富士オートメーション Product Lineup

We would like to introduce a case where we developed "EOS," which is part of the alarm concentration display system. This device aggregates alarm contact inputs from each station building and provides branching outputs. It displays the station status and emits alarm sounds (buzzers). The end user is a submarine communication-related company. It was developed as a ceiling-mounted display box. 【Case Overview】 ■ Design Areas: Circuit design available, mechanical design available, software design not available ■ Technologies Used: Aggregation of contact information, station status display, alarm sound emission ■ Tools Used: D2 CAD, AutoCAD ■ End User: Submarine communication-related company *For more details, please download the PDF or feel free to contact us.

• Other safety equipment

We would like to introduce a case of developing an "Alarm Concentration Display Device" at our company. This device aggregates various alarm contact inputs, displays the status, and outputs the status to external devices. Utilizing the technology for aggregating contact information, we developed it using a standalone locker. 【Case Overview】 ■ Design Areas: Circuit Design Yes, Mechanical Design Yes, Software Design No ■ Notable Technology: Aggregation of Contact Information ■ Tools Used: D2 CAD, AutoCAD *For more details, please download the PDF or feel free to contact us.

• Other safety equipment

We would like to introduce a case of developing a "flow switch" at our company. This device controls the power supply to the test equipment by interrupting it through an alarm contact output from the flow sensor. Utilizing the technology for NFB disconnection control via contact input, we also processed a commercially available case. 【Case Overview】 ■ Design Areas: Circuit Design Yes, Mechanical Design Yes, Software Design No ■ Technologies Used: NFB disconnection control via contact input ■ Tools Used: D2 CAD, AutoCAD *For more details, please download the PDF or feel free to contact us.

• switch

We would like to introduce a case of developing a "Laser Printing Monitoring Control Device" at our company. It consists of a control unit that aggregates various sensor information and notifies the upper device via LAN, along with a dust collection box. The control unit is mobile and mounted on a caster-equipped aluminum frame. It supports operation setting control via LAN and monitoring of operational status. 【Case Overview】 ■ Design Areas: Circuit Design, Mechanical Design, Software Design ■ Notable Technologies: Analog Signal Processing, A/D Conversion ■ Notable Components: Pressure Sensor, Temperature Sensor, Mitsubishi Q Series PLC ■ Tools Used: D2 CAD, AutoCAD *For more details, please download the PDF or feel free to contact us.

• Sensors

We would like to introduce a case study of the development of an "electromagnetic measurement device" at our company. This device applies power to various electromagnetic components (such as coils) under different conditions and measures their electromagnetic characteristics. There are two types: a mobile rack type (with casters) and a tabletop type, offering numerous variations depending on the types and combinations of power supplies used for application. 【Case Overview】 ■ Design Areas: Circuit Design, Mechanical Design, Software Design ■ Notable Technologies: Analog Signal Processing, Automatic Collection of A/D Data, High-Speed Conversion of D/A and A/D ■ FPGA Used: XC3S400AN-4TQG144C ■ Microcontroller Used: R8A77800BNBGV, PIC32MX795F512L-80I/PT ■ Tools Used: D2 CAD, AutoCAD ■ End User: Automotive Parts Manufacturer *For more details, please download the PDF or feel free to contact us.

• Other measurement, recording and measuring instruments

We would like to introduce a case study of the development of a "laminator" at our company. This product laminates a film onto one or both sides of printed materials. It is equipped with features such as air suction, motorized paper feeding, film lamination, temperature control for lamination, and paper feeding functions (suction, rollers, cutting). 【Case Overview】 ■ Design Areas: Circuit Design, Mechanical Design, Software Design ■ Notable Technologies: Paper feeding and lamination control using air and motor control ■ Tools Used: D2 CAD, AutoCAD ■ End User: Automotive parts manufacturer *For more details, please download the PDF or feel free to contact us.

