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Abov MC96F6332M manuals

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MC96F6332M

Brand: Abov | Category: Microcontrollers
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. Overview
  10. Features
  11. Ordering Information
  12. Development Tools
  13. Figure 1.2 E-PGM+(Single writer)
  14. Figure 1.3 E-GANG4 and E-GANG6 (for Mass Production)
  15. Block Diagram
  16. Pin Assignment
  17. Figure 3.2 MC96F6432Q 44MQFP-1010 Pin Assignment
  18. Figure 3.3 MC96F6332L 32LQFP Pin Assignment
  19. Figure 3.4 MC96F6332D 32SOP Pin Assignment
  20. Package Diagram
  21. Figure 4.2 44-Pin MQFP Package
  22. Figure 4.3 32-Pin LQFP Package
  23. Figure 4.4 32-Pin SOP Package
  24. Figure 4.5 28-Pin SOP Package
  25. Pin Description
  26. Port Structures
  27. External Interrupt I/O Port
  28. Electrical Characteristics
  29. A/D Converter Characteristics
  30. Low Voltage Reset and Low Voltage Indicator Characteristics
  31. High Internal RC Oscillator Characteristics
  32. LCD Voltage Characteristics
  33. DC Characteristics
  34. AC Characteristics
  35. SPI0/1/2 Characteristics
  36. UART0/1 Characteristics
  37. I2C0/1 Characteristics
  38. Data Retention Voltage in Stop Mode
  39. Internal Flash Rom Characteristics
  40. Main Clock Oscillator Characteristics
  41. Sub Clock Oscillator Characteristics
  42. Main Oscillation Stabilization Characteristics
  43. Operating Voltage Range
  44. Recommended Circuit and Layout
  45. Recommended Circuit and Layout with SMPS Power
  46. Typical Characteristics
  47. Figure 7.19 SUB RUN (IDD3) Current
  48. Figure 7.21 STOP (IDD5) Current
  49. Memory
  50. Figure 8.1 Program Memory
  51. Data Memory
  52. Figure 8.3 Lower 128 Bytes RAM
  53. XRAM Memory
  54. Table 8-1 SFR Map Summary
  55. Table 8-2 SFR Map Summary
  56. Table 8-3 SFR Map
  57. I/O Ports
  58. Table 9-1 Port Register Map
  59. Port Function
  60. Interrupt Controller
  61. External Interrupt
  62. Interrupt Vector Table
  63. Figure 10.3 Interrupt Sequence Flow
  64. Effective Timing after Controlling Interrupt Bit
  65. Multi Interrupt
  66. Interrupt Enable Accept Timing
  67. Interrupt Timing
  68. Table 10-3 Interrupt Register Map
  69. Peripheral Hardware
  70. Table 11-1 Clock Generator Register Map
  71. Basic Interval Timer
  72. Table 11-2 Basic Interval Timer Register Map
  73. Watch Dog Timer
  74. Figure 11.4 Watch Dog Timer Block Diagram
  75. Watch Timer
  76. Table 11-4 Watch Timer Register Map
  77. Timer 0
  78. Figure 11.6 8-Bit Timer/Counter Mode for Timer 0
  79. Figure 11.8 8-Bit PWM Mode for Timer 0
  80. Figure 11.9 PWM Output Waveforms in PWM Mode for Timer 0
  81. Figure 11.10 8-Bit Capture Mode for Timer 0
  82. Figure 11.11 Input Capture Mode Operation for Timer 0
  83. Figure 11.13 8-Bit Timer 0 Block Diagram
  84. Table 11-6 Timer 0 Register Map
  85. Timer 1
  86. Figure 11.14 16-Bit Timer/Counter Mode for Timer 1
  87. Figure 11.16 16-Bit Capture Mode for Timer 1
  88. Figure 11.17 Input Capture Mode Operation for Timer 1
  89. Figure 11.19 16-Bit PPG Mode for Timer 1
  90. Figure 11.20 16-Bit PPG Mode Timming chart for Timer 1
  91. Figure 11.21 16-Bit Timer 1 Block Diagram
  92. Timer 2
  93. Figure 11.22 16-Bit Timer/Counter Mode for Timer 2
  94. Figure 11.23 16-Bit Timer/Counter 2 Example
  95. Figure 11.24 16-Bit Capture Mode for Timer 2
  96. Figure 11.25 Input Capture Mode Operation for Timer 2
  97. Figure 11.27 16-Bit PPG Mode for Timer 2
  98. Figure 11.28 16-Bit PPG Mode Timming chart for Timer 2
  99. Figure 11.29 16-Bit Timer 2 Block Diagram
  100. Timer 3,
  101. Figure 11.30 8-Bit Timer/Counter Mode for Timer 3, 4
  102. Figure 11.31 16-Bit Timer/Counter Mode for Timer 3
  103. Figure 11.32 8-Bit Capture Mode for Timer 3, 4
  104. Figure 11.33 16-Bit Capture Mode for Timer 3
  105. Table 11-12 PWM Frequency vs. Resolution at 8 MHz
  106. Figure 11.34 10-Bit PWM Mode (Force 6-ch)
  107. Figure 11.35 10-Bit PWM Mode (Force All-ch)
  108. Figure 11.36 Example of PWM at 4 MHz
  109. Figure 11.38 Example of PWM Output Waveform
  110. Figure 11.40 Example of Phase Correction and Frequency correction of PWM
  111. Figure 11.42 Example of Force Drive All Channel with A-ch
  112. Figure 11.43 Example of Force Drive 6-ch Mode
  113. Figure 11.44 Example of PWM Delay
