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Rotary Encoder Magnetic Ring, Rotative Absolute Encoders,2-Track axial magnetic target for use with iC-MU,Magnetic encoder,Magnetic Multipole Ring,Induction Magnetic Rings,Magnetic Ring Encoder Magnets,Sensor Magnet China supplier ,Multipole Ring Magnets
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At ccmagnetics, we provide free access to our extensive mold inventory, helping you save both time and money. Our commitment is to help you find the perfect magnetic ring for your needs. For magnetic ring drawings or photos, please contact our sales team.
Description:
Ferrite encoder magnetic rings offer advantages such as low cost and high resolution. All magnetic rings strictly meet required accuracy and concentricity standards, with a consistent axial magnetization direction. Our products provide the following certifications:
- IATF16949 (issued by SGS)
- ISO9001 (issued by SGS)
- Management System Certificate (issued by DNV)
The ferrite magnetic targets listed on this page are compatible with sensors such as IC-MU, IC-MU128, and IC-MU150. Please note the following guidelines based on our experience:
- Thickness 1.4mm to 2mm: Can be used independently. Select a thickness within this range based on your needs.
- Thickness below 1.4mm: Ferrite encoder magnetic rings require a metal carrier for proper operation. Refer to the diagram below for details.
| SKU | O.D (mm) | I.D (mm) | T (mm) | MT | NT | MATL | SF | MAG | CMTS |
|---|---|---|---|---|---|---|---|---|---|
| R0403 | 17 | 6 | 4 | 4 | 0 | Ferrite magnets | 180-190mT | Radial | |
| R0982 | 18 | 5.2 | 1.5 | 32 | 30 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm |
| R0988 | 23 | 12 | 2 | 74 | 3 | Ferrite magnets | 60-65mT | Axial | Pole pitch 0.8mm |
| R0986 | 26 | 13 | 2 | 30 | 10 | Ferrite magnets | 60-65mT | Axial | Pole pitch 2.46mm |
| R0622 | 26 | 13.2 | 2 | 30 | 10 | Ferrite magnets | 60-65mT | Axial | robot encoder ring |
| R0657 | 28.9 | 18.9 | 1.5 | 150 | 0 | Ferrite magnets | 60-65mT | Axial | robot encoder ring |
| R0987 | 29 | 15 | 1 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.28mm, compatible with ic-MU: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0983 | 30 | 18 | 1.5 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.28mm, compatible with ic-MU: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0688 | 32 | 24 | 1.5 | 44 | 0 | Ferrite magnets | 60-65mT | Axial | robot encoder ring |
| R0981 | 33 | 21 | 1.5 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150, Datasheet: https://www.ccmagnetics.com/download/encoder_magnets/R0981_Encoder_Magnetic_Ring.pdf |
| R0707 | 33.5 | 21.5 | 1 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0706 | 33.5 | 20.4 | 1.5 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0710 | 34 | 20.4 | 1.5 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Compatible with ic-MU150, Datasheet: https://www.ccmagnetics.com/download/encoder_magnets/R0710-Ferrite_magnetic_encoder_ring.pdf |
| R0709 | 34 | 20.4 | 2 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0718 | 34.5 | 22.5 | 1 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0731 | 36.8 | 26.8 | 1.5 | 200 | 0 | Ferrite magnets | 60-65mT | Axial | |
| R0750 | 42 | 27 | 1.45 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 2mm, compatible with ic-MU200: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0749 | 42 | 28.5 | 1.45 | 128 | 0 | Ferrite magnets | 60-65mT | Axial | |
| R0756 | 44.2 | 34.7 | 1.5 | 48 | 0 | Ferrite magnets | 60-65mT | Axial | |
| R0979 | 44.5 | 29 | 1.4 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 2mm, compatible with ic-MU200, Datasheet: https://www.ccmagnetics.com/download/encoder_magnets/R0979-Ferrite_encoder_magnetic_ring.pdf |
| R0768 | 45.2 | 30 | 1.5 | 48 | 0 | Ferrite magnets | 60-65mT | Axial | |
| R0980 | 45.7 | 35.8 | 1.5 | 128 | 0 | Bonded neodymium magnets | 80-95mT | Axial | The encoder magnetic ring has a pole pitch of 2mm and is available in two materials: ferrite and bonded neodymium magnets. |
| R0989 | 49 | 32 | 1 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 2mm, compatible with ic-MU200: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0777 | 49 | 32.8 | 1 | 64 | 62 | Ferrite magnets | 60-65mT | Axial | Pole pitch 2mm, compatible with ic-MU200: 32-pole pairs in master-track, 31-pole pairs in nonius-track. |
