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A base station for controlling transmission power during the establishment of a communication channel utilizes the reception of a short code during initial power ramp-up. The short code is a sequence for detection by the base station which has a much shorter period than a conventional access code. T

A base station for controlling transmission power during the establishment of a communication channel utilizes the reception of a short code during initial power ramp-up. The short code is a sequence for detection by the base station which has a much shorter period than a conventional access code. The ramp-up starts from a power level that is lower than the required power level for detection by the base station. The power of the short code is quickly increased until the signal is detected by the base station. Once the base station detects the short code, it transmits an indication that the short code has been detected.

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What is claimed is: 1. A base station for controlling transmission power during the establishment of communications between a base station and another communicating unit, comprising: means for detecting a periodic signal having an initial predetermined power level, which is repeatedly sent to the b

What is claimed is: 1. A base station for controlling transmission power during the establishment of communications between a base station and another communicating unit, comprising: means for detecting a periodic signal having an initial predetermined power level, which is repeatedly sent to the base station at increasing power levels; means for transmitting a power control signal when a sufficient periodic signal having a sufficient power for detection is received; and means for receiving an access signal having a power level controlled by said power control signal. 2. The base station of claim 1 wherein said initial predetermined power level is lower than a power level required for detection by said base station. 3. A base station for controlling transmission power during the establishment of communications between a base station and another communicating unit, comprising: means for detecting a periodic signal having an initial predetermined power level, which is repeatedly sent to the base station at increasing power levels; means for transmitting a power control signal when a sufficient periodic signal having a sufficient power for detection is received; means for receiving an access signal having a power level controlled by said power control signal; and wherein said periodic signal comprises a short code and said access signal comprises an access code, which is longer than the short code. 4. The base station of claim 3 wherein a correct phase of the access code is obtained by searching only one phase out of a short code length portion of the access code. 5. The base station of claim 4 further comprising means for transmitting an acknowledgment when the correct phase of the access code is detected. 6. The base station of claim 4 further comprising means for performing a subsequent search by searching every phase when a correct phase has not been detected after a given interval. 7. The base station of claim 6 wherein said interval is measured starting at a beginning of the initial search. 8. The base station of claim 3 wherein the control signal is generated by said control signal generating means when the correct phase of the short code is detected. 9. A method of performing power control in a wireless CDMA communications system, the method comprising: transmitting, from a subscriber unit, a first code at successively increased power levels until the subscriber receives an acknowledgement that the first code has been received by the base station; and transmitting, from the subscriber unit, a second code after the acknowledgement has been received by the subscriber unit. 10. The method of claim 9, wherein the first code is a detection code. 11. The method of claim 9, wherein the second code is an access code. 12. The method of claim 9, wherein the second code is transmitted at a power level based on the power level of the last transmission of the first code. 13. The method of claim 9, wherein the first code is shorter than the second code. 14. The method of claim 9, wherein the second code is transmitted at a power level that is higher than the power level of the last transmission of the first code. 15. The method of claim 9, wherein a difference in the power level between any two successive transmissions of the first code is a constant decibel value. 16. A subscriber unit for a wireless CDMA communications system including at least one base station, the subscriber unit comprising: a transmitter configured to transmit a first code at successively increased power levels until the subscriber receives an acknowledgement that the first code has been received by the base station; and the transmitter configured to transmit an access code after the acknowledgement has been received by the subscriber unit. 17. The subscriber unit of claim 16, wherein the first code is a detection code. 18. The subscriber unit of claim 16, wherein the transmitter is configured to update said first code before transmission at successively increased power levels. 19. The subscriber unit of claim 16 wherein the transmitter is configured to transmit the access code at a power level based on the power level of the last transmission of the first code. 20. The subscriber unit of claim 16, wherein the first code is shorter than the access code. 21. The subscriber unit of claim 16 wherein the transmitter is configured to transmit the access code at a power level that is higher than the power level of the least transmission of the first code. 22. The subscriber unit of claim 16, wherein a difference in the power level between any two successive transmissions of the first code is a constant decibel value. 23. A method of performing power control in a wireless CDMA communications system including at least one base station and at least one subscriber unit desiring access to the communication system, the method comprising: repeatedly transmitting, from the subscriber unit, a first code at successively increased power levels until the subscriber receives an acknowledgement that the first code has been detected by the base station, and transmitting from the subscriber unit an access code after the acknowledgement has been received by the subscriber unit. 24. The method of claim 23, wherein the first code is shorter than the access code. 25. The method of claim 23, wherein the power level of the access code is higher than the first code. 26. The method of claim 23, wherein the power increase in each repeated transmission is a constant decibel value. 