Back Back
AC Servo Drives
Ac Drive / Plc / Servo Drive / Soft Stater / Hmi / Touch Screen
ABB Drives Bazaar LV AC Drives , MV AC Drives , ACS 1000 , ACS 2000 , ACS 5000 , ACS 6000 , LCI Drives, Industrial Drives, Enclosed , Industrial Drives Upgraded , Industrial Drives Modules , Allen Bradley Drives Bazaar Power Flex 4M , Power Flex 4 , Power Flex 40 , Power Flex 40 p , Power Flex 70 ,Power Flex 700 , Power Flex 700H , Power Flex 700L , Power Flex 700S , Power Flex 755 , Power Flex 7000 , Power Flex 700 Dc , 1395 , 1397 Emerson Drives Bazaar Commandar SK , Unidrive SP , Affinity , Commandar SX , Mentor MP , Mentor II , Small DC Drives , Digitax ST , Epsilon EP , SLMT Servo Drive GE Drives Bazaar AF-650 GP Drives , AF-600 FP Drives , AF-60 LP Micro Drives , AF-600 FP Panel ,AF-300 HC 18 Pulse Drive , Medium Voltage AC , DV-300 Standard Drive ,TMDC System Drive , AF-300 Mini Micro Drive , VAT 20 Mini-Micro Drive , AF-300 G11 Drive , AF-300 P11 Drive , AF-300 P11 HVAC Panel , AV-300i High Performance Drive , RS-300 Regenerative Source , Prior Generation Drives Hitachi Drives Bazaar X200 Series , L100M Series , L200 Series , L300P Series , SJ200 Series , SJ300 Series , SJ700 Series Schneider Electric Drives Bazaar Altivar 11 , Altivar 12 , Altivar 21 , Altivar 31 , Altivar 61 , Altivar 61 Plus , Altivar 71 ,Altivar 71 Plus , Altivar 312 , Altivar 1000 Siemens Drives Bazaar Sematic ET 200/ IO , Loher Dynavert , Micromaster , Robicon Perfacr Harmony ,SimoDrive 611 , SimoVert Motion Control , SimoVert Vector Control , SINAMICS G110 , SINAMICS G120 , SINAMICS G130 , SINAMICS G150 , SINAMICS S110 ,SINAMICS S120 , SINAMICS S150 , SIMOREG DC , SIMOREG DC Master , 6RA70 TMGE Drives Bazaar DC Drives , Dura-Bilt 5iMV , LCI Control Modernization , TM Drive 30 , TM Drive 70 ,TM Drive 80 , TM Drive 85 , TM Drive MV , TM Drive MVG , TM Drive- XL 55 , TM Drive- XL 85 Toshiba Drives Bazaar G9 LV , G7 LV , GX7 LV , H9 LV , H7 LV , HX7 LV , Q9 LV VT HVAC , Q7 LV VT HVAC ,QX7 LV VT HVAC , FS1 LV VT HVAC , S11 LV , nC1 LV , G3+ LV , AS1 LV , W7 LV ,T300MVI MV , MTX NEMA MV Yaskawa Drives Bazaar F7 Drives , G7 Drives , P7 Drives , V1000 Drives , VS mini , V74X Drive , V7 Drive ,V7N Drive , J7 Drive , G5HHP Drive , A1000 600V Drive , G5 Drive 600V Drive , P5 Drive 600 Volt , AC 7 Matrix Converter MORE BRAND ABB, AC Tech, Acroloop Motion Controller, Adlee power, AEG, Ambitech, AMICON Bridgeport , ACS Motion Control , Agile Systems, Alldales (UK), Allen-Bradley, Anacon Systems, Aucom (NZ), Aromat , Baldor Inverter , Bronco , Bosch, B&R, Baumuller, Beijing Dynamic, BENSHAW, Bonfiglioli, Bosch Rexroth, Boston Gear, Bridgeport Drive, BRONCO, BURTON, Bardac, BCH, Benshaw, Berge, Boston Gear, CHR, Cleveland Motion Control, Control Techniques, Cutler-Hammer, Centurion AC Servo, Challenger , Contrex DC, Contrex Fenner, Control Techniques, Crouzet, Cincinnati, Duplomatic, Danahar , Danfoss, Danfoss Graham, Delta, DriveCon,Engel (Germany), E-Tec, EATON, Elestream, Eltrol Corporation , Emerson , Emission Control , EMS , ERC , Eurothrem , Electro-Craft Servo, Emerson Inverter, Eurotherm, Fanuc, FHP Series AC , Fincor Drive , Fanuc , Fatek , FAULHABER , Fenner , Fincor , FIRING CIRCUITS , Focus Dynamics , Fuji , Franklin Electric, GE , GE Fanuc , Gettys , Gold star, GRAHAM , Hauni Power Supply , HItachi, heidenhain, HALLMAR , Heidenhain , Hitech Drive, Hypertherm, Hiril, Honeywell (UK), Hyundai, Invertek (UK), IDM , Ingersol rand , Japan servo , Jetter , Kawasaki, KCS , Kollmorgen Seidel , KB Electronics, KEB –Germany,Kirlosker, Kloeckner-Moeller, Leeson, Lenze (German), LG, Lucky Goldstar, LOUIS ALLIS , LUST, Magnatek , MARKANDY , Magnetek, Magnetek HVAC, Mentor, MELLTRONICS , Melltrum DC Drive, MicroMo , Microtech Systems , Mitsubishi , Matsushita, Meidensha, Minilec, Motortronics, M-Tek ,Modicon , Moeller , Moog , MORSE , Motortronics , Nanjing Suqiang Numerical Control , Nikki Denso, NRG Series, NEC , NORD , OKUMA , Omron , Opti , OSAI , Panasonic, PDL, Plasma Techniques, Polyspede, PARAMETRICS , Parker , Parker Compumotor, Peerless , Phasetronics , POWERTRON , Quix, RAM Industries , Reliance , Robicon , Rhyembus, Robicon, Samcon, Samsung, Sanch, SEW/Eurodrive, Siemens, Sinus, Square D, Spangpower, SumitomoTaian Saftronics, Sanyo Denki , Schneider , SECO , SEM , Servo Star , SEW , SIEI , Siemens , seco, Speedmaster, SOUTHCON , Sprint Electric , SQUARE D , SSD , Tamagawa , TB WOODS , TECHNOSOFT , Tajima ,TRM International , T-Verter , T. B. Woods, Teco , Telemecanique , Telemotive, Toshiba, Tuncmatik, unico , US ELECTRONIC , US Drives, Vacon (Finland), Vectron , VEE-ARC , Vexta , WARNER , Weg (Brazil), WER INDUSTRIA , WESTINGHOUSE , Yaskawa, Zener (Australian)
...more
Ac Drives
A variable-frequency drive (VFD) is a system for controlling the rotational speed of an alternating current (AC) electric motor by controlling the frequency of the electrical power supplied to the motor. A variable frequency drive is a specific type of adjustable-speed drive. Variable-frequency drives are also known as adjustable-frequency drives (AFD), variable-speed drives (VSD), AC drives, micro drives or inverter drives. Most AC Drives can be classified according to one of the following five broad categories Variable-voltage inverter (VVI) or 'six-step' drivesVoltage-source inverter (VSI) drivesCurrent-source inverter (CSI) drivesCyclo-converter or matrix drivesLoad commutated inverter (LCI) drives In a basic VVI drive, the DC output of the SCR-bridge converter is smoothed via capacitor bus and series-reactor connection to supply via Darlington Pair or IGBT inverter quasi-sinusoidal, six-step voltage input to the motor. In a basic VSI drive, the DC output of the diode-bridge converter stores energy in the capacitor bus to supply stiff voltage input to the inverter. In a basic CSI drive, the DC output of the SCR-bridge converter stores energy in series-reactor connection to supply stiff current input to the inverter. A Cyclo-converter or matrix drive has no AC-to-DC converter and instead connects each output terminal to the appropriate input phase, making up the desired variable-frequency output waveforms by selective commutation from the fixed-frequency input waveforms. In a basic LCI drive, the DC output of the SCR-bridge converter stores energy via DC link inductor circuit to supply stiff quasi-sinusoidal six-step current input to a second SCR-bridge's inverter and an over-excited synchronous machine. Most packaged AC Drives are VSI-PWM type using pulse width modulation to control the motor's frequency in one of a number of operating modes including open-loop Volts-per-Hertz control, field-oriented control (FOC), closed-loop speed control with slip compensation, or direct torque control (DTC), PWM not however being needed or typically used with DTC. AC Drives are also often categorized as to torque and power characteristics in terms of the following three main motor load types Variable torque load type, such as in fan, pump and blower applicationsConstant torque load type, such as in conveyor and displacement pump applicationsConstant power load type, such as in machine tool and traction applications
...more
Servo Drives