• Mechanical Design

We would like to introduce a case of developing a "Multipole Magnetizing Device" at our company. This device magnetizes target components with multiple poles and is available in four types: three-phase 200V, single-phase 220V, 1000 poles, and CE version. The end user is an automotive parts manufacturer. Additionally, we have also mounted the equipment on a mobile rack. 【Case Overview】 ■ Design Areas: Circuit Design, Mechanical Design, Software Design ■ Notable Technologies: Analog Signal Processing, D/A Conversion ■ FPGA Used: XC3S50AN-4TQG144C ■ Microcontroller Used: PIC32MX795F512L-80I/PT ■ Tools Used: D2 CAD, AutoCAD ■ End User: Automotive Parts Manufacturer *For more details, please download the PDF or feel free to contact us.

• Mechanical Design

We would like to introduce a case study of the development of "USB-AMP" at our company. This is a board unit that performs interface conversion between the audio signal (USB) of the control device (PC) and analog audio in a disaster prevention command system. Development was carried out utilizing technologies for analog audio signal processing and USB-to-analog conversion. 【Case Overview】 ■ Design Area: Circuit Design Yes, Mechanical Design No, Software Design No ■ Notable Technologies: Analog Audio Signal Processing, USB-to-Analog Conversion ■ Tools Used: D2 CAD *For more details, please download the PDF or feel free to contact us.

• Circuit board design and manufacturing

We would like to introduce a case study of the development of the "Headset AMP" at our company. This product is a board unit that performs interface alignment between the headset (HS) used by the commander in a disaster response command system and the PC or other devices that handle audio processing. Development was carried out utilizing analog audio signal processing technology. 【Case Overview】 ■ Design Areas: Circuit Design Yes, Mechanical Design No, Software Design No ■ Notable Technology: Analog Audio Signal Processing ■ Tools Used: D2 CAD *For more details, please download the PDF or feel free to contact us.

• Other safety equipment

We would like to introduce a case where we developed a call controller used in a release warning system. This product connects to a voice generation device and performs the transmission and reception of voice signals for microphone broadcasting control and a voice generation device (recording and playback type) using a handset. Development was carried out utilizing analog voice signal processing and control technology with FPGA. 【Case Overview】 ■ Used FPGA: LATTICE LCMXO2-640HC-4TG100I ■ Notable Technologies: Analog voice signal processing, control technology with FPGA ■ Tools Used: SolidWorks, AutoCAD, D2 CAD ■ Design Areas: Circuit design Yes, Mechanical design Yes, Software design No *For more details, please download the PDF or feel free to contact us.

• Other safety equipment

This document summarizes the one-stop solutions for control technology realized by Fuji Automation. We introduce hardware and software that enable total proposals in three areas: manufacturing, quality, and testing. We also explain the one-stop magic that is the true value of Fuji Automation. We invite you to read it. 【Contents】 ■ Total proposals in control technology ■ Hardware design ■ Manufacturing and assembly ■ The true value of Fuji Automation ■ Company overview *For more details, please download the PDF or feel free to contact us.

• Other process controls

We would like to introduce a case where we developed part of the touch panel control for a steam convection oven. Using the recipe function, data can be managed (registered, deleted, read). Communication between the PC and Ethernet is done using COM macros. Additionally, for Wi-Fi connections, it is necessary to configure the registry for Wi-Fi connectivity. If the image (Picture) exceeds the capacity limit, it will not display correctly, and in that case, we will replace it with lamp or switch parts. It cannot be opened with the standard V-SFT, and an environment setup for COMET is required. 【Control Contents】 ■ Manual operation (steam, combi, hot) ■ Automatic cooking (ingredient search, cooking method search, word search, number search) ■ Simultaneous cooking for each layer (group registration, deletion, search) ■ Core temperature recording after cooking, automatic cleaning function, various setting functions *For more details, please download the PDF or feel free to contact us.

• Touch Panel

We would like to introduce a case where we developed a part of the band saw controller control software, specifically the program that controls the operation of the band saw. Depending on the shape of the material, the calculation formulas for the drop position, drop speed, and rotation speed differ. (The turning angle is also taken into account.) The calculations require knowledge of trigonometric functions (sin, cos, tan) and radians. Additionally, control requires consideration of pulses, frequency, and slip. 【Notable Components】 ■ CPU: NP1PU-256E ■ High-speed DI: NP1X3206-A ■ High-speed DO: NP1Y32T09P1-A ■ Inverter: FRN7.5G2S-2J ■ Touch Panel: V9100iC, CUR-06 ■ Sheet Key *For more details, please download the PDF or feel free to contact us.

