EDCOR Electronics Corporation Datasheets for Audio Transformers
Audio transformers improve sound quality by removing interference from audio signals.
Audio Transformers: Learn more
Product Name | Notes |
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Boadcast Quality Sound These audio matchers use high quality low noise components to deliver broadcast and recording quality sound. Continuous Use Design Each unit is designed to operate continuously. Stereo... | |
Broadcast Quality Sound These audio matchers use high quality low noise components to deliver broadcast and recording quality sound. Continuous Use Design Each unit is designed to operate continuously. Balanced... | |
Broadcast Quality Sound These audio matchers use high quality low noise components to deliver broadcast and recording quality sound. Continuous Use Design Each unit is designed to operate continuously. Dual... | |
Broadcast Quality Sound These audio matchers use high quality low noise components to deliver broadcast and recording quality sound. Continuous Use Design Each unit is designed to operate continuously. Stereo... | |
Broadcast Quality Sound These audio matchers use high quality low noise components to deliver broadcast and recording quality sound. Continuous Use Design Each unit is designed to operate continuously. Unbalanced... | |
Design Mathematical and design analysis of the highly successful 1953 RCA ribbon microphone transformer together with new materials offer a new standard. Magnet Wire All units are wound with the... | |
Design Mathematically designed to match line level signals. Primary (Input) Designed for an unbalanced 10K Ohms or 7K Ohms line level signal. Secondary (Output) Designed for an unbalanced 300 Ohms... | |
Design Mathematically designed to produce a turns ratio of 1+1:3.49+3.46 for line level signals. Dual Primary (Input) Designed for a unbalanced 150 Ohms line level signal. Dual Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1+1:4.47+4.47 for line level signals. Dual Primary (Input) Designed for a unbalanced 150 Ohms line level signal. Dual Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1.2:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 15K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1.58+1.58:1+1 for line level signals. Dual Primary (Input) Designed for a unbalanced 500 Ohms line level signal. Dual Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 10K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 150 Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 15K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 600 Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:1 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone level signal. Secondary (Output) Designed for a... | |
Design Mathematically designed to produce a turns ratio of 1:1 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone or line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:1.2 for line level signals. Primary (Input) Designed for a balanced or unbalanced 10K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:10 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone or line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:1:1:1 for line level signals. Input/Output The transformer has four identical windings with a maximum voltage of 7.5Vrms. Magnet Wire All... | |
Design Mathematically designed to produce a turns ratio of 1:2 for line level signals. Primary (Input) Designed for a balanced or unbalanced 2.4K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:2 for line level signals. Primary (Input) Designed for a balanced or unbalanced 600 Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:2 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone level signal. Secondary (Output) Designed for a... | |
Design Mathematically designed to produce a turns ratio of 1:2 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone or line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:4.1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 600 Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:5 for line level signals. Primary (Input) Designed for a balanced or unbalanced 600 Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:5 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone level signal. Secondary (Output) Designed for a... | |
Design Mathematically designed to produce a turns ratio of 1:5 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone or line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 1:8 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone level signal. Secondary (Output) Designed for a... | |
Design Mathematically designed to produce a turns ratio of 1:8 for microphone level signals. Primary (Input) Designed for a balanced or unbalanced microphone or line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 2+2:1+1 for line level signals. Primary (Input) Designed for a low impedance source, such as an operational amplifier or transistor with... | |
Design Mathematically designed to produce a turns ratio of 2:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 2.4K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 2:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 600 Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 4.1:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 10K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 5:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 15K Ohms line level signal. Secondary (Output) Designed... | |
Design Mathematically designed to produce a turns ratio of 8.2:1 for line level signals. Primary (Input) Designed for a balanced or unbalanced 10K Ohms line level signal. Secondary (Output) Designed... | |
Design The EM3000 series auto distribution transformers are designed for the amplifier or the speaker side of a voltage speaker distribution system. Because they are bidirectional they can be used... | |
Design The EX-101 is a multi ratio isolated matching transformer. It can be used as a step up or step down matching transformer. This EX-101 is bidirectional. Primary/Secondary (Input/Output) The... | |
Design The EX-102 is a multi ratio auto matching transformer. It can be used as a step up or step down matching transformer. Input/Output The input impedance is a reflective... | |
Design The PC2570/600 audio matching transformer is designed for matching a 25V or 70V speaker distribution line to a balanced or unbalanced line level. Primary (Input) Designed for a 25V... | |
High Quality Sound The EZ series audio distribution transformers are designed for the speaker side of a voltage speaker distribution system. Continuous Use Design Each unit is designed to operate... | |
High Quality Sound The TPC2570/600 audio matching transformers are designed for matching a 25V or 70V speaker distribution line to a balanced or unbalanced line level. Continuous Use Design Each... | |
High Quality Sound The TTPC2570/600 audio matching transformers are designed for matching a 25V or 70V speaker distribution line to a balanced or unbalanced line level. Continuous Use Design Each... | |
High Quality Sound The WA series audio distribution transformers are designed for the amplifier output side of a voltage speaker distribution system. Continuous Use Design Each unit is designed to... | |
High Quality Sound The WS series audio distribution transformers are designed for the speaker side of a voltage speaker distribution system. Continuous Use Design Each unit is designed to operate... | |
High Quality Sound The WSM7000 series audio distribution transformers are designed to match 25V or 70V to 25V or 70V speaker distribution systems. Continuous Use Design Each unit is designed... | |
The EA series are similar to the Altec and Electro Voice 15000* series audio transformers and meet or exceed their specifications. Bidirectional Design The EA series audio distribution transformers are... |