Welcome to the Industrial Automation website!

NameDescriptionContent
XING-Automation
E-mail  
Password  
  
Forgot password?
  Register
当前位置:
  • ABB PHBRMU1000N100 Repeater Mounting Base for Hnet Communication
    ❤ Add to collection
  • ABB PHBRMU1000N100 Repeater Mounting Base for Hnet Communication

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia
    PHBRMU1000N100 Repeater Mounting Base for Hnet Communication
    • ¥7184.00
      ¥11197.00
    • Satisfaction:

      Sales: 0

      Review: 0

    Weight:2.000KG
    • Quantity:
    • (Inventory: 2)
Description
PHBRMU1000N100 Repeater Mounting Base for Hnet Communication

ABB PHBRMU1000N100 Repeater Mounting Base for Hnet Communication

Basic Information

Product Model Number: PHBRMU1000N100.

Product name: Repeater Mounting Base for Hnet Communication, this is a repeater mounting base for Hnet communication. It plays the role of supporting and fixing the repeater in the whole communication system to ensure that the repeater can work stably in the proper position and guarantee the smooth progress of Hnet communication.

Functional features

Stable installation function

Precise mounting structure: The mounting base has a precise mounting structure that can accurately position the repeater. This enables the repeater to be accurately interfaced with other related equipment during installation, avoiding signal transmission problems caused by inaccurate installation position. For example, in industrial automation systems, precise installation ensures that the repeater's communication interface closely matches the cables or other device interfaces in the Hnet network, ensuring that signals can be stably transmitted to and from the repeater.

Reliable fixing mechanisms: Effective fixing methods such as screw fastening, snap-on connections or special rail mounting systems are used. These fixing methods can firmly fix the repeater to the base, preventing it from loosening or shifting under the influence of vibration, shock and other factors in the industrial environment. In complex industrial sites, such as chemical plants or large manufacturing plants, this secure fixing is essential to maintain the stability of the communication system.

Communication support features

Signal Integrity Optimisation: Optimisation of Hnet communication signals has been considered in the design. It may employ some electromagnetic shielding measures to reduce the impact of external electromagnetic interference on repeaters and communication signals. At the same time, its internal wiring channel and connection point design also help to reduce signal reflection and attenuation, ensuring that the signal can maintain a high quality when passing through the repeater. For example, through reasonable grounding design and signal line layout, it can effectively reduce signal interference and improve the reliability of signal transmission.

Compatible with Hnet system: It is highly compatible with other components of Hnet communication system. It can adapt to the protocols, electrical characteristics and physical connections used in Hnet communication. This means that when the repeater is installed, the entire system can be seamlessly integrated without communication failures or performance degradation due to incompatibility between the base unit and other equipment.

Easy System Integration and Expansion

Easy System Integration: As an integral part of the Hnet communications system, the mounting base facilitates integration with other equipment. It can be easily physically connected and communicate with other devices such as controllers, input/output modules, power supply units, etc. in the control cabinet. This integration allows it to play an important role in building a complete industrial automation system or communication network, ensuring that the various devices can work together.

Easy System Expansion: When the system needs to expand the Hnet communication network, this mounting base provides a convenient way to do so. For example, when additional repeaters or other related communications equipment are required, it is designed to allow new equipment to be easily added without affecting the normal operation of the existing system. The new equipment can effectively connect and communicate with the existing system through the base, thus enabling the enhancement of the system's communication capability and expansion of its functionality.

Hardware Characteristics

Material and Durability: Usually made of high-strength engineering plastics or metal materials. Metal materials, such as stainless steel or aluminium alloy, provide excellent mechanical strength and good heat dissipation performance, and are suitable for environments with high heat dissipation requirements or occasions where large external forces are required. Engineering plastics, on the other hand, offer good insulating properties and corrosion resistance to protect internal equipment in industrial environments where there is a risk of chemical corrosion. The housing structure is designed to resist a certain degree of shock and vibration, ensuring that it can also be used under harsh industrial conditions.

Size and space utilisation: has reasonable physical dimensions to meet the installation requirements of the repeater, while taking full account of space constraints within the control cabinet. Its shape may be a compact rectangle or other shapes suitable for the layout of the control cabinet, and when installing multiple bases, the space can be effectively utilised through reasonable arrangement and combination to avoid space wastage. At the same time, the design of its mounting holes and connection parts also gives full consideration to the spatial compatibility with other equipment, making it easy to carry out wiring and equipment maintenance in a limited space.

Interface design and layout: Interface design is an important aspect of this mounting base. It typically includes interfaces for connecting repeaters, power interfaces, and interfaces for connecting to external Hnet communications equipment. The type (e.g., Ethernet interface, serial interface, etc.) and number of these interfaces are determined based on the actual needs of Hnet communications and the functional requirements of the repeater. The interfaces are reasonably laid out and generally located on the side or back of the base, which makes it easy to connect with external devices and avoids interference with the main working area of the repeater, ensuring the stability and reliability of signal transmission.

