( DOC No. HX8352-C01(T)-DS ) HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver Version 01 May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Contents May, 2011 1. General Description ................................................................................................................................ 10 2. Features ...................................................................................................................................................11 2.1 2.2 2.3 2.4 2.5 3. Device Overview ..................................................................................................................................... 13 3.1 3.2 3.3 3.4 3.5 4. Display.............................................................................................................................................11 Display module................................................................................................................................11 Display / Control interface .............................................................................................................. 12 Input power..................................................................................................................................... 12 Miscellaneous................................................................................................................................. 12 Block diagram................................................................................................................................. 13 Pin description................................................................................................................................ 14 Pin assignment............................................................................................................................... 16 PAD coordinates............................................................................................................................. 17 Bump arrangement......................................................................................................................... 25 Interface .................................................................................................................................................. 26 4.1 System interface............................................................................................................................. 26 4.1.1 8080 System interface ............................................................................................................... 28 4.1.2 I80 8-bit Parallel Bus System Interface...................................................................................... 29 4.1.3 I80 9-bit Parallel Bus System Interface...................................................................................... 31 4.1.4 I80 16-bit Parallel Bus System Interface.................................................................................... 32 4.1.5 I80 18-bit Parallel Bus System Interface.................................................................................... 37 4.2 Serial Data Transfer Interface ........................................................................................................ 41 4.2.1 3-wire serial interface................................................................................................................. 41 4.2.2 4-wire serial interface................................................................................................................. 44 4.3 RGB interface................................................................................................................................. 45 4.3.1 RGB Interface Data Color Coding.............................................................................................. 47 5. Function Description ............................................................................................................................... 50 5.1 Display data GRAM........................................................................................................................ 50 5.1.1 Address counter (AC) ................................................................................................................ 50 5.1.2 Source, gate and memory map.................................................................................................. 51 5.1.3 MCU to memory write / read direction ....................................................................................... 52 5.1.4 Fully display, partial display, vertical scrolling display................................................................ 54 5.2 Tearing Effect Output Line.............................................................................................................. 59 5.2.1 Tearing Effect Line Modes ......................................................................................................... 59 5.2.2 Tearing Effect Line Timing.......................................................................................................... 61 5.3 Oscillator......................................................................................................................................... 64 5.4 Source driver .................................................................................................................................. 65 5.5 Gate Driver ..................................................................................................................................... 66 5.6 Power generation ........................................................................................................................... 67 5.6.1 LCD power generation scheme ................................................................................................. 67 5.6.2 Power supply circuit ................................................................................................................... 68 5.7 Gamma characteristic correction function...................................................................................... 70 5.7.1 Gray Voltage Generator for Source Driver................................................................................. 71 5.7.2 Gray Voltage Generator for Digital Gamma Correction ............................................................. 82 5.8 Characteristics of I/O...................................................................................................................... 84 5.8.1 Output or bi-directional (I/O) pins............................................................................................... 84 5.8.2 Input pins.................................................................................................................................... 84 5.9 Power on/off sequence................................................................................................................... 85 5.9.1 Case 1: NRESET line is held high or unstable by host at power on.......................................... 86 5.9.2 Case 2: NRESET line is held low by host at power on .............................................................. 87 5.10 Uncontrolled power off ................................................................................................................... 88 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.2May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Contents May, 2011 5.11 Power On/Off Sequence ................................................................................................................ 89 5.12 Content adaptive brightness control (CABC) function ................................................................... 92 5.12.1 Module architectures ............................................................................................................. 93 5.12.2 CABC block ........................................................................................................................... 94 5.12.3 Brightness control block ........................................................................................................ 95 5.12.4 Minimum brightness setting of CABC function ...................................................................... 96 5.13 OTP programing ............................................................................................................................. 97 5.13.1 OTP table............................................................................................................................... 97 5.13.2 OTP programming flow.......................................................................................................... 99 5.13.3 Programming sequence ...................................................................................................... 100 6. Command.............................................................................................................................................. 101 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 6.11 6.12 6.13 6.14 6.15 6.16 6.17 6.18 6.19 6.20 6.21 6.22 6.23 6.24 6.25 6.26 6.27 6.28 6.29 6.30 6.31 6.32 6.33 6.34 6.35 6.36 6.37 6.38 6.39 6.40 6.41 6.42 6.43 Command list ............................................................................................................................... 101 Index register................................................................................................................................ 106 Himax ID register (PAGE0 -R00h)................................................................................................ 106 Display mode control register (PAGE0 -01h) ............................................................................... 106 Column address start register (PAGE0 -02~03h) ........................................................................ 107 Column address end register (PAGE0 -04~05h) ......................................................................... 107 Row address start register (PAGE0 -06~07h).............................................................................. 108 Row address end register (PAGE0 -08~09h)............................................................................... 108 Partial Area Start Row Register (PAGE0 -0A~0Bh) ..................................................................... 109 Partial Area End Row Register (PAGE0 -0C~0Dh)...................................................................... 109 Vertical scroll top fixed area register (PAGE0 -0E~0Fh) ............................................................... 111 Vertical scroll height area register (PAGE0 -10~11h).................................................................... 111 Vertical scroll button fixed area register (PAGE0 -12~13h)........................................................... 111 Vertical scroll start address register (PAGE0 -14~15h).................................................................112 Memory access control register (PAGE0 -16h).............................................................................114 COLMOD control register (PAGE0 -17h) ......................................................................................114 OSC control register (PAGE0 -18h & R19h) .................................................................................116 Power control 1 register (PAGE0 -1Ah) ........................................................................................117 Power control 2 register (PAGE0 -1Bh) ........................................................................................118 Power control 3 register (PAGE0 -1Ch) ........................................................................................119 Power control 5 register (PAGE0 -1Fh)........................................................................................ 120 Read data register (PAGE0 -22h) ................................................................................................ 121 VCOM control 1~3 register (PAGE0 -23~25h) ............................................................................. 122 Display control 1~7 register (PAGE0 -26h~2Ch) ......................................................................... 124 Cycle control 1~2 register (PAGE0 -2Dh~2Eh)............................................................................ 127 RGB interface control 1~4 register (PAGE0 -31h~34h) ............................................................... 128 Panel characteristic control register (PAGE0 -36h)...................................................................... 130 OTP control 1~5 register (PAGE0 -38h ~ 3Bh, 87h) .................................................................... 131 CABC control 1~4 register (PAGE0 -3Ch~3Fh) ........................................................................... 132 Gamma control 1~15 register (PAGE0 -40h~4Eh)....................................................................... 134 TE control register (PAGE0 -60h, 84h~85h) ................................................................................ 137 ID register (PAGE0 -61h~63h) ..................................................................................................... 138 Memory write control register (PAGE0 -68h) ............................................................................... 138 TE interval control register (PAGE0 -69h) .................................................................................... 139 RGB SRAM cycle control register (PAGE0 -6Ah) ........................................................................ 139 Data format control register (PAGE0 -6Bh) .................................................................................. 140 Frame rate control 1~8 register (PAGE0 -70h~77h) .................................................................... 141 Power control 6~11 register (PAGE0 -7Ah~7Fh) ......................................................................... 144 VPP voltage control register (PAGE0 -86h) ................................................................................. 146 Get scan line 1~2 register (PAGE0 -88h~89h)............................................................................. 146 Read VCOM OTP times register (PAGE0 -R8Ah) ....................................................................... 147 Read ID OTP times register (PAGE0 -R8Bh)............................................................................... 147 Command page select register (RFFh)........................................................................................ 148 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.3May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Contents 6.44 6.45 6.46 7. May, 2011 DGC control register (PAGE1 -00h) ............................................................................................. 149 DGC LUT register (PAGE1 -01h~63h) ......................................................................................... 149 CABC control 5 & 7 register (PAGE1 –C3h, C5h)........................................................................ 150 Layout Recommendation ...................................................................................................................... 151 7.1 7.2 7.3 8. Layout Recommendation ............................................................................................................. 151 Maximum layout resistance.......................................................................................................... 152 External Components Connection ............................................................................................... 153 Electrical Characteristics....................................................................................................................... 154 8.1 Absolute maximum ratings ........................................................................................................... 154 8.2 DC characteristics ........................................................................................................................ 155 8.3 AC characteristics ........................................................................................................................ 156 8.3.1 8080 system interface characteristics...................................................................................... 156 8.3.2 Serial interface characteristics ................................................................................................. 157 8.3.3 RGB interface characteristics .................................................................................................. 158 8.3.4 Reset input timing .................................................................................................................... 160 9. 10. Ordering Information ............................................................................................................................. 161 Revision History................................................................................................................................ 161 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.4May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Figures May, 2011 Figure 4.1: 8080 System interface protocol, write/read register .................................................... 28 Figure 4.2: 8080 System interface protocol, write/read GRAM...................................................... 28 Figure 4.3: Example of I80 8-bit bus interface ............................................................................... 29 Figure 4.4: Write data for RGB 5-6-5 bits input in I80 8-bit parallel bus interface.......................... 29 Figure 4.5: Write data for RGB 6-6-6 bits input in I80 8-bit parallel bus interface ......................... 30 Figure 4.6: Example of I80 9-bit bus interface ............................................................................... 31 Figure 4.7: Write data for RGB 6-6-6 bits input in I80 9-bit parallel bus interface ......................... 31 Figure 4.8: Example of I80 16-Bit parallel bus interface ................................................................ 32 Figure 4.9: Write data for RGB 5-6-5 bits input in I80 16-bit parallel bus interface ....................... 33 Figure 4.10: Write data for RGB 6-6-6 bits input in I80 16-bit parallel bus interface (DFM=0) ...... 34 Figure 4.11: Write data for RGB 6-6-6 bits input in I80 16-bit parallel bus interface (R17h=07h) . 35 Figure 4.12: Write data for RGB 6-6-6 bits input in I80 16-bit parallel bus interface (R17h=04h) . 36 Figure 4.13: Example of I80 18-Bit parallel bus interface .............................................................. 37 Figure 4.14: Write data for RGB 6-6-6 bits input in I80 18-bit parallel bus interface ..................... 38 Figure 4.15: Index register read/write timing in 3-wire serial bus system interface ....................... 42 Figure 4.16: Data write timing in 3-wire serial bus system interface.............................................. 43 Figure 4.17: Index register write timing in 4-wire serial bus system interface ............................... 44 Figure 4.18: Data write timing in 4-wire serial bus system interface.............................................. 44 Figure 4.19: PCLK cycle................................................................................................................. 45 Figure 4.20: General Timing Diagram............................................................................................ 46 Figure 4.21: DPI timing diagram .................................................................................................... 46 Figure 4.22: 16 bit data bus color order on DPI interface .............................................................. 47 Figure 4.23: 18 bit data bus color order on DPI interface .............................................................. 48 Figure 5.1: MCU to Memory write / read direction ......................................................................... 52 Figure 5.2: MY, MX, MV setting ..................................................................................................... 52 Figure 5.3: Address direction settings............................................................................................ 53 Figure 5.4: 240RGB x 432 resolution............................................................................................. 54 Figure 5.5: Vertical scrolling ........................................................................................................... 56 Figure 5.6: Memory map of vertical scrolling 1 .............................................................................. 56 Figure 5.7: Memory map of vertical scrolling 2 .............................................................................. 57 Figure 5.8: Vertical scroll example 1 .............................................................................................. 58 Figure 5.9: Vertical scroll example 2 .............................................................................................. 58 Figure 5.10: Tearing Effect Output signal mode 1 ......................................................................... 59 Figure 5.11: TE Delay Output......................................................................................................... 59 Figure 5.12: Tearing Effect Output signal mode 2 ......................................................................... 60 Figure 5.13: TE Output for TELINE setting .................................................................................... 60 Figure 5.14: Tearing Effect Output signal ...................................................................................... 60 Figure 5.15: Tearing Effect Line Timing ......................................................................................... 61 Figure 5.16: Rise and Fall times of TE signal ................................................................................ 61 Figure 5.17: Tearing Effect - Example 1-1 ..................................................................................... 62 Figure 5.18: Tearing Effect - Example 1-2 ..................................................................................... 62 Figure 5.19: Tearing Effect - Example 2-1 ..................................................................................... 63 Figure 5.20: Tearing Effect - Example 2-2 ..................................................................................... 63 Figure 5.21: OSC aritecture ........................................................................................................... 64 Figure 5.22: Source channels of different inversion mode............................................................. 65 Figure 5.23: Scan direction of Gate Driver..................................................................................... 66 Figure 5.24: LCD power generation scheme ................................................................................. 67 Figure 5.25: Block diagram of HX8352-C01 power circuit with internal charge pump................... 68 Figure 5.26: Gamma adjustments different of source driver with digital gamma correction .......... 70 Figure 5.27: Grayscale Control ...................................................................................................... 71 Figure 5.28: Structure of Grayscale Voltage Generator................................................................. 72 Figure 5.29: Gamma Resister Steam and Reference Voltage....................................................... 73 Figure 5.30: Relationship between source output and Vcom ........................................................ 81 Figure 5.31: Relationship between data and output level, REV =0, normal white......................... 81 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.5May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Figures May, 2011 Figure 5.32: Block Diagram of Digital Gamma Correction ............................................................. 82 Figure 5.33: Case 1: NRESET line is held high or unstable by host at power on.......................... 86 Figure 5.34: Case 2: NRESET line is held low by host at power on .............................................. 87 Figure 5.35: Display On/Off Set flow .............................................................................................. 89 Figure 5.36: Standby Mode Setting flow ........................................................................................ 89 Figure 5.37: Deep Standby Mode Setting flow............................................................................... 90 Figure 5.38: Power Supply Setting Flow ........................................................................................ 91 Figure 5.39: CABC block diagram.................................................................................................. 92 Figure 5.40: Module architecture ................................................................................................... 93 Figure 5.41: CABC gain / CABC duty generation .......................................................................... 94 Figure 5.42: CABC_PWM_OUT output duty.................................................................................. 95 Figure 5.43: OTP programming sequence..................................................................................... 99 Figure 6.1 Index register .............................................................................................................. 106 Figure 6.2 Himax ID register (PAGE0 -00h) ................................................................................. 106 Figure 6.3 Display mode control register (PAGE0 -01h) .............................................................. 106 Figure 6.4 Column address start register upper byte (PAGE0 -02h) ........................................... 107 Figure 6.5 Column address start register low byte (PAGE0 -03h)............................................... 107 Figure 6.6 Column address end register upper byte (PAGE0 -04h) ............................................ 107 Figure 6.7 Column address end register low byte (PAGE0 -05h)................................................ 107 Figure 6.8 Row address start register upper byte (PAGE0 -06h) ................................................ 108 Figure 6.9 Row address start register low byte (PAGE0 -07h) .................................................... 108 Figure 6.10 Row address end register upper byte (PAGE0 -08h) ............................................... 108 Figure 6.11 Row address end register low byte (PAGE0 -09h) ................................................... 108 Figure 6.12 Partial area start row register upper byte (PAGE0 -0Ah) ......................................... 109 Figure 6.13 Partial area start row register low byte (PAGE0 -0Bh) ............................................. 109 Figure 6.14 Partial area end row register upper byte (PAGE0 -0Ch) .......................................... 109 Figure 6.15 Partial area end row register low byte (PAGE0 -0Dh) .............................................. 109 Figure 6.16 Vertical scroll top fixed area register upper byte (PAGE0 -0Eh) ............................... 111 Figure 6.17 Vertical scroll top fixed area register low byte (PAGE0 -0Fh) ................................... 111 Figure 6.18 Vertical scroll height area register upper byte (PAGE0 -10h).................................... 111 Figure 6.19 Vertical scroll height area register low byte (PAGE0 -11h) ....................................... 111 Figure 6.20 Vertical scroll button fixed area register upper byte (PAGE0 -12h)........................... 111 Figure 6.21 Vertical scroll button fixed area register low byte (PAGE0 -13h)............................... 111 Figure 6.22 Vertical Scroll Start Address Register Upper Byte (PAGE0 -14h).............................112 Figure 6.23 Vertical Scroll Start Address Register Low Byte (PAGE0 -15h) ................................112 Figure 6.24 Memory access control register (PAGE0 -16h) .........................................................114 Figure 6.25 COLMOD control register (PAGE0 -17h)...................................................................114 Figure 6.26 OSC control 1 register (PAGE0 -18h) ........................................................................116 Figure 6.27 OSC control 2 register (PAGE0 -19h) ........................................................................116 Figure 6.28 Power control 1 register (PAGE0 -1Ah) .....................................................................117 Figure 6.29 Power control 2 register (PAGE0 -1Bh) .....................................................................118 Figure 6.30 Power control 3 register (PAGE0 -1Ch).....................................................................119 Figure 6.31 Power control 5 register (PAGE0 -1Fh) .................................................................... 120 Figure 6.32 Read data register (PAGE0 -22h) ............................................................................. 121 Figure 6.33 VCOM control 1 register (PAGE0 -23h).................................................................... 122 Figure 6.34 VCOM control 2 register (PAGE0 -24h).................................................................... 122 Figure 6.35 VCOM control 3 register (PAGE0 -25h) .................................................................... 122 Figure 6.36 Display control 1 register (PAGE0 -26h)................................................................... 124 Figure 6.37 Display control 2 register (PAGE0 -27h)................................................................... 124 Figure 6.38 Display control 3 register (PAGE0 -28h)................................................................... 