1. A flat flexible battery comprising an electrode, at least one electrode internal current collector having first and second ends and at least one electrode external terminal having first and second ends, and a flexible nonconductive packaging material, said packaging material sealed together at at least one seal junction to form a seal area and a sealed housing surrounding said electrode, wherein said internal current collector and said external terminal are discrete structures, and wherein said internal current collector first end contacts said electrode, said internal current collector second end is positioned within said seal junction, said external terminal first end is positioned within said seal junction and said external terminal second end is positioned external said seal junction and external said housing wherein said internal current collector and said external terminal are not in physical contact within said seal junction.
2. The battery of claim 1, further comprising an electrically conductive medium disposed between the second end of the internal current collector and the first end of the external terminal.
3. The battery as defined in claim 2, wherein the electrically conductive medium comprises electrically conductive adhesive.
4. The battery as defined in claim 2, wherein the electrically conductive medium comprises epoxy.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A wireless transceiver which executes transmission and reception of data wirelessly by using at least two antennas, said wireless transceiver comprising:
a priority control unit which judges priority of transmit data, said priority being predetermined; and
a transmission mode table in which an identifier that uniquely identifies a transmission destination is associated with a transmission mode that indicates channel status of transmission matrix of a communication destination for each said transmission destination,
wherein a switching is made between a Space Division Multiplexing (SDM) method and a Space Time Blocking Coding (STBC) method, based on priority of said transmit data,
wherein the (SDM) method distributes as a plurality of transmission streams, and transmits said transmit data,
wherein said (STBC) method performs time-space encoding on said transmit data, and
wherein, when data is transmitted to a transmission destination identified by said identifier, a switching is made between said (SDM) method and said (STBC) method based on the priority of said transmit data and the transmission mode of said transmission mode table.
2. The wireless transceiver according to claim 1, wherein said transmission mode is updated to another transmission mode that is associated with said transmission destination based on a reception signal from said transmission destination.
3. The wireless transceiver according to claim 2, wherein, if reception data is received without error upon receipt of the data, an ACK frame is transmitted within a specified time period or in prescribed timing, and if the reception data is received erroneously, a NACK frame is transmitted within a specified time period or in prescribed timing, and wherein said transmission mode is updated based on the presence or absence of reception of the ACK frame or the NACK frame.
4. The wireless transceiver according to claim 2, wherein, if reception data is received without error upon receipt of the data, an ACK frame is transmitted within a specified time period or in prescribed timing, and if the reception data is received erroneously, a NACK frame is transmitted within a specified time period or in prescribed timing, and wherein said transmission mode is updated based on signal strength of a reception signal of the ACK frame or the NACK frame.
5. The wireless transceiver according to claim 2, wherein if reception data is received without error upon receipt of the data, an ACK frame is transmitted within a specified time period or in prescribed timing, and if the reception data is received erroneously, a NACK frame is transmitted within a specified time period or in prescribed timing, and wherein said transmission table is updated based on an eigen value of a transmission matrix of a reception signal of the ACK frame or the NACK frame.
6. A wireless transceiver which executes transmission and reception of data wirelessly by using at least two antennas, said wireless transceiver comprising:
a priority control unit which judges priority of transmit data, said priority being predetermined,
wherein a switching is made between a Space Division Multiplexing (SDM) method and a Space Time Blocking Coding (STBC) method, based on priority of said transmit data,
wherein the (SDM) method distributes as a plurality of transmission streams, and transmits said transmit data,
wherein said (STBC) method performs time-space encoding on said transmit data, and
wherein a modulation method is selected based on the priority that is judged in said priority control unit.
7. A wireless transceiver which executes transmission and reception of data wirelessly by using at least two antennas, said wireless transceiver comprising:
a priority control unit which judges priority of transmit data, said priority being predetermined,
wherein a switching is made between a Space Division Multiplexing (SDM) method and a Space Time Blocking Coding (STBC) method, based on priority of said transmit data,
wherein the (SDM) method distributes as a plurality of transmission streams, and transmits said transmit data,
wherein said (STBC) method performs time-space encoding on said transmit data, and
wherein a coding method is selected based on the priority that is judged in said priority control unit.
8. A wireless transceiver which executes transmission and reception of data wirelessly by using at least two antennas, said wireless transceiver comprising:
a priority control unit which judges priority of transmit data, said priority being predetermined,
wherein a switching is made between a first transmission Space Division Multiplexing (SDM) method and a Space Time Blocking Coding (STBC) method, based on priority of said transmit data,
wherein the (SDM) method distributes as a plurality of transmission streams, and transmits said transmit data,
wherein said (STBC) method performs time-space encoding on said transmit data, and
wherein when said priority is low, said (SDM) method is used, and when said priority is high, said (STBC) method is used.
9. A wireless transceiver which executes transmission and reception of data having a predetermined priority wirelessly by using a plurality of antennas, said wireless transceiver comprising:
a priority control unit which judges priority of transmit data having said predetermined priority; and
a transmission mode table in which an identifier that uniquely identifies a transmission destination is associated with a transmission mode that indicates channel status of transmission matrix of a communication destination for each of said transmission destination,
wherein when data is transmitted to a transmission destination identified by said identifier, a switching is made between said (SDM) method and said (STBC) method based on the priority of said transmit data and the transmission mode of said transmission mode table.
10. The wireless transceiver according to claim 9, wherein when said priority is low, said SDM method is used, and when said priority is high, said STBC method is used.