CWS

BALUNs

CWS ByteMark manufactures these Baluns based on Dr. Jerry Sevick's (W2FMI) design. Custom K type permeability core is used to obtain the widest bandwidth. 1 Mhz to 50 MHz with lowest energy loss.

BALUNs - CWS ByteMark manufactures these Baluns based on Dr. Jerry Sevick's (W2FMI) design. Custom K type permeability core is used to obtain the widest bandwidth. 1 Mhz to 50 MHz with lowest energy loss.
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UNUNs

CWS ByteMark manufactures these Ununs based on Jerry Sevick's (W2FMI) designs. Broadest Bandwidth (1 MHz up to 50 MHz). Lowest Energy Loss ( < 0.2 dB).

UNUNs - CWS ByteMark manufactures these Ununs based on Jerry Sevick's (W2FMI) designs. Broadest Bandwidth (1 MHz up to 50 MHz). Lowest Energy Loss ( < 0.2 dB).
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Ferrite Rods

AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

Ferrite Rods - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire
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Ferrite Toroidal Cores

AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

Ferrite Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire
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High Flux Toroidal Cores

AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

High Flux Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire
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Iron Powder Toroidal Cores For Power Conversion and Line Filter Applications

AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire Required turns (N) = square root of (desired 'L' /'AL'), ?'L' /'AL', or 1000 turns='

Iron Powder Toroidal Cores For Power Conversion and Line Filter Applications - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire Required turns (N) = square root of (desired 'L' /'AL'), ?'L' /'AL', or 1000 turns='
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Iron Powder Toroidal Cores for RF Applications

Designed for high current, low voltage applications and ideal for latest generation of low voltage microprocessors. These toroid core offers compact size, and minimum EMI.

Iron Powder Toroidal Cores for RF Applications - Designed for high current, low voltage applications and ideal for latest generation of low voltage microprocessors. These toroid core offers compact size, and minimum EMI.
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Laminations

CWS Bytemark stamped lamination are made of the highest quality of silicon steel available in the industry. These lamination are used by engineers to design low frequency (50/60 Hz) transformers and inductors.

Laminations - CWS Bytemark stamped lamination are made of the highest quality of silicon steel available in the industry. These lamination are used by engineers to design low frequency (50/60 Hz) transformers and inductors.
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Mega Flux Cores

Lower Cost and better performance than CM, CS, and CH series Core losses lower than Fe-Si strip cores Excellent DC bias characteristics Near zero magneto-striction coefficient constant

Mega Flux Cores - Lower Cost and better performance than CM, CS, and CH series Core losses lower than Fe-Si strip cores Excellent DC bias characteristics Near zero magneto-striction coefficient constant
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Molypermalloy (MPP) Toroidal Cores

AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

Molypermalloy (MPP) Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire
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Nanocrystalline Cores

Nanocrystalline & Amorphous cores have high saturation flux density, high permeability, low magnetic core loss, low magnetostriction, high temperature characteristics, & high frequency characteristics.

Nanocrystalline Cores - Nanocrystalline & Amorphous cores have high saturation flux density, high permeability, low magnetic core loss, low magnetostriction, high temperature characteristics, & high frequency characteristics.
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Sendust Toroidal Cores

AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

Sendust Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire
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Product Category

BALUNs

BALUNs - CWS ByteMark manufactures these Baluns based on Dr. Jerry Sevick's (W2FMI) design. Custom K type permeability core is used to obtain the widest bandwidth. 1 Mhz to 50 MHz with lowest energy loss.

UNUNs

UNUNs - CWS ByteMark manufactures these Ununs based on Jerry Sevick's (W2FMI) designs. Broadest Bandwidth (1 MHz up to 50 MHz). Lowest Energy Loss ( < 0.2 dB).

Ferrite Rods

Ferrite Rods - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

Ferrite Toroidal Cores

Ferrite Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

High Flux Toroidal Cores

High Flux Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

Iron Powder Toroidal Cores For Power Conversion and Line Filter Applications

Iron Powder Toroidal Cores For Power Conversion and Line Filter Applications - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire Required turns (N) = square root of (desired 'L' /'AL'), ?'L' /'AL', or 1000 turns='

Iron Powder Toroidal Cores for RF Applications

Iron Powder Toroidal Cores for RF Applications - Designed for high current, low voltage applications and ideal for latest generation of low voltage microprocessors. These toroid core offers compact size, and minimum EMI.

Laminations

Laminations - CWS Bytemark stamped lamination are made of the highest quality of silicon steel available in the industry. These lamination are used by engineers to design low frequency (50/60 Hz) transformers and inductors.

Mega Flux Cores

Mega Flux Cores - Lower Cost and better performance than CM, CS, and CH series Core losses lower than Fe-Si strip cores Excellent DC bias characteristics Near zero magneto-striction coefficient constant

Molypermalloy (MPP) Toroidal Cores

Molypermalloy (MPP) Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire

Nanocrystalline Cores

Nanocrystalline Cores - Nanocrystalline & Amorphous cores have high saturation flux density, high permeability, low magnetic core loss, low magnetostriction, high temperature characteristics, & high frequency characteristics.

Sendust Toroidal Cores

Sendust Toroidal Cores - AL (nH/Square Turn or nH/N2) is the AL value. L is inductance in nH (nanohenries) N is the number of turns of a wire