Renesas R61509V инструкция обслуживания

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
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
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
181

Идти на страницу of

Хорошее руководство по эксплуатации

Законодательство обязывает продавца передать покупателю, вместе с товаром, руководство по эксплуатации Renesas R61509V. Отсутствие инструкции либо неправильная информация, переданная потребителю, составляют основание для рекламации в связи с несоответствием устройства с договором. В законодательстве допускается предоставлении руководства в другой, чем бумажная форме, что, в последнее время, часто используется, предоставляя графическую или электронную форму инструкции Renesas R61509V или обучающее видео для пользователей. Условием остается четкая и понятная форма.

Что такое руководство?

Слово происходит от латинского "instructio", тоесть привести в порядок. Следовательно в инструкции Renesas R61509V можно найти описание этапов поведения. Цель инструкции заключается в облегчении запуска, использования оборудования либо выполнения определенной деятельности. Инструкция является набором информации о предмете/услуге, подсказкой.

К сожалению немного пользователей находит время для чтения инструкций Renesas R61509V, и хорошая инструкция позволяет не только узнать ряд дополнительных функций приобретенного устройства, но и позволяет избежать возникновения большинства поломок.

Из чего должно состоять идеальное руководство по эксплуатации?

Прежде всего в инструкции Renesas R61509V должна находится:
- информация относительно технических данных устройства Renesas R61509V
- название производителя и год производства оборудования Renesas R61509V
- правила обслуживания, настройки и ухода за оборудованием Renesas R61509V
- знаки безопасности и сертификаты, подтверждающие соответствие стандартам

Почему мы не читаем инструкций?

Как правило из-за нехватки времени и уверенности в отдельных функциональностях приобретенных устройств. К сожалению само подсоединение и запуск Renesas R61509V это слишком мало. Инструкция заключает ряд отдельных указаний, касающихся функциональности, принципов безопасности, способов ухода (даже то, какие средства стоит использовать), возможных поломок Renesas R61509V и способов решения проблем, возникающих во время использования. И наконец то, в инструкции можно найти адресные данные сайта Renesas, в случае отсутствия эффективности предлагаемых решений. Сейчас очень большой популярностью пользуются инструкции в форме интересных анимаций или видео материалов, которое лучше, чем брошюра воспринимаются пользователем. Такой вид инструкции позволяет пользователю просмотреть весь фильм, не пропуская спецификацию и сложные технические описания Renesas R61509V, как это часто бывает в случае бумажной версии.

Почему стоит читать инструкции?

Прежде всего здесь мы найдем ответы касательно конструкции, возможностей устройства Renesas R61509V, использования отдельных аксессуаров и ряд информации, позволяющей вполне использовать все функции и упрощения.

После удачной покупки оборудования/устройства стоит посвятить несколько минут для ознакомления с каждой частью инструкции Renesas R61509V. Сейчас их старательно готовят или переводят, чтобы они были не только понятными для пользователя, но и чтобы выполняли свою основную информационно-поддерживающую функцию.

Содержание руководства

  • Страница 1

    Rev. 0.11 April 25, 2008, page 1 o f 181 Target Spec R61509V 260k-color, 240RGB x 432-dot graphics liquid crystal controller driver for Amor phous-Silicon TFT Panel REJxx xxxxx- xxxx Rev.0.11 April 25, 2008 Description ........... .......... .............. .......... .............. .......... .............. .......... ............ 6 Features ......[...]

  • Страница 2

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 2 o f 181 Outline ..................................... ...................................................... ............................. .............. .................................... 40 Instruction Data Format ......... ...................................................... .............[...]

  • Страница 3

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 3 o f 181 NVM Control ................................................ ...................................................... .............. ............................................ 90 NVM Access Cont rol 1 (R6F0h), NVM Acce ss Control 2 (R6F1h ), NVM Access Co ntrol 3 (R6F2h) ... ............[...]

  • Страница 4

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 4 o f 181 Partial Display Function ....... ............. ........... ............. ............. ........... ............. .... 139 Liquid Crystal Pa nel Interf ace Timing ........... .............. .......... ........... ............. .... 140 Internal Clock Op eration ...........................[...]

  • Страница 5

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 5 o f 181 Clock Charact eristics ........................................ ....................................................... ........... ................................... 172 80-system 18-/1 6-/9-/8-bit Bus interface Timing Characteristic s ................................................ .[...]

  • Страница 6

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 6 o f 181 Description The R61509V is a single-chip liquid crystal controll er driver LSI for a-Si TFT panel, incorporating RAM for a maximum 240 RGB x 432 dot graphics display, gate driver, source driver and power supply circuits. For efficient data transfer, the R61 509V supports high-speed inter[...]

  • Страница 7

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 7 o f 181 Feature s • A single-chip controller driver incorporating a gate circuit and a power supply circuit for a m aximum 240RGB x 432dots graphics display on am orphous TFT panel in 262k colors • System in terf ace – High-speed interfaces via 8-, 9-, 16-, 18-bit parallel ports – Clock [...]

