Key Features Synchrophasor measurement devices (PMU) that meet IEEE c37.118 (2014) across all protection applications Synchrophasor capabilities on generator, transformer, line distance, line differential and feeder applications Multiple configurable PMU elements (up to 6 on selected products) Extended Oscillography – captures extended events at 64 samples per cycle Event Recorder – 1024 time tagged events, with 0.5ms scan of digital inputs Data Logger – up to 16 channels with user selectable sampling rate Fault locator and user-programmable fault reports Breaker condition monitoring including breaker arcing current (I2t) Metering – current, voltage, power, power factor, frequency Broken Rotor Bar Detection and motor temperature via RTD inputs Monitoring & Diagnostics The UR includes high accuracy metering and recording for all AC signals. Voltage, current, and power metering are built into the relay as a standard feature. Current and voltage parameters are available as total RMS magnitude, and as fundamental frequency magnitude and angle.
GE Fanuc CMU 310 is a high-performance programmable logic controller (PLC)CPU module, which belongs to GE Fanuc series automation control products. This module is specially designed for industrial automation applications, which provides powerful processing capacity, flexible expansibility and reliable running performance, and is suitable for complex control tasks in manufacturing, energy, transportation and other fields.
Core characteristics Powerful processing performance It adopts high-speed processor, supports multi-task parallel processing, and is suitable for complex logic control and large-scale I/O system. Large-capacity memory design meets the requirements of program storage and data recording, and supports advanced control algorithms. Flexible communication ability Built-in communication interfaces (such as Ethernet and serial port) support industrial protocols such as Modbus, Profibus and EtherNet/IP. Extensible communication module can realize seamless integration with HMI, SCADA system and other PLCs. High reliability and stability Industrial-grade design, with anti-vibration and anti-electromagnetic interference (EMI) ability, suitable for harsh industrial environment (-20 C to+60 C). Support redundant configuration and hot backup function to ensure the continuous operation of the system and reduce the risk of downtime. Easy to program and maintain. Compatible with GE Fanuc programming software (such as Proficiency Machine Edition), supporting ladder diagram, structured text and other programming languages. Modular design facilitates fault diagnosis and quick replacement, and reduces maintenance time.
IS420UCSBH3A controller is a version of General Electric (GE)Mark VIe series UCSB controller, which is mainly used in the management system and control system of automatic drive components of gas, steam and wind turbines. This series of controllers is a significant improvement of Mark V series, especially in functional application, which is more suitable for gas and steam automatic drive components. Hardware specifications and characteristics The core hardware of IS420UCSBH3A controller includes a 1200 MHz EP80579 Intel microprocessor, which runs on QNX real-time operating system and has high reliability and real-time. The modular design of the controller is compact, and it supports various communication interfaces, such as onboard I/O network (IONet) interface, for high-speed data transmission with I/O modules. In addition, it is equipped with 256 MB SDRAM memory, which can meet the needs of complex industrial applications.
