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The Driving Force of Innovation
alphamagnet.com
02
Custom Magnet Solutions
Forward Thinking & Innovation
FACTORY-DIRECT SOURCING
VALUE-ADDED RESELLER
International Locations
Local Warehouse
Alpha Magnet is a full magnet solutions provider specializing in high-end custom sintered neodymium and ferrite magnets, as well as value added services. Our unique line of magnetic materials offer superior quality and performance. Whether you require custom shipping, packaging, or design, we seek to serve you throughout the entire process. Specializing in servicing the automotive, industrial, and consumer product industries in the United States, we can help you find long-term solutions for your magnetic needs.
We love to think ahead. And that is why we offer advanced technologies such as sintered neodymium radial-oriented ring magnets and magnets created using our own new proprietary precision forming process. Simplify your motor by using one radial-oriented ring magnet instead of multiple magnets. Or, enjoy the cost savings of sintered neodymium arc magnets made through our unique precision forming process.
Alpha Magnet facilitates factory-direct relationships for customers with qualifying volume requirements. We provide quality, technical, and logistic support to ensure superior supply chain performance.
Alpha Magnet offers design, engineering, technical and logistic support for smaller scale programs.
Alpha Magnet has China-based offices with engineering staff working directly within the production teams to ensure your materials are produced exactly to your specifications.
When you provide Alpha Magnet with an annual contract order, we maintain an adequate supply of your material to enable just in time delivery, in addition to quickly responding to any sudden fluctuations in your material demand. Our global logistics system ensures a smooth, consistent flow of on-time deliveries and mitigates disruptions in your supply chain.
ABOUT US
ALPHA MAGNET | ABOUT US
03
Quality Promise
Prototypes & Testing
Shipping & Logistics
Alpha Magnet Team
CERTIFICATIONSAlpha Magnet partners exclusively with a limited number of production facilities which utilize the latest manufacturing technologies and licensed processes. These factories utilize automated coating processes to achieve consistent, high quality coating. Testing for dimensional tolerance, coating integrity, environmental, metallurgical, and magnetic properties are performed prior to shipment.
Our engineering team has extensive experience in both magnet and motor design. We can design, fabricate, and assemble new magnet and magnetic assemblies for your application. For any volume requirement, from prototype to mass production, Alpha Magnet offers cost-effective solutions. In addition, we have 3D design options utilizing PTC Creo and Solidworks available for you.
We understand that value-added services can help increase your bottom line by avoiding delays and inconsistencies. Based on your needs, we provide flexible shipping and logistic solutions. We also can accommodate expedited manufacturing and shipping.
Our qualified staff strives to meet all of your magnetic material needs. Our emphasis on quality processes ensures that you receive product precisely as requested. Our experienced staff works to provide on-time, quality products per your specification. Our engineers have decades of experience working with different businesses - from small operations to multinational corporations, we are here to make your magnet material sourcing a smooth and simple process.
Our manufacturers have the following quality control certifications:
• ISO9001 (Quality Management)
• TS16949 (Auto Industry)
• ISO14001 (Environment)
• OHSAS18001 (Health, Safety)
• RoHS Compliant (Europe)
ALPHA MAGNET | ABOUT US
04
ALPHA MAGNET | VERSAMAG
FERRITE GRADES
Material mT KG KA/m KOe KA/m KOe Kj/m3 MGOe
Y8T 200~235 2.0~2.35 125~160 1.57~2.01 210~280 2.64~3.52 6.5~9.5 0.8~1.2
