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Control Board - メーカー・企業34社の製品一覧とランキング

更新日: 集計期間:Sep 03, 2025~Sep 30, 2025
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Control Boardのメーカー・企業ランキング

更新日: 集計期間:Sep 03, 2025~Sep 30, 2025
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  1. グロース Kanagawa//Electronic Components and Semiconductors
  2. null/null
  3. 大和エレテック. 本社 Nara//Industrial Electrical Equipment
  4. 4 オクト Ibaraki//Industrial Electrical Equipment
  5. 5 null/null
企業ランキングへ

Control Boardの製品ランキング

更新日: 集計期間:Sep 03, 2025~Sep 30, 2025
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  1. Noise countermeasures in the artwork design of DC/DC converters グロース
  2. Adoption of IPC-A-610 "Acceptability of Electronic Assemblies"! Product Development Case Study 大和エレテック. 本社
  3. Please leave everything from circuit board repairs to selling new and used items to us!
  4. 5 Examples of EMS/OEM/ODM Development in Electronic Devices! [Case Study Materials Available]
  5. 4 CoinMech Bilbari Charging Control Board (CBEZ-Standard) オクト

Control Boardの製品一覧

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Technical Support Case: "Operation Display Board"

Technical Support Case: "Operation Display Board"

Introducing a case study related to the control board. Achieved CAN signal analysis and board creation in a short period.

We would like to introduce a technical case related to our operational display board. We received a request from an authorized dealer of imported motorcycles to create a control board for a lamp that displays the condition of the transmission and vehicle speed of a training motorcycle. Since it is a CAN-equipped vehicle, even adding just one lamp would change the current, leading to a judgment of abnormality and causing the engine to stop. Additionally, there was a concern about not being able to allocate much development budget for CAN analysis work. Our company analyzed the CAN signals and completed the control board in a very short period. As a result, we were able to keep the development costs within budget. It was discovered that interrupting the CAN was not easy but possible, and the customer was pleased to see the potential for developing other products. 【Case Study】 ■ Concerns - Since it is a CAN-equipped vehicle, even adding just one lamp would change the current, leading to a judgment of abnormality and causing the engine to stop. - The number of units to be produced is limited to just two for the time being, and the budget is also constrained. - There is a limitation on how much development budget can be allocated for CAN analysis work. ■ Response - Analyzed the CAN signals and completed the control board in a very short period. *For more details, please refer to the PDF document or feel free to contact us.

  • Circuit board design and manufacturing
  • Contract manufacturing

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IoT-enabled devices with control infrastructure and smartphone apps! [Distribution of system case study materials]

IoT-enabled devices with control infrastructure and smartphone apps! [Distribution of system case study materials]

Examples of sensor measurement systems using Bluetooth and Wi-Fi! In-house integrated support for circuit board and software development!

At KYOWA Engineering Laboratory, we realize the IoT integration of devices through the collaboration of "control boards" and "smartphone applications." By connecting a control board with communication functionality to a device, it becomes possible to send device data to a smartphone. The data collected from the device can be transmitted to a server using the smartphone's internet communication capabilities, allowing for data viewing and management on servers or PC terminals. [Key Points of Our IoT Development] ★ We handle board and software development consistently in-house. ★ Leveraging our experience in MAC development, we specialize in iOS application development. - Sensor measurement systems using Bluetooth/Wi-Fi - Development of communication control boards - Development of dedicated control/viewing applications - Data transfer to cloud servers, etc. ◇ We also have numerous achievements in in-house and contract development! Please feel free to consult with us! ◇ ★ For more details, please refer to the case materials available for download in the "PDF Download" section below.

  • Other network tools

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Bluetooth-based sensor measurement system: IoT development case study

Bluetooth-based sensor measurement system: IoT development case study

We provide consistent support for substrate and software development in-house! For IoT development, please consult KYOWA Engineering Laboratory.

At KYOWA Engineering Laboratory, we realize the IoT integration of devices through the collaboration of "control boards" and "smartphone applications." ■Example: Sensor measurement system using Bluetooth → Development of Bluetooth communication control board and measurement application (iPad) 1. Collect information from various sensors installed on the machine. Control is performed by the control board. 2. Communicate between the machine and the control board using Bluetooth. Information can be viewed from a dedicated application on a tablet. Measurement results are also automatically sent to terminals in offices, etc. 3. Information such as operational status can be viewed in real-time in offices, etc. Information obtained from various sensors is aggregated. ★ We have many other achievements in both in-house development and contract development! ★ For more details, please refer to the case materials available for download in the "PDF Download" section below.

