MACOME CORPORATION Product Lineup

At an automotive safety inspection company, the steering wheel rotation angle of vehicles was measured using optical sensors. However, due to issues such as light scattering and dust accumulation, "missed reading" errors occurred, leading to an increase in the number of tests and a significant decrease in work efficiency. There were requests for "sensors that are not affected by external disturbances" and "keeping the introduction costs as low as possible." The linear encoder system "SI-140 series" that we recommend consists of the magnetic detection head "SIE-140" and the magnetic scale "SIS-140." Installation is simply a matter of wrapping the "SI-140" around the steering axis of the vehicle. The number of measurement tests, which previously took 5 times, has been reduced to just 2, less than half. This has compressed the testing work and time, decreased "missed reading" errors, and improved testing accuracy. *For more details, please refer to the PDF document or feel free to contact us.

• encoder

The accuracy of the aluminum work cutting machine was unstable, leading to unnecessary work due to the need for accuracy checks every time. We are considering the introduction of a photoelectric system, but it was mentioned that "there is a possibility of false detection due to aluminum dust." We received requests such as "we want a scale that is not affected by aluminum dust" and "we don't mind an accuracy of about 0.1mm, but we want to keep the introduction costs low." Therefore, we installed the "SI-140PAC (Incremental)" made by Makome Research Institute on the aluminum cutting machine. As a result of the improvements, we reduced unnecessary inspection time and achieved zero in inspection time, inspection downtime, and inspection line downtime. *For more details, please refer to the PDF document or feel free to contact us.

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• Distance measuring device

We manufacture approximately 40,000 iron balls with a diameter of 10φ every day, and among them, defective products (magnetized iron balls) are mixed in. Currently, only random sampling inspections are conducted, which allows defective products to escape. There was a request for "monitoring of magnetized iron balls on the automated line" and "to maintain a detection distance of 30mm between the detection object and the sensor due to the line structure." We installed the guide sensor "GS-116" manufactured by Makome Research Institute on the line conveyor, enabling the detection of the magnetic field of the iron balls and their expulsion (although this depends on the strength of the magnetic field). As a result of our improvements, we achieved a loss amount of zero for full inspections during the occurrence of defective products. *For more details, please refer to the PDF document or feel free to contact us.

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We have been using a stirrer for drug formulation, and until now, we managed the mixing process by timing it with the stirrer's button. Although we adjust the stirring time based on seasonal conditions, managing it by time means that any malfunction could lead to insufficient mixing and result in product defects. There have been requests such as "I want to monitor whether the stirrer is definitely running" and "I want to manage the stirrer's rotation speed and shorten the changeover time." We installed the magnetic proximity switch "DW-100" manufactured by Makome Research Institute on the stirrer, placing the "DW-100" next to the stirrer shaft, and affixing the magnetic bodies "SMG-100N" and "SMG-100S" around the shaft. As a result of this improvement, by installing the "DW-100," we can now manage the count of the stirrer, making the changeover process smoother. *For more details, please refer to the PDF document or feel free to contact us.

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At a wood processing manufacturer, there were frequent troubles with the conveyor for transporting "particle boards (3×6 feet × 80 sheets/1 lot)." There were requests such as, "The conveyor's top chain reaches its material lifespan at 1,650 rotations, so we want to replace it before then," and "We want a sensor that can reliably count so that we can ensure it is worn out by 1,650 rotations." Therefore, we installed the magnetic proximity switch "DW-350" made by Makome Research Institute under the conveyor and attached the magnetic body "SMG-100N" to the top chain. As a result of the improvement, by installing the "DW-350," we were able to manage the count of the top chain, transitioning from reactive maintenance to preventive maintenance. *For more details, please refer to the PDF document or feel free to contact us.

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At one point on the production line, frequent troubles (chocolate stops) were occurring, and during these troubles, the line could not be stopped, causing the work from the previous process to enter the trouble area and become defective. We wanted to introduce AB control, so we summarized the current issues, which revealed three main factors: "troubles are not detected, and work is being input," "work continues to flow even while workers are engaged in recovery operations, making it unsafe," and "the working environment is poor, and the photoelectric sensor is not detecting." Therefore, we installed the positioning sensor "PS-4482" from Makome Research Institute on the line conveyor and the magnetic body "MG-102A" on the work pallet. As a result of the improvements, we achieved a work loss amount of 0 yen and realized a cost reduction of 26,568,000 yen per year. *For more details, please refer to the PDF document or feel free to contact us.