| R0957 | 51 | 35 | 10 | 80 | 0 | Ferrite magnets | 60-70mT | Radial | |
| R0804 | 55 | 42.5 | 1 | 128 | 126 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.28mm, compatible with ic-MU: 64-pole pairs in master-track, 63-pole pairs in nonius-track. |
| R0956 | 55 | 42 | 1.5 | 128 | 126 | Ferrite magnets | 60-70mT | Axial | Pole pitch 1.28mm, compatible with ic-MU, Datasheet: https://www.ccmagnetics.com/download/encoder_magnets/R0956_Dual-Track_Encoder_Ring.pdf |
| R0810 | 56 | 41 | 2.4 | 128 | 126 | Injection molded ferrite magnets | 50-60mT | Axial | Pole pitch 1.28mm, compatible with ic-MU: 64-pole pairs in master-track, 63-pole pairs in nonius-track. |
| R0808 | 56 | 41 | 1.5 | 128 | 126 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.28mm, compatible with ic-MU, Datasheet: https://www.ccmagnetics.com/download/encoder_magnets/R0808_Ferrite_magnetic_encoder_ring.pdf |
| R0809 | 56 | 41.5 | 1.5 | 128 | 126 | Ferrite magnets | 70-80mT | Axial | Pole pitch 1.28mm, compatible with ic-MU: 64-pole pairs in master-track, 63-pole pairs in nonius-track. |
| R0984 | 58 | 39 | 2.4 | 46 | 44 | Ferrite magnets | 60-65mT | Axial | Pole pitch 3.6mm |
| R0827 | 63.7 | 51 | 2 | 128 | 126 | Ferrite magnets | 80-90mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150: 64-pole pairs in master-track, 63-pole pairs in nonius-track. |
| R0830 | 64 | 53 | 2 | 128 | 126 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150, Datasheet: https://www.ccmagnetics.com/download/encoder_magnets/R0830-Ferrite_magnetic-encoder-ring.pdf |
| R0985 | 65 | 51 | 2.4 | 128 | 126 | Injection molded ferrite magnets | 30-35mT | Axial | It's had pole pitch of 1.5mm and is available in two materials: ferrite and Injection molded ferrite magnets. compatible with ic-MU150. |
| R0751 | 65 | 51 | 2.4 | 128 | 126 | Ferrite magnets | 60-65mT | Axial | It's had pole pitch of 1.5mm and is available in two materials: ferrite and Injection molded ferrite magnets. |
| R0831 | 65 | 45 | 5 | 128 | 126 | Ferrite magnets | 60-65mT | Axial | Pole pitch 1.5mm, compatible with ic-MU150: 64-pole pairs in master-track, 63-pole pairs in nonius-track. |
| R0958 | 84.5 | 70.5 | 2 | 128 | 126 | Ferrite magnets | 60-70mT | Axial | Pole pitch 2mm, compatible with ic-MU200: 64-pole pairs in master-track, 63-pole pairs in nonius-track. |
Glossary of Terms
| No. | Item | Description | Notes |
|---|---|---|---|
| 1 | SKU | Stock Keeping Unit Number | This number needs to be recorded and used when submitting inquiries to CCmagnetics. |
| 2, 3, 4 | O.D./I.D./T | The Magnetic Ring Dimensions | All dimensions in the table are in millimeters. O.D = Outer Diameter I.D = Inner Diameter T = Thickness |
| 5 | MT | Master-track Pole Count | For a magnetic ring with a single track, the Master-track represents the number of magnetic poles. For example, "10 poles" means 5 pole pairs. |
| 6 | NT | Nonius-track: Orbit with Fewer Pole Count | For a 2-track magnetic encoder ring, the Nonius-track typically has the lower pole count. The number of poles on the Nonius-track may sometimes be an odd number, such as 3 poles. |
| 5 | MATL | Magnetic Ring Material | There are various types of magnetic ring materials. Please refer to the FAQ at the bottom of the page. |
| 6 | SF | Surface Magnetic Field | This refers to the surface magnetic field strength. |
| 7 | MAG | Magnetization Method | Common magnetization methods are listed at the top of the page. |
| 8 | CMTS | Comments | This section provides information about the use, features, and other details of the magnetic ring. |
Comparison of Ferrite Encoder Ring and Rubber Encoder Ring
| Parameter | Ferrite Encoder Ring | Rubber Encoder Ring |
|---|---|---|
| Operating Temperature Range | -40°C to 250°C / -40℉ ~ +392℉ | -20°C to 80°C / -4℉ ~ +176℉ |
| High temperature Resistance | High | Low |
| Vibration Resistance | Low | High |
| Unit Price | Low | High |
| Technology Maturity | Mature | Emerging |
| Corrosion Resistance | High | High |
| Environmental Resistance | Easy to break due to vibration | Excellent |
| Customization | Easy for large quantities; high-cost for small quantities |
Customizable;few manufacturers can guarantee the accuracy and resolution required. |
| Magnetization | Easy | Hard |
FAQs
Please send the SKU number and quantity of the magnetic rings you want from the list.
