ZHCSKM5 December   2019 TAS2110

PRODUCTION DATA.  

  1. 特性
  2. 应用
  3. 说明
    1.     Device Images
      1.      简化原理图
  4. 修订历史记录
  5. Pin Configuration and Functions
    1.     Pin Functions
  6. Specifications
    1. 6.1 Absolute Maximum Ratings
    2. 6.2 ESD Ratings
    3. 6.3 Recommended Operating Conditions
    4. 6.4 Thermal Information
    5. 6.5 Electrical Characteristics
    6. 6.6 I2C Timing Requirements
    7. 6.7 TDM Port Timing Requirements
    8. 6.8 Typical Characteristics
  7. Parameter Measurement Information
  8. Detailed Description
    1. 8.1 Overview
    2. 8.2 Functional Block Diagram
    3. 8.3 Feature Description
      1. 8.3.1  PurePath™ Console 3 Software
      2. 8.3.2  Device Mode and Address Selection
      3. 8.3.3  General I2C Operation
      4. 8.3.4  Single-Byte and Multiple-Byte Transfers
      5. 8.3.5  Single-Byte Write
      6. 8.3.6  Multiple-Byte Write and Incremental Multiple-Byte Write
      7. 8.3.7  Single-Byte Read
      8. 8.3.8  Multiple-Byte Read
      9. 8.3.9  Register Organization
      10. 8.3.10 Operational Modes
        1. 8.3.10.1 Hardware Shutdown
        2. 8.3.10.2 Software Shutdown
        3. 8.3.10.3 Mute
        4. 8.3.10.4 Active
        5. 8.3.10.5 Mode Control and Software Reset
      11. 8.3.11 Faults and Status
      12. 8.3.12 Power Sequencing Requirements
      13. 8.3.13 Digital Input Pull Downs
    4. 8.4 Device Functional Modes
      1. 8.4.1 TDM Port
      2. 8.4.2 Playback Signal Path
        1. 8.4.2.1 High Pass Filter
        2. 8.4.2.2 Digital Volume Control and Amplifier Output Level
        3. 8.4.2.3 Auto-Mute During Idle Channel Mode
        4. 8.4.2.4 Auto-Start/Stop on Audio Clocks
        5. 8.4.2.5 Supply Tracking Limiters with Brown Out Prevention
        6. 8.4.2.6 Inter Chip Limiter Alignment
          1. 8.4.2.6.1 TDM Mode
        7. 8.4.2.7 Class-D Settings
      3. 8.4.3 SAR ADC
      4. 8.4.4 Boost
      5. 8.4.5 Clocks and PLL
      6. 8.4.6 Thermal Foldback
      7. 8.4.7 Internal Tone Generator
    5. 8.5 Register Maps
      1. 8.5.1   Register Summary Table Page=0x00
      2. 8.5.2   Register Summary Table Page=0x01
      3. 8.5.3   Register Summary Table Page=0x02
      4. 8.5.4   Register Summary Table Page=0x04
      5. 8.5.5   PAGE0 (page=0x00 address=0x00) [reset=0h]
        1. Table 104. Device Page Field Descriptions
      6. 8.5.6   SW_RESET (page=0x00 address=0x01) [reset=0h]
        1. Table 105. Software Reset Field Descriptions
      7. 8.5.7   PWR_CTL (page=0x00 address=0x02) [reset=Eh]
        1. Table 106. Power Control Field Descriptions
      8. 8.5.8   PB_CFG1 (page=0x00 address=0x03) [reset=20h]
        1. Table 107. Playback Configuration 1 Field Descriptions
      9. 8.5.9   MISC_CFG1 (page=0x00 address=0x04) [reset=C6h]
        1. Table 108. Misc Configuration 1 Field Descriptions
      10. 8.5.10  MISC_CFG2 (page=0x00 address=0x05) [reset=22h]
        1. Table 109. Misc Configuration 2 Field Descriptions
      11. 8.5.11  TDM_CFG0 (page=0x00 address=0x06) [reset=9h]
        1. Table 110. TDM Configuration 0 Field Descriptions
      12. 8.5.12  TDM_CFG1 (page=0x00 address=0x07) [reset=2h]
        1. Table 111. TDM Configuration 1 Field Descriptions
      13. 8.5.13  TDM_CFG2 (page=0x00 address=0x08) [reset=Ah]
        1. Table 112. TDM Configuration 2 Field Descriptions
      14. 8.5.14  TDM_CFG3 (page=0x00 address=0x09) [reset=10h]
        1. Table 113. TDM Configuration 3 Field Descriptions
      15. 8.5.15  TDM_CFG4 (page=0x00 address=0x0A) [reset=13h]
        1. Table 114. TDM Configuration 4 Field Descriptions
      16. 8.5.16  TDM_CFG7 (page=0x00 address=0x0D) [reset=4h]
        1. Table 115. TDM Configuration 7 Field Descriptions
      17. 8.5.17  TDM_CFG8 (page=0x00 address=0x0E) [reset=5h]
        1. Table 116. TDM Configuration 8 Field Descriptions
      18. 8.5.18  TDM_CFG9 (page=0x00 address=0x0F) [reset=6h]
        1. Table 117. TDM Configuration 9 Field Descriptions
      19. 8.5.19  TDM_CFG10 (page=0x00 address=0x10) [reset=7h]
        1. Table 118. TDM Configuration 10 Field Descriptions
      20. 8.5.20  TDM_DET (page=0x00 address=0x11) [reset=7Fh]
        1. Table 119. TDM Clock detection monitor Field Descriptions