  • Other network tools

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Measurement sensor, iPad and Bluetooth integrated control IoT development case study.

Measurement sensor, iPad and Bluetooth integrated control IoT development case study.

We provide consistent support for substrate and software development in-house! For IoT development, please consult KYOWA Engineering Laboratory.

At KYOWA Engineering Laboratory, we realize the IoT of devices through the integration of "control boards" and "smartphone applications." ■Example: Development of control boards for measuring sensors and Bluetooth integration with tablets (iPads) for measurement applications. 1. Measure the load capacity of transport vehicles using measuring sensors. 2. Share information from the measurement application via Bluetooth through the communication control board. 3. In offices, capture and aggregate vehicle numbers, loading dates, locations, and quantities. Information on work status and movements can be viewed in real-time. ★ We have many other achievements in in-house development and contract development! ★ For more details, please refer to the case materials available for download in the "PDF Download" section below.

  • Other network tools

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Production Line Work Record System IoT Development Case Study

Production Line Work Record System IoT Development Case Study

Consistent support for substrate and software development in-house! For IoT development, please consult KYOWA Engineering Laboratory.

At KYOWA Engineering Laboratory, we realize the IoT integration of devices through the collaboration of "control boards" and "smartphone apps." ■ Case Study: Production Line Work Recording System 1. Record the work details for factories 1 to 3 individually on each tablet. 2. Save all work records to a single cloud for centralized management of multiple lines. 3. Information from each line can be monitored in real-time. ★ We also have numerous achievements in in-house development and contract development! ★ For more details, please refer to the case study materials available for download in the "PDF Download" section below.

  • Other network tools

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Real-time factory operation confirmation system IoT development case study

Real-time factory operation confirmation system IoT development case study

We provide consistent support for substrate and software development in-house! For IoT development, please consult KYOWA Engineering Laboratory.

At KYOWA Engineering Laboratory, we realize the IoT integration of devices through the collaboration of "control boards" and "smartphone applications." ■ Case Study: Real-Time Factory Operation Monitoring System Enables management of real-time operational status of each factory from PCs at various locations. 1. Record and manage the operational status of each factory on their respective PCs. 2. Collect records from each factory via the cloud for centralized management. 3. As a security measure, restrict access to devices that can connect to the cloud, preventing information leakage. ★ We also have numerous achievements in both in-house development and contract development! ★ For more details, please refer to the case study materials available for download in the "PDF Download" section below.

  • Other network tools

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SAMBA head printing control board USB 3.0 communication specification version

SAMBA head printing control board USB 3.0 communication specification version

Printing control board for FujiFilm Dimatix's SAMBA head G3L. Ultra-fast USB 3.0 communication specification version.

Printing control board for FujiFilm-Dimatix SAMBA Head G3L. Ultra-fast USB 3.0 communication specification version. High-speed label printing with the ability to update print data for each print (approximately 8 sheets/second). Print speed of 1m/second with the ability to update different print data for each print. - Equipped with the industry's fastest USB 3.0 communication function. * Maximum 200MB/second print data transfer when connecting one board to USB. * Print memory: 1GB equipped. Next print data can be transferred during printing. - Maximum ejection cycle: 120kHz. Can be synchronized with the transport system encoder. * Head temperature control (external) is possible. - 1200 dpi / water-based, UV, solvent, latex. - VersaDrop capability (multi-drop function). - Head drive waveform generation software is available. - Configurable as a CMYK color printer using multiple heads. - Bitmap data can be used for printing. - Printing control software that makes system construction easy is also provided. * User application DLLs can be supplied. - Ink circulation pump available for SAMBA head.

  • Other process controls

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Ricoh GEN6 head drive control USB 3.0 communication (up to 200MB)

Ricoh GEN6 head drive control USB 3.0 communication (up to 200MB)

Printing control board for Ricoh GEN6 head. Control data communication USB 3.0 (up to 200 MB). Capable of handling different print data at 10 sheets per second.

