JP2017519398A5 - - Google Patents

Description

While the invention has been described in connection with specific examples that are merely exemplary and not limiting of the invention, multiple changes, additions, and / or deletions are within the scope of the invention. It may be made to the disclosed embodiments without departing.
According to the present application, forms described in the following items are also disclosed.
[Item 1]
A method of generating a physical layer data unit (PHY data unit) for transmission according to a wireless communication protocol, wherein the wireless communication protocol has a first PHY mode and a second PHY mode,
Generating a first preamble part of the PHY data unit according to a first clock rate, the first preamble part being in accordance with the first PHY mode when the PHY data unit is transmitted according to the first PHY mode; The first preamble part is formatted according to the second PHY mode when the PHY data unit is transmitted according to the second PHY mode;
Generating an OFDM portion of the PHY data unit, the OFDM portion having a second preamble portion including one or more long training fields following the first preamble portion; Clocked at the first clock rate when the data unit is transmitted according to the first PHY mode, and clocked at a second clock rate different from the first clock rate when the PHY data unit is transmitted according to the second PHY mode. To be with the stage
With
Method.
[Item 2]
The step of generating the first preamble part includes generating a set of pilot tones in the first preamble part indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode. The method according to 1.
[Item 3]
Item 2 wherein, when the PHY data unit is transmitted according to the second PHY mode, a plurality of signals of at least some pilot tones in the set of pilot tones are flipped compared to the first PHY mode. The method described.
[Item 4]
The step of generating the first preamble portion includes the step of generating the first preamble portion having a field including information indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode. 4. The method according to any one of items 1 to 3.
[Item 5]
The field including information indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode is 1) after a legacy part in the first preamble part, and 2) the first preamble part. Item 5. The method of item 4, which is a signal field that occurs before the short training field in
[Item 6]
6. The method according to any one of items 1 to 5, wherein the second clock rate is lower than the first clock rate.
[Item 7]
7. The method of item 6, wherein the second clock rate is a fraction of the first clock rate.
[Item 8]
8. The method of item 7, wherein the second clock rate is 1/4 of the first clock rate.
[Item 9]
6. The method according to any one of items 1 to 5, wherein the second clock rate is faster than the first clock rate.
[Item 10]
When the OFDM part is generated, and thus the PHY data unit is transmitted according to the first PHY mode, a plurality of OFDM symbols in the OFDM part have a first duration, and the PHY data unit is the first PHY data unit. The item according to any one of items 1 to 9, wherein when transmitted according to a 2PHY mode, a plurality of OFDM symbols in the OFDM section have a second duration, and the second duration is different from the first duration. The method described in 1.
[Item 11]
Item 11. The method of item 10, wherein the second duration is longer than the first duration.
[Item 12]
When the OFDM unit is generated, and thus the PHY data unit is transmitted according to the first PHY mode, a plurality of OFDM symbols in the OFDM unit have a first tone interval, and the PHY data unit is the first PHY data unit. The item according to any one of items 1 to 11, wherein when transmitted according to a 2PHY mode, a plurality of OFDM symbols in the OFDM section have a second tone interval, and the second tone interval is different from the first tone interval. The method described in 1.
[Item 13]
13. The method of item 12, wherein the second tone interval is less than the first tone interval.
[Item 14]
A communication device comprising a network interface having one or more integrated circuits,
The one or more integrated circuits are:
Generating a first preamble portion of a physical layer data unit for transmission (PHY data unit) according to a wireless communication protocol having a first PHY mode and a second PHY mode according to a first clock rate;
Generating an OFDM portion of the PHY data unit;
The first preamble part is formatted according to the first PHY mode when the PHY data unit is transmitted according to the first PHY mode;
The first preamble part is formatted according to the second PHY mode when the PHY data unit is transmitted according to the second PHY mode;
The OFDM part is
Following the first preamble part,
Having a second preamble portion including one or more long training fields;
Clocked at the first clock rate when the PHY data unit is transmitted according to a first PHY mode;
Clocked at a second clock rate different from the first clock rate when the PHY data unit is transmitted according to a second PHY mode;
Communication device.
