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System Description |
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Wireless Power Transfer |
Version 1.1 Addendum B4 |
General |
the lowest address, and the lsb of the multiple-bit field is located in the byte with the highest address. (Informative) Figure 1-2 provides an example of a 6-bit field that spans two bytes.
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Figure 1-2: Example of multiple-bit field
1.7Operators
This Section 1.7 defines the operators used in this System Description Wireless Power Transfer, which are less commonly used. The commonly used operators have their usual meaning.
1.7.1Exclusive-OR
The symbol ‘ ’ represents the exclusive-OR operation.
1.7.2Concatenation
The symbol ‘||’ represents concatenation of two bit strings. In the resulting concatenated bit string, the msb of the right-hand side operand directly follows the lsb of the left-hand side operand.
© Wireless Power Consortium, May 2012 |
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System Description |
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Wireless Power Transfer |
General |
Version 1.1 Addendum B4 |
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© Wireless Power Consortium, May 2012 |
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System Description |
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Wireless Power Transfer |
Version 1.1 Addendum B4 |
Power Transmitter Designs |
2 Power Transmitter Designs
This Section contains the definition of the new Power Transmitter design B4. The provisions in this Section will be integrated into [Part 1] in a next release of this System Description Wireless Power Transfer.
2.1.1Power Transmitter design B4
Power Transmitter design B4 enables Free Positioning. Figure 2-1 illustrates the functional block diagram of this design, which consists of two major functional units, namely a Power Conversion Unit and a Communications and Control Unit.
Communications
& Control Unit
Input Power
Inverter |
Power |
Impedance |
Conversion |
Matching |
Unit |
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Sensing |
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Multiplexer |
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Coil Array |
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Figure 2-1: Functional block diagram of Power Transmitter design B4
The Power Conversion Unit on the right-hand side of Figure 2-1 comprises the analog parts of the design. The design uses an array of partly overlapping Primary Coils to provide for Free Positioning. Depending on the position of the Power Receiver, the multiplexer connects and/or disconnects the appropriate Primary Coils. The impedance matching network forms a resonant circuit with the parts of the Primary Coil array that are connected. The sensing circuits monitor (amongst others) the Primary Cell current and voltage, and the inverter converts the DC input to an AC waveform that drives the Primary Coil array.
The Communications and Control Unit on the left-hand side of Figure 2-1 comprises the digital logic part of the design. This unit receives and decodes messages from the Power Receiver, configures the multiplexer to connect the appropriate parts of the Primary Coil array, executes the relevant power control algorithms and protocols, and drives the inverter to control the amount of power provided to the Power Receiver. The Communications and Control Unit also interfaces with the other subsystems of the Base Station, e.g. for user interface purposes.
© Wireless Power Consortium, May 2012 |
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