      21. 8.5.21  LIM_CFG_0 (page=0x00 address=0x12) [reset=12h]
        1. Table 120. Limiter Configuration 0 Field Descriptions
      22. 8.5.22  LIM_CFG_1 (page=0x00 address=0x13) [reset=76h]
        1. Table 121. Limiter Configuration 1 Field Descriptions
      23. 8.5.23  BOP_CFG_0 (page=0x00 address=0x14) [reset=1h]
        1. Table 122. Brown Out Prevention 0 Field Descriptions
      24. 8.5.24  BOP_CFG_1 (page=0x00 address=0x15) [reset=2Eh]
        1. Table 123. Brown Out Prevention 1 Field Descriptions
      25. 8.5.25  ICLA_CFG (page=0x00 address=0x16) [reset=60h]
        1. Table 124. ICLA gain alignment mode Field Descriptions
      26. 8.5.26  GAIN_ICLA_CFG0 (page=0x00 address=0x18) [reset=Ch]
        1. Table 125. Inter Chip Limiter Alignment 0 Field Descriptions
      27. 8.5.27  ICLA_CFG1 (page=0x00 address=0x19) [reset=0h]
        1. Table 126. Inter Chip Limiter Alignment 1 Field Descriptions
      28. 8.5.28  INT_MASK0 (page=0x00 address=0x1A) [reset=FCh]
        1. Table 127. Interrupt Mask 0 Field Descriptions
      29. 8.5.29  INT_MASK1 (page=0x00 address=0x1B) [reset=A6h]
        1. Table 128. Interrupt Mask 1 Field Descriptions
      30. 8.5.30  INT_LIVE0 (page=0x00 address=0x1F) [reset=0h]
        1. Table 129. Live Interrupt Readback 0 Field Descriptions
      31. 8.5.31  INT_LIVE1 (page=0x00 address=0x20) [reset=0h]
        1. Table 130. Live Interrupt Readback 1 Field Descriptions
      32. 8.5.32  INT_LTCH0 (page=0x00 address=0x24) [reset=0h]
        1. Table 131. Latched Interrupt Readback 0 Field Descriptions
      33. 8.5.33  INT_LTCH1 (page=0x00 address=0x25) [reset=0h]
        1. Table 132. Latched Interrupt Readback 1 Field Descriptions
      34. 8.5.34  VBAT_MSB (page=0x00 address=0x2A) [reset=0h]
        1. Table 133. SAR ADC Conversion 0 Field Descriptions
      35. 8.5.35  VBAT_LSB (page=0x00 address=0x2B) [reset=0h]
        1. Table 134. SAR ADC Conversion 1 Field Descriptions
      36. 8.5.36  TEMP (page=0x00 address=0x2C) [reset=0h]
        1. Table 135. SAR ADC Conversion 2 Field Descriptions
      37. 8.5.37  INT_CLK (page=0x00 address=0x30) [reset=19h]
        1. Table 136. Interrupt and Clock Error Field Descriptions
      38. 8.5.38  DIN_PD (page=0x00 address=0x31) [reset=40h]
        1. Table 137. Digital Input Pin Pull Down Field Descriptions
      39. 8.5.39  MISC_CFG3 (page=0x00 address=0x32) [reset=80h]
        1. Table 138. Misc Configuration 3 Field Descriptions
      40. 8.5.40  BOOST_CFG1 (page=0x00 address=0x33) [reset=34h]
        1. Table 139. Boost Configure 1 Field Descriptions
      41. 8.5.41  BOOST_CFG2 (page=0x00 address=0x34) [reset=4Bh]
        1. Table 140. Boost Configure 2 Field Descriptions
      42. 8.5.42  BOOST_CFG3 (page=0x00 address=0x35) [reset=74h]
        1. Table 141. Boost Configure 3 Field Descriptions
      43. 8.5.43  MISC_CFG4 (page=0x00 address=0x3D) [reset=8h]
        1. Table 142. Misc Configuration 4 Field Descriptions
      44. 8.5.44  TG_CFG0 (page=0x00 address=0x3F) [reset=0h]
        1. Table 143. Tone Generator Field Descriptions
      45. 8.5.45  BOOST_CFG4 (page=0x00 address=0x40) [reset=36h]
        1. Table 144. Boost Configure 4 Field Descriptions
      46. 8.5.46  REV_ID (page=0x00 address=0x7D) [reset=0h]
        1. Table 145. Revision and PG ID Field Descriptions
      47. 8.5.47  I2C_CKSUM (page=0x00 address=0x7E) [reset=0h]
        1. Table 146. I2C Checksum Field Descriptions
      48. 8.5.48  BOOK (page=0x00 address=0x7F) [reset=0h]
        1. Table 147. Device Book Field Descriptions
      49. 8.5.49  PAGE1 (page=0x01 address=0x00) [reset=0h]
        1. Table 148. Device Page Field Descriptions
      50. 8.5.50  TF_CFG21 (page=0x01 address=0x08) [reset=40h]
        1. Table 149. Thermal Folder Configure Field Descriptions
      51. 8.5.51  PAGE2 (page=0x02 address=0x00) [reset=0h]
        1. Table 150. Device Page Field Descriptions
      52. 8.5.52  DVC_CFG1 (page=0x02 address=0x0C) [reset=40h]
        1. Table 151. Digital Volume Control 1 Field Descriptions
      53. 8.5.53  DVC_CFG2 (page=0x02 address=0x0D) [reset=40h]
        1. Table 152. Digital Volume Control 2 Field Descriptions
      54. 8.5.54  DVC_CFG3 (page=0x02 address=0x0E) [reset=0h]
        1. Table 153. Digital Volume Control 3 Field Descriptions