A servo drive is a special electronic amplifier used to power electric servomechanisms. A servo drive monitors the feedbacksignal from the servomechanism and continually adjusts for deviation from expected behavior. A servo drive receives a command signal from a control system, amplifies the signal, and transmits electric current to a servo motor in order to produce motion proportional to the command signal. Typically the command signal represents a desired velocity, but can also represent a desired torque or position. A sensor attached to the servo motor reports the motor's actual status back to the servo drive. The servo drive then compares the actual motor status with the commanded motor status. It then alters the voltage frequency or pulse width to the motor so as to correct for any deviation from the commanded status. In a properly configured speed control system, the servo motor rotates at a velocity that very closely approximates the velocity signal being received by the servo drive from the control system. Several parameters, such as stiffness (also known as proportional gain), damping (also known as derivative gain), and feedback gain, can be adjusted to achieve this desired performance. The process of adjusting these parameters is called performance tuning. Although many servo motors require a drive specific to that particular motor brand or model, many drives are now available that are compatible with a wide variety of motors. Servo systems can be used in CNC machining, factory automation, and robotics, among other uses. Their main advantage over traditional DC or AC motors is the addition of motor feedback. This feedback can be used to detect unwanted motion, or to ensure the accuracy of the commanded motion. The feedback is generally provided by an encoder of some sort. Servos, in constant speed changing use, have a better life cycle than typical AC wound motors. Servo motors can also act as a brake by shunting off generated electricity from the motor itself.
...more
Programmable Logic Controller
A programmable logic controller (PLC) or programmable controller is a digital computer used for automation of electromechanical processes, such as control of machinery on factory assembly lines, amusement rides, or light fixtures. PLCs are used in many industries and machines. Unlike general-purpose computers, the PLC is designed for multiple inputs and output arrangements, extended temperature ranges, immunity to electrical noise, and resistance to vibration and impact. Programs to control machine operation are typically stored in battery-backed-up or non-volatile memory. A PLC is an example of a hard real time system since output results must be produced in response to input conditions within a limited time, otherwise unintended operation will result. PLC Programming PLC programs are typically written in a special application on a personal computer, and then downloaded by a direct-connection cable or over a network to the PLC. The program is stored in the PLC either in battery-backed-up RAM or some other non-volatile flash memory. Often, a single PLC can be programmed to replace thousands of relays. Under the IEC 61131-3 standard, PLCs can be programmed using standards-based programming languages. A graphical programming notation called Sequential Function Charts is available on certain programmable controllers. Initially most PLCs utilized Ladder Logic Diagram Programming, a model which emulated electromechanical control panel devices (such as the contact and coils of relays) which PLCs replaced. This model remains common today. IEC 61131-3 currently defines five programming languages for programmable control systems Function block diagram (FBD)Ladder diagram (LD)Structured text (ST; similar to the Pascal programming language)Instruction list (IL; similar to assembly language) Sequential function chart (SFC) These techniques emphasize logical organization of operations. While the fundamental concepts of PLC programming are common to all manufacturers, differences in I/O addressing, memory organization and instruction sets mean that PLC programs are never perfectly interchangeable between different makers. Even within the same product line of a single manufacturer, different models may not be directly compatible.