In appearance design, there are several LED indicators on the front panel of IS420UCSBH3A controller, which are used to display the state of the controller. For example:
Amber LED indicates that the internal component exceeds the recommended limit; A steady green LED indicates that the controller is online and running application code; Other LED indicators are used to display the recovery process status, power status, etc. The modular design of the controller allows flexible configuration, and has the characteristics of fanless design and built-in power supply, so that it can run stably in harsh environment. technical superiority
PAC8000 Remote I/O The Control Solution for Process Industries Introduction PAC8000 Remote I/O is a completely modular I/O solution for both general purpose and hazardous area applications. Based upon a carrier system, PAC8000 supports a wide range of modules and I/O functions, including intrinsic safety signals. An open architecture allows communication with a variety of different fieldbuses by selecting the appropriate type of Bus Interface Module (BIM). Designed to resist extreme temperatures, humidity, corrosive materials, shocks, and vibration, PAC8000 delivers full specification performance in even the harshest environments. In ATEX environments PAC8000 excels – all components can be mounted and live worked in Zone 2 / Division 2 and ATEX Zone 1 hazardous areas. The I/O includes types that can be connected directly to intrinsically safe (Exi) or increased safety (Exe) field wiring. PAC8000 Remote I/O integrates seamlessly with PACSystems solutions and is connected via PROFINET or Modbus TCP to RX3i and RSTi-EP controllers. Harsh & Hazardous Area Operation PAC8000 can go where other products cannot. They can be f ield mounted and subjected to the following:-40°C to +70°C operating range ISA Level G3 corrosion 30g shocks and 5g vibration Operation in Class I, Division 2 and Zone 2 hazardous areas with I/O module field wiring including intrinsically safe (Exi) and increased safety (Exe) options Supports UL HAZLOC C1D1 and ATEX Zone 1 hazardous areas with I/O module field wiring including intrinsically safe (Exi) and increased safety (Exe) options High Availability PAC8000 supports PROFINET System Redundancy (PNSR), enabling synchronized independent controllers to service the I/O and transition from active to back-up controller without interruption. With controllers separated up to 10 kilometers from each other, processes will be resilient from physical disruption. Consider unplanned downtime a thing of the past. Variety of I/O Modules Beyond just analog and digital I/O, a broad
DESCRIPTION The 750 and 760 relays contain many features designed to accommodate a wide range of applications. This chapter is pro vided to guide you, the first time user, through a real-world application. The following step-by-step installation example, pro vides you with a quick and convenient way of becoming familiar with the relay. To start, simply power on the unit, and follow the instructions in this tutorial. The example assumes the following system characteristics. It also assumes that relay set points are unaltered from their factory default values.
Power System Data System: 3Φ, 4 wire Frequency: 60 Hz Line Voltage: 13.8 kV Maximum Current: 600 A
Control System Requirements All protection elements used are to trip the breaker. Breaker position monitoring via 52b contact only. Only current metering is required. Contact Inputs: Remote open and close contacts from RTU. Remote/local selection from panel hand switch. Reset from RTU. Alarm after 100 second delay from substation monitor Contact Outputs: Trip and close to breaker control circuit (trip and close relays). Relay failure alarm to RTU (self-test warning relay, no programming required). Alarm contact to RTU (setup in User Function for “Substation Monitor”) No data communications to other equipment.
Instrument Transformer Data Bus VTs: 3 × Wye connected, ratio = 14.4 kV:120 V Phase CTs: 3 × Wye connected, ratio = 600:5 A
Ge’s ds 200 ad gig 1 aa board assembly is a part of the company’s Mark V turbine control system series Speedtronic system, as mentioned above. This ds 200 ad gig 1 aa printed circuit board (PCB for short) is actually not the Mark V series auxiliary Genius interface board specially manufactured for Mark V series. This will be three important A-level product revisions of DS200ADGIG1 mother printed circuit board without this general electric product. Mark V series to which this special ds 200 ad gig 1 aa board belongs is generally out of date, because general electric company stopped its production in one of many years after its original mark series was launched. The greater Mark V series of ds 200 ad gig 1 aa equipment is generally out of date, but it has a continuous demand in the larger automation industry market, because it is one of the latest products in the GE Mark product series, and integrates the patented technology of Speedtronic control system into its various product series. The technology of Speedtronic control system in ds 200 ad gig 1 aa board and its larger Mark V series was first released in the middle and late 1960s together with the main concepts of Mark I series.
Hardware tips and specifications
This ds 200 ad gig 1 aa auxiliary Genius interface board consists of a set of specific hardware component contents and component specifications. Fortunately, we can find these contents in the Mark V series raw data manual on the Internet. Every corner of ds 200 ad gig 1 aa motherboard is factory drilled. Ds 200 ad gig 1 aa device is designed with a carrier board and an accessory daughter board, marked with GE logo and wiring code. Although the edge of the circuit board is made of traditional PCB layer, most of the circuit board is covered with black topcoat, which is a typical feature of Mark V series products. There are almost no mounting components in this part of the circuit board. At the top third of ds 200 ad gig 1 aa printed circuit board, the coating disappears, and there are several right-angle and vertical pin connectors, integrated circuits, resistors and test points on the circuit board. The board also has many jumper pins, allowing users to change the circuit to meet their specific needs. The board has four brackets connecting the daughter board and the main board.