      55. 8.5.55  DVC_CFG4 (page=0x02 address=0x0F) [reset=0h]
        1. Table 154. Digital Volume Control 4 Field Descriptions
      56. 8.5.56  DVC_CFG5 (page=0x02 address=0x10) [reset=3h]
        1. Table 155. Digital Volume Control 5 Field Descriptions
      57. 8.5.57  DVC_CFG6 (page=0x02 address=0x11) [reset=4Ah]
        1. Table 156. Digital Volume Control 6 Field Descriptions
      58. 8.5.58  DVC_CFG7 (page=0x02 address=0x12) [reset=51h]
        1. Table 157. Digital Volume Control 7 Field Descriptions
      59. 8.5.59  DVC_CFG7 (page=0x02 address=0x13) [reset=6Ch]
        1. Table 158. Digital Volume Control 8 Field Descriptions
      60. 8.5.60  LIM_CFG1 (page=0x02 address=0x14) [reset=2Dh]
        1. Table 159. Limiter Configuration 1 Field Descriptions
      61. 8.5.61  LIM_CFG2 (page=0x02 address=0x15) [reset=6Ah]
        1. Table 160. Limiter Configuration 2- Sets limiter max attenuation Field Descriptions
      62. 8.5.62  LIM_CFG3 (page=0x02 address=0x16) [reset=86h]
        1. Table 161. Limiter Configuration 3- Sets limiter max attenuation Field Descriptions
      63. 8.5.63  LIM_CFG4 (page=0x02 address=0x17) [reset=6Fh]
        1. Table 162. Limiter Configuration 4- Sets limiter max attenuation Field Descriptions
      64. 8.5.64  LIM_CFG5 (page=0x02 address=0x18) [reset=47h]
        1. Table 163. Limiter Configuration 5 Field Descriptions
      65. 8.5.65  LIM_CFG6 (page=0x02 address=0x19) [reset=5Ch]
        1. Table 164. Limiter Configuration 6 Field Descriptions
      66. 8.5.66  LIM_CFG7 (page=0x02 address=0x1A) [reset=28h]
        1. Table 165. Limiter Configuration 7 Field Descriptions
      67. 8.5.67  LIM_CFG8 (page=0x02 address=0x1B) [reset=F6h]
        1. Table 166. Limiter Configuration 8 Field Descriptions
      68. 8.5.68  LIM_CFG9 (page=0x02 address=0x1C) [reset=16h]
        1. Table 167. Limiter Configuration 9 Field Descriptions
      69. 8.5.69  LIM_CFG10 (page=0x02 address=0x1D) [reset=66h]
        1. Table 168. Limiter Configuration 10 Field Descriptions
      70. 8.5.70  LIM_CFG11 (page=0x02 address=0x1E) [reset=66h]
        1. Table 169. Limiter Configuration 11 Field Descriptions
      71. 8.5.71  LIM_CFG12 (page=0x02 address=0x1F) [reset=66h]
        1. Table 170. Limiter Configuration 12 Field Descriptions
      72. 8.5.72  LIM_CFG13 (page=0x02 address=0x20) [reset=34h]
        1. Table 171. Limiter Configuration 13 Field Descriptions
      73. 8.5.73  LIM_CFG14 (page=0x02 address=0x21) [reset=CCh]
        1. Table 172. Limiter Configuration 14 Field Descriptions
      74. 8.5.74  LIM_CFG15 (page=0x02 address=0x22) [reset=CCh]
        1. Table 173. Limiter Configuration 15 Field Descriptions
      75. 8.5.75  LIM_CFG16 (page=0x02 address=0x23) [reset=CDh]
        1. Table 174. Limiter Configuration 16 Field Descriptions
      76. 8.5.76  LIM_CFG17 (page=0x02 address=0x24) [reset=10h]
        1. Table 175. Limiter Configuration 1 Field Descriptions
      77. 8.5.77  LIM_CFG18 (page=0x02 address=0x25) [reset=0h]
        1. Table 176. Limiter Configuration 2 Field Descriptions
      78. 8.5.78  LIM_CFG19 (page=0x02 address=0x26) [reset=0h]
        1. Table 177. Limiter Configuration 3 Field Descriptions
      79. 8.5.79  LIM_CFG20 (page=0x02 address=0x27) [reset=0h]
        1. Table 178. Limiter Configuration 4 Field Descriptions
      80. 8.5.80  BOP_CFG1 (page=0x02 address=0x28) [reset=2Eh]
        1. Table 179. Brown Out Prevention 1 Field Descriptions
      81. 8.5.81  BOP_CFG2 (page=0x02 address=0x29) [reset=66h]
        1. Table 180. Brown Out Prevention 2 Field Descriptions
      82. 8.5.82  BOP_CFG3 (page=0x02 address=0x2A) [reset=66h]
        1. Table 181. Brown Out Prevention 3 Field Descriptions
      83. 8.5.83  BOP_CFG4 (page=0x02 address=0x2B) [reset=66h]
        1. Table 182. Brown Out Prevention 4 Field Descriptions
      84. 8.5.84  BOP_CFG5 (page=0x02 address=0x2C) [reset=2Bh]
        1. Table 183. Brown Out Prevention 5 Field Descriptions
      85. 8.5.85  BOP_CFG6 (page=0x02 address=0x2D) [reset=33h]
        1. Table 184. Brown Out Prevention 6 Field Descriptions
      86. 8.5.86  BOP_CFG7 (page=0x02 address=0x2E) [reset=33h]
        1. Table 185. Brown Out Prevention 7 Field Descriptions