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We have adopted the "Kanban production system" and produce 15 varieties of products on one line, but on busy days, up to 8 "changeovers" are required. After recording the changeovers on video and analyzing the situation, it was found that the "overall equipment efficiency" and "net operating rate" were declining. Therefore, we held discussions with the maintenance design team and automated the changeover process. We installed Makome Research Institute's linear encoders "SIE-140 (incremental)" and "SAE-200 (absolute)" on the motor-driven thickness adjustment machine. As a result of the improvements, the operating time rate increased, and changeover losses were transformed into production that generates revenue. The initial investment was 4,852,600 yen, but the cost-effectiveness improved the monetary loss in about 13 operating days. *For more details, please refer to the PDF document or feel free to contact us.

• encoder

GS-500 Series This is a guide sensor compliant with CAN2.0A (ISO-11898-1). ■ Straight guidance mode output ■ Left and right branching mode output ■ Parallel (15bit) output are continuously output, allowing for the appropriate signals to be captured as needed! Additionally, the detection surface and cable exit direction can now be selected! ▶ This is expected to provide flexible support for compact and low-floor vehicle designs. The blue anodized case is fully metal (IP67 structure) and has a robust construction. A standard digital-analog output type is also available. If you have a course equipped with our sensors, it can be used as is. *For more details, please refer to the PDF document or feel free to contact us.

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The detection body consists of two components: the "sleeve" and the "probe." A high-frequency magnetic field is generated on the probe side, creating electromagnetic induction coupling with the sleeve. When the sleeve displaces relative to the probe, changes occur in the electromagnetic induction coupling, which are converted into voltage output (the relative position of the sleeve and probe is output as a displacement amount in the range of 1-5V). Since the sleeve and probe have a completely non-contact structure, there is no deformation or failure due to friction. 【Main Features】 - Two models available: the integrated detector 'ET-850' and the separated type 'ET-851A.' - The probe is made of stainless steel, ensuring both robustness and durability. - The protective structure complies with IP-67, providing high dust and water resistance. - Power supply voltage: DC 10-30V. Custom options available for mounting and shape. An image of a differential transformer (LVDT) reversed. *For more details, please download the catalog or contact us.*

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The detection body consists of two components: the "sleeve" and the "probe" of the detection part. A high-frequency magnetic field is generated on the probe side, creating electromagnetic induction coupling between the sleeve and the probe. When the sleeve displaces relative to the probe, changes occur in the electromagnetic induction coupling, which are converted into voltage and output (the relative position of the sleeve and probe is output as a displacement amount in a voltage range of 1-5V). Since the sleeve and probe have a completely non-contact structure, there is no deformation or failure due to friction. 【Main Features】 ■ Two models available: the integrated detector 'ET-850' and the separated type 'ET-851A' ■ The probe is made of stainless steel, ensuring both robustness and durability ■ The protective structure complies with IP-67, providing high dust and water resistance ■ Power supply voltage DC10-30V ■ No need for origin return after a power outage *For more details, please download the catalog or contact us.

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■ It uses an optical sensor, but it requires regular cleaning, which is a hassle. ■ It uses a mechanical switch, but due to the high number of operations, the replacement frequency is high. ■ I want to detect from a bit further away. ■ I want to detect through obstacles (non-magnetic materials). There are environments suitable for magnetic sensors. Furthermore, magnets have N-pole and S-pole polarities. In general proximity sensors, only ON/OFF signals can be extracted, but with magnetic sensors, N-pole and S-pole signals can be extracted individually. Depending on the idea, it is possible to implement both hardware and programming. As application examples: ◎ Deceleration (N-pole) / Stop (S-pole) ◎ Stop (N-pole) / Emergency Stop (S-pole) ◎ Addition (N-pole) / Subtraction (S-pole) It can also be used to utilize address codes as three-value codes. Why not switch to maintenance-free Makome sensors? *For more details, please download the PDF or contact us.*