Mark V daughter board for DS200ADGIG1AAA PCB has built-in additional integrated circuits. If you need more information about each chip, these ICs are usually marked with the original manufacturing number on the top surface. The board is about 8 inches by 6 inches, which is convenient because it is usually installed in the drive cabinet of Mark V series. The device will be screwed using factory-made holes along the edge of the plate. This ds 200 ad gig 1 aa auxiliary Genius interface board is regarded as an electrostatic sensitive GE PCB, so the attached grounding strap must be used when unpacking this Mark V series product. Ge has made three major modifications to ds 200 ad gig 1 aa, which may increase the overall size and performance specifications of the device.
General electric company provides some general considerations about standardizing the use of ds 200 ad gig 1 aa auxiliary Genius interface board. As mentioned in GE’s original instruction manual, DS200ADGIG1AAA PCB is not designed to download EEPROM data of Mark V-series driver, because it must be downloaded using Mark V-series RS-232 port or keyboard.
The DS200AAHAH1AED is a GE created ARCNET LAN Driver Board. This board was produced to be a component of the GE Mark V LM series of Speedtronic hardware. This board is no longer being supported by GE and may be a little hard to locate. Please consult AX Control for the availability of the DS200AAHAH1AED because we do attempt to keep it in stock. While this DS200AAHAH1AED PCB’s greater Mark V Series may exist as a legacy product series, it also is one of the final General Electric Speedtronic product series to make use of the patented Speedtronic control system technology first introduced with the rollout of the Mark I Series in the late 1960s. This DS200AAHAH1AED printed circuit board or PCB for short is not the original ARCNET LAN Driver Board created for insertion in the Mark V Series automated drive assembly; that would be the DS200AAHAH1 parent ARCNET LAN Driver Board not making use of this DS200AAHAH1AED device’s three significant product revisions.
Hardware Tips and Specifications
The DS200AAHAH1AED is a PCB that was meant to function within the MARK V’s control panel. It is also identified as an ARCNET Connection Board (AAHA). Like its name would suggest, this board is designed to act as a connection that links the main Control Engine and external drives to the ARCNET. The control engine actually resides within the <R> core. Two AAHA boards are actually needed within the <R> core. One of the boards needed by the core is a board that connects the COREBUS to the <R> core. In doing so, the control engine is allowed to communicate to the I/O cores that are also held within the <R> core. This board also can connect to the PANA board. The second board grants a Stage Link connection to the user interface and the <R> core. The DS200AAHAH1AED is a very small and simple board. It has three communications ports on the top side. The leftmost port isn’t actually used and is an EBNC port. Beside of it are the ARCBNC-A and ARCBNC-B ports.
Ge Speedtronic Mark V gas turbine control system is a version of ge’s long series of high-reliability electro-hydraulic control (EHC) systems for steam and gas turbine control.
About the 323A2374P3
The 323A2374P3 GE Display is designed as a mini terminal for use with General Electric’s Mark V turbine control system. The Mark V turbine control system has been used for managing industrial gas, steam, and wind turbines for decades, powered by General Electric’s patented Speedtronic control system technology. The Mark V Turbine Control System Series is only one of several Speedtronic systems our company maintains on-hand stock for. If you need replacement parts for any of the Speedtronic systems, from the Mark I to the Mark VIe, please talk to our team or look through our online inventory for more information. This 323A2374P3 Mini-Terminal Control Display is not functionally-named as many other component products within the Mark V Series are, which means that the contents of this personalized product page with be primarily based upon a visual inspection of the model, as conducted by one of our knowledgeable and experience printed circuit board technicians.