124 Figure 6.39 Display control 4 register (PAGE0 -29h)................................................................... 124 Figure 6.40 Display control 5 register (PAGE0 -2Ah) .................................................................. 124 Figure 6.41 Display control 6 register (PAGE0 -2Bh) .................................................................. 124 Figure 6.42 Display control 7 register (PAGE0 -2Ch) .................................................................. 124 Figure 6.43 Cycle control 1 register (PAGE0 -2Dh) ..................................................................... 127 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.6May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Figures May, 2011 Figure 6.44 Cycle control 2 register (PAGE0 -2Eh) ..................................................................... 127 Figure 6.45 RGB interface control 1 register (PAGE0 -31h)........................................................ 128 Figure 6.46 RGB interface control 2 register (PAGE0 -32h)........................................................ 128 Figure 6.47 RGB interface control 3 register (PAGE0 -33h)........................................................ 128 Figure 6.48 RGB interface control 4 register (PAGE0 -34h)........................................................ 128 Figure 6.49 Panel characteristic control register (PAGE0 -36h) .................................................. 130 Figure 6.50 OTP control 1 (PAGE0 -38h) .................................................................................... 131 Figure 6.51 OTP control 2 (PAGE0 -39h) .................................................................................... 131 Figure 6.52 OTP control 3 (PAGE0 -3Ah).................................................................................... 131 Figure 6.53 OTP control 4 (PAGE0 -3Bh).................................................................................... 131 Figure 6.54 OTP control 5 (PAGE0 -87h) .................................................................................... 131 Figure 6.55 CABC control 1 register (PAGE0 -3Ch) .................................................................... 132 Figure 6.56 CABC control 2 register (PAGE0 -3Dh) .................................................................... 132 Figure 6.57 CABC control 3 register (PAGE0 -3Eh) .................................................................... 132 Figure 6.58 CABC control 4 register (PAGE0 -3Fh)..................................................................... 132 Figure 6.59 Gamma control 1 register (PAGE0 -40h) .................................................................. 134 Figure 6.60 Gamma control 2 register (PAGE0 -41h) .................................................................. 134 Figure 6.61 Gamma control 3 register (PAGE0 -42h) .................................................................. 134 Figure 6.62 Gamma control 4 register (PAGE0 -43h) .................................................................. 134 Figure 6.63 Gamma control 5 register (PAGE0 -44h) .................................................................. 134 Figure 6.64 Gamma control 6 register (PAGE0 -45h) .................................................................. 134 Figure 6.65 Gamma control 7 register (PAGE0 -46h) .................................................................. 135 Figure 6.66 Gamma control 8 register (PAGE0 -47h) .................................................................. 135 Figure 6.67 Gamma control 9 register (PAGE0 -48h) .................................................................. 135 Figure 6.68 Gamma control 10 register (PAGE0 -49h) ................................................................ 135 Figure 6.69 Gamma control 11 register (PAGE0 -4Ah)................................................................ 135 Figure 6.70 Gamma control 12 register (PAGE0 -4Bh) ............................................................... 135 Figure 6.71 Gamma control 13 register (PAGE0 -4Ch) ............................................................... 136 Figure 6.72 Gamma control 14 register (PAGE0 -4Dh) ............................................................... 136 Figure 6.73 Gamma control 15 register (PAGE0 -4Eh) ............................................................... 136 Figure 6.74 TE control register (PAGE0 -60h) ............................................................................. 137 Figure 6.75 TE output line2 register (PAGE0 -84h) ..................................................................... 137 Figure 6.76 TE output line1 register (PAGE0 -85h) ..................................................................... 137 Figure 6.77 ID1 register (PAGE0 -61h) ........................................................................................ 138 Figure 6.78 ID2 register (PAGE0 -62h) ........................................................................................ 138 Figure 6.79 ID3 register (PAGE0 -63h) ........................................................................................ 138 Figure 6.80 Memory write control register (PAGE0 -68h) ............................................................ 138 Figure 6.81 TE interval control register (PAGE0 -69h)................................................................. 139 Figure 6.82 RGB SRAM cycle control register (PAGE0 -6Ah)..................................................... 139 Figure 6.83 Data format control register (PAGE0 -6Bh)............................................................... 140 Figure 6.84 Frame rate control 1 register (PAGE0 -70h) ............................................................. 141 Figure 6.85 Frame rate control 2 register (PAGE0 -71h) ............................................................. 141 Figure 6.86 Frame rate control 3 register (PAGE0 -72h) ............................................................. 141 Figure 6.87 Frame rate control 4 register (PAGE0 -73h) ............................................................. 141 Figure 6.88 Frame rate control 5 register (PAGE0 -74h) ............................................................. 141 Figure 6.89 Frame rate control 6 register (PAGE0 -75h) ............................................................. 141 Figure 6.90 Frame rate control 7 register (PAGE0 -76h) ............................................................. 142 Figure 6.91 Frame rate control 8 register (PAGE0 -77h) ............................................................. 142 Figure 6.92 Power control 6 register (PAGE0 -7Ah) .................................................................... 144 Figure 6.93 Power control 7 register (PAGE0 -7Bh) .................................................................... 144 Figure 6.94 Power control 8 register (PAGE0 -7Ch) .................................................................... 144 Figure 6.95 Power control 9 register (PAGE0 -7Dh) .................................................................... 144 Figure 6.96 Power control 10 register (PAGE0 -7Eh) .................................................................. 144 Figure 6.97 Power control 11 register (PAGE0 -7Fh)................................................................... 144 Figure 6.98 VPP voltage control register (PAGE0 -86h) .............................................................. 146 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.7May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Figures May, 2011 Figure 6.99 Get scan line 2 register (PAGE0 -88h)...................................................................... 146 Figure 6.100 Get scan line 1 register (PAGE0 -89h) ................................................................... 146 Figure 6.101 Read VCOM OTP times register (PAGE0 -R8Ah) .................................................. 147 Figure 6.102 Read ID OTP times register (PAGE0 -R8Bh) ......................................................... 147 Figure 6.103 Command page select register (RFFh) .................................................................. 148 Figure 6.104 DGC control register (PAGE1 -00h)........................................................................ 149 Figure 6.105 DGC LUT register (PAGE1 -01h~63h).................................................................... 149 Figure 6.106 CABC control 5 register (PAGE1 –C3h) ................................................................. 150 Figure 6.107 CABC control 7 register (PAGE1 –C5h) ................................................................. 150 Figure 7.1: Layout Recommendation ........................................................................................... 151 Figure 8.1: I80 interface characteristics ....................................................................................... 156 Figure 8.2: Serial interface characteristics ................................................................................... 157 Figure 8.3: General timings for RGB I/F-1 ................................................................................... 158 Figure 8.4: General timings for RGB I/F-2 ................................................................................... 159 Figure 8.5: Reset input timing ...................................................................................................... 160 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.8May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver List of Tables May, 2011 Table 4.1: Interface selection .....................................................................................................26 Table 4.2: Pin connection based on different interface ..............................................................27 Table 4.3: I80 8-Bits Interface GRAM Write Table......................................................................39 Table 4.4: I80 9-Bits Interface GRAM Write Table......................................................................39 Table 4.5: I80 16-Bits Interface GRAM Write Table....................................................................39 Table 4.6: I80 18-Bits Interface GRAM Write Table....................................................................39 Table 4.7: I80 8-Bits Interface GRAM Read Table .....................................................................40 Table 4.8: I80 9-Bits Interface GRAM Read Table .....................................................................40 Table 4.9: I80 16-Bits Interface GRAM Read Table ...................................................................40 Table 4.10: I80 18-Bits Interface GRAM Read Table .................................................................40 Table 4.11: Data Mapping Extend to 18-bit Data........................................................................40 Table 4.12: Function of RS and R/W bit bus ..............................................................................41 Table 4.13: DPI Input Data Format.............................................................................................47 Table 4.14: DPI Data Mapping Extend to 18-bit Data ................................................................48 Table 5.1: Addresses counter range...........................................................................................50 Table 5.2: Memory map of 240RGB x432 resolution .................................................................51 Table 5.3: MY, MX, MV setting ...................................................................................................52 Table 5.4: 240RGB x 432 resolution (SRAM assignment) .........................................................54 Table 5.5: Memory map of partial display...................................................................................55 Table 5.6: AC characteristics of Tearing Effect Signal ...............................................................61 Table 5.7: Power supply voltage configuration...........................................................................67 Table 5.8: Adoptability of capacitor ............................................................................................69 Table 5.9: Gamma-Adjustment Registers ..................................................................................74 Table 5.10: Offset Adjustment ....................................................................................................75 Table 5.11: EEM Adjustment ......................................................................................................75 Table 5.12: Center Adjustment ...................................................................................................75 Table 5.13: Output Voltage of 8 to 1 Selector ............................................................................76 Table 5.14: Voltage Calculation Formula (Positive Polarity) ......................................................77 Table 5.15: Voltage Calculation Formula of Grayscale Voltage (Positive Polarity)....................78 Table 5.16: Voltage Calculation Formula (Negative Polarity).....................................................79 Table 5.17: Voltage Calculation Formula of Grayscale Voltage (Negative Polarity) ..................80 Table 5.18: DGC LUT .................................................................................................................83 Table 5.19: Characteristics of output or bi-directional (I/O) pins ................................................84 Table 5.20: Characteristics of input pins ....................................................................................84 Table 5.21: CABC timing table ...................................................................................................95 Table 5.22: OTP Programming sequence ................................................................................100 Table 6.1: List table of command set page 0............................................................................103 Table 6.2: List table of command set page 1............................................................................105 Table 7.1: Maximum Layout Resistance ..................................................................................152 Table 7.2: Adoptability of component .......................................................................................153 Table 8.1: Absolute maximum rating ........................................................................................154 Table 8.2: DC characteristic .....................................................................................................155 Table 8.3: I80 interface characteristics.....................................................................................156 Table 8.4: Serial interface characteristics.................................................................................157 Table 8.5: RGB interface characteristics-1...............................................................................158 Table 8.6: RGB interface characteristics-2...............................................................................159 Table 8.7: Reset timing.............................................................................................................160 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. - P.9May, 2011 HX8352-C01(T) 240RGB x 432 dot, 262K color, with internal GRAM, TFT Mobile Single Chip Driver Version 01 May, 2011 1. General Description This document describes Himax’s HX8352-C01 supports 240x432 resolution driving controller. The HX8352-C01 is designed to provide a single-chip solution that combines a source driver, power supply circuit to drive a TFT dot matrix LCD with 240RGBx432 dots at maximum. The HX8352-C01 can be operated in low-voltage condition for the interface and integrated internal boosters that produce the liquid crystal voltage, breeder resistance and the voltage follower circuit for liquid crystal driver. In addition, The HX8352-C01 also supports various functions to reduce the power consumption of a LCD system via software control. The HX8352-C01 supports several interface modes, including System interface mode and RGB interface mode. The interface mode is selected by the external hardware pins IM2~0. The HX8352-C01 is suitable for any small portable battery-driven and long-term driving products, such as small PDAs, digital cellular phones and bi-directional pagers. This manual description focuses on Command-Parameter interface mode, about the Command-Parameter interface mode, please refer to the HX8352-C01(N) datasheet for detail. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.10May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 2. Features 2.1 Display Single chip solution for a 240 x 432 type TFT LCD display Resolution: 240RGB x 432 Display color modes 262K colours (18-bit 6(R):6(G):6(B)) 65K colours (16-bit 5(R):6(G):5(B)) 8 colors (Idle mode on): 8 colors (3-bit binary mode) 2.2 Display module Support 720 source channel outputs Supports 1-line / n-line/ frame inversion On module VCOM control (VCOMH= 3.0V to (DDVDH-0.5)V; VCOML=(VCL+0.5)V to 0V) Charge bump circuit for source, glass gate level shifter DDVDH= 4.5V to 6.0V Source output voltage level: VREG1= 4.0V to 5.5V Positive gate driver output voltage level: VGH= 10V to 18V Negative gate driver output voltage level: VGL= -5V to -12.5V Frame memory area 240 (H) x 432 (V) x 18-bit Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.11May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 2.3 Display / Control interface Display interface types supported System Interface mode 8080 MCU Type II interface (8-/ 9-/ 16-/ 18-bit bus) 3 wrie Serial data transfer interface 4 wrie Serial data transfer interface RGB Interface mode 16 bit/pixel R(5), G(6), B(5) 18 bit/pixel R(6), G(6), B(6) 2.4 Input power I/O and Logic power power supply (IOVCC): 1.65V to 3.3V Analog power supply (VCI): 2.5V to 3.3V OTP programming voltage(internal generated or external supply on VGH): 7.5V ± 0.2V 2.5 Miscellaneous Partial display mode Vertical scrolling display Oscillator for display clock generation Low power consumption, suitable for battery operated systems CMOS compatible inputs Proprietary multi phase driving for lower power consumption GAS function for preventing image sticking when abnormal power off Optimized layout for COG assembly Temperature range: -40 to +85 °C Support inversion mode DC/DC converter for source Support AC COM driving VCOM voltage generator On-chip OTP program voltage generator OTP memory to store initialization register settings 8 times MTP for VCOM setting and ID setting Support CABC (Content Adaptive Brightness Control) function Support 3 Gamma function(DGC, Digital Gamma Correction) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.12May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 3. Device Overview 3.1 Block diagram Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.13May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 3.2 Pin description Host interface pins Signals I/O Pin no. Connected with Description Use with IFSEL=”H” Register-Content Interface mode Select the interface mode as listed below: IM2 IM1 IM0 Interface mode DB pins 0 0 0 8080 MCU TYPE-II 18-bit DB17-DB0: Data IM2 ~ IM0 I IFSEL I 3 1 NCS I 1 NRESET I 1 NRD I 1 DNC I 1 NWR_SCL I 1 DB17~0 I/O 18 SDI_SDA I/O 1 SDO O 1 VSSD / IOVCC VSSD / IOVCC 0 0 1 8080 MCU TYPE-II 9-bit 0 1 0 8080 MCU TYPE-II 16-bit 0 1 1 8080 MCU TYPE-II 8-bit DB8-DB0: Unused, DB17-DB9: Data DB9, DB0:Unused, DB17-DB10, DB8-DB1: Data DB9-DB0: Unused, DB17-DB10: Data SDI_SDA, DB17-DB0 SDI_SDA, DB17-DB0 1 0 ID 3-wire SPI 1 1 X 4-wire SPI Pixel format (RGB565 / RGB666) is selected by command (0x17h) Must be connected to VSSD or IOVCC. Interface format select pin IFSEL Interface Format Selection 1 Register-content interface mode 0 Command-Parameter interface mode In this document, the IFSEL has to be connected to IOVCC and Register-content interface mode is selected. Chip select signal. Low: chip can be accessed. MPU High: chip cannot be accessed. If this pin is not used, please connect it to VSSD or IOVCC. MPU or Reset pin. Setting either pin low initializes the LSI. Must be reset after reset circuit power is supplied (Must be connected to VSSD or IOVCC). Serves as a read signal and read data at the low level. MPU If this pin is not used, please connect it to VSSD or IVCC. Data / Command Selection pin MPU If this pin is not used, please connect it to VSSD or IOVCC. DBI Type-B mode: Serves as a write signal and write data at the low level. MPU DBI Type-C mode: it servers as SCL (Serial Clock) If this pin is not used, please connect it to VSSD or IOVCC. Data bus. Interface mode Command Data 8080 MCU TYPE-II 8-bit DB17~10 DB17~10 8080 MCU TYPE-II 9-bit DB17~10 DB17~9 MPU 8080 MCU TYPE-II 16-bit DB8~1 DB17~10, DB8~1 8080 MCU TYPE-II 18-bit DB8~1 DB17~0 RGB 16-bit SDI_SDA DB15~0 RGB 18-bit SDI_SDA DB17~0 Please connect to VSSD or IOVCC for not used pin. Serves as serial data input/output when SDA_EN=1. Serves as serial data MPU input when SDA_EN=0. If this pin is not used, please connect it to VSSD or IOVCC. Serial data output. MPU If this pin is not used, let it open. Clock input and DPI interface HSYNC I 1 MPU DE I 1 MPU VSYNC I 1 MPU PCLK I 1 MPU Line synchronizing signal. If this pin is not used, please connect it to VSSD or IOVCC. A data enable signal in DPI I/F mode. If this pin is not used, please connect it to VSSD or IOVCC. Serves VS signal pin on DPI interface. (Input pad). If this pin is not used, please connect it to VSSD or IOVCC. Dot clock signal. If this pin is not used, please connect it to VSSD or IOVCC. Source driver output pins S1~S720 O 720 LCD TE O 1 MPU 432 LCD Output voltages applied to the liquid crystal. Serves TE (Tearing Effect ) pin on MPU interface. If not used, let it open. Gate driver output pins G1~G432 O Output voltages applied to the liquid crystal. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.14May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Power supply pins IOVCC P 8 VCI P 18 VSSA P 18 VSSD P 36 Power supply Power supply Power supply Power supply A power supply for the I/O circuit and logic power. IOVCC=1.65 to 3.3V A power supply for the analog power, DC/DC converter VCI=2.5 to 3.3V. Analoge ground. VSSA=0V. When using the COG method, connect to VSSD on the FPC to prevent noise. Ground for the internal logic. VSSD=0V. When using the COG method, connect to VSSA on the FPC to prevent noise. Output Pins of Power and reference voltage DDVDH O 9 VREG1 O 1 VCL O 3 VDDD O 9 VGH O 6 VGL O 13 VCOM O 8 VGS I 1 Stabilizing capacitor Open Stabilizing capacitor Stabilizing capacitor Output voltage from the step-up circuit, it is generated from VCI. Connect to a stabilizing capacitor between VSSA and DDVDH. Internal generated stable power for source driver unit. Leave it open. Output voltage from the step-up circuit, it is generated from VCI. Connect to a stabilizing capacitor between VSSA and VCL. Internal generated logic voltage(1.6V) output. Connect to a stabilizing capacitor between VSSD and VDDD. Output voltage from the step-up circuit, it is generated from DDVDH and Stabilizing VCI. Connect to a stabilizing capacitor between VSSA and VGH. capacitor If OTP program use external power mode, the VGH need connect to 7.5V. Stabilizing Output voltage from the step-up circuit, it is generated from VCL and VCI. capacitor Connect to a stabilizing capacitor between VSSA and VGL. TFT The power supply of common voltage in TFT driving. The voltage amplitude common between VCOMH and VCOML is output. Connect this pin to the common electrode electrode on TFT panel. VSSD or Connect to a variable resistor to adjusting internal gamma reference external voltage for matching the characteristic of different panel used. resistor DC/DC pumping C11P, C11N C12P, C12N C21P, C21N C22P, C22N C31P, C31N I/O I/O 5, 5 5, 5 3, 3 3, 3 Step-up Capacitor Step-up Capacitor Step-up Capacitor Connect to the step-up capacitors according to the DC/DC pumping factor by pumping the DDVDH voltage. Connect to the step-up capacitors according to the DC/DC pumping factor by pumping the VGH/VGL voltage. Connect to the step-up capacitor according to the DC/DC pumping factor by pumping the VCL voltage. I/O 3, 3 CABC_PWM_OUT O 1 LEDON O 1 OSC I 1 Open TEST1~2 I 2 Open TS0~7 O 8 Open O 1 Open - 2 2 Open Dummy pads. Available for measuring the COG contact resistance. They are short-circuited within the chip. - 6 6 50 Open Open Open Dummy pads. Dummy pads. Dummy pads. CABC & ABC PWM output pin of Backlight control. If use CABC function, the pin can connect to external LED driver IC. The output voltage range= VSSD to IOVCC. If not used, let it open. Enable signal of Backlight LED driver( Active high). The output voltage LED Driver range= VSSD to IOVCC. If not used, let it open. LED Driver Test Pins VTEST DUMMYR1 DUMMYR2 VCOMH_DUMMY VCOML_DUMMY DUMMY Oscillator input for test purpose. If not used, please let it open or connected to VSSD. A test pin. This pin is by internal logic function test. If not used, let it open or connected to VSSD.(weak pull low) A test pin. This pin is by internal logic function test.This pin can output on FPC. If not used, let it open. A test pin. Disconnect it. This pin will output Gamma voltage. This pin can output on FPC. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.15May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 3.3 Pin assignment Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.16May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 3.4 PAD coordinates No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 Name DUMMYR1 DUMMYR2 VSSD DUMMY1 DUMMY1 DUMMY1 DUMMY1 VSSD DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 VSSD DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VCI VCI VCI VCI VCI VCI VCI DUMMY24 TS7 TS6 TS5 TS4 TS3 TS2 TS1 TS0 OSC DUMMY25 DUMMY25 TEST2 X Y -9135 -9065 -8995 -8925 -8855 -8785 -8715 -8645 -8575 -8505 -8435 -8365 -8295 -8225 -8155 -8085 -8015 -7945 -7875 -7805 -7735 -7665 -7595 -7525 -7455 -7385 -7315 -7245 -7175 -7105 -7035 -6965 -6895 -6825 -6755 -6685 -6615 -6545 -6475 -6405 -6335 -6265 -6195 -6125 -6055 -5985 -5915 -5845 -5775 -5705 -5635 -5565 -5495 -5425 -5355 -5285 -5215 -5145 -5075 -5005 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 Bump size 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 No. 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 Name TEST1 VSSD DUMMY27 IM2 IM1 IM0 IOVCC IFSEL NRESET VSSD LEDON CABC_PWM_OUT VSYNC HSYNC IOVCC DE PCLK DB17 DB16 VSSD DB15 DB14 DB13 DB12 VSSD DB11 DB10 DB9 IOVCC IOVCC IOVCC IOVCC IOVCC IOVCC DB8 VSSD DB7 DB6 DB5 DB4 VSSD DB3 DB2 DB1 DB0 VSSD NCS DNC NWR_SCL NRD VSSD TE SDI_SDA SDO VDDD VDDD VDDD VDDD VDDD VDDD X -4935 -4865 -4795 -4725 -4655 -4585 -4515 -4445 -4375 -4305 -4235 -4165 -4095 -4025 -3955 -3885 -3815 -3745 -3675 -3605 -3535 -3465 -3395 -3325 -3255 -3185 -3115 -3045 -2975 -2905 -2835 -2765 -2695 -2625 -2555 -2485 -2415 -2345 -2275 -2205 -2135 -2065 -1995 -1925 -1855 -1785 -1715 -1645 -1575 -1505 -1435 -1365 -1295 -1225 -1155 -1085 -1015 -945 -875 -805 Y -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 Bump size 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 No. 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 Name VDDD VDDD VDDD DUMMY28 VCOM VCOM VCOM VCOM VCOM VCOM VCOM VCOM VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VGS VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VTEST DUMMY29 VREG1 DUMMY30 C11P C11P C11P C11P C11P C11N C11N C11N C11N C11N C12P C12P C12P X -735 -665 -595 -525 -455 -385 -315 -245 -175 -105 -35 35 105 175 245 315 385 455 525 595 665 735 805 875 945 1015 1085 1155 1225 1295 1365 1435 1505 1575 1645 1715 1785 1855 1925 1995 2065 2135 2205 2275 2345 2415 2485 2555 2625 2695 2765 2835 2905 2975 3045 3115 3185 3255 3325 3395 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. Y -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 Bump size 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 -P.17May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 No. 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 Name X C12P C12P C12N C12N C12N C12N C12N 3465 3535 3605 3675 3745 3815 3885 3955 4025 4095 4165 4235 4305 4375 4445 4515 4585 4655 4725 4795 4865 4935 5005 5075 5145 5215 5285 5355 5425 5495 5565 5635 5705 5775 5845 5915 5985 6055 6125 6195 6265 6335 6405 6475 6545 6615 6685 6755 6825 6895 6965 7035 7105 7175 7245 7315 7385 7455 7525 7595 DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH VCI VCI VCI VCI VCI VCI VCI VCI VCI VCI VCI DUMMY31 DUMMY31 DUMMY31 DUMMY31 DUMMY31 VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VGL VGL VGL VGL VGL VGL VGL VGL VGL VSSD VSSD VGH VGH VGH VGH VGH VGH VSSD Y -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 Bump size 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 No. 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 Name VCL VCL VCL C31P C31P C31P C31N C31N C31N C21P C21P C21P C21N C21N C21N C22P C22P C22P C22N C22N C22N DUMMY36 DUMMY37 DUMMY38 DUMMY39 VGL G2 G4 G6 G8 G10 G12 G14 G16 G18 G20 G22 G24 G26 G28 G30 G32 G34 G36 G38 G40 G42 G44 G46 G48 G50 G52 G54 G56 G58 G60 G62 G64 G66 G68 X 7665 7735 7805 7875 7945 8015 8085 8155 8225 8295 8365 8435 8505 8575 8645 8715 8785 8855 8925 8995 9065 9135 9397.5 9382.5 9367.5 9352.5 9337.5 9322.5 9307.5 9292.5 9277.5 9262.5 9247.5 9232.5 9217.5 9202.5 9187.5 9172.5 9157.5 9142.5 9127.5 9112.5 9097.5 9082.5 9067.5 9052.5 9037.5 9022.5 9007.5 8992.5 8977.5 8962.5 8947.5 8932.5 8917.5 8902.5 8887.5 8872.5 8857.5 8842.5 Y -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 -274 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 Bump size 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 50*133 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 Name X G70 G72 G74 G76 G78 G80 G82 G84 G86 G88 G90 G92 G94 G96 G98 G100 G102 G104 G106 G108 G110 G112 G114 G116 G118 G120 G122 G124 G126 G128 G130 G132 G134 G136 G138 G140 G142 G144 G146 G148 G150 G152 G154 G156 G158 G160 G162 G164 G166 G168 G170 G172 G174 G176 G178 G180 G182 G184 G186 G188 8827.5 8812.5 8797.5 8782.5 8767.5 8752.5 8737.5 8722.5 8707.5 8692.5 8677.5 8662.5 8647.5 8632.5 8617.5 8602.5 8587.5 8572.5 8557.5 8542.5 8527.5 8512.5 8497.5 8482.5 8467.5 8452.5 8437.5 8422.5 8407.5 8392.5 8377.5 8362.5 8347.5 8332.5 8317.5 8302.5 8287.5 8272.5 8257.5 8242.5 8227.5 8212.5 8197.5 8182.5 8167.5 8152.5 8137.5 8122.5 8107.5 8092.5 8077.5 8062.5 8047.5 8032.5 8017.5 8002.5 7987.5 7972.5 7957.5 7942.5 Y 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 -P.18May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 No. 