Y20 320~380 3.2~3.8 135~190 1.70~2.38 140~195 1.76~2.45 18.0~22.0 2.3~2.8
Y22H 310~360 3.1~3.6 220~2500 2.77~3.14 280~320 3.52~4.02 20.0~24.0 2.5~3.0
Y23 320~370 3.2~3.7 170~190 2.14~2.38 190~230 2.39~2.89 20.0~25.5 2.5~3.2
Y25 360~400 3.6~4.0 135~170 1.70~2.14 140~200 1.76~2.51 22.5~28.0 2.8~3.5
Y26H 360~390 3.6~3.9 220~250 2.77~3.14 225~255 2.83~3.21 23.0~28.0 2.9~3.5
Y27H 370~400 3.7~4.0 205~250 2.58~3.14 210~255 2.64~3.21 25.0~29.0 3.1~3.7
Y28 370~400 3.7~4.0 175~210 2.20~2.64 180~220 2.26~2.77 26.0~30.0 3.3~3.8
Y30 370~400 3.7~4.0 175~210 2.20~2.64 180~220 2.26~2.77 26.0~30.0 3.3~3.8
Y30H-1 380~400 3.8~4.0 230~275 2.89~3.46 235~290 2.95~3.65 27.0~32.0 3.4~4.1
Y30H-2 395~415 3.95~4.15 275~300 3.46~3.77 310~335 3.90~4.21 28.5~32.5 3.5~4.0
Y32 400~420 4.0~4.2 160~190 2.01~2.38 165~195 2.07~2.45 30.0~33.5 3.8~4.2
Y33 410~430 4.1~4.3 220~250 2.77~3.14 225~255 2.83~3.21 31.5~35.0 4.0~4.4
C1 230 2.3 148 1.86 258 3.5 8.36 1.05
C5 380 3.8 191 2.4 199 2.5 27 3.4
C7 340 3.4 258 3.23 318 4.00 21.9 2.75
C8A 385 3.85 235 2.95 242 3.05 27.8 3.5
C8B 420 4.2 232 2.913 236 2.96 32.8 4.12
C9 380 3.8 280 3.516 320 4.01 26.4 3.32
C10 400 4.0 288 3.617 280 3.51 30.4 3.82
C11 430 4.3 200 2.512 204 2.56 34.4 4.32
Ferrite MagnetsAn excellent value, ferrite magnets can be made as anisotropic or isotropic. Strontium or barium ferrites and iron oxide are used to create the material. The material is made by pressing dry powder or mixing with water to create slurry which is then compacted in a die. Heat treatment helps the material maintain its form as well as retain magnetic performance. Ferrite material has excellent corrosion resistance. Ferrite magnets have a wide variety of uses.
Applications include audio equipment, motors, fans, and hardware.
VERSAMAG™
05
ALPHA MAGNET | VERSAMAG
C8 DEMAGNETZATION CURVE
C11 DEMAGNETIZATION CURVE
Result
Br 3.9242 kGs
Hcb 3.0054 k0e
HcJ 3.1591 k0e
(BH)m 3.5531 MG0
Hk 2.9106 k0e
Hk/HcJ 92.1%
Hd 1.7778 k0e
Bd 1.9985 kGs
Hm 16.121 k0e
Result
Br 0.42166 T
Hcb 220.71 ka/m
HcJ 231.17 kA/m
(BH)m 34.32 kJ/m3
Hk 225.35 kA/m
Hk/HcJ 97.5%
Hd 161.48 kA/m
Bd 0.21253 T
Hm 1296.9 kA/m
Size
Length 2.012 cm
Width 1.008 cm
Cell Area 2.08 cm2
Wins 4
Size
Length 2.012 cm
Width 1.008 cm
Cell Area 2.08 cm2
Wins 4
Condition
Date 14–8–22
Temp. 22
Type Ferrite
S-No. 82203
User
Condition
Date 14–8–22
Temp. 22
Type Ferrite
S-No. 82206
User
6.0 5.25 4.5 3.75 3.0 2.25 1.5 0.75
0.9
1.8
2.7
3.6
4.5
B&J
kGs
H(kOe)
288 252 216 180 144 108 72 36
0.09
0.18
0.27
0.36
0.45
B&J
T
H(kA/m)
06
ALPHA MAGNET | NEOMAG
AUTOMATED COATING & PLATING PROCESS
Nickel-copper-nickel, zinc, epoxy, silver, and gold plating are all available. We are able to recommend plating/coating based on the type of magnetic material and your specific application. Our magnets are created using a fully automated coating process, ensuring precision every time.
PRECISION FORMING PROCESS
The traditional forming method starts with large blocks of material to be cut into smaller blocks. In our proprietary process, the material is formed into an arc shape similar to the final product—thus reducing waste and cost for arc-shaped magnets. These savings we pass onto you, the customer. The three unique steps in our new process are highlighted below:
Steps in Precision Forming Process
Sintered Neodymium Magnets
Advanced Capabilities
Sintered neodymium is one of the most versatile rare earth magnets available. Dry granules of elemental materials are used to create sintered neodymium. Granules are compacted in a die and heated at high temperatures to fuse together. Sintered neodymium magnets are much stronger than bonded neodymium magnets but provide less flexibility in terms of shapes that can be made. Magnetic orientation for sintered neodymium is anisotropic. Neodymium magnets are lighter than samarium cobalt, however, typically they do have a lower acceptable temperature. Neodymium offers excellent value for applications that require a smaller- sized magnet. We stock patent licensed sintered neodymium magnets.