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■ It uses an optical sensor, but it requires regular cleaning, which is a hassle. ■ The optical sensor cannot be used in environments where dust and mist are constantly present. ■ It uses a mechanical switch, but due to the high number of operations, it needs to be replaced frequently. ■ I want to avoid mechanical switches for waterproofing reasons. ■ I want to detect from a bit further away; detection over 100mm is possible. ■ I want to detect through obstacles (as long as they are non-magnetic materials, there is no problem). ■ Detection is not possible due to freezing or condensation. Are you facing any of these issues? There are environments suitable for magnetic sensors. Additionally, magnets have N-pole and S-pole polarities. While general proximity switches can only output ON/OFF signals, magnetic sensors can individually output signals for N-pole and S-pole. With some creativity, hardware and programming are also possible. For example, you can use it for deceleration (N-pole), stop (S-pole), stop (N-pole), emergency stop (S-pole), and you can also use address codes as a ternary code. Completely non-contact. Would you like to switch to a maintenance-free, long-lasting Makome sensor? Length measurement, rotational measurement, direction of movement detection.

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It is designed to prevent permeation as much as possible. If you are experiencing issues due to permeation, please feel free to consult us. We also have samples available, so don't hesitate to reach out. *Test results available for FGE231N.

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There are adoption results in various fields, including food machinery that requires hygiene, as well as medical, maritime, and port-related applications. We can accommodate custom requests for cases made from other materials. If it is a non-magnetic material (one that does not stick to magnets), we can use any case material. We also have experience with titanium cases, ceramic cases, etc. Please inquire about SUS316, and if requested, we can also produce cases made of pure gold. Maintenance-free, long-lasting, and robust.

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Operating temperature range: -40 to +80℃ Although it is a custom order, it can be accommodated up to 100m without cable extension. Please consult with us. We have numerous achievements in cold storage and refrigerated ships. If you are looking for products that exceed the operating temperature, please consult with us separately. We will consider whether we can accommodate your request.

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By separating the detection unit and the circuit unit (up to 10m), it can be used continuously even in environments of 150°C. Aside from the heat resistance temperature, there are no significant differences in specifications compared to our standard sensors. In any case, since there are many custom elements involved, we would like to hear your desired specifications and propose a sensor suitable for your usage environment. Please feel free to inquire about low-temperature specifications as well.

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Makome Research Institute is releasing publicly available CAD data. dxf (DXF), igs (IGS), stp (STP) 3D data will be added and released as needed. If it is not listed, we will respond on a case-by-case basis, so please let us know. We will create and provide it as quickly as possible. (Please note that some products may not be available for specific users.) While the CAD data is created with the utmost care, we make no guarantees regarding its content. In the event of any omissions or errors in the CAD data information, Makome Research Institute cannot provide any guarantees. *For more details, please contact us.

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Automated warehouses, elevators in high-rise buildings, conveyors, etc. are suitable for long-distance measurement where laser measurement and wire-type or contact-type encoders cannot be used. Additionally, scales can be attached to curved surfaces for measurement (there are limitations on the radius that can be measured). Non-contact displacement sensors.

• Weighing Control

Our company is a specialized manufacturer of magnetic application sensors. 【Do you have any of these thoughts?】 - We can't send all our employees to the exhibition. - We went to the exhibition, but we couldn't take our time to look around. - We want to share product information with all our employees because it seems useful! In response to such voices, we will hold a "mobile exhibition." 【What is a mobile exhibition?】 We will hold a mini-exhibition in your company's conference room, cafeteria, or other space. A space for 1 or 2 long tables is sufficient. The duration can be discussed, ranging from half a day to several days. (It can also be held during lunch breaks or after working hours.) As a company that values sincere interactions with our customers, we have created an opportunity for you to talk with us at your leisure. If you have any concerns regarding sensing, please feel free to consult us. *For more details, please download the catalog or contact us. Products we handle: - Magnetic linear encoders (magnetic scales) - Incremental and absolute - Guide sensors for automated guided vehicles (AGVs) - Magnetic tape (guide tape) for automated guided vehicles - Various magnetic sensors, magnetic induction sensors - Magnetic proximity switches, inclinometers

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Since it uses magnetism, it is resistant to dirt and can be used outdoors as well. It is equipped with separate outputs for the N pole and S pole of the magnet. It also supports extension without cable connections (custom orders available). If you wish to use it fully submerged, please consult us. We will introduce products that match your environmental specifications. (New development may occur due to custom orders/IP-68, etc.) If you have any other questions, please feel free to contact us.

