Industrial/Robotics
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PSA is a provider of development services for the industrial applications including facilities automation, real-time intelligence, and device networks. PSA solutions are installed in numerous industries: automotive, food, electrical, telephony. PSA is a full-service consulting firm with experience in a variety of industries, including work flow management, financial transactions, multimedia, manufacturing automation, hardware&control systems, technical engineering, and more. |
PSA has successfully completed and delivered a large number of various projects.
PSA selects development approaches which meet specific business objectives of our
customers and help them to organize their business and technology strategies cost
effectively and in accordance with high quality standards. PSA's team of high skilled
professionals has a wide experience of software development using cutting edge technologies
and tools. Some projects accomplished by PSA are described and classified below.
 | Zlinx Xtreme is a new product for transmitting digital or analog data across a wireless network. Project tasks required creation of test cases for testing device functionality and execution of the prepared test cases for the new product. The integral part of the project was also the update of the product documentation including a Quick Start Guide and Instructions. |
 | The SV2 project is to develop firmware version 2.0 of LDV Streamer running on new hardware. The Light Duty Vehicle (LDV) Streamer is a hardware device that enables OEM customers to retrieve the most commonly used parameters from the diagnostic bus of a Light Duty Vehicle. |
 | The project is to develop a system to support the Perdue Business Improvement Process for deboning and portioning departments. The solution will focus on People, Products, and Profitability for these departments by utilizing data collection, trending, and BI reporting. |
Business Improvement Process Data Sheet
Download | Project was to develop firmware for the portable aerosol particle counter device that is used for cleanroom monitoring and facility certification. The LASAIR III device interface features include a VGA color LCD display, touch screen display, sample probe, and a built-in thermal printer. The LASAIR III firmware allows operating with the device as with a stand-alone unit or remotely via browser if the device is connected to an Ethernet network. |
LASAIR III Project Data Sheet
Download| The purpose of this project was to update an inventory control system based on the Oracle tools including the Warehouse Management System (WMS) module. The goal for the project was to reduce the current number of inventory organizations from seventeen consisting of a main warehouse and satellite stores. The new system combines these into two separate systems consisting of one system for Generation and the other for Transmission and Distribution. To improve the tracking and tracing of items within the inventory the system allows printing and applying barcodes to inventory items. To expedite the inventory cycle count process the use of barcode devices is included. |
| During this project a full support of the Modbus protocol for the Serial Server Device with master and slave modes for TCP, RTU and ASCII protocols was implemented. During the project the firmware for the device was created and the internal web server was updated for device configuration. The desktop configuration utility was developed for remote device configuration. |
| This project included development of a 1-bit Framebuffer for UGL (Universal Graphics Library) 1.2 and 2.0, and modification of text objects for data entry, scrolling operations, and visual appearance.
Under VxWorks operating system modifications were made to incorporate the 1-bit framebuffer. |
| The project consisted of updating the existing firmware for Serial Server Devices through adding new partial functionality to a Modbus protocol. The project included design and development of a Modbus gateway with a pass-through Ethernet port. The gateway supports the Modbus TCP server and Modbus RTU serial with Modbus slave devices attached to the serial ports. The gateway allows customers to replace the three box solution with a single box solution. Along with new protocol implementation, the internal web server was updated as well as the desktop utility for remote device configuration and firmware update. The created desktop automated testing utility was developed for testing the solution. |
| The Data from field engineer's hand held control modules are imported into the Data Analysis Software via modem or direct RS232 connection. Once the data is imported a variety of reports and analyses can be generated and performed. During this project PSA assisted in the conversion of the environmental data analysis software from DOS platform using Zinc 4.2 to Microsoft Windows 95 platform using Zinc 5.2. PSA converted the Zinc class library to the newer version and resolved incompatible elements issues. PSA ported the application from DOS to Windows 95 by resolving Zinc portability problems, platform dependent code optimization, and third party library issues resolution. |
| Implant Network Option (INO) is a software option that allows users of Axcelis implanters to monitor and control any implanter in their facility from a network-connected workstation. The implanters are running the full suite of the Implanter Control System software, which includes the INO server. The INO server software accommodates a fixed number of INO client connections and sends each client workstation the implanter Operator Interface screens. The INO application is a client for two different types of servers running on the implanter systems. Each server has a unique communication port and defined communication sequence. This application must respond to user events created through interaction with graphical objects and then communicate with the appropriate server. |
| The project objective was the development of a touch screen GUI (Graphical User Interface) for a weigh and count scale. PSA developed touch screen GUI interface for a weigh and count scale using SMX real-time operating system and Zinc to build the GUI interface. |
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