  • Страница 8

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 8 o f 181 Power Supply Specifications Table 1 No. Item R61509V 1 TFT data lines 720 output 2 TFT gate lines 432 output 3 TFT display storage capacitance Cst only (Common VCOM for mula) S1~S720 V0 ~ V63 grayscales G1~G432 VGH-VGL 4 Liquid cryst al drive output VCOM Change VCOMH-VCOML amplit ude wit[...]

  • Страница 9

    Difference Between R61509 and R61509V 2008.04.18 Index Command Code Function R61509 R61509V (Pin) System Interface IM2-0=011, TRI=1, DFM=0 8bit 3 transfer (2bit-8bit-8bit) Supported Deleted R000h Device Code Read 1509H B509H R002h LCD Drive Waveform Control NW[1-0] --> NW bit is deleted. 1, 2, 3 or 4 line inversion 1 line inversion R003h Entry M[...]

  • Страница 10

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 10 of 181 Block Diagram 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 VCC VDD 㩷 㩷 㩷 㩷 C13P/C13M G1-G432 VGH VGL 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 VMON VGS VCI VCI1 C1 1P/C1 1M C12P/C12M DDVDH C21P/C21M C22P/C22M GND A [...]

  • Страница 11

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 11 of 181 Block Function 1. System Interface The R61509V supports 80-system high-speed interface v ia 8-, 9-, 16-, 18-bit parallel ports and a clo ck synchronous serial interface. The interface is selected by setting the IM2-0 pins. The R61509V has 16-bit index register (IR), 18-bit write-data reg[...]

  • Страница 12

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 12 of 181 Table 4 IM2 IM1 IM0 System interface DB pins RAM write data Instruction write transfer 0 0 0 80-system 1 8-bit interface DB17-0 Single transfer (18 bits) Single transfer (16 bits) 0 0 1 80-system 9 -bit interface DB17-9 2-transfer (1 st : 9 bits, 2 nd : 9 bits) 2-tr ansfer (1 st : 8 bits[...]

  • Страница 13

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 13 of 181 4. Graphics RAM (GRAM) GRAM sta nds fo r grap hics RAM, which ca n stor e bit- patte rn data of 233, 280 (240 RGB x 43 2 (dots ) x 18(bits)) bytes at maximum, using 18 bits per pix el. 5. Grayscale Voltage Generati ng Circuit The grayscale voltage generating circuit generates liquid crys[...]

  • Страница 14

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 14 of 181 Pin Function Table 5 External Power Supply Signal I/O Conne ct to Function When no t used VCC I Power supply Power supp ly for Interna l VDD regulator . VCC ≧ IOVCC ― IOVCC I Power supply Power supply for int erface pins. ― GND I Power supply GND level for internal logic and interf[...]

  • Страница 15

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 15 of 181 DB[17:0] I/O Host processor 18-bit parallel bi-dir ectional data bus for 80-system interface operation (Amplitude: IOVCC-GND). 8-bit I/F: DB17-DB10 are used. 9-bit I/F: DB17-DB9 are used. 16-bit I/F: DB17-DB10 and DB8-1 are used. 18-bit I/F: DB17-DB0 are used. 18-bit parallel bi-dir ecti[...]

  • Страница 16

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 16 of 181 PROTECT I Host processor Reset protect pin. The R61509V enters a reset protect status by fixing PROTECT to GND level disabling hardware reset. With this, erroneous operations caused by nois e are prevented. Low: Hardware reset is disabled (Reset protect status) High: Hardware reset is en[...]

  • Страница 17

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 17 of 181 Table 8 LCD drive Signal I/O Connect to Function When not in use VREG1OUT O Stabilizing capacitor Output voltage generated from the refere nce voltage VCIR. The factor is determined by instruction (VRH bits). VREG1OUT is used for (1) source drive r grayscale reference voltage VREG1OUT, ([...]

  • Страница 18

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 18 of 181 Table 9 Others (test, dummy pins) Signal I/O Connect to Function When not in use VTEST O Open Test pin. Leave open. Open VREFC I GND Test pin. Make su re to fix to the GND level . - VREFD O Open Test pin. Leave open. Open VREF O Open T est pin. Leave open. Open VDDTEST I GND Test pin. Ma[...]

  • Страница 19

    R61509V Pad Arrangement Rev 0.6 (1-a) No No □ DUMMYR4 1434 □ DUMMYR3 1433 □ TESTO15 1432 1 DUMMYR1 □ □ VGLDMY4 1431 2 DUMMYR2 □ □ G1 1430 3 AGNDDUM1 □ □ G3 1429 4 VPP3B □ □ G5 1428 5 VPP3B □ □ G7 1427 6 VPP3B □ □ G9 1426 7 VPP3B □ 8 AGNDDUM2 □ 9 VPP3A □ 10 VPP3A □ 11 VPP1 □ 12 VPP1 □ 13 VPP1 □ 14 VPP1 □[...]

  • Страница 20

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 20 of 181 ● Chip size: 19.03mm x 0 .76mm ● Chip thickness: 280 μ m (ty p) ● Pad coordinates: Pad center ● Coordinate origin: Chip center ● Au bump size 1. 50 μ m x 90 μ m (I/O side: No.1-262) 2. 15 μ m x 100 μ m (LCD ou tput side: No.263-1434) ● Au bump pitch: See pad coordinate ?[...]