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Magnetic cards can be easily introduced. They are durable enough for outdoor use. There are many successful implementations in parking lots and bicycle parking areas. Such as the machine's start switch. Due to the transistor output, conversion to relays is also easy. Among the many high-capacity cards, this is perfect for applications where it is sufficient to record just an address code. Parallel output of 12 bits (which allows for 4096 combinations in binary). It can be used in various places depending on the idea.

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What a third installment! In the product catalog of magnetic sensors manufactured by Makome Research Institute, there is an item labeled "Response Frequency (Frequency Characteristics)." There are similar items in the product catalogs for "Linear Displacement Sensors" and "Rotary Angle Detection Sensors," and I believe many people find this unclear. Generally, it would be "response speed for linear displacement" and "response rotation speed for rotary angles," but at Makome Research Institute, the term "frequency" is used. This time, I would like to consider how the frequency, commonly used in the electrical world, translates to "displacement." *For more details, please download the catalog or feel free to contact us.*

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This document introduces some trivia about magnetism. It includes diagrams to explain self-demagnetization and the relationship between the thickness of a magnet and magnetic flux density. Additionally, it provides a detailed explanation of the essentials of magnetic measurement. 【Contents】 ■1. Essentials of Magnetic Measurement ■2. Characteristics of Permanent Magnets *For more details, please refer to the PDF document or feel free to contact us.

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This document introduces interesting facts about magnets. Permanent magnets are commonly used around us, but there are surprisingly many things we may not know about them. We will explain the properties and characteristics of permanent magnets, along with questions such as, "Do permanent magnets have a lifespan?" and "Are there materials that do not conduct magnetism?" [Contents] 1. What is a permanent magnet? 2. Magnetic flux density of permanent magnets and distance *For more details, please refer to the PDF document or feel free to contact us.

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This document introduces case studies of the magnetic proximity switch 'SW-370'. The 'SW-370' magnetic proximity switch from Makome Laboratory features a metal case that is resistant to ultraviolet light and meets the waterproof and dustproof rating of "IP67". Additionally, its structure does not have mechanical contacts, allowing for maintenance-free and stable use over long periods. It is also actively used in parking lots of condominiums. We have included actual feedback from customers who have implemented it. *For more details on the case studies, please refer to the PDF document or feel free to contact us.

• Safety switch

This is an M12 size N-pole detection type magnetic proximity switch. It detects the magnetic flux from the magnet and operates ON/OFF, boasting stable operation as a replacement for conventional mechanical limit switches. With a protection structure of "IP-67," it boasts excellent water resistance. The main body is threaded, making height adjustment during installation easy. 【Main Features】 ■ M12 size DC 3-wire N-pole detection type ■ Equipped with an operation indicator light on the sensor body ■ Non-contact detection type that eliminates issues such as wear degradation and foreign object entrapment ■ Utilizes a unique magnetic detection element, achieving both high sensitivity and noise resistance ■ Reacts only to magnetism, preventing false detection from different metals and unaffected by cutting chips or mist Evaluation samples are available. *Please contact us for more details.

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"MP-620 Series" Linear Displacement Sensor Utilizing multiple uniquely developed detection elements called "saturable coils," it detects the relative position to the detection body (magnet) non-contactly and provides linear output (voltage/current). Since each detection element captures the positional changes of the detection body (magnet), disturbances in output due to vibration or shock are almost nonexistent. The sensor part and the detection body are completely separated (8mm ± 2mm), preventing the generation of wear particles from contact. It is also suitable for absolute position detection of magnets embedded in oil pneumatic cylinders, etc. (Absolute). Ideal for measuring displacement in robotic arms and similar applications. 【Main Features】 ■ Power supply voltage DC +24V ■ Output MP-620 (voltage output 1-5V) MP-621 (current output 4-20mA) ■ Effective length 100mm to 800mm * Please consult for lengths over 800mm (maximum support up to 1600mm) ■ Repetition accuracy within 0.1mm ■ Capable of detecting various magnets compared to our conventional linear displacement sensors * Adjustments may be necessary. ■ Compared to our sleeve sensors, it has very little dead space and is compact. * There is also a small type MP-4731 with a 15mm stroke.

