Avoiding media access control padding of trigger-based physical layer convergence protocol data unit

What is claimed is: 1 . A method, comprising: receiving, by a wireless station (STA), a trigger frame specifying a first length of a trigger-based (TB) packet; generating, by the STA, a first TB packet that includes a preamble, data, and padding, wherein a second length of the first TB packet is less than the first length; transmitting, by the STA, the first TB packet during an uplink transmission; and shutting down the STA in response to completing transmission of the first TB packet and before an end of the uplink transmission. 2 . The method of claim 1 , wherein shutting down the STA comprises reducing a gain of the STA at a slower rate than a rate of a brick wall response. 3 . The method of claim 1 , wherein shutting down the STA comprises reducing a gain of the STA during a period of a plurality of μs. 4 . The method of claim 1 , wherein shutting down the STA comprises reducing a gain of the STA at a rate selected to avoid transient events in other wireless stations that receive the trigger frame. 5 . The method of claim 1 , wherein shutting down the STA comprises gradually dropping a gain of the STA over time. 6 . The method of claim 1 , wherein shutting down the STA comprises gradually shutting down radio frequency (RF) power associated with transmitting the first TB packet. 7 . The method of claim 1 , further comprising receiving, by the STA, a block acknowledgement in response to completing transmission of the first TB packet. 8 . The method of claim 1 , wherein the preamble comprises a legacy preamble and a high efficiency (HE) preamble. 9 . The method of claim 1 , wherein the trigger frame is a trigger frame in accordance with an IEEE 802.11 protocol standard. 10 . The method of claim 1 , wherein receiving the trigger frame comprises receiving the trigger frame from an access point (AP) that complies with an IEEE 802.11ax protocol standard. 11 . The method of claim 1 , wherein the STA is a mobile device and includes an IEEE 802.11-conformant physical layer (PHY) interface. 12 . The method of claim 1 , wherein the trigger frame specifies a transmit power, a modulation and coding scheme (MCS), a number of spatial streams (NSS), a channel width, a modulation scheme, an encoding scheme, a physical layer convergence protocol data unit (PPDU) format, a bandwidth (BW), and a PPDU duration. 13 . A wireless device comprising: a radio front end module; and a processor configured to: receive, via the radio front end module, a trigger frame specifying a first length of a trigger-based (TB) packet; generate a first TB packet that includes a preamble, data, and padding, wherein a second length of the first TB packet is less than the first length; transmit the first TB packet during an uplink transmission; and shut down the wireless device in response to completing transmission of the first TB packet and before an end of the uplink transmission. 14 . The wireless device of claim 13 , wherein shutting down the wireless device comprises reducing a gain of the wireless device at a slower rate than a rate of a brick wall response. 15 . The wireless device of claim 13 , wherein shutting down the wireless device comprises reducing a gain of the wireless device during a period of a plurality of μs. 16 . The wireless device of claim 13 , wherein shutting down the wireless device comprises reducing a gain of the wireless device at a rate selected to avoid transient events in another wireless device. 17 . The wireless device of claim 13 , wherein shutting down the wireless device comprises gradually dropping a gain of the wireless device over time. 18 . The wireless device of claim 13 , wherein shutting down the wireless device comprises gradually shutting down the radio front end module. 19 . The wireless device of claim 13 , wherein the processor is configured to receive a block acknowledgement in response to completing transmission of the first TB packet. 20 . The wireless device of claim 13 , wherein the preamble comprises a legacy preamble and a high efficiency (HE) preamble. 21 . The wireless device of claim 13 , wherein the trigger frame is a trigger frame in accordance with an IEEE 802.11 protocol standard. 22 . The wireless device of claim 13 , wherein receiving the trigger frame comprises receiving the trigger frame from an access point (AP) that complies with an IEEE 802.11ax protocol standard. 23 . The wireless device of claim 13 , wherein the wireless device is a mobile device and includes an IEEE 802.11-conformant physical layer (PHY) interface. 24 . The wireless device of claim 13 , wherein the trigger frame specifies a transmit power, a modulation and coding scheme (MCS), a number of spatial streams (NSS), a channel width, a modulation scheme, an encoding scheme, a physical layer convergence protocol data unit (PPDU) format, a bandwidth (BW), and a PPDU duration. 25 . The wireless device of claim 13 , wherein the wireless device further comprises an antenna coupled to the radio front end module.