter box typeMonobloc splitter boxes for DeviceNet bus Connection accessories For CANopen/DeviceNet busesFor Profibus-DP bus For InterBus busSeparate components For all bus typesFTB 1CNpppP0, FTB 1DNpppP0, FTB 1DPpppP0 FTB 1IBpppP1 4 elongated holeConnector connection Sensor/actuator connectionCANopen and DeviceNet buses Supply to splitter box Bus input/Bus outputLocal bus, bus input Local bus, bus outputMain bus, bus input Main bus, bus outputBus modules FTM Industrial fieldbus type Degree of protection Bus connector typeMaximum number of digital I/O per bus module Connector type ResolutionDiagnostics Per channel Splitter boxes FTM Digital inputs/outputsPrinciple Compact splitter boxes Expandable splitter boxesDigital I/O splitter boxes Analog I/O splitter boxesFTM 1DD FTM 1DE M12 and M8Functions CANopen bus configuration DeviceNet bus configuration PLC FTM 1DP One bus power supply status LED FTM 1CN/1DN FTM 1DP Cabling accessories for bus modules Internal cabling accessoriesBus module characteristics FTM 1CN10 FTM 1DN10 FTM 1DP10Analog input/output splitter box characteristics Digital input/output splitter box characteristicsCharacteristics FTM 1CN10 Bus modules for modular splitter boxesFTM 1AE04C12C For internal bus FTX CBTL12CD-ROM FTX ES00Bus modules FTM 1pp10 Splitter boxesFTM 1DD16C12 FTM 1DE16C12 FTM 1Dp08C12Input/output connection for analog splitter boxes Auxiliary power supplyBus input/Internal bus output of splitter boxes Switch mode power supplies Applications Nominal powerSignalling Other characteristics MountingABL 7REQ ABL 7UEQ ABL 7UES ABL 7UPS Phaseo modular regulated power supplies Modular switch mode power supplies ABL 7RMTechnical characteristics Operating characteristicsInput circuit Output circuitUpstream protection of power supplies SelectionSchemes GB2 CB pp GB2 CD pp GB2 DB pp GB2 CS ppModular regulated switch mode power supplies ABL 7RM Power supply ABL 7RMppppScheme ABL 7RMppppPhaseo regulated switch mode power supplies ABL 7 power suppliesUsing c 24 Operating voltageABL 7UPS and ABL 7UES ABL 7REQSelection of power supplies Selection according to application characteristics ABLABL 7CEM ABL 7RE ABL 7RP Mtbf General rules to be complied with DeratingABL 7CEM Temporary overloads Load limitSeries or parallel connection ABL 7REQ power supplies protection of the power supply line Type of mains supplyABL 7CEM single-phase regulated switch mode power supplies ABL 7RE single-phase regulated switch mode power suppliesABL 7RP single-phase regulated switch mode power supplies ABL 7REQ 2-phase regulated switch mode power supplies7UPS24100 ABL 7UEQ24200 ABL 7UPS24200ABL 7RE2402/2403 ABL 7RE2405 ABL 7RE2410 ABL 7RP2403 ABL 7CEM24ppp ABL 7REQ24ppp ABL 7RP1205/2405/4803ABL 7UEppppp ABL 7UPSppppp and 7UESProduct Reference Index IP 67 I/O Splitter Boxes Page Schneider Electric Head office Schneider Electric

Splitter Boxes specifications

Quantum Instruments Splitter Boxes represent a significant advancement in the realm of optical signal processing and distribution. These sophisticated devices are designed to efficiently split and manage optical signals while ensuring minimal loss and optimal performance. One of the standout features of Quantum Instruments Splitter Boxes is their robust construction, which is designed to withstand harsh environmental conditions, making them suitable for both indoor and outdoor applications.

A key technology utilized in these splitter boxes is the advanced fiber optic splitting technology, which employs high-quality optical fibers to achieve precise signal distribution. This technology allows for uniform splitting ratios, ensuring that each output maintains the integrity of the original signal. Furthermore, Quantum Instruments has integrated low-loss components into their splitter boxes, which contribute to high transmission efficiency and reduced signal attenuation.

In terms of characteristics, Quantum Instruments Splitter Boxes are available in various configurations to meet diverse user needs. They support multiple input and output configurations, ranging from simple one-to-two splits to complex multi-channel setups. This versatility makes them ideal for a wide range of applications, from telecommunications and data centers to broadcasting and surveillance systems.

The boxes also feature user-friendly interfaces for easy installation and maintenance. Their modular design allows for straightforward scaling and customization, enabling users to adapt the system as their requirements evolve. Additionally, the splitter boxes are equipped with advanced diagnostics and monitoring capabilities to ensure optimal performance and quick identification of any potential issues.

Moreover, Quantum Instruments prioritizes energy efficiency in their designs. The splitter boxes are engineered to minimize power consumption while maximizing performance, making them a sustainable choice for modern optical networks.

Quantum Instruments Splitter Boxes not only embody cutting-edge technology but also emphasize reliability and practicality. With a commitment to innovation, they continue to set benchmarks in the industry, making them a preferred choice for professionals looking to enhance their optical signal distribution systems. Their combination of high-quality materials, advanced technology, and user-oriented design ensures that users receive unparalleled performance and value. As the demand for more efficient communication systems grows, Quantum Instruments remains at the forefront, delivering solutions that cater to the evolving needs of the industry.
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