Applications include electronic, industrial, automotive, aerospace, as well as wind power solutions.
RADIAL ORIENTED RING MAGNET
By creating just one single magnet specifically designed for your application, we are able to provide your company a product that is stronger, more reliable, and more efficient. The magnets are multi-pole—which does not compromise the magnetic properties.
NEOMAG™
1. Raw Material Preparation
2. Vacuum Strip Casting
3. Hydrogen Decrepitation
4. Jet Milling
5. Alignment & Pressing in Magnetic Field
6. Vacuum Sintering
7. Annealing
8. Magnetic Properties Inspection
9. Machining
10. Surface Treatment
11. Inspection
12. Magnetizing
13. Packing
14. Transportation
07
ALPHA MAGNET | NEOMAG
SINTERED NEODYMIUM GRADES
Grade Remanence Intrinsic Coercivity Coercivity Maximum Energy Product Operating Temperature
Br HcJ HcB (BH)max
T kGs kA/m k0e kA/m k0e kJ/m3 MGOe °C
Range Minimum Value Minimum Value Range Max Value
N35 1.17~1.22 11.7~12.2 955 12 868 10.9 263~287 33~36 80
N38 1.22~1.26 12.2~12.6 955 12 899 11.3 287~310 36~39 80
N40 1.25~1.29 12.5~12.9 955 12 923 11.6 302~326 38~41 80
N42 1.28~1.32 12.8~13.2 955 12 923 11.6 318~342 40~43 80
N45 1.32~1.37 13.2~13.7 955 12 876 11.0 342~366 43~46 80
N48 1.37~1.42 13.7~14.2 955 12 892 11.2 366~390 46~49 80
N50 1.39~1.44 13.9~14.4 955 12 836 10.5 374~406 47~51 80
N52 1.42~1.47 14.2~14.7 876 11 836 10.5 390~422 49~53 80
N55 1.46~1.52 14.6~15.2 876 11 716 9.0 414~446 52~56 80
N30M 1.08~1.13 10.8~11.3 1114 14 796 10.0 223~247 28~31 100
N33M 1.13~1.17 11.3~11.7 1114 14 836 10.5 247~271 31~34 100
N35M 1.17~1.22 11.7~12.2 1114 14 868 10.9 263~287 33~36 100
N38M 1.22~1.26 12.2~12.6 1114 14 899 11.3 287~310 36~39 100
N40M 1.25~1.29 12.5~12.9 1114 14 923 11.6 302~326 38~41 100
N42M 1.28~1.32 12.8~13.2 1114 14 955 12.0 318~342 40~43 100
N45M 1.32~1.37 13.2~13.7 1114 14 995 12.5 342~366 43~46 100
N48M 1.37~1.42 13.9~14.2 1114 14 1019 12.8 358~390 45~49 100
N50M 1.39~1.44 13.9~14.4 1114 14 1035 13.0 374~406 47~51 100
N52M 1.42~1.47 14.2~14.7 1035 13 996 12.5 390~422 49~53 100
N28H 1.04~1.09 10.4~10.9 1353 17 764 9.6 199~223 25~28 120
N30H 1.08~1.13 10.8~11.3 1353 17 796 10.0 223~247 28~31 120
N33H 1.13~1.17 11.3~11.7 1353 17 836 10.5 247~271 31~34 120
N35H 1.17~1.22 11.7~12.2 1353 17 868 10.9 263~287 33~36 120
N38H 1.22~1.26 12t.2~12.6 1353 17 899 11.3 287~310 36~39 120
N40H 1.25~1.29 12.5~12.9 1353 17 923 11.6 302~326 38~41 120
N42H 1.28~1.32 12.8~13.2 1353 17 955 12.0 318~342 40~43 120
N45H 1.32~1.37 13.2~13.7 1353 17 971 12.2 342~366 43~46 120
N48H 1.37~1.42 13.7~14.2 1353 17 1027 12.9 358~390 45~49 120
N50H 1.39~1.44 13.9~14.4 1274 16 1035 13.0 374~406 47~51 120
N28SH 1.04~1.09 10.4~10.9 1592 20 780 9.8 199~229 25~28 150
N30SH 1.08~1.13 10.8~11.3 1592 20 804 10.1 223~247 28~31 150
N33SH 1.13~1.17 11.3~11.7 1592 20 844 10.6 247~271 31~34 150
N35SH 1.17~1.22 11.7~12.2 1592 20 876 11.0 263~287 33~36 150
N38SH 1.22~1.26 12.2~12.6 1592 20 907 11.4 287~310 36~39 150
N40SH 1.25~1.29 12.5~12.9 1592 20 939 11.8 302~326 38~41 150