• Other process controls

We would like to introduce a case where we developed a production device for conducting completion tests of reversible electromagnetic switches. The system consists of three parts: power panel, mechanical panel, and switching panel. It is connected via PLC remote I/O. Test data was sent to the upper PC through the I/F of collection command output and collection completion input via Ethernet. 【Notable Technology】 ■ Cyclic communication without TCP procedures using Ethernet/IP to send and receive the following information: - PLC remote I/O - APR1T: ASR102-351 (TEXIO) - QR: SR-X100 (Keyence) - ROBC: PCON (IAI) ×5 - SOL: EX260-SEN4 (SMC) *For more details, please download the PDF or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce a case study of the development of a factory operation monitoring application at our company. We created a prototype for operation monitoring and daily/regular inspections within the monitoring package. Data registration and reading were performed on the server. Additionally, the operational status was visualized using a Gantt chart, and alarm analysis and overall equipment efficiency were displayed. The daily and regular inspections were digitized, including the inspection tasks, check sheets, and approval flow. 【Technologies Used】 ■ Tools (Ver/OS) ・V-SFT ・Tellus Ver.5 ■ Notable Components ・Touch Panel: X1151iSRD (using the server inside X1) *For more details, please download the PDF or feel free to contact us.

• Other security and surveillance systems

We would like to introduce a case where we developed the program for the intermediate test line of the Fuji Electric Breaker (Fr1 series), specifically for running test 1/2 and operation test 1/2 (modified from the Fr3 series program). Command communication via ASR102-351 (TEXIO) and Ethernet (PROTOCOL STUDIO) is used to execute settings and inquiries (setting information and voltage values). Adjustment of the time until the applied voltage stabilizes is necessary. [Test Contents] ■ Running Test: Running, wipe, operation time, open time ■ Operation Test: Mouth opening, operating voltage, excitation current, open voltage *For more details, please download the PDF or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce a case where we developed a production testing machine to measure the startup characteristics of accessories (reactors) for thermal relays at our company. Voltage values are obtained via command communication through DMM and Ethernet. The time until the applied voltage stabilizes is crucial. While a longer stabilization time leads to more stable values, it generates heat, which can subsequently affect the inspection. 【Features】 ■ CPU: MICREX-SX NP1PM-048E ■ AO: NP1AYH4I-MR (for applied voltage) ■ Touch Panel: V9060iTD ■ DMM: ADC 7355 (Ethernet communication) *For more details, please download the PDF or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce a case where we conducted functional evaluation of the module (NP1AXH4-PT/NP1AXH4-NI) and the thermocouple input module (NP1AXH4-TC) at our company. We confirmed the switch setting function, digital filter function, PV offset function, and factory calibration function. The cold junction compensation for the thermocouple input module (NP1AXH4-TC) was simulated by inputting a resistance value of 459.27Ω. 【Notable Components】 ■ Modules under evaluation ・Temperature resistance module NP1AXH4-PT/NP1AXH4-NI ・Thermocouple input module NP1AXH4-TC ■ Digital resistor ■ Voltage and current generator *For more details, please download the PDF or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce a case of developing a burst pulse generator at our company. Based on the reference pulse from the pulse generator, it outputs as a burst pulse according to a pre-set pulse output pattern. The output is converted to optical output through E/O conversion. Additionally, we also performed processing of commercial cases. 【Tools Used (Ver/OS)】 ■D2CAD (Electrical Circuit) ■AutoCAD ■Microchip MPLAB IDE ver.8.92 ■Microchip TCPIP Stack v5.36 ■Microchip PICkit3 ■Microsoft Visual Studio Professional 2022 ■Microsoft .NET Framework 4.7.2 C# 7.3 *For more details, please download the PDF or feel free to contact us.

