Instrumentation Equipment Dealers in Bommanahalli, Bangalore

We are a distinguished Importer and Supplier of Programmable Logic Controller in Karnataka, India. The Programmable Logic Controller or programmable controller is a digital computer, which is used for the automation of typically industrial electromechanical processes, such as control of machinery on factory assembly lines, amusement rides, or light fixtures. PLCs are used in many machines, in many industries. PLCs are designed for multiple arrangements of digital and analogue inputs and outputs, 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.   Programmable Logic Controller, PLC, or Programmable Controller is a digital computer used for automation of typically industrial electromechanical processes, such as control of machinery on factory assembly lines, amusement rides, or light fixtures. PLCs are used in many machines, in many industries. PLCs are designed for multiple arrangements of digital and analog inputs and outputs, 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.   Programming : Early PLCs, up to the mid-1990s, were programmed using proprietary programming panels or special-purpose programming terminals, which often had dedicated function keys representing the various logical elements of PLC programs.[2] Some proprietary programming terminals displayed the elements of PLC programs as graphic symbols, but plain ASCII character representations of contacts, coils, and wires were common. Programs were stored on cassette tape cartridges. Facilities for printing and documentation were minimal due to lack of memory capacity. The oldest PLCs used non-volatile magnetic core memory. More recently, PLCs are programmed using application software on personal computers, which now represent the logic in graphic form instead of character symbols. The computer is connected to the PLC through Ethernet, RS-232, RS-485, or RS-422 cabling. The programming software allows entry and editing of the ladder-style logic. Generally the software provides functions for debugging and troubleshooting the PLC software, for example, by highlighting portions of the logic to show current status during operation or via simulation. The software will upload and download the PLC program, for backup and restoration purposes. In some models of programmable controller, the program is transferred from a personal computer to the PLC through a programming board which writes the program into a removable chip such as an EPROM   Functionality : The functionality of the PLC has evolved over the years to include sequential relay control, motion control, process control, distributed control systems, and networking. The data handling, storage, processing power, and communication capabilities of some modern PLCs are approximately equivalent to desktop computers. PLC-like programming combined with remote I/O hardware, allow a general-purpose desktop computer to overlap some PLCs in certain applications. Desktop computer controllers have not been generally accepted in heavy industry because the desktop computers run on less stable operating systems than do PLCs, and because the desktop computer hardware is typically not designed to the same levels of tolerance to temperature, humidity, vibration, and longevity as the processors used in PLCs. Operating systems such as Windows do not lend themselves to deterministic logic execution, with the result that the controller may not always respond to changes of input status with the consistency in timing expected from PLCs. Desktop logic applications find use in less critical situations, such as laboratory automation and use in small facilities where the application is less demanding and critical, because they are generally much less expensive than PLCs.   Features : Control panel with PLC (grey elements in the center). The unit consists of separate elements, from left to right; power supply, controller, relay units for in- and output.The main difference from other computers is that PLCs are armored for severe conditions (such as dust, moisture, heat, cold), and have the facility for extensive input/output (I/O) arrangements. These connect the PLC to sensors and actuators. PLCs read limit switches, analog process variables (such as temperature and pressure), and the positions of complex positioning systems. Some use machine vision.[4] On the actuator side, PLCs operate electric motors, pneumatic or hydraulic cylinders, magnetic relays, solenoids, or analog outputs. The input/output arrangements may be built into a simple PLC, or the PLC may have external I/O modules attached to a computer network that plugs into the PLC.   Scan time : A PLC program is generally executed repeatedly as long as the controlled system is running. The status of physical input points is copied to an area of memory accessible to the processor, sometimes called the "I/O Image Table". The program is then run from its first instruction rung down to the last rung. It takes some time for the processor of the PLC to evaluate all the rungs and update the I/O image table with the status of outputs.[5] This scan time may be a few milliseconds for a small program or on a fast processor, but older PLCs running very large programs could take much longer (say, up to 100 ms) to execute the program. If the scan time were too long, the response of the PLC to process conditions would be too slow to be useful. As PLCs became more advanced, methods were developed to change the sequence of ladder execution, and subroutines were implemented.