[Item 15]
15. The item (14), wherein the one or more integrated circuits generate a set of pilot tones in the first preamble portion indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode. Communication devices.
[Item 16]
Item 15. The plurality of signals of at least some pilot tones in the set of pilot tones are flipped when compared to the first PHY mode when the PHY data unit is transmitted according to the second PHY mode. The communication device described.
[Item 17]
Items 14 to 16 wherein the one or more integrated circuits generate the first preamble portion having a field including information indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode. The communication device according to any one of the above.
[Item 18]
The field including information indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode is 1) after a legacy part in the first preamble part, and 2) the first preamble part. Item 18. The communication device of item 17, wherein the communication device is a signal field that occurs before the short training field.
[Item 19]
The communication device according to any one of items 14 to 18, wherein the second clock rate is lower than the first clock rate.
[Item 20]
20. The communication device according to item 19, wherein the second clock rate is a fraction of the first clock rate.
[Item 21]
Item 21. The communication device according to Item 20, wherein the second clock rate is 1/4 of the first clock rate.
[Item 22]
20. The communication device according to any one of items 14 to 19, wherein the second clock rate is faster than the first clock rate.
[Item 23]
The one or more integrated circuits generate the OFDM part, so that when the PHY data unit is transmitted according to the first PHY mode, a plurality of OFDM symbols in the OFDM part have a first duration. And a plurality of OFDM symbols in the OFDM unit have a second duration when the PHY data unit is transmitted according to the second PHY mode, and the second duration is different from the first duration The communication device according to any one of Items 14 to 22.
[Item 24]
24. The communication device of item 23, wherein the second duration is longer than the first duration.
[Item 25]
The one or more integrated circuits generate the OFDM part, so that when the PHY data unit is transmitted according to the first PHY mode, a plurality of OFDM symbols in the OFDM part have a first tone interval. And when the PHY data unit is transmitted according to the second PHY mode, a plurality of OFDM symbols in the OFDM unit have a second tone interval, and the second tone interval is different from the first tone interval. 25. The communication device according to any one of items 14 to 24.
[Item 26]
26. The communication device of item 25, wherein the second tone interval is smaller than the first tone interval.

Claims (22)

A method of generating a physical layer data unit (PHY data unit) for transmission according to a wireless communication protocol, wherein the wireless communication protocol has a first PHY mode and a second PHY mode,
Generating a first preamble part of the PHY data unit according to a first clock rate, the first preamble part including a legacy part and a high-efficiency WLAN signal (HEW-SIGA) field, wherein the legacy part comprises: A legacy short training field (L-STF), a legacy long training field (L-LTF), and a legacy signal (L-SIG) field, wherein the first preamble portion is a PHY data unit Formatting the second preamble part and the data part to indicate whether the first clock rate or a second clock rate lower than the first clock rate is clocked ;
Wherein a step of generating the second preamble portion and the data portion of the PHY data unit, the second preamble section and the data section is followed by the first preamble portion, the second preamble section, one or more efficient WLAN long training field (HEW-LTF) seen including, the second preamble part and the data part, if the PHY data unit is transmitted in accordance with the first 1PHY mode, the first Clocked at a second clock rate that is lower than the first clock rate when clocked at a clock rate and the PHY data unit is transmitted according to the second PHY mode.   Generating the first preamble portion includes generating a set of pilot tones in the first preamble portion indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode. Item 2. The method according to Item 1.   The plurality of signals of at least some pilot tones in the set of pilot tones are flipped when compared to the first PHY mode when the PHY data unit is transmitted according to the second PHY mode. The method described in 1.   The step of generating the first preamble portion includes the step of generating the first preamble portion having a field including information indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode. 4. The method according to any one of claims 1 to 3.   