27. The method of claim 23, wherein the power level of the access code is determined based on a power level of the last transmitted first code. 28. A method for performing power control in a wireless code division multiple access communication system, the method comprising: transmitting from a subscriber unit a first code at a set initial power level and repeating the transmitting of the first code at a first ramp up amount, said first code being a detection code wherein receipt of said first code indicates a base station has detected a subscriber unit desiring access to a wireless code division multiple access communication system; detecting at said subscriber unit an acknowledgement indicating the transmitted first code was received; and in response to detecting the acknowledgment, transmitting from said subscriber unit a second code at a power level that has a power offset from said first code by a second amount, wherein the second cods is an access code and the second code is associated with the first code. 29. The method of claim 28, wherein the power offset has a positive value. 30. The method of claim 28, wherein the power offset has a negative value. 31. The method of claim 28, wherein the power offset has a zero value. 32. The method of claim 28, wherein the first code is a short code which is shorter than the second code. 33. A code division multiple access communication unit comprising: a transmitter configured to repeatedly transmit a short code at increased power levels and configured to transmit a long code after repeatedly transmitting the short code, wherein the long code is longer than the short code. 34. The communication unit of claim 33 wherein a transmission power level of the long code is based on a power level of a last repeated transmission of the short code. 35. The communication unit of claim 33 wherein the transmitter is configured to maintain a transmission power level associated with a last repeated transmission of the short code. 36. The communication unit of claim 33 wherein a transmission power level of the long code is at a same transmission power level as a last repeated transmission of the short code. 37. The communication unit of claim 33 wherein a transmission power level of the long code is at an increased amount over a transmission power level of a repeated periodic transmission of the short code. 38. The communication unit of claim 33 wherein a code generator is configured to produce a same base code and the short code and the long code are produced from the same base code. 39. The communication unit of claim 33 comprising a receiver configured to receive a downlink signal and the periodic transmission of the short code is time synchronized to a timing of the received downlink signal. 40. The communication unit of claim 39, wherein the downlink signal is a pilot signal. 41. The communication unit of claim 33, wherein the repeated transmission of the short code does not carry data. 42. The communication unit of claim 33, wherein the repeated transmission of the short code does not carry access message data. 43. The communication unit of claim 41, wherein the transmission of the long code carries data. 44. The communication unit of claim 42, wherein the transmission of the long code carries access message data. 45. The communication unit of claim 33, wherein the transmission of the short code aids a base station in acquiring the transmitted long code. 46. The communication unit of claim 33 wherein the transmission of the short code reduces a time required for the base station to acquire the transmitted long code. 47. The communication unit of claim 33, wherein the repeated transmission of the short code is performed a number of times. 48. The communication unit of claim 33, wherein the repeated transmission of the short code is performed a fixed number of times. 49. The communication unit of claim 48, wherein the repeated transmission of the short code is ceased after the fixed number of times. 50. The communication unit of claim 48 wherein the transmitter is configured, after the transmission of the short code is ceased, to update the short code. 51. The communication unit of claim 50 wherein the transmitter is configured, after the short code is updated, to transmit the updated short code. 52. The communication unit of claim 33 wherein the transmission of the long code is time synchronized with a last repeated transmission of the short code. 53. The communication unit of claim 33 comprising a receiver configured to receive an acknowledgement. 54. The communication unit of claim 53 wherein the acknowledgment indicates that the short code was detected by a base station. 55. The communication unit of claim 53 wherein the transmitter is configured to cease the repeated transmission of the short code after the receipt of the acknowledgement. 56. The communication unit of claim 53 wherein the transmission of the long code occurs after the receipt of the acknowledgement. 57. The communication unit of claim 53 wherein the transmitter is configured to maintain a transmission power level when the acknowledgment is received. 58. The communication unit of claim 53 wherein the transmitter is configured to set a transmission power level for a subsequent transmission power level when the acknowledgment is received. 59. The communication unit of claim 58 wherein the subsequent transmission power level is based on a transmission power level of a last repeated transmission of the short code. 60. The communication unit of claim 58 wherein the subsequent transmission power level is the transmission power level of the long code. 61. The communication unit of claim 58 wherein the subsequent transmission power level is at a transmission power level of a last repeated transmission of the short code. 62. The communication unit of claim 58 wherein the subsequent transmission power level is at a transmission power level increased over a last repeated transmission of the short code. 63. The communication unit of claim 58 wherein the transmitter is configured if the acknowledgment is not received, to select a new code for the short code. 64. The communication unit of claim 33 wherein said transmitter is configured to update said abort code prior to said repeated transmission. 