Printing control board for Ricoh GEN6 head and CMYK color printing control software. Control data communication via USB 3.0 (up to 200 MB). Capable of receiving the next printing data during printing. Can handle different printing data at 10 sheets per second for each print. Even if the "address, product name, name," etc. differ for each print, a printing speed of 60 m/min is possible. Basic Information: 1. The head control and drive AMP for GEN6 consist of two boards. * The connection between the head control board and the drive AMP board can be extended. * Head temperature and board temperature can be measured. 2. Full specification control and drive of GEN6 is possible. 3. Printing data and control use USB 3.0 (up to 200 MB). * As of 2020, this is the fastest in the industry. * Capable of receiving the next printing data during printing. * Can handle different printing data at 10 sheets per second for each print. ⇒ Different printing data is possible even at a printing speed of 60 m/min. * Data communication speed varies depending on the number of computers or boards. 4. Maximum ejection cycle of 50 kHz. Can be synchronized with the transport system encoder. 5. Printing data can use BITMAP data. 6. There is software for generating head drive waveforms.

  • Other FA equipment

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Integrated drive control board for stepping motors.

Integrated drive control board for stepping motors.

It can be mounted on a motor and used as an integrated unit! It is a control board with a built-in microcontroller.

We handle the "Integrated Drive Control Board for Stepping Motors." This product can boost the input from 5V to 24V. It allows for adjustments to the motor drive voltage and motor drive current. Additionally, by simply connecting a sensor and power supply, it can autonomously drive the stepping motor. 【Features】 ■ Stepping motor drive ■ Built-in microcontroller ■ Integrated motor ■ Boosts input from 5V to 24V ■ 2-channel sensor connection *For more details, please refer to the PDF document or feel free to contact us.

  • Circuit board design and manufacturing

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"Contract hardware development" is our specialty in circuit design using FPGA!

"Contract hardware development" is our specialty in circuit design using FPGA!

Through thorough discussions with our clients, we will carry out design and manufacturing that meets your requests and ensures your satisfaction. Of course, our aftercare is also comprehensive!

We mainly handle circuit board design and manufacturing, logic circuit design, and mechanical design and manufacturing. 【Development Examples】 - P-THIN-GEM A neutron detector capable of measuring two-dimensional images of materials using neutrons and TOF (Time-Of-Flight) information. - 8ch-5Gsps-Digitizer Writes analog signals to analog memory at speeds of up to 5Gsps. - BRoaD III A module that facilitates the verification of signal logic, input switching, and comparison of outputs from multiple logic circuits. - ADC-SiTCP An ADC board capable of digitizing 16-channel balanced analog inputs at 40Msps. - Acrylic chamber for moisture supply A discharge experiment case for Kinki University. An acrylic case that allows observation of discharges while supplying moisture. ★ We specialize in circuit design using FPGA (VeriLog) and the development of devices incorporating hardware TCP. *For more details, please feel free to contact us.

  • Other electronic measuring instruments

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Numerous adoption achievements for aerospace applications - power control boards & battery modules.

Numerous adoption achievements for aerospace applications - power control boards & battery modules.

Many achievements in mounting on satellites! The satellite is alive because the power supply is operational. The heart of electronic devices, power control board and battery module [Catalog available].

Numerous achievements in mounting on space probes and satellites! The satellites are alive because the power supply is operational. Here is an introduction to our power control boards and lithium-ion batteries, which have been widely adopted. 【Adoption Achievements】 ◆ The University of Tokyo TRICOM-1R (SS-520:5) ◆ NESTA Hodoyoshi No. 3 and No. 4 (Dnepr), among many others 【Product Introduction】 ◆ Multi-functional lithium-ion battery models ◆ Hodoyoshi-mounted EPS modules, among many others *For more details, please download the catalog or feel free to contact us.

  • Secondary Cells/Batteries
  • Fuel Cells
  • Lithium-ion battery

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Noise countermeasures in the artwork design of DC/DC converters

Noise countermeasures in the artwork design of DC/DC converters

Introducing an experimental study on "How far can we go in countermeasures against pattern noise on circuit boards?"

With the energy-saving of devices and the low voltage of ICs, the use of DC/DC converters with excellent conversion efficiency is increasing. In recent years, DC/DC converters have become very frequently used due to improvements in several drawbacks, including high performance, high functionality, miniaturization, and reduction of external components. However, to effectively utilize them, it is important to minimize noise generation and reduce the impact of generated noise on other circuits. Therefore, assuming that the selection of peripheral components considering noise has been adequately done, we will verify "how much noise countermeasures can be achieved through substrate patterning" with practical examples. *For detailed content of the article, please refer to the related links. For more information, feel free to contact us.

  • Circuit board design and manufacturing

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