米6体育平台手机版

SPRZ455D december 2020 – june 2023 DRA829J , DRA829J-Q1 , DRA829V , DRA829V-Q1 , TDA4VM , TDA4VM-Q1

ADVANCE INFORMATION

1
1Modules Affected
2Nomenclature, Package Symbolization, and Revision Identification
3Silicon Revision 1.1/1.0 Usage Notes and Advisories
1. 3.1 Silicon Revision 1.1/1.0 Usage Notes
  1. i2134
2. 3.2 Silicon Revision 1.1/1.0 Advisories
3. i2024
4. i2038
5. i2048
6. i2049
7. i2050
8. i2052
9. i2053
10. i2054
11. i2055
12. i2062
13. i2063
14. i2064
15. i2065
16. i2067
17. i2079
18. i2081
19. i2083
20. i2085
21. i2086
22. i2087
23. i2090
24. i2091
25. i2092
26. i2093
27. i2094
28. i2095
29. i2096
30. i2097
31. i2098
32. i2099
33. i2100
34. i2101
35. i2102
36. i2103
37. i2103
38. i2115
39. i2116
40. i2117
41. i2118
42. i2119
43. i2120
44. i2121
45. i2122
46. i2123
47. 3.3 i2124
48. 3.4 i2126
49. 3.5 i2127
50. i2128
51. i2129
52. i2131
53. i2132
54. i2133
55. i2134
56. i2137
57. i2138
58. i2139
59. i2141
60. i2143
61. i2144
62. i2145
63. i2146
64. i2147
65. i2148
66. i2149
67. 3.6 i2150
68. 3.7 i2151
69. 3.8 i2152
70. i2153
71. i2154
72. i2155
73. i2157
74. i2159
75. i2160
76. i2161
77. i2162
78. i2163
79. i2164
80. i2166
81. i2168
82. i2171
83. i2173
84. i2174
85. i2177
86. i2178
87. i2179
88. i2180
89. i2182
90. i2183
91. i2184
92. i2185
93. i2187
94. i2188
95. i2189
96. i2190
97. i2191
98. i2196
99. i2197
100. i2198
101. i2199
102. i2200
103. i2205
104. i2207
105. i2208
106. i2210
107. i2211
108. i2213
109. i2214
110. i2215
111. i2216
112. i2217
113. i2219
114. i2221
115. i2227
116. i2228
117. i2229
118. i2230
119. i2232
120. i2234
121. i2235
122. i2238
123. i2239
124. i2244
125. i2245
126. i2246
127. i2249
128. i2253
129. i2257
130. i2271
131. i2274
132. i2275
133. i2277
134. i2278
135. i2279
136. i2283
137. i2305
138. i2306
139. i2307
140. i2310
141. i2311
142. i2312
143. i2320
144. i2329
145. i2351
146. i2362
147. i2366
148. i2371
149. i2383
Trademarks
Revision History

i2166

DDR: Entry and exit to/from Deep Sleep low-power state can cause PHY internal clock misalignment

Details:

When DDR PHY enters the Deep Sleep low-power state, there is a delay before the PHY PLL is disabled and gated off. If exit from Deep Sleep occurs before the PHY PLL is disabled, the PHY internal clocks can get misaligned with respect to each other, resulting in timing failures inside the PHY.

Workaround(s):

If using software-initiated low-power mode by writing to LP_CMD in the DENALI_CTL_132 register, ensure that when entry into low-power mode has been acknowledged, wait for a minimum of 160 DDR clock cycles before requesting an exit from low-power mode. Another option is to use the following workaround.

If using PSC to disable the DDR interface, ensure that after disabling of DDR interface has been acknowledged, wait for a minimum of 160 DDR clock cycles before sending a request to enable it. Another option is to use the following workaround.

If using the controller’s automatic mechanism for low power entry/exit using LP_AUTO_ENTRY_EN in the DENALI_CTL_141 register, use the following workaround.

Workaround: Ensure that DDR PHY does not enter Deep Sleep low-power state.

This can be ensured by programming the value of PHY_LP_WAKEUP[3:0] in the DENALI_PHY_1318 register is greater than the values of all the following thresholds in DDR controller registers.

LPI_CTRL_IDLE_WAKEUP_FN, LPI_PD_WAKEUP_FN, LPI_SR_SHORT_WAKEUP_FN, LPI_SR_LONG_WAKEUP_FN, LPI_SRPD_SHORT_WAKEUP_FN, LPI_SRPD_LONG_WAKEUP_FN, LPI_SR_LONG_MCCLK_GATE_WAKEUP_FN, LPI_SRPD_LONG_MCCLK_GATE_WAKEUP_FN, and LPI_TIMER_WAKEUP_FN

where FN = F0, F1, and F2 for different frequency set points.