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Contract Services - メーカー・企業45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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Contract Services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. アズサイエンス 松本本社 Nagano//Trading company/Wholesale
  2. JAPAN TESTING LABORATORIES Gifu//Testing, Analysis and Measurement
  3. 味の素コージンバイオ Saitama//Raw materials for reagents and chemicals
  4. 4 日本ビジネスロジスティクス(JBL) 藤沢北事業所 Kanagawa//Testing, Analysis and Measurement
  5. 5 コバヤシ コバゾール事業部 Tokyo//Resin/Plastic
企業ランキングへ

Contract Servicesの製品ランキング

更新日: 集計期間:Sep 03, 2025~Sep 30, 2025
※当サイトの各ページの閲覧回数を元に算出したランキングです。

  1. Meets WFI standards! Injectable water suitable for preparing media and buffers, as well as for washing. 味の素コージンバイオ
  2. Liquid compound "Kobazole" コバヤシ コバゾール事業部
  3. JIS C 60068-2-38 Temperature and Humidity Combination (Cycle) Test 日本ビジネスロジスティクス(JBL) 藤沢北事業所
  4. 4 Panasonic Excel Products Co., Ltd. Business Introduction パーソルファクトリーパートナーズ 宮崎テクニカルセンター
  5. 5 Noodle packaging co-extrusion film "PLM-1" 宏栄 大阪本社

Contract Servicesの製品一覧

1096~1110 件を表示 / 全 1170 件

表示件数
Electronic Circuit Design Contracted Services

Electronic Circuit Design Contracted Services

Utilizing a network of over 200 companies for parts procurement and providing consistent support including manufacturing and mass production is our strength!

Our company specializes in circuit design and conducts design and development in conjunction with pattern design and embedded software development. We are also skilled in designing analog circuits such as RF circuits and BLE circuits, and we are capable of developing mixed-signal control boards and communication boards. Additionally, we perform noise-resistant design during the circuit design phase and thoroughly implement noise countermeasures at both the circuit design and pattern design stages. 【Features】 ■ Selection of electronic components and circuit design considering cost and availability ■ Leave noise-resistant design to us ■ Consistent support from circuit design and pattern design hardware areas to embedded software areas *For more details, please refer to the related links or feel free to contact us.

  • Circuit board design and manufacturing
  • Mechanical Design

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Hightex Co., Ltd.

Hightex Co., Ltd.

General labor dispatch of design engineers is also possible! We will support your company's mechanical design.

Hightex Co., Ltd. is a company that engages in contract work for mechanical and electrical design. Starting with the design of press machines, we have conducted a wide range of designs including conveyor machines, machine tools, construction machinery, civil engineering machinery, semiconductor manufacturing equipment, pharmaceutical equipment, and beverage filling equipment. In 2017, we established a local subsidiary in Da Nang, Vietnam, to secure a workforce. 【Main Products】 ■ Contract work for mechanical and electrical design ■ General labor dispatch of design engineers (License No. 17-300224) *For more details, please download the PDF or feel free to contact us.

  • Mechanical Design
  • 2D CAD machine
  • 3D CAD

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電子機器の開発工程全般を対象とした受託サービス

電子機器の開発工程全般を対象とした受託サービス

電子機器の設計/評価/製造プロセスが連携した社内開発体制が強みです」

様々な電子機器製品の全開発工程を自社内で行ってきた経験があり、 ハードウェア設計、ソフトウェア設計、製品評価を社内と協力会社 で対応できます。製品製造のみの受託(EMS)でも、 万が一 設計 上の問題が原因で製品不具合が発生した場合には、今までの多くの 設計経験を活かして、不具合対策への迅速なアドバイスもできます ので、まずは お気軽にご相談下さい。

  • Circuit board design and manufacturing

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Types of spring hardness testing machines, differentiation and precautions during measurement.

Types of spring hardness testing machines, differentiation and precautions during measurement.

[Reproduction of Private Spring Preparatory School Lecture 3] Explanation of the Brinell hardness testing machine! Hard materials are tested with a red signal, and the testing surface is generally flat.