Your salesperson will send you a price quote and payment options (T/T 100% upfront or credit card 100% upfront).
- In-stock items: Ship immediately after payment.
- Out-of-stock items: Ship within 30 days after payment.
Our magnetic rings have a key benefit: transparent costs for molds and magnetizing coils. We don't charge extra for these.
For small sample orders (around 10 pieces), this stock is usually leftover from larger production runs. Please pay quickly to secure your stock. We don't start production for small orders; it's not cost-effective for us.
We usually start production for orders over 2k-10k pieces to manage costs. If your order is small and not confirmed quickly, you might miss out on current stock.
Sizes: All lengths are in millimeters (mm) by default.
Number of poles:
- The Master-track refers to the main magnetic track's pole count on a ring magnet. Most ring magnets, like those for motors or incremental encoders, have only one magnetic track.
- However, absolute encoder ring magnets or encoder ring magnets with marker points also have a Nonius-track. This means they have two magnetic tracks, as shown in the picture.
- Ferrite magnets are also called sintered ferrite or hard ferrite magnets. They look and are made like ceramics, so some call them ceramic magnets.These magnets are cheap to make in large amounts, even though the mold costs are high. They are very good at resisting rust and high temperatures, up to 250℃.Ferrite magnets are accurate and low-cost for encoders. But, they can break easily if shaken a lot, like in outdoor robots. For those, Vulcanized rubber magnet material is more stable.
- Injection molded ferrite magnets are made by mixing ferrite magnetic powder with plastic binders like Nylon (PA6 or 12) or PPS. This mixture is then injection molded, meaning it's shaped using a mold.These magnets can even be molded directly onto a metal shaft. They can work in temperatures up to 150°C.
Bonded neodymium magnets are made by mixing neodymium magnetic powder with a binder.
Simply put, they are injection molded, which means they contain a binder. About 80% of the magnet is neodymium powder, and the remaining 20% is binder.
Their benefits include high dimensional accuracy, great design flexibility, and good mechanical strength.
Injection molded neodymium magnets are made by mixing neodymium magnetic powder with thermoplastic. This mix is then injection molded. These magnets are stronger than injection molded ferrite magnets.
Injection molded neodymium magnets can be made into many shapes. They can be small or irregular. You can magnetize them with multiple poles or complex patterns. They are also very accurate and consistent in shape.
These magnets can be molded directly onto motor cores or metal shafts. This saves assembly costs. They are seen as a stronger option than injection molded ferrite magnets. They can work in temperatures up to 180℃.
These magnets are injection molded neodymium or ferrite magnets that include a metal carrier. Please see the picture below:
Sintered NdFeB magnets are also called Sintered Neodymium magnets. These are the strongest known permanent magnets. They are made from neodymium (Nd), iron (Fe), boron (B), and other rare earth elements.
These magnets create very strong magnetic fields and stay magnetic at room temperature. They can be made into many shapes. This makes them great for many uses, especially for high-end commercial motors.
Sintering is how they are made. Powdered materials are heated until they merge. This process makes the magnets stronger and more effective.
However, these magnets can corrode easily and are affected by high temperatures. So, they are usually coated (often with a nickel-copper-nickel layer) to protect them. Adding heavy rare earth elements also helps them resist higher temperatures.
- Vulcanized rubber magnet material is made when magnetic powder is added to rubber during a process called vulcanization. This process changes the rubber's structure, making it much stronger, more elastic, and more stable.Vulcanized rubber magnets are often used for magnetic targets on sports robots. They are flexible and don't break easily from shocks.
- Rubber magnets are made from magnetic powder mixed with synthetic rubber. They are formed by extrusion, calendering, or injection molding. You can make them into strips, rolls, sheets, blocks, rings, and many other shapes. Their main advantages are that they are flexible and can be made into various shapes.However, their disadvantage is that they are not very strong (they don't have high remanence) compared to Neodymium magnets. For encoders, regular rubber magnets can't meet high precision needs. They are only good for single-track incremental encoders.
changiaanusha –
Magnets arrived in a timely manner and as described.
shelley.timmins –
The entire order was seamless and so fast
crizko.oficial –
Super easy website to use, fast response and stellar job. Received magnets very quickly. Highly recommend !!