      87. 8.5.87  BOP_CFG8 (page=0x02 address=0x2F) [reset=33h]
        1. Table 186. Brown Out Prevention 8 Field Descriptions
      88. 8.5.88  HPFC_CFG1 (page=0x02 address=0x30) [reset=7Fh]
        1. Table 187. HPF Coefficient 1 Field Descriptions
      89. 8.5.89  HPFC_CFG2 (page=0x02 address=0x31) [reset=FBh]
        1. Table 188. HPF Coefficient 2 Field Descriptions
      90. 8.5.90  HPFC_CFG3 (page=0x02 address=0x32) [reset=B6h]
        1. Table 189. HPF Coefficient 3 Field Descriptions
      91. 8.5.91  HPFC_CFG4 (page=0x02 address=0x33) [reset=14h]
        1. Table 190. HPF Coefficient 4 Field Descriptions
      92. 8.5.92  HPFC_CFG5 (page=0x02 address=0x34) [reset=80h]
        1. Table 191. HPF Coefficient 5 Field Descriptions
      93. 8.5.93  HPFC_CFG6 (page=0x02 address=0x35) [reset=4h]
        1. Table 192. HPF Coefficient 6 Field Descriptions
      94. 8.5.94  HPFC_CFG7 (page=0x02 address=0x36) [reset=49h]
        1. Table 193. HPF Coefficient 7 Field Descriptions
      95. 8.5.95  HPFC_CFG8 (page=0x02 address=0x37) [reset=ECh]
        1. Table 194. HPF Coefficient 8 Field Descriptions
      96. 8.5.96  HPFC_CFG9 (page=0x02 address=0x38) [reset=7Fh]
        1. Table 195. HPF Coefficient 9 Field Descriptions
      97. 8.5.97  HPFC_CFG10 (page=0x02 address=0x39) [reset=7Fh]
        1. Table 196. HPF Coefficient 10 Field Descriptions
      98. 8.5.98  HPFC_CFG11 (page=0x02 address=0x3A) [reset=6Ch]
        1. Table 197. HPF Coefficient 11 Field Descriptions
      99. 8.5.99  HPFC_CFG12 (page=0x02 address=0x3B) [reset=28h]
        1. Table 198. HPF Coefficient 12 Field Descriptions
      100. 8.5.100 TG_CFG1 (page=0x02 address=0x3C) [reset=3Fh]
        1. Table 199. Tone Generator 1 Freq Calc 1 Field Descriptions
      101. 8.5.101 TG_CFG2 (page=0x02 address=0x3D) [reset=FFh]
        1. Table 200. Tone Generator 1 Freq Calc 1 Field Descriptions
      102. 8.5.102 TG_CFG3 (page=0x02 address=0x3E) [reset=7Ah]
        1. Table 201. Tone Generator 1 Freq Calc 1 Field Descriptions
      103. 8.5.103 TG_CFG4 (page=0x02 address=0x3F) [reset=E3h]
        1. Table 202. Tone Generator 1 Freq Calc 1 Field Descriptions
      104. 8.5.104 TG_CFG5 (page=0x02 address=0x40) [reset=1h]
        1. Table 203. Tone Generator 1 Freq Calc 2 Field Descriptions
      105. 8.5.105 TG_CFG6 (page=0x02 address=0x41) [reset=1h]
        1. Table 204. Tone Generator 1 Freq Calc 2 Field Descriptions
      106. 8.5.106 TG_CFG7 (page=0x02 address=0x42) [reset=5Bh]
        1. Table 205. Tone Generator 1 Freq Calc 2 Field Descriptions
      107. 8.5.107 TG_CFG8 (page=0x02 address=0x43) [reset=4Ch]
        1. Table 206. Tone Generator 1 Freq Calc 2 Field Descriptions
      108. 8.5.108 TG_CFG9 (page=0x02 address=0x44) [reset=0h]
        1. Table 207. Tone Generator 1 Freq Calc 3 Field Descriptions
      109. 8.5.109 TG_CFG10 (page=0x02 address=0x45) [reset=0h]
        1. Table 208. Tone Generator 1 Freq Calc 3 Field Descriptions
      110. 8.5.110 TG_CFG11 (page=0x02 address=0x46) [reset=3h]
        1. Table 209. Tone Generator 1 Freq Calc 3 Field Descriptions
      111. 8.5.111 TG_CFG12 (page=0x02 address=0x47) [reset=1Fh]
        1. Table 210. Tone Generator 1 Freq Calc 3 Field Descriptions
      112. 8.5.112 TG_CFG13 (page=0x02 address=0x48) [reset=2h]
        1. Table 211. Tone Generator 1 Amplitude Calc Field Descriptions
      113. 8.5.113 TG_CFG14 (page=0x02 address=0x49) [reset=46h]
        1. Table 212. Tone Generator 1 Amplitude Calc Field Descriptions
      114. 8.5.114 TG_CFG15 (page=0x02 address=0x4A) [reset=B4h]
        1. Table 213. Tone Generator 1 Amplitude Calc Field Descriptions
      115. 8.5.115 TG_CFG16 (page=0x02 address=0x4B) [reset=E4h]
        1. Table 214. Tone Generator 1 Amplitude Calc Field Descriptions
      116. 8.5.116 TG_CFG17 (page=0x02 address=0x4C) [reset=E0h]
        1. Table 215. Tone Generator 2 Freq Calc 1 Field Descriptions
      117. 8.5.117 TG_CFG18 (page=0x02 address=0x4D) [reset=0h]
        1. Table 216. Tone Generator 2 Freq Calc 1 Field Descriptions
      118. 8.5.118 TG_CFG19 (page=0x02 address=0x4E) [reset=0h]
        1. Table 217. Tone Generator 2 Freq Calc 1 Field Descriptions
      119. 8.5.119 TG_CFG20 (page=0x02 address=0x4F) [reset=0h]