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This is an inclination angle detector using MEMS. It detects a range of ±180° and outputs an analog signal corresponding to the angle. Additionally, the output zero point value can be set after installation. 【Main Features】 ■ A compact and easy-to-handle ±180° inclination (rotation) angle sensor ■ Allows for a 0° preset after installation, eliminating the need for troublesome initial value adjustments ■ Protection structure: IP-67 For ±180 degrees, it outputs a sawtooth wave of either 4-20 mA or 1-5 V.

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This is a magnetic proximity sensor with a separate detection head and detector. It detects the magnetic flux of a dedicated magnet and can obtain an analog signal proportional to the magnetic flux density, which is then used for switching output. With a detection distance of 1 to 3 mm and a repeatability precision of ±1 μm, it enables fine on/off operations, achieving high-precision positioning. Of course, since it uses a magnetic detection method, it can operate stably and accurately even in harsh environments with dirt and dust. 【Main Features】 ■ Type with a separate detection head and detector ■ Power supply voltage: 'LS-106S' supports DC +12V, 'LS-127' supports DC +24V

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This is a magnetic switch designed to detect the center of the origin position of precision moving tables with high accuracy. It outputs a switching signal at the center of the magnetizing body for detection, achieving a high repeatability accuracy of ±0.05 micrometers. Due to its magnetic detection method, it is unaffected by dirt and dust, and it fully complies with the protective structure "IP67," providing excellent environmental resistance such as waterproofing and dustproofing. The 'HS-320' and 'HS-321' models are widely used for thermal expansion compensation in ultra-precision machining equipment. 【Main Features】 - The detection head is compact at Φ3mm×17mm, allowing for flexible installation positions. - Connected by a 500mm long cable from the detection head to the detector. - The 'HS-320' has an output format of NPN transistor open collector output (normally open). - The 'HS-321' has an output format of PNP transistor open collector output (normally open). *For more details, please contact us.

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It detects the magnetic flux from the magnet and operates in on/off mode. It adopts a sealing design case compliant with the protection structure "IP67." The case itself is plated with brass, ensuring stable use in harsh environments and suppressing corrosion due to aging. Our self-developed magnetic detection element is highly sensitive and has excellent noise resistance compared to general Hall ICs and magnetoresistive elements. There are both DC and AC types available. 【Main Features】 - M12 size, DC/AC two-wire N-pole detection type - The sensor body has screw threads, making height adjustment during installation easy - Non-contact detection type eliminates issues such as wear-related degradation and foreign object entrapment - The detection distance can be freely set according to the magnetic force of the magnet, allowing multiple sensors to be used in parallel without mutual interference Evaluation samples are also available. *For more details, please contact us.

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This is an 8-bit output type address sensor (spot mark reader) that identifies the position of an unmanned transport vehicle. It detects address magnets with arbitrary information (0-255) written on them and performs vehicle control (branching, stopping, accelerating, decelerating, etc.) based on the current location information. Since it reads as an absolute value, it is less likely to skip addresses. 【Main Features】 - The address code can identify 256 codes in 8-bit binary. - Adopts a mobile reading method, allowing reading while the unmanned transport vehicle (AGV) is in motion. - Available with N-pole 'SMR-2352H2-N' and S-pole 'SMR-2352H2-S'. - The spot mark reader equipped with reading timing output reads information when positioned directly above the address magnet plate during movement. - The address magnet plate (address marker) can be selected from yellow and green laminates. - Easily usable when a large capacity RFID IC chip is not required. - Suitable for environments where barcodes cannot be used due to dust and other influences. For approximate model numbers like SMR-2352H RB, please inquire. *For more details, please contact us.*

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This is a 6-bit output type spot marker reader that identifies the position of unmanned transport vehicles. It detects address magnets with arbitrary information (0-63) written on them and performs vehicle control (branching, stopping, accelerating, decelerating, etc.) based on the current location information. Since it uses binary code parallel output, signal processing is also easy. Because it uses absolute addressing, there is no skipping like in counting-up methods. *If you are currently using this with your AGV, please consult with each manufacturer. 【Main Features】 - Designed for unmanned transport vehicles (AGVs), it adopts a mobile reading type. - The spot marker reader and address magnet plate are non-contact types. It is equipped with a clock signal to read when the spot marker reader is positioned directly above the address magnet plate while in motion. - Compared to the higher model 'SMR-2352H2', the main body size has been reduced by about 60% in width, making it suitable for cases where the amount of information required is not as high as RFID. *For more details, please download the catalog or contact us.