  114. Figure 11.45 Two 8-Bit Timer 3, 4 Block Diagram
  115. Figure 11.46 16-Bit Timer 3 Block Diagram
  116. Table 11-14 Timer 3, 4 Register Map
  117. Buzzer Driver
  118. Table 11-16 Buzzer Driver Register Map
  119. Figure 11.49 SPI 2 Block Diagram
  120. Table 11-17 SPI 2 Register Map
  121. Bit A/D Converter
  122. Figure 11.52 12-bit ADC Block Diagram
  123. Figure 11.55 ADC Operation for Align Bit
  124. Figure 11.56 A/D Converter Operation Flow
  125. USI0 (UART + SPI + I2C)
  126. Figure 11.57 USI0 UART Block Diagram
  127. Figure 11.58 Clock Generation Block Diagram (USI0)
  128. Figure 11.59 Synchronous Mode SCK0 Timing (USI0)
  129. Figure 11.60 Frame Format (USI0)
  130. Figure 11.61 Asynchronous Start Bit Sampling (USI0)
  131. Figure 11.63 Stop Bit Sampling and Next Start Bit Sampling (USI0)
  132. Table 11-20 CPOL0 Functionality
  133. Figure 11.64 USI0 SPI Clock Formats when CPHA0=0
  134. Figure 11.65 USI0 SPI Clock Formats when CPHA0=1
  135. Figure 11.66 USI0 SPI Block Diagram
  136. Figure 11.67 Bit Transfer on the I2C-Bus (USI0)
  137. Figure 11.68 START and STOP Condition (USI0)
  138. Figure 11.70 Acknowledge on the I2C-Bus (USI0)
  139. Figure 11.71 Clock Synchronization during Arbitration Procedure (USI0)
  140. Figure 11.73 Formats and States in the Master Transmitter Mode (USI0)
  141. Figure 11.74 Formats and States in the Master Receiver Mode (USI0)
  142. Figure 11.75 Formats and States in the Slave Transmitter Mode (USI0)
  143. Figure 11.76 Formats and States in the Slave Receiver Mode (USI0)
  144. Figure 11.77 USI0 I2C Block Diagram
  145. Table 11-21 USI0 Register Map
  146. USI1 (UART + SPI + I2C)
  147. Figure 11.78 USI1 UART Block Diagram
  148. Figure 11.79 Clock Generation Block Diagram (USI1)
  149. Figure 11.80 Synchronous Mode SCK1 Timing (USI1)
  150. Figure 11.81 Frame Format (USI1)
  151. Figure 11.82 Asynchronous Start Bit Sampling (USI1)
  152. Figure 11.84 Stop Bit Sampling and Next Start Bit Sampling (USI1)
  153. Table 11-23 CPOL1 Functionality
  154. Figure 11.85 USI1 SPI Clock Formats when CPHA1=0
  155. Figure 11.86 USI1 SPI Clock Formats when CPHA1=1
  156. Figure 11.87 USI1 SPI Block Diagram
  157. Figure 11.88 Bit Transfer on the I2C-Bus (USI1)
  158. Figure 11.89 START and STOP Condition (USI1)
  159. Figure 11.91 Acknowledge on the I2C-Bus (USI1)
  160. Figure 11.92 Clock Synchronization during Arbitration Procedure (USI1)
  161. Figure 11.94 Formats and States in the Master Transmitter Mode (USI1)
  162. Figure 11.95 Formats and States in the Master Receiver Mode (USI1)
  163. Figure 11.96 Formats and States in the Slave Transmitter Mode (USI1)
  164. Figure 11.97 Formats and States in the Slave Receiver Mode (USI1)
  165. Figure 11.98 USI1 I2C Block Diagram
  166. Table 11-24 USI1 Register Map
  167. Table 11-25 Examples of USI0BD and USI1BD Settings for Commonly Used Oscillator Frequencies
  168. LCD Driver
  169. Figure 11.99 LCD Circuit Block Diagram
  170. Figure 11.100 LCD Signal Waveforms (1/2Duty, 1/2Bias)
  171. Figure 11.101 LCD Signal Waveforms (1/3Duty, 1/3Bias)
  172. Figure 11.102 LCD Signal Waveforms (1/4Duty, 1/3Bias)
  173. Figure 11.103 LCD Signal Waveforms (1/8Duty, 1/4Bias)
  174. Figure 11.104 Internal Resistor Bias Connection
  175. Figure 11.105 External Resistor Bias Connection
  176. Figure 11.106 LCD Circuit Block Diagram
  177. Table 11-27 LCD Frame Frequency
  178. Power Down Operation
  179. IDLE Mode
  180. STOP Mode
  181. Release Operation of STOP Mode
  182. Table 12-2 Power Down Operation Register Map
  183. RESET
  184. RESET Noise Canceller
  185. Figure 13.5 Configuration Timing when Power-on
  186. Table 13-2 Boot Process Description
  187. External RESETB Input
  188. Brown Out Detector Processor
  189. LVI Block Diagram
  190. Register Map
  191. On-chip Debug System
  192. Two-Pin External Interface
  193. Figure 14.3 Data Transfer on the Twin Bus
  194. Figure 14.5 Start and Stop Condition
  195. Figure 14.7 Clock Synchronization during Wait Procedure
  196. Figure 14.8 Connection of Transmission
  197. Flash Memory
  198. Figure 15.1 Flash Program ROM Structure
  199. Table 15-1Flash Memory Register Map
  200. Figure 15.2 Flow of Protection for Invalid Erase/Write
  201. Configure Option
  202. APPENDIX
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