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System Description

Wireless Power Transfer

Volume I: Low Power

Part 1: Interface Definition

Version 1.1 Addendum B5

July 2012

System Description

Wireless Power Transfer

Version 1.1 Addendum B5

System Description

Wireless Power Transfer

Volume I: Low Power

Part 1: Interface Definition

Version 1.1 Addendum B5

July 2012

© Wireless Power Consortium, July 2012

System Description

Wireless Power Transfer

Version 1.1 Addendum B5

COPYRIGHT

This System Description Wireless Power Transfer is published by the Wireless Power Consortium, and has been prepared by the Wireless Power Consortium in close co-operation with the members of the Wireless Power Consortium. All rights are reserved. Reproduction in whole or in part is prohibited without express and prior written permission of the Wireless Power Consortium.

DISCLAIMER

The information contained herein is believed to be accurate as of the date of publication. However, the Wireless Power Consortium will not be liable for any damages, including indirect or consequential, from use of this System Description Wireless Power Transfer or reliance on the accuracy of this document.

NOTICE

For any further explanation of the contents of this document, or in case of any perceived inconsistency or ambiguity of interpretation, or for any information regarding the associated patent license program, please contact: info@wirelesspowerconsortium.com.

© Wireless Power Consortium, July 2012

Table of Contents

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1 General

1.1Scope

Volume I of the System Description Wireless Power Transfer consists of the following documents:

Part 1, Interface Definition.

Part 2, Performance Requirements.

Part 3, Compliance Testing.

This document defines the addition of a new Power Transmitter design. The material contained in this document will be integrated into Part 1 of Volume I of the System Description Wireless Power Transfer, at some later time.

1.2Conformance and references

All specifications in this document are mandatory, unless specifically indicated as recommended or optional or informative. To avoid any doubt, the word “shall” indicates a mandatory behavior of the specified component, i.e. it is a violation of this System Description Wireless Power Transfer if the specified component does not exhibit the behavior as defined. In addition, the word “should” indicates a recommended behavior of the specified component, i.e. it is not a violation of this System Description Wireless Power Transfer if the specified component has valid reasons to deviate from the defined behavior. And finally, the word “may” indicates an optional behavior of the specified component, i.e. it is up to the specified component whether to exhibit the defined behavior (without deviating there from) or not.

In addition to the specifications provided in this document, product implementations shall also conform to the specifications provided in the System Descriptions listed below. Moreover, the relevant parts of the International Standards listed below shall apply as well. If multiple revisions exist of any System Description or International Standard listed below, the applicable revision is the one that was most recently published at the release date of this document. Moreover, if there exist addendum documents to the applicable revision, such addendum documents are considered to be an integral part of that applicable revision.

1.3Definitions

This document introduces no new definitions to the System Description Wireless Power Transfer.

1.4Acronyms

This document introduces no new acronyms to the System Description Wireless Power Transfer.

1.5Symbols

This document introduces no new symbols to the System Description Wireless Power Transfer.

1.6Conventions

This Section 1.6 defines the notations and conventions used in this System Description Wireless Power Transfer.

1.6.1Cross references

Unless indicated otherwise, cross references to Sections in either this document or documents listed in Section 1.2, refer to the referenced Section as well as the sub Sections contained therein.

1.6.2Informative text

With the exception of Sections that are marked as informative, all informative text is set in italics.

1.6.3Terms in capitals

All terms that start with a capital are defined in Section 1.3. As an exception to this rule, definitions that already exist in [Part 1], [Part 2], or [Part 3], are not redefined.

1.6.4Notation of numbers

Real numbers are represented using the digits 0 to 9, a decimal point, and optionally an exponential part. In addition, a positive and/or negative tolerance may follow a real number. Real numbers that do not include an explicit tolerance, have a tolerance of half the least significant digit that is specified.

comprises the range from 1.21 through 1.23; a specified value of 1.23 comprises the range from 1.225 through 1.234999…; and a specified value of comprises the range from 1.107 through 1.353.

Integer numbers in decimal notation are represented using the digits 0 to 9.

Integer numbers in hexadecimal notation are represented using the hexadecimal digits 0 to 9 and A to F, and are preceded by “0x” (unless explicitly indicated otherwise).

Single bit values are represented using the words ZERO and ONE.

Integer numbers in binary notation and bit patterns are represented using sequences of the digits 0 and 1that are enclosed in single quotes (‘’). In a sequence of n bits, the most significant bit (msb) is bit bn–1 and the least significant bit (lsb) is bit b0; the most significant bit is shown on the left-hand side.

1.6.5Units of physical quantities

Physical quantities are expressed in units of the International System of Units [SI].

1.6.6Bit ordering in a byte

The graphical representation of a byte is such that the msb is on the left, and the lsb is on the right. Figure 1-1 defines the bit positions in a byte.

Figure 1-1: Bit positions in a byte

1.6.7Byte numbering

The bytes in a sequence of n bytes are referred to as B0, B1, …, Bn–1. Byte B0 corresponds to the first byte in the sequence; byte Bn–1 corresponds to the last byte in the sequence. The graphical representation of a byte sequence is such that B0 is at the upper left-hand side, and byte Bn–1 is at the lower right-hand side.

1.6.8Multiple-bit Fields

Unless indicated otherwise, a multiple bit field in a data structure represents an unsigned integer value. In a multiple-bit field that spans multiple bytes, the msb of the multiple-bit field is located in the byte with

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.

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.