N42SH 1.28~1.32 12.8~13.2 1592 20 971 12.2 318~342 40~43 150
N45SH 1.32~1.37 13.2~13.7 1592 20 979 12.3 342~366 43~46 150
N48SH 1.37~1.42 13.7~14.2 1512 19 995 12.5 358~390 45~49 150
N28UH 1.02~1.08 10.2~10.8 1990 25 764 9.6 207~231 26~29 180
N30UH 1.08~1.13 10.8~11.3 1990 25 812 10.2 223~247 28~31 180
N33UH 1.13~1.17 11.3~11.7 1990 25 852 10.7 247~271 31~34 180
N35UH 1.17~1.22 11.7~12.2 1990 25 860 10.8 263~287 33~36 180
N38UH 1.22~1.26 12.2~12.6 1990 25 876 11.0 287~310 36~39 180
N40UH 1.25~1.29 12.5~12.9 1990 25 915 11.5 302~326 38~41 180
N42UH 1.27~1.32 12.7~13.2 1990 25 971 12.2 310~342 39~43 180
N28EH 1.04~1.09 10.4~10.9 2388 30 780 9.8 207~231 26~29 200
N30EH 1.08~1.13 10.8~11.3 2388 30 812 10.2 223~247 28~31 200
N33EH 1.13~1.17 11.3~11.7 2388 30 820 10.3 247~271 31~34 200
N35EH 1.17~1.22 11.7~12.2 2388 30 836 10.5 263~287 33~36 200
N38EH 1.20~1.26 12.0~12.6 2388 30 915 11.5 279~310 35~39 200
N28AH 1.02~1.09 10.2~10.9 2706 34 780 9.8 199~231 25~29 240
N30AH 1.07~1.13 10.7~11.3 2706 34 812 10.2 215~247 27~31 240
N33AH 1.11~1.17 11.1~11.7 2706 34 836 10.5 239~271 30~34 240
08
ALPHA MAGNET | NEOMAG
N50 DEMAGNETIZATION CURVE
40SH DEMAGNETIZATION CURVE
33AH DEMAGNETIZATION CURVE
1.5
1.45
1.4
1.35
1.3
1.25
1.2
1.2
1.110
1,000 1,500 2,000 2,50015 20 25 30 35 40 HCJ/kOe
HCJ(kA/m)
Br(
T)
N55
N52 N52M
N52M
N50H
N48SH
N45H N45SH
N42UH
N40SH
N38UH
N33UH
N38EH
N33EH N33AH
NEODYMIUM GRADE DIAGRAM
H
J. B
kGsT
kA/m
k0e
1400 1200 1000 800 600 400 200 0
18
0.2
0.4
0.6
0.8 1.0 1.2 1.6
20.C 60
.C
2.52 3.0 5.0 10.01.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0 0
2
4
6
8
10
12
14
16
16 14 12 10 8 6 4 2 0
80.C
H
J. B
kGsT
kA/m
k0e
1400 1200 1000 800 600 400 200 0
18
0.2
0.4
0.6
0.8 1.0 1.2 1.6
20.C
60.C
180.C 210
.C
2.52 3.0 5.0 10.01.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0 0
2
4
6
8
10
12
14
16
16 14 12 10 8 6 4 2 0
100.C
120.C
150.C
H
J. B
kGsT
kA/m
k0e
1400 1200 1000 800 600 400 200 0
18
0.2
0.4
0.6
0.8 1.0 1.2 1.6
20.C
100.C 120
.C
2.52 3.0 5.0 10.01.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0 0
2
4
6
8
10
12
14
16
16 14 12 10 8 6 4 2 0
60.C 150
.C
1.5
1.45
1.4
1.35
1.3
1.25
1.2
1.2
1.1
10
1,000 1,500 2,000 2,500
15 20 25 30 35HCJ/kOe
HCJ(kA/m)
Br(T)
N55
N52 N52M
N48M
N50H
N48SH
N45H N45SH
N42UH
N40SH
N38UH
N33UH
N38EH
N33EH N33AH
09
Bonded NeodymiumFor a more flexible alternative to sintered neodymium, consider using bonded neodymium magnets for your application. Bonded neodymium powder is used to create these magnets. Powder is melted and mixed with a polymer. Components are then cast or extruded to create the product. Bonded Neodymium magnets can be magnetized into complex patterns with many poles. Bonded neodymium magnets are much weaker than Sintered Neodymium magnets but gives greater flexibility in terms of shapes that are able to be made. Neodymium magnets are lighter than Samarium Cobalt, however, they have a lower acceptable temperature. Neodymium offers excellent value for applications that require a smaller-sized magnet.