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 Name G190 G192 G194 G196 G198 G200 G202 G204 G206 G208 G210 G212 G214 G216 G218 G220 G222 G224 G226 G228 G230 G232 G234 G236 G238 G240 G242 G244 G246 G248 G250 G252 G254 G256 G258 G260 G262 G264 G266 G268 G270 G272 G274 G276 G278 G280 G282 G284 G286 G288 G290 G292 G294 G296 G298 G300 G302 G304 G306 G308 X 7927.5 7912.5 7897.5 7882.5 7867.5 7852.5 7837.5 7822.5 7807.5 7792.5 7777.5 7762.5 7747.5 7732.5 7717.5 7702.5 7687.5 7672.5 7657.5 7642.5 7627.5 7612.5 7597.5 7582.5 7567.5 7552.5 7537.5 7522.5 7507.5 7492.5 7477.5 7462.5 7447.5 7432.5 7417.5 7402.5 7387.5 7372.5 7357.5 7342.5 7327.5 7312.5 7297.5 7282.5 7267.5 7252.5 7237.5 7222.5 7207.5 7192.5 7177.5 7162.5 7147.5 7132.5 7117.5 7102.5 7087.5 7072.5 7057.5 7042.5 Y 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 Name G310 G312 G314 G316 G318 G320 G322 G324 G326 G328 G330 G332 G334 G336 G338 G340 G342 G344 G346 G348 G350 G352 G354 G356 G358 G360 G362 G364 G366 G368 G370 G372 G374 G376 G378 G380 G382 G384 G386 G388 G390 G392 G394 G396 G398 G400 G402 G404 G406 G408 G410 G412 G414 G416 G418 G420 G422 G424 G426 G428 X 7027.5 7012.5 6997.5 6982.5 6967.5 6952.5 6937.5 6922.5 6907.5 6892.5 6877.5 6862.5 6847.5 6832.5 6817.5 6802.5 6787.5 6772.5 6757.5 6742.5 6727.5 6712.5 6697.5 6682.5 6667.5 6652.5 6637.5 6622.5 6607.5 6592.5 6577.5 6562.5 6547.5 6532.5 6517.5 6502.5 6487.5 6472.5 6457.5 6442.5 6427.5 6412.5 6397.5 6382.5 6367.5 6352.5 6337.5 6322.5 6307.5 6292.5 6277.5 6262.5 6247.5 6232.5 6217.5 6202.5 6187.5 6172.5 6157.5 6142.5 Y 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 Name X G430 G432 VGL DUMMY40 S720 S719 S718 S717 S716 S715 S714 S713 S712 S711 S710 S709 S708 S707 S706 S705 S704 S703 S702 S701 S700 S699 S698 S697 S696 S695 S694 S693 S692 S691 S690 S689 S688 S687 S686 S685 S684 S683 S682 S681 S680 S679 S678 S677 S676 S675 S674 S673 S672 S671 S670 S669 S668 S667 S666 S665 6127.5 6112.5 6097.5 5887.5 5872.5 5857.5 5842.5 5827.5 5812.5 5797.5 5782.5 5767.5 5752.5 5737.5 5722.5 5707.5 5692.5 5677.5 5662.5 5647.5 5632.5 5617.5 5602.5 5587.5 5572.5 5557.5 5542.5 5527.5 5512.5 5497.5 5482.5 5467.5 5452.5 5437.5 5422.5 5407.5 5392.5 5377.5 5362.5 5347.5 5332.5 5317.5 5302.5 5287.5 5272.5 5257.5 5242.5 5227.5 5212.5 5197.5 5182.5 5167.5 5152.5 5137.5 5122.5 5107.5 5092.5 5077.5 5062.5 5047.5 Y 173.5 292.5 173.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 -P.19May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 No. 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 Name X S664 S663 S662 S661 S660 S659 S658 S657 S656 S655 S654 S653 S652 S651 S650 S649 S648 S647 S646 S645 S644 S643 S642 S641 S640 S639 S638 S637 S636 S635 S634 S633 S632 S631 S630 S629 S628 S627 S626 S625 S624 S623 S622 S621 S620 S619 S618 S617 S616 S615 S614 S613 S612 S611 S610 S609 S608 S607 S606 S605 5032.5 5017.5 5002.5 4987.5 4972.5 4957.5 4942.5 4927.5 4912.5 4897.5 4882.5 4867.5 4852.5 4837.5 4822.5 4807.5 4792.5 4777.5 4762.5 4747.5 4732.5 4717.5 4702.5 4687.5 4672.5 4657.5 4642.5 4627.5 4612.5 4597.5 4582.5 4567.5 4552.5 4537.5 4522.5 4507.5 4492.5 4477.5 4462.5 4447.5 4432.5 4417.5 4402.5 4387.5 4372.5 4357.5 4342.5 4327.5 4312.5 4297.5 4282.5 4267.5 4252.5 4237.5 4222.5 4207.5 4192.5 4177.5 4162.5 4147.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 Name S604 S603 S602 S601 S600 S599 S598 S597 S596 S595 S594 S593 S592 S591 S590 S589 S588 S587 S586 S585 S584 S583 S582 S581 S580 S579 S578 S577 S576 S575 S574 S573 S572 S571 S570 S569 S568 S567 S566 S565 S564 S563 S562 S561 S560 S559 S558 S557 S556 S555 S554 S553 S552 S551 S550 S549 S548 S547 S546 S545 X 4132.5 4117.5 4102.5 4087.5 4072.5 4057.5 4042.5 4027.5 4012.5 3997.5 3982.5 3967.5 3952.5 3937.5 3922.5 3907.5 3892.5 3877.5 3862.5 3847.5 3832.5 3817.5 3802.5 3787.5 3772.5 3757.5 3742.5 3727.5 3712.5 3697.5 3682.5 3667.5 3652.5 3637.5 3622.5 3607.5 3592.5 3577.5 3562.5 3547.5 3532.5 3517.5 3502.5 3487.5 3472.5 3457.5 3442.5 3427.5 3412.5 3397.5 3382.5 3367.5 3352.5 3337.5 3322.5 3307.5 3292.5 3277.5 3262.5 3247.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 Name X S544 S543 S542 S541 S540 S539 S538 S537 S536 S535 S534 S533 S532 S531 S530 S529 S528 S527 S526 S525 S524 S523 S522 S521 S520 S519 S518 S517 S516 S515 S514 S513 S512 S511 S510 S509 S508 S507 S506 S505 S504 S503 S502 S501 S500 S499 S498 S497 S496 S495 S494 S493 S492 S491 S490 S489 S488 S487 S486 S485 3232.5 3217.5 3202.5 3187.5 3172.5 3157.5 3142.5 3127.5 3112.5 3097.5 3082.5 3067.5 3052.5 3037.5 3022.5 3007.5 2992.5 2977.5 2962.5 2947.5 2932.5 2917.5 2902.5 2887.5 2872.5 2857.5 2842.5 2827.5 2812.5 2797.5 2782.5 2767.5 2752.5 2737.5 2722.5 2707.5 2692.5 2677.5 2662.5 2647.5 2632.5 2617.5 2602.5 2587.5 2572.5 2557.5 2542.5 2527.5 2512.5 2497.5 2482.5 2467.5 2452.5 2437.5 2422.5 2407.5 2392.5 2377.5 2362.5 2347.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 -P.20May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 No. 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 Name S484 S483 S482 S481 S480 S479 S478 S477 S476 S475 S474 S473 S472 S471 S470 S469 S468 S467 S466 S465 S464 S463 S462 S461 S460 S459 S458 S457 S456 S455 S454 S453 S452 S451 S450 S449 S448 S447 S446 S445 S444 S443 S442 S441 S440 S439 S438 S437 S436 S435 S434 S433 S432 S431 S430 S429 S428 S427 S426 S425 X 2332.5 2317.5 2302.5 2287.5 2272.5 2257.5 2242.5 2227.5 2212.5 2197.5 2182.5 2167.5 2152.5 2137.5 2122.5 2107.5 2092.5 2077.5 2062.5 2047.5 2032.5 2017.5 2002.5 1987.5 1972.5 1957.5 1942.5 1927.5 1912.5 1897.5 1882.5 1867.5 1852.5 1837.5 1822.5 1807.5 1792.5 1777.5 1762.5 1747.5 1732.5 1717.5 1702.5 1687.5 1672.5 1657.5 1642.5 1627.5 1612.5 1597.5 1582.5 1567.5 1552.5 1537.5 1522.5 1507.5 1492.5 1477.5 1462.5 1447.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 Name S424 S423 S422 S421 S420 S419 S418 S417 S416 S415 S414 S413 S412 S411 S410 S409 S408 S407 S406 S405 S404 S403 S402 S401 S400 S399 S398 S397 S396 S395 S394 S393 S392 S391 S390 S389 S388 S387 S386 S385 S384 S383 S382 S381 S380 S379 S378 S377 S376 S375 S374 S373 S372 S371 S370 S369 S368 S367 S366 S365 X 1432.5 1417.5 1402.5 1387.5 1372.5 1357.5 1342.5 1327.5 1312.5 1297.5 1282.5 1267.5 1252.5 1237.5 1222.5 1207.5 1192.5 1177.5 1162.5 1147.5 1132.5 1117.5 1102.5 1087.5 1072.5 1057.5 1042.5 1027.5 1012.5 997.5 982.5 967.5 952.5 937.5 922.5 907.5 892.5 877.5 862.5 847.5 832.5 817.5 802.5 787.5 772.5 757.5 742.5 727.5 712.5 697.5 682.5 667.5 652.5 637.5 622.5 607.5 592.5 577.5 562.5 547.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 Name X S364 S363 S362 S361 DUMMY41 DUMMY42 DUMMY43 DUMMY44 DUMMY45 DUMMY46 DUMMY47 DUMMY48 S360 S359 S358 S357 S356 S355 S354 S353 S352 S351 S350 S349 S348 S347 S346 S345 S344 S343 S342 S341 S340 S339 S338 S337 S336 S335 S334 S333 S332 S331 S330 S329 S328 S327 S326 S325 S324 S323 S322 S321 S320 S319 S318 S317 S316 S315 S314 S313 532.5 517.5 502.5 487.5 472.5 457.5 442.5 427.5 -427.5 -442.5 -457.5 -472.5 -487.5 -502.5 -517.5 -532.5 -547.5 -562.5 -577.5 -592.5 -607.5 -622.5 -637.5 -652.5 -667.5 -682.5 -697.5 -712.5 -727.5 -742.5 -757.5 -772.5 -787.5 -802.5 -817.5 -832.5 -847.5 -862.5 -877.5 -892.5 -907.5 -922.5 -937.5 -952.5 -967.5 -982.5 -997.5 -1012.5 -1027.5 -1042.5 -1057.5 -1072.5 -1087.5 -1102.5 -1117.5 -1132.5 -1147.5 -1162.5 -1177.5 -1192.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 -P.21May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 No. 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946 947 948 949 950 951 952 953 954 955 956 957 958 959 960 Name X S312 S311 S310 S309 S308 S307 S306 S305 S304 S303 S302 S301 S300 S299 S298 S297 S296 S295 S294 S293 S292 S291 S290 S289 S288 S287 S286 S285 S284 S283 S282 S281 S280 S279 S278 S277 S276 S275 S274 S273 S272 S271 S270 S269 S268 S267 S266 S265 S264 S263 S262 S261 S260 S259 S258 S257 S256 S255 S254 S253 -1207.5 -1222.5 -1237.5 -1252.5 -1267.5 -1282.5 -1297.5 -1312.5 -1327.5 -1342.5 -1357.5 -1372.5 -1387.5 -1402.5 -1417.5 -1432.5 -1447.5 -1462.5 -1477.5 -1492.5 -1507.5 -1522.5 -1537.5 -1552.5 -1567.5 -1582.5 -1597.5 -1612.5 -1627.5 -1642.5 -1657.5 -1672.5 -1687.5 -1702.5 -1717.5 -1732.5 -1747.5 -1762.5 -1777.5 -1792.5 -1807.5 -1822.5 -1837.5 -1852.5 -1867.5 -1882.5 -1897.5 -1912.5 -1927.5 -1942.5 -1957.5 -1972.5 -1987.5 -2002.5 -2017.5 -2032.5 -2047.5 -2062.5 -2077.5 -2092.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 961 962 963 964 965 966 967 968 969 970 971 972 973 974 975 976 977 978 979 980 981 982 983 984 985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 Name X S252 S251 S250 S249 S248 S247 S246 S245 S244 S243 S242 S241 S240 S239 S238 S237 S236 S235 S234 S233 S232 S231 S230 S229 S228 S227 S226 S225 S224 S223 S222 S221 S220 S219 S218 S217 S216 S215 S214 S213 S212 S211 S210 S209 S208 S207 S206 S205 S204 S203 S202 S201 S200 S199 S198 S197 S196 S195 S194 S193 -2107.5 -2122.5 -2137.5 -2152.5 -2167.5 -2182.5 -2197.5 -2212.5 -2227.5 -2242.5 -2257.5 -2272.5 -2287.5 -2302.5 -2317.5 -2332.5 -2347.5 -2362.5 -2377.5 -2392.5 -2407.5 -2422.5 -2437.5 -2452.5 -2467.5 -2482.5 -2497.5 -2512.5 -2527.5 -2542.5 -2557.5 -2572.5 -2587.5 -2602.5 -2617.5 -2632.5 -2647.5 -2662.5 -2677.5 -2692.5 -2707.5 -2722.5 -2737.5 -2752.5 -2767.5 -2782.5 -2797.5 -2812.5 -2827.5 -2842.5 -2857.5 -2872.5 -2887.5 -2902.5 -2917.5 -2932.5 -2947.5 -2962.5 -2977.5 -2992.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 Name X S192 S191 S190 S189 S188 S187 S186 S185 S184 S183 S182 S181 S180 S179 S178 S177 S176 S175 S174 S173 S172 S171 S170 S169 S168 S167 S166 S165 S164 S163 S162 S161 S160 S159 S158 S157 S156 S155 S154 S153 S152 S151 S150 S149 S148 S147 S146 S145 S144 S143 S142 S141 S140 S139 S138 S137 S136 S135 S134 S133 -3007.5 -3022.5 -3037.5 -3052.5 -3067.5 -3082.5 -3097.5 -3112.5 -3127.5 -3142.5 -3157.5 -3172.5 -3187.5 -3202.5 -3217.5 -3232.5 -3247.5 -3262.5 -3277.5 -3292.5 -3307.5 -3322.5 -3337.5 -3352.5 -3367.5 -3382.5 -3397.5 -3412.5 -3427.5 -3442.5 -3457.5 -3472.5 -3487.5 -3502.5 -3517.5 -3532.5 -3547.5 -3562.5 -3577.5 -3592.5 -3607.5 -3622.5 -3637.5 -3652.5 -3667.5 -3682.5 -3697.5 -3712.5 -3727.5 -3742.5 -3757.5 -3772.5 -3787.5 -3802.5 -3817.5 -3832.5 -3847.5 -3862.5 -3877.5 -3892.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 -P.22May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 No. 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 Name X S132 S131 S130 S129 S128 S127 S126 S125 S124 S123 S122 S121 S120 S119 S118 S117 S116 S115 S114 S113 S112 S111 S110 S109 S108 S107 S106 S105 S104 S103 S102 S101 S100 S99 S98 S97 S96 S95 S94 S93 S92 S91 S90 S89 S88 S87 S86 S85 S84 S83 S82 S81 S80 S79 S78 S77 S76 S75 S74 S73 -3907.5 -3922.5 -3937.5 -3952.5 -3967.5 -3982.5 -3997.5 -4012.5 -4027.5 -4042.5 -4057.5 -4072.5 -4087.5 -4102.5 -4117.5 -4132.5 -4147.5 -4162.5 -4177.5 -4192.5 -4207.5 -4222.5 -4237.5 -4252.5 -4267.5 -4282.5 -4297.5 -4312.5 -4327.5 -4342.5 -4357.5 -4372.5 -4387.5 -4402.5 -4417.5 -4432.5 -4447.5 -4462.5 -4477.5 -4492.5 -4507.5 -4522.5 -4537.5 -4552.5 -4567.5 -4582.5 -4597.5 -4612.5 -4627.5 -4642.5 -4657.5 -4672.5 -4687.5 -4702.5 -4717.5 -4732.5 -4747.5 -4762.5 -4777.5 -4792.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 Name X S72 S71 S70 S69 S68 S67 S66 S65 S64 S63 S62 S61 S60 S59 S58 S57 S56 S55 S54 S53 S52 S51 S50 S49 S48 S47 S46 S45 S44 S43 S42 S41 S40 S39 S38 S37 S36 S35 S34 S33 S32 S31 S30 S29 S28 S27 S26 S25 S24 S23 S22 S21 S20 S19 S18 S17 S16 S15 S14 S13 -4807.5 -4822.5 -4837.5 -4852.5 -4867.5 -4882.5 -4897.5 -4912.5 -4927.5 -4942.5 -4957.5 -4972.5 -4987.5 -5002.5 -5017.5 -5032.5 -5047.5 -5062.5 -5077.5 -5092.5 -5107.5 -5122.5 -5137.5 -5152.5 -5167.5 -5182.5 -5197.5 -5212.5 -5227.5 -5242.5 -5257.5 -5272.5 -5287.5 -5302.5 -5317.5 -5332.5 -5347.5 -5362.5 -5377.5 -5392.5 -5407.5 -5422.5 -5437.5 -5452.5 -5467.5 -5482.5 -5497.5 -5512.5 -5527.5 -5542.5 -5557.5 -5572.5 -5587.5 -5602.5 -5617.5 -5632.5 -5647.5 -5662.5 -5677.5 -5692.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. Name X 1201 S12 -5707.5 1202 S11 -5722.5 1203 S10 -5737.5 1204 S9 -5752.5 1205 S8 -5767.5 1206 S7 -5782.5 1207 S6 -5797.5 1208 S5 -5812.5 1209 S4 -5827.5 1210 S3 -5842.5 1211 S2 -5857.5 1212 S1 -5872.5 1213 DUMMY49 -5887.5 1214 VGL -6097.5 1215 G431 -6112.5 1216 G429 -6127.5 1217 G427 -6142.5 1218 G425 -6157.5 1219 G423 -6172.5 1220 G421 -6187.5 1221 G419 -6202.5 1222 G417 -6217.5 1223 G415 -6232.5 1224 G413 -6247.5 1225 G411 -6262.5 1226 G409 -6277.5 1227 G407 -6292.5 1228 G405 -6307.5 1229 G403 -6322.5 1230 G401 -6337.5 1231 G399 -6352.5 1232 G397 -6367.5 1233 G395 -6382.5 1234 G393 -6397.5 1235 G391 -6412.5 1236 G389 -6427.5 1237 G387 -6442.5 1238 G385 -6457.5 1239 G383 -6472.5 1240 G381 -6487.5 1241 G379 -6502.5 1242 G377 -6517.5 1243 G375 -6532.5 1244 G373 -6547.5 1245 G371 -6562.5 1246 G369 -6577.5 1247 G367 -6592.5 1248 G365 -6607.5 1249 G363 -6622.5 1250 G361 -6637.5 1251 G359 -6652.5 1252 G357 -6667.5 1253 G355 -6682.5 1254 G353 -6697.5 1255 G351 -6712.5 1256 G349 -6727.5 1257 G347 -6742.5 1258 G345 -6757.5 1259 G343 -6772.5 1260 G341 -6787.5 Y 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 -P.23May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 No. 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 Name G339 G337 G335 G333 G331 G329 G327 G325 G323 G321 G319 G317 G315 G313 G311 G309 G307 G305 G303 G301 G299 G297 G295 G293 G291 G289 G287 G285 G283 G281 G279 G277 G275 G273 G271 G269 G267 G265 G263 G261 G259 G257 G255 G253 G251 G249 G247 G245 G243 G241 G239 G237 G235 G233 G231 G229 G227 G225 G223 G221 X -6802.5 -6817.5 -6832.5 -6847.5 -6862.5 -6877.5 -6892.5 -6907.5 -6922.5 -6937.5 -6952.5 -6967.5 -6982.5 -6997.5 -7012.5 -7027.5 -7042.5 -7057.5 -7072.5 -7087.5 -7102.5 -7117.5 -7132.5 -7147.5 -7162.5 -7177.5 -7192.5 -7207.5 -7222.5 -7237.5 -7252.5 -7267.5 -7282.5 -7297.5 -7312.5 -7327.5 -7342.5 -7357.5 -7372.5 -7387.5 -7402.5 -7417.5 -7432.5 -7447.5 -7462.5 -7477.5 -7492.5 -7507.5 -7522.5 -7537.5 -7552.5 -7567.5 -7582.5 -7597.5 -7612.5 -7627.5 -7642.5 -7657.5 -7672.5 -7687.5 Y 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 Name X G219 G217 G215 G213 G211 G209 G207 G205 G203 G201 G199 G197 G195 G193 G191 G189 G187 G185 G183 G181 G179 G177 G175 G173 G171 G169 G167 G165 G163 G161 G159 G157 G155 G153 G151 G149 G147 G145 G143 G141 G139 G137 G135 G133 G131 G129 G127 G125 G123 G121 G119 G117 G115 G113 G111 G109 G107 G105 G103 G101 -7702.5 -7717.5 -7732.5 -7747.5 -7762.5 -7777.5 -7792.5 -7807.5 -7822.5 -7837.5 -7852.5 -7867.5 -7882.5 -7897.5 -7912.5 -7927.5 -7942.5 -7957.5 -7972.5 -7987.5 -8002.5 -8017.5 -8032.5 -8047.5 -8062.5 -8077.5 -8092.5 -8107.5 -8122.5 -8137.5 -8152.5 -8167.5 -8182.5 -8197.5 -8212.5 -8227.5 -8242.5 -8257.5 -8272.5 -8287.5 -8302.5 -8317.5 -8332.5 -8347.5 -8362.5 -8377.5 -8392.5 -8407.5 -8422.5 -8437.5 -8452.5 -8467.5 -8482.5 -8497.5 -8512.5 -8527.5 -8542.5 -8557.5 -8572.5 -8587.5 Y 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 No. Name X 1381 G99 -8602.5 1382 G97 -8617.5 1383 G95 -8632.5 1384 G93 -8647.5 1385 G91 -8662.5 1386 G89 -8677.5 1387 G87 -8692.5 1388 G85 -8707.5 1389 G83 -8722.5 1390 G81 -8737.5 1391 G79 -8752.5 1392 G77 -8767.5 1393 G75 -8782.5 1394 G73 -8797.5 1395 G71 -8812.5 1396 G69 -8827.5 1397 G67 -8842.5 1398 G65 -8857.5 1399 G63 -8872.5 1400 G61 -8887.5 1401 G59 -8902.5 1402 G57 -8917.5 1403 G55 -8932.5 1404 G53 -8947.5 1405 G51 -8962.5 1406 G49 -8977.5 1407 G47 -8992.5 1408 G45 -9007.5 1409 G43 -9022.5 1410 G41 -9037.5 1411 G39 -9052.5 1412 G37 -9067.5 1413 G35 -9082.5 1414 G33 -9097.5 1415 G31 -9112.5 1416 G29 -9127.5 1417 G27 -9142.5 1418 G25 -9157.5 1419 G23 -9172.5 1420 G21 -9187.5 1421 G19 -9202.5 1422 G17 -9217.5 1423 G15 -9232.5 1424 G13 -9247.5 1425 G11 -9262.5 1426 G9 -9277.5 1427 G7 -9292.5 1428 G5 -9307.5 1429 G3 -9322.5 1430 G1 -9337.5 1431 VGL -9352.5 1432 DUMMY50 -9367.5 1433 DUMMYR2 -9382.5 1434 DUMMYR1 -9397.5 Alignment Mark A1 A2 Y 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 173.5 292.5 X Bump size 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 15*100 Y -9381 -234.5 9381 -234.5 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.24May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 3.5 Bump arrangement 50 70 Input Pad (No.1~262) 133 unit: um 15 15 15 15 15 Output Pad (No.263~1434) unit: um Alignment Mark 10 10 30 20 30 20 30 110 30 110 30 30 10 10 unit: um Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.25May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4. Interface 4.1 System interface The HX8352-C01 supports System Interface and RGB Interface. Where System Interface supports 8080 MCU (18-/16-/9-/8-bit) Parallel Interface (Type II) and Serial interface (3-wire/ 4-wire). The interface mode can be selected by IM2-0 pins setting as show in Table 4.1. IM2 0 0 0 0 1 1 IM1 0 0 1 1 0 1 IM0 0 1 0 1 ID X Interface 8080 System TYPE-II 18-bit 8080 System TYPE-II 9-bit 8080 System TYPE-II 16-bit 8080 System TYPE-II 8-bit 3-wire SPI 4-wire SPI Table 4.1: Interface selection Display data GRAM GRAM GRAM GRAM RGB / GRAM RGB / GRAM The HX8352-C01 includes an index register (IR), which is stored the index data of internal control register and GRAM. When DNC=”L”, the command via 8080 system interface write into register. When DNC=”H”, GRAM data via R22h register can be written through data bus. When the data is written into the GRAM from the MPU, it is first written into the write-data latch and then automatically written into the GRAM by internal operation. Data is read through the read-data latch when reading from the GRAM. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.26May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 When data is read from the GRAM to the MPU, it is first read from GRAM to the read-data latch and then data is read to MPU through the read-data latch in next read operation. Therefore, the first read operation data in data bus is invalid, and the second and the following read operation data in data bus is valid. Interface NRD NWR_SCL DNC D17–D0 or other input pin DB17–DB0: 18-bit data bus SDI_SDA, SDO DB17–DB0: 18-bit data bus 4-wire serial interface Unused SCL DNC SDI_SDA, SDO DB9–DB0: Unused, 8080 System Type II 8-bit NRD NWR DNC D17–D10: 8-bit data bus DB8–DB0: Unused, 8080 System Type II 9-bit NRD NWR DNC DB17–DB9: 9-bit data bus DB9,DB0: Unused, 8080 System Type II 16-bit NRD NWR DNC DB17–DB10,DB8–DB1: 16-bit data bus 8080 System Type II 18-bit NRD NWR DNC DB17–DB0: 18-bit data bus Table 4.2: Pin connection based on different interface 3-wire serial interface Unused SCL Unused Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.27May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.1.1 8080 System interface The selection of 8080 System interface is by IM2~IM0 pins. The parallel interface timing diagram is described in Figure 4.1~4.2. Write to the register NCS DNC NRD NWR_SCL DB7-0 "index" write to index register Command write to the register "index" write to index register Command read from the register Read the register NCS DNC NRD NWR_SCL DB7-0 Figure 4.1: 8080 System interface protocol, write/read register Write to the graphic RAM NCS DNC NRD NWR_SCL DB[B:0] "22 " h 1st write data 2nd write data 3rd write data 4th write data 5th write data Read the graphic RAM NCS DNC NRD NWR_SCL 1st read data DB[B:0] 2nd read read 3rd read data "22" h Dummy Read Data Figure 4.2: 8080 System interface protocol, write/read GRAM Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.28May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.1.2 I80 8-bit Parallel Bus System Interface The I80 8-bit parallel bus interface mode can be used by setting external pins “IM2-0” pins to “011”. Figure 4.3 is the example of I80 8-bit interface Figure 4.3: Example of I80 8-bit bus interface 8-bits data bus for 16-bits/pixel (RGB 5-6-5-bits input), 65K-colors, 17H=”05h”. There is 1-pixel (3 sub-pixels) per 2-bytes. NRESET 1‘ ’ NCS DNC NWR_SCL NRD 1‘ ’ DB17 0 DB16 0 DB15 1 DB14 0 DB13 0 DB12 0 DB11 1 DB10 0 Pixel n+1 Pixel n 16-bits 16-bits Color Mapping for 65K-colors (16-Bits to 18-Bits) 18-bits Frame Memory 18-bits R1 G1 B1 R2 G2 B2 R3 G3 B3 Figure 4.4: Write data for RGB 5-6-5 bits input in I80 8-bit parallel bus interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.29May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8-bits data bus for 18-bits/pixel (RGB 6-6-6-bits input), 262K-colors, 17H=”06h”. There is 1-pixel (3 sub-pixels) per 3-bytes. NRESET 1‘ ’ NCS DNC NWR_SCL NRD 1‘ ’ DB17 0 DB16 0 DB15 1 DB14 0 DB13 0 DB12 0 DB11 1 DB10 0 Pixel n Pixel n+1 18-bits - Frame Memory 18-bits R1 G1 B1 R2 G2 B2 R3 G3 B3 Figure 4.5: Write data for RGB 6-6-6 bits input in I80 8-bit parallel bus interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.30May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.1.3 I80 9-bit Parallel Bus System Interface The I80 9-bit parallel bus interface mode can be used by setting external pins “IM2-0” pins to “001”. Figure 4.6 is the example of I80 9-bit interface. Figure 4.6: Example of I80 9-bit bus interface 9-bits data bus for 18-bits/pixel (RGB 6-6-6-bits input), 262K-colors, 17H=”06h”. There is 1-pixel (3 sub-pixels) per 2-bytes. NRESET 1‘ ’ NCS DNC NWR_SCL NRD 1‘ ’ DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 Pixel n 18-bits Frame Memory Pixel n+1 18-bits R1 G1 B1 R2 G2 B2 R3 G3 B3 Figure 4.7: Write data for RGB 6-6-6 bits input in I80 9-bit parallel bus interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.31May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.1.4 I80 16-bit Parallel Bus System Interface The I80 16-bit parallel bus interface mode can be used by setting external pins “IM2-0”pins to “010”. Figure 4.8 is the example of I80 16-bit interface. Figure 4.8: Example of I80 16-Bit parallel bus interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.32May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 16-bits data bus for 16-bits/pixel (RGB 5-6-5-bits input), 65K-colors, 17H=”05h”. There is 1-pixel (3 sub-pixels) per 1-byte NRESET 1‘ ’ NCS DNC NWR_SCL NRD 1‘ ’ DB17 - DB16 - DB15 - DB14 - DB13 - DB12 - DB11 - DB10 - DB8 0 DB7 0 DB6 1 DB5 0 DB4 0 DB3 0 DB2 1 DB1 0 Pixel n Pixel n+1 16-bits Pixel n+2 Pixel n+3 16-bits Color Mapping for 65K-colors (16-Bits to 18-Bits) 18-bits Frame Memory 18-bits R1 G1 B1 R2 G2 B2 R3 G3 B3 Figure 4.9: Write data for RGB 5-6-5 bits input in I80 16-bit parallel bus interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.33May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 16-bits data bus for 18-bits/pixel (RGB 6-6-6-bits input), 262K-colors, 17H=”06h”. There are 2-pixels (6 sub-pixels) per 3-bytes Figure 4.10: Write data for RGB 6-6-6 bits input in I80 16-bit parallel bus interface (DFM=0) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.34May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 16-bits data bus for 18-bits/pixel (RGB 6-6-6-bits input), 262K-colors, 17H=”07h”. There are 1-pixels (3 sub-pixels) per 2-bytes Figure 4.11: Write data for RGB 6-6-6 bits input in I80 16-bit parallel bus interface (R17h=07h) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.35May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 16-bits data bus for 18-bits/pixel (RGB 6-6-6-bits input), 262K-colors, 17H=”04h”. There are 1-pixels (3 sub-pixels) per 2-bytes Figure 4.12: Write data for RGB 6-6-6 bits input in I80 16-bit parallel bus interface (R17h=04h) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.36May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.1.5 I80 18-bit Parallel Bus System Interface The I80 18-bit parallel bus interface mode can be used by setting external pins“IM2-0” pins to “000”. Figure 4.13 is the example of interface with I8018-bit interface. Figure 4.13: Example of I80 18-Bit parallel bus interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.37May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 18-bits data bus for 18-bits/pixel (RGB 6-6-6-bits input), 262K-colors, 17H=”06h”, There is 1-pixel (3 sub-pixels) per 1-byte NRESET 1‘ ’ NCS DNC NWR_SCL NRD 1‘ ’ DB17 - DB16 - DB15 - DB14 - DB13 - DB12 - DB11 - DB10 - DB9 - DB8 0 DB7 0 DB6 1 DB5 0 DB4 0 DB3 0 DB2 1 DB1 0 DB0 - Pixel n Pixel n+1 18-bits Frame Memory Pixel n+2 Pixel n+3 18-bits R1 G1 B1 R2 G2 B2 R3 G3 B3 Figure 4.14: Write data for RGB 6-6-6 bits input in I80 18-bit parallel bus interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.38May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 I80 Interface Data Color Coding I80 Interface Data Color Coding for GRAM data Write - I80 8-Bits Bus Interface (IM2-0=”011”) Register Command DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 17h DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 05h 06h 0 0 1 0 0 0 1 0 x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 x x x x x x x x x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 R4 R3 R2 R1 R0 G5 G4 G3 x x x x x x x x x x G2 G1 G0 B4 B3 B2 B1 B0 x x x x x x x x x x R5 R4 R3 R2 R1 R0 x x x x x x x x x x x x G5 G4 G3 G2 G1 G0 x x x x x x x x x x x x B5 B4 B3 B2 B1 B0 x x x x x x x x x x x x Command 22h Color 65K-Color (1-pixels/ 2-bytes) 262K-Color (1-pixels/ 3bytes) Table 4.3: I80 8-Bits Interface GRAM Write Table - I80 9-Bits Bus Interface (IM2-0=”001”) Register Command DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 17h DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 06h 0 0 1 0 0 0 1 0 x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 x x x x x x x x x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 R5 R4 R3 R2 R1 R0 G5 G4 G3 x x x x x x x x x G2 G1 G0 B5 B4 B3 B2 B1 B0 x x x x x x x x x Register 22h Color 262K-Color (1-pixels/ 2bytes) Table 4.4: I80 9-Bits Interface GRAM Write Table - I80 16-Bits Bus Interface (IM2-0=”010”) Register Command DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 17h 05h DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 06h 07h 04h x x x x x x x x x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 0 0 1 0 0 0 1 0 x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 R4 R3 R2 R1 R0 G5 G4 G3 x G2 G1 G0 B4 B3 B2 B1 B0 x R15 R14 R13 R12 R11 R10 x x x G15 G14 G13 G12 G11 G10 x x x B15 B14 B13 B12 B11 B10 x x x R25 R24 R23 R22 R21 R20 x x x G25 G24 G23 G22 G21 G20 x x x B25 B24 B23 B22 B21 B20 x x x R5 R4 R3 R2 R1 R0 G5 G4 x G3 G2 G1 G0 B5 B4 B3 B2 x B1 B0 x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x R5 R4 x R3 R2 R1 R0 G5 G4 G3 G2 x G1 G0 B5 B4 B3 B2 B1 B0 x Command 22h Color 65K-Color 262K-Color (2-pixels/ 3bytes) 262K-Color (1-pixels/ 2bytes) 262K-Color (1-pixels/ 2bytes) Table 4.5: I80 16-Bits Interface GRAM Write Table - I80 18-Bits Bus Interface (IM2-0=”000”) Register DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 Command x x x x x x x x x 0 0 1 0 0 0 1 0 x 17h 06h DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 R5 R4 R3 R2 R1 R0 G5 G4 G3 DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 G2 G1 G0 B5 B4 B3 B2 B1 B0 Register 22h Color 262K-Color Table 4.6: I80 18-Bits Interface GRAM Write Table Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.39May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 I80 Interface Data Color Coding for GRAM data Read - I80 8-Bits Bus Interface (IM2-0=”011”) Register Command DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 0 0 1 0 0 0 1 0 x DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 Read Data foramt DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 x x x x x x x x x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 x x x x x x x x x x x x x x x x x x R5 R4 R3 R2 R1 R0 x x x x x x x x x x x x G5 G4 G3 G2 G1 G0 x x x x x x x x x x x x B5 B4 B3 B2 B1 B0 x x x x x x x x x x x x Command 22h Color Dummy Read 262K-Color (1-pixels/ 3-bytes) Table 4.7: I80 8-Bits Interface GRAM Read Table - I80 9-Bits Bus Interface (IM2-0=”001”) Register Command DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 0 0 1 0 0 0 1 0 x DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 Read Data foramt DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 x x x x x x x x x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 x x x x x x x x x x x x x x x x x x R5 R4 R3 R2 R1 R0 G5 G4 G3 x x x x x x x x x G2 G1 G0 B5 B4 B3 B2 B1 B0 x x x x x x x x x Register 22h Color Dummy Read 262K-Color (1-pixels/ 2bytes) Table 4.8: I80 9-Bits Interface GRAM Read Table - I80 16-Bits Bus Interface (IM2-0=”010”) Register Command DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 x x x x x x x x x DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 Read Data foramt DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 0 0 1 0 0 0 1 0 x DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 x x x x x x x x x x x x x x x x x x R15 R14 R13 R12 R11 R10 x x x G15 G14 G13 G12 G11 G10 x x x B15 B14 B13 B12 B11 B10 x x x R25 R24 R23 R22 R21 R20 x x x G25 G24 G23 G22 G21 G20 x x x B25 B24 B23 B22 B21 B20 x x x Command 22h Color Dummy Read 262K-Color (2-pixels/ 3bytes) Table 4.9: I80 16-Bits Interface GRAM Read Table - I80 18-Bits Bus Interface (IM2-0=”000”) Register DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 Command x x x x x x x x x 0 0 1 0 0 0 1 0 x Read Data foramt DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 x x x x x x x x x x x x x x x x x DB0 x R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0 Register 22h Color Dummy Read 262K-Color Table 4.10: I80 18-Bits Interface GRAM Read Table - Data Mapping Extend to 18-bit Data GRAM Data Input Data 18-bit 16-bit EPF[1:0] X 00 01 10 11 DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 R5 R4 R4 R4 R4 R3 R3 R3 R3 R2 R2 R2 R2 R1 R1 R1 DB5 DB4 DB3 DB2 DB1 DB0 R1 R0 G5 G4 G3 G2 G1 G0 B5 R0 0 G5 G4 G3 G2 G1 G0 B4 R0 1 G5 G4 G3 G2 G1 G0 B4 R0 R4 G5 G4 G3 G2 G1 G0 B4 Reference EPF[1:0] setting in R6Bh DB8 DB7 DB6 B4 B3 B3 B3 B3 B2 B2 B2 B2 B1 B1 B1 B1 B0 B0 B0 B0 0 1 B4 Table 4.11: Data Mapping Extend to 18-bit Data Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.40May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.2 Serial Data Transfer Interface The HX8352-C01 supports 3-wire and 4-wire serial data transfer interface, the interface selection by setting IM2-0 pins, The IM2-0 set “10x” is select option1 3 wire serial bus. The IM2-0 set “11x” is select option3 4 wire serial bus. The 3 wire serial bus is use: chip select line (NCS), the serial transfer clock line (NWR_SCL). When SDA_EN=0, SDI_SDA pin is for serial interface input data and SDO pin is for serial interface output data. When SDA_EN=1, SDI_SDA pin is for serial interface input/output data and SDO pin is unused. The 4 wire serial bus is use: chip select line (NCS), data/command select (DNC), the serial transfer clock line (NWR_SCL). When SDA_EN=0, SDI_SDA pin is for serial interface input data and SDO pin is for serial interface output data. When SDA_EN=1, SDI_SDA pin is for serial interface input/output data and SDO pin is unused. 