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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 |
The electronic products industry market is changing rapidly, requiring basic components to keep up with the pace of product renewal. Especially in the past six months, to cope with the meager and efficient design of downstream general electronic products, some Inductors and transformer using new mat
The principle of the transformer is electromagnetic induction, which is mainly used to change the magnitude of the AC voltage. Transformers are used in the modern electrical industry. Transformers can be divided into many types and are used in many industries. Switching power supply transformers als
The principle of the transformer is electromagnetic induction, which is mainly used to change the magnitude of the AC voltage. Transformers are used in the modern electrical industry. Transformers can be divided into many types and are used in many industries. Switching power supply transformers als
The electronic products industry market is changing rapidly, requiring basic components to keep up with the pace of product renewal. Especially in the past six months, to cope with the meager and efficient design of downstream general electronic products, some Inductors and transformer using new mat