• others

We would like to introduce a case of developing the SC-0 intermediate stocker (servo replacement) at our company. The intermediate stocker is a system that is positioned between the upper assembly side and the main body assembly side, facilitating the transportation of parts necessary for each assembly process. With the replacement of the servo motor on the X-axis, we replaced only the control portion of the X-axis in the MICREX-F control program with the MICREX-SX. 【Tools Used (Ver/OS)】 ■D2CAD (4A1094-01) ■PLC: MICREX-F PLC Programmer Standard ■ALPHA5 Smart Loader Software (Ver 4.1) *For more details, please download the PDF or feel free to contact us.

• Other conveying machines

We would like to introduce a case of developing a durability testing machine at our company. The handle drive for conducting mechanical and electrical durability tests on CP and small MCCBs is automatically controlled. Multiple samples of CP/MCCB are operated sequentially using the same power supply and load for durability testing. There are two types of test functions: MLT (no power) test and ELT (powered) test. 【Tools Used (Ver/OS)】 ■D2CAD ■SolidWorks ■AutoCAD ■PLC: KV STUDIO (V9.46) ■Touch Panel: VT STUDIO (V7.05) *For more details, please download the PDF or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce a case of developing a supplementary setting device at our company. This device is a unit that assists in operating the in-vehicle PC within the vehicle for the onboard navigation system. Considering operation with wet gloves, it has water resistance compliant with IPX2. To ensure visibility of the button (name) in the dark at night, it lights up faintly even when not selected. 【Used Technologies】 ■ Tools (Ver/OS) ・D2CAD ・SolidWorks ・AutoCAD ■ Special Technologies ・Drip-proof (compliant with IPX2) *For more details, please download the PDF or feel free to contact us.

• Flight control parts

We would like to introduce a case where we developed a tabletop control panel device used for command control in disaster prevention systems. It is equipped with hard keys (illuminated push-button switches) for reception operations. It also features volume adjustment for audio signals and a level monitoring function (bar LED display). It supports RS232C communication with upper devices, dynamic control of illuminated push-button switches (contact and lighting), and monitoring of audio signal levels. 【Notable Technologies】 ■ Command communication function ■ Upper device ⇔ CONT ■ Notification of switch contact status ■ LED lighting control *For more details, please download the PDF or feel free to contact us.

• Control Panel

We would like to introduce a case where we developed a tire tread device. This device transports tire raw materials (rubber) on a conveyor tray to the next process and collects empty trays. We used tools such as GX Works2 (V1.153K), GT Designer3 (V1.155M), and Setting and Monitoring Tool (V1.7.0). 【Notable Components】 ■ CPU: MELSEC Q03UDECPU ■ GOT: GT1675-VNBD ■ Safety Controller: WS0-CPU000200 ■ Inverter: FR-E720 ■ Servo: MR-J4 *For more details, please download the PDF or feel free to contact us.

• Other mounting machines

We would like to introduce a case of developing a phase control device at our company. This device allows for the setting of parameters such as frequency (50Hz/60Hz), phase angle, operating time, and one-shot/continuous output, and outputs the specified pulse. It is necessary to determine the voltage corresponding to the phase angle, and we confirmed the pulse output according to the time chart in microsecond units. 【Used Technologies】 ■ Tools - SolidWorks - KV STUDIO (V9.12) ■ Notable Components - CPU: KV-3000 - High-speed Meter Relay: AMH-763 *For more details, please download the PDF or feel free to contact us.