65. The communication unit of claim 33 wherein the communication unit is a subscriber unit. 66. The communication unit of claim 33 wherein a transmission power level of a last transmission of the short code is at a power level greater than required for detection. 67. The communication unit of claim 33 wherein the repeated transmissions are periodically repeated transmissions. 68. A code division multiple access communication unit comprising: a code generator configured to produce a code; a transmitter configured to transmit an access signal, the access signal including an access data message and the access signal produced using the code; the transmitter configured to transmit at least one signal prior to the access signal, the at least one prior signal produced from the produced code and a transmission power level of the access signal is based on a transmission power level of the at least one prior signal. 69. The communication unit of claim 68 wherein the transmitter is configured to be capable of transmitting the access signal without transmission of the at least one prior signal. 70. The communication unit of claim 68 wherein the at least one prior signal is a plurality of prior signals, each of the prior signals produced from the produced code. 71. The communication unit of claim 23 wherein the transmitter is configured to update said first code before each repeated transmission. 72. The communication unit of claim 70 wherein the transmission of the plurality of prior signals is a periodic transmission. 73. The communication unit of claim 68 wherein a duration of the at least one prior signal is shorter than a duration of the access signal. 74. The communication unit of claim 70 wherein the transmission of each prior signal is at an increased power level. 75. The communication unit of claim 68 wherein a transmission power level of the access signal is based on a transmission power level of a last transmission of the at least one prior signal. 76. The communication unit of claim 68 wherein the transmitter is configured to maintain a transmission power level associated with a last transmission of the at least one prior signal. 77. The communication unit of claim 68 wherein a transmission power level of the access signal is at a same transmission power level as a last transmission of the at least one prior signal. 78. The communication unit of claim 68 wherein a transmission power level of the access signal is at an increased power level over a transmission power level of a last transmission of the at least one prior signal. 79. The communication unit of claim 68 comprising a receiver configured to receive a downlink signal and the transmission of the access signal is time synchronized to a timing of the received downlink signal. 80. The communication unit of claim 79 wherein the downlink signal is a pilot signal. 81. The communication unit of claim 68 wherein the at least one prior signal does not carry data. 82. The communication unit of claim 68 wherein the at least one prior signal does not carry any message data. 83. The communication unit of claim 68 wherein the transmission of the at least one prior signal aids a base station in acquiring the access signal. 84. The communication unit of claim 68 wherein the transmission of the prior signal reduces a time required for the base station to acquire a transmitted long code. 85. The communication unit of claim 68 wherein the transmission of the at least one prior signal aids a base station in determining phase for the access signal. 86. The communication unit of claim 68 wherein a transmission power level of the at least one prior signal is different than a transmission power level of the access signal. 87. The communication unit of claim 68 wherein the transmission of a long code is time synchronized with a last transmission of the at least one prior signal. 88. The communication unit of claim 68 comprising a receiver configured to receive an acknowledgement. 89. The communication unit of claim 88 wherein the acknowledgement indicates that the at least one prior signal was detected by a base station. 90. The communication unit of claim 88 wherein the transmitter is configured such that no further transmission of prior signals occurs after the acknowledgment is received. 91. The communication unit of claim 88 wherein the transmission of the access signal occurs after the acknowledgment is received. 92. The communication unit of claim 88 wherein a transmission power level is maintained after the acknowledgement is received. 93. The communication unit of claim 88 wherein the transmitter is configured to set a transmission power level of the access signal when the acknowledgement is received. 94. The communication unit of claim 93 wherein the transmission power level of the access signal is a transmission power level of a last transmission of the at least one prior signal. 95. The communication unit of claim 93 wherein the transmission power level of the access signal is increased over a least transmission of the at least one prior signal. 96. The communication unit of claim 88 wherein the transmitter is configured such that if the acknowledgment is not received, the at least one prior signal is changed. 97. The communication unit of claim 68 wherein the access signal is sent to initiate a communication link. 98. The communication unit of claim 68 wherein a transmission power level of a last transmission of the at least one prior signal is at a power level greater than required for detection. 