The Katasasa testing machine is primarily differentiated by the size of the spring. ■ Brinell: Used for relatively large items among leaf springs and coil springs. ■ Vickers and Rockwell: Used for medium to small items such as thin plate springs and wire springs, and are also convenient for measuring hardening depth and decarburization depth. ■ Shore: Used for large to medium-sized springs that have been surface-finished, but unlike the previous three, it is characterized by not leaving indentations. Please make sure to use them appropriately, such as not using a deba knife to cut mudfish or a sashimi knife to cut salmon heads. Now, let's focus on the Brinell method among the push-in Katasasa testing machines. If you remember Brinell, Vickers and Rockwell are quite similar, so the points to pay attention to are also similar. *For detailed content of the article, you can view it in the PDF. For more information, please feel free to contact us.

  • Spring

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The invention of the Katasa testing machine in the late Taisho period and the characteristics of Rockwell and Vickers.

The invention of the Katasa testing machine in the late Taisho period and the characteristics of Rockwell and Vickers.

[Reproduction of Private Spring Preparatory School Lecture 8] Explanation of two new hardness testing machines! Inventions of Rockwell and Vickers.

Last time, we studied the advancement of automobiles and the development of the spring industry in the late Taisho period. Now we are entering the Showa period, but two new hardness testing machines were invented in the late Taisho period, which I previously omitted, so I will explain them here. I mentioned earlier that the Brinell hardness tester was invented in 1900, followed by the Shore hardness tester six years later. A little later, in 1919 (the 8th year of Taisho), the Rockwell hardness tester was developed, and six years after that, in 1925 (the 14th year of Taisho), the Vickers hardness tester was invented. Looking at this, we can see that Brinell and Shore were born in the late Meiji period, while Rockwell and Vickers were born in the late Taisho period. *For detailed content of the article, please refer to the PDF. For more information, feel free to contact us.

  • Spring

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Microsphere-based super-resolution optical microscope with a resolution of ≦100nm.

Microsphere-based super-resolution optical microscope with a resolution of ≦100nm.

Optical microscope with a resolution of ≦100nm, capable of non-destructive observation in full color.

It is possible to observe beyond the diffraction limit with spatial resolution below 100nm, allowing for non-destructive, full-color observation of nanoscale structures. It can be used for semiconductor research and development, as well as advanced material imaging, or as an alternative to SEM and AFM. The objective lens can also be sold separately.

  • Optical microscope

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Wireless Noise Monitoring Sensor Unit / MI1NL-6BL

Wireless Noise Monitoring Sensor Unit / MI1NL-6BL

Wireless Noise Monitoring Sensor Unit (Long Range & Wide Area Wireless) / Model Number MI1NL-6BL

The MI1S-413LRW is a LoRa noise level sensor with a built-in microphone. It can measure a wide range of noise levels and transmit various types of noise level values via the LoRaWAN network, as well as support multiple weighted measurements for different applications. Compliant with Milesight LoRaWAN gateways and Milesight IoT Cloud solutions, it allows you to manage all sensor data and easily set alarms for other sensors and devices remotely through a web page or mobile app. The MI1S-413LRW can be widely used in smart buildings, smart cities, schools, and health monitoring.

  • Noise Inspection

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Wireless Illumination Monitoring Sensor Unit / MI1M-611LRW

Wireless Illumination Monitoring Sensor Unit / MI1M-611LRW

Wireless Illuminance Monitoring Sensor Unit (Long Range & Wide Area Wireless) / Model Number MI1M-611LRW

The completely waterproof structure IP67 LoRaWAN (long-range, wide-area wireless) illuminance monitoring device MI1M-611LRW is designed to wirelessly transmit illuminance data in real-time over long distances using LoRaWAN technology. By combining the LoRaWAN gateway with the Milesight IoT Cloud solution, you can visually manage all device data remotely. The communication range of the wireless gateway unit MI1M-611LRWGT is 2 km in urban areas and over 10 km in unobstructed suburban locations, making it suitable for use in large areas and inside buildings. Additionally, one wireless gateway unit MI1M-611LRWGT supports connections with over 2000 various devices from Milesight.

