注: 建议图片大小150px*50px 注: 建议图片大小150px*50px 
注: 建议图片大小150px*50px 注: 建议图片大小150px*50px 
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Short Description:
Toroidal inductors properties
Useful in a wide variety of power conversion and line filter applications.
Wound on iron powder material toroids.
COST-EFFECTIVE design.
Low volume hand wound to high volume automatic machine wound. 130℃ or 155℃ UEW-NY wire. high saturation current.
coated with varnish.
Useful in a wide variety of power conversion and line filter applications.
Wound on iron powder material toroids.
COST-EFFECTIVE design.
Low volume hand wound to high volume automatic machine wound. 130℃ or 155℃ UEW-NY wire. high saturation current.
coated with varnish.
Toroidal inductor application
◆Power supplies.
◆Switching Circuits.
◆SCR and Triac Controls.
◆Output chokes.
◆Other filters.
Remark:
1.Tolerance(J:5%, K:10%, L:15%, M:20%)
2.Customer’s Specifications are welcome.
Toroidal Inductors are used for applications that include current sense transformers, common mode inductors, switching regulator inductors, input filter inductors, and more. These inductors provide excellent value — they are generally smaller in size and cost less than other inductors.
Toroidal Inductors provide a number of advantages over other inductor varieties, which include:
Compact Size — The smaller size of Toroidal Inductors allows for excellent efficiency while maintaining top level performance.Lower Cost — With smaller sizes that use less raw materials, Toroidal Inductors are a highly economical choice.
Efficient Design — Inductor designers can achieve shorter length of turn with smaller-sized Toroidal Inductors using less cooper wire and with no bobbin as with E-core designs.
| ||||||
Type | Inductance | Dimension (mm) | ||||
A | B | C | D | Work Frequency | ||
T8*4*3 | 0.2mH-1mH | 12 | 7 | 14 | 5 | 10-100KHZ |
T9*5*3 | 0.8-3mH | 13 | 7 | 15 | 5 | 10-100KHZ |
T12*6*5 | 0.8-3.1mH | 14 | 9 | 16 | 6 | 10-100KHZ |
T14*9*5 | 1.5mH-4mH | 18 | 10 | 20 | 8 | 10-100KHZ |
T16*9*5 | 1.5mH-4.5mH | 20 | 10 | 22 | 8 | 10-100KHZ |
T18*10*8 | 1.8mH-5mH | 23 | 13 | 25 | 8 | 10-100KHZ |
T20*10*10 | 2.5mH-6mH | 24 | 15 | 26 | 12 | 10-100KHZ |
T22*14*8 | 3mH-10mH | 26 | 13 | 28 | 12 | 10-100KHZ |
T25*15*10 | 3.5mH-12mH | 30 | 18 | 32 | 13 | 10-100KHZ |
T25*15*13 | 5mH-20mH | 30 | 18 | 32 | 15 | 10-100KHZ |
T31*19*13 | 5mH-25mH | 36 | 18 | 38 | 16 | 10-100KHZ |
T38*19*13 | 3mH-25mH | 44 | 18 | 46 | 16 | 10-100KHZ |
T48*30*15 | 10mH-30mH | 54 | 20 | 56 | 18 | 10-100KHZ |
Short Description:
Toroidal inductors properties
Useful in a wide variety of power conversion and line filter applications.
Wound on iron powder material toroids.
COST-EFFECTIVE design.
Low volume hand wound to high volume automatic machine wound. 130℃ or 155℃ UEW-NY wire. high saturation current.
coated with varnish.
Useful in a wide variety of power conversion and line filter applications.
Wound on iron powder material toroids.
COST-EFFECTIVE design.
Low volume hand wound to high volume automatic machine wound. 130℃ or 155℃ UEW-NY wire. high saturation current.
coated with varnish.
Toroidal inductor application
◆Power supplies.
◆Switching Circuits.
◆SCR and Triac Controls.
◆Output chokes.
◆Other filters.
Remark:
1.Tolerance(J:5%, K:10%, L:15%, M:20%)
2.Customer’s Specifications are welcome.
Toroidal Inductors are used for applications that include current sense transformers, common mode inductors, switching regulator inductors, input filter inductors, and more. These inductors provide excellent value — they are generally smaller in size and cost less than other inductors.
Toroidal Inductors provide a number of advantages over other inductor varieties, which include:
Compact Size — The smaller size of Toroidal Inductors allows for excellent efficiency while maintaining top level performance.Lower Cost — With smaller sizes that use less raw materials, Toroidal Inductors are a highly economical choice.
Efficient Design — Inductor designers can achieve shorter length of turn with smaller-sized Toroidal Inductors using less cooper wire and with no bobbin as with E-core designs.
| ||||||
Type | Inductance | Dimension (mm) | ||||
A | B | C | D | Work Frequency | ||
T8*4*3 | 0.2mH-1mH | 12 | 7 | 14 | 5 | 10-100KHZ |
T9*5*3 | 0.8-3mH | 13 | 7 | 15 | 5 | 10-100KHZ |
T12*6*5 | 0.8-3.1mH | 14 | 9 | 16 | 6 | 10-100KHZ |
T14*9*5 | 1.5mH-4mH | 18 | 10 | 20 | 8 | 10-100KHZ |
T16*9*5 | 1.5mH-4.5mH | 20 | 10 | 22 | 8 | 10-100KHZ |
T18*10*8 | 1.8mH-5mH | 23 | 13 | 25 | 8 | 10-100KHZ |
T20*10*10 | 2.5mH-6mH | 24 | 15 | 26 | 12 | 10-100KHZ |
T22*14*8 | 3mH-10mH | 26 | 13 | 28 | 12 | 10-100KHZ |
T25*15*10 | 3.5mH-12mH | 30 | 18 | 32 | 13 | 10-100KHZ |
T25*15*13 | 5mH-20mH | 30 | 18 | 32 | 15 | 10-100KHZ |
T31*19*13 | 5mH-25mH | 36 | 18 | 38 | 16 | 10-100KHZ |
T38*19*13 | 3mH-25mH | 44 | 18 | 46 | 16 | 10-100KHZ |
T48*30*15 | 10mH-30mH | 54 | 20 | 56 | 18 | 10-100KHZ |