99. A code division multiple access communication unit comprising: a transmitter configured to repeatedly transmit a first code, each repeated transmission of the first code is at an increased power level and the transmitter is configured to transmit a second code after the repeated transmitting of the first code, wherein the first code carries no access message data. 100. The communication unit of claim 99 wherein the first code is shorter than the second code. 101. The communication unit of claim 100 wherein the transmitter is configured such that a transmission power level of the second code is based on a power level of a last repeated transmission of the first code. 102. The communication unit of claim 100 wherein the transmitter is configured to maintain a transmission power level associated with a last repeated transmission of the first code. 103. The communication unit of claim 100 wherein the transmitter is configured such that a transmission power level of the second code is at same transmission power level as a last repeated transmission of the first code. 104. The communication unit of claim 100 wherein the transmitter is configured such that a transmission power level of the second code is at an increased amount over a transmission power level of a last repeated transmission of the first code. 105. The communication unit of claim 99 wherein a code generator is configured to produce a same code and the first code and the second code are produced from the same base code. 106. The communication unit of claim 99 comprising a receiver configured to receive a downlink signal and the repeated transmission of the first code is time synchronized to a timing of the received downlink signal. 107. The communication unit of claim 106 wherein the downlink signal is a pilot signal. 108. The communication unit of claim 99 wherein the repeated transmission of the first code does not carry message data. 109. The communication unit of claim 99 wherein the transmission of the second code carries data. 110. The communication unit of claim 108 wherein the transmission of the second code carries access message data. 111. The communication unit of claim 99 wherein the transmission of the first code aids a base station in acquiring the transmitted second code. 112. The communication unit of claim 99 wherein the transmission of the first code reduces a time required for a base station to acquire the transmitted second code. 113. The communication unit of claim 99 wherein the repeated transmission of the first code is performed a number of times. 114. The communication unit of claim 99 wherein the repeated transmission of the first code is performed a fixed number of times. 115. The communication unit of claim 114 wherein the repeated transmission of the first code is ceased after the fixed number of times. 116. The communication unit of claim 114 wherein the transmitter is configured such that after the transmission of the first code is ceased, the first code is updated. 117. The communication unit of claim 116, wherein the transmitter is configured such that after the first code is updated, a repeated transmission of the updated first code is performed by the transmitter. 118. The communication unit of claim 117, wherein the transmission of the second code is time synchronized with a last repeated transmission of the first code. 119. The communication unit of claim 117 comprising a receiver configured to receive an acknowledgement. 120. The communication unit of claim 119 wherein the acknowledgment indicates that the first code was detected by a base station. 121. The communication unit of claim 119 wherein the transmitter is configured such that the repeated transmission of the first code ceases after the receipt of the acknowledgement. 122. The communication unit of claim 119 wherein the transmission of the second cod, occurs after the receipt of the acknowledgement. 123. The communication unit of claim 119 wherein the transmitter is configured such that a transmission power level is maintained when the acknowledgment is received. 124. The communication unit of claim 119 wherein the transmitter is configured such that a transmission power level for a subsequent. 125. The communication unit of claim 123 wherein the subsequent transmission power level is based on a transmission power level of a last repeated transmission of the first code. 126. The communication unit of claim 123 wherein the subsequent transmission power level is the transmission power level of the second code. 127. The communication unit of claim 123 wherein the subsequent transmission power level is at a transmission power level of a last repeated transmission of the first code. 128. The communication unit of claim 123 wherein the subsequent transmission power level is at a transmission power level increased over a last repeated transmission of the second code. 129. The communication unit of claim 119 wherein the transmitter is configured such that if the acknowledgment is not received, a new code is selected for the first code. 130. The communication unit of claim 99 wherein the transmitter is configured to update the first code. 131. The communication unit of claim 99 wherein the communication unit is a subscriber unit. 132. The communication unit of claim 99 wherein the transmitter is configured such that a transmission power level of a last transmission of the first code is at a power level greater than required for detection. 133. The communication unit of claim 99 wherein the repeated transmissions are periodically repeated transmissions. 134. A code division multiple access communication unit comprising: a transmitter configured to repeatedly transmit a first signal that does not carry access message data at increasing power levels; a receiver configured to receive an acknowledgement indicating that a last repeated transmission of the first signal was received; and the transmitter configured to cease the repeated transmission of the first signal in response to receipt of the acknowledgement. 135. The communication unit of claim 134 wherein the first signal does not carry any data. 136. The communication unit of claim 134 wherein the transmitter is configured to transmit a second signal in response to receipt of the acknowledgement. 137. The communication unit of claim 136 wherein the second signal carries data. 138. The communication unit of claim 136 wherein the second signal carries access data. 139. The communication unit of claim 136 wherein a transmission power level of the second signal is based on a power level of the last repeated transmission of the first signal. 140. The communication unit of claim 136 wherein the first signal is shorter than the second signal. 141. The communication unit of claim 136 wherein the transmitter is configured such that the first signal is produced using a code shorter than a code used to produce the second signal. 