• Other process controls

We would like to introduce a case where we modified the software of a testing machine. This testing machine applies current to the workpiece and measures the time from the start of current flow until the workpiece operates, automatically determining the pass or fail based on the operating time. We performed modifications on eight testing machines, including the instant testing machine, thermal testing machines (St1 to St8, 6 types), and resistance measurement testing machines. 【Notable Technologies】 ■Conversion from MICREX-F to MICREX-SX - Instant testing machine - Resistance measurement machine - Thermal testing machine *For more details, please download the PDF or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce a case where we developed a durability testing device. This device is designed to perform mechanical opening and closing durability tests (MLT), electrical durability tests (ELT), and TRIP opening and closing durability tests (TLT) on multiple test specimens (MCCB/ELCB) by operating the handle. The durability tests are conducted by sequentially operating multiple test samples (MCCB/ELCB) using the same power supply and load. It consists of four components: a control unit (equipped with a magnet-fixed POD unit on top), a solenoid valve box, a relay box, and a test stand (modified from an existing setup). 【Used Tools (Ver)】 ■D2 CAD ■SolidWorks ■Standard (V3.0.20.24) ■V-SFT (V6.1.6.11) *For more details, please download the PDF or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce a case where we developed an irrigation control device. This device controls irrigation by opening and closing an electromagnetic valve in conjunction with an image analysis PC. At the end of the control process, it outputs LOG information as a CSV file to an SD card. As a notable technology, we calculated the flow rate using a pulse function instead of the analog function of the flow meter. 【Used Technologies】 ■ Tools: KEYENCE KV STUDIO (Ver.11J), KEYENCE VT STUDIO (Ver.8J) ■ Notable Components ・CPU: KV-NC32T (KV nano) ・Touch Panel: VT3-W4T ・Flow Meter: PF3W704S-03-C-MR *For more details, please download the PDF or feel free to contact us.

• Other water treatment equipment

We would like to introduce a case where a data display panel was developed to show rainfall and water level data. Development was carried out using tools such as D2 CAD, SolidWorks, AutoCAD, and MPLAB IDE (Ver. 8.8.92). Notable technologies include LAN communication with upper devices, display of various numerical data and statuses, command communication functions, and data display to upper devices ⇔ LAN422DISP and 7-segment displays. 【Notable Components】 ■ Microcontroller: PIC32MX795F512L-80I/PT ■ FPGA: XC3S200AN-4FTG256C ■ MCU: Microchip PIC32MX795F512L ■ PHY: Microchip LAN8740A *For more details, please download the PDF or feel free to contact us.

• Other measurement, recording and measuring instruments

We would like to introduce a case where an application was developed to collect/save measurement data from an electromagnetic contactor load testing machine and create graphs from the measurement data. The measurement voltage values were read from a digital multimeter, and contact signals were read from a digital input/output device via USB (using a dedicated driver). Data was graphed using ScottPlot5. 【Measurement Data】 ■ Forward 1, Return 1 - State with no voltage applied to the coil of the electromagnetic contactor (released state) ■ Forward 2, Return 2 - State with voltage applied to the coil of the electromagnetic contactor (energized state) *For more details, please download the PDF or feel free to contact us.

• Other measurement, recording and measuring instruments

We would like to introduce a case where we developed a pneumatic circuit control device to circulate the solution in a decellularized circuit through a diaphragm at a periodic rhythm that mimics pulsation. During control, LOG information is output to the SD at intervals of 5 to 100 ms. Due to the short sampling interval, we enabled long-term LOG collection using a touch panel instead of a PLC. In the wiring of the pneumatic tubes, we have carefully arranged the components and wiring to avoid obstructing the flow of air pressure. 【Notable Technologies】 ■ Air pressure range of pressure sensors - Positive pressure air: 0 to 200 KPa - Negative pressure air: -100 to 0 KPa - Pump air pressure: -100 to 300 KPa *For more details, please download the PDF or feel free to contact us.

• Mechanical Design

This is an introduction to a case where our company developed an "Emergency Switch" for disaster prevention command systems aimed at disaster prevention facilities. It is designed to be mounted on a command desk (tabletop) and serves as a device to manually and forcibly switch the operation systems of command control devices and emergency phones. In this development, we utilized circuit design and mechanical design technologies to create a tabletop product by processing commercially available cases. 【Case Overview】 ■ Product Name: Emergency Switch ■ End User: Various disaster prevention facilities ■ Technologies Used: Circuit Design, Mechanical Design ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• switch

This is an introduction to a case where our company developed a "Common Input/Output Device" for disaster prevention command systems for various disaster prevention facilities. The device was developed to extend the mixing audio and control signals of input/output devices to other input/output devices, thereby expanding the range of audio mixing and control. With one unit of this device, up to 20 input/output devices can be connected, and by connecting up to three units of this device, a maximum of 60 input/output devices can be connected and expanded. 【Case Overview】 ■ Product Name: Common Input/Output Device ■ End User: Various disaster prevention facilities ■ Technologies Used: Circuit design, mechanical design, software design ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• Other FA equipment