  • Other measurement, recording and measuring instruments

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Manufacturing Contract Development and Development Contract Services

Manufacturing Contract Development and Development Contract Services

We offer a one-stop service for all types of design, including circuit design, FPGA design, PCB design, enclosure design, software design, and environmental testing.

We can embed traceability management along with high-quality technology that meets social infrastructure standards, enabling early response to issues. Please feel free to contact us.

  • Circuit board design and manufacturing

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Large Battery Secondary Battery Life and Capacity Tester "BTA-24V-12A"

Large Battery Secondary Battery Life and Capacity Tester "BTA-24V-12A"

Secondary battery tester compatible with high current. It can perform charge and discharge tests on large batteries.

This is a lifespan and capacity tester that quickly measures the battery life of various secondary batteries used in large batteries for electric bicycles and evangelistic tools, and performs pass/fail judgments. - It conducts various tests such as charging and discharging tests and makes pass/fail judgments. - Equipped with a CPU, it allows for easy setting of various test conditions. - It features a large LCD display, making waveforms and measurement data very easy to read during testing. - It has a built-in printer, allowing test results to be recorded on the spot. - Up to 240 types of batteries can be registered internally, making it easy to select the type.

  • Other measurement, recording and measuring instruments

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[Case Study] High-Density Substrate Inspection in Semiconductor Manufacturing Equipment

[Case Study] High-Density Substrate Inspection in Semiconductor Manufacturing Equipment

Please utilize Takaya's flying probe tester in the high-density substrate inspection process for semiconductor manufacturing equipment.

High-precision inspections compliant with IEC60384-1 are possible. The characteristics of electronic components such as fixed capacitors are guaranteed according to international standards, achieving improved quality for high-density boards. We flexibly respond to design changes and prototypes, providing cost-effective inspection solutions. 【Implementation Achievements】 - Conducted inspections of high-density mounted boards, achieving quality assurance tailored to precision boards. - Enabled inspections compliant with the IEC60384-1 standard (performance standards for fixed capacitors), ensuring product quality in line with international standards. 【Customer Challenges】 Narrow Pitch Between Components: In high-density boards, the space between components is extremely narrow, making physical contact difficult with traditional jig-based inspections. There is a potential decrease in inspection accuracy, especially in narrow pitch areas below 0.2mm and with high pin count components. Need for Compliance with Standards: As compliance with international standards represented by IEC60384-1 is required, a system that reliably implements inspection items based on these standards is necessary. It is particularly important to measure the characteristics of fixed capacitors and special components accurately and quickly. Limits of Inspection Coverage: In designs where the number of test points has decreased, there is a risk of reduced inspection coverage due to insufficient physical access.

  • Circuit Board Inspection Equipment

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[Case Study] Inspection of Large Circuit Boards for Communication Infrastructure and Servers

[Case Study] Inspection of Large Circuit Boards for Communication Infrastructure and Servers

Please utilize Takaya's flying probe tester for the inspection of large circuit boards for communication infrastructure and servers.

In large-scale board inspections for communication infrastructure and servers, jig-less inspection is particularly effective. Even with large board sizes, it can be handled efficiently, and this inspection method combines flexibility and precision, contributing to quality improvement and cost reduction. This significantly contributes to ensuring reliability in the fields of communication infrastructure and servers. 【Implementation Results】 - Established inspection technology tailored to the quality requirements specific to large boards. - Guaranteed the reliability of high-precision boards used in communication infrastructure devices and server products. 【Challenges Faced by Customers】 Handling of large boards: With jig-based testers, designing and manufacturing jigs for large boards is difficult. Due to weight and handling constraints, setup times are prolonged. Response to design changes: Large boards have many test points, and the cost of modifying jigs increases during design changes. The flexibility of the inspection process is low, making it unsuitable for low-volume, high-variety production. Cost and storage space: Jigs for large boards have high manufacturing costs and take up storage space. When operating multiple product lines, managing jigs becomes complicated.