  • User name Member Level Quantity Specification Purchase Date
  • Satisfaction :
No evaluation information
  • DEIF TCM-2 thyristor control module: Wind power cut in control engineering guide
  • DEIF MVR-200 Medium Voltage Relay: Installation and Wiring Engineering Guide
  • DEIF MDR-2 Differential Relay: Engineering Guide for Generator Differential Protection
  • DEIF Delomatic 3 AOM: Engineering Guide for Analog Output Modules
  • DEIF AGI 400 Graphic Interface: Ship and Industrial HMI Solution
  • DEIF BRW-1 Marine Instruments: Installation and Calibration Guide for Offshore Bridge Indicators
  • DEIF AGC 200 Controller: Quick Deployment and Configuration Guide for Generator Sets
  • DEIF AGC-2 Controller: The Ultimate Guide to Automatic Control and Protection of Generator Sets
  • ABB SPA-ZC400 Gateway: REM54x Access to IEC 61850 Ultimate Engineering Guide
  • ABB REM 543/545 Terminal
  • Modular Architecture Analysis of DEIF PPU 300 Ship Generator Controller
  • DEIF DM-4 Marine&Offshore Ship Power Management System
  • Detailed Explanation of DEIF Delomatic Generator Control System Architecture
  • DEIF AGC-4 Mk II Generator Controller Depth Configuration Guide
  • DEIF AGC-4 Generator Controller Configuration and Debugging Guide
  • DEIF PPM Power Management System Operation and Troubleshooting
  • Installation and wiring of DEIF Multi line 2
  • Practical configuration and maintenance of Beckwith M-6280 capacitor bank controller
  • Beckwith M-3311 Transformer Protection Relay Setting and Engineering Application
  • Beckwith M-3311A Transformer Protection Relay Configuration and Optimization Guide
  • Beckwith M-3310 Transformer Protection Relay Complete Guide
  • Beckwith M-0359 synchronous inspection relay
  • Beckwith M-0293A Voltage Regulating Controller Replacement and Debugging Guide
  • Complete Guide to DEIF GPU-3 Generator Protection Unit
  • Installation and I/O configuration of DEIF PPM-3 power management module
  • Beckwith M-3520 Interconnection Protection Relay
  • Beckwith M-3430 Generator Protection Relay
  • Beckwith M-2293B adapter panel replacement GE regulator guide
  • Selection and Networking of Beckwith M-2001C Digital Voltage Regulating Controller
  • Beckwith M-2001B Digital Voltage Regulating Controller
  • Beckwith M-0388/M-0389 Synchronous Inspection Relay Application Guide
  • Beckwith M-0193B Synchronizer Debugging and System Integration Guide
  • Beckwith M-0115A Parallel Balance Module Debugging Guide
  • Beckwith M-0067E On Load Voltage Regulating Controller Selection and Debugging Guide
  • Debugging and Fault Handling of Beckwith M-4272 Digital Busbar Conversion System
  • Beckwith M-3311A Transformer Protection Relay Debugging Guide
  • Beckwith M-3425A Generator Protection Relay Debugging Guide
  • Setting and troubleshooting of Basler BE1-27/59 voltage relay
  • Debugging and troubleshooting of Basler AVC63-12/AVC125-10 voltage regulator
  • Basler L301kc Line Array Camera Technology and Troubleshooting
  • Selection and Debugging of Basler CBS 212A Current Boosting System
  • Selection and commissioning of Basler BE3-25 synchronous inspection relay
  • Basler BE1-32R/32O/U Direction Power Relay Setting and Testing Guide
  • Basler PRS 250 Synchronous Relay Maintenance and Replacement Guide
  • Basler piA2400-17gc Industrial Camera Replacement and Optimization Guide
  • Basler BE1-11g Generator Protection System
  • Basler VR63-4C/UL Voltage Regulator
  • Basler BE1-DFPR feeder protection relay
  • Basler CBS 310/320 Current Boosting System
  • Basler UFOV 250A/260A protection module
  • Basler MVC104/MVC108/MVC232 manual voltage control device
  • Basler XR2002/XR2002F Regulator
  • Basler DECS-400 excitation system
  • Basler DGC-2020 Generator Set Controller: Integrated Control and Debugging Guide
  • Basler MVC-300 Manual Voltage Controller: Characteristics and Engineering Applications
  • Basler MVC Series Manual Voltage Controller: Application and Selection
  • Basler SSR Static Voltage Regulator: A Complete Guide to Debugging and Troubleshooting
  • Basler SR4A/SR8A Voltage Regulator: Detailed Debugging and Troubleshooting Explanation
  • Basler BE2000E Voltage Regulator: Replacement and Application Details
  • Basler DECS-2100 Excitation System: Modular Upgrade and Engineering Application
