Planar Transformer Design

Description: 20W-150W Planar Transformers Size P035 with 30A max current rating, frequency range 200-400kHZ. Patented (U.S. PAT. 7,129,809) design with superior thermal management. Topologies include Half Bridge, Forward (w/active rest), Flyback. High efficiency (low losses), ultra compact,

• Operating Frequency Range: 200000 to 400000 Hz
• Power Rating: 20 to 150 watts
• Transformer Types / Applications: Planar Transformer

Description: 10W-50W Planar Transformers Size P025 with 20A max current rating, frequency range 300-500kHZ are available in surface mount (SMD) or through hole designs and forward (w/active rest), flyback topologies. Patented (U.S. PAT. 7,129,809) design with superior thermal management.

• Operating Frequency Range: 300000 to 500000 Hz
• Power Rating: 10 to 50 watts
• Transformer Types / Applications: Planar Transformer

Description: 100W-500W Planar Transformers Size P075 with 50A max current rating, frequency range 150-300kHZ. Patented (U.S. PAT. 7,129,809) design with superior thermal management. Topologies include Full Bridge, Half Bridge, Full Bridge ZVS, Push-Pull, Flyback. High efficiency (low

• Operating Frequency Range: 100000 to 300000 Hz
• Power Rating: 100 to 500 watts
• Transformer Types / Applications: Planar Transformer

Description: 50W-200W Planar Transformers Size P055 with 50A max current rating, frequency range 175-300kHZ. Patented (U.S. PAT. 7,129,809) design with superior thermal management. Topologies include Half Bridge, Forward (w/active rest), Flyback. High efficiency (low losses), ultra compact,

• Operating Frequency Range: 175000 to 300000 Hz
• Power Rating: 50 to 200 watts
• Transformer Types / Applications: Planar Transformer

Description: Three different schematics and 15 turns ratios to meet a variety of applications Rated for 140 Watts output between 200 kHz and 500 kHz Designed for -48 V input, making them ideal for Intermediate Bus Converters (IBC) High efficiency, low DCR and low

• Cooling: Dry-type / Air Cooled
• Maximum Primary Voltage Rating: 36 to 75 volts
• Operating Frequency Range: 200000 Hz
• Operating Temperature: -40 to 85 C

Description: Specifically developed for use with the TI LM5035 PWM Controller Listed on TI AN-1435 Application Note Low profile, high efficiency planar transformer Designed for 100 Watt applications Handles current to 30 A

• Cooling: Dry-type / Air Cooled
• Operating Temperature: -40 to 85 C
• Standards: RoHS Compliant
• Type: Isolation Transformer, Planar Transformer

Description: Specially developed for use with the TI UCC2897A Active Clamp PWM Controller Featured on PMP4804 and PMP5997 Demo Board/Reference Design Low profile, high efficiency planar transformer

• Cooling: Dry-type / Air Cooled
• Operating Temperature: -40 to 85 C
• Standards: RoHS Compliant
• Type: Planar Transformer

Description: Developed for Maxim MAX5069A PWM Controller For push-pull, half-bridge and full-bridge topologies Ideal for use in high-current power supply applications Designed using Coilcraft Planar Prototyping Kit C356.

• Cooling: Dry-type / Air Cooled
• Operating Temperature: -40 to 85 C
• Standards: RoHS Compliant
• Type: Isolation Transformer, Planar Transformer

Description: Specifies the shapes and dimensions of ferrite cores for inductive components (transformers and chokes). Their coil is typically constructed by multi-layer board or is part of the motherboard. Also provides general considerations upon which the design of this range of cores is based.

Description: Specifies the shapes and dimensions of ferrite cores for inductive components (transformers and chokes). Their coil is typically constructed by multi-layer board or is part of the motherboard. Also provides general considerations upon which the design of this range of cores is based.

Description: Specifies the shapes and dimensions of ferrite cores for inductive components (transformers and chokes). Their coil is typically constructed by multi-layer board or is part of the motherboard. Also provides general considerations upon which the design of this range of cores is based.

Description: Specifies the shapes and dimensions of ferrite cores for inductive components (transformers and chokes). Their coil is typically constructed by multi-layer board or is part of the motherboard. Also provides general considerations upon which the design of this range of cores is based.

Description: EPCOS ELP ferrite cores enable the design of flat transformers and feature excellent thermal performance due to the large core surface. Planar E shape transformer cores offer an attractive alternative to conventional core shapes, ideal for when low profile magnetic

• Inductance: 8400 nH
• Length: 58.4 mm
• Width: 38.1 mm

Description: EPCOS ELP ferrite cores enable the design of flat transformers and feature excellent thermal performance due to the large core surface. Planar E shape transformer cores offer an attractive alternative to conventional core shapes, ideal for when low profile magnetic

• Inductance: 14000 nH
• Length: 64 mm
• Width: 50.8 mm

Description: EPCOS ELP ferrite cores enable the design of flat transformers and feature excellent thermal performance due to the large core surface. Planar E shape transformer cores offer an attractive alternative to conventional core shapes, ideal for when low profile magnetic

• Inductance: 7400 nH
• Length: 58.4 mm
• Width: 38.1 mm

Description: EPCOS ELP ferrite cores enable the design of flat transformers and feature excellent thermal performance due to the large core surface. Planar E shape transformer cores offer an attractive alternative to conventional core shapes, ideal for when low profile magnetic

• Inductance: 7300 nH
• Length: 43.2 mm
• Width: 27.9 mm

Description: Sound Advance The Sound Advance® CT8 is a unique, extended bandwidth, wide-dispersion planar loudspeaker designed for use in commercial installations. Patented Planar Diaphragm Technology? allows a CT8 that has been properly installed in a ceiling or wall boundary to

Description: transformer design Accurate driving scheme of both primary and secondary MOSFETs Benefits BiC efficiency for ZVS PSFB topology Optimal use of CoolMOS™ and OptiMOS™ BiC devices High power density Graphica user interface

• Category: Development Board
• Host Interface: Other
• Supported System: Other

Description: output voltage Benefits System solution using GaN, SiC and Si Highest efficiency and power density High power density planar transformer Re-rush current control Digital control for both converters List of Components

• Category: Development Board
• Supported System: Other

Description: Component Design : Heat Shrink Material System : Crosslinked Polyolefin Power Cable End Cap Shrink Ratio : > 2:1 Usage Conditions Chemical Resistance : Transformer Oil VDE

• Applications: Residential / General-Purpose
• RoHS Compliant: Yes

Description: Component Design : Heat Shrink Material System : Crosslinked Polyolefin Power Cable End Cap Shrink Ratio : > 2:1 Usage Conditions Chemical Resistance : Transformer Oil

• Applications: Residential / General-Purpose
• RoHS Compliant: Yes

Description: Component Design : Heat Shrink Material System : Crosslinked Polyolefin Power Cable End Cap Shrink Ratio : > 2:1 Usage Conditions Chemical Resistance : Transformer Oil

• Applications: Residential / General-Purpose
• RoHS Compliant: Yes

Description: Component Design : Heat Shrink Material System : Crosslinked Polyolefin Power Cable End Cap Shrink Ratio : > 2:1 Usage Conditions Chemical Resistance : Transformer Oil

• Applications: Residential / General-Purpose