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MN10285K

Brand: Panasonic | Category: Computer Hardware
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Table Of Contents
  11. Table Of Contents
  12. Table Of Contents
  13. Table Of Contents
  14. About This Manual
  15. Related Documents
  16. General Description
  17. Conventional vs. MN102H Series Code Assignments
  18. MN102H Series Interrupt Servicing
  19. MN102H Series Description
  20. Internal Registers, Memory, and Special Function Registers
  21. Address Space
  22. Interrupt Controller Configuration
  23. General Specifications
  24. Block Diagram
  25. Block Diagram Explanation
  26. Pin Descriptions
  27. MN102H75K Pin Description
  28. Pin Functions
  29. Power Supply Wiring
  30. Bus Interface
  31. Bus Interface Control Registers
  32. Interrupts
  33. Interrupt Vector Group and Class Assignments
  34. Handler Preprocessing
  35. Interrupt Setup Examples
  36. Timing for External Pin Interrupt Setup (Example)
  37. Setting Up a Watchdog Timer Interrupt
  38. Timing for Watchdog Timer Interrupt Setup (Example)
  39. Interrupt Control Registers
  40. Panasonic
  41. Low-Power Modes
  42. Exiting from SLOW Mode to NORMAL Mode
  43. Notes on Invoking and Exiting STOP and HALT Modes
  44. Turning Individual Functions On and Off
  45. CPU Control Register
  46. Timers
  47. Bit Timer Features
  48. Bit Timer Block Diagrams
  49. Timer 2 Block Diagram
  50. Bit Timer Timing
  51. Bit Timer Setup Examples
  52. Event Counter Timing (Timer 0)
  53. Setting Up an Interval Timer Using Timers 1 and 2
  54. Interval Timer Timing (Timers 1 and 2)
  55. Bit Timer Control Registers
  56. Bit Timer Description
  57. Bit Timer Functions and Features
  58. Timer 4 Block Diagram
  59. Single-Phase PWM Output Timing with Data Change (16-Bit Timers)
  60. External Count Direction Control Timing (16-Bit Timers)
  61. Two-Phase Capture Input Timing (16-Bit Timers)
  62. Setting Up an Event Counter Using Timer 4
  63. Event Counter Timing (Timer 4)
  64. Setting Up a Single-Phase PWM Output Signal Using Timer 4
  65. Single-Phase PWM Output Timing (Timer 4)
  66. Setting Up a Two-Phase PWM Output Signal Using Timer 4
  67. Two-Phase PWM Output Timing (Timer 4)
  68. Setting Up a Single-Phase Capture Input Using Timer 4
  69. Single-Phase Capture Input Timing (Timer 4)
  70. Setting Up a Two-Phase Capture Input Using Timer 4
  71. Two-Phase Capture Input Timing (Timer 4)
  72. Setting Up a 4x Two-Phase Encoder Input Using Timer 5
  73. Count Direction for 4x Two-Phase Encoder Timing Example
  74. Setting Up a 1x Two-Phase Encoder Input Using Timer 5
  75. Count Direction for 1x Two-Phase Encoder Timing Example
  76. Setting Up a One-Shot Pulse Output Using Timer 5
  77. One-Shot Pulse Output Timing (Timer 5)
  78. Setting Up an External Count Direction Controller Using Timer 5
  79. External Count Direction Control Timing (Timer 5)
  80. Setting Up External Reset Control Using Timer 5
  81. External Reset Control Timing (Timer 5)
  83. Serial Interfaces
  84. Connecting the Serial Interfaces
  85. UART Mode Baud Rates
  86. UART Mode Timing
  87. Serial Interface Setup Examples
  88. UART Transmission Timing (Serial Interface 0)
  89. Setting Up Synchronous Serial Reception Using Serial Interface 0
  90. Setting Up the Serial Interface Clock
  91. Serial Interface Clock Timing
  92. Serial Interface Control Registers
  93. Analog-to-Digital Converter
  94. A/D Conversion Timing
  95. Single Channel/Single Conversion Timing
  96. Single Channel/Continuous Conversion Timing
  97. ADC Setup Examples
  98. Setting Up Hardware-Controlled Intermittent Three-Channel A/D Conversion
  99. ADC Control Registers
  100. Caution about Analog-to-Digital Converter
  101. On-Screen Display
  103. Power-Saving Considerations in the OSD Block
  104. OSD Operation
  105. Output Pin Setup
  106. Conditions for VRAM Writes
  107. Standard and Extended Display Modes
  108. Graphics Layer Display Modes
  109. Display Setup Examples
  110. Graphics Display Example
  111. Setting Up the Text Layer
  112. Text Display Example
  113. VRAM
  114. VRAM Organization
  115. Graphics VRAM Organization for Two Modes
  116. Cautions about the number of display code set to VRAM
  117. ROM Organization
  118. Graphics ROM Organization in Different Color Modes