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This is a 2ch switching type (individual polarity) address sensor that is used in combination with the dedicated address magnet plate 'SMG-100'. It has two output lines, and depending on the polarity of the magnet as the sensor passes over the magnet plate, either the N or S pole output line will turn ON. It is suitable for simple vehicle control such as acceleration, deceleration, and braking of automated guided vehicles (AGVs), providing stable guidance that is not affected by dust or debris. It is very compact, allowing for high flexibility when integrating into AGVs and similar applications. 【Main Features】 ■ Two types: Normal Open 'SMR-100C' and Normal Close 'SMR-100C-P' ■ Completely non-contact type with a detection range of 15 to 40 mm ■ Capable of polarity discrimination, not just the presence of a magnet, but also whether there is an "N pole (or S pole)" ■ Sensitivity adjusted to match the dedicated address magnet plates 'SMG-100 (N)' and 'SMG-100 (S)' ■ There is also a 1-bit information type (detecting either N or S pole) 'SMR-50B' *For more details, please download the catalog or contact us.

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The "Mako Major System" is an incremental magnetic linear encoder system. The "SI-140 System" consists of the magnetic detection head "SIE-140" and the magnetic scale "SIS-140," designed to be compact and lightweight, allowing for a large non-contact detection distance between the head and scale, with a wide tolerance for variations in detection distance. It features AB phase output and line driver output. A display unit is also available. *It can replace optical encoders, contact encoders, wire encoders, etc. *For more details, please download the catalog or contact us.

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The "SA-200 System" is an absolute linear encoder system that employs a compact dedicated head. It comes as a set with a dedicated scale measuring 65mm in width, 20mm in height, and 25mm in depth. The detection distance of the head can achieve 0.3 to 1.6mm when the material of the mounting base is magnetic. Due to its absolute detection capability, it can be re-measured without returning to the origin after power is restored. 【Features】 ■ It is a non-contact absolute scale system that allows for a large distance between the scale and the head. ■ Measurements are unaffected by dust and debris due to magnetic detection. ■ The system is available with varying detection distances and resolutions. *Sample lending available *For details, please contact us or download the PDF materials.

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It is a non-contact incremental scale system that allows for a large distance between the scale and the head. Measurements can be taken without being affected by dust, dirt, etc., due to magnetic detection. 【Features】 - It is a non-contact incremental scale system that allows for a large distance between the scale and the head. - Measurements can be taken without being affected by dust, dirt, etc., due to magnetic detection. - The system is prepared based on detection distance and resolution. *Sample lending is available. *For details, please contact us or download the PDF materials. Also familiar as the Makome Scale.

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This is a non-contact incremental magnetic scale system that allows for a large distance between the head and the scale. It can measure length without being affected by dust or debris for magnetic detection. It features the smallest head among our magnetic detection scales. The detection head is compact, measuring 30mm in width and 32mm in height. By combining it with a dedicated scale, a compact length measurement system can be constructed. The large detection distance between the head and the scale, along with the tolerance for variations in detection distance, increases design flexibility. 【Features】 - Non-contact incremental scale system that allows for a large distance between the head and the scale. - Length measurement is possible without being affected by dust or debris for magnetic detection. It can detect through non-magnetic materials such as brass, aluminum, plastic, and stainless steel (e.g., SUS303). - Waterproof structure (IP-67), with proven applications in food processing machinery. *Sample loans available. *For more details, please contact us or download the catalog. CAD data is available. There are many successful replacements from discontinued optical encoders! *VP-90 Easy Scale.