  • Basler BE1-851 Overcurrent Protection System: A Complete Guide to Professional Debugging and Troubleshooting
  • Basler APR 63-5 Voltage Regulator: Professional Debugging and Troubleshooting Guide for Industrial Generator Excitation Systems
  • Basler BE1-FLEX Protection System: A Complete Guide to Professional Installation, Configuration, and Troubleshooting
  • Debugging and Testing of Basler BE1-700 Relay
  • Basler BE1-87B busbar differential setting test
  • Basler BE1-40Q demagnetization relay setting test
  • Basler BE1-60 Voltage Balance Relay Setting Test
  • Basler BE1-47N Relay Field Setting and Testing Guide
  • Basler BE1-81O/U Frequency Relay: On site Debugging and Protection Configuration Guide
  • Basler BE1-11f Feedline Protection System Debugging and Troubleshooting Guide
  • Basler DECS-250 Excitation System: Installation, Configuration, and Troubleshooting Practice Guide
  • Basler DECS-100 Digital Excitation System Debugging Guide
  • Application Guide for Basler BE1-BPR Circuit Breaker Protection Relay
  • Basler BE1-50/51B-255 Replacement CO Relay Guide
  • Basler BE1-25 synchronous inspection relay principle and testing
  • Basler BE1-51 Time Overcurrent Relay Debugging Guide
  • Practical Guide to Basler DECS-300 Digital Excitation System
  • Mitsubishi FX Series PLC Data Communication Practical Manual
  • Selection of Hirschmann cSCALE S6/C8 Mobile Safety Controller
  • Hirschmann OZD Profi G12D repeater explosion-proof installation configuration
  • Hirschmann OCTOPUS OS20/24 Switch Installation Power Supply
  • Hirschmann RS20/30/40 Switch Selection and PoE Deployment
  • Hirschmann EAGLE One Firewall Installation and Configuration Guide
  • Hirschmann MACH102 Switch Installation and Power Supply Guide
  • Hirschmann MICE MS20/MS30 Installation and DIP Configuration
  • Hirschmann BOBCAT BRS Switch Installation and Power Supply Guide
  • Hirschmann RSB20 Switch Deployment and Redundant Configuration
  • Hirschmann RS20 Basic Switch Installation and Debugging Guide
  • BECKHOFF EP20xx/EP28xx Output Module Installation and Debugging Guide
  • BECKHOFF EL5102 Encoder Terminal Debugging and Troubleshooting
  • BECKHOFF CU8803 Launch Box Installation and Explosion proof Guide
  • BECKHOFF CU20xx/CU22xx Switch Installation and Troubleshooting
  • BECKHOFF AMP8000 Servo Drive Installation and Debugging Manual
  • BECKHOFF EL2911 Safety Feed Terminal Debugging Guide
  • BECKHOFF EL600x/EL602x Serial Port Module Debugging Manual
  • BECKHOFF CP6700 Panel PC Installation and Maintenance Manual
  • BECKHOFF CP70xx panel maintenance and troubleshooting
  • BECKHOFF CP29xx Panel Installation and Troubleshooting
  • Beckhoff C6650-0060 Industrial Control Computer Hardware Architecture and RAID Data Security
  • Beckhoff BK1120/BK1250 EtherCAT Coupling Debugging and KL Terminal Parameterization Complete Guide
  • Beckhoff CX20x0 Embedded Controller Hardware Maintenance and Troubleshooting Complete Manual
  • Beckhoff CP77xx Panel PC Hardware Maintenance and Troubleshooting Complete Guide
  • Beckhoff EL41xx Analog Output Terminal Deep Analysis: Parameter Configuration, Fault Diagnosis, and Firmware Compatibility Guide
  • Beckhoff C63xx industrial computer power supply and shutdown configuration
  • Beckhoff C6920 Industrial Control Computer Selection and Expansion Guide
  • Beckhoff CU8800 USB extender diagnostic guide
  • Beckhoff AX2000 Shutdown Braking and Debugging
  • Beckhoff AX8000 servo installation fuse selection
  • Beckhoff CP27xx Multi finger Touch PC Maintenance
  • Beckhoff CP69xx long-distance transmission and installation
  • Beckhoff CP60xx remote deployment and maintenance
  • Beckhoff CP72xx Installation and Maintenance Complete Manual
  • Beckhoff CP78xx Installation and Troubleshooting Guide
  • Beckhoff CP39xx Control Panel
  • Beckhoff CX8110 Embedded PC
  • Beckhoff CX50x0 series DIN rail embedded industrial PC
  • Beckhoff CP62xx panel PC
  • BECKHOFF C6030 Industrial Control Computer
  • UniOP ePAD32B/ePAD33B/ePAD33BT Industrial HMI
  • UniOP ePAD05/06 Human Computer Interface
  • UniOP ePAD03/04 Human Computer Interface
  • UniOP BKDR-46-0045 Human Machine Interface
  • UniOP BKDR-16 human-machine interface
  • Beckwith M-3425A Relay Guide
  • Basler DECS-200-2L excitation system
  • Basler DECS-250 Excitation System Debugging Guide
  • HA-800A Servo Drive Debugging Guide
  • JUMO dTRANS p35 Manual