Method and apparatus for ranging

What is claimed is: 1. An apparatus, comprising: a transceiver circuit configured to transmit and receive wireless signals; and a processing circuit configured to: generate, using an extended control frame format, a request frame to indicate an enhanced fine timing measurement (EFTM) based range measurement to a second apparatus and a bandwidth of a transmission opportunity (TXOP), wherein the EFTM based range measurement is to be performed during the TXOP; cause the transceiver circuit to transmit, subsequent to the TXOP being granted to the apparatus, wireless signals carrying the request frame to start the EFTM based range measurement, wherein the EFTM based range measurement comprises an exchange of null data packets with the second apparatus during the TXOP; and determine a round trip time based on departure and arrival timing information of the null data packets. 2. The apparatus of claim 1 , wherein the processing circuit is configured to receive a report frame sent by the second apparatus, determine, based on the report frame, a departure time of a first null data packet and an arrival time of a second null data packet that are recorded by the second apparatus, and wherein the processing circuit is configured to determine the round trip time based on i) an arrival time of the first null data packet and a departure time of the second null data packet that are recorded by the apparatus and ii) the determined departure time of the first null data packet and the determined arrival time of the second null data packet. 3. The apparatus of claim 1 , wherein the processing circuit is configured to generate the request frame that includes at least one of a dialog token with a value of a present range measurement, an indicator of feedback type, and channel state parameters. 4. The apparatus of claim 1 , wherein: the transceiver is configured to receive wireless signals carrying a response frame in response to the request frame; the processing circuit is configured to detect a capability indicator for the EFTM based range measurement. 5. The apparatus of claim 1 , wherein the processing circuit is configured to generate the request frame to indicate a data rate and/or modulation and coding scheme for the second apparatus to use. 6. The apparatus of claim 1 , wherein the indicated bandwidth of the TXOP is negotiated between the apparatus and second apparatus. 7. The apparatus of claim 1 , wherein the indicated bandwidth has a value corresponding to one or more of the bandwidth of the request frame and the null data packets. 8. An apparatus, comprising: a transceiver circuit configured to transmit and receive wireless signals that carry datagrams; and a processing circuit configured to: parse a request frame received by the transceiver circuit during a transmit opportunity (TXOP), the request frame defined by an extended control frame format the request frame being configured to indicate an enhanced fine timing measurement (EFTM) based range measurement during the TXOP and a bandwidth of the TXOP, wherein the EFTM based range measurement is initiated by a second apparatus; record a departure time of a first null data packet that is transmitted by the transceiver circuit and an arrival time of a second null data packet that is received by the transceiver circuit, wherein the first null packet is transmitted and the second null packet is received during the TXOP; generate a report frame to include the departure time of the first null data packet and the arrival time of the second null data packet; and cause the transceiver circuit to transmit the report frame to the second apparatus for the second apparatus during the TXOP to determine a round trip time based on the departure time of the first null data packet and the arrival time of the second null data packet. 9. The apparatus of claim 8 , wherein: the processing circuit is configured to generate a response frame in response to the request frame, the response frame including a capacity indicator for the EFTM based range measurement. 10. The apparatus of claim 8 , wherein the processing circuit is configured to determine that a medium for the EFTM based range measurement is idle before causing the transceiver circuit to transmit wireless signals for the EFTM based range measurement. 11. The apparatus of claim 8 , wherein the processing circuit is configured to cause the transceiver circuit to transmit wireless signals for the EFTM based range measurement without a medium idle detection. 12. The apparatus of claim 8 , wherein the processing circuit is configured to determine at least one of a data rate, a modulation and coding scheme (MCS), and a data unit format: according to an indicator in the request frame; according to a data rate, an MCS and a data unit format that are used for the request frame; or independent of the request frame. 13. The apparatus of claim 8 , wherein the indicated bandwidth has a value corresponding to one or more of the bandwidth of the request frame, the null data packets, and the report frame. 14. A method for ranging, comprising: generating, by an electronic device, using an extended control frame format, a request frame to indicate an enhanced fine timing measurement (EFTM) based range measurement to a second electronic device and a bandwidth of a transmission opportunity (TXOP), wherein the EFTM based range measurement is to be performed during the TXOP; transmitting, subsequent to the TXOP being granted to the electronic device, wireless signals carrying the request frame to start the EFTM based range measurement, wherein the EFTM based range measurement comprises an exchange of null data packets with the second electronic device during the TXOP; and determining a round trip time based on departure and arrival timing information of the null data packets. 15. The method of claim 14 , wherein determining the round trip time based on the departure and arrival timing information of the null data packets further comprises: receiving a report frame sent by the second electronic device; determining, based on the report frame, a departure time of a first null data packet and an arrival time of a second null data packet that are recorded by the second electronic device; and determining the round trip time based on an arrival time of the first null data packet and a departure time of the second null data packet that are recorded by the electronic device and the departure time of the first null data packet and the arrival time of the second null data packet. 16. The method of claim 14 , wherein generating, by the electronic device, the request frame using the extended control frame format to indicate the EFTM based range measurement to the second electronic device further comprises: including at least one of a dialog token with a value of a present range measurement, an indicator of feedback type, and channel state parameters in the request frame. 17. The method of claim 14 , further comprising: receiving wireless signals carrying a response frame in response to the request frame; and detecting a capability indicator for the EFTM based range measurement in the response frame. 18. The method of claim 14 , wherein generating, by the electronic device, the request frame using the extended control frame format to indicate the EFTM based range measurement to the second electronic device further comprises: generating the request frame to indicate a data rate and/or modulation and coding scheme for the second electronic device to use. 19. A me