4.2.1 3-wire serial interface As the chip select signal (NCS) goes low, the start byte needs to be transferred first. The start byte is made up of 6-bit bus device identification code; register select (RS) bit and read/write operation (RW) bit. The five upper bits of 6-bit bus device identification code must be set to “01110”, and the least significant bit of the identification code must be set as the external pin IM0 input as “ID”. The seventh bit (RS) of the start byte determines internal index register or register, GRAM accessing. RS must be set to “0” when writing data to the index register or reading the status and it must be set to “1” when writing or reading a command or GRAM data. The read or write operation is selected by the eighth bit (RW) of the start byte. The data is written to the chip when R/W = 0, and read from chip when RW = 1. RS 0 1 1 R/W Function 0 Set index register 0 Writes Instruction or GRAM data 1 Reads command (Not support GRAM read) Table 4.12: Function of RS and R/W bit bus Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.41May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 A) TransferTiming Format in Serial Bus Interface for Index Register or Register Wirte 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 NWR_SCL Start End NCS SDI_SDA " 01110" ID Device ID code Start byte RS RW S7 S6 S5 S4 S3 S2 S1 S0 Index register set , register set , Figure 4.15: Index register read/write timing in 3-wire serial bus system interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.42May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 A )1616-bit Data Transfer Timing Format in Serial Bus Interface for GRAM write ( Index 17h 17h= 05) 05) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 NWR_SCL Start End NCS R "01110" ID SDA RS RW R4 R3 G R2 R1 R0 G5 G4 G3 B G2 G1 G0 B4 B3 B2 Device ID code B1 B0 - Start byte 65k colors mapping (16 Bits to 18Bits) 18- bits Frame Memory R1 G1 B1 R2 G2 B2 R3 G3 B3 B )1818-bit Data Transfer Timing Format in Serial Bus Interface for GRAM write ( Index 17H 17H=06) 06) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 NWR_SCL End Start NCS R " 01110" ID SDA RS RW R5 R4 R3 G R2 R1 R0 G5 G4 G3 B G2 G1 G0 B5 B4 B3 B2 B1 B0 Device ID code Start byte 18- bits Frame Memory R1 G1 B1 R2 G2 B2 R3 G3 B3 Figure 4.16: Data write timing in 3-wire serial bus system interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.43May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.2.2 4-wire serial interface 4-pin serial case, data packet contains just transmission byte and control bit DNC is transferred by DNC pin. If DNC is low, the transmission byte is command byte. If DNC is high, the transmission byte is stored to index register or GRAM. The MSB is transmitted first. The serial interface is initialized when NCS is high. In this state, NWR_SCL clock pulse or SDA data have no effect. A falling edge on NCS enables the serial interface and indicates the start of data transmission. 4-Wire Serial Interface Protocol DNC NCS NWR_SCL D7 SDA D6 D5 D4 D3 D2 D1 D0 D7 D6 D5 D4 D3 D2 D1 D0 Parameter Command NCS can be "H" between Command and parameter Figure 4.17: Index register write timing in 4-wire serial bus system interface 1616-bit Data Transfer Timing Format in 4-wire Serial Bus Interface for GRAM write ( Index 17h 17h= 05) 05) NWR_SCL R1 4 R13 R1 2 R1 1 R10 G1 5 G14 G13 G12 G11 G10 B1 4 SDA B1 3 B1 2 B1 1 B1 0 16-bit 65K colors mapping (16-bit to 18 bit) 18-bit GRAM R1 G1 B1 R2 G2 B2 1818-bit Data Transfer Timing Format in 4-wire Serial Bus Interface for GRAM write ( Index 17h 17h= 06) 06) NWR_SCL SDA R15 R14 R13 R12 R11 R10 G15 G14 G13 G12 G11 G10 B15 B14 B13 B12 B11 B10 18-bit GRAM R1 G1 B1 R2 G2 B2 R3 G3 B3 Figure 4.18: Data write timing in 4-wire serial bus system interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.44May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.3 RGB interface The HX8352-C01 uses 16, 18-bit parallel RGB interface which includes: HSYNC, VSYNC, DE, PCLK, DB17~DB0. The interface is active after Power On sequence. Pixel clock (PCLK) is running all the time without stopping and it is used to entering HSYNC, VSYNC, DE and DB17~DB0 –lines states when there is a rising edge of the PCLK. The PCLK cannot be used as continue internal clock for other functions of the display module e.g. Standby mode etc. Vertical synchronization (VSYNC) is used to tell when there is received a new frame of the display. This is negative (‘-‘, ‘0’, low) active and its state is read to the display module by a rising edge of the PCLK-line. Horizontal synchronization (HSYNC) is used to tell when there is received a new line of the frame. This is negative (‘-‘, ‘0’, low) active and its state is read to the display module by a rising edge of the PCLK-line. Data enable (DE) is used to tell when there is received RGB information that should be transferred on the display. This is positive (‘+’, ‘1’, high) active and its state is read to the display module by a rising edge of the PCLK-line. 18 bit: DB17-DB12(R5-R0), DB11-DB6(G5-G0) and DB5-DB0(B5-B0); 16 bit: DB15-DB11(R4- R0), DB10-DB5(G5-G0) and DB4-DB0(B4-B0) are used to tell what is the information of the image that is transferred on the display (when DE =1 and there is a rising edge of PCLK). DB17~DB0 – lines can be set to “0” (low) or “1” (high). These lines are read by a rising edge of the PCLK-line. The pixel clock cycle is described in the following figure. Figure 4.19: PCLK cycle Note: PCLK is an unsynchronized signal (It can be stopped). Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.45May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 General Timing Diagram Figure 4.20: General Timing Diagram 1 Frame VBP 432 1 Panel Display VSYNC Display Area HSYNC DE Start to latch data PCLK HBP HSYNC PCLK DE Data Bus D1 D2 D238 D239 D240 Figure 4.21: DPI timing diagram The image information must be correct on the display, when the timings are in range on the interface. However, the image information can be incorrect on the display, when timings are out of the range on the interface (Out of the range timings cannot cause any damage on the display module or it cannot cause any damage on the host side). The correct image information must be displayed automatically (by the display module) on the next frame (vertical sync.), when there is returned from out of the range to in range interface timings. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.46May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 4.3.1 RGB Interface Data Color Coding The RGB interface includes two types which are 16-/ 18-bit data format by register R17h to select. R17h DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 DPI Interface mode 50h R4 R3 R2 R1 R0 X G5 G4 G3 G2 G1 G0 B4 B3 B2 B1 B0 X 16-bit 65K-Color 60h R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0 18-bit 262K-Color Table 4.13: DPI Input Data Format PCLK DB17,R4 R 1, BIT4 BIT4 R 2, BIT4 BIT4 R 3, BIT4 BIT4 R 4 , BIT4 BIT4 R 5 , BIT4 BIT4 DB16,R3 R 1, BIT3 BIT3 R 2, BIT3 BIT3 R 3, BIT3 BIT3 R 4 , BIT3 BIT3 R 5 , BIT3 BIT3 DB15,R2 R 1, BIT2 BIT2 R 2, BIT2 BIT2 R 3, BIT2 BIT2 R 4 , BIT2 BIT2 R 5 , BIT2 BIT2 DB14,R1 R 1, BIT1 BIT1 R 2, BIT1 BIT1 R 3, BIT1 BIT1 R 4 , BIT1 BIT1 R 5 , BIT1 BIT1 DB13,R0 R 1, BIT0 BIT0 R 2, BIT0 BIT0 R 3, BIT0 BIT0 R 4 , BIT0 BIT0 R 5 , BIT0 BIT0 DB11,G5 G 1 , BIT5 BIT 5 G 2, BIT5 BIT 5 G 3, BIT5 BIT 5 G 4, BIT5 BIT 5 G 5, BIT5 BIT 5 DB10,G4 G 1 , BIT4 BIT 4 G 2, BIT4 BIT 4 G 3, BIT4 BIT 4 G 4, BIT4 BIT 4 G 5, BIT4 BIT 4 DB9,G3 G 1 , BIT3 BIT 3 G 2, BIT3 BIT 3 G 3, BIT3 BIT 3 G 4, BIT3 BIT 3 G 5, BIT3 BIT 3 DB8,G2 G 1 , BIT2 BIT2 G 2, BIT2 BIT2 G 3, BIT2 BIT2 G 4, BIT2 BIT2 G 5, BIT2 BIT2 DB7,G1 G 1 , BIT1 BIT 1 G 2, BIT1 BIT 1 G 3, BIT1 BIT 1 G 4, BIT1 BIT 1 G 5, BIT1 BIT 1 DB6,G0 G 1 , BIT0 BIT 0 G 2, BIT0 BIT 0 G 3, BIT0 BIT 0 G 4, BIT0 BIT 0 G 5, BIT0 BIT 0 DB5,B4 B 1, BIT4 BIT4 B 2, BIT4 BIT4 B 3 , BIT4 BIT4 B 4 , BIT4 BIT4 B 5 , BIT4 BIT 4 DB4,B3 B 1, BIT3 BIT3 B 2, BIT3 BIT3 B 3 , BIT3 BIT3 B 4 , BIT3 BIT3 B 5 , BIT3 BIT 3 DB3,B2 B 1, BIT2 BIT2 B 2, BIT2 BIT2 B 3 , BIT2 BIT2 B 4 , BIT2 BIT2 B 5 , BIT2 BIT 2 DB2,B1 B 1, BIT1 BIT1 B 2, BIT1 BIT1 B 3 , BIT1 BIT1 B 4 , BIT1 BIT1 B 5 , BIT1 BIT 1 DB1,B0 B 1, BIT0 BIT0 B 2, BIT0 BIT0 B 3 , BIT0 BIT0 B 4 , BIT0 BIT0 B 5 , BIT0 BIT0 DB12 DB0 16Bits 16Bits 16Bits Color Mapping for 65K data (16-bit to 18-bit) 18Bits Pixels on the display R 1 18Bits G 1 B 1 R 2 18Bits G 2 B 2 R 3 G 3 B 3 Figure 4.22: 16 bit data bus color order on DPI interface Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.47May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 PCLK DB17,R5 DB16,R4 DB15,R3 DB14,R2 DB13,R1 DB12,R0 DB11,G5 DB10,G4 DB9,G3 DB8,G2 DB7,G1 DB6,G0 DB5,B5 DB4,B4 DB3,B3 DB2,B2 DB1,B1 DB0,B0 18Bits Pixels on the display 18Bits R 1 G B 1 1 18Bits R G 2 2 B 2 R G 3 3 B 3 Figure 4.23: 18 bit data bus color order on DPI interface - Data Mapping Extend to 18-bit Data GRAM Data Input Data 18-bit 16-bit EPF[1:0] X 00 01 10 11 DB17 DB16 DB15 DB14 DB13 DB12 DB11 DB10 DB9 R5 R4 R4 R4 R4 R3 R3 R3 R3 R2 R2 R2 R2 R1 R1 R1 DB5 DB4 DB3 DB2 DB1 DB0 R1 R0 G5 G4 G3 G2 G1 G0 B5 R0 0 G5 G4 G3 G2 G1 G0 B4 R0 1 G5 G4 G3 G2 G1 G0 B4 R0 R4 G5 G4 G3 G2 G1 G0 B4 Reference EPF[1:0] setting in R6Bh DB8 DB7 DB6 B4 B3 B3 B3 B3 B2 B2 B2 B2 B1 B1 B1 B1 B0 B0 B0 B0 0 1 B4 Table 4.14: DPI Data Mapping Extend to 18-bit Data Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.48May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 DPI interface displaying moving pictures can be selected to rewrite into the GRAM or not through GRAM. The selection is set by register DM[1:0] and RM. RM The bit is used to select an interface for the Frame Memory access operation. The Frame Memory is accessed only via the interface defined by RM bit. Because the interface can be selected separately from display operation mode, writing data to the Frame Memory is possible via system interface when RM = 0, even in the DPI display operation. RM setting is enabled from the next frame. Wait 1 frame to transfer data after setting. RM 0 1 Interface for RAM access DBI Interface (CPU) DPI Interface (RGB) DM[1:0] The bit is used to select display operation mode. The setting allows switching between display operation in synchronization with internal oscillation clock, VSYNC, or DPI signal. Note that switching between DPI operation is prohibited. DM 1 0 0 1 1 DM 0 0 1 0 1 Operation Mode Internal clock operation (displaying still pictures) DPI interface : capture mode (1) (displaying moving pictures) DPI interface : capture mode (2) (rewriting still pictures while displaying moving pictures) DPI interface : through mode (1) (displaying moving pictures) DPI interface : through mode (2) (displaying moving pictures) Internal clock operation DPI data format Display Mode Internal oscillation clock DPI interface(GRAM) RGB data bypass GRAM mode 1 RGB data bypass GRAM mode 2 Frame Memory Access Setting (RM) MPU interface (RM=0) DPI interface (RM=1) Display Operation Mode (DM[1:0]) Internal clock operation (DM[1:0]=00) DPI interface : VS & HS (DM[1:0]=01) MPU interface (RM=0) DPI interface : VS (DM[1:0]=01) Bypass frame memory Bypass frame memory DPI interface (RM=1) DPI interface : VS & HS & DE (DM[1:0]=10) DPI interface : VS & HS (DM[1:0]=11) Internal clock operation (DM[1:0]=00) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.49May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5. Function Description 5.1 Display data GRAM HX8352-C01 support the display data RAM that stores display dots and consists of 1,866,240 bits (240x432x18 bits). There is no restriction on access to the RAM even when the display data on the same address is loaded to DAC There will be no abnormal visible effect on the display when there is a simultaneous Panel Read and Interface Read or Write to the same location of the Frame Memory. 5.1.1 Address counter (AC) The HX8352-C01 contains an address counter (AC) which assigns address for writing/reading pixel data to/from GRAM. The address pointers set the position of GRAM whose addresses range: MV 0 1 X range Y range Panel resolution 0~239d. 0~431d. 240 RGBX432 dot 0~431d. 0~239d. Table 5.1: Addresses counter range Every time when a pixel data is written into the GRAM, the X address or Y address of AC will be automatically increased by 1 (or decreased by 1), which is decided by the register (MV, MX and MY bit) setting. To simplify the address control of GRAM access, the window address function allows for writing data only to a window area of GRAM specified by registers. After data is written to the GRAM, the AC will be increased or decreased within setting window address-range which is specified by the Column address register (start: SC, end: EC) or the Row address register (start: SP, end: EP). Therefore, the data can be written consecutively without thinking a data wrap by those bit function. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.50May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.1.2 Source, gate and memory map S715 S716 S717 S718 S719 S720 BGR=1 --- B GR=0 S6 BGR=1 S5 B GR=0 S4 B GR=0 RA S3 BGR=1 S2 BGR=1 S1 BGR=0 Source Out SA MY=0 MY=1 0 1 431 2 429 3 428 4 427 5 426 6 425 7 424 8 9 423 : : : : : : : : --------------------: : : : : : : : : : : : : : : : : : : : : : 7 425 426 6 5 427 4 428 3 429 2 1 CA R1 5-0 G1 5-0 B1 5-0 422 : 431 G0 5-0 B0 5-0 430 424 430 R0 5-0 0 MX=0 0 MX=1 239 1 238 R238 5-0 G238 5-0 B238 5-0 R239 5-0 G239 5-0 B239 5-0 ML=0 ML=1 0 1 431 2 429 3 428 4 427 5 426 6 425 7 424 8 9 423 430 422 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : --------------------- : : : : : : 238 239 1 0 : : 424 7 425 426 6 5 427 4 428 3 429 430 2 1 431 0 Note:RA=Row Address CA=Colum Address SA=Scan Address MX=Colum address direction parameter MY=Row address direction parameter ML=Scan direction parameter RGB=Red,Green and Blue pixel position change Table 5.2: Memory map of 240RGB x432 resolution Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.51May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.1.3 MCU to memory write / read direction Data stream from MCU is like this figure B E Figure 5.1: MCU to Memory write / read direction The data is written in the order as illustrated above. The counter that dictates which physical memory the data is to be written is controlled by “Memory Access Control” Command, Bits MY, MX, MV as described below. Physical Row Pointer MV MX MY Figure 5.2: MY, MX, MV setting MV 0 MX 0 MY 0 0 0 1 0 0 1 1 1 1 1 1 0 0 1 1 0 1 0 1 0 1 CASET Direct to Physical Column Pointer PASET Direct to Physical Row Pointer Direct to (431-Physical Row Pointer) Direct to Physical Column Pointer with SC Direct to (239-Physical Column Pointer) Direct to Physical Row Pointer Direct to (239-Physical Column Pointer) Direct to (431-Physical Row Pointer) Direct to Physical Row Pointer Direct to Physical Column Pointer Direct to (431-Physical Row Pointer) Direct to Physical Column Pointer Direct to Physical Row Pointer Direct to (239-Physical Column Pointer) Direct to (431-Physical Row Pointer) Direct to (239-Physical Column Pointer) Table 5.3: MY, MX, MV setting Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.52May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 The following figure depicts the update method set by MV, MX and MY bit. Display Data Direction Memory Access Control MV MX MY Image in the Host H/W Position (0,0) B Normal 0 0 Image in the Driver (GRAM) B X,Y address (0,0) X: CASET Y: RASET 0 E E B Y-Mirror 0 0 E H/W Position (0,0) 1 E X,Y address (0,0) X: CASET Y: RASET B B X-Mirror 0 1 0 E B X-Mirror Y-Mirror 0 1 1 E B X-Y Exchange 1 0 H/W Position (0,0) B X,Y address (0,0) X: CASET Y: RASET 0 E E B X-Y Exchange Y-Mirror 1 0 H/W Position (0,0) 1 X,Y address (0,0) X: CASET Y: RASET E B X-Y Exchange X-Mirror 1 1 H/W Position (0,0) B 1 1 B B X,Y address (0,0) X: CASET Y: RASET 0 E E X-Y Exchange X-Mirror Y-Mirror E H/W Position (0,0) E 1 E B X,Y address (0,0) X: CASET Y: RASET Figure 5.3: Address direction settings Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.53May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.1.4 Fully display, partial display, vertical scrolling display 5.1.4.1 Fully display Example: (1) 240RGBx432 dot display mode. (2) Normal Display Mode. (3) SC=0x000h, EC=0x0EFh and SP=0x000h, EP=0x1AFh, ML=0. ------1AA000H 1AB000H 1AC000H 1AD000H 1AE000H 1AF000H --------------------------------------------------------- 0EEh DB---DB 17 ---0 0000EEH 0010EEH 0020EEH 0030EEH 0040EEH 0050EEH 0EFh DB---DB 17 ---0 0000EFH 0010EFH 0020EFH 0030EFH 0040EFH 0050EFH --------- ------- ------1AAh 1ABh 1ACh 1ADh 1AEh 1AFh --------- ------- 001h DB---DB 17 ---0 000001H 001001H 002001H 003001H 004001H 005001H ------- 000h 001h 002h 003h 004h 005h 000h DB---DB 17 ---0 000000H 001000H 002000H 003000H 004000H 005000H GRAM 1AA001H 1AB001H 1AC001H 1AD001H 1AE001H 1AF001H ------------------------------------------------- 1AA0EEH 1AB0EEH 1AC0EEH 1AD0EEH 1AE0EEH 1AF0EEH 1AA0EFH 1AB0EFH 1AC0EFH 1AD0EFH 1AE0EFH 1AF0EFH Table 5.4: 240RGB x 432 resolution (SRAM assignment) Figure 5.4: 240RGB x 432 resolution Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.54May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.1.4.2 Partial Display Example: (1) 240RGBx432 dot display mode. (2) PLTON=1. (3) SR[15:0]=0002h, ER[15:0]=01ABh, ML=0. 000h 001h 002h 003h 004h 005h 00h DB---DB 17 --- 0 000000H 001000H 002000H 003000H 004000H 005000H 01h DB---DB 17 --- 0 000001H 001001H 002001H 003001H 004001H 005001H GRAM EFh DB---DB 17 --- 0 0000EFH 0010EFH 0020EFH 0030EFH 0040EFH 0050EFH ------- ------- --------- ------- ------- 1AAh 1ABh 1ACh 1ADh 1AEh 1AFh 1AA000H 1AB000H 1AC000H 1AD000H 1AE000H 1AF000H 1AA001H 1AB001H 1AC001H 1AD001H 1AE001H 1AF001H ------------------------------------------------- 1AA0EEH 1AB0EEH 1AC0EEH 1AD0EEH 1AE0EEH 1AF0EEH 1AA0EFH 1AB0EFH 1AC0EFH 1AD0EFH 1AE0EFH 1AF0EFH LCD panel S/G pins Pixel 1 Pixel 2 --------- Pixel239 Pixel240 G1 G2 G3 G4 G5 G6 000000H 001000H 002000H 003000H 004000H 005000H 000001H 001001H 002001H 003001H 004001H 005001H ------------------------------------------------- 0000EEH 0010EEH 0020EEH 0030EEH 0040EEH 0050EEH 0000EFH 0010EFH 0020EFH 0030EFH 0040EFH 0050EFH ------- ------- --------- ------- ------- Non-display area -> 4 lines ------------------------------------------------- EEh DB---DB 17 --- 0 0000EEH 0010EEH 0020EEH 0030EEH 0040EEH 0050EEH ------- Display area -> 426 lines --------- ------- Non-display area -> 2 lines --------- G427 G428 G429 G430 G431 G432 1AA000H 1AB000H 1AC000H 1AD000H 1AE000H 1AF000H 1AA001H 1AB001H 1AC001H 1AD001H 1AE001H 1AF001H ------------------------------------------------- 1AA0EEH 1AB0EEH 1AC0EEH 1AD0EEH 1AE0EEH 1AF0EEH 1AA0EFH 1AB0EFH 1AC0EFH 1AD0EFH 1AE0EFH 1AF0EFH Table 5.5: Memory map of partial display Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.55May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.1.4.3 Vertical scrolling display When SCROL bit is set to ‘1’, the scrolling display mode is active and the vertical scrolling display is specified by TFA, VSA, BFA bits (R0Eh~R13h) and VSP bits (R14h~R15h). Original Scrolling TFA VSA BFA Figure 5.5: Vertical scrolling When Vertical Scrolling Definition Parameters (TFA+VSA+BFA)=Panel total scan lines. In this case, scrolling is applied as shown below. Example: When Vertical Scrolling Definition Parameters (TFA+VSA+BFA)=432. In this case, scrolling is applied as shown below. Example (1) TFA=2, VSA=430, BFA=0 when ML=0 Figure 5.6: Memory map of vertical scrolling 1 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.56May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Example (2) TFA=2, VSA=428, BFA=2 when ML=0 Figure 5.7: Memory map of vertical scrolling 2 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.57May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Vertical scroll example There are 2 types of vertical scrolling, which are determined by the TFA, VSA, BFA bits (R0Eh~R13h) and VSP bits (R14h~R15h). Case 1: TFA + VSA + BFA≠432 Do not set TFA + VSA + BFA≠432. In that case, unexpected picture will be shown. Case 2: TFA + VSA + BFA=432 (Scrolling) Example (1) When TFA=0, VSA=432, BFA=0 and VSP=40. ML=”0” P h y s ic a l L in e P o in t e r M e m o r y P h ysica l A x is (0 ,0 ) D isp la y A xis ( 0 , 0 ) 2 1 VS CRS A DD 1 2 F ra m e M e m o ry D is p la y In cr e m e n t V S CRS A DD P h y s ic a l L in e P o in t e r D isp la y A xis ( 0 ,0 ) 2 1 1 2 V S CRS A DD D is p la y F ra m e M e m o ry Figure 5.8: Vertical scroll example 1 Example (2) TFA=30, VSA=402, BFA=0 and VSP =80. ML=”1” Physical Line Pointer Memory Physical Axis (0,0) Display Axis (0,0) 2 3 3 2 VSCRSADD Frame Memory Display Increment VSCRSADD Physical Line Pointer Memory Physical Axis (0,0) TFA 1 1 TFA Display Axis (0,0) 2 3 VSCRSADD 3 2 1 1 TFA Frame Memory TFA Display Figure 5.9: Vertical scroll example 2 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.58May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.2 Tearing Effect Output Line The Tearing Effect output line supplies to the MPU a Panel synchronization signal. This signal can be enabled or disabled by the Tearing Effect Line Off & On commands. The mode of the Tearing Effect signal is defined by the parameter of the Tearing Effect Line On command. The signal can be used by the MPU to synchronize Frame Memory Writing when displaying video images. 5.2.1 Tearing Effect Line Modes Mode 1, the Tearing Effect Output signal consists of V-Blanking Information only: Figure 5.10: Tearing Effect Output signal mode 1 tvdh= The LCD display is not updated from the Frame Memory tvdl= The LCD display is updated from the Frame Memory (except Invisible Line – see below) Under Mode1, the TE output timing will be defined by TSEL[15:0] setting. Ex: 1. TSEL[15:0]=0, then TE signal will output after last Line finished. TSEL[15:0]=2, then TE signal will output at second Line start. Figure 5.11: TE Delay Output Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.59May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Mode 2, the Tearing Effect Output signal consists of V-Blanking and H-Blanking Information, there is one V-sync and 432 H-sync pulses per field. Figure 5.12: Tearing Effect Output signal mode 2 thdh= The LCD display is not updated from the Frame Memory thdl= The LCD display is updated from the Frame Memory (except Invisible Line – see above) Under Mode2, the H-sync pulese output amount will be defined by TSEL[15:0] setting. Ex: 1. TSEL[15:0]=0, then TE signal will output 432 H-sync. TSEL[15:0]=1, then TE signal will output 431 H-sync. Figure 5.13: TE Output for TELINE setting Figure 5.14: Tearing Effect Output signal Note: During Sleep In Mode, the Tearing Output Pin is active Low Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.60May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.2.2 Tearing Effect Line Timing The Tearing Effect signal is described below: Figure 5.15: Tearing Effect Line Timing Idle Mode Off (Frame Rate = 60Hz) Symbol tvdl tvdh thdl thdh Parameter Vertical Timing Low Duration Vertical Timing High Duration Horizontal Timing Low Duration Horizontal Timing High Duration Min. 1000 - Max. 500 Unit ms us us us description - NOTE: The timings in Table 5.6 apply when MADCTL ML=0 and ML=1 Table 5.6: AC characteristics of Tearing Effect Signal The signal’s rise and fall times (tf, tr) are stipulated to be equal to or less than 15ns. tr tf Figure 5.16: Rise and Fall times of TE signal The Tearing Effect Output Line is fed back to the MPU and should be used as shown below to avoid Tearing Effect: Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.61May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Example 1: MPU’s Write is Faster than Panel’s Read. MCU to Memory 1st Time 432th TE output signal Time Memory to LCD Time 1st Image on LCD a 432th b c d Figure 5.17: Tearing Effect - Example 1-1 Data write to Frame Memory is now synchronized to the Panel Scan. It should be written during the vertical sync pulse of the Tearing Effect Output Line. This ensures that data is always written ahead of the panel scan and each Panel Frame refresh has a complete new image: Figure 5.18: Tearing Effect - Example 1-2 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.62May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Example 2: MPU’s Write is Slower than Panel’s Read. MCU to Memory 1st Time 432th TE output signal Time Memory to LCD Time 1st Image on LCD a 432th b c d e f Figure 5.19: Tearing Effect - Example 2-1 The MPU to Frame Memory write begins just after Panel Read has commenced i.e. after one horizontal sync pulse of the Tearing Effect Output Line. This allows time for the image to download behind the Panel Read pointer and finishing download during the subsequent Frame before the Read Pointer “catches” the MPU to Frame memory write position. Figure 5.20: Tearing Effect - Example 2-2 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.63May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.3 Oscillator The HX8352-C01 can oscillate an internal R-C oscillator with an internal oscillation resistor (Rf). The oscillation frequency is changed according to the RADJ[3:0] internal register. The default frequency is 3.69MHz. RGB Display Mode PCLK Display Controller DIV[ DIV[1:0] Internal Display Mode Oscillator Clock 3.69MHz 69MHz fosc RADJ[ RADJ[3:0] Frequency Divider 1 DC0 DC0[1:0] Step up Circuit 1 ( for DDVDH) DDVDH) Frequency Divider 2 DC1 DC1[1:0] Step up Circuit 2 ( for VCL, VCL,VGH, VGH,VGL) VGL) PCLK RGB Display Mode PWM_ PWM_CLK (for Backlight CABC) CABC) Figure 5.21: OSC aritecture Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.64May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.4 Source driver The HX8352-C01 contains a 720 channels of source driver which is used for driving the source line of TFT LCD panel. The source driver converts the digital data from GRAM into the analog voltage for 720 channels and generates corresponding gray scale voltage output, which can realize a 262K colors display simultaneously. Since the output circuit of this source driver incorporates an operational amplifier, a positive and a negative voltage can be alternately outputted from each channel. Inversion mode 1 line type Date Line #1 Date Line #2 Date Line #3 1 Date Line #718 3 2 Date Line #719 718 ... Date Line #1 Date Line #720 719 Frame type 720 Gate#1 Date Line #2 Date Line #3 Date Line #718 1 2 3 1 2 3 1 2 3 1 2 3 ... Date Line #719 Date Line #720 718 719 720 718 719 720 718 719 720 718 719 720 Gate#1 1 2 3 718 ... 720 719 ... Gate#2 1 2 3 1 2 3 ... 