Hardware Tips and Specifications
The 323A2374P3 is a small LCD keypad and screen combination. This 323A2374P3 product functions as a mini terminal/point of control for the Mark V Series automated drive assembly that it was originally designed and manufactured for. The 323A2374P3 unit can mount directly to a unit using screw mounts and connects with the associated plug and wiring available along one long edge of the display. While this 323A2374P3 product is a member of the Mark V Turbine Control System Series from General Electric, it is not afforded a standard version of General Electric functional product number; most likely a result of its odd existence as a keypad and LCD screen display product. With this being true, if this 323A2374P3 device makes use of any particular Mark V Series assembly version, functional product acronym, base printed circuit board coating style, or functional product revision, it is unfortunately not able to be confirmed on this 323A2374P3 personalized product page here.
The 323A2374P3 display has a single small LCD panel that offers a two-line 40 character display. Below this display, the 323A2374P3 device’s front panel has four lines of touch-sensitive membrane switches. These keys offer more than one function, as they utilize the shift key located in the bottom left corner of the unit to access the secondary functions. The panel includes F1 through F20 keys, as well as scroll up and down, numeric keys, more, less, and raise/lower keys. Also included in this 323A2374P3 product offering’s keypad panel are a set of three buttons seemingly pertinent to the greater Mark V Series automated drive’s diagnostic fault alarm, labeled as “ALARM SIL,” “ALARM ACK,” and “ALARM RESET.” Refer to General Electric manuals for a more detailed look at this unit as well as specifics regarding its handling and installation; this 323A2374P3 product is identifiable as a GE Drive Systems Mini-Terminal product through the insertion of several General Electric logos and the GE Drive Systems company name on the front of the 323A2374P3 keypad itself. Manuals and user guides should have been provided with your original purchase from the OEM.
IS420ESWAH2A industrial Ethernet /IONet switch was originally manufactured for the Mark VIeS turbine control system series of General Electric Company, as specified in the original printed instruction manual materials, and can be obtained through our convenient manual tab. The Mark VIeS turbine control system series, as you may have guessed, has the following characteristics based on its complete extended series name:
A set of specific application choices in the control and management system of General Electric Company-Compatibility;
wind
gas
And a steam turbine automatic drive assembly.
This is a great improvement on the previously developed Mark V series, because the Mark V series is only based on the possible applications of gas and steam turbines.
Being regarded as a member of, it is a more attractive prospect in the larger visual automation industry market.
It is considered to be one of the recently developed GE logo product series, with its patents and respected Speedtronic control system technology.
Hardware tips and specifications
IONet/ industrial Ethernet switch package IS420ESWAH2A is marked as an unmanaged industrial Ethernet switch. The model is designed to meet the specific requirements for keeping up with real-time industrial solutions. Some features required to meet the speed and functional requirements are as follows:
Redundant power input
Led indicating the following status:
speed
Duplex
activity
Links exist for each port.
100Base-FX multimode fiber port
All fiber ports will have LC type connections.
Considering the original GE manufacturing of IS420ESWAH2A device, it is classified as the functional product number of IS420ESWAH2A, which indirectly describes many hardware features, including the special modular components of IS420ESWAH2A device, the abbreviation of ESWA function, the coating style of conformal PCB, the second group of Mark VIeS series products, and its unique A-level functional product version.
IS420ESWAH2A installation tips and specifications
When installing the switch, you can use a variety of installation directions; Depending on the installation direction used, different clips are needed. For example:
If the IS420ESWAH2A switch is installed parallel to the guide rail on the long side of the switch body, the clamp required for installation is 259B2451BVP1.
Please note that this clip can be used for ESWA and ESWB switches.
When installing IS420ESWAH2A, there is no need for related basic accessories/components when installing the switch, and there are no replacement parts in the module.
After the switch is inserted, the estimated service life of RJ-45 connector should be 200 disassembly/insertion cycles.