  • Circuit Board Inspection Equipment

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[Case Study] Board Inspection for Power Generation and Power Systems

[Case Study] Board Inspection for Power Generation and Power Systems

Please utilize Takaya's flying probe tester for substrate inspection in power generation and power systems.

By combining electrical testing using APT with AOI, which is difficult for discrete components and hand-inserted parts, we achieve the high quality standards required for power generation and power system boards, providing an efficient inspection system. 【Implementation Results】 - Conducted implementation verification focused on discrete components, achieving quality assurance for power system boards that require high reliability. - Realized 100% inspection on boards including power lines and hand-inserted components. 【Challenges Faced by Customers】 Limitations of AOI Inspection: While AOI (Automated Optical Inspection) excels at inspecting surface-mounted components, it has limitations in the following areas: - Difficulty in inspecting hand-inserted components: It cannot sufficiently verify the quality of the implementation of power lines and large discrete components. - Insufficient confirmation of component position and polarity: AOI cannot accurately confirm electrical characteristics, leading to the risk of missing incorrect insertions or polarity issues. Risks During Power Supply: Defective components or miswiring in power lines can lead to damage to the board or destruction of components. Particularly, if the quality assurance for discrete components is inadequate, the risk of overheating or short circuits increases. Generation of Waste Boards: If the board is damaged during power-on testing, the disposal of defective boards occurs, leading to increased costs.

  • Circuit Board Inspection Equipment

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[Case Study] Circuit Board Inspection for Consumer Products

[Case Study] Circuit Board Inspection for Consumer Products

Please utilize Takaya's flying probe tester for circuit board inspection for consumer products.

In the mass production process of circuit boards for consumer products, conducting constant inspections of chip components and verifying the mounter program before assembly helps prevent lot outs and defective products from being released, achieving both efficiency in the manufacturing process and improved quality. 【Implementation Results】 - In the process of switching models for mass-produced high-density assembly boards, program verification of the mounter and constant inspections of chip components were conducted. - Efficient manufacturing processes were realized through short-duration and high-precision inspections. 【Challenges Faced by Customers】 Component Set Mistakes: There is a risk of component set mistakes during the assembly process or the installation of non-specified components. Particularly in mass production, if mistakes are discovered late, it can lead to a large number of lot outs. Program Mistakes: Due to errors in the mounter's program settings, there is a possibility that incorrect components are installed on the circuit board. If a setting mistake is discovered in a later process, the costs for rework or disposal increase. Limitations of Visual Inspection: Manual and visual checks depend on the skill and fatigue of the operator, making it easy for inspection omissions and false detections to occur.

  • Circuit Board Inspection Equipment

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[Case Study] Defect Analysis of Automotive PCBs and In-Vehicle PCBs

[Case Study] Defect Analysis of Automotive PCBs and In-Vehicle PCBs

Please utilize Takaya's flying probe tester for defect analysis of automotive substrates and in-vehicle substrates.

In the analysis of defective automotive circuit boards, utilizing a flying probe tester enables the rapid identification of defective areas and improves repairability. By shortening analysis time and reducing waste circuit boards, we aim to achieve both quality enhancement and cost efficiency, contributing to increased reliability in the automotive industry. 【Implementation Results】 - Analyzed defective areas of circuit boards determined to be faulty through functional testing or returned from the market due to failures. - Contributed to product improvement and defect reduction through quick identification of causes. 【Challenges Faced by Customers】 Need for Advanced Knowledge: Defect analysis requires knowledge of circuit design, implementation technology, and operational characteristics. In complex automotive circuit boards, the causes can be diverse, making analysis challenging. Prolonged Analysis Time: Manual analysis and visual confirmation can be time-consuming and may fail to identify defective areas. This is particularly difficult in multilayer boards where detecting internal connection failures or fine short circuits is challenging. Generation of Waste Circuit Boards: If defective areas cannot be identified, the entire circuit board may have to be discarded, leading to increased costs.

  • Circuit Board Inspection Equipment

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