        1. Table 218. Tone Generator 2 Freq Calc 1 Field Descriptions
      120. 8.5.120 TG_CFG21 (page=0x02 address=0x50) [reset=6Eh]
        1. Table 219. Tone Generator 2 Freq Calc 2 Field Descriptions
      121. 8.5.121 TG_CFG22 (page=0x02 address=0x51) [reset=D9h]
        1. Table 220. Tone Generator 2 Freq Calc 2 Field Descriptions
      122. 8.5.122 TG_CFG23 (page=0x02 address=0x52) [reset=EBh]
        1. Table 221. Tone Generator 2 Freq Calc 2 Field Descriptions
      123. 8.5.123 TG_CFG24 (page=0x02 address=0x53) [reset=A1h]
        1. Table 222. Tone Generator 2 Freq Calc 2 Field Descriptions
      124. 8.5.124 TG_CFG25 (page=0x02 address=0x54) [reset=0h]
        1. Table 223. Tone Generator 2 Freq Calc 3 Field Descriptions
      125. 8.5.125 TG_CFG26 (page=0x02 address=0x55) [reset=0h]
        1. Table 224. Tone Generator 2 Freq Calc 3 Field Descriptions
      126. 8.5.126 TG_CFG27 (page=0x02 address=0x56) [reset=0h]
        1. Table 225. Tone Generator 2 Freq Calc 3 Field Descriptions
      127. 8.5.127 TG_CFG28 (page=0x02 address=0x57) [reset=2Ch]
        1. Table 226. Tone Generator 2 Freq Calc 3 Field Descriptions
      128. 8.5.128 TG_CFG29 (page=0x02 address=0x58) [reset=8h]
        1. Table 227. Tone Generator 2 Amplitude Calc Field Descriptions
      129. 8.5.129 TG_CFG30 (page=0x02 address=0x59) [reset=9h]
        1. Table 228. Tone Generator 2 Amplitude Calc Field Descriptions
      130. 8.5.130 TG_CFG31 (page=0x02 address=0x5A) [reset=BCh]
        1. Table 229. Tone Generator 2 Amplitude Calc Field Descriptions
      131. 8.5.131 TG_CFG32 (page=0x02 address=0x5B) [reset=C4h]
        1. Table 230. Tone Generator 2 Amplitude Calc Field Descriptions
      132. 8.5.132 LD_CFG0 (page=0x02 address=0x5C) [reset=64h]
        1. Table 231. Load Diagnostics Resistance Upper Threshold Field Descriptions
      133. 8.5.133 LD_CFG1 (page=0x02 address=0x5D) [reset=0h]
        1. Table 232. Load Diagnostics Resistance Upper Threshold Field Descriptions
      134. 8.5.134 LD_CFG2 (page=0x02 address=0x5E) [reset=0h]
        1. Table 233. Load Diagnostics Resistance Upper Threshold Field Descriptions
      135. 8.5.135 LD_CFG3 (page=0x02 address=0x5F) [reset=0h]
        1. Table 234. Load Diagnostics Resistance Upper Threshold Field Descriptions
      136. 8.5.136 LD_CFG4 (page=0x02 address=0x60) [reset=0h]
        1. Table 235. Load Diagnostics Resistance Lower Threshold Field Descriptions
      137. 8.5.137 LD_CFG5 (page=0x02 address=0x61) [reset=80h]
        1. Table 236. Load Diagnostics Resistance Lower Threshold Field Descriptions
      138. 8.5.138 LD_CFG6 (page=0x02 address=0x62) [reset=0h]
        1. Table 237. Load Diagnostics Resistance Lower Threshold Field Descriptions
      139. 8.5.139 LD_CFG7 (page=0x02 address=0x63) [reset=0h]
        1. Table 238. Load Diagnostics Resistance Lower Threshold Field Descriptions
      140. 8.5.140 IDC_CFG0 (page=0x02 address=0x64) [reset=0h]
        1. Table 239. Idle channel detection threshold Field Descriptions
      141. 8.5.141 IDC_CFG1 (page=0x02 address=0x65) [reset=20h]
        1. Table 240. Idle channel detection threshold Field Descriptions
      142. 8.5.142 IDC_CFG2 (page=0x02 address=0x66) [reset=C4h]
        1. Table 241. Idle channel detection threshold Field Descriptions
      143. 8.5.143 IDC_CFG3 (page=0x02 address=0x67) [reset=9Ch]
        1. Table 242. Idle channel detection threshold Field Descriptions
      144. 8.5.144 IDC_CFG7 (page=0x02 address=0x6C) [reset=0h]
        1. Table 243. Hystersis for idle channel detection Field Descriptions
      145. 8.5.145 IDC_CFG8 (page=0x02 address=0x6D) [reset=0h]
        1. Table 244. Hystersis for idle channel detection Field Descriptions
      146. 8.5.146 IDC_CFG9 (page=0x02 address=0x6E) [reset=12h]
        1. Table 245. Hystersis for idle channel detection Field Descriptions
      147. 8.5.147 IDC_CFG10 (page=0x02 address=0x6F) [reset=C0h]
        1. Table 246. Hystersis for idle channel detection Field Descriptions
      148. 8.5.148 TF_CFG_1 (page=0x02 address=0x7C) [reset=72h]
        1. Table 247. Thermal foldback limiter slope (in db/C) Field Descriptions
      149. 8.5.149 TF_CFG_2 (page=0x02 address=0x7D) [reset=14h]
        1. Table 248. Thermal foldback limiter slope (in db/C) Field Descriptions
