Physical layer frame format for WLAN

What is claimed is: 1. A method for generating and transmitting a physical layer (PHY) data unit for transmission via a communication channel, the PHY data unit conforming to a first communication protocol, the method comprising: generating, at a communication device, the PHY data unit, including generating a first preamble, of the PHY data unit, that conforms to the first communication protocol, wherein the first preamble includes a legacy signal field that is formatted according to a second communication protocol, the first preamble includes a non-legacy signal field having a first orthogonal frequency division multiplexing (OFDM) symbol and a second OFDM symbol, the first OFDM symbol (i) immediately follows the legacy signal field and (ii) is modulated using binary phase shift keying (BPSK) modulation, whereas a third communication protocol specifies that, in a second preamble defined by the third communication protocol, a third OFDM symbol that immediately follows the legacy signal field formatted according to the second communication protocol is modulated using BPSK modulation rotated by 90 degrees (Q-BPSK), wherein the first communication protocol specifies modulation of the first OFDM symbol to be BPSK modulation to cause a receiver device that conforms to the third communication protocol to determine that the data unit does not conform to the third communication protocol, wherein the third communication protocol is legacy with respect to the first communication protocol, the second OFDM symbol (i) immediately follows the first OFDM symbol and (ii) is modulated using Q-BPSK to indicate to a receiver device that conforms to the first communication protocol that the data unit conforms to the first communication protocol, and the first preamble is generated to include further fields that follow the non-legacy signal field and that conform to the first communication protocol; and transmitting, with the communication device, the PHY data unit via the communication channel. 2. The method of claim 1 , wherein generating the first preamble includes generating the legacy signal field such that the legacy signal field is decodable by i) receiver devices that conform to the second communication protocol but do not conform to the first communication protocol, and ii) receiver devices that conform to the third communication protocol but do not conform to the first communication protocol, to determine the duration of the PHY data unit using information in the legacy signal field. 3. The method of claim 2 , wherein generating the first preamble includes generating the legacy signal field such that the legacy signal field includes a rate subfield and a length subfield that indicate the duration of the PHY data unit. 4. The method of claim 1 , wherein generating the first preamble includes generating the non-legacy signal field according to a format that will cause a receiver device that conforms to the second communication protocol, and not the first communication protocol, to detect an error. 5. The method of claim 1 , wherein generating the first preamble includes generating the non-legacy signal field according to a format that will cause a receiver device that conforms to the third communication protocol, and not the first communication protocol, to detect an error. 6. The method of claim 1 , wherein modulating the first OFDM symbol using BPSK modulation causes receiver devices that conform to the third communication protocol, and not the first communication protocol, to assume that the PHY data unit conforms to the second communication protocol. 7. The method of claim 1 , wherein: the second communication protocol is a protocol defined by the IEEE 802.11a standard; and the third communication protocol is a protocol, different from the protocol defined by the IEEE 802.11a standard, that is legacy with respect to the first communication protocol. 8. The method of claim 1 , wherein: the non-legacy signal field is a first signal field; the further fields that follow the first signal field include: a plurality of training fields, and a second signal field that follows the plurality of training fields. 9. The method of claim 8 , wherein transmitting the PHY data unit includes: transmitting, with the communication device, a first portion of the PHY data unit without beamsteering, wherein the first portion includes the legacy signal field and the first signal field; and transmitting, with the communication device, a second portion of the PHY data unit with beamsteering, wherein the second portion includes the second signal field. 10. The method of claim 1 , wherein generating the PHY data unit further includes generating a payload of the PHY data unit. 11. An apparatus, comprising: a wireless local area network (WLAN) physical layer (PHY) unit, the WLAN PHY unit implemented on one or more integrated circuit devices configured to generate a PHY data unit conforming to a first communication protocol, including generating a first preamble, of the PHY data unit, that conforms to the first communication protocol, wherein the first preamble includes a legacy signal field that is formatted according to a second communication protocol, the first preamble includes a non-legacy signal field having a first orthogonal frequency division multiplexing (OFDM) symbol and a second OFDM symbol, the first OFDM symbol (i) immediately follows the legacy signal field and (ii) is modulated using binary phase shift keying (BPSK) modulation, whereas a third communication protocol specifies that, in a second preamble defined by the third communication protocol, a third OFDM symbol that immediately follows the legacy signal field formatted according to the second communication protocol is modulated using BPSK modulation rotated by 90 degrees (Q-BPSK), wherein the first communication protocol specifies modulation of the first OFDM symbol to be BPSK modulation to cause a receiver device that conforms to the third communication protocol to determine that the data unit does not conform to the third communication protocol, wherein the third communication protocol is legacy with respect to the first communication protocol, the second OFDM symbol (i) immediately follows the first OFDM symbol and (ii) is modulated using Q-BPSK to indicate to a receiver device that conforms to the first communication protocol that the data unit conforms to the first communication protocol, and the first preamble is generated to include further fields that follow the non-legacy signal field and that conform to the first communication protocol; wherein the WLAN PHY unit includes one or more transceivers, implemented on the one or more integrated circuits, wherein the one or more transceivers are configured to transmit the generated data unit via a communication channel. 12. The apparatus of claim 11 , wherein the one or more integrated circuit devices are configured to generate the legacy signal field such that the legacy signal field is decodable by i) receiver devices that conform to the second communication protocol, and ii) receiver devices that conform to the third communication protocol, to determine the duration of the PHY data unit using information in the legacy signal field. 13. The apparatus of claim 12 , wherein the one or more integrated circuit devices are configured to generate the legacy signal field to include a rate subfield and a length subfield that indicate the duration of the PHY data unit. 14. The apparatus of claim 11 , wherein the one or more integrated circuit devices are configured to generate the non-legacy signal field according to a format that will cau