718 719 720 718 719 720 Gate#3 Gate#2 ... Gate#3 ... ... Gate#4 Date Line #1 Date Line #2 + Date Line #3 + Date Line #718 + ... Date Line #719 + Gate#4 Date Line #1 Date Line #720 + + Gate#1 Date Line #2 Date Line #3 Date Line #718 + + + + + + + + + + + + ... Date Line #719 Date Line #720 + + + + + + + + + + + +- Gate#1 - - - ... - - - ... Gate#2 + + + ... + + Gate#2 + Gate#3 ... Gate#3 - - - ... - - - ... Gate#4 Gate#4 Figure 5.22: Source channels of different inversion mode Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.65May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.5 Gate Driver The HX8352-C01 contains a 432 gate channels of gate driver (G1~G432) which is used for driving the gate. The gate driver level is VGH when scan some line, VGL the other lines. HX8352-C01 can set internal register SM and GS bit to determine the pin assignment of gate. The SM and GS setting allows changing the shift direction of gate outputs by connecting LCD panel with the HX8352-C01. SM GS Scan direction G1 G3 EvenG2 number line G4 Oddnumber line TFT panel 0 0 G429 G431 G430 G432 HX8352-C G1, G2, G3, G4,......,G429, G430, G431, G432 G1 G3 EvenG2 number line G4 Oddnumber line TFT panel 0 1 G429 G431 G430 G432 HX8352-C G432, G431, G430, G429,......,G4, G3, G2, G1 G1 TFT panel G431 Evennumber line G2 1 Oddnumber line 0 G432 HX8352-C G1, G3,....,G429, G431, G2, G4,...., G430, G432 G1 TFT panel G431 Evennumber line G2 1 Oddnumber line 1 G432 HX8352-C G432, G430,....,G4, G2, G431, G429,...., G3, G1 Figure 5.23: Scan direction of Gate Driver Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.66May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.6 Power generation 5.6.1 LCD power generation scheme VGH DDVDH DC/DC converter VREG1 VREG1 VCOMH VCI (2.5V ~ 3.3V) IOVCC (1.65V 65V ~ 3.3V) VDDD VSSD, VSSD,VSSA DC/DC converter VCOML VCL (-VCI) VCI) VGL Figure 5.24: LCD power generation scheme Voltage configuration HX8352-C01 has an internal power supply circuit to drive a-Si LCD panel. Please set up each voltage output according to the LCD panel. Name DDVDH VCL VREG1 VGH VGL VCOMH VCOML Function Set up Value DC/DC converter circuit output 4.5 V or 6.0V DC/DC converter circuit output -VCI Reference voltage for gamma circuit 4.0 ~ 5.5V TFT gate on voltage output 10 ~ 18V TFT gate off voltage output -5 ~ -12.5V TFT common electrode voltage 3 ~ (DDVDH-0.5)V TFT common electrode voltage (VCL+0.5) ~ 0V Table 5.7: Power supply voltage configuration Note Reference register Reference register Reference register Reference register Reference register Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.67May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.6.2 Power supply circuit The power circuit of HX8352-C01 is used to generate supply voltages for LCD panel driving and backlight control. C31P C11P C31 C11 C31N Cvcl Step up Circuit 3 C11N VCL Step up Circuit 1 Reference Voltage Generation Circuit C12P C12 C12N DDVDH Cddvdh VREG1 Reference Voltage Generation Circuit VCI VSSA VSSD IOVCC DDVDH Cvddd VDDD Reference Voltage Generation Circuit C21N C21 C21P Step up Circuit 2 VPP VPP Generation Circuit VGH C22P C22 C22N VGH VGL Cgh Cgl Figure 5.25: Block diagram of HX8352-C01 power circuit with internal charge pump Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.68May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Specification of connected passive component Capacitor Cvddd (VDDD) Cddvdh (DDVDH) Cvcl (VCL) C11 (C11P/N) C12 (C12P/N) C31 (C31P/N) C21 (C21P/N) C22 (C22P/N) Cgh (VGH) Cgl (VGL) Recommended voltage Capacity 6V 1 µF (B characteristics) 10V 1 µF (B characteristics) 6V 1 µF (B characteristics) 6V 1 µF (B characteristics) 6V 1 µF (B characteristics) 6V 1 µF (B characteristics) 10V 1 µF (B characteristics) 10V 1 µF (B characteristics) 25V 1 µF (B characteristics) 16V 1 µF (B characteristics) Table 5.8: Adoptability of capacitor Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.69May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.7 Gamma characteristic correction function The HX8352-C01 offers two kinds of Gamma adjustment ways to come to accord with LC characteristic, one kind is through Source Driver directly, another one is adjusted by the digital gamma correction. The Gamma adjustment way is select by internal register DGC_EN bit. Figure 5.26: Gamma adjustments different of source driver with digital gamma correction Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.70May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.7.1 Gray Voltage Generator for Source Driver The HX8352-C01 incorporates gamma adjustment function for the 262,144-color display. Gamma adjustment operation is implemented by deciding the 8 grayscale levels firstly in gamma adjustment control registers to match the LCD panel. Then total 128 grayscale levels are generated in grayscale voltage generator. These registers are available for both polarities. Graphics RAM (GRAM) Positive Polarity Register R R R R R R GG G G GG B B B B B B 543210 543210 543210 VRP03 VRP02 VRP01 VRP00 VRP14 VRP13 VRP12 VRP11 VRP10 6 6 6 V0 6-bit Grayscale 6-bit Grayscale 6-bit Grayscale D/A Converter D/A Converter D/A Converter R G Output Driver RP00 RP 12 RP 11 RP 0 KP 02 KP 01 KP00 KP 12 KP 11 KP10 KP 22 KP 21 KP20 KP 32 KP 31 KP30 KP 42 KP 41 KP40 KP 52 KP 51 KP50 Negative Polarity Register Grayscale Voltage Output Driver RP 01 V1 Generator Output Driver RP 02 V63 B LCD VRN03 VRN02 VRN01 VRN00 VRN14 VRN13 VRN12 VRN11 VRN10 RN 02 RN01 RN00 RN 12 RN11 RN 0 KN 02 KN01 KN00 KN 12 KN11 KN10 KN 22 KN21 KN20 KN 32 KN31 KN30 KN 42 KN41 KN40 KN 52 KN51 KN50 Figure 5.27: Grayscale Control Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.71May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.7.1.1 Structure of Grayscale Voltage Generator Eight reference gamma voltages VgP/N(4, 9, 16, 28, 51, 63, 70, 75) for positive and negative polarity are specified by the center adjustment, the micro adjustment and the offset adjustment registers firstly. With those eight voltages injected into specified node of grayscale voltage generator, total 64 grayscale voltages (V0-V63) can be generated from grayscale amplifier for LCD panel used. Micro Adjust Register (6* 3 bits) VREG1 KP/N5 3 KP/N4 KP/N3 3 3 KP/N2 3 EEM Adjust Register KP/N1 KP/N0 3 VREP/N0 VREP/N1 VREP/N2 3 VgP0/VgN0 VgP4/VgN4 V0 8 to 1 select 8 to 1 select VRP/N0 Register VRP/N1 8 to 1 select RP/N0 Center Adjust VgP16/VgN16 V8 VgP28/VgN28 V20 Register RP/N1 8 to 1 select 5 V1 3 4 Offset Adjust VgP9/VgN9 VgP51/VgN51 Gray scale voltage generator V43 3 8 to 1 select 8 to 1 select VgP63/VgN63 VgP70/VgN70 VgP75/VgN75 V55 V62 V63 VgP79/VgN79 VGS Figure 5.28: Structure of Grayscale Voltage Generator Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.72May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Figure 5.29: Gamma Resister Steam and Reference Voltage Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.73May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.7.1.2 Gamma Characteristics Adjustment Register This HX8352-C01 has register groups for specifying a series grayscale voltage that meets the Gamma-characteristics for the LCD panel used. These registers are divided into two groups, which correspond to the gradient, amplitude, and macro adjustment of the voltage for the grayscale characteristics. The polarity of each register can be specified independently. (1) Offset adjustment registers The offset adjustment variable registers are used to adjust the amplitude of the grayscale voltage. This function is implemented by controlling these variable resisters in the top and bottom of the gamma resister stream for reference gamma voltage generation. These registers are available for both positive and negative polarities. (2) Gamma center adjustment registers The gamma center adjustment registers are used to adjust the reference gamma voltage in the middle level of grayscale without changing the dynamic range. This function is implemented by choosing one input of 8 to 1 selector in the gamma resister stream for reference gamma voltage generation. These registers are available for both positive and negative polarities. (3) Gamma macro adjustment registers The gamma macro adjustment registers can be used for fine adjustment of the reference gamma voltage. This function is implemented by controlling the 8-to-1 selectors (KP/N0~5), each of which has 8 inputs and generate one reference voltage output (VgP/N) 9, 16, 28, 51, 63, 70). These registers are available for both positive and negative polarities. Register Groups Center Adjustment Macro Adjustment Offset Adjustment Positive Polarity RP0 2-0 RP1 2-0 KP0 2-0 KP1 2-0 KP2 2-0 KP3 2-0 KP4 2-0 KP5 2-0 VRP0 3-0 VRP1 4-0 Negative Description Polarity RN0 2-0 Variable resistor (RCP/N0) for center adjustment RN1 2-0 Variable resistor (RCP/N1) for center adjustment KN0 2-0 8-to-1 selector (voltage level of grayscale 70) KN1 2-0 8-to-1 selector (voltage level of grayscale 63) KN2 2-0 8-to-1 selector (voltage level of grayscale 51) KN3 2-0 8-to-1 selector (voltage level of grayscale 28) KN4 2-0 8-to-1 selector (voltage level of grayscale 16) KN5 2-0 8-to-1 selector (voltage level of grayscale 9) VRN0 3-0 Variable resistor (ROP/N0) for offset adjustment VRN1 4-0 Variable resistor (ROP/N1) for offset adjustment Table 5.9: Gamma-Adjustment Registers Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.74May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Variable Resister There are three types of variable resistors, one is for center adjustment, one is for offset adjustment and the other one is for EEM adjustment. The resistances are decided by setting values in the center adjustment, offset adjustment and EEM adjustment registers. Their relationships are shown below. Value in Register VR(P/N)0 3-0 0000 0001 0010 • • 1101 1110 1111 Resistance RO(P/N)0 0R 2R 4R • • 26R 28R 30R Value in Register VR(P/N)1 4-0 00000 00001 00010 • • 11101 11110 11111 Resistance RO(P/N)1 0R 1R 2R • • 29R 30R 31R Table 5.10: Offset Adjustment Value in Register VRE(P/N)0 3-0 0000 0001 0010 • • 1101 1110 1111 Resistance RE(P/N)0 0R 1R 2R • • 13R 14R 15R Value in Register VRE(P/N)1 3-0 0000 0001 0010 • • 1101 1110 1111 Resistance RE(P/N)1 0R 1R 2R • • 13R 14R 15R Value in Register VRE(P/N)2 3-0 0000 0001 0010 • • 1101 1110 1111 Resistance RE(P/N)2 0R 1R 2R • • 13R 14R 15R Table 5.11: EEM Adjustment Value in Register R(P/N)0 2-0 000 001 010 • • 101 110 111 Resistance RC(P/N)0 0R 4R 8R • • 20R 24R 28R Value in Register R(P/N)1 2-0 000 001 010 • • 101 110 111 Resistance RC(P/N)1 0R 4R 8R • • 20R 24R 28R Table 5.12: Center Adjustment Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.75May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8 to 1 Selector The 8 to 1 selector has eight input voltages generated by gamma resister stream. It outputs one reference voltages selected from inputs for gamma reference voltage generation by setting value in macro adjustment register. These six 8 to 1 selectors and the relationship are shown below. Value in Register K(P/N) 2-0 000 001 010 011 100 101 110 111 Voltage level Vg(P/N) 9 Vg(P/N) 16 Vg(P/N) 28 Vg(P/N) 51 VP(N)1 VP(N)9 VP(N)17 VP(N)25 VP(N)2 VP(N)10 VP(N)18 VP(N)26 VP(N)3 VP(N)11 VP(N)19 VP(N)27 VP(N)4 VP(N)12 VP(N)20 VP(N)28 VP(N)5 VP(N)13 VP(N)21 VP(N)29 VP(N)6 VP(N)14 VP(N)22 VP(N)30 VP(N)7 VP(N)15 VP(N)23 VP(N)31 VP(N)8 VP(N)16 VP(N)24 VP(N)32 Table 5.13: Output Voltage of 8 to 1 Selector V(P/N) 63 VP(N)33 VP(N)34 VP(N)35 VP(N)36 VP(N)37 VP(N)38 VP(N)39 VP(N)40 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. V(P/N) 70 VP(N)41 VP(N)42 VP(N)43 VP(N)44 VP(N)45 VP(N)46 VP(N)47 VP(N)48 -P.76May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 The grayscale levels are determined by the following formulas Reference Voltage VgP79 VgP75 Macro Adjustment Value Formula Pin VgP4 KP5 2-0=111 KP5 2-0=110 KP5 2-0=101 KP5 2-0=100 KP5 2-0=011 KP5 2-0=010 KP5 2-0=001 KP5 2-0=000 KP4 2-0=111 KP4 2-0=110 KP4 2-0=101 KP4 2-0=100 KP4 2-0=011 KP4 2-0=010 KP4 2-0=001 KP4 2-0=000 KP3 2-0=111 KP3 2-0=110 KP3 2-0=101 KP3 2-0=100 KP3 2-0=011 KP3 2-0=010 KP3 2-0=001 KP3 2-0=000 KP2 2-0=111 KP2 2-0=110 KP2 2-0=101 KP2 2-0=100 KP2 2-0=011 KP2 2-0=010 KP2 2-0=001 KP2 2-0=000 KP1 2-0=111 KP1 2-0=110 KP1 2-0=101 KP1 2-0=100 KP1 2-0=011 KP1 2-0=010 KP1 2-0=001 KP1 2-0=000 KP0 2-0=111 KP0 2-0=110 KP0 2-0=101 KP0 2-0=100 KP0 2-0=011 KP0 2-0=010 KP0 2-0=001 KP0 2-0=000 - VP48 VP47 VP46 VP45 VP44 VP43 VP42 VP41 VP40 VP39 VP38 VP37 VP36 VP35 VP34 VP33 VP32 VP31 VP30 VP29 VP28 VP27 VP26 VP25 VP24 VP23 VP22 VP21 VP20 VP19 VP18 VP17 VP16 VP15 VP14 VP13 VP12 VP11 VP10 VP9 VP8 VP7 VP6 VP5 VP4 VP3 VP2 VP1 - VgP0 - VD*(8R /sumRP) + VGS VD*(8R+REP2+ROP1)/sumRP + VGS VD*(13R+REP2+ROP1)/sumRP + VGS VD*(17R+REP2+ROP1)/sumRP + VGS VD*(21R+REP2+ROP1)/sumRP + VGS VD*(25R+REP2+ROP1)/sumRP + VGS VD*(29R+REP2+ROP1)/sumRP + VGS VD*(33R+REP2+ROP1)/sumRP + VGS VD*(37R+REP2+ROP1)/sumRP + VGS VD*(41R+REP2+ROP1)/sumRP + VGS VD*(41R+REP2+ROP1+RCP1)/sumRP + VGS VD*(42R+REP2+ROP1+RCP1)/sumRP + VGS VD*(43R+REP2+ROP1+RCP1)/sumRP + VGS VD*(44R+REP2+ROP1+RCP1)/sumRP + VGS VD*(45R+REP2+ROP1+RCP1)/sumRP + VGS VD*(46R+REP2+ROP1+RCP1)/sumRP + VGS VD*(47R+REP2+ROP1+RCP1)/sumRP + VGS VD*(48R+REP2+ROP1+RCP1)/sumRP + VGS VD*(53R+REP2+ROP1+RCP1)/sumRP + VGS VD*(54R+REP2+ROP1+RCP1)/sumRP + VGS VD*(55R+REP2+ROP1+RCP1)/sumRP + VGS VD*(56R+REP2+ROP1+RCP1)/sumRP + VGS VD*(57R+REP2+ROP1+RCP1)/sumRP + VGS VD*(58R+REP2+ROP1+RCP1)/sumRP + VGS VD*(59R+REP2+ROP1+RCP1)/sumRP + VGS VD*(60R+REP2+ROP1+RCP1)/sumRP + VGS VD*(76R+REP2+ROP1+RCP1)/sumRP + VGS VD*(77R+REP2+ROP1+RCP1)/sumRP + VGS VD*(78R+REP2+ROP1+RCP1)/sumRP + VGS VD*(79R+REP2+ROP1+RCP1)/sumRP + VGS VD*(80R+REP2+ROP1+RCP1)/sumRP + VGS VD*(81R+REP2+ROP1+RCP1)/sumRP + VGS VD*(82R+REP2+ROP1+RCP1)/sumRP + VGS VD*(83R+REP2+ROP1+RCP1)/sumRP + VGS VD*(88R+REP2+ROP1+RCP1)/sumRP + VGS VD*(89R+REP2+ROP1+RCP1)/sumRP + VGS VD*(90R+REP2+ROP1+RCP1)/sumRP + VGS VD*(91R+REP2+ROP1+RCP1)/sumRP + VGS VD*(92R+REP2+ROP1+RCP1)/sumRP + VGS VD*(93R+REP2+ROP1+RCP1)/sumRP + VGS VD*(94R+REP2+ROP1+RCP1)/sumRP + VGS VD*(95R+REP2+ROP1+RCP1)/sumRP + VGS VD*(95R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(99R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(103R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(107R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(111R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(115R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(119R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(123R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(128R+REP2+ROP1+RCP1+RCP0)/sumRP + VGS VD*(128R+ REP2+ROP1+RCP1+RCP0+ROP0+REP1)/sumRP + VGS VgP70 VgP63 VgP51 VgP28 VgP16 VgP9 - sumRP = 128R + REP0 + REP1 + ROP0 + RCP0 + RCP1 + ROP1 + REP2 sumRN = 128R + REN0 + REN1 + RON0 + RCN0 + RCN1 + RON1 + REN2 VD=( VREG1 -VGS) Table 5.14: Voltage Calculation Formula (Positive Polarity) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.77May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Grayscale Voltage V0 V1 V2 V3 V4 V5 V6 V7 V8 V9 V10 V11 V12 V13 V14 V15 V16 V17 V18 V19 V20 V21 V22 V23 V24 V25 V26 V27 V28 V29 V30 V31 Formula VgP4 VgP9 (30/48)*(VgP9-VgP16) + VgP16 (23/48)*(VgP9-VgP16) + VgP16 (16/48)*(VgP9-VgP16) + VgP16 (12/48)*(VgP9-VgP16) + VgP16 (8/48)*(VgP9-VgP16) + VgP16 (4/48)*(VgP9-VgP16) + VgP16 VgP16 (22/24)*(VgP16-VgP28) + VgP28 (20/24)*(VgP16-VgP28) + VgP28 (18/24)*(VgP16-VgP28) + VgP28 (16/24)*(VgP16-VgP28) + VgP28 (14/24)*(VgP16-VgP28) + VgP28 (12/24)*(VgP16-VgP28) + VgP28 (10/24)*(VgP16-VgP28) + VgP28 (8/24)*(VgP16-VgP28) + VgP28 (6/24)*(VgP16-VgP28) + VgP28 (4/24)*(VgP16-VgP28) + VgP28 (2/24)*(VgP16-VgP28) + VgP28 VgP28 (22/23)*(VgP28-VgP51) + VgP51 (21/23)*(VgP28-VgP51) + VgP51 (20/23)*(VgP28-VgP51) + VgP51 (19/23)*(VgP28-VgP51) + VgP51 (18/23)*(VgP28-VgP51) + VgP51 (17/23)*(VgP28-VgP51) + VgP51 (16/23)*(VgP28-VgP51) + VgP51 (15/23)*(VgP28-VgP51) + VgP51 (14/23)*(VgP28-VgP51) + VgP51 (13/23)*(VgP28-VgP51) + VgP51 (12/23)*(VgP28-VgP51) + VgP51 Grayscale Voltage V32 V33 V34 V35 V36 V37 V38 V39 V40 V41 V42 V43 V44 V45 V46 V47 V48 V49 V50 V51 V52 V53 V54 V55 V56 V57 V58 V59 V60 V61 V62 V63 Formula (11/23)*(VgP28-VgP51) + VgP51 (10/23)*(VgP28-VgP51) + VgP51 (9/23)*(VgP28-VgP51) + VgP51 (8/23)*(VgP28-VgP51) + VgP51 (7/23)*(VgP28-VgP51) + VgP51 (6/23)*(VgP28-VgP51) + VgP51 (5/23)*(VgP28-VgP51) + VgP51 (4/23)*(VgP28-VgP51) + VgP51 (3/23)*(VgP28-VgP51) + VgP51 (2/23)*(VgP28-VgP51) + VgP51 (1/23)*(VgP28-VgP51) + VgP51 VgP51 (22/24)*(VgP51-VgP63) + VgP63 (20/24)*(VgP51-VgP63) + VgP63 (18/24)*(VgP51-VgP63) + VgP63 (16/24)*(VgP51-VgP63) + VgP63 (14/24)*(VgP51-VgP63) + VgP63 (12/24)*(VgP51-VgP63) + VgP63 (10/24)*(VgP51-VgP63) + VgP63 (8/24)*(VgP51-VgP63) + VgP63 (6/24)*(VgP51-VgP63) + VgP63 (4/24)*(VgP51-VgP63) + VgP63 (2/24)*(VgP51-VgP63) + VgP63 VgP63 (44/48)*(VgP63-VgP70) + VgP70 (40/48)*(VgP63-VgP70) + VgP70 (36/48)*(VgP63-VgP70) + VgP70 (32/48)*(VgP63-VgP70) + VgP70 (25/48)*(VgP63-VgP70) + VgP70 (18/48)*(VgP63-VgP70) + VgP70 VgP70 VgP75 Table 5.15: Voltage Calculation Formula of Grayscale Voltage (Positive Polarity) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.78May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Reference Voltage VgN79 VgN75 Macro Adjustment Value Formula Pin VgN4 KN5 2-0=111 KN5 2-0=110 KN5 2-0=101 KN5 2-0=100 KN5 2-0=011 KN5 2-0=010 KN5 2-0=001 KN5 2-0=000 KN4 2-0=111 KN4 2-0=110 KN4 2-0=101 KN4 2-0=100 KN4 2-0=011 KN4 2-0=010 KN4 2-0=001 KN4 2-0=000 KN3 2-0=111 KN3 2-0=110 KN3 2-0=101 KN3 2-0=100 KN3 2-0=011 KN3 2-0=010 KN3 2-0=001 KN3 2-0=000 KN2 2-0=111 KN2 2-0=110 KN2 2-0=101 KN2 2-0=100 KN2 2-0=011 KN2 2-0=010 KN2 2-0=001 KN2 2-0=000 KN1 2-0=111 KN1 2-0=110 KN1 2-0=101 KN1 2-0=100 KN1 2-0=011 KN1 2-0=010 KN1 2-0=001 KN1 2-0=000 KN0 2-0=111 KN0 2-0=110 KN0 2-0=101 KN0 2-0=100 KN0 2-0=011 KN0 2-0=010 KN0 2-0=001 KN0 2-0=000 - VN48 VN47 VN46 VN45 VN44 VN43 VN42 VN41 VN40 VN39 VN38 VN37 VN36 VN35 VN34 VN33 VN32 VN31 VN30 VN29 VN28 VN27 VN26 VN25 VN24 VN23 VN22 VN21 VN20 VN19 VN18 VN17 VN16 VN15 VN14 VN13 VN12 VN11 VN10 VN9 VN8 VN7 VN6 VN5 VN4 VN3 VN2 VN1 - VgN0 - VD*(8R /sumRN) + VGS VD*(8R+REN2+RON1)/sumRN + VGS VD*(13R+REN2+RON1)/sumRN + VGS VD*(17R+REN2+RON1)/sumRN + VGS VD*(21R+REN2+RON1)/sumRN + VGS VD*(25R+REN2+RON1)/sumRN + VGS VD*(29R+REN2+RON1)/sumRN + VGS VD*(33R+REN2+RON1)/sumRN + VGS VD*(37R+REN2+RON1)/sumRN + VGS VD*(41R+REN2+RON1)/sumRN + VGS VD*(41R+REN2+RON1+RCN1)/sumRN + VGS VD*(42R+REN2+RON1+RCN1)/sumRN + VGS VD*(43R+REN2+RON1+RCN1)/sumRN + VGS VD*(44R+REN2+RON1+RCN1)/sumRN + VGS VD*(45R+REN2+RON1+RCN1)/sumRN + VGS VD*(46R+REN2+RON1+RCN1)/sumRN + VGS VD*(47R+REN2+RON1+RCN1)/sumRN + VGS VD*(48R+REN2+RON1+RCN1)/sumRN + VGS VD*(53R+REN2+RON1+RCN1)/sumRN + VGS VD*(54R+REN2+RON1+RCN1)/sumRN + VGS VD*(55R+REN2+RON1+RCN1)/sumRN + VGS VD*(56R+REN2+RON1+RCN1)/sumRN + VGS VD*(57R+REN2+RON1+RCN1)/sumRN + VGS VD*(58R+REN2+RON1+RCN1)/sumRN + VGS VD*(59R+REN2+RON1+RCN1)/sumRN + VGS VD*(60R+REN2+RON1+RCN1)/sumRN + VGS VD*(76R+REN2+RON1+RCN1)/sumRN + VGS VD*(77R+REN2+RON1+RCN1)/sumRN + VGS VD*(78R+REN2+RON1+RCN1)/sumRN + VGS VD*(79R+REN2+RON1+RCN1)/sumRN + VGS VD*(80R+REN2+RON1+RCN1)/sumRN + VGS VD*(81R+REN2+RON1+RCN1)/sumRN + VGS VD*(82R+REN2+RON1+RCN1)/sumRN + VGS VD*(83R+REN2+RON1+RCN1)/sumRN + VGS VD*(88R+REN2+RON1+RCN1)/sumRN + VGS VD*(89R+REN2+RON1+RCN1)/sumRN + VGS VD*(90R+REN2+RON1+RCN1)/sumRN + VGS VD*(91R+REN2+RON1+RCN1)/sumRN + VGS VD*(92R+REN2+RON1+RCN1)/sumRN + VGS VD*(93R+REN2+RON1+RCN1)/sumRN + VGS VD*(94R+REN2+RON1+RCN1)/sumRN + VGS VD*(95R+REN2+RON1+RCN1)/sumRN + VGS VD*(95R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(99R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(103R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(107R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(111R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(115R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(119R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(123R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(128R+REN2+RON1+RCN1+RCN0)/sumRN + VGS VD*(128R+ REN2+RON1+RCN1+RCN0+RON0+REN1)/sumRN + VGS VgN70 VgN63 VgN51 VgN28 VgN16 VgN9 - sumRP = 128R + REP0 + REP1 + ROP0 + RCP0 + RCP1 + ROP1 + REP2 sumRN = 128R + REN0 + REN1 + RON0 + RCN0 + RCN1 + RON1 + REN2 VD=( VREG1 -VGS) Table 5.16: Voltage Calculation Formula (Negative Polarity) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.79May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Grayscale Voltage V0 V1 V2 V3 V4 V5 V6 V7 V8 V9 V10 V11 V12 V13 V14 V15 V16 V17 V18 V19 V20 V21 V22 V23 V24 V25 V26 V27 V28 V29 V30 V31 Formula VgN4 VgN9 (30/48)*(VgN9-VgN16) + VgN16 (23/48)*(VgN9-VgN16) + VgN16 (16/48)*(VgN9-VgN16) + VgN16 (12/48)*(VgN9-VgN16) + VgN16 (8/48)*(VgN9-VgN16) + VgN16 (4/48)*(VgN9-VgN16) + VgN16 VgN16 (22/24)*(VgN16-VgN28) + VgN28 (20/24)*(VgN16-VgN28) + VgN28 (18/24)*(VgN16-VgN28) + VgN28 (16/24)*(VgN16-VgN28) + VgN28 (14/24)*(VgN16-VgN28) + VgN28 (12/24)*(VgN16-VgN28) + VgN28 (10/24)*(VgN16-VgN28) + VgN28 (8/24)*(VgN16-VgN28) + VgN28 (6/24)*(VgN16-VgN28) + VgN28 (4/24)*(VgN16-VgN28) + VgN28 (2/24)*(VgN16-VgN28) + VgN28 VgN28 (22/23)*(VgN28-VgN51) + VgN51 (21/23)*(VgN28-VgN51) + VgN51 (20/23)*(VgN28-VgN51) + VgN51 (19/23)*(VgN28-VgN51) + VgN51 (18/23)*(VgN28-VgN51) + VgN51 (17/23)*(VgN28-VgN51) + VgN51 (16/23)*(VgN28-VgN51) + VgN51 (15/23)*(VgN28-VgN51) + VgN51 (14/23)*(VgN28-VgN51) + VgN51 (13/23)*(VgN28-VgN51) + VgN51 (12/23)*(VgN28-VgN51) + VgN51 Grayscale Voltage V32 V33 V34 V35 V36 V37 V38 V39 V40 V41 V42 V43 V44 V45 V46 V47 V48 V49 V50 V51 V52 V53 V54 V55 V56 V57 V58 V59 V60 V61 V62 V63 Formula (11/23)*(VgN28-VgN51) + VgN51 (10/23)*(VgN28-VgN51) + VgN51 (9/23)*(VgN28-VgN51) + VgN51 (8/23)*(VgN28-VgN51) + VgN51 (7/23)*(VgN28-VgN51) + VgN51 (6/23)*(VgN28-VgN51) + VgN51 (5/23)*(VgN28-VgN51) + VgN51 (4/23)*(VgN28-VgN51) + VgN51 (3/23)*(VgN28-VgN51) + VgN51 (2/23)*(VgN28-VgN51) + VgN51 (1/23)*(VgN28-VgN51) + VgN51 VgN51 (22/24)*(VgN51-VgN63) + VgN63 (20/24)*(VgN51-VgN63) + VgN63 (18/24)*(VgN51-VgN63) + VgN63 (16/24)*(VgN51-VgN63) + VgN63 (14/24)*(VgN51-VgN63) + VgN63 (12/24)*(VgN51-VgN63) + VgN63 (10/24)*(VgN51-VgN63) + VgN63 (8/24)*(VgN51-VgN63) + VgN63 (6/24)*(VgN51-VgN63) + VgN63 (4/24)*(VgN51-VgN63) + VgN63 (2/24)*(VgN51-VgN63) + VgN63 VgN63 (44/48)*(VgN63-VgN70) + VgN70 (40/48)* (VgN63-VgN70) + VgN70 (36/48)* (VgN63-VgN70) + VgN70 (32/48)* (VgN63-VgN70) + VgN70 (25/48)* (VgN63-VgN70) + VgN70 (18/48)* (VgN63-VgN70) + VgN70 VgN70 VgN75 Table 5.17: Voltage Calculation Formula of Grayscale Voltage (Negative Polarity) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.80May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.7.1.3 Relationship between data and output voltages Figure 5.30: Relationship between source output and Vcom V0 Output Level Positive polarity Negative polarity V63 000000 RAM Data 111111 (Same characteristic for each RGB) Figure 5.31: Relationship between data and output level, REV =0, normal white Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.81May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.7.2 Gray Voltage Generator for Digital Gamma Correction Gary-scale luminance of B Gary-scale luminance of G Gary-scale luminance of R The HX8352-C01 digital gamma correction can reach the independent GAMMA curve of RGB. HX8352-C01 utilizes DGC_LUT (Digital Gamma Correction Look Up Table) to change input data from 6-bit into 8-bit and sends 8-bit data to Dithering circuit, and then drive Source Driver via Dithering circuit. The following of the block diagram of the function. Figure 5.32: Block Diagram of Digital Gamma Correction The HX8352-C01 builds one 99-bytes DGC_LUT (Digital Gamma Correction Look Up Table) to transfer every display data of Dithering circuit input and setting by DGC_LUT register. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.82May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 LUT st 1 nd 2 rd 3 : : nd 32 rd 33 th 34 th 35 th 36 : : th 65 th 66 th 67 th 68 th 69 : : th 98 th 99 D7 R007 R017 R027 : : R317 R327 G007 G017 G027 : : G317 G327 B007 B017 B027 : : B317 B327 D6 R006 R016 R026 : : R316 R326 G006 G016 G026 : : G316 G326 B006 B016 B026 : : B316 B326 D5 R005 R015 R025 : : R315 R325 G005 G015 G025 : : G315 G325 B005 B015 B025 : : B315 B325 D4 R004 R014 R024 : : R314 R324 G004 G014 G024 : : G314 G324 B004 B014 B024 : : B314 B324 D3 D2 D1 R003 R002 R001 R013 R012 R011 R023 R022 R021 : : : : : : R313 R312 R311 R323 R322 R321 G003 G002 G001 G013 G012 G011 G023 G022 G021 : : : : : : G313 G312 G311 G323 G322 G321 B003 B002 B001 B013 B012 B011 B023 B022 B021 : : : : : : B313 B312 B311 B323 B322 B321 Table 5.18: DGC LUT D0 Default R000 00h R010 08h R020 10h : : : : R310 F8h R320 FCh G000 00h G010 08h G020 10h : : : : G310 F8h G320 FCh B000 00h B010 08h B020 10h : : : : B310 F8h B320 FCh Gray Mapping R_V0 R_V2 R_V4 : : R_V62 R_V63 G_V0 G_V2 G_V4 : : G_V62 G_V63 B_V0 B_V2 B_V4 : : B_V62 B_V63 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.83May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.8 Characteristics of I/O 5.8.1 Output or bi-directional (I/O) pins Output or bi-directional pins TE CABC_PWM_OUT LEDON DB17 to DB0 (Output driver) SDI_SDA SDO After power on After hardware reset After software reset Low Low Low Low Low Low Low Low Low High-Z (Inactive) High-Z (Inactive) High-Z (Inactive) High-Z (Inactive) High-Z (Inactive) High-Z (Inactive) High-Z (Inactive) High-Z (Inactive) High-Z (Inactive) Table 5.19: Characteristics of output or bi-directional (I/O) pins 5.8.2 Input pins Input pins NRESET NCS DNC NWR_SCL NRD DB17 to DB0 SDI_SDA HSYNC VSYNC PCLK DE OSC, IFSEL, IM2, IM1, IM0, TEST2-1 Input valid Input valid Input valid Input valid Input valid After hardware reset Input valid Input valid Input valid Input valid Input valid After software reset Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Input valid Low Low During power on process After power on Setion.5.10 Input valid Input valid Input valid Input valid Low Low Low Table 5.20: Characteristics of input pins During power off process Setion.5.10 Input valid Input valid Input valid Input valid Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.84May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.9 Power on/off sequence IOVCC and VCI can be applied in any order. IOVCC and VCI can be powered down in any order. During power off, if LCD is in the Sleep Out mode, IOVCC must be powered down minimum 120msec after NRESET has been released. During power off, if LCD is in the Standby mode, IOVCC and VCI can be powered down minimum 0msec after NRESET has been released. NCS can be applied at any timing or can be permanently grounded. NRESET has priority over NCS. There will be no damage to the display module if the power sequences are not met. There will be no abnormal visible effects on the display panel during the Power On/Off Sequences. There will be no abnormal visible effects on the display between end of Power On Sequence and before receiving STB Out command. Also between receiving STB In command and Power Off Sequence. If NRESET line is not held stable by host during Power On Sequence as defined in Sections 5.9.1 and 5.9.2, then it will be necessary to apply a Hardware Reset (NRESET) after Host Power On Sequence is complete to ensure correct operation. Otherwise function is not guaranteed. The power on/off sequence is illustrated below. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.85May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.9.1 Case 1: NRESET line is held high or unstable by host at power on If NRESET line is held high or unstable by the host during power on, then a Hardware Reset must be applied after both IOVCC and VCI have been applied- otherwise correct functionality is not guaranteed. There is no timing restriction upon this hardware reset. tRPW= +/- no limit tFPW= +/- no limit IOVCC VCI Time when the latter signal rises up to 90% of its typical value. Ex. When VCI comes latter. This time is defined at the cross point of 90% of 2.5V/2.75V. Time when the former signal falls down to 90% of its typical value. Ex. When VCI falls earilier. This time is defined at the cross point of 90% of 2.5V/2.75V. tRPWICS= +/- no limit NCS tFPWICS= +/- no limit H or L tRPWIRES= + no limit tFPWIRES1= min 120ms NRESET (Power down in standby out mode) tRPWIRES= + no limit NRESET (Power down in standby in mode) tFPWIRES2= min 0ns tFPWIRES1 is applied to NRESET falling in the Standby Out Mode tFPWIRES2 is applied to NRESET falling in the Standby In Mode Figure 5.33: Case 1: NRESET line is held high or unstable by host at power on Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.86May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.9.2 Case 2: NRESET line is held low by host at power on If NRESET line is held low (and stable) by the host during power on, then the NRESET must be held low for minimum 10µsec after both IOVCC and VCI have been applied. tRPW= +/- no limit tFPW= +/- no limit IOVCC VCI Time when the latter signal rises up to 90% of its typical value. Ex. When VCI comes latter. This time is defined at the cross point of 90% of 2.5V/2.75V. Time when the former signal falls down to 90% of its typical . value. Ex. When VCI falls earlier. This time is defined at the cross point of 90% of 2.5V/2.75V. tRPWNCS= +/- no limit tRPWNCS= +/- no limit NCS H or L tFPWNRES1= min120ms tRPWNRES = min10us NRESET ( Power down in Standby Out mode ) tRPWNRES= min10us NRESET tFPWNRES 2 = min0ns ( Power down in Standby In mode) tFPWNRES1 is applied to NREST falling in the Standby Out Mode tFPWNRES2 is applied to NREST falling in the Standby In Mode : Figure 5.34: Case 2: NRESET line is held low by host at power on Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.87May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.10 Uncontrolled power off The uncontrolled power off means a situation when e.g. there is removed a battery without the controlled power off sequence. There will not be any damages for the display module or the display module will not cause any damages for the host or lines of the interface. At an uncontrolled power off the display will go blank and there will not be any visible effects within 1 second on the display (blank display) and remains blank until “Power On Sequence” powers it up. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.88May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.11 Power On/Off Sequence The following are the sequences of register setting flow that applied to this driver driving the TFT display, when operate in Register-Content interface mode. Display On/Off Set flow Figure 5.35: Display On/Off Set flow Standby Mode Set up Flow Figure 5.36: Standby Mode Setting flow Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.89May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Deep Standby Mode Set up Flow Deep Standby Display off flow Set standby (STB = "1") Set deep standby (DP_STB_S = "1") Set deep standby Set deep standby (DP_STB = "1") Stop oscillation (OSC_EN = "0") Start oscillation (OSC_EN = "1") Set deep standby (DP_STB = "0") Wait >20ms Set deep standby (DP_STB_S = "0") Release deep standby Release from deep standby (STB = "0") Power supply setting Display on flow Figure 5.37: Deep Standby Mode Setting flow Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.90May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Power On/Off Setting up Flow Figure 5.38: Power Supply Setting Flow Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.91May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.12 Content adaptive brightness control (CABC) function The general block diagram of the CABC and the brightness control is illustrated below: External VSYNC, HSYNC, DE, PCLK (RGB interface) Display Control Signal Generator Display Data Generator Image data Display Data Contents Analysis C[1:0]= ‘00’ à off C[1:0]= ‘01’, ‘10’, ‘11’ à on CABC Gain / Duty CABC Block DBV[7:0] (BL=0) PWM_CLK (FoscD) PWM Clock Devider Brightness Control Block BC (BL=1) CABC[1:0] SAVEPOWER[6:0] DBG0~8[6:0] PWMDIV[2:0] DBV[7:0] BCTRL, BL, CMB[7:0]) INVPLUS SEL_BLDUTY PWM_PERIOD Figure 5.39: CABC block diagram Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.92May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.12.1 Module architectures HX8352-C01 can support two module architectures for CABC operation. The BL bit setting of R53h can be used to select used display module architecture. White LED driver circuit for display backlight is located on the main PWB, not in the display module both in architecture I and II. • Architecture I • Architecture II Figure 5.40: Module architecture Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.93May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.12.2 CABC block There are DBG0~8[6:0] register bits in CABC block to define the “CABC gain”/ “CABC duty” table. Every DBGx[6:0] has 33 gain/duty value setting. After one-frame display data content analysis, LSI will generate one CABC gain / CABC duty value calculated from DBG0~8[6:0] register bits setting (by using interpolated method) for display data generating and for backlight PWM pulse generating. Please note that the CABC gain / CABC duty value calculated by the LSI is one of the 33 gain/duty value setting in DBGxx[6:0]. Please note that : Duty ( valid level period (LED on) / one complete period)=1/ gain. DBG0 Gain curve DBG1 DBG2 DBG3 DBG4 Gain DBG5 SAVEPOWER DBG6 DBG7 DBG8 0 32 64 96 128 160 192 224 256 One frame display data content analysis Figure 5.41: CABC gain / CABC duty generation For power saving of backlight module, there are SAVEPOWER[6:0] bits to define the “minimum gain”/ “maximum duty” of CABC block output. If the CABC gain / duty after one-frame display data contents analysis is smaller(gain) / larger(duty) than SAVEPOWER[6:0] bits setting, the CABC block will output CABC gain / duty equal to SAVEPOWER[6:0] and ignore the result of display data contents analysis. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.94May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.12.3 Brightness control block There is an external output signal(CABC_PWM_OUT) from brightness block to control the LED driver IC in order to control display brightness. There are resister bits DBV[7:0] for display brightness of manual brightness setting. The CABC_PWM_OUT output duty is calculated as (DBV[7:0])/255 x CABC duty (generated after one-frame display data content analysis). For ex: CABC_PWM_OUT output period=2.95 ms, and DBV[7:0](R51h)=‘228DEC’ and CABC duty is 74.42%. Then CABC_PWM_OUT output duty=(228) / 255 x 74.42%≡66.54%. Correspond to the CABC_PWM_OUT output period=2.95 ms, the high-level of CABC_PWM_OUT output (high effective) = 1.96ms, and the low-level of BC output =0.99ms. One Period ON CABC_ PWM_OUT (INVPLUS=`1`) Display Brightness OFF Duty = 100% OFF Duty = 100% Maximum Duty = 33% Duty = 66.54% Figure 5.42: CABC_PWM_OUT output duty Symbol tpw Parameter Min. Max. Pulse width 0.0333 8.33 Table 5.21: CABC timing table Unit ms Description - Note1: The signal rise and fall times (tf, tr) are stipulated to be equal to or less than 15ns. Note2: The pulse width range by setting CABC related registers is locate between 0.0333ms to 8.33ms. When Architecture II module is used (BL=’0’) with the example below, the CABC_PWM_OUT is always output low and the DBV[7:0] will be read a value as 169DEC ((169)/255≡ 66.27%). Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.95May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.12.4 Minimum brightness setting of CABC function CABC function is automatically reduced backlight brightness based on image contents. In the case of the combination with the CABC or manual brightness setting, display brightness is too dark. It must affect to image quality degradation. CABC minimum brightness setting (CMB[7:0] bits) is to avoid too much brightness reduction. When CABC is active, CABC can not reduce the display brightness to less than CABC minimum brightness setting. Image processing function is worked as normal, even if the brightness can not be changed. This function does not affect to the other function, manual brightness setting. Manual brightness can be set the display brightness to less than CABC minimum brightness. Smooth transition and dimming function can be worked as normal. When display brightness is turned off (BCTRL=’0’), CABC minimum brightness setting is ignored. “CMB[7:0], Read CABC minimum brightness“ always read the setting value of “CMB[7:0], Write CABC minimum brightness” Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.96May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.13 OTP programing 5.13.1 OTP table PA 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F 20 21 22 23 24 25 26 27 28 29 2A 2B 2C 2D 2E 2F 30 31 32 33 34 35 36 37 38 D7 nValid_ID8 nValid_VCM1 D6 nValid_ID7 D5 nValid_ID6 D4 D3 ID1[7:0] ID2[7:0] ID3[7:0] ID1[7:0] ID2[7:0] ID3[7:0] ID1[7:0] ID2[7:0] ID3[7:0] ID1[7:0] ID2[7:0] ID3[7:0] ID1[7:0] ID2[7:0] ID3[7:0] ID1[7:0] ID2[7:0] ID3[7:0] ID1[7:0] ID2[7:0] ID3[7:0] ID1[7:0] ID2[7:0] ID3[7:0] nValid_ID5 nValid_ID4 VCM[6:0] No used D0 nValid_ID3 nValid_ID2 nValid_ID1 VCM[6:0] No used VDV[4:0] nValid_VCM3 VCM[6:0] No used VDV[4:0] nValid_VCM4 VCM[6:0] No used VDV[4:0] nValid_VCM5 VCM[6:0] No used VDV[4:0] nValid_VCM6 VCM[6:0] No used VDV[4:0] nValid_VCM7 VCM[6:0] No used VDV[4:0] nValid_VCM8 No used No used No used No used D1 VDV[4:0] nValid_VCM2 nValid_PANEL nValid_GAM No used No used No used D2 VCM[6:0] No used No used KP1[2:0] KP3[2:0] KP5[2:0] RP1[2:0] No used No used KN1[2:0] KN3[2:0] KN5[2:0] RN1[2:0] No used No used VREP1[3:0] VREN0[3:0] VREN2[3:0] REV SM No used No used No used No used No used No used No used No used VDV[4:0] GS BGR KP0[2:0] KP2[2:0] KP4[2:0] RP0[2:0] VRP0[3:0] VRP1[4:0] KN0[2:0] KN2[2:0] KN4[2:0] RN0[2:0] VRN0[3:0] VRN1[4:0] VREP0[3:0] VREP2[3:0] VREN1[3:0] SS Command Set - Note: (1) The same color means the same nVALID bit controlled. When OTP Index programmed, the related nVALID bit will be programmed to “0” automatically. If the nVALID bit programmed to “0”, the OTP value will be reload to related register after HW reset or SLPOUT command. (2) If want to program ID1~ID3, it just need to program Index 00h (ID2 and ID3 will be programmed automatically). If ID had be programmed, it also need to program Index 00h when second to eighth times programming(it will Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.97May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 be programmed to corresponding Index automatically). (3) If want to program VCOM, it just need to program Index 19h (VDV will be programmed automatically). If VCOM had be programmed, it also need to program Index 19h when second to eighth times programming(it will be programmed to corresponding Index automatically). Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.98May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.13.2 OTP programming flow Sleep Out Set SLPOUT Write OTP data to the related register OTP program enable Set OTP_KEY[7:0]=8'hAA OTP Programming Set OTP Address Set OTP_ MASK [7:0] Set OTP_ INDEX [7:0] Set VPP_SEL=1 Wait 1us Set VPP_EN=1 Wait 1us OTP program start Set OTP_ PROG = 1 Wait for programming Wait 10ms OTP_PROG=0, VPP_EN=0, VPP_SEL=0 ( Automatically set by LSI) OTP program disable Set OTP_KEY[7:0]=8'h55 Figure 5.43: OTP programming sequence Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.99May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5.13.3 Programming sequence Step 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Operation Power on and reset the module. SLPOUT Set VPP power to 7.5V for OTP programming state. Write optimized values to related registers. Set OTP_KEY[7:0] (REBh)=0xAAh to enter OTP program mode. Specify OTP_INDEX, please refer to the OTP table. Set OTP_MASK[7:0]=0x00h, programming the entire bit of one parameter. Set VPP_SEL=1 Wait 1 us Set VPP_EN=1 Wait 1 us Set OTP_PROG=1, Internal register begin write to OTP according to OTP_INDEX. Wait 10 ms Complete programming one parameter to OTP. If continue to programming other parameter, return to step (6). Otherwise, set OTP_KEY[7:0] (RBBh)=0x55h to leave OTP program mode and power off the module. Table 5.22: OTP Programming sequence Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.100May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6. Command 6.1 Command list Register No. R00h Register Upper W/R Code D[17:8] Lower Code D7 D6 D5 D4 D3 D2 D1 D0 0 DSTB( 0) 1 1 1 - - - 0 SCROLL (0) 0 IDMON (0) 1 INVON (0) 0 PTLON (0) R17h R18h Himax ID Display Mode control Column address start 2 Column address start 1 Column address end 2 Column address end 1 Row address start 2 Row address start 1 Row address end 2 Row address end 1 Partial area start row 2 Partial area start row 1 Partial area end row 2 Partial area end row 1 Vertical Scroll Top fixed area 2 Vertical Scroll Top fixed area 1 Vertical Scroll height area 2 Vertical Scroll height area 1 Vertical Scroll Button area 2 Vertical Scroll Button area 1 Vertical Scroll Start address 2 Vertical Scroll Start address 1 Memory Access control COLMOD OSC Control 2 R19h OSC Control 1 W/R - - - - - - R1Ah Power Control 1 W/R - - - - - R1Bh Power Control 2 W/R - - - R1Ch Power Control 3 W/R - - - Power Control 5 W/R - VCOMG (0) - R1Fh VCIRE( 1) GASEN (1) - PON(0) DK(1) R22h SRAM Write Control W/R R01h R02h R03h R04h R05h R06h R07h R08h R09h R0Ah R0Bh R0Ch R0Dh R0Eh R0Fh R10h R11h R12h R13h R14h R15h R16h Default Value R - W/R - W/R - SC[15:8] (8'b0000_0000) 0x00 W/R - SC[7:0] (8'b0000_0000) 0x00 W/R - EC[15:8] (8'b0000_0000) 0x00 W/R - EC[7:0] (8'b1110_1111) 0xEF W/R - SP[15:8] (8'b0000_0000) 0x00 W/R - SP[7:0] (8'b0000_00000) 0x00 W/R - EP[15:8] (8'b0000_0001) 0x01 W/R - EP[7:0] (8'b1010_1111) 0xAF W/R - PSL[15:8] (8'b0000_0000) 0x00 W/R - PSL[7:0] (8'b0000_00000) 0x00 W/R - PEL[15:8] (8'b0000_0001) 0x01 W/R - PEL[7:0] (8'b1010_1111) 0xAF W/R - TFA[15:8] (8'b0000_0000) 0x00 W/R - TFA[7:0] (8'b0000_0000) 0x00 W/R - VSA[15:8] (8'b0000_0001) 0x01 W/R - VSA[7:0] (8'b1011_0000) 0xB0 W/R - BFA[15:8] (8'b0000_0000) 0x00 W/R - BFA [7:0] (8'b0000_0000) 0x00 W/R - VSP [15:8] (8'b0000_0000) 0x00 W/R - VSP [7:0] (8'b0000_0000) 0X00 W/R - MY(0) MX(0) W/R W/R - - - MV(0) ML(0) BGR(0) CSEL[2:0] (3b’110) - - - - - IFPF[2:0] (3b’110) RADJ[2:0](4b’0100) OSC_E N(0) BT[2:0] (100) VRH[4:0] (0_1100) VCOM Control 1 W/R - - - - R24h R25h R26h VCOM Control 2 VCOM Control 3 Display Control 1 W/R W/R W/R - - - - - 0x00 0x00 0x66 0x04 0x00 0x04 0x8C AP[2:0] (011) DDVDH_ XDK(0) STB(1) TRI(0) SRAM Write R23h 0x72 0x03 0x89 - - - - VCM[6:0](100_0000) VDV[4:0](0_1111) PTG(0) ISC[3:0](0001) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. SELVC M(0) 0x00 0x40 0x0F 0x01 -P.101May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Register No. Register Upper W/R Code D[17:8] Lower Code D7 D6 D5 D4 D3 R27h R28h R29h R2Ah Display Control 2 Display Control 3 Display Control 4 Display Control 5 W/R W/R W/R W/R - - - GON(1) DTE(0) - R2Bh Display Control 6 W/R - - - - - - R2Ch R2Dh R2Eh Display Control 7 Cycle Control 1 Cycle Control 2 RGB interface control 1 RGB interface control 2 RGB interface control 3 RGB interface control 4 W/R W/R W/R - - - SDT[2:0](000) - W/R - - - - RM(0) - - W/R - SDA_ EN(0) - - VSPL (0) HSPL (0) - W/R - W/R - R31h R32h R33h R34h D2 D1 D0 - REF(1) - D[1:0] (00) NL[5:0](6’b11_0001) SCN[6:0](000_0000) - 0x01 0x20 0x31 0x00 PTS[1:0](00) 0x00 DIVE[1:0](10) NOW[2:0](110) NW[5:0](00_0000) 0x02 0x06 0x00 DM[1:0](00) EPL(1) DPL(0) HBP[7:0](8’b0000_1000) HBP[9:8](2’b00) Default Value 0x00 0x02 0x08 VBP[5:0](6’b00_0100) 0x04 REV_P SM_P GS_PAN BGR_PA SS_PA ANEL ANEL EL(0)l NEL(0) NEL (0) (0) (0) OTP_MASK[7:0] (8’h00) OTP_INDEX[7:0] (8’h00) VPP_EN OTP_POR( OTP_PW OTP_PTM[1:0] VPP_SEL OTP_PR (0) 0) E(0) (00) (0) OG(0) OTP_DATA[7:0] DBV[7:0] (8’h00) BCTRL DD(0) BL(0) (0) CACB[1:0] (00) CMB[7:0] (8’h00) KP1[2:0](100) KP0[2:0](100) KP3[2:0](100) KP2[2:0](100) KP5[2:0](100) KP4[2:0](100) RP1[2:0](100) RP0[2:0](100) VRP0[3:0] VRP1[4:0] KN1[2:0](100) KN0[2:0](100) KN3[2:0](100) KN2[2:0](100) KN5[2:0](100) KN4[2:0](100) RN1[2:0](100) RN0[2:0](100) 0x08 VRN1[3:0] VREP1[3:0] VREP0[3:0] VREN0[3:0] VREP2[3:0] VREN2[3:0] VREN1[3:0] TE_MO TEON DE(0) (0) ID1[7:0](8’h00) ID2[7:0](8’h00) ID3[7:0](8’h00) WEMODE (1) TEI[2:0](000) DENC[2:0](000) R36h Panel Characteristic W/R - R38h R39h OTP Control 1 OTP Control 2 W/R W/R - R3Ah OTP Control 3 W/R - R3Bh R3Ch OTP Control 4 CABC Control 1 R W/R - R3Dh CABC Control 2 W/R - - R3Eh R3Fh R40h R41h R42h R43h R44h R45h R46h R47h R48h R49h R4Ah R4Bh R4Ch R4Dh R4Eh CABC Control 3 CABC Control 4 Gamma Control 1 Gamma Control 2 Gamma Control 3 Gamma Control 4 Gamma Control 5 Gamma Control 6 Gamma Control 7 Gamma Control 8 Gamma Control 9 Gamma Control 10 Gamma Control 11 Gamma Control 12 Gamma Control 13 Gamma Control 14 Gamma Control 15 W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R - - R60h TE Control W/R - R61h R62h R63h ID1 ID2 ID3 Memory Write Control TE Interval Control RGB SRAM Cycle Data Format Control Frame Rate Control 1 Frame Rate Control 2 Frame Rate Control 3 Frame Rate Control 4 Frame Rate Control 5 Frame Rate Control 6 W/R W/R W/R - W/R - - W/R W/R - - W/R - - - EPF[1:0](10) - - W/R - - - - - - W/R - - - - W/R - BP0[7:0](8’h02) 0x02 W/R - FP0[7:0](8’h02) 0x02 W/R - - - - W/R - - - - R68h R69h R6Ah R6Bh R70h R71h R72h R73h R74h R75h - - - - - - BC0(1) - DFM(0) DIV0[1:0](00) RTN0[4:0](1_0000) BC2(0) - - 0x00 0x00 0x00 0x00 0xFF 0x00 0x00 0x00 0x00 0x44 0x44 0x44 0x44 0x08 0x10 0x44 0x44 0x44 0x44 0x08 0x10 0x88 0x88 0x88 0x00 0x00 0x00 0x00 0x02 0x00 0x00 0x20 0x10 0x1A DIV2[1:0](00) RTN2[4:0](1_0000) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. 0x00 0x1A -P.102May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Register No. R76h R77h R7Ah R7Bh R7Ch R7Dh R7Eh R7Fh R84h R85h R86h R87h R88h R89h R8Ah R8Bh RFFh Register Frame Rate Control 7 Frame Rate Control 8 Power Control 6 Power Control 7 Power Control 8 Power Control 9 Power Control 10 Power Control 11 TE Output Line 2 TE Output Line 1 VPP Control OTP Control 5 Get Scan Line 2 Get Scan Line 1 Read VCOM OTP Times Read ID OTP Times Page select Upper W/R Code D[17:8] Lower Code D7 D6 D5 D4 D3 D2 D1 Default Value D0 W/R - BP2[7:0](8’h02) 0x02 W/R - W/R W/R W/R W/R W/R W/R W/R W/R W/R W/R R R - - - - - R - - - - - VCOM_OTP_TIMES[3:0] 0x00 R - - - - - ID_OTP_TIMES[3:0] 0x00 W/R - - - - - FP2[7:0](8’h02) - DC10[2:0](100) DC11[2:0](100) DC12[2:0](100) 0x02 - TSEL[15:8](8’h00) TSEL[7:0](8’h00) OTP_KEY[7:0](8’h55) SL[15:8](8’hFF) SL[7:0](8’hFF) - SAP0[2:0](001) DC00[2:0](100) SAP1[2:0](001) DC01[2:0](100) SAP2[2:0](001) DC02[2:0](100) 0x01 0x44 0x01 0x44 0x01 0x44 0x00 0x00 0x03 0x55 0xFF 0xFF VPP[2:0](011) - PAGE_SEL[1:0] (00) 0x00 Table 6.1: List table of command set page 0 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.103May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Register No. Register Upper W/R Code D[17:8] R00h DGC Control W/R - R01h R02h R03h R04h R05h R06h R07h R08h R09h R0Ah R0Bh R0Ch R0Dh R0Eh R0Fh R10h R11h R12h R13h R14h R15h R16h R17h R18h R19h R1Ah R1Bh R1Ch R1Dh R1Eh R1Fh R20h R21h R22h R23h R24h R25h R26h R27h R28h R29h R2Ah R2Bh R2Ch R2Dh R2Eh R2Fh R30h R31h R32h R33h R34h R35h R36h R37h R38h R39h R3Ah R3Bh R3Ch R3Dh R3Eh R3Fh R40h R41h R42h DGC LUT1 DGC LUT2 DGC LUT3 DGC LUT4 DGC LUT5 DGC LUT6 DGC LUT7 DGC LUT8 DGC LUT9 DGC LUT10 DGC LUT11 DGC LUT12 DGC LUT13 DGC LUT14 DGC LUT15 DGC LUT16 DGC LUT17 DGC LUT18 DGC LUT19 DGC LUT20 DGC LUT21 DGC LUT22 DGC LUT23 DGC LUT24 DGC LUT25 DGC LUT26 DGC LUT27 DGC LUT28 DGC LUT29 DGC LUT30 DGC LUT31 DGC LUT32 DGC LUT33 DGC LUT34 DGC LUT35 DGC LUT36 DGC LUT37 DGC LUT38 DGC LUT39 DGC LUT40 DGC LUT41 DGC LUT42 DGC LUT43 DGC LUT44 DGC LUT45 DGC LUT46 DGC LUT47 DGC LUT48 DGC LUT49 DGC LUT50 DGC LUT51 DGC LUT52 DGC LUT53 DGC LUT54 DGC LUT55 DGC LUT56 DGC LUT57 DGC LUT58 DGC LUT59 DGC LUT60 DGC LUT61 DGC LUT62 DGC LUT63 DGC LUT64 DGC LUT65 DGC LUT66 W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W - Lower Code D7 D6 D5 - - - D4 D3 D2 D1 - - - - DGC_LUT_R00(8’h00) DGC_LUT_R01(8’h08) DGC_LUT_R02(8’h10) DGC_LUT_R03(8’h18) DGC_LUT_R04(8’h20) DGC_LUT_R05(8’h28) DGC_LUT_R06(8’h30) DGC_LUT_R07(8’h38) DGC_LUT_R08(8’h40) DGC_LUT_R09(8’h48) DGC_LUT_R10(8’h50) DGC_LUT_R11(8’h58) DGC_LUT_R12(8’h60) DGC_LUT_R13(8’h68) DGC_LUT_R14(8’h70) DGC_LUT_R15(8’h78) DGC_LUT_R16(8’h80) DGC_LUT_R17(8’h88) DGC_LUT_R18(8’h90) DGC_LUT_R19(8’h98) DGC_LUT_R20(8’hA0) DGC_LUT_R21(8’hA8) DGC_LUT_R22(8’hB0) DGC_LUT_R23(8’hB8) DGC_LUT_R24(8’hC0) DGC_LUT_R25(8’hC8) DGC_LUT_R26(8’hD0) DGC_LUT_R27(8’hD8) DGC_LUT_R28(8’hE0) DGC_LUT_R29(8’hE8) DGC_LUT_R30(8’hF0) DGC_LUT_R31(8’hF8) DGC_LUT_R32(8’hFC) DGC_LUT_G00(8’h00) DGC_LUT_G01(8’h08) DGC_LUT_G02(8’h10) DGC_LUT_G03(8’h18) DGC_LUT_G04(8’h20) DGC_LUT_G05(8’h28) DGC_LUT_G06(8’h30) DGC_LUT_G07(8’h38) DGC_LUT_G08(8’h40) DGC_LUT_G09(8’h48) DGC_LUT_G10(8’h50) DGC_LUT_G11(8’h58) DGC_LUT_G12(8’h60) DGC_LUT_G13(8’h68) DGC_LUT_G14(8’h70) DGC_LUT_G15(8’h78) DGC_LUT_G16(8’h80) DGC_LUT_G17(8’h88) DGC_LUT_G18(8’h90) DGC_LUT_G19(8’h98) DGC_LUT_G20(8’hA0) DGC_LUT_G21(8’hA8) DGC_LUT_G22(8’hB0) DGC_LUT_G23(8’hB8) DGC_LUT_G24(8’hC0) DGC_LUT_G25(8’hC8) DGC_LUT_G26(8’hD0) DGC_LUT_G27(8’hD8) DGC_LUT_G28(8’hE0) DGC_LUT_G29(8’hE8) DGC_LUT_G30(8’hF0) DGC_LUT_G31(8’hF8) DGC_LUT_G32(8’hFC) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. D0 DGC_E N(0) Default Value 0x00 0x00 0x08 0x10 0x18 0x20 0x28 0x30 0x38 0x40 0x48 0x50 0x58 0x60 0x68 0x70 0x78 0x80 0x88 0x90 0x98 0xA0 0xA8 0xB0 0xB8 0xC0 0xC8 0xD0 0xD8 0xE0 0xE8 0xF0 0xF8 0xFC 0x00 0x08 0x10 0x18 0x20 0x28 0x30 0x38 0x40 0x48 0x50 0x58 0x60 0x68 0x70 0x78 0x80 0x88 0x90 0x98 0xA0 0xA8 0xB0 0xB8 0xC0 0xC8 0xD0 0xD8 0xE0 0xE8 0xF0 0xF8 0xFC -P.104May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 R43h R44h R45h R46h R47h R48h R49h R4Ah R4Bh R4Ch R4Dh R4Eh R4Fh R50h R51h R52h R53h R54h R55h R56h R57h R58h R59h R5Ah R5Bh R5Ch R5Dh R5Eh R5Fh R60h R61h R62h R63h DGC LUT67 DGC LUT68 DGC LUT69 DGC LUT70 DGC LUT71 DGC LUT72 DGC LUT73 DGC LUT74 DGC LUT75 DGC LUT76 DGC LUT77 DGC LUT78 DGC LUT79 DGC LUT80 DGC LUT81 DGC LUT82 DGC LUT83 DGC LUT84 DGC LUT85 DGC LUT86 DGC LUT87 DGC LUT88 DGC LUT89 DGC LUT90 DGC LUT91 DGC LUT92 DGC LUT93 DGC LUT94 DGC LUT95 DGC LUT96 DGC LUT97 DGC LUT98 DGC LUT99 Upper W/R Code D[17:8] W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W - RC3h CABC Control 5 W/R - RC5h RFFh CABC Control 7 Page select W/R W/R - Register No. Register Lower Code D7 D6 LEDO NPOL (0) - D5 D4 D3 D2 DGC_LUT_B00(8’h00) DGC_LUT_B01(8’h08) DGC_LUT_B02(8’h10) DGC_LUT_B03(8’h18) DGC_LUT_B04(8’h20) DGC_LUT_B05(8’h28) DGC_LUT_B06(8’h30) DGC_LUT_B07(8’h38) DGC_LUT_B08(8’h40) DGC_LUT_B09(8’h48) DGC_LUT_B10(8’h50) DGC_LUT_B11(8’h58) DGC_LUT_B12(8’h60) DGC_LUT_B13(8’h68) DGC_LUT_B14(8’h70) DGC_LUT_B15(8’h78) DGC_LUT_B16(8’h80) DGC_LUT_B17(8’h88) DGC_LUT_B18(8’h90) DGC_LUT_B19(8’h98) DGC_LUT_B20(8’hA0) DGC_LUT_B21(8’hA8) DGC_LUT_B22(8’hB0) DGC_LUT_B23(8’hB8) DGC_LUT_B24(8’hC0) DGC_LUT_B25(8’hC8) DGC_LUT_B26(8’hD0) DGC_LUT_B27(8’hD8) DGC_LUT_B28(8’hE0) DGC_LUT_B29(8’hE8) DGC_LUT_B30(8’hF0) DGC_LUT_B31(8’hF8) DGC_LUT_B32(8’hFC) PWMDIV[2:0](000) - - SEL_GAIN[1:0] (11) PWM_PERIOD[7:0](8’h23) - D1 Default Value D0 0x00 0x08 0x10 0x18 0x20 0x28 0x30 0x38 0x40 0x48 0x50 0x58 0x60 0x68 0x70 0x78 0x80 0x88 0x90 0x98 0xA0 0xA8 0xB0 0xB8 0xC0 0xC8 0xD0 0xD8 0xE0 0xE8 0xF0 0xF8 0xFC INVPLU S(1) SEL_B LDUTY (1) PAGE_SEL[1:0](00) 0x0F 0x23 0x00 Table 6.2: List table of command set page 1 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.105May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.2 Index register R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 0 ID7 ID6 ID5 ID4 ID3 ID2 ID1 ID0 R 0 ID7 ID6 ID5 ID4 ID3 ID2 ID1 ID0 Figure 6.1 Index register Index register (IR) specifies the Index of register from R00h to RFFh. It sets the register number (ID7-0) in the range from 00000000b to 11111111b in binary form. 6.3 Himax ID register (PAGE0 -R00h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 R 1 0 1 1 1 0 0 1 0 Figure 6.2 Himax ID register (PAGE0 -00h) This command is used to read this IC’s ID code. The ID code of this IC is 72h. 6.4 Display mode control register (PAGE0 -01h) R/W DNC RB7 W 1 DST B RB6 RB5 * * R 1 DST B * * RB4 RB1 RB0 * SCR IDMO INVO N N OLL RB3 RB2 PLT ON * SCR IDMO INVO N N OLL PLT ON Figure 6.3 Display mode control register (PAGE0 -01h) DSTB: This bits can let the driver into the deep standby mode. And when into deep standby(DSTB=’1), all display operation stops, including the internal R-C oscillator. In the deep standby mode, the GRAM data and register content are not retained. IDMON: This bit is Idle mode (8-color display mode) enable bit. IDMON = ‘1’, chip will be into idle mode, and color expression is reduced. The primary and the secondary colors using MSB of each R, G and B in the Frame Memory, 8 color depth data is displayed. (Idel Mode On Example) Display Memory SCROLL : This bit turns on scroll mode by setting SCROLL = ‘1’. The scroll mode window is described by the Vertical Scroll Area command TFA[15:0], VSA[15:0], BFA[15:0] and the Vertical start address VSP[15:0] (R0Eh~R15h). To leave scroll mode to normal mode, the SCROLL bit should be set to ‘0’. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.106May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 INVON: This bit is display inversion mode enable bit. INVON = ‘1’, chip will be into display inversion mode, and makes no change of contents of frame memory. Every bit is inverted from the frame memory to the display. (Example) memory display PTLON: This command is used for turning on/off Partial mode by setting PTLON=1/0. The partial mode window is described by the Partial Area command PSL[15:0], PEL[15:0] bits(R0Ah~R0Dh). To leave Partial mode to normal mode, the PLTON bit should be set to ‘0’. 6.5 Column address start register (PAGE0 -02~03h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 SC 15 SC 14 SC 13 SC 12 SC 11 SC 10 SC9 SC8 R 1 SC 15 SC 14 SC 13 SC 12 SC 11 SC 10 SC9 SC8 Figure 6.4 Column address start register upper byte (PAGE0 -02h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 SC7 SC6 SC5 SC4 SC3 SC2 SC1 SC0 R 1 SC7 SC6 SC5 SC4 SC3 SC2 SC1 SC0 Figure 6.5 Column address start register low byte (PAGE0 -03h) 6.6 Column address end register (PAGE0 -04~05h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 EC 15 EC 14 EC 13 EC 12 EC 11 EC 10 EC9 EC8 R 1 EC 15 EC 14 EC 13 EC 12 EC 11 EC 10 EC9 EC8 Figure 6.6 Column address end register upper byte (PAGE0 -04h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 EC7 EC6 EC5 EC4 EC3 EC2 EC1 EC0 R 1 EC7 EC6 EC5 EC4 EC3 EC2 EC1 EC0 Figure 6.7 Column address end register low byte (PAGE0 -05h) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.107May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.7 Row address start register (PAGE0 -06~07h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 SP 15 SP 14 SP 13 SP 12 SP 11 SP 10 SP9 SP8 R 1 SP 15 SP 14 SP 13 SP 12 SP 11 SP 10 SP9 SP8 Figure 6.8 Row address start register upper byte (PAGE0 -06h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 SP7 SP6 SP5 SP4 SP3 SP2 SP1 SP0 R 1 SP7 SP6 SP5 SP4 SP3 SP2 SP1 SP0 Figure 6.9 Row address start register low byte (PAGE0 -07h) 6.8 Row address end register (PAGE0 -08~09h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 EP 15 EP 14 EP 13 EP 12 EP 11 EP 10 EP9 EP8 R 1 EP 15 EP 14 EP 13 EP 12 EP 11 EP 10 EP9 EP8 Figure 6.10 Row address end register upper byte (PAGE0 -08h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 EP7 EP6 EP5 EP4 EP3 EP2 EP1 EP0 R 1 EP7 EP6 EP5 EP4 EP3 EP2 EP1 EP0 Figure 6.11 Row address end register low byte (PAGE0 -09h) These commands (R02h~R09h) are used to define area of frame memory where MCU can access. The values of SC[15:0], EC[15:0], SP[15:0] and EP[15:0] are referred when RAMWR command comes. Each value of SC[15:0], EC[15:0] represents one column line in the Frame Memory. Each value of SP[15:0], EP[15:0] represents one page line in the Frame Memory. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.108May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.9 Partial Area Start Row Register (PAGE0 -0A~0Bh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 PSL 15 PSL 14 PSL 13 PSL 12 PSL 11 PSL 10 PSL 9 PSL 8 R 1 PSL 15 PSL 14 PSL 13 PSL 12 PSL 11 PSL 10 PSL 9 PSL 8 Figure 6.12 Partial area start row register upper byte (PAGE0 -0Ah) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 PSL 7 PSL 6 PSL 5 PSL 4 PSL 3 PSL 2 PSL 1 PSL 0 R 1 PSL 7 PSL 6 PSL 5 PSL 4 PSL 3 PSL 2 PSL 1 PSL 0 Figure 6.13 Partial area start row register low byte (PAGE0 -0Bh) 6.10 Partial Area End Row Register (PAGE0 -0C~0Dh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 PEL 15 PEL 14 PEL 13 PEL 12 PEL 11 PEL 10 PEL 9 PEL 8 R 1 PEL 15 PEL 14 PEL 13 PEL 12 PEL 11 PEL 10 PEL 9 PEL 8 Figure 6.14 Partial area end row register upper byte (PAGE0 -0Ch) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 PEL 7 PEL 6 PEL 5 PEL 4 PEL 3 PEL 2 PEL 1 PEL 0 R 1 PEL 7 PEL 6 PEL 5 PEL 4 PEL 3 PEL 2 PEL 1 PEL 0 Figure 6.15 Partial area end row register low byte (PAGE0 -0Dh) These commands (PAGE0 -0Ah~~0Dh) define the partial mode’s display area. The Start Row (PSL) and the second the End Row (PEL) are illustrated in the figures below. PSL and PEL refer to the Frame Memory Line Pointer. If End Row > Start Row Start Row PSL [15:0] Partial Display Area PEL[15:0] End Row Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.109May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 If End Row < Start Row If End Row = Start Row then the Partial Area will be one row deep. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.110May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.11 Vertical scroll top fixed area register (PAGE0 -0E~0Fh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 TFA 15 TFA 14 TFA 13 TFA 12 TFA 11 TFA 10 TFA 9 TFA 8 R 1 TFA 15 TFA 14 TFA 13 TFA 12 TFA 11 TFA 10 TFA 9 TFA 8 Figure 6.16 Vertical scroll top fixed area register upper byte (PAGE0 -0Eh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 TFA 7 TFA 6 TFA 5 TFA 4 TFA 3 TFA 2 TFA 1 TFA 0 R 1 TFA 7 TFA 6 TFA 5 TFA 4 TFA 3 TFA 2 TFA 1 TFA 0 Figure 6.17 Vertical scroll top fixed area register low byte (PAGE0 -0Fh) 6.12 Vertical scroll height area register (PAGE0 -10~11h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 VSA 15 VSA 14 VSA 13 VSA 12 VSA 11 VSA 10 VSA 9 VSA 8 R 1 VSA 15 VSA 14 VSA 13 VSA 12 VSA 11 VSA 10 VSA 9 VSA 8 Figure 6.18 Vertical scroll height area register upper byte (PAGE0 -10h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 VSA 7 VSA 6 VSA 5 VSA 4 VSA 3 VSA 2 VSA 1 VSA 0 R 1 VSA 7 VSA 6 VSA 5 VSA 4 VSA 3 VSA 2 VSA 1 VSA 0 Figure 6.19 Vertical scroll height area register low byte (PAGE0 -11h) 6.13 Vertical scroll button fixed area register (PAGE0 -12~13h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 BFA 15 BFA 14 BFA 13 BFA 12 BFA 11 BFA 10 BFA 9 BFA 8 R 1 BFA 15 BFA 14 BFA 13 BFA 12 BFA 11 BFA 10 BFA 9 BFA 8 Figure 6.20 Vertical scroll button fixed area register upper byte (PAGE0 -12h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 BFA 7 BFA 6 BFA 5 BFA 4 BFA 3 BFA 2 BFA 1 BFA 0 R 1 BFA 7 BFA 6 BFA 5 BFA 4 BFA 3 BFA 2 BFA 1 BFA 0 Figure 6.21 Vertical scroll button fixed area register low byte (PAGE0 -13h) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.111May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 These commands (PAGE0 -0E~0Fh, R10~11h, R12~13h) define the Vertical Scrolling Area of the display. TFA[15:0] describes the Top Fixed Area (in No. of lines from Top of the Frame Memory and Display). VSA[15:0] describes the height of the Vertical Scrolling Area (in No. of lines of the Frame Memory [not the display] from the Vertical Scrolling Start Address). The first line read from Frame Memory appears immediately after the bottom most line of the Top Fixed Area. BFA[15:0] describes the Bottom Fixed Area (in No. of lines from Bottom of the Frame Memory and Display). TFA, VSA and BFA refer to the Frame Memory Line Pointer. Please note that (TFA+VSA+BFA) must be set to ‘432d’, otherwise Scrolling mode is undefined. In Vertical Scroll Mode, MV bit should be set to ‘0’ – this only affects the Frame Memory Write. 6.14 Vertical scroll start address register (PAGE0 -14~15h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 VSP 15 VSP 14 VSP 13 VSP 12 VSP 11 VSP 10 VSP 9 VSP 8 R 1 VSP 15 VSP 14 VSP 13 VSP 12 VSP 11 VSP 10 VSP 9 VSP 8 Figure 6.22 Vertical Scroll Start Address Register Upper Byte (PAGE0 -14h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 VSP 7 VSP 6 VSP 5 VSP 4 VSP 3 VSP 2 VSP 1 VSP 0 R 1 VSP 7 VSP 6 VSP 5 VSP 4 VSP 3 VSP 2 VSP 1 VSP 0 Figure 6.23 Vertical Scroll Start Address Register Low Byte (PAGE0 -15h) VSP[15:0] is used together with Vertical Scrolling Definition register (PAGE0 -0Eh~R13h), which describe the scrolling area and the scrolling mode. VSP[15:0] refers to the Frame Memory line Pointer, and describes the address of the line in the Frame Memory that will be written as the first line after the last line of the Top Fixed Area on the display as illustrated below: Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.112May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Example: When Top Fixed Area TFA = ‘00d’, Bottom Fixed Area BFA = ‘02’d, Vertical Scrolling Area VSA = ‘430'd’ and VSP = ‘3d’ (SS=’0’, GS=’0’) (Example) (0,0) Line Pointer VSP[15:0] Memory Display Pointer 0 1 2 3 : : : : 430 431 (0,431) When new Pointer position and Picture Data are sent, the result on the display will happen at the next Panel Scan to avoid tearing effect. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.113May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.15 Memory access control register (PAGE0 -16h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 MY MX MV ML BGR * * * R 1 MY MX MV ML BGR 0 0 0 Figure 6.24 Memory access control register (PAGE0 -16h) This command defines read/write scanning direction of frame memory. MX, MY bits also define the display direction in the RGB interface. This command makes no change on the other driver status. Bit MY MX MV ML BGR Name PAGE ADDRESS ORDER COLUMN ADDRESS ORDER PAGE/COLUMN SELECTION Vertical ORDER RGB-BGR ORDER Description These 3 bits controls MCU to memory write direction. LCD vertical refresh direction control Color selector switch control (0=RGB color filter panel, 1=BGR color filter panel) 6.16 COLMOD control register (PAGE0 -17h) R/W DNC RB7 RB6 RB5 W 1 * CSEL2 CSEL1 R 1 * CSEL2 CSEL1 RB4 RB3 RB2 RB1 RB0 CSEL0 * IFPF2 IFPF1 IFPF0 CSEL0 * IFPF2 IFPF1 IFPF0 Figure 6.25 COLMOD control register (PAGE0 -17h) This command is used to define the format of RGB picture data, which is to be transfer via the system and RGB interface. The formats are shown in the table: Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.114May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 System interface Interface Format Not Defined Not Defined Not Defined Not Defined Not Defined 16 Bit/Pixel 18 Bit/Pixel Not Defined IFPF2 0 0 0 0 1 1 1 1 IFPF1 0 0 1 1 0 0 1 1 IFPF0 0 1 0 1 0 1 0 1 RGB interface Interface Format 16 Bit/Pixel 18 Bit/Pixel Not Defined CSEL2 CSEL1 CSEL0 1 0 1 1 1 0 The Other Setting Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.115May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.17 OSC control register (PAGE0 -18h & R19h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * RADJ 3 RADJ 2 RADJ 1 RADJ 0 R 1 * * * * RADJ 3 RADJ 2 RADJ 1 RADJ 0 Figure 6.26 OSC control 1 register (PAGE0 -18h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * * * OSC_ EN R 1 0 0 0 0 0 0 0 OSC_ EN Figure 6.27 OSC control 2 register (PAGE0 -19h) These commands are used to set internal oscillator related setting OSC_EN: Enable internal oscillator, OSC_EN = ‘1’, internal oscillator start to oscillate. OSC_EN = ‘0’, internal oscillator stop. In RGB interface mode (DM[1:0] = ‘01’ or ‘1x’), internal oscillator will be stop to oscillate and OSC_EN bit control is invalid. RADJ[3:0]: Internal oscillator frequency adjusts. RADJ3 RADJ2 RADJ1 RADJ0 0 0 0 0 0 0 0 0 1 1 1 1 1 0 0 0 0 0 1 0 1 1 0 1 0 1 1 1 1 0 0 0 0 0 1 0 1 1 0 Other setting 0 1 0 1 0 1 0 1 0 1 0 1 0 Internal Oscillator Display Frame rate Frequency 160% x 3.69MHz 96Hz 147% x 3.69MHz 88Hz 137% x 3.69MHz 82Hz 127% x 3.69MHz 76Hz 120% x 3.69MHz 72Hz 113% x 3.69MHz 68Hz 107% x 3.69MHz 64Hz 100% x 3.69MHz 60Hz 167% x 3.69MHz 100Hz 175% x 3.69MHz 105Hz 183% x 3.69MHz 110Hz 192% x 3.69MHz 115Hz 200% x 3.69MHz 120Hz Setting Inhibited Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.116May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.18 Power control 1 register (PAGE0 -1Ah) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * BT2 BT1 BT0 R 1 * * * * * BT2 BT0 BT0 Figure 6.28 Power control 1 register (PAGE0 -1Ah) BT[2:0]: Switch the output factor of step-up circuit 2 for VGH and VGL voltage generation. The LCD drive voltage level can be selected according to the characteristic of liquid crystal which panel used. Lower amplification of the step-up circuit consumes less current and then the power consumption can be reduced. BT2 BT1 BT0 DDVDH 0 0 0 5.0V 0 0 1 5.0V 0 1 0 5.0V 0 1 1 5.0V 1 0 0 5.0V 1 0 1 5.0V 1 1 0 5.0V 1 1 1 5.0V VCL -VCI -VCI -VCI -VCI -VCI -VCI -VCI -VCI VGH 3DDVDH 3DDVDH 3DDVDH VCI + 2DDVDH VCI + 2DDVDH VCI + 2DDVDH 2DDVDH 2DDVDH VGL -VCI-2DDVDH -2DDVDH VCI-2DDVDH -VCI-2DDVDH -2DDVDH VCI-2DDVDH -2DDVDH -VCI-DDVDH Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.117May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.19 Power control 2 register (PAGE0 -1Bh) DNC RB7 RB6 RB5 W 1 VCIR E * * VRH4 VRH3 VRH2 VRH1 VRH0 R 1 VCIR E * * VRH4 VRH3 VRH2 VRH1 VRH0 R/W RB4 RB3 RB2 RB1 RB0 Figure 6.29 Power control 2 register (PAGE0 -1Bh) VCIRE: Select VREG1 reference voltage come from external voltage or internal generated voltage. ‘0’: External reference voltage VCI. ‘1’: Internal reference voltage 2.5V VRH[4:0]: Specify the VREG1 voltage adjusting. (VREG1 must lower than DDVDH - 0.3V). VRH[4:0] VREG1 Voltage (VCIRE=0) VRH[4:0] VREG1 Voltage (VCIRE=1) 5’h00 5’h01 5’h02 5’h03 : 5’h0E 5’h0F 5’h10 5’h11 5’h12 5’h13 5’h14 5’h15 5’h16 5’h17 5’h18 Others VCI x 1.600 VCI x 1.625 VCI x 1.650 VCI x 1.675 : VCI x 1.950 VCI x 1.975 Setting inhabited Setting inhabited Setting inhabited Setting inhabited Setting inhabited Setting inhabited Setting inhabited Setting inhabited Setting inhabited Setting inhabited 5’h00 5’h01 5’h02 5’h03 : 5’h0E 5’h0F 5’h10 5’h11 5’h12 5’h13 5’h14 5’h15 5’h16 5’h17 5’h18 Others 2.5 x 1.600 2.5 x 1.625 2.5 x 1.650 2.5 x 1.675 : 2.5 x 1.950 2.5 x 1.975 2.5 x 2.000 2.5 x 2.025 2.5 x 2.050 2.5 x 2.075 2.5 x 2.100 2.5 x 2.125 2.5 x 2.150 2.5 x 2.175 2.5 x 2.200 Setting inhabited Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.118May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.20 Power control 3 register (PAGE0 -1Ch) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * AP2 AP1 AP0 R 1 * * * * * AP2 AP1 AP0 Figure 6.30 Power control 3 register (PAGE0 -1Ch) AP[2:0]: Adjust the amount of current driving for the operational amplifier in the power supply circuit. When the amount of fixed current is increased, the LCD driving capacity and the display quality are high, but the current consumption is increased. Adjust the fixed current by considering both the display quality and the current consumption. AP2 0 0 0 0 1 1 1 1 AP1 0 0 1 1 0 0 1 1 AP0 0 1 0 1 0 1 0 1 Constant Current of Operational Amplifier Operation of the operational amplifier stops Small Small Small Medium Medium High Large Small Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.119May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.21 Power control 5 register (PAGE0 -1Fh) R/W DNC RB7 RB6 W 1 GAS EN VCO MG RB5 RB4 RB3 RB2 * PON DK XDK R 1 GAS EN VCO MG * PON DK XDK RB1 DDV DH_T RI DDV DH_T RI RB0 STB STB Figure 6.31 Power control 5 register (PAGE0 -1Fh) PON: Specify on/off control of step-up circuit 2 for VGH, VGL voltage generation. For detail, see the Power On/Off Setting Flow. PON 0 1 Operation of step-up circuit 2 OFF ON DK: Specify on/off control of step-up circuit 1 for DDVDH voltage generation. For detail, see the Power Supply Setting Sequence. DK 0 1 Operation of step-up circuit 1 ON OFF STB: When STB = ‘1’, the HX8352-C01 into the standby mode, where all display operation stops, suspend all the internal operations including the internal R-C oscillator. During the standby mode, only the following process can be executed. For details, please refer to STB mode flow. a. Start the oscillation b. Exit the Standby mode (STB = “0”) , In the standby mode, the GRAM data and register content are retained. XDK, DDVDH_TRI: Specify the ratio of step-up circuit for DDVDH voltage generation. DDVDH_TRI 0 0 1 1 XDK 0 1 0 1 Step up circuit 1 2 x VCI 2 x VCI 3 x VCI Setting inhabited Capacitor connection pins used C11P, C11N C11P, C11N, C12P, C12N C11P, C11N, C12P, C12N Setting inhabited VCOMG: Specify on/off control of step-up circuit 3 for VCL voltage generation. For detail, see the Power Supply Setting Sequence. When VCOMG = ‘0’, VCOML = GND. VCOMG Operation of step-up circuit 3 0 1 OFF ON GASEN: This stands for abnormal power-off monitor function when the power is off. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.120May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.22 Read data register (PAGE0 -22h) Figure 6.32 Read data register (PAGE0 -22h) WD[17:0] : Transforms the data into 18-bit bus before written to GRAM through the write data register (WDR). After a write operation is issued, the address is automatically updated according to the AM and I/D bits. RD[17:0]: Read 18-bit data from GRAM through the read data register (RDR). When the data is read by microcomputer, the first-word read immediately after the GRAM address setting is latched from the GRAM to the internal read-data latch. The data on the data bus (D17–0) becomes invalid and the second-word read is normal. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.121May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.23 VCOM control 1~3 register (PAGE0 -23~25h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * * * SEL VCM R 1 * * * * * * * SEL VCM Figure 6.33 VCOM control 1 register (PAGE0 -23h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * VCM VCM VCM VCM VCM VCM VCM 6 5 4 3 2 1 0 R 1 * VCM VCM VCM VCM VCM VCM VCM 6 5 4 3 2 1 0 Figure 6.34 VCOM control 2 register (PAGE0 -24h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * VDV 4 VDV 3 VDV 2 VDV 1 VDV 0 R 1 * * * VDV 4 VDV 3 VDV 2 VDV 1 VDV 0 Figure 6.35 VCOM control 3 register (PAGE0 -25h) This command is used to set VCOM Voltage include VCOM Low and VCOM High Voltage SELVCM: Select the VCM setting. When OTP is programmed, the SELVCM will be set as “1” automatically. ‘0’: Register R24h&R25h setting selected for VCOM voltage. ‘1’: OTP value selected for VCOM voltage. VCM[6:0]: Set VCOMH voltage. VCM[6:0] 7’h00 7’h01 7’h02 7’h02 : 7’h7C 7’h7D 7’h7E 7’h7F VCOMH Voltage VREG1 x 0.492 VREG1 x 0.496 VREG1 x 0.500 VREG1 x 0.504 : VREG1 x 0.988 VREG1 x 0.992 VREG1 x 0.996 VREG1 x 1.00 VDV[4:0]: Set VCOM amplitude. VDV[4:0] 5’h00 5’h01 5’h02 5’h02 : VCOM Amplitude VREG1 x 070 VREG1 x 0.72 VREG1 x 0.74 VREG1 x 0.76 : Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.122May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5’h1C 5’h1D 5’h1E 5’h1F VREG1 x 1.26 VREG1 x 1.28 VREG1 x 1.30 VREG1 x 1.32 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.123May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.24 Display control 1~7 register (PAGE0 -26h~2Ch) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * PTG ISC3 ISC2 ISC1 ISC0 R 1 * * * PTG ISC3 ISC2 ISC1 ISC0 Figure 6.36 Display control 1 register (PAGE0 -26h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * PTV 1 PTV 0 * * * REF R 1 * * PTV 1 PTV 0 * * * REF Figure 6.37 Display control 2 register (PAGE0 -27h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * GON DTE D1 D0 * * R 1 * * GON DTE D1 D0 * * Figure 6.38 Display control 3 register (PAGE0 -28h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * NL5 NL4 NL3 NL2 NL1 NL0 R 1 * * NL5 NL4 NL3 NL2 NL1 NL0 Figure 6.39 Display control 4 register (PAGE0 -29h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 SCN 5 SCN 4 SCN 3 SCN 2 SCN 1 SCN 0 SCN 5 SCN 4 SCN 3 SCN 2 SCN 1 SCN 0 W 1 * SCN 6 R 1 * SCN 6 Figure 6.40 Display control 5 register (PAGE0 -2Ah) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 PTS 0 PTS 0 W 1 * * * * * * PTS 1 R 1 * * * * * * PTS 1 Figure 6.41 Display control 6 register (PAGE0 -2Bh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * * DIVE DIVE 1 0 R 1 * * * * * * DIVE DIVE 1 0 Figure 6.42 Display control 7 register (PAGE0 -2Ch) PTG: Set the scan mode in non-display area. Select frame inversion when interval scan selected. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.124May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 PTG Scan Mode in Non-display Area 0 1 Normal Scan Interval Scan ISC[3:0]: Specify the scan cycle of gate driver when REF = ‘1’ in non-display area. Then scan cycle is odd number from 3 to 31 frame.The polarity is inverted every scan cycle. ISC3 ISC2 ISC1 ISC0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 Scan Cycle fFLM = 60Hz Setting inhibited 3 frames 50ms 5 frames 83ms 7 frames 117ms 9 frames 150ms 11 frames 183ms 13 frames 217ms 15 frames 250ms 17 frames 19 frames 21 frames 23 frames 25 frames 27 frames 29 frames 31 frames 283ms 317ms 350ms 383ms 417ms 450ms 483ms 517ms REF: Refresh display in non-display area in Partial mode enable bit. REF = ‘0’: Refresh display operation is disabling. REF = ‘1’: Refresh display operation is enable. GON, DTE: Control gate output level. GON 0 0 1 1 DTE 0 1 0 1 Gate Output Fixed to VGH Fixed to VGH Fixed to VGL Normal Operation (VGH/VGL) D[1:0]: When D1 = ‘1’, display is on; when D1 = ‘0’, display is off. When display is off, the display data is retained in the GRAM and the entire source outputs are set to the VSSD level. When D[1:0]= ‘01’, the internal display of the HX8352-C01 is performed although the actual display is off. When D[1:0]= ‘00’, the internal display operation halts and the display is off. D1 0 0 1 1 D0 0 1 0 1 Source Output Internal Display Operations Gate-Driver Control Signals VSSD Halt Halt VSSD Operate Operate =PTS(0,0) Operate Operate Display Operate Operate NL[5:0]: Set the number of lines to drive the LCD at an interval of 8 lines. The GRAM address mapping is not affected by the number of lines set by NL[5:0]. The number of lines must be the same or more than the number of lines necessary for the size of the liquid crystal Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.125May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 panel. NL5 NL4 NL3 NL2 NL1 NL0 LCD Drive Lines 0 0 0 : 0 0 0 : 0 0 0 : 0 0 0 : 0 0 1 : 0 1 0 : 8 lines 16 lines 24 lines 1 1 1 1 0 0 0 1 0 1 0 1 Other Setting : 424 lines 432 lines 432 lines SCN[6:0]: Specifies the gate line where the gate driver starts scan. Scanning Start Position SCN[6:0] 00h~35h SM=0 SM=1 GS=0 GS=1 GS=0 G(1+SCN[6:0]*4) G((NL[5:0]+1)*8) GS=1 G(1+SCN[6:0]*8) G((NL[5:0]+1)*8) G(2+(SCN[6:0]-36h) 36h~6Bh G(1+SCN[6:0]*4) G((NL[5:0]+1)*8) G((NL[5:0]+1)*8) *8) Setting inhibited Setting inhibited Setting inhibited Setting inhibited Others Note: When GS=1, SCN must be setted to 00h. PTS[1:0]: Specify the Non-display area source output in partial display mode. PTS[1:0] Refresh cycle 00 Non-refresh cycle Refresh cycle 01 Non-refresh cycle Refresh cycle 10 Non-refresh cycle Refresh cycle 11 Non-refresh cycle Source/VCOM Outputs in Non-display Area (REV=0) (REV=1) White Black Source=GND Source=GND VCOM=GND VCOM=GND Black White Source=V0 Source=V0 VCOM=VCOML VCOM=VCOML White Black Source=V63 Source=V63 VCOM=VCOML VCOM=VCOML White Black Source=Hi-Z Source=Hi-Z VCOM=Hi-Z VCOM=Hi-Z DIVE[1:0]: Used to set division ratio of PCLK clock frequency when the DPI interface selected. The divided PCLK will be used as internal clock for the source pre-charge, VCOM equalizing, etc. DIVE[1:0] Division Ratio 2’b00 2’b01 2’b10 2’b11 1/8 1/1 1/2 1/4 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.126May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.25 Cycle control 1~2 register (PAGE0 -2Dh~2Eh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * SDT 2 SDT 1 SDT 0 * NO W2 NO W1 NO W0 R 1 * SDT 2 SDT 1 SDT 0 * NO W2 NO W1 NO W0 Figure 6.43 Cycle control 1 register (PAGE0 -2Dh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * NW5 NW4 NW3 NW2 NW1 NW0 R 1 * * NW5 NW4 NW3 NW2 NW1 NW0 Figure 6.44 Cycle control 2 register (PAGE0 -2Eh) SDT[2:0]: No function. NOW[2:0]: Used to set the gate output non-overlap. 1 clock cycle=2 oscillator clock cycle. NOW[2:0] Gate Output Non-overlap Period 3’b000 3’b001 3’b010 3’b011 3’b100 3’b101 3’b110 3’b111 Setting Inhibited 1 clock 2 clocks 3 clocks 4 clocks 5 clocks 6 clocks 7 clocks NW[5:0]: Set number of lines for VCOM inverting. NW[5:0] 6’h00 6’h01 6’h02 : 6’h3E 6’h3F Inversion Lines 1 line 2 lines 3 lines : 63 lines 64 lines Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.127May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.26 RGB interface control 1~4 register (PAGE0 -31h~34h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * RM * * DM1 DM0 R 1 * * * RM * * DM1 DM0 Figure 6.45 RGB interface control 1 register (PAGE0 -31h) R/W DNC RB7 RB6 RB5 W 1 SDA _EN * * R 1 SDA _EN 0 0 RB4 RB3 RB2 RB1 RB0 VSPL HSPL * EPL DPL VSPL HSPL * EPL DPL Figure 6.46 RGB interface control 2 register (PAGE0 -32h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 HBP7 HBP6 HBP5 HBP4 HBP3 HBP2 HBP1 HBP0 R 1 HBP7 HBP6 HBP5 HBP4 HBP3 HBP2 HBP1 HBP0 Figure 6.47 RGB interface control 3 register (PAGE0 -33h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 HBP9 HBP8 VBP5 VBP4 VBP3 VBP2 VBP1 VBP0 R 1 HBP9 HBP8 VBP5 VBP4 VBP3 VBP2 VBP1 VBP0 Figure 6.48 RGB interface control 4 register (PAGE0 -34h) This command is used to set RGB interface related register. RM: Interface slecetion for GRAM access. RM 0 1 Interface for RAM access DBI Interface (CPU) DPI Interface (RGB) DM[1:0]: Display mode selection for DPI interface. DM 1 0 0 1 1 DM 0 0 1 1 1 Display Mode Internal oscillation clock DPI interface(GRAM) RGB data bypass GRAM mode 1 RGB data bypass GRAM mode 2 EPL: Specify the polarity of Enable pin in RGB interface mode. EPL 0 0 1 1 DE pin Low High Low High GRAM address Update Keep Keep Update Write to GRAM Enable Disable Disable Enable Operation Write data to DB17-0 Disable Disable Write data to DB17-0 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.128May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 VSPL: The polarity of VSYNC pin. When VSPL=’0’, the VSYNC signal is Low active. When VSPL=1, the VSYNC signal is High active. HSPL: The polarity of HSYNC pin. When HSPL=’0’, the HSYNC signal is Low active. When HSPL=1, the HSYNC signal is High active. DPL: The polarity of DOTCLK pin. When DPL=’0’, the data is latched by the chip on the rising edge of DOTCLK signal. When DPL=’1’, the data is latched by the chip on the falling edge of DOTCLK signal. HBP and VBP are used to set vertical and horizontal back porch control in RGB I/F bypass GRAM mode 2 (DM[1:0]= ‘11’) HBP[9:0]: Set the delay period from falling edge of HSYNC signal to first valid data in RGB I/F bypass GRAM mode 2. HBP[9:0] 00d 01d 02d 03d 04d : 1021d 1022d 1023d No. of Clock Cycle of DOTCLK Setting Inhibited Setting Inhibited 2 3 4 : 1021 1022 Setting Inhibited VBP[5:0]: Set the delay period from falling edge of VSYNC signal to first valid line in RGB I/F bypass GRAM mode 2. VBP[5:0] 00d 01d 02d 03d 04d : 61d 62d 63d No. of Clock Cycle of HSYNC Setting Inhibited Setting Inhibited 2 3 4 : 61 62 63 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.129May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.27 Panel characteristic control register (PAGE0 -36h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * REV_P ANEL SM_PA NEL GS_PA NEL BGR_P ANEL SS_PA NEL R 1 * * * REV_P ANEL SM_PA NEL GS_PA NEL BGR_P ANEL SS_PA NEL Figure 6.49 Panel characteristic control register (PAGE0 -36h) This command is internal use for display panel setting. REV_PANEL: The source output data polarity selected. When REV_PANEL=0, normally white panel is selected. When REV_PANEL = 1, normally black panel is selected. SM_PANEL: Set the gate driver pin arrangement in combination with the GS bit to slecet the optimal scan mode for the module. Please reference Scan direction of Gate Driver. GS_PANEL: The gate driver output shift direction selected. When GS_PANEL=0, the shift direction don’t reverse. When GS_PANEL = 1, the shift direction will be reversed. BGR_PANEL: The color filter order direction selected. When BGR_PANEL=0, RGB-BGR order don’t reverse. When BGR_PANEL = 1, the color filter order will be reversed. SS_PANEL: The source driver output shift direction selected. When SS_PANEL=0, the shift direction don’t reverse. When SS_PANEL = 1, the shift direction will be reversed. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.130May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.28 OTP control 1~5 register (PAGE0 -38h ~ 3Bh, 87h) R/W DNC D7 D6 D5 D4 D3 D2 D1 D0 OTP_ OTP_ OTP_ MASK6 MASK5 OTP_ MASK4 OTP_ MASK3 OTP_ MASK2 OTP_ MASK1 OTP_ MASK0 OTP_ MASK4 OTP_ MASK3 OTP_ MASK2 OTP_ MASK1 OTP_ MASK0 W 1 MASK7 R 1 OTP_ OTP_ OTP_ MASK7 MASK6 MASK5 Figure 6.50 OTP control 1 (PAGE0 -38h) R/W DNC D7 D6 D5 D4 D3 D2 D1 D0 OTP_ INDEX4 OTP_ INDEX3 OTP_ INDEX2 OTP_ INDEX1 OTP_ INDEX0 OTP_ INDEX4 OTP_ INDEX3 OTP_ INDEX2 OTP_ INDEX1 OTP_ INDEX0 W 1 OTP_ OTP_ OTP_ INDEX7 INDEX6 INDEX5 R 1 OTP_ OTP_ OTP_ INDEX7 INDEX6 INDEX5 Figure 6.51 OTP control 2 (PAGE0 -39h) R/W DNC D7 D6 D5 D4 D3 D2 D1 D0 W 1 * VPP_ OTP_ OTP_ OTP_ OTP_ VPP_ OTP_ EN POR PWE PTM1 PTM0 SEL PROG R 1 * VPP_ OTP_ OTP_ OTP_ OTP_ VPP_ OTP_ EN POR PWE PTM1 PTM0 SEL PROG Figure 6.52 OTP control 3 (PAGE0 -3Ah) R/W DNC R 1 D7 D6 D5 D4 D3 D2 D1 D0 OTP_ DOUT4 OTP_ DOUT3 OTP_ DOUT2 OTP_ DOUT1 OTP_ DOUT0 OTP_ OTP_ OTP_ DOUT7 DOUT6 DOUT5 Figure 6.53 OTP control 4 (PAGE0 -3Bh) R/W DNC D7 D6 D5 D4 D3 D2 D1 D0 W 1 OTP_ OTP_ OTP_ OTP_ OTP_ OTP_ OTP_ KEY7 KEY6 KEY5 KEY4 KEY3 KEY2 KEY1 OTP_ KEY0 R 1 OTP_ OTP_ OTP_ OTP_ OTP_ OTP_ OTP_ KEY7 KEY6 KEY5 KEY4 KEY3 KEY2 KEY1 OTP_ KEY0 Figure 6.54 OTP control 5 (PAGE0 -87h) This command is used to set the OTP related setting. Please see OTP flow for detail use. OTP_MASK[7:0]: OTP bit programming mask, if set to ‘1’, it means the related bit in OTP can not be programmed. OTP_INDEX[7:0]: Set index location in OTP to be programmed. OTP_PROG: When this bit set to “1”, it will programmed to the setting OTP index from related register value.. VPP_SEL: When set to ‘1’, VPP input voltage is fed to OTP. VPP_EN: When written to “1”, OTP power OP is enable. OTP_PTM[1:0]: Internal use, not open. OTP_PWE: Internal use, not open. OTP_POR: When set to ‘1’, OTP data can be read the related OTP Index data at OTP_DOUT[7:0] OTP_DOUT[7:0]: Read OTP data. OTP_KEY[7:0]: Set to “AAh” to enable OTP control register access. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.131May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.29 CABC control 1~4 register (PAGE0 -3Ch~3Fh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 DBV7 DBV6 DBV5 DBV4 DBV3 DBV2 DBV1 DBV0 R 1 DBV7 DBV6 DBV5 DBV4 DBV3 DBV2 DBV1 DBV0 Figure 6.55 CABC control 1 register (PAGE0 -3Ch) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * BCT RL * DD BL * * R 1 * * BCT RL * DD BL * * Figure 6.56 CABC control 2 register (PAGE0 -3Dh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * * CAB C1 CAB C0 R 1 * * * * * * CAB C1 CAB C0 Figure 6.57 CABC control 3 register (PAGE0 -3Eh) R/ W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 CMB 7 CMB 6 CMB 5 CMB 4 CMB 3 CMB 2 CMB 1 CMB 0 R 1 CMB 7 CMB 6 CMB 5 CMB 4 CMB 3 CMB 2 CMB 1 CMB 0 Figure 6.58 CABC control 4 register (PAGE0 -3Fh) These commands are used to set CABC parameter DBV[7:0]: The backlight PWM pulse output duty is equal to DBV[7:0]/255 x CABC_duty. BCTRL: Backlight Control Block On/Off, This bit is always used to switch brightness for display. ‘0’ = Off (Equal to DBV[7:0] = ‘00h’) ‘1’ = On (Brightness registers are active.) DD: Display Dimming (Only for manual brightness setting) ‘0’: Display Dimming is off. ‘1’: Display Dimming is on. BL: Backlight Control On/Off ‘0’ = Off (Completely turn off backlight circuit. Control lines must be low. ) ‘1’ = On Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.132May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Dimming function is adapted to the brightness registers for display when bit BCTRL is changed at DD=1, e.g. BCTRL: 0 -> 1 or 1-> 0. When BL bit change from “On” to “Off”, backlight is turned off without gradual dimming, even if dimming-on (DD=1) are selected. C[1:0]: This command is used to set parameters for image content based adaptive brightness control functionality. There is possible to use 4 different modes for content adaptive image functionality, which are defined on a table below. C1 0 0 1 1 C0 0 1 0 1 Function Off User Interface Image Still Picture Moving Image Note - CMB[7:0]: This command is used to set the minimum brightness value of the display for CABC function. In principle relationship is that 00h value means the lowest brightness for CABC and FFh value means the highest brightness for CABC. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.133May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.30 Gamma control 1~15 register (PAGE0 -40h~4Eh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * KP12 KP11 KP10 * KP02 KP01 KP00 R 1 * KP12 KP11 KP10 * KP02 KP01 KP00 Figure 6.59 Gamma control 1 register (PAGE0 -40h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * KP32 KP31 KP30 * KP22 KP21 KP20 R 1 * KP32 KP31 KP30 * KP22 KP21 KP20 Figure 6.60 Gamma control 2 register (PAGE0 -41h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * KP52 KP51 KP50 * KP42 KP41 KP40 R 1 * KP52 KP51 KP50 * KP42 KP41 KP40 Figure 6.61 Gamma control 3 register (PAGE0 -42h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * RP12 RP11 RP10 * RP02 RP01 RP00 R 1 * RP12 RP11 RP10 * RP02 RP01 RP00 Figure 6.62 Gamma control 4 register (PAGE0 -43h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * VRP0 VRP0 VRP0 VRP0 3 2 1 0 R 1 * * * * VRP0 VRP0 VRP0 VRP0 3 2 1 0 Figure 6.63 Gamma control 5 register (PAGE0 -44h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * VRP1 VRP1 VRP1 VRP1 VRP1 4 3 2 1 0 R 1 * * * VRP1 VRP1 VRP1 VRP1 VRP1 4 3 2 1 0 Figure 6.64 Gamma control 6 register (PAGE0 -45h) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.134May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * KN12 KN11 KN10 * KN02 KN01 KN00 R 1 * KN12 KN11 KN10 * KN02 KN01 KN00 Figure 6.65 Gamma control 7 register (PAGE0 -46h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * KN32 KN31 KN30 * KN22 KN21 KN20 R 1 * KN32 KN31 KN30 * KN22 KN21 KN20 Figure 6.66 Gamma control 8 register (PAGE0 -47h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * KN52 KN51 KN50 * KN42 KN41 KN40 R 1 * KN52 KN51 KN50 * KN42 KN41 KN40 Figure 6.67 Gamma control 9 register (PAGE0 -48h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * RN12 RN11 RN10 * RN02 RN01 RN00 R 1 * RN12 RN11 RN10 * RN02 RN01 RN00 Figure 6.68 Gamma control 10 register (PAGE0 -49h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * VRN0 VRN0 VRN0 VRN0 3 2 1 0 R 1 * * * * VRN0 VRN0 VRN0 VRN0 3 2 1 0 Figure 6.69 Gamma control 11 register (PAGE0 -4Ah) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * VRN1 VRN1 VRN1 VRN1 VRN1 4 3 2 1 0 R 1 * * * VRN1 VRN1 VRN1 VRN1 VRN1 4 3 2 1 0 Figure 6.70 Gamma control 12 register (PAGE0 -4Bh) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.135May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 VRE P13 VRE P12 VRE P11 VRE P10 VRE P03 VRE P02 VRE P01 VRE P00 R 1 VRE P13 VRE P12 VRE P11 VRE P10 VRE P03 VRE P02 VRE P01 VRE P00 Figure 6.71 Gamma control 13 register (PAGE0 -4Ch) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 VRE N03 VRE N02 VRE N01 VRE N00 VRE P23 VRE P22 VRE P21 VRE P20 R 1 VRE N03 VRE N02 VRE N01 VRE N00 VRE P23 VRE P22 VRE P21 VRE P20 Figure 6.72 Gamma control 14 register (PAGE0 -4Dh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 VRE N23 VRE N22 VRE N21 VRE N20 VRE N13 VRE N12 VRE N11 VRE N10 R 1 VRE N23 VRE N22 VRE N21 VRE N20 VRE N13 VRE N12 VRE N11 VRE N10 Figure 6.73 Gamma control 15 register (PAGE0 -4Eh) VRP0[3:0], VRP1[4:0]: Gamma Offset adjustment registers for positive polarity output VRN0[3:0], VRN1[4:0]: Gamma Offset adjustment registers for negative polarity output RP1-0[2:0]: Gamma Center adjustment registers for positive polarity output RN1-0[2:0]: Gamma Center adjustment registers for negative polarity output KP5-0[2:0]: Gamma Macro adjustment registers for positive polarity output KN5-0[2:0]: Gamma Macro adjustment registers for negative polarity output VREP2-0[3:0]: Gamma EEM adjustment registers for positive polarity output VREN2-0[3:0]: Gamma EEM adjustment registers for negative polarity output For details, please refer to 5.7.1.2 Gamma Characteristics Adjustment Register. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.136May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.31 TE control register (PAGE0 -60h, 84h~85h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 TEO N * * * TEO N * * * W 1 * * * TEM ODE R 1 * * * TEM ODE Figure 6.74 TE control register (PAGE0 -60h) R /W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 TSE L15 TSE L14 TSE L13 TSE L12 TSE L11 TSE L10 TSE L9 TSE L8 R 1 TSE L15 TSE L14 TSE L13 TSE L12 TSE L11 TSE L10 TSE L9 TSE L8 Figure 6.75 TE output line2 register (PAGE0 -84h) DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 TSE L7 TSE L6 TSE L5 TSE L4 TSE L3 TSE L2 TSE L1 TSE L0 R 1 TSE L7 TSE L6 TSE L5 TSE L4 TSE L3 TSE L2 TSE L1 TSE L0 R /W Figure 6.76 TE output line1 register (PAGE0 -85h) TEMODE: Specify the Tearing-Effect mode. When TEMODE = ‘0’: The Tearing Effect Output line (TE) consists of V-Blanking information only. When TEMODE =’1’: The Tearing Effect Output Line (TE) consists of both V-Blanking and H-Blanking information Note: During Standby Mode with Tearing Effect Line On, Tearing Effect Output pin active low TEON: This command is used to turn ON the Tearing Effect output signal from the TE signal line. TSEL[15:0]: This command is used to setting TE delay line at TEMODE=”0”. When TSEL[15:0]=16’h0000, TE output is the same as TEMODE=”0”. When Decimal(TSEL[15:0])=n, TE output at n-th line starting. TSEL=0 n-th line n-th line TSEL=n Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.137May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.32 ID register (PAGE0 -61h~63h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 ID17 ID16 ID15 ID14 ID13 ID12 ID11 ID10 R 1 ID17 ID16 ID15 ID14 ID13 ID12 ID11 ID10 Figure 6.77 ID1 register (PAGE0 -61h) R /W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 ID27 ID26 ID25 ID24 ID23 ID22 ID21 ID20 R 1 ID27 ID26 ID25 ID24 ID23 ID22 ID21 ID20 Figure 6.78 ID2 register (PAGE0 -62h) R /W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 ID37 ID36 ID35 ID34 ID33 ID32 ID31 ID30 R 1 ID37 ID36 ID35 ID34 ID33 ID32 ID31 ID30 Figure 6.79 ID3 register (PAGE0 -63h) ID1~ID3: ID setting related register. 6.33 Memory write control register (PAGE0 -68h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * * WEM ODE * R 1 * * * * * * WEM ODE * Figure 6.80 Memory write control register (PAGE0 -68h) WEMODE: Memory write control register. WEMODE = ‘0’: When the transfer number of data exceeds (EC-SC+1)*(EP-SP+1), the exceeding data will be ignored. WEMODE = ‘1’: When the transfer number of data exceeds (EC-SC+1)*(EP-SP+1), the column and page number will be reset, and the exceeding data will be written into the following column and page. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.138May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.34 TE interval control register (PAGE0 -69h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * TEI2 TEI1 TEI0 R 1 * * * * * TEI2 TEI1 TEI0 Figure 6.81 TE interval control register (PAGE0 -69h) TEI[2:0]: TE output interval control. TEI[2:0] 3’b000 3’b001 3’b010 3’b011 3’b100 3’b101 3’b110 3’b111 TE Output Interval 1 frame 2 frame 3 frame 4 frame 5 frame 6 frame 7 frame 8 frame 6.35 RGB SRAM cycle control register (PAGE0 -6Ah) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * DEN C2 DEN C1 DEN C0 R 1 * * * * * DEN C2 DEN C1 DEN C0 Figure 6.82 RGB SRAM cycle control register (PAGE0 -6Ah) DENC[2:0]: Set the GRAM write cycle through the RGB interface. DENC[2:0] 3’b000 3’b001 3’b010 3’b011 3’b100 3’b101 3’b110 3’b111 GRAM Write Cycle 1 frame 2 frame 3 frame 4 frame 5 frame 6 frame 7 frame 8 frame Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.139May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.36 Data format control register (PAGE0 -6Bh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * EPF1 EFP0 * * * DFM R 1 * * EPF1 EPF0 * * * DFM Figure 6.83 Data format control register (PAGE0 -6Bh) EPF[1:0]: Set the data mapping 16-bit/pixel data to 18-bit internal GRAM. EPF[1:0] Gate Outputs in Non-display Area 2’b00 r[5:0] = {R[4:0],0} g[5:0] = G[5:0] b[5:0] = {B[4:0],0} Exception: R[4:0], B[4:0]=5’h1F => r[5:0], b[5:0]=6’h3E 2’b01 r[5:0] = {R[4:0],1} g[5:0] = G[5:0] b[5:0] = {B[4:0],1} Exception: R[4:0], B[4:0]=5’h00 => r[5:0], b[5:0]=6’h01 2’b10 r[5:0] = {R[4:0],R[4]} g[5:0] = G[5:0] b[5:0] = {B[4:0],B[4]} 2’b11 Compare R[4:0], G[5:1] and B[4:0] : Case 1: R=G=B => r[5:0] = {R[4:0], G[0]}, g[5:0] = G[5:0], b[5:0] = {B[4:0], G[0]} Case 2: R=B≠G => r[5:0] = {R[4:0], R[4]}, g[5:0] = G[5:0], b[5:0] = {B[4:0], B[4]} Case 3: R=G≠B => r[5:0] = {R[4:0], G[0]}, g[5:0] = G[5:0], b[5:0] = {B[4:0], B[4]} Case 4: B=G≠R => r[5:0] = {R[4:0], R[4]}, g[5:0] = G[5:0], b[5:0] = {B[4:0], G[0]} DFM: No function. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.140May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.37 Frame rate control 1~8 register (PAGE0 -70h~77h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * BC0 * * DIV0 1 DIV0 0 R 1 * * * BC0 * * DIV0 1 DIV0 0 Figure 6.84 Frame rate control 1 register (PAGE0 -70h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * RTN0 RTN0 RTN0 RTN0 RTN0 4 3 2 1 0 R 1 * * * RTN0 RTN0 RTN0 RTN0 RTN0 4 3 2 1 0 Figure 6.85 Frame rate control 2 register (PAGE0 -71h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 BP07 BP06 BP05 BP04 BP03 BP02 BP01 BP00 R 1 BP07 BP06 BP05 BP04 BP03 BP02 BP01 BP00 Figure 6.86 Frame rate control 3 register (PAGE0 -72h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 FP07 FP06 FP05 FP04 FP03 FP02 FP01 FP00 R 1 FP07 FP06 FP05 FP04 FP03 FP02 FP01 FP00 Figure 6.87 Frame rate control 4 register (PAGE0 -73h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * BC2 * * DIV2 1 DIV2 0 R 1 * * * BC2 * * DIV2 1 DIV2 0 Figure 6.88 Frame rate control 5 register (PAGE0 -74h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * RTN2 RTN2 RTN2 RTN2 RTN2 4 3 2 1 0 R 1 * * * RTN2 RTN2 RTN2 RTN2 RTN2 4 3 2 1 0 Figure 6.89 Frame rate control 6 register (PAGE0 -75h) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.141May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 BP27 BP26 BP25 BP24 BP23 BP22 BP21 BP20 R 1 BP27 BP26 BP25 BP24 BP23 BP22 BP21 BP20 Figure 6.90 Frame rate control 7 register (PAGE0 -76h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 FP27 FP26 FP25 FP24 FP23 FP22 FP21 FP20 R 1 FP27 FP26 FP25 FP24 FP23 FP22 FP21 FP20 Figure 6.91 Frame rate control 8 register (PAGE0 -77h) BC0: Used to select Normal/Partial mode VCOM drive waveform. BC2: Used to select Idle mode VCOM drive waveform. ‘0’: Frame inversion waveform is selected ‘1’: Line inversion waveform is selected. DIV0[1:0]: Used to set Normal/Partial mode division ratio of internal clock frequency. The internal operation is synchronized with the frequency divided internal clock. When DIV0 setting is changed, the width od the reference clock for LC control signals is changed. The frame frequency can be adjusted by register setting (RTN and DIV bits) DIV2[1:0]: Used to set Idle mode division ratio of internal clock frequency. The internal operation is synchronized with the frequency divided internal clock. When DIV2 setting is changed, the width od the reference clock for LC control signals is changed. The frame frequency can be adjusted by register setting (RTN and DIV bits) DIV0/2[1:0] Division Ratio 2’b00 2’b01 2’b10 2’b11 fosc/1 fosc/2 fosc/4 fosc/8 RTN0[4:0]: Specify Normal/Partial mode clock number of one line period for internal operation. RTN2[4:0]: Specify Idle mode clock number of one line period for internal operation. RTN0/2[4:0] 5’b00000 5’b00001 5’b00010 5’b00011 5’b00100 5’b00101 5’b00110 5’b00111 5’b01000 5’b01001 5’b01010 5’b01011 Clock cycles=1/internal operation clock frequency(fosc) Clock number per Line RTN0/2[4:0] Clock number per Line Setting Inhibited 5’b10000 132 Setting Inhibited 5’b10001 133 Setting Inhibited 5’b10010 134 Setting Inhibited 5’b10011 135 Setting Inhibited 5’b10100 136 Setting Inhibited 5’b10101 137 Setting Inhibited 5’b10110 138 Setting Inhibited 5’b10111 139 Setting Inhibited 5’b11000 140 Setting Inhibited 5’b11001 141 Setting Inhibited 5’b11010 142 127 5’b11011 143 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.142May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 5’b01100 5’b01101 5’b01110 5’b01111 128 129 130 131 5’b11100 5’b11101 5’b11110 5’b11111 144 145 146 147 BP0[7:0]: Specify Normal/Partial mode back porch lines. BP2[7:0]: Specify Idle mode back porch lines. FP0[7:0]: Specify Normal/Partial mode front porch lines. FP2[7:0]: Specify Idle mode front porch lines. BP0/2[7:0], FP0/2[7:0] Line number of back/front porch 000d 001d 002d 003d 004d : 127d 128d 129d 130d 131d 132d : 142d others 15 16 17 18 19 : 142 Setting Inhibited Setting Inhibited 2 3 4 : 14 Setting Inhibited Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.143May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.38 Power control 6~11 register (PAGE0 -7Ah~7Fh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * SAP0 SAP0 SAP0 2 1 0 R 1 * * * * * SAP0 SAP0 SAP0 2 1 0 Figure 6.92 Power control 6 register (PAGE0 -7Ah) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * DC10 DC10 DC10 2 1 0 * DC00 DC00 DC00 2 1 0 R 1 * DC10 DC10 DC10 2 1 0 * DC00 DC00 DC00 2 1 0 Figure 6.93 Power control 7 register (PAGE0 -7Bh) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * SAP1 SAP1 SAP1 2 1 0 R 1 * * * * * SAP1 SAP1 SAP1 2 1 0 Figure 6.94 Power control 8 register (PAGE0 -7Ch) R/W DNC RB7 RB6 RB5 RB4 W 1 * DC11 DC11 DC11 2 1 0 R 1 * DC11 DC11 DC11 2 1 0 RB3 RB2 RB1 RB0 * DC01 DC01 DC01 2 1 0 * DC01 DC01 DC01 2 1 0 Figure 6.95 Power control 9 register (PAGE0 -7Dh) R/W DNC RB7 RB6 RB5 RB4 RB3 W 1 * * * * * SAP2 SAP2 SAP2 2 1 0 R 1 * * * * * SAP2 SAP2 SAP2 2 1 0 RB2 RB1 RB0 Figure 6.96 Power control 10 register (PAGE0 -7Eh) R/W DNC RB7 RB6 RB5 RB4 W 1 * DC12 DC12 DC12 2 1 0 R 1 * DC12 DC12 DC12 2 1 0 RB3 RB2 RB1 RB0 * DC02 DC02 DC02 2 1 0 * DC02 DC02 DC02 2 1 0 Figure 6.97 Power control 11 register (PAGE0 -7Fh) SAP0[2:0]: Used to adjust the Normal mode constant current in the operational amplifier circuit in the LCD power supply circuit. Larger constant current enhances the driving ability of the LCD, but it also increases the current consumption. In no-display period, set SAP0[2:0]=3’b000 to halt the operational amplifier circuit and the step-up circuits to reduce current consumption. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.144May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 SAP1[2:0]: Used to adjust the Partial mode constant current in the operational amplifier circuit in the LCD power supply circuit. Larger constant current enhances the driving ability of the LCD, but it also increases the current consumption. In no-display period, set SAP1[2:0]=3’b000 to halt the operational amplifier circuit and the step-up circuits to reduce current consumption. SAP2[2:0]: Used to adjust the Idle mode constant current in the operational amplifier circuit in the LCD power supply circuit. Larger constant current enhances the driving ability of the LCD, but it also increases the current consumption. In no-display period, set SAP2[2:0]=3’b000 to halt the operational amplifier circuit and the step-up circuits to reduce current consumption. SAP0/1/2[2:0] 3’b000 3’b001 3’b010 3’b011 3’b100 3’b101 3’b110 3’b111 Gamma Driver Amplifier Halt operation 1.00 1.00 1.00 0.75 0.75 0.75 0.50 Source Driver Amplifier Halt operation 1.00 0.75 0.50 1.00 0.75 0.50 0.50 DC00[2:0]: Set the operating frequency of the step-up circuit 1 and extra step-up circuit 1 for DDVDH voltage generation in Normal mode. DC01[2:0]: Set the operating frequency of the step-up circuit 1 and extra step-up circuit 1 for DDVDH voltage generation in Partial mode. DC02[2:0]: Set the operating frequency of the step-up circuit 1 and extra step-up circuit 1 for DDVDH voltage generation in Idle mode. DC00/1/2[2:0] Operation Frequency of Step-up Circuit 1 and Extra Step-up circuit 1 3’b000 3’b001 3’b010 3’b011 3’b100 3’b101 3’b110 3’b111 ¼ x H Line Frequency ½ x H Line Frequency 1 x H Line Frequency 1.5 x H Line Frequency 2 x H Line Frequency 3 x H Line Frequency 4 x H Line Frequency 8 x H Line Frequency DC10[2:0]: Set the operating frequency of the step-up circuit 2 and 3 for VGH, VGL and VCL voltage generation in Normal mode. DC11[2:0]: Set the operating frequency of the step-up circuit 2 and 3 for VGH, VGL and VCL voltage generation in Partial mode. DC12[2:0]: Set the operating frequency of the step-up circuit 2 and 3 for VGH, VGL and VCL voltage generation in Idle mode. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.145May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 DC10/1/2[2:0] Operation Frequency of Step-up Circuit 2, Step-up Circuit 3 3’b000 3’b001 3’b010 3’b011 3’b100 3’b101 3’b110 3’b111 ¼ x H Line Frequency ½ x H Line Frequency 1 x H Line Frequency 1.5 x H Line Frequency 2 x H Line Frequency 3 x H Line Frequency 4 x H Line Frequency 8 x H Line Frequency 6.39 VPP voltage control register (PAGE0 -86h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * VPP2 VPP1 VPP0 R 1 * * * * * VPP2 VPP1 VPP0 Figure 6.98 VPP voltage control register (PAGE0 -86h) VPP[2:0]: Internal generated OTP VPP voltage setting. VPP2 0 0 0 0 1 1 1 1 VPP1 0 0 1 1 0 0 1 1 VPP0 0 1 0 1 0 1 0 1 VPP Voltage 7.2V 7.3V 7.4V 7.5V 7.6V 7.7V 7.8V Exrenal VPP Supplied 6.40 Get scan line 1~2 register (PAGE0 -88h~89h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 R 1 SL15 SL14 SL13 SL12 SL11 SL10 SL9 SL8 Figure 6.99 Get scan line 2 register (PAGE0 -88h) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 R 1 SL7 SL6 SL5 SL4 SL3 SL2 SL1 SL0 Figure 6.100 Get scan line 1 register (PAGE0 -89h) SL[15:0]: The display module returns the current scanline, N, used to update the display device. The total number of scanlines on a display device is defined as VSYNC + VBP + VACT + VFP. The first scanline is defined as the first line of V Sync and is denoted as Line 0. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.146May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.41 Read VCOM OTP times register (PAGE0 -R8Ah) R/W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 R 1 0 0 0 0 VCOM_ OTP_TI MES3 VCOM_ OTP_TI MES2 VCOM_ OTP_TI MES1 VCOM_ OTP_TI MES0 Figure 6.101 Read VCOM OTP times register (PAGE0 -R8Ah) VCOM_OTP_TIMES[3:0]: Read VCOM OTP programmed times. VCOM_OTP_TIMES[3:0] VCOM OTP programmed times 4’b0000 Not programmed 1 time 4’b0001 2 times 4’b0010 3 times 4’b0011 4 times 4’b0100 5 times 4’b0101 6 times 4’b0110 7 times 4’b0111 8 times 4’b1000 6.42 Read ID OTP times register (PAGE0 -R8Bh) R/W R DNC 1 RB7 0 RB6 0 RB5 0 RB4 RB3 RB2 RB1 RB0 0 ID_OT P_TIM ES3 ID_OT P_TIM ES2 ID_OT P_TIM ES1 ID_OT P_TIM ES0 Figure 6.102 Read ID OTP times register (PAGE0 -R8Bh) ID_OTP_TIMES[3:0]: Read ID OTP programmed times. ID_OTP_TIMES[3:0] 4’b0000 4’b0001 4’b0010 4’b0011 4’b0100 4’b0101 4’b0110 4’b0111 4’b1000 ID OTP programmed times Not programmed 1 time 2 times 3 times 4 times 5 times 6 times 7 times 8 times Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.147May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.43 Command page select register (RFFh) R/ W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 PAGE _SEL 0 PAGE _SEL 0 W 1 * * * * * * PAGE _SEL 1 R 1 0 0 0 0 0 0 PAGE _SEL 1 Figure 6.103 Command page select register (RFFh) PAGE_SEL[1:0]: Command set page select. PAGE_SEL1 0 0 PAGE_SEL0 0 1 Command Page Page 0 Page 1 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.148May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.44 DGC control register (PAGE1 -00h) R /W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 * * * * * * * DGC _EN R 1 0 0 0 0 0 0 0 DGC _EN Figure 6.104 DGC control register (PAGE1 -00h) DGC_EN: Digital gamma correction enable. 0: Disable 1: Enable 6.45 DGC LUT register (PAGE1 -01h~63h) R /W DNC RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 W 1 D7 D6 D5 D4 D3 D2 D1 D0 R 1 D7 D6 D5 D4 D3 D2 D1 D0 Figure 6.105 DGC LUT register (PAGE1 -01h~63h) There are 99 bytes DGC LUT to set R, G, B gamma independently. When DGC_EN=1, R, G, B gamma will mapping V0, V2, V4, ...., V60, V62, V63 voltage to the LUT register setting gray level voltage of real gamma. V(2N+1) = (V(2N) + V(2N+2))/2 (N=0~30). LUT R01h R02h R03h : : R20h R21h R22h R23h R24h : : R41h R42h R43h R44h R45h : : R62h R63h D7 R007 R017 R027 : : R317 R327 G007 G017 G027 : : G317 G327 B007 B017 B027 : : B317 B327 D6 R006 R016 R026 : : R316 R326 G006 G016 G026 : : G316 R326 B006 B016 B026 : : B316 B326 D5 R005 R015 R025 : : R315 R325 G005 G015 G025 : : G315 G325 B005 B015 B025 : : B315 B325 D4 R004 R014 R024 : : R314 R324 G004 G014 G024 : : G314 G324 B004 B014 B024 : : B314 B324 D3 R003 R013 R023 : : R313 R323 G003 G013 G023 : : G313 G323 B003 B013 B023 : : B313 B323 D2 R002 R012 R022 : : R312 R322 G002 G012 G022 : : G312 G322 B002 B012 B022 : : B312 B322 D1 R001 R011 R021 : : R311 R321 G001 G011 G021 : : G311 G321 B001 B011 B021 : : B311 B321 D0 R000 R010 R020 : : R310 R320 G000 G010 G020 : : G310 G320 B000 B010 B020 : : B310 B320 Default Gray Mapping 00h R_V0 08h R_V2 10h R_V4 : : : : F8h R_V62 FCh R_V63 00h G_V0 08h G_V2 10h G_V4 : : : : F8h G_V62 FCh G_V63 00h B_V0 08h B_V2 10h B_V4 : : : : F8h B_V62 FCh B_V63 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.149May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 6.46 CABC control 5 & 7 register (PAGE1 –C3h, C5h) R/W DNC W 1 R 1 RB7 LED ONP OL LED ONP OL RB6 RB5 RB4 PWM DIV2 PWM DIV1 PWM DIV0 PWM DIV2 PWM DIV1 PWM DIV0 RB3 RB2 SEL_ GAIN 1 SEL_ GAIN 1 SEL_ GAIN 0 SEL_ GAIN 0 RB1 INVP LUS INVP LUS RB0 SEL_ BLDU TY SEL_ BLDU TY Figure 6.106 CABC control 5 register (PAGE1 –C3h) R/W DNC W 1 R 1 RB7 RB6 RB5 RB4 RB3 RB2 RB1 RB0 PWM PWM PWM PWM PWM PWM PWM PWM _PER _PER _PER _PER _PER _PER _PER _PER IOD7 IOD6 IOD5 IOD4 IOD3 IOD2 IOD1 IOD0 PWM PWM PWM PWM PWM PWM PWM PWM _PER _PER _PER _PER _PER _PER _PER _PER IOD7 IOD6 IOD5 IOD4 IOD3 IOD2 IOD1 IOD0 Figure 6.107 CABC control 7 register (PAGE1 –C5h) LEDONPOL: The control reigister for LED driver when IC needs enable signal. ‘0’: LEDONPOL pin=’L’. ‘1’: LEDONPOL pin=’H’. PWMDIV[2:0]: Internal PWM_CLK divider for CABC clock. PWMDIV[2:0] 0 1 2 3 4 5 6 7 Divider PWM_CLK/1 PWM_CLK/2 PWM_CLK/4 PWM_CLK/8 PWM_CLK/16 PWM_CLK/32 PWM_CLK/64 PWM_CLK/128 SEL_GAIN[1:0]: CABC gain select. (Not Open) SEL_BLDUTY: The backlight PWM output duty on/off control when CABC operated. ‘0’: The backlight PWM output duty is 100%. ‘1’: The backlight PWM output duty is calculated from CABC operation. INVPULS: The backlight PWM output polarity select. ‘0’, The backlight PWM output is low level active. ‘1’, The backlight PWM output is high level active. PWM_PERIOD[7:0] : The backlight PWM output period setting. Backlight PWM output period = 1 / (PWM_CLK / clock divider (PWMDIV)) x (255x(PWM_PERIOD[7:0]+1)) Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.150May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 7. Layout Recommendation 7.1 Layout Recommendation Panel_VCOM A2 10 Ω C22 10 Ω 10 Ω C21 10 Ω 10 Ω C31 10 Ω C5 10 Ω 10 Ω C1 10 Ω 10 Ω C2 10 Ω 10 Ω VCI (2.5V~3.3V) 10 Ω C4 10 Ω 10 Ω C12 10 Ω 10 Ω C11 10 Ω VREG1 50 Ω VTEST 100 Ω TE 10 Ω VGS 10 100ΩΩ 10 Ω 10 Ω C3 10 Ω SDO SDI_SDA TE 100 Ω 100 Ω 100 Ω NRD 10 Ω 100 Ω DNC 100 Ω 100 Ω NWR_SCL NCS 100 Ω 10 Ω DB0 100 Ω DB2 100 Ω 100 Ω DB1 100 Ω DB3 10 Ω DB4 DB5 100 Ω 100 Ω DB6 DB7 100 Ω 100 Ω DB8 IOVCC (1.65V~3.3V) 10 Ω 100 Ω 10 Ω DB9 100 Ω DB10 DB11 100 Ω 100 Ω 10 Ω DB12 DB13 DB14 100 Ω 100 Ω 100 Ω 100 Ω DB15 10 Ω DB16 DB17 PCLK DE 100 Ω 100 Ω 100 Ω 100 Ω HSYNC VSYNC CABC_PWM_OUT LEDON 10 Ω 100 Ω 100 Ω 100 Ω 100 Ω 10 Ω NRESET IFSEL 100 Ω 100 Ω 10 Ω IM0 100 Ω 100 Ω IM2 100 Ω IM1 10 Ω 100 Ω VCI (2.5V~3.3V) 10 Ω 10 Ω 10 Ω 10 Ω 10 Ω DUMMY36 C22N C22N C22N C22P C22P C22P C21N C21N C21N C21P C21P C21P C13N C13N C13N C13P C13P C13P VCL VCL VCL VSSD VGH VGH VGH VGH VGH VGH VSSD VSSD VGL VGL VGL VGL VGL VGL VGL VGL VGL VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD DUMMY31 DUMMY31 DUMMY31 DUMMY31 DUMMY31 VCI VCI VCI VCI VCI VCI VCI VCI VCI VCI VCI DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH DDVDH C12N C12N C12N C12N C12N C12P C12P C12P C12P C12P C11N C11N C11N C11N C11N C11P C11P C11P C11P C11P DUMMY30 VREG1 DUMMY29 VTEST VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VGS VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VCOML_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOMH_DUMMY VCOM VCOM VCOM VCOM VCOM VCOM VCOM VCOM DUMMY28 VDDD VDDD VDDD VDDD VDDD VDDD VDDD VDDD VDDD SDO SDI_SDA TE VSSD NRD NWR_SCL DNC NCS VSSD DB0 DB1 DB2 DB3 VSSD DB4 DB5 DB6 DB7 VSSD DB8 IOVCC IOVCC IOVCC IOVCC IOVCC IOVCC DB9 DB10 DB11 VSSD DB12 DB13 DB14 DB15 VSSD DB16 DB17 PCLK DE IOVCC HSYNC VSYNC CABC_PWM_OUT LEDON VSSD NRESET IFSEL IOVCC IM0 IM1 IM2 DUMMY27 VSSD TEST1 TEST2 DUMMY25 DUMMY25 OSC TS0 TS1 TS2 TS3 TS4 TS5 TS6 TS7 DUMMY24 VCI VCI VCI VCI VCI VCI VCI VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD VSSD DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 DUMMY19 VSSD DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 DUMMY5 VSSD DUMMY1 DUMMY1 DUMMY1 DUMMY1 VSSD DUMMYR2 DUMMYR1 DUMMY37 DUMMY38 DUMMY39 VGL G2 G4 G6 G8 G10 G12 G16 G14 G18 G20 G410 G414 G412 G418 G420 G422 G424 G426 G428 G432 G430 VGL G416 DUMMY40 S720 S719 S718 S717 S716 S715 S714 S713 S712 S711 S710 S709 S375 S374 S373 S372 S371 S369 S367 X (0,0) S708 S370 S368 S366 S365 S364 S363 S362 S361 DUMMY41 DUMMY42 DUMMY43 DUMMY44 Y Pin Assignment HX8352-C Face Down DUMMY45 DUMMY46 DUMMY47 DUMMY48 S360 S359 S358 S357 S356 S355 S354 S353 S351 S352 S349 S348 S347 S346 S350 S12 S11 S10 S9 S8 S7 S6 S5 S3 S4 S2 S1 DUMMY49 VGL G431 G427 G423 G419 G429 G425 G421 G417 G415 G413 G411 G409 G19 G17 G15 G11 G13 G7 G5 G3 G1 G9 VGL DUMMY50 DUMMYR2 DUMMYR1 A1 Panel_VCOM Figure 7.1: Layout Recommendation Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.151May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 7.2 Maximum layout resistance Name Type Maximum series resistance 10 10 10 10 100 100 100 100 100 100 10 10 10 50 10 10 10 10 100 IOVCC Power supply VCI Power supply VSSD Power supply VSSA Power supply IFSEL, IM[2:0] Input NRD, NWR_SCL, DNC, NCS, NRESET Input HSYNC, VSYNC, DE, PCLK Input SDI_SDA Input + Output DB[17:0] Output SDO, CABC_PWM_OUT, LEDON, TE Output VCOM Output VDDD Capacitor Connection DDVDH Capacitor Connection VREG1 Output VGS Power supply VCL Capacitor Connection VGL Capacitor Connection VGH Capacitor Connection OSC Input C11P,C11N,C12P,C12N,, C21P,C21N,C22P,C22N, Capacitor Connection C31P,C31N TEST[2:1] Input VTEST, TS[7:0] Output Table 7.1: Maximum Layout Resistance Unit Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω Ω 10 Ω 100 100 Ω Ω Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.152May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 7.3 External Components Connection Internal charge pumping mode: Symbol Pad Name Connection C1 C2 C11 C12 C21 C22 C31 C3 C4 C5 VGH VGL C11P – C11N C12P – C12N C21P – C21N C22P – C22N C31P – C31N VDDD DDVDH VCL Connect to Capacitor (Min. 25V): VGH ---(+)----| |--- (-)----- VSSA Connect to Capacitor (Min. 16V): VGL ---(+)----| |--- (-)----- VSSA Connect to Capacitor (Min. 6V): C11P ---(+)----| |--- (-)-----C11N Connect to Capacitor (Min. 6V): C12P ---(+)----| |--- (-)-----C12N Connect to Capacitor (Min. 10V): C21P ---(+)----| |--- (-)-----C21N Connect to Capacitor (Min. 10V): C22P ---(+)----| |--- (-)-----C22N Connect to Capacitor (Min. 6V): C31P ---(+)----| |--- (-)-----C31N Connect to Capacitor (Min. 6V): VDDD ---(+)----| |--- (-)-----VSSD Connect to Capacitor (Min. 10V):DDVDH ---(+)----| |--- (-)-----VSSA Connect to Capacitor (Min. 6V):VCL ---(+)----| |--- (-)-----VSSA Typical Component Value 1 µF 1 µF 1 µF 1 µF 1 µF 1 µF 1 µF 1 µF 1 µF 1 µF Table 7.2: Adoptability of component Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.153May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8. Electrical Characteristics 8.1 Absolute maximum ratings The absolute maximum ratings are list on Table 8.1. When used out of the absolute maximum ratings, the LSI may be permanently damaged. Using the LSI within the following electrical characteristics limit is strongly recommended for normal operation. If these electrical characteristic conditions are exceeded during normal operation, the LSI will malfunction and cause poor reliability. Item Power Supply Voltage 1 Power Supply Voltage 2 Power Supply Voltage 3 Power Supply Voltage 4 Power Supply Voltage 5 Power Supply Voltage 6 Power Supply Voltage 6 Operating Temperature Storage Temperature Symbol Unit Value Note IOVCC~ VSSD VCI ~ VSSA DDVDH ~ VSSA VSSA ~ VCL DDVDH ~ VCL VGH ~ VSSA VSSA ~ VGL Topr Tstg V V V V V V V °C °C -0.3 to +4.6 -0.3 to +4.6 -0.3 to +6.6 -0.3 to +4.6 -0.3 to +9 -0.3 to 18.5 -16.5 to 0 -40 to +85 -55 to +110 Note (1),(3) Note (4) Note (5) Note (6) Note (7) Note (8) Note (9) Note (10) Note (1),(2) Note: (1) IOVCC, VCI, VSSD, VSSSA must be maintained. (2) To make sure IOVCC ≥ VSSD. (3) To make sure VCI ≥ VSSA. (4) To make sure DDVDH ≥ VSSA. (5) To make sure VSSA ≥ VCL. (6) To make sure DDVDH ≥ VCL (7) To make sure VGH ≥ VSSA. (8) To make sure VSSA ≥ VGL VGH +|VGL| < 32V (9) For die and wafer products, specified up to +85℃. (10) This temperature specifications apply to the TCP package. Table 8.1: Absolute maximum rating Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.154May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8.2 DC characteristics (VCI=2.5 ~ 3.3V, IOVCC=1.65~3.3V, T A=-40 ~ 85 °C) Item Symbol Unit Test condition Max. VIH VIL V V IOVCC=1.65 ~ 3.3V IOVCC=1.65 ~ 3.3V Min. 0.7xIOVCC -0.3V Typ. Input high voltage Input low voltage Output high voltage ( DB0-17 Pins, SDA/SDO) Output low voltage ( DB0-17 Pins, SDA/SDO) I/O leakage current Current consumption during normal operation ( IOVCC-VSSD ) - IOVCC 0.3xIOVCC VOH1 V IOH= -1mA 0.8xIOVCC - - VOL1 V IOVCC=1.65 ~ 2.4V IOL=1mA - - 0.2xIOVCC ILi µA Vin=0 ~ IOVCC -1 - 1 IOP(IOVCC) µA - 850 - - 6.5 - - - 60 - - 10 Current consumption during normal operation ( VCI – VSSA ) Current consumption during standby mode ( IOVCC-VSSD ) Current consumption during standby mode (VCI-VSSA) IOP(VCI) mA IST(IOVCC) µA IOVCC=VCI=2.8V , Ta=25°C , GRAM data=0000h, Frame rate=60Hz, REV=0, AP=011, DC0=100, DC1=100, BT=010, VCIRE=1, VRH=01000, VCOMG=1 IOVCC=2.8V, VCI=2.8V , Ta=25°C IST(VCI) µA ±10 ±20 DOS mV VSSD+1.0V ~ VREG1-1.0V VSSD+0.1V ~ VSSD+1.0V VREG1-1.0V ~ VERG1-.01V - Output voltage deviation - ±30 ±50 Dispersion of the Average Output Voltage V mV - - - 35 Table 8.2: DC characteristic Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.155May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8.3 AC characteristics 8.3.1 8080 system interface characteristics Figure 8.1: I80 interface characteristics (VSSA=0V, IOVCC=1.8V, VCI=2.8V, T A=25°C) Signal Symbol Parameter Min. Max. tAST Address setup time 0 DNC tAHT Address hold time (Write/Read) 10 tCS Chip select setup time (Write) 15 tRCS Chip select setup time (Read register) 45 NCS Chip select setup time (GRAM) 355 tRCS tCSF Chip select wait time (Write/Read) 10 tWC Write cycle (1 pixel/1 time) 100 tWC Write cycle (1 pixel/2 or 3 times) 50 NWR_SCL tWRH Control pulse “H” duration 15 tWRL Control pulse “L” duration 15 tRC Read cycle (read register) 160 tRC Read cycle (GRAM) 450 NRD tRDH Control pulse “H” duration 90 tRDL Control pulse “L” duration(read register) 45 tRDL Control pulse “L” duration(GRAM) 355 tWDT Data setup time 10 tWHT Data hold time 10 DB[17:0] tRACC Read access time(read register) 40 tRACC Read access time(GRAM) 340 tROH Output disable time 20 80 Note: The input signal rise time and fall time (tr, tf) is specified at 15 ns or less. Logic high and low levels are specified as 30% and 70% of IOVCC for Input signals. Unit Description ns - ns - ns - ns - ns For maximum CL=30pF For minimum CL=8pF Table 8.3: I80 interface characteristics Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.156May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8.3.2 Serial interface characteristics Figure 8.2: Serial interface characteristics (VSSA=0V, IOVCC=1.8V, VCI=2.8V, T A = 25°C) Signal Symbol Parameter Min. Max. Unit tCSS Chip select setup time (Write) 15 Chip select setup time (Read) 60 tCSS NCS ns tCSH Chip select hold time (Write) 15 tCSH Chip select hold time (Read) 65 tAST Address setup time 0 DNC ns tAHT Address hold time (Write/Read) 10 tWC Write cycle 20 NWR_SCL Control pulse “H” duration tWRH 10 ns (Write) Control pulse “L” duration tWRL 10 tRC Read cycle 150 NWR_SCL tRDH Control pulse “H” duration 60 ns (Read) tRDL Control pulse “L” duration 60 SDI_SDA tDS Data setup time 10 ns (Input) tDT Data hold time 10 SDA, SDO tRACC Read access time 10 50 ns (Output) tOD Output disable time 15 50 Note: The input signal rise time and fall time (tr, tf) is specified at 15 ns or less. Logic high and low levels are specified as 30% and 70% of IOVCC for Input signals. Description - - - For maximum CL=30pF For minimum CL=8pF Table 8.4: Serial interface characteristics Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.157May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8.3.3 RGB interface characteristics Figure 8.3: General timings for RGB I/F-1 (TA=25°C, IOVCC=1.65~3.3V, VCI=2.5~3.3V, VSSA=0V) Item Vertical sync. Setup Time Vertical sync. Hold Time Horizontal sync. Setup Time Horizontal sync. Hold Time Pixel Clock Cycle Pixel Clock Setup Time Pixel Clock High Time Data Setup Time DB[17:0], Enable Data Hold Time DB[17:0], Enable Symbol Condition VSST VSHT HSST HSHT PCLKCYC PLCKLT PCLKHT DST DHT 18-/ 16-bit - Min. 10 10 10 10 100 10 10 10 10 Spec. Typ. - Max. - Unit ns ns ns ns ns ns ns ns ns Note: (1) Signal rise and fall times are equal or less than 20ns. (2) Measure of input signals are using 0.3xIOVCC for low state and 0.7xIOVCC for high state. Table 8.5: RGB interface characteristics-1 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.158May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 Figure 8.4: General timings for RGB I/F-2 Item Vertical Timing Vertical cycle period Vertical low pulse width Vertical front porch Vertical back porch Vertical blanking period Vertical active area Symbol Condition TVP TVS TVFP TVBP TVBL TVS + TVBP + TVFP TVDISP - Min 438 2 2 2 6 - Specification Type. 2 2 6 10 432 Max 503 6 63 71 80 Vertical refresh rate TVRR Frame rate 50 60 Horizontal Timing Horizontal cycle period THP 246 1008 Horizontal low pulse width THS 2 2 256 Horizontal front porch THFP 2 2 256 Horizontal back porch THBP 2 6 256 Horizontal blanking period THBL THS + THBP + THFP 6 10 768 (through mode) Horizontal blanking period THBL THS + THBP + THFP 47 51 768 (capture mode) Horizontal active area THDISP 240 Pixel clock cycle fCLKCYC 5.39 10 Note: (1) IOVCC=1.65 to 3.3V, VCI=2.5 to 3.3V, VSSA=VSSD=0V, Ta=-30 to 70℃ (to +85℃ no damage) (2) Data lines can be set to “High” or “Low” during blanking time – Don’t care. (3) HP is multiples of PCLK. Unit HS HS HS HS HS HS HS HS Hz PCLK PCLK PCLK PCLK PCLK PCLK PCLK MHz Table 8.6: RGB interface characteristics-2 Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.159May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 8.3.4 Reset input timing Figure 8.5: Reset input timing Symbol tRESW tREST Parameter (1) Reset low pulse width Reset operating time (2) Related pins NRESET Min. 10 Typ. - Max. - - 5 - - - 120 - - Note When reset is applied during Standby mode When reset is applied during STB Out mode Unit µs ms ms Note: (1) Spike due to an electrostatic discharge on NRESET line does not cause irregular system reset according to the table below. NRESET Pulse Action Reset Rejected Shorter than 5µs Reset Longer than 10 µs Between 5 µs and 10 µs Reset Start (2) During the resetting period, the display will be blanked (The display is entering blanking sequence, which maximum time is 120 ms, when Reset Starts in Standby Out –mode. The display remains the blank state in Standby –mode) and then returns to Default condition for H/W reset. (3) During Reset Complete Time, ID2 value in OTP will be latched to internal register during this period. This loading is done every time when there is H/W reset complete time (tREST) within 5ms after a rising edge of NRESET. (4) Spike Rejection also applies during a valid reset pulse as shown below: (5) When Reset is applied during Standby Mode. (6) When Reset is applied during Standby Out Mode. (7) It is necessary to wait 5msec after releasing NRESET before sending commands. Also Standby Out command cannot be sent for 120msec. Table 8.7: Reset timing Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.160May, 2011 HX8352-C01(T) 240RGBx432dots, TFT Mobile Single Chip Driver DATA SHEET V01 9. Ordering Information Part No. HX8352-C010 PDxxx Package PD: mean COG xxx: mean chip thickness (µm), (default: 250 µm) 10. Revision History Version 01 Date 2010/09/29 2010/10/18 2011/01/28 2011/05/18 Description of Changes New setup Modify SPI AC timing in P.157. Modify IFSEL description in P.14. Modify input pad size in P.16. Himax Confidential This information contained herein is the exclusive property of Himax and shall not be distributed, reproduced, or disclosed in whole or in part without prior written permission of Himax. -P.161May, 2011