A method and apparatus include receiving a measurement configuration by higher layer signaling, where the higher layer signaling is above the physical layer. The measurement configuration includes at least information of frequency location of synchronization signals, a carrier frequency, and a maximum allowed measurement bandwidth. A measurement reference signal is then received based on the received measurement configuration, and a measurement based on the received measurement reference signal is performed.

A medium access control-high speed (MAC-hs) comprises a hybrid automatic repeat request (H-ARQ) device configured to receive data blocks over a wideband-code division multiple access (W-CDMA) high speed-downlink shared channel (HS-DSCH). The H-ARQ device generates an acknowledgement (ACK) or negative acknowledgement (NACK) for each said data block received. Each received data block having a transmission sequence number. The H-ARQ device receives a new transmission instead of a pending retransmission at any time. At least one reordering device has an input configured to receive an output of the H-ARQ device and the at least one reordering device configured to reorder the received data blocks based on each received data block's transmission sequence number (TSN). Received data blocks are immediately forwarded for processing for higher layers when the received data blocks are received in sequence.

Power amplifier having biasing with selectable bandwidth. In some embodiments, a power amplifier can include an amplifying transistor having a base for receiving a signal to be amplified, and a bias circuit configured to bias the amplifying transistor. The bias circuit can include a reference transistor having a base coupled to the base of the amplifying transistor and a collector coupled to a reference current source. The bias circuit can further include a coupling circuit that couples the collector and the base of the reference transistor. The coupling circuit can include a switchable element configured to allow the coupling circuit to be in a first state to provide a first bandwidth for the bias circuit or a second state to provide a second bandwidth for the bias circuit.

A medium access control-high speed (MAC-hs) comprises a hybrid automatic repeat request (H-ARQ) device configured to receive data blocks over a wideband-code division multiple access (W-CDMA) high speed-downlink shared channel (HS-DSCH). The H-ARQ device generates an acknowledgement (ACK) or negative acknowledgement (NACK) for each said data block received. Each received data block having a transmission sequence number. The H-ARQ device receives a new transmission instead of a pending retransmission at any time. At least one reordering device has an input configured to receive an output of the H-ARQ device and the at least one reordering device configured to reorder the received data blocks based on each received data block's transmission sequence number (TSN). Received data blocks are immediately forwarded for processing for higher layers when the received data blocks are received in sequence.

Power amplifier having biasing with selectable bandwidth. In some embodiments, a power amplifier can include an amplifying transistor having a base for receiving a signal to be amplified, and a bias circuit configured to bias the amplifying transistor. The bias circuit can include a reference transistor having a base coupled to the base of the amplifying transistor and a collector coupled to a reference current source. The bias circuit can further include a coupling circuit that couples the collector and the base of the reference transistor. The coupling circuit can include a switchable element configured to allow the coupling circuit to be in a first state to provide a first bandwidth for the bias circuit or a second state to provide a second bandwidth for the bias circuit.