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In the 3D printer industry, accurate dimensions and high layering precision of printed objects are required. Especially when manufacturing complex shapes or precise parts, even slight errors can significantly impact product quality. To achieve accurate layering, it is necessary to precisely control the material supply and the position of the head. The SI-140PAC facilitates measurements to improve the layering precision of 3D printers with its digital display in 0.1mm increments. 【Usage Scenarios】 - Adjusting the platform height of 3D printers - Measuring the dimensions of printed objects - Checking the layering pitch 【Benefits of Implementation】 - Improved layering precision - Reduction of defective products - Shortened working time

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In the printing industry, precise alignment is essential for producing high-quality printed materials. Especially in cases requiring multi-color printing or intricate processing, even a slight misalignment can significantly affect the product's quality. Manual alignment is time-consuming and labor-intensive, and it is also prone to human error, which can lead to decreased work efficiency and an increase in defective products. Our linear encoder package products facilitate accurate alignment through digital displays, contributing to improved work efficiency and quality. 【Usage Scenarios】 - Position adjustment of printing machines - Positioning of cutting machines - Alignment in inspection processes 【Benefits of Implementation】 - Increased efficiency in alignment tasks - Quality improvement through enhanced precision - Reduction in defective products

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In the textile machinery industry, accurate measurement of yarn feeding is a crucial factor that affects product quality and production efficiency. By properly managing the tension and speed of the yarn, it is possible to maintain uniform product quality and suppress the occurrence of defects. Traditional measurement methods often lead to measurement errors and increased labor, which can result in decreased productivity. Our linear encoder package achieves high-precision measurements in 0.1mm increments, making the digitalization of yarn feeding easier. 【Application Scenarios】 - Measurement of yarn feeding speed - Adjustment of yarn tension - Management of yarn position in weaving machines 【Benefits of Implementation】 - Improved measurement accuracy - Reduced working time - Stabilization of product quality - Decreased defect rate

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In the medical device industry, precise positioning and operation are required. Particularly in situations where accuracy below the millimeter level is demanded, such as in surgical assistance robots and inspection devices, accurate position measurement is essential. Conventional measurement methods may lead to measurement errors and operational issues. Our linear encoder package, equipped with a 0.1mm display, can be used immediately with an AC100V power supply. Non-contact measurement minimizes the influence of dirt and provides accurate position information in digital format. 【Application Scenarios】 - Position control for surgical assistance robots - Position adjustment for precision inspection devices - Shape accuracy management for medical 3D printers - Position control for cell culture devices 【Benefits of Implementation】 - Improved operability through high-precision position measurement - Enhanced reliability through non-contact measurement - Improved visibility through digital display - Increased work efficiency

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In the packaging industry, accurate filling operations are required to maintain product quality and improve work efficiency. In particular, excess or insufficient content can lead to quality issues and increased costs. Additionally, manual filling operations require time and effort, which can result in decreased productivity. Our linear encoder package enables precise measurement of filling amounts through digital display, enhancing work efficiency. 【Usage Scenarios】 - Integration into packaging machines - Content adjustment - Product quality management 【Benefits of Implementation】 - Quality improvement through accurate management of filling amounts - Increased productivity by reducing work time - Cost reduction by minimizing defective products

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In the food processing industry, accurate measurement and management of filling quantities in the filling process are crucial factors that influence product quality and yield. In particular, preventing foreign matter contamination and maintaining a hygienic environment are essential. Traditional measurement methods often require visual checks and manual adjustments, which can lead to human errors and time losses, potentially resulting in decreased work efficiency and variations in quality. Our linear encoder packaged products achieve non-contact and precise position measurement, and by providing a digital display of filling quantities, they address these challenges. 【Usage Scenarios】 - Position measurement for food filling machines - Filling quantity management for packaging machines - Improvement of accuracy in weighing systems 【Benefits of Implementation】 - Enhanced accuracy of filling quantities - Improved work efficiency - Stabilization of product quality - Reduced risk of foreign matter contamination

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In the yarn feeding process of the textile machinery industry, the accurate feeding of yarn affects the quality of the product. To properly manage the tension and speed of the yarn, high-precision measurement is essential. Conventional measurement methods can present challenges such as measurement errors and the burden on operators. Our linear encoder package allows for precise measurement of yarn feeding distance with digital display in 0.1mm increments. This is expected to stabilize quality and improve work efficiency. 【Usage Scenarios】 - Measuring the yarn feeding distance of yarn feeding machines - Adjusting yarn density in weaving machines - Monitoring yarn supply amounts in knitting machines 【Benefits of Implementation】 - Improved measurement accuracy - Reduced work time - Decreased defective products - Increased productivity

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