[6] This simplified programming could be used to save scan time for high-speed processes; for example, parts of the program used only for setting up the machine could be segregated from those parts required to operate at higher speed. Special-purpose I/O modules may be used where the scan time of the PLC is too long to allow predictable performance. Precision timing modules, or counter modules for use with shaft encoders, are used where the scan time would be too long to reliably count pulses or detect the sense of rotation of an encoder. The relatively slow PLC can still interpret the counted values to control a machine, but the accumulation of pulses is done by a dedicated module that is unaffected by the speed of the program execution.   System Scale : A small PLC will have a fixed number of connections built in for inputs and outputs. Typically, expansions are available if the base model has insufficient I/O. Modular PLCs have a chassis (also called a rack) into which are placed modules with different functions. The processor and selection of I/O modules are customized for the particular application. Several racks can be administered by a single processor, and may have thousands of inputs and outputs. Either a special high speed serial I/O link or comparable communication method is used so that racks can be distributed away from the processor, reducing the wiring costs for large plants. Options are also available to mount I/O points directly to the machine and utilize quick disconnecting cables to sensors and valves, saving time for wiring and replacing components.   User Interface :   See Also : User interface and List of human-computer interaction topics  PLCs may need to interact with people for the purpose of configuration, alarm reporting, or everyday control. A human-machine interface (HMI) is employed for this purpose. HMIs are also referred to as man-machine interfaces (MMIs) and graphical user interfaces (GUIs). A simple system may use buttons and lights to interact with the user. Text displays are available as well as graphical touch screens. More complex systems use programming and monitoring software installed on a computer, with the PLC connected via a communication interface.   Communications :  PLCs have built-in communications ports, usually 9-pin RS-232, RS-422, rs-485, Ethernet. Various protocols are usually included. Many of these protocols are vendor specific. Most modern PLCs can communicate over a network to some other system, such as a computer running a SCADA (Supervisory Control And Data Acquisition) system or web browser. PLCs used in larger I/O systems may have peer-to-peer (P2P) communication between processors. This allows separate parts of a complex process to have individual control while allowing the subsystems to co-ordinate over the communication link. These communication links are also often used for HMI devices such as keypads or PC-type workstations. Formerly, some manufacturers offered dedicated communication modules as an add-on function where the processor had no network connection built-in.   Programming :   PLC programs are typically written in a special application on a personal computer, 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.[7] 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), and sequential function chart (SFC).[8] These techniques emphasize logical organization of operations.[7] 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.   Security : Prior to the discovery of the Stuxnetcomputer worm in June 2010, security of PLCs received little attention. PLCs generally contain a real-time operating system such as OS-9 or VxWorks, and exploits for these systems exist much as they do for desktop computer operating systems such as Microsoft Windows. PLCs can also be attacked by gaining control of a computer they communicate with.[9]   Simulation : In order to properly understand the operation of a PLC, it is necessary to spend considerable time programming, testing, and debugging PLC programs. PLC systems are inherently expensive, and down-time is often very costly. In addition, if a PLC is programmed incorrectly it can result in lost productivity and dangerous conditions. PLC simulation software such as PLCLogix can save time in the design of automated control applications and can also increase the level of safety associated with equipment since various "what if" scenarios can be tried and tested before the system is activated.[10]   Redundancy : Some special processes need to work permanently with minimum unwanted down time. Therefore, it is necessary to design a system which is fault-tolerant and capable of handling the process with faulty modules. In such cases to increase the system availability in the event of hardware component failure, redundant CPU or I/O modules with the same functionality can be added to hardware configuration for preventing total or partial process shutdown due to hardware failure.   PLC compared with other control systems : PLCs are well adapted to a range of automation tasks. These are typically industrial processes in manufacturing where the cost of developing and maintaining the automation system is high relative to the total cost of the automation, and where changes to the system would be expected during its operational life. PLCs contain input and output devices compatible with industrial pilot devices and controls; little electrical design is required, and the design problem centers on expressing the desired sequence of operations. PLC applications are typically highly customized systems, so the cost of a packaged PLC is low compared to the cost of a specific custom-built controller design. On the other hand, in the case of mass-produced goods, customized control systems are economical. This is due to the lower cost of the components, which can be optimally chosen instead of a "generic" solution, and where the non-recurring engineering charges are spread over thousands or millions of units.