Applications include automotive, home, power tools, as well as electronic industries.
ALPHA MAGNET | BONDED NEODYMIUM
BONDED NEODYMIUM
BONDED NEODYMIUM GRADES
Grade Residual InductionBr T(KG)
Coercive ForcebHc KA/m (KOe)
Intrinsic Coercive ForceiHc KA/m(KOe)
Maximum Energy Product (BH)max KJ/m3(MGOe)
Density D g/cm3 Reversible Permeability Reversible Temp Coefficient A
Br%/°C
BNP-7A 0.52-0.60(5.2-6.0)
368-432(4.6-5.4)
1120-1360(14-17)
48-64(6-8) ≥5.7 1.15 -0.12
BNP-7B 0.52-0.62(5.2-6.2)
336-416(4.2-5.2
64-80(8.0-10)
48-64(6-8) ≥5.7 1.22 -0.10
BNP-9A 0.60-0.66(6.0-6.6)
432-488(5.4-6.1
1120-1360(14-17)
64-80(8-10) ≥5.7 1.15 -0.12
BNP-9B 0.62-0.70(6.2-7.0
400-456(5.0-5.7)
640-800(8.0-10)
64-80(8-10) ≥5.7 1.22 -0.10
BNP-11A 0.70-0.76(7.0-7.6)
456-512(5.7-6.4)
640-800(8-10)
80-96(10-12) ≥5.7 1.22 -0.10
10
Samarium CobaltSamarium cobalt is a rare earth material made by a powder metallurgical process. Manufactured using binders such as epoxy, samarium cobalt magnets are inherently very brittle. Users are discouraged from grinding material because dry remnants are a fire hazard. Some of the advantages of using samarium cobalt is that it provides excellent temperature stability and as well as excellent corrosion resistance. Because of this, typically coating or plating is not required. Samarium cobalt is excellent for operating in harsh environments were it will be exposed to the elements as well as high operating temperatures.
Samarium cobalt excels in harsh environments—common applications include marine, military, and aerospace.