      150. 8.5.150 TF_CFG_3 (page=0x02 address=0x7E) [reset=82h]
        1. Table 249. Thermal foldback limiter slope (in db/C) Field Descriptions
      151. 8.5.151 TF_CFG_4 (page=0x02 address=0x7F) [reset=C0h]
        1. Table 250. Thermal foldback limiter slope (in db/C) Field Descriptions
      152. 8.5.152 PAGE4 (page=0x04 address=0x00) [reset=0h]
        1. Table 251. Device Page Field Descriptions
      153. 8.5.153 LD_CFG8 (page=0x04 address=0x18) [reset=0h]
        1. Table 252. Load Resistance Value after load diagnostics is completed Field Descriptions
      154. 8.5.154 LD_CFG9 (page=0x04 address=0x19) [reset=0h]
        1. Table 253. Load Resistance Value after load diagnostics is completed Field Descriptions
      155. 8.5.155 LD_CFG10 (page=0x04 address=0x1A) [reset=0h]
        1. Table 254. Load Resistance Value after load diagnostics is completed Field Descriptions
      156. 8.5.156 LD_CFG11 (page=0x04 address=0x1B) [reset=0h]
        1. Table 255. Load Resistance Value after load diagnostics is completed Field Descriptions
      157. 8.5.157 TF_CFG4 (page=0x04 address=0x58) [reset=0h]
        1. Table 256. Thermal foldback hold count (samples) Field Descriptions
      158. 8.5.158 TF_CFG5 (page=0x04 address=0x59) [reset=0h]
        1. Table 257. Thermal foldback hold count (samples) Field Descriptions
      159. 8.5.159 TF_CFG6 (page=0x04 address=0x5A) [reset=0h]
        1. Table 258. Thermal foldback hold count (samples) Field Descriptions
      160. 8.5.160 TF_CFG7 (page=0x04 address=0x5B) [reset=64h]
        1. Table 259. Thermal foldback hold count (samples) Field Descriptions
      161. 8.5.161 TF_CFG8 (page=0x04 address=0x5C) [reset=40h]
        1. Table 260. Thermal foldback limiter release rate (db/samples) Field Descriptions
      162. 8.5.162 TF_CFG9 (page=0x04 address=0x5D) [reset=BDh]
        1. Table 261. Thermal foldback limiter release rate (db/samples) Field Descriptions
      163. 8.5.163 TF_CFG10 (page=0x04 address=0x5E) [reset=B7h]
        1. Table 262. Thermal foldback limiter release rate (db/samples) Field Descriptions
      164. 8.5.164 TF_CFG11 (page=0x04 address=0x5F) [reset=B0h]
        1. Table 263. Thermal foldback limiter release rate (db/samples) Field Descriptions
      165. 8.5.165 TF_CFG12 (page=0x04 address=0x60) [reset=39h]
        1. Table 264. Thermal foldback limiter temperature threshold Field Descriptions
      166. 8.5.166 TF_CFG13 (page=0x04 address=0x61) [reset=82h]
        1. Table 265. Thermal foldback limiter temperature threshold Field Descriptions
      167. 8.5.167 TF_CFG14 (page=0x04 address=0x62) [reset=60h]
        1. Table 266. Thermal foldback limiter temperature threshold Field Descriptions
      168. 8.5.168 TF_CFG16 (page=0x04 address=0x63) [reset=7Fh]
        1. Table 267. Thermal foldback limiter temperature threshold Field Descriptions
      169. 8.5.169 TF_CFG17 (page=0x04 address=0x64) [reset=2Dh]
        1. Table 268. Thermal foldback max gain reduction (dB) Field Descriptions
      170. 8.5.170 TF_CFG18 (page=0x04 address=0x65) [reset=6Ah]
        1. Table 269. Thermal foldback max gain reduction (dB) Field Descriptions
      171. 8.5.171 TF_CFG19 (page=0x04 address=0x66) [reset=86h]
        1. Table 270. Thermal foldback max gain reduction (dB) Field Descriptions
      172. 8.5.172 TF_CFG20 (page=0x04 address=0x67) [reset=6Fh]
        1. Table 271. Thermal foldback max gain reduction (dB) Field Descriptions
  9. Application and Implementation
    1. 9.1 Application Information
    2. 9.2 Typical Application
      1. 9.2.1 Design Requirements
      2. 9.2.2 Detailed Design Procedure
        1. 9.2.2.1 Mono/Stereo Configuration
        2. 9.2.2.2 Boost Converter Passive Devices
        3. 9.2.2.3 EMI Passive Devices
        4. 9.2.2.4 Miscellaneous Passive Devices
      3. 9.2.3 Application Curves
  10. 10Power Supply Recommendations
    1. 10.1 Power Supplies
    2. 10.2 Power Supply Sequencing
      1. 10.2.1 Boost Supply Details
  11. 11Layout
    1. 11.1 Layout Guidelines
    2. 11.2 Layout Example
  12. 12器件和文档支持
    1. 12.1 文档支持
      1. 12.1.1 相关文档
    2. 12.2 接收文档更新通知
    3. 12.3 社区资源
    4. 12.4 商标
    5. 12.5 静电放电警告
    6. 12.6 Glossary
  13. 13机械、封装和可订购信息