This is an introduction to a case where our company developed a "console input/output device" for disaster prevention command systems for various disaster prevention facilities. We perform mixing of audio signals from various control PCs mounted on the command console, the commander's headset, and external devices. We also send and receive control signals through the operation panel and general-purpose DI/DO. We have adopted a configuration that links up to 60 console input/output devices via a common input/output device. 【Case Overview】 ■ Product Name: Console Input/Output Device ■ End User: Various Disaster Prevention Facilities ■ Technology Used: Circuit Design, Mechanical Design, Software Design ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• Other FA equipment

This is an introduction to a case where our company developed a "voice simultaneous reception device" for disaster prevention administrative wireless systems aimed at disaster prevention-related facilities. It was developed as a device for displaying and confirming reception during command reception. We offer two types: one for office use (wall-mounted) and one for duty room use (with a stand). In this development, we utilized our expertise in circuit design and mechanical design to create a product equipped with a reception voice speaker. 【Case Overview】 ■ Product Name: Voice Simultaneous Reception Device ■ End User: Disaster Prevention-Related Facilities ■ Technologies Used: Circuit Design, Mechanical Design ■ Notable Component: Reception Voice Speaker ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• Other machine elements

We would like to introduce a case where our company developed a "portable terminal" to support command activities in external disaster prevention facilities. To accommodate activities such as information gathering and various communications using a laptop, it is equipped with a battery charge and discharge management function. Additionally, it features a waterproof portable case (modified commercial case). 【Case Overview】 ■ Product Name: Portable Terminal ■ End User: Disaster Prevention Facility ■ Technology Used: Circuit Design, Mechanical Design ■ Notable Technology: Battery Charge and Discharge Management ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• Other machine elements

This is an introduction to a case where our company developed a "24-point transmission device (PT-CONT)" for camera control signals for police use. The device was developed to convert and reverse convert contact signals into serial signals when transmitting and receiving contact information for camera control signals via the transmission device. Two types are available: transmitter type and receiver type. In this development, we utilized technologies in circuit design, mechanical design, and software design to finish it as a desktop product. 【Case Overview】 ■ Product Name: 24-point Transmission Device (PT-CONT) ■ End User: Police ■ Technologies Used: Circuit Design, Mechanical Design, Software Design ■ Notable Components ・Microcontroller: R5F51138ADFM#3A (Renesas) ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• Other FA equipment

We would like to introduce a case where we developed a "Wind Speed Alarm Board" for railway companies to monitor wind speed at station buildings. This display board was developed to check the wind speed monitoring status along the tracks, etc., from the station building (such as the station master's office). The status input from the anemometer (contact input) is redundant. In this development, we utilized technologies in circuit design, mechanical design, and software design, finishing it as a wall-mounted product. 【Case Overview】 ■ Product Name: Wind Speed Alarm Board ■ End User: Railway Company ■ Technologies Used: Circuit Design, Mechanical Design, Software Design ■ Notable Component: Omron PLC ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• Other machine elements

We would like to introduce a case where we developed a "temperature display device" for monitoring and controlling air conditioning in communication equipment rooms. This device monitors room temperature and is equipped with a function to trigger an alarm (contact output) when the temperature deviates from a certain range. It also implements control for starting the air conditioning in the event of a power outage in the facility. In this development, we utilized circuit design and mechanical design technologies to finish the product as a wall-mounted type. 【Case Overview】 ■ Product Name: Temperature Display Device ■ Product Description: Monitoring and control device for air conditioning in communication equipment rooms ■ Technologies Used: Circuit Design, Mechanical Design ■ Notable Components: - Temperature Panel Meter: A6228-01 (Watanabe Electric) for DC, A6128-01 (Watanabe Electric) for AC - HA Adapter: VL-JY1 (Panasonic) *For more details, please download the PDF or feel free to contact us.