  119. Graphics ROM in the Four Color Modes (16W x 16H Tiles)
  120. Graphics ROM in the Four Color Modes (16W x 18H Tiles)
  121. Graphics ROM Organization in 16-Color Mode (16W x 16H Tiles)
  122. Graphics ROM Organization in 16-Color Mode (16W x 18H Tiles)
  123. Setting Up the OSD
  124. RGB, YM, and YS Output Control Settings
  125. OSD Signal Waveform
  126. OSD Signal Output Switches
  127. Text Layer Functions
  128. Box Shadowing Example
  129. Italicizing and Underlining Example
  130. Display Sizes
  131. Character Size Combinations
  132. Setting Up the OSD Display Position
  133. DMA and Interrupt Timing
  134. DMA and Interrupt Timing for the OSD
  135. Selecting the OSD Dot Clock
  136. Controlling the Shuttering Effect
  137. Shuttered Area Setup Examples
  138. Controlling Shutter Movement
  139. Shutter Movement Setup Examples
  140. Controlling Shuttering Effects
  141. Text-Layer Shuttering Setup Examples
  142. Controlling Line Shuttering
  143. Field Detection Circuit
  144. Considerations for Interlaced Displays
  145. OSD Registers
  146. Cursor Vertical Size Settings
  147. Graphics Vertical Size Settings
  148. Text Vertical Size Settings
  149. IR Remote Signal Receiver
  150. MN102H75K/F75K/85K/F85K LSI User Manual Panasonic Semiconductor Development Company
  151. IR Remote Signal Receiver Operation
  152. Bit Data Reception
  153. Identifying the Data Format
  154. Generating Interrupts
  155. Controlling the SLOW Mode
  156. IR Remote Signal Receiver Control Registers
  157. Closed-Caption Decoder
  158. Functional Description
  159. Clamping Circuit
  160. Sync Separator Circuit
  161. HSYNC Separator
  162. VSYNC Separator
  163. Controller and Sampling Circuit
  164. CRI Detection for Sampling Clock Generation
  165. Closed-Caption Decoder Registers
  166. SLSF and SLHD Multiplexing
  167. Backporch Position Setting
  168. BSP and PSP Multiplexing
  169. Pulse Width Modulator
  170. PWM Data Registers
  171. I/O Ports
  172. I/O Port Circuit Diagrams
  173. P03/ADIN0 to P07/ADIN4 (Port 0)
  174. P10/ADIN5/IRQ1, P11/ADIN6/IRQ2, and P12/ADIN7/IRQ3 (Port 1)
  175. P13/ADIN8/WDOUT and P14/ADIN9/STOP (Port 1)
  176. P15/ADIN10/PWM0 and P16/ADIN11/PWM1 (Port 1)
  177. PWM2 (Port 1), P20/PWM3, P21/PWM4, P22/PWM5, and P23/PWM6 (Port 2)
  178. P24/TM4IC/SBT1 (Port 2)
  179. P27/TM0IO (Port 2)
  180. P35/DAROUT/R, P36/DAGOUT/G, P37/DABOUT/B (Port 3), and P40/DAYMOUT/YM (Port 4)
  181. P25/TM4IOB/SBI1/SBD1 and P26/TM4IOA/SBO1 (Port 2)
  182. P55 and P56 (Port 5)
  183. P57/SBT0 (Port 5)
  184. P02/SCL1 (Port 0) and P61/SCL0 (Port 6)
  185. P01/SDA1 (Port 1) and P60/SDA0 (Port 6)
  186. P31/CVBS0 and P32/CVBS1 (Port 3)
  187. P30/CLH and P33/CLL (Port 3)
  188. P34/VREF (Port 3)
  189. P41/TM1IO, P42/TM5IOA, and P43/TM5IOB/HI0 (Port 4)
  190. P45/OSDXO and P46/OSDXI (Port 4)
  191. P47/HSYNC (Port 4)
  192. P50/SYSCLK (Port 5)
  193. P51/YS (Port 5)
  194. P52/IRQ4/VI0 (Port 5)
  195. P53/RST (Port 5)
  196. P54/IRQ5/VSYNC (Port 5)
  197. I/O Port Control Registers
  198. ROM Correction
  199. Programming Considerations
  200. ROM Correction Control Registers
  201. Description
  202. Control Registers for Clamping Circuit
  203. Setting Up the I 2 C Bus Connection
  204. SDA and SCL Waveform Characteristics
  205. Pre-configuring
  206. Setting Up the Second Interrupt
  207. Setting Up a Transition from Slave Receiver to Slave Transmitter
  208. Setting Up the Third Interrupt
  209. STA and STO Settings
  210. H Counter
  211. H Counter Pins
  212. H Counter Control Registers
  213. Appendix A Register Map
  214. A-2 Register Map: x'00FC00' to x'00FDFF
  215. A-3 Register Map: x'00FE00' to x'00FFFF
  216. B.1 Description
  217. B.2 Benefits
  218. B-2 PROM Writer Hardware
  219. B.4 Using the Onboard Serial Programming Mode
  220. B.4.1 Configuring the System for Onboard Serial Programming
  221. B.4.2 Circuit Requirements for the Target Board
  222. B.4.3 Microcontroller Hardware Used in Onboard Serial Programming
  223. B.4.4 Microcontroller Memory Map Used During Onboard Serial Programming
  224. B.4.4.2 RAM Address Space
  225. B.4.6 Setting Up the Onboard Serial Programming Mode
  226. B-9 Load Program Start Flow
  227. B.4.7 Branching to the User Program
  228. B.5 Reprogramming Flow
  229. Questions and Comments
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