封装选项

机械数据 (封装 | 引脚)
散热焊盘机械数据 (封装 | 引脚)
订购信息

Supply Tracking Limiters with Brown Out Prevention

The TAS2110 monitors battery voltage (VBAT) and along with the audio signal to automatically decrease gain when the audio signal peaks exceed a programmable threshold. This helps prevent clipping and extends playback time through end of charge battery conditions. The limiters threshold can be configured to track the monitored voltage below a programmable inflection point with a programmable slope. A minimum threshold sets the limit of threshold reduction from the voltage tracking. Configurable attack rate, hold time and release rate are provided to shape the dynamic response of each limiter. If the ICLA is enabled the actual attenuation is based on the ICLA configuration using the calculated attenuation value of all devices on the selected ICLA bus.

TAS2110 bop_lim_2562.gifFigure 42. Limiter and Brown Out Prevention Interaction Diagram

A Brown Out Prevention (BOP) feature provides a priority input to provide a fast response to transient dips in the battery supply (VBAT) which at end of charge conditions that can cause system level brown out. When the selected supply dips below the brown-out threshold the BOP will begin reducing gain at a configurable attack rate. When the VBAT supply rises above the brownout threshold, the BOP will begin to release after the programmed hold time. During a BOP event the limiter updates will be paused. This is to prevent a limiter from releasing during a BOP event. The VBAT limiter is enabled by setting the LIMB_EN bit high.

Table 47. VBAT Tracking Limiter Enable

LIMB_EN VALUE
0 Disabled (default)
1 Enabled

The limiter has a configurable attack rate, hold time and release rate, which are available via the LIMB_ATK_RT[2:0], LIMB_HLD_TM[2:0], LIMB_RLS_RT[2:0] register bits. The limiter attack and release step sizes can be set by configuring the LIMB_ATK_ST[1:0] and LIMB_RLS_ST[1:0] register bits. The rates are based on the number of audio samples and actual time values can be calculated by multiplying by 1/fs. For example the attack rate of 4 samples at 48 ksps would be approximately 83 µs.

Table 48. Limiter Attack Rate

LIMB_ATK_RT[2:0] ATTACK RATE (samples/step) ATTACK RATE @ 48 ksps (~µs)
0x0 1 20
0x1 2 (default) 42
0x2 4 83
0x3 8 167
0x4 16 333
0x5 32 666
0x6 64 1300
0x7 128 2700

Table 49. Limiter Hold Time

LIMB_HLD_TM[2:0] HOLD TIME (samples) HOLD TIME @ 48ksps (ms)
0x0 0 0
0x1 1920 40
0x2 4800 100
0x3 9600 200
0x4 19200 400
0x5 48000 1000
0x6 96000 (default) 2000
0x7 192000 4000

Table 50. Limiter Release Rate

LIMB_RLS_RT[2:0] Release Rate (samples/step) RELEASE RATE @ 48 ksps (ms)
0x0 10 0.2
0x1 20 0.4
0x2 40 0.8
0x3 80 1.7
0x4 160 3.3
0x5 320 6.7
0x6 640 (default) 13.3
0x7 1280 26.7

Table 51. Limiter Attack Step Size

LIMB_ATK_ST[1:0] STEP SIZE (dB)
00 0.25
01 0.5 (default)
10 1
11 2

Table 52. Limiter Release Step Size

LIMB_RLS_ST[1:0] STEP SIZE (dB)
00 0.25
01 0.5 (default)
10 1
11 2

A maximum level of attenuation applied by the limiters and brown out prevention feature is configurable via the LIM_MAX_ATN register. This attenuation limit is shared between the features. For instance, if the maximum attenuation is set to 6 dB and the limiters have reduced gain by 4 dB, the brown out prevention feature will only be able to reduce the gain further by another 2 dB. If the limiter or brown out prevention feature is attacking and it reaches the maximum attenuation, gain will not be reduced any further.

The limiter max attenuation LIM_MAX_ATN represent the limit in a 1.X format. To calculate the value to write to the 4 registers by apply the following formula to the desired dB using equation LIMB_MAX_ATN = round(10^(-dB/20)*2^31).

Table 53. Limiter Max Attenuation

LIM_MAX_ATN[31:0] ATTENUATION (dB)
0x7214 82C0 -1
... ...
0x2D6A 866F -9 (default)
... ...
0x1326 DD71 -16.5

The limiter begins reducing gain when the output signal level is greater than the limiter threshold. The limiter can be configured to track selected supply below a programmable inflection point with a minimum threshold value. Figure 43 below shows the limiter configured to limit to a constant level regardless of the selected supply level. To achieve this behavior, set the limiter maximum threshold to the desired level using LIM_TH_MAX. Set the limiter inflection point using LIM_INF_PT below the minimum allowable supply setting. The limiter minimum threshold register LIM_TH_MIN does not impact limiter behavior in this use case.

TAS2110 limiter_fixed.gifFigure 43. Limiter with Fixed Threshold

The VBAT limiter threshold max LIMB_TH_MAX and min LIMB_TH_MIN registers represent the limit in a 5.X format. To calculate the value to write to the 4 registers by apply the following formula to the desired threshold voltage using the equation LIMB_TH_MAX or LIMB_TH_MIN = round(Volts*2^27).

Table 54. VBAT Limiter Maximum Threshold

LIMB_TH_MAX[31:0] THRESHOLD (V)
0x1400 0000 2.5
... ...
0x4800 0000 9 (default)
... ...
0x7C00 0000 15.5

Table 55. VBAT Limiter Minimum Threshold

LIMB_TH_MIN[31:0] THRESHOLD (V)
0x1400 0000 2.5
... ...
0x2000 0000 4 (default)
... ...
0x7C00 0000 15.5

The VBAT limiter inflection point LIMB_INF_PT represent the limit in a format. To calculate the value to write to the 4 registers by apply the following formula to the desired infection voltage using the equation LIMB_INF_PT = round(Volts*2^).

Table 56. VBAT Limiter Inflection Point

LIMB_INF_PT[31:0] THRESHOLD (V)
0x2000 0000 2
... ...
0x34CC CCCD 3.3 (default)
... ...
0x3000 0000 6

Figure 44 shows how to configure the limiter to track selected supply below a threshold without a minimum threshold. Set the LIM_TH_MAX register to the desired threshold and LIM_INF_PT register to the desired inflection point where the limiter will begin reducing the threshold with the selected supply. The default value of 1 V/V will reduce the threshold 1 V for every 1 V of drop in the supply voltage. More aggressive tracking slopes can be programmed if desired. Program the LIM_TH_MIN below the minimum the selected supply to prevent the limiter from having a minimum threshold reduction when tracking the selected supply.