142. The communication unit of claim 136 wherein the transmitter is configured to maintain a transmission power level associated with the last repeated transmission of the first signal. 143. The communication unit of claim 136 wherein the transmitter is configured such that a transmission power level of the second signal is at a same transmission power level as the last repeated transmission of the first signal. 144. The communication unit of claim 136 wherein the transmitter is configured such that a transmission power level of the second signal is at an increased amount over a transmission power level of the last repeated transmission of the first signal. 145. The communication unit of claim 136 wherein a code generator is configured to produce a same base code and the first signal and the second signal are produced from the same base code. 146. The communication unit of claim 136 wherein the transmission of the first signal aids a base station in acquiring the transmitted second signal. 147. The communication unit of claim 136 wherein the transmission of the first signal reduces a time required for the base station to acquire the transmitted second signal. 148. The communication unit of claim 134 wherein the repeated transmission of the first signal is performed a number of times. 149. The communication unit of claim 134 wherein the repeated transmission of the first signal is performed a fixed number of times. 150. The communication unit of claim 149 wherein the repeated transmission of the first signal is ceased after the fixed number of times. 151. The communication unit of claim 150 wherein the transmitter is configured such that after the transmission of the first signal is ceased, the first signal is updated. 152. The communication unit of claim 151 wherein the transmitter is configured such that after the first signal is updated, a transmission of the updated first signal is performed. 153. The communication unit of claim 136 wherein the transmission of the second signal is time synchronized with the last repeated transmission of the first signal. 154. The communication unit of claim 134 wherein the transmitter is configured such that a transmission power level for a subsequent transmission power level is set when the acknowledgment is received. 155. The communication unit of claim 154 wherein the subsequent transmission power level is based on a transmission power level of the last repeated transmission of the first signal. 156. The communication unit of claim 155 wherein the transmitter is configured to transmit a second signal and the subsequent transmission power level is the transmission power level of the second signal carrying data. 157. The communication unit of claim 155 wherein the subsequent transmission power level is at a transmission power level of the last repeated transmission of the first signal. 158. The communication unit of claim 155 wherein the subsequent transmission power level is at a transmission power level increased over the last repeated transmission of the first signal. 159. The communication unit of claim 134 wherein the transmitter is configured to update a code used for the first signal. 160. The communication unit of claim 134 wherein the first signal is a complex signal. 161. The communication unit of claim 136 wherein the second signal is a complex signal. 162. The communication unit of claim 136 wherein access data is carried in the second signal and the transmitter transmits the access data to initiate a communication link. 163. The communication unit of claim 134 wherein the communication unit is a subscriber unit. 164. The communication unit of claim 134 wherein a transmission power level of the last transmission of the first signal is at a power level greater than required for detection. 165. The communication unit of claim 134 wherein the repeated transmissions are periodically repeated transmissions. 166. A code division multiple access communication unit comprising: a transmitter configured to transmit a first signal that does not carry access message data; a receiver configured to receive an acknowledgement indicating that a last periodic transmission of the first signal was received; and the transmitter configured to retransmit the first signal at an increased power level when the acknowledgement is not received and to not retransmit the first signal when the acknowledgement is received. 167. The communication unit of claim 166 wherein the first signal does not carry data. 168. The communication unit of claim 166 wherein the transmitter is configured to transmit a second signal in response to receipt of the acknowledgement. 169. The communication unit of claim 168 wherein the second signal carries data. 170. The communication unit of claim 168 wherein the second signal carries access data. 171. The communication unit of claim 168 wherein the transmitter is configured such that a transmission power level of the second signal is based on a power level of the last repeated transmission of the first signal. 172. The communication unit of claim 168 wherein the first signal is shorter than the second signal. 173. The communication unit of claim 168 wherein the first signal is produced using a code shorter than a code used to produce the second signal. 174. The communication unit of claim 168 wherein the transmitter is configured to maintain a transmission power level associated with the last repeated transmission of the first signal. 175. The communication unit of claim 168 wherein the transmitter is configured such that a transmission power level of the second signal is at a same transmission power level as the last repeated transmission of the first signal. 176. The communication unit of claim 168 wherein the transmitter is configured such that a transmission power level of the second signal is at an increased amount over a transmission power level of the last repeated transmission of the first signal. 177. The communication unit of claim 168 wherein a code generator is configured to produce a same base code and the first signal and the second signal are produced from the same base code. 178. The communication unit of claim 168 wherein the transmission of the first signal aids a base station in acquiring the transmitted second signal. 179. The communication unit of claim 168 wherein the transmission of the first signal reduces a time required for the base station to acquire the transmitted second signal.