The field including information indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode is 1) after a legacy part in the first preamble part, and 2) the first preamble part. The method of claim 4, wherein the signal field occurs before the short training field at. The method according to any one of claims 1 to 5, wherein the second clock rate is a fraction of the first clock rate. The method of claim 6 , wherein the second clock rate is 1/2, 1/4 , 1/10, or 1/16 of the first clock rate. The second preamble part and the data part are generated, whereby when the PHY data unit is transmitted according to the first PHY mode, a plurality of OFDM symbols in the second preamble part and the data part are first sustained. When the PHY data unit is transmitted according to the second PHY mode, a plurality of OFDM symbols in the second preamble part and the data part have a second duration, and the second duration is the first duration is different, the method according to any one of claims 1 to 7. The method of claim 8 , wherein the second duration is longer than the first duration. When the second preamble part and the data part are generated so that the PHY data unit is transmitted according to the first PHY mode, a plurality of OFDM symbols in the second preamble part and the data part are first tones. When the PHY data unit is transmitted according to the second PHY mode, a plurality of OFDM symbols in the second preamble part and the data part have a second tone interval, and the second tone interval is 10. The method according to any one of claims 1 to 9 , wherein the method is different from the first tone interval. The method of claim 10 , wherein the second tone interval is less than the first tone interval. A communication device comprising a network interface having one or more integrated circuits,
The one or more integrated circuits are:
Generating a first preamble portion of a physical layer data unit for transmission (PHY data unit) according to a wireless communication protocol having a first PHY mode and a second PHY mode according to a first clock rate;
Generating a second preamble portion and a data portion of the PHY data unit;
The first preamble part includes a legacy part and a high efficiency WLAN signal (HEW-SIGA) field ;
The first preamble portion is formatted to indicate whether the second preamble portion and the data portion of the PHY data unit are clocked at a first clock rate or a second clock rate lower than the first clock rate. And
The second preamble part and the data part follow the first preamble part,
It said second preamble section, viewed contains one or more high efficiency WLAN long training field (HEW-LTF),
Said second preamble section and the data section, the PHY data unit, when it is transmitted in accordance with the first 1PHY mode, clocked at the first clock rate,
Said second preamble section and the data section, wherein when the PHY data unit is transmitted in accordance with the first 2PHY mode is clocked at a lower than the first clock rate said second clock rate,
Communication device. Said one or more integrated circuits indicates whether the PHY data unit is generated according to the first 1PHY mode or said second 2PHY mode, to generate a set of pilot tones in said first preamble portion, to claim 12 The communication device described. Wherein when the PHY data unit is transmitted in accordance with the first 2PHY mode, as compared with the first 1PHY mode, a plurality of signals of at least some of the pilot tones in said set of pilot tones is flip claim 13 The communication device described in 1. Said one or more integrated circuit generates the first preamble section having a field containing information indicating whether the PHY data unit is generated according to the first 1PHY mode or said second 2PHY mode, claim 12 The communication device according to any one of 14 . The field including information indicating whether the PHY data unit is generated according to the first PHY mode or the second PHY mode is 1) after a legacy part in the first preamble part, and 2) the first preamble part. The communication device of claim 15 , wherein the communication device is a signal field that occurs before the short training field at. The communication device according to claim 12 , wherein the second clock rate is a fraction of the first clock rate. The communication device according to claim 17 , wherein the second clock rate is ½, ¼ , 1/10, or 1/16 of the first clock rate. The one or more integrated circuits generate the second preamble part and the data part , whereby when the PHY data unit is transmitted according to the first PHY mode, the second preamble part and the data When a plurality of OFDM symbols in the unit have a first duration and the PHY data unit is transmitted according to the second PHY mode, the plurality of OFDM symbols in the second preamble unit and the data unit have a second duration. The communication device according to any one of claims 12 to 18 , wherein the second duration is different from the first duration. The communication device of claim 19 , wherein the second duration is longer than the first duration. The one or more integrated circuits generate the second preamble part and the data part , whereby when the PHY data unit is transmitted according to the first PHY mode, the second preamble part and the data A plurality of OFDM symbols in the second preamble part and the data part have a second tone interval when a plurality of OFDM symbols in the part have a first tone interval and the PHY data unit is transmitted according to the second PHY mode. 21. The communication device according to any one of claims 12 to 20 , wherein the second tone interval is different from the first tone interval. The communication device according to claim 21 , wherein the second tone interval is smaller than the first tone interval.