The VBAT limiter tracking slope LIMB_SLOPE[31:0] represent the limit in a format. To calculate the value to write to the 4 registers by apply the following formula to the desired infection voltage using equation LIMB_SLOPE = round(slope(V/V)*2^).

TAS2110 limiter_inflection.gifFigure 44. Limiter with Inflection Point

Table 57. Limiter VBAT Tracking Slope

LIMB_SLOPE[31:0] SLOPE (V/V)
0x1000 0000 1 (default)
... ...
0x4000 0000 4

To achieve a limiter that tracks the selected supply below a threshold, configure the limiter as explained in the previous example, except program the LIM_TH_MIN register to the desired minimum threshold. This is shown in Figure 45 below.

TAS2110 limiter_inf_min.gifFigure 45. Limiter with Inflection Point and Minimum Threshold

The TAS2110 also employs a Brown Out Prevention (BOP) feature that serves as a low latency priority input to the limiter engine that begins attacking the VBAT supply dipping below the programmed BOP threshold. This feature can be enabled by setting the BOP_EN register bit high. It should be noted that the BOP feature is independent of the limiter and will function if enabled, even if the limiter is disabled. The BOP threshold is configured by setting the threshold with register bits BOP_TH.

TAS2110 tas2562_limiter_block_diagram.gifFigure 46. Limiter Block Diagram

Table 58. Brown Out Prevention Enable

BOP_EN VALUE
0 Disabled
1 Enabled (default)

The Brownout prevention threshold BOP_TH represent a threshold in a 4.X format. To calculate the value to write to the 4 registers by apply the following formula to the desired brownout threshold using equation BOP_TH = round(Volts*2^28).

Table 59. Brown Out Prevention Threshold

BOP_TH[31:0] VBAT THRESHOLD (V)
0x0000 000 - 0x1FFF FFFF Reserved
0x2000 0000 2.5
... ...
0x2E66 6666 2.9 (default)
... ...
0x2000 0000 4
0x2000 0001 - 0xFFFF FFFF Reserved

The BOP feature has a separate attack rate BOP_ATK_RT, attack step size BOP_ATK_ST and hold time BOP_HLD_TM from the battery tracking limiter. The BOP feature uses the LIMB_RLS_RT register setting to release after a brown out event. The rates are based on the number of audio samples and actual time values can be calculated by multiplying by 1/fs. For example the attack rate of 4 samples at 48 ksps would be approximately 83 µs.

Table 60. Brown Out Prevention Attack Rate

BOP_ATK_RT[2:0] ATTACK RATE (samples/step) ATTACK RATE @ 48 ksps (~µs)
0x0 1 20
0x1 2 42
0x2 4 83
0x3 8 167
0x4 16 333
0x5 32 666
0x6 64 1300
0x7 128 2700

Table 61. Brown Out Prevention Attack Step Size

BOP_ATK_ST[1:0] STEP SIZE (dB)
00 0.5
01 1 (default)
10 1.5
11 2

Table 62. Brown Out Prevention Hold Time

BOP_HLD_TM[2:0] HOLD TIME (ms)
0x0 0
0x1 10
0x2 25
0x3 50
0x4 100
0x5 250
0x6 500 (default)
0x7 1000

The TAS2110 can also shutdown the device when a brown out event occurs if the BOP_MUTE register bit is set high. For the device to continue playing audio again, the device must transition through a SW/HW shutdown state. Setting the BOP_INF_HLD high will cause the limiter to stay in the hold state (for example never release) after a cleared brown out event until either the device transitions through a mute or SW/HW shutdown state or the register bit BOP_HLD_CLR is written to a high value (which will cause the device to exit the hold state and begin releasing). This bit is self clearing and will always readback low. Figure 47 below illustrates the entering and exiting from a brown out event.

TAS2110 tas5770l_limiter_bop_active.gifFigure 47. Brown Out Prevention Event

Table 63. Shutdown on Brown Out Event

BOP_MUTE VALUE
0 Don't Shutdown (default)
1 Mute then shutdown

Table 64. Infinite Hold on Brown Out Event

BOP_INF_HLD VALUE
0 Use BOP_HLD_TM after Brown Out event (default)
1 Do not release until BOP_HLD_CLR is asserted high

If the TAS2110 is configured to hold the brownout event until cleared the attenuation will remain until BOP_HLD_CLR register clear is performed. This should be performed by setting the BOP_HLR_CLR bit high, reading the register and then setting the BOP_HLD_CLR back to low.

Table 65. BOP Infinite Hold Clear

BOP_HLD_CLR VALUE
0 Don't clear (default)
1 Clear event

A hard brownout level can be set to shutdown the TAS2110 if the BOP cannot mitigate the drop in battery voltage VBAT. This will shutdown the device and should not be used if the BOP_MUTE is enable. The brownout shutdown will only function if brownout engine is enabled using BOP_EN.

Table 66. Brown Out Shutdown Enable

BOSD_EN VALUE
0 Disabled (default)
1 Enabled

The Brownout prevention shutdown threshold BOSD_TH represent a threshold in a 5.X format. To calculate the value to write to the 4 registers by apply the following formula to the desired brownout threshold using equation BOSD_TH = round(Volts*2^27).

Table 67. Brown Out Shutdown Threshold

BOSD_TH[31:0] VBAT THRESHOLD (V)
0x2000 0000 2.5
... ...
0x2B33 3333 2.7 (default)
... ...
0x3FFF FFFF 3.99