...more
Electric Motor Soft Starter
A motor soft starter is a device used with AC electric motors to temporarily reduce the load and torque in the power train of the motor during start up. This reduces the mechanical stress on the motor and shaft, as well as the electrodynamics stresses on the attached power cables and electrical distribution network, extending the lifespan of the system. Motor soft starters can consist of mechanical or electrical devices, or a combination of both. Mechanical soft starters include clutches and several types of couplings using a fluid, magnetic forces, or steel shot to transmit torque, similar to other forms of torque limiter. Electrical soft starters can be any control system that reduces the torque by temporarily reducing the voltage or current input, or a device that temporarily alters how the motor is connected in the electric circuit. Electrical soft starters can use solid state devices to control the current flow and therefore the voltage applied to the motor. They can be connected in series with the line voltage applied to the motor, or can be connected inside the delta (ÃŽ”) loop of a delta-connected motor, controlling the voltage applied to each winding. Solid state soft starters can control one or more phases of the voltage applied to the induction motor with the best results achieved by three-phase control. Typically, the voltage is controlled by reverse-parallel-connected silicon-controlled rectifiers (Thyristor), but in some circumstances with three-phase control, the control elements can be a reverse-parallel-connected SCR and diode. Another way to limit motor starting current is a series reactor. If an air core is used for the series reactor then a very efficient and reliable soft starter can be designed which is suitable for all type of 3 phase induction motor [ synchronous / asynchronous ] ranging from 25 KW 415 V to 30 MW 11 KV. Using an air core series reactor soft starter is very common practice for applications like pump, compressor, fan etc. Usually high starting torque applications do not use this method. Soft starters can be set up to the requirements of the individual application. In pump applications, a soft start can avoid pressure surges. Conveyor belt systems can be smoothly started, avoiding jerk and stress on drive components. Fans or other systems with belt drives can be started slowly to avoid belt slipping. In all systems, a soft start limits the inrush current and so improves stability of the power supply and reduces transient voltage drops that may affect other loads.
...more
Electric Control Panel
When it comes to availing well-designed Electric Control Panels that you can rely on, then the best choice is offered by Matrix Automation – a reputed Manufacturer and Supplier. We manufacture Electric Control Panel using latest technology and test it on industry-set parameters to offer the best. Protected from various types of damage, our Electric Control Panel is suited for commercial, industrial and residential environment. Why Our Electric Control Panel? Moisture proofHigh overload capabilityShort-circuit damage resistanceThermal shock resistanceSuperior fire resistant designMaintenance freeEnvironmentally safeVery low operating cost.
...more
DC Motor
Distribution Panel
electric motor soft
Motor Soft Starter
plc control
Human Machine Interface
The user interface, in the industrial design field of human-machine interaction, is the space where interaction between humans and machines occurs. The goal of interaction between a human and a machine at the user interface is effective operation and control of the machine, and feedback from the machine which aids the operator in making operational decisions. Examples of this broad concept of user interfaces include the interactive aspects of computer operating systems, hand tools, heavy machinery operator controls, and process controls. The design considerations applicable when creating user interfaces are related to or involve such disciplines as ergonomics and psychology. A user interface is the system by which people (users) interact with a machine. The user interface includes hardware (physical) and software (logical) components. User interfaces exist for various systems, and provide a means of : Input, allowing the users to manipulate a systemOutput, allowing the system to indicate the effects of the users' manipulation Generally, the goal of human-machine interaction engineering is to produce a user interface which makes it easy, efficient, and enjoyable to operate a machine in the way which produces the desired result. This generally means that the operator needs to provide minimal input to achieve the desired output, and also that the machine minimizes undesired outputs to the human. Ever since the increased use of personal computers and the relative decline in societal awareness of heavy machinery, the term user interface has taken on overtones of the graphical user interface, while industrial control panel and machinery control design discussions more commonly refer to human-machine interfaces. Other terms for user interface include human–computer interface (HCI) and man–machine interface (MMI). HMI Type Direct manipulation interface is the name of a general class of user interfaces that allow users to manipulate objects presented to them, using actions that correspond at least loosely to the physical world. Currently (as of 2009) the following types of user interface are the most common : Graphical user interfaces (GUI) accept input via devices such as computer keyboard and mouse and provide articulated graphical output on the computer monitor. There are at least two different principles widely used in GUI design: Object-oriented user interfaces (OOUIs) and application oriented interfacesWeb-based user interfaces or web user interfaces (WUI) are a subclass of GUIs that accept input and provide output by generating web pages which are transmitted via the Internet and viewed by the user using a web browser program. Newer implementations utilize Java, AJAX, Adobe Flex, Microsoft .NET, or similar technologies to provide real-time control in a separate program, eliminating the need to refresh a traditional HTML based web browser. Administrative web interfaces for web-servers, servers and networked computers are often called control panels.Touchscreens are displays that accept input by touch of fingers or a stylus. Used in a growing amount of mobile devices and many types of point of sale, industrial processes and machines, self-service machines etc User interfaces that are common in various fields outside desktop computing :
...more
Reviews & Ratings
Write a ReviewBe first to Rate
Rate This
Share your Correspondence Details to receive messages from Matrix Automation