• Brand Name: HASTHI
• Power: 1 HP -30 HP
• Voltage: 480 V
• Phase: SINGLE PHASE AND THREE PHASE
• Model Name/Number: HASTHI
• Current: 40 A
• Running Capacity: TILL 30 HP
• Starter Type: Fully Automatic

• Frequency: 50Hz/60Hz
• Voltage: 12 Volt
• Material: Stainless Steel
• Packaging Type: Box
• Power Source: Electric
• Phase: Single Phase

• Country of Origin: India
• Application: Clinic
• Durability: Long Life
• Type: Portable
• Pack Type: Box

Infrared motion sensor- sn-pr15 technical specifications: power sourcing : 220 -240 vac detection range: 180° power frequency : 50 hz detection distance: 12 m max(.

Our range of products also includes control panels to be installed for varied industrial purposes. These are of a well and suitably fabricated body for an easy wiring. The wires are also easily replaceable. Pid power back is used for low power consumption. It is mainly made to control furnaces electrically and is made as per customer specifications. The control panel is made for easy operation and efficient use.

module features:1, Flame sensor can detect flame or Fire at 760 nm wavelength, or ~ 1100 nm range of the light source, it can detect flame from a distance of 20cm, Greater the flame the detecting distance also increases.2, detection angle 60 degrees, the flame spectrum particularly sensitive.3, adjustable sensitivity (shown in blue digital potentiometer adjustment)4, Driving ability, more than 15mA5, Operating Voltage 3.3V-5V6, Output format: Digital switching output (0 and 1) or Analog Output.7, with fixed bolt hole for easy installation8, Small PCB size: 3.2cm x 1.4cm9, Using a wide LM393 voltage comparator Working:1, The flame sensor most sensitive to ordinary light is also a reaction, generally used as fire alarm and other purposes.2, A small panel output interface can be directly connected with the microcontroller IO port.3, The sensor and the flame should maintain a certain distance, so as not to damage the sensor.

Primary focus is on highly engineered moulds for automotive application . Close tolerance components for wire harness connectors, electro mechanical sensors are being molded at high volumes

3S is a specialized in Home Automation dealing with specified requirements of homes in the usage of easy-to-use technologies for security and comforts of the residents. We provide intelligent Video Door Phones, Intrusion Detection System, Automatic gates and doors for residences and converts the residence to an intelligent home by integrating all the above with Home Automation Products/Solutions Home automation includes most of all that a building automation provides like the climate controls, door and window controls and security etc plus additionally controlling multimedia home theatres, pet feeding, plant watering, blinds and so on. We emphasize more towards comfort, ease of operation and also aesthetics. With the fast development in technology, our offering includes - wireless home automation system, smart phone integration, web based consoles and IP based models. 3S offerings in domestic systems are easy to use and install, completely modular in design and expandable to meet future requirements. Our home automation systems offer a number of immediate and future benefits which will definitely simplify the day-to-day life for our customers.

We offer fc series - variable frequency drives features : high performance drive with field oriented control. featuring new 175o c miniskiip igbts for high reliability. stator flux oriented control reduces parameter dependence. 8 digital inputs , 3 analog inputs,3 digital outputs, 1 relay output high resolution oled display usb for data transfer and logging current sensors in soic package enhance reliability. ip55ip66 options option boards: 8 digital inputs+8 digital outputs, incremental encoder interface