SAMARIUM COBALT
ALPHA MAGNET | SAMARIUM COBALT
SAMARIUM COBALT GRADES
Material Grade Energy Product (BH)max Residual Induction Br(min-max)
Coercive Force Hc-b(min-max)
Intrinsic Coercive Force Hcj(min-max) Density D Rev. Tenp
Coeff a(Br)Curie Temp
TC
Max Working Temp Tw
KJ/m3 MGsOe T KGs KA/m KOe KA/m KOe g/cm3 %/°C °C °C
SmCo5
XG16 120~143 15~18 0.77-0.86 7.7-8.6 613-716 7.7-9.0 ≥1194 ≥15.0
8.3 -0.04 ≥740 250
XG16H 120~143 15~18 0.77-0.86 7.7-8.6 613-716 7.7-9.0 ≥1592 ≥20.0
XG18 135~159 17~20 0.81~0.92 8.1~9.2 637~756 8.0~9.5 ≥1194 ≥15.0
XG18H 135~159 17~20 0.81~0.92 8.1~9.2 637~756 8.0~9.5 ≥1592 ≥20.0
XG20 151~175 19~22 0.85~0.95 8.5~9.5 637~756 8.0~9.5 ≥1194 ≥15.0
XG20H 151~175 19~22 0.85~0.95 8.5~9.5 637~756 8.0~9.5 ≥1592 ≥20.0
XG22 167~191 21~24 0.89~1.0 8.9~10.0 661~772 8.3~9.7 ≥1194 ≥15.0
XG22H 167~191 21~24 0.89~1.0 8.9~10.0 661~772 8.3~9.7 ≥1592 ≥20.0
Sm2Co17
XGS24M 175~199 22~25 0.92~1.04 9.2~10.4 318~788 4.0~9.9 398~1194 5.0~15.0
8.4 -0.03 ≥850 350
XGS24 175~199 22~25 0.92~1.04 9.2~10.4 661~796 8.3~10.0 1194~1990 15.0~25.0
XGS24H 175~199 22~25 0.92~1.04 9.2~10.4 661~804 8.3~10.1 > 1990 > 25.0
XGS26M 191~215 24~27 1.0~1.06 10.0~10.6 318~796 4.0~10.0 398~1194 5.0~15.0
XGS26 191~215 24~27 1.0~1.06 10.0~10.6 677~820 8.5~10.3 1194~1990 15.0~25.0
XGS26H 191~215 24~27 1.0~1.06 10.0~10.6 677~820 8.5~10.3 > 1990 > 25.0
XGS28M 207~231 26~29 1.04~1.10 10.4~11.0 318~804 4.0~10.1 398~1194 5.0~15.0
XGS28 207~231 26~29 1.04~1.10 10.4~11.0 677~820 8.5~10.3 1194~1990 15.0~25.0
XGS28H 207~231 26~29 1.04~1.10 10.4~11.0 677~820 8.5~10.3 > 1990 > 25.0
XGS30M 223~247 28~31 1.07~1.12 10.7~11.2 318~804 4.0~10.1 398~1194 5.0~15.0
XGS30 223~247 28~31 1.07~1.12 10.7~11.2 700~828 8.8~10.4 1194~1990 15.0~25.0
XGS30H 223~247 28~31 1.07~1.12 10.7~11.2 700~828 8.8~10.4 > 1990 > 25.0
XGS32M 231~255 29~32 1.09~1.15 10.9~11.5 318~804 4.0~10.1 398~955 5.0~12.0
XGS32 231~255 29~32 1.09~1.15 10.9~11.5 716~836 9.0~10.5 > 955 > 12.0
Low Temp Coeff.
Sm2Co17
XGS22LT 159~183 20~23 0.90~0.99 9.0~9.9 677~756 8.5~9.5 ≥1194 ≥15.08.4 -0.015 ≥850 350
XGS24LT 175~199 22~25 0.92~1.02 9.2~10.2 677~756 8.5~9.5 ≥1194 ≥15.0
11
ALPHA MAGNET | MAGNETIC ASSEMBLIES
Magnetic Assemblies & Sub-Assemblies
CASE STUDY: CANON MAGNETIC ASSEMBLIES
Alpha Magnet specializes in producing magnetic assemblies and sub-assemblies per your requirement. From the selection of magnetic material to design services, we are happy to assist you throughout the whole process.
Cameras use two different types of image stabilization - digital and optical. Optical image stabilization is more sensitive than digital. By combining two assemblies into one, we were able to improve this key component of their product.
The ProblemCanon’s original requirement was a shaft centerline with a magnetic orientation of 15°. Originally, Canon would first complete the mold for the axle and card. After providing the magnets, they put the pieces together in their factory. This was very inefficient—during the connection process the glue would easily move on the product. The result: the quality control failure rate was very high.
The SolutionWe were able to offer Canon a solution through a precision injection process. First, we placed a magnet in the injection mold with a guaranteed angle of 15° (+/-0.5). Second, shallow grooves were added to increase adhesion of the glue and keep it from moving over time.
The ResultCanon was able to improve quality control pass rates as well as production efficiency. Having solved this problem concerning a key component to the camera, Canon was able to move forward.
MAGNETIC ASSEMBLIES
18200 Yorba Linda Blvd.Yorba Linda, CA 92886
Toll Free: 844.898.5955Fax: 657.444.2261
www.alphamagnet.cominfo@alphamagnet.com
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