• Thermometer

We would like to introduce a case where our company developed a "FAX Adapter" for disaster prevention agencies in prefectures. In the disaster prevention system, we developed a product that aggregates information printed from control devices (such as PCs) to FAX and outputs it to FAX. The FAX is connected using public line specifications. In this development, we utilized technologies in circuit design, mechanical design, and software design to realize a desktop product equipped with FAX line control functions. 【Case Overview】 ■ Product Name: FAX Adapter ■ End User: Disaster Prevention Agencies in Prefectures ■ Technologies Used: Circuit Design, Mechanical Design, Software Design ■ Notable Components - DTMF Transceiver: ML7005MB (Oki) - FAX MODEM: MSM7564-01JS (Oki) - MCU for FAX MODEM: MSM66507 (Oki) - Microcontroller: MC68302RC16 (Motorola) *For more details, please download the PDF or feel free to contact us.

• Other machine elements

We would like to introduce a case where a "signal mixing device" was developed for disaster prevention-related facilities. This product is a device that mixes the transmitted and received audio from a radio and outputs it to a long-duration recording device. It was developed using circuit design and mechanical design technologies. Utilizing audio mixing technology, it is configured as a rack-mounted unit. D2-CAD was used as the development tool. 【Case Overview】 ■ Product/Service Name: Signal Mixing Device ■ End User Name: Disaster Prevention-Related Facilities ■ Technology Used: Circuit Design, Mechanical Design ■ Tool: D2-CAD ■ Other: Rack-Mounted Unit *For more details, please download the PDF or feel free to contact us.

• Other machine elements

Here is an example of the development of "NCU" implemented in ATMs for financial institutions. This product facilitates communication between the customer phone on the machine side and the general-purpose telephone on the monitoring center and in-store monitoring device side, as well as sending messages to pagers. The communication line for calls uses either an analog public line or an ISDN line. It is developed using circuit design and software design technologies. 【Case Overview】 ■ Product/Service Name: NCU ■ End User: Financial Institutions ■ Technology Used: Circuit Design, Software Design ■ Microcontroller: HD6412352TE (Hitachi) ■ Tool: D2-CAD *For more details, please download the PDF or feel free to contact us.

• Other machine elements

We would like to introduce a case of developing a "control power panel" for water disaster prevention-related equipment. This product is a device that supplies power to rotating lights and performs restriction processing during abnormal situations. It is available in wall-mounted and rack-mounted types. Additionally, it was developed using circuit design and mechanical design technologies. The development tools used are D2-CAD and Auto-CAD. 【Case Overview】 ■ Product/Service Name: Control Power Panel ■ End User Name: Water Disaster Prevention Related Equipment ■ Technologies Used: Circuit Design, Mechanical Design ■ Form: Wall-Mounted Unit, Rack-Mounted Unit ■ Tools: D2-CAD, Auto-CAD *For more details, please download the PDF or feel free to contact us.

• power supply

We would like to introduce a case where we developed a "Control Power Panel" for water disaster prevention-related equipment. This product is a device that converts control outputs from PLCs and other sources into contact outputs with either no voltage or superimposed voltage. It was developed using circuit design and mechanical design technologies and is configured as a rack-mounted unit. 【Case Overview】 ■ Product/Service Name: Control Power Panel ■ End User Name: Water Disaster Prevention-Related Equipment ■ Technology Used: Circuit Design, Mechanical Design ■ Tools: D2-CAD, Auto-CAD ■ Other: Rack-Mounted Unit *For more details, please download the PDF or feel free to contact us.

• power supply

We would like to introduce a case study of the development of a "Smart 4-Digit LED Display Board" for hospitals. This product is a terminal that displays call numbers and provides voice guidance for waiting in line at hospitals. It was developed using technologies in circuit design, mechanical design, and software design. It supports information transmission via LAN and the generation of voice guidance. The MP3 audio playback uses the VS1011e-L. 【Case Overview】 ■ Product/Service Name: Smart 4-Digit LED Display Board ■ End User: Hospitals ■ Technologies Used: Circuit Design, Mechanical Design, Software Design ■ Notable Components: MP3 Audio Playback VS1011e-L, PIC Microcontroller ■ Tools: Auto-CAD, SolidWorks, D2-CAD *For more details, please download the PDF or feel free to contact us.

• Display