Access control enables you to control who has access to your Premises. Locks and keys also allow you to secure your building, but when keys are lost or stolen, the inconvenience and expense of changing locks and re-issuing keys can be considerable. Keys may also be copied, creating even more security risks. Our development teams are focused on designing systems that are fit for their purpose, containing the important features that are necessary for well-run organizations. Our commitment has resulted in our products winning a reputation for reliability and ease of use. Whether it's a small office with access control and time and attendance system or a large corporate office with thousands of employees, we have deployed a wide range of Access Control systems with a feature of multi site  linking and a centralized monitoring system to effectively track and enhance the performance of the employees without any risk to the management. We also provide smart card based solutions in addition to access control for value added applications like Canteen Management systems, Vehicle Parking systems, Asset tracking etc.In CCTV surveillance, the cameras are installed right from small offices to large commercial buildings with more than 200 cameras per site with TCP/IP for effective monitoring to provide intensive security solutions to the customers. If you can name the risk, we can offer you the right Solution!!We deal with conventional as well as addressable fire alarm systems. The conventional fire alarms are used in small and easily accessible areas whereas addressable fire alarms can determine the exact time and place of fire and are used in high sensitivity places like Nuclear power stations and data and server rooms of various commercial and office buildings.GENERAL FEATURES• Relay output for connection to door strikes/latches• Independent NO/NC (programmable) input for connection to a switch for opening the door from inside.• Elaborate Audio and Visual signals in response to commands• Programmable duration for Time to open the door and Time to close the door, if connected with a magnetic switch

Reliable Static Control & Balanced Ionization for ISO Cleanliness Class 4 Environments Simco-Ion's AirForce Model 6115 Blow-off Gun's power makes the AirForce effective in removing particle contamination and ideal for use in clean process applications. The 6115 is the only gun product rated at ISO 14644-1 Class 4 cleanliness (Fed. Std. 209e Class 10 equivalent). Steady-state DC ion emission provides efficient ionization with an average discharge time of less than 1.0 second. Ergonomic gun design Flexible, lightweight air hose with integral low voltage power cable Replaceable emitter point assembly and quick-eject filter Strong blow-off force Steady-state DC ion emission IsoStat® technology Durable static-dissipative materials ISO 14644-1 Class 4 cleanliness operation

• Type: Festoon Cable
• Material: ABS Coated Pipe, Aluminum, Iron, Metal, Stainless Steel
• Feature: Easy Operate, Moveable, Non Breakable, Rustproof, Shiny Look, Water Resistant
• Application: For Handling Heavy Weights, Industrial Use
• Capacity: 100-1000kg, 1000-2000kg, 2000-3000kg, 3000-4000kg, 4000-5000kg
• Power: 1-2kw, 10-12kw, 2-4kw, 4-6kw, 6-8kw, 8-10kw
• Driven Type: Electric, Hydraulic, Mechanical, Pneumatic

Our range of products also includes control panels to be installed for varied industrial purposes. These are of a well and suitably fabricated body for an easy wiring. The wires are also easily replaceable. Pid power back is used for low power consumption. It is mainly made to control furnaces electrically and is made as per customer specifications. The control panel is made for easy operation and efficient use.

Occupancy Sensor, Public Address System, EPABX System

Bus Duct, MS Heavy Fabrication Service, FRP Petrol Bunk Side Cover, pp sink

control panels accessories

Distribution Boxes, panel board labour service

low voltage drives, Energy Savers, high voltage drives, Inverter

Electrical Control Panel Boards, wire ways draw box

We are well known for manufacturing, supplying and exporting of wide variety of Control Relay Panels in India.

We service and design turn-key systems to meet your specifications. Turn key services from initial design to field start-up​ ​Complete design and fabrication of PLC based control systems​ Design specialized control systems built to client’s technical specifications Troubleshoot existing systems ​ Complete panel fabrication shop PLC Programming services including Modicon, Allen Bradley, GE, and other PLC systems​ ​

Digital Temperature Controller, injection moulding components

Access Control System, Addressable Monitor Module, Fire Protection System

Transformers, Injection Moulding, washing machine plastic stand

assembly automation equipment, medical implants, Industries Machine

diesel generator control panel board, ac freezer box, Control Panel Board

auto mobile precision components

We Offer Bamboo Panel Boards. Made of 100% Bamboo