Managing control signaling overhead for multi-carrier HSDPA

What is claimed: 1. A wireless transmit/receive unit (WTRU), the WTRU comprising: a processor configured to: receive an order type and an order mapping via a high speed shared control channel (HS-SCCH) order; determine an activation status of closed loop transmit diversity (CLTD) and an activation status of single transmission based on the order type and the order mapping, wherein the order type comprises a first sequence of three bits ‘011’ and the order mapping comprises a second sequence of three bits, and wherein the order type and different sequences of the order mapping indicate the activation status of CLTD and the activation status of single transmission; and based on the activation status of CLTD and the activation status of single transmission indicated by the order type and the order mapping: activate CLTD and deactivate single transmission on each of a plurality of antennas, or deactivate CLTD and activate single transmission on one of the plurality of antennas. 2. The WTRU of claim 1 , wherein the processor is configured to: determine that the activation status of CLTD is active and the activation status of single transmission is inactive when the order mapping comprises a first sequence of three bits; and determine that the activation status of CLTD is inactive and the activation status of single transmission on one of a plurality of antennas is active when the order mapping comprises a second sequence of three bits. 3. The WTRU claim 1 , wherein the processor is configured to determine that the activation status of CLTD is active and the activation status of single transmission is inactive when the sequence of three bits of the order mapping includes a value of ‘111’. 4. The WTRU of claim 1 , wherein the processor is configured to determine that the activation status of CLTD is inactive and the activation status of single transmission on one of a plurality of antennas is active when the sequence of three bits of the order mapping includes a value of at least one of ‘101,’ ‘110,’ ‘001,’ or ‘010’. 5. The WTRU of claim 1 , wherein the processor being configured to determine the activation status of CLTD and the activation status of single transmission based on the order type and order mapping includes the processor being configured to: compare the received order type with one or more order types in a mapping table; compare the received order mapping with one or more order mappings in the mapping table; access the activation status of CLTD and the activation status of single transmission if the received order type matches one of the one or more order types in the mapping table and the received order mapping matches one of the one or more order mappings in the mapping table; and signal the activation status of CLTD and the activation status of single transmission. 6. The WTRU of claim 1 , wherein the processor being configured to activate single transmission on one of the plurality of antennas includes the processor being configured to activate single transmission with no secondary dedicated physical control channel (S-DPCCH) on one of the plurality of antennas, and wherein the processor being configured to deactivate single transmission on each of the plurality of antennas includes the processor being configured to deactivate single transmission with no S-DPCCH on each of the plurality of antennas. 7. A method for activating or deactivating uplink closed loop transmit diversity (CLTD) and activating or deactivating single transmission, the method comprising: receiving an order type and an order mapping via a high speed shared control channel (HS-SCCH) order; determining an activation status of CLTD and an activation status of single transmission based on the order type and the order mapping, wherein the order type comprises a first sequence of three bits ‘011’ and the order mapping comprises a second sequence of three bits, and wherein the order type and different sequences of the order mapping indicate the activation status of CLTD and the activation status of single transmission; and based on the activation status of CLTD and the activation status of single transmission indicated by the order type and the order mapping: activating CLTD and deactivating single transmission on each of a plurality of antennas, or deactivating CLTD and activating single transmission on one of the plurality of antennas. 8. The method of claim 7 , further comprising: determining that the activation status of CLTD is active and the activation status of single transmission is inactive when the order mapping comprises a first sequence of three bits; and determining that the activation status of CLTD is inactive and the activation status of single transmission on one of a plurality of antennas is active when the order mapping comprises a second sequence of three bits. 9. The method of claim 7 , wherein determining the activation status of CLTD and the activation status of single transmission based on the order type and order mapping further comprises: comparing the received order type with one or more order types in a mapping table; comparing the received order mapping with one or more order mappings in the mapping table; accessing the activation status of CLTD and the activation status of single transmission if the received order type matches one of the one or more order types in the mapping table and the received order mapping matches one of the one or more order mappings in the mapping table; and signaling the activation status of CLTD and the activation status of single transmission. 10. The method of claim 7 , further comprising determining that the activation status of CLTD is active and the activation status of single transmission is inactive when the sequence of three bits of the order mapping includes a value of ‘111’. 11. The method of claim 7 , further comprising determining that the activation status of CLTD is inactive and the activation status of single transmission on one of a plurality of antennas is active when the sequence of three bits of the order mapping includes a value of at least one of ‘101,’ ‘110,’ ‘001,’ or ‘010’. 12. The method of claim 7 , wherein activating single transmission on one of the plurality of antennas includes activating single transmission with no secondary dedicated physical control channel (S-DPCCH) on one of the plurality of antennas, and wherein deactivating single transmission on each of the plurality of antennas includes deactivating single transmission with no S-DPCCH on each of the plurality of antennas.