  • Страница 21

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 1 DUMMYR1 -9135.0 -269.0 51 TS5 -5635.0 -269.0 2 DUMMYR2 -9065.0 -269.0 52 TS4 -5565.0 -269.0 3 AGNDDUM1 -8995.0 -269.0 53 TS3 -5495.0 -269.0 4 VPP3B -8925.0 -269.0 54 TS2 -5425.0 -269.0 5 VPP3B -8855.0 -269.0 55 TS1 -5355.0 -269.0 6 VPP3B -8785.0[...]

  • Страница 22

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 101 GNDDUM8 -2135.0 -269.0 151 GND 1365.0 -269.0 102 DB3 -2065.0 -269.0 152 GND 1435.0 -269.0 103 DB2 -1995.0 -269.0 153 GND 1505.0 -269.0 104 DB1 -1925.0 -269.0 154 VGS 1575.0 -269.0 105 DB0 -1855.0 -269.0 155 AGND 1645.0 -269.0 106 GNDDUM9 -1785[...]

  • Страница 23

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 201 VCI 4865.0 -269.0 251 C21M 8365.0 -269.0 202 VCI 4935.0 -269.0 252 C21M 8435.0 -269.0 203 VCI 5005.0 -269.0 253 C21P 8505.0 -269.0 204 VCI 5075.0 -269.0 254 C21P 8575.0 -269.0 205 VCI 5145.0 -269.0 255 C21P 8645.0 -269.0 206 VCI 5215.0 -269.0 [...]

  • Страница 24

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 301 G70 8827.5 157.0 351 G170 8077.5 157.0 302 G72 8812.5 276.0 352 G172 8062.5 276.0 303 G74 8797.5 157.0 353 G174 8047.5 157.0 304 G76 8782.5 276.0 354 G176 8032.5 276.0 305 G78 8767.5 157.0 355 G178 8017.5 157.0 306 G80 8752.5 276.0 356 G180 80[...]

  • Страница 25

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 401 G270 7327.5 157.0 451 G370 6577.5 157.0 402 G272 7312.5 276.0 452 G372 6562.5 276.0 403 G274 7297.5 157.0 453 G374 6547.5 157.0 404 G276 7282.5 276.0 454 G376 6532.5 276.0 405 G278 7267.5 157.0 455 G378 6517.5 157.0 406 G280 7252.5 276.0 456 G[...]

  • Страница 26

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 501 S704 5632.5 276.0 551 S654 4882.5 276.0 502 S703 5617.5 157.0 552 S653 4867.5 157.0 503 S702 5602.5 276.0 553 S652 4852.5 276.0 504 S701 5587.5 157.0 554 S651 4837.5 157.0 505 S700 5572.5 276.0 555 S650 4822.5 276.0 506 S699 5557.5 157.0 556 S[...]

  • Страница 27

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 601 S604 4132.5 276.0 651 S554 3382.5 276.0 602 S603 4117.5 157.0 652 S553 3367.5 157.0 603 S602 4102.5 276.0 653 S552 3352.5 276.0 604 S601 4087.5 157.0 654 S551 3337.5 157.0 605 S600 4072.5 276.0 655 S550 3322.5 276.0 606 S599 4057.5 157.0 656 S[...]

  • Страница 28

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 701 S504 2632.5 276.0 751 S454 1882.5 276.0 702 S503 2617.5 157.0 752 S453 1867.5 157.0 703 S502 2602.5 276.0 753 S452 1852.5 276.0 704 S501 2587.5 157.0 754 S451 1837.5 157.0 705 S500 2572.5 276.0 755 S450 1822.5 276.0 706 S499 2557.5 157.0 756 S[...]

  • Страница 29

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 801 S404 1132.5 276.0 851 TESTO12 -457.5 276.0 802 S403 1117.5 157.0 852 TESTO13 -472.5 157.0 803 S402 1102.5 276.0 853 S360 -487.5 276.0 804 S401 1087.5 157.0 854 S359 -502.5 157.0 805 S400 1072.5 276.0 855 S358 -517.5 276.0 806 S399 1057.5 157.0[...]

  • Страница 30

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 901 S312 -1207.5 276.0 951 S262 -1957.5 276.0 902 S311 -1222.5 157.0 952 S261 -1972.5 157.0 903 S310 -1237.5 276.0 953 S260 -1987.5 276.0 904 S309 -1252.5 157.0 954 S259 -2002.5 157.0 905 S308 -1267.5 276.0 955 S258 -2017.5 276.0 906 S307 -1282.5 [...]

  • Страница 31

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 1001 S212 -2707.5 276.0 1051 S162 -3457.5 276.0 1002 S211 -2722.5 157.0 1052 S161 -3472.5 157.0 1003 S210 -2737.5 276.0 1053 S160 -3487.5 276.0 1004 S209 -2752.5 157.0 1054 S159 -3502.5 157.0 1005 S208 -2767.5 276.0 1055 S158 -3517.5 276.0 1006 S2[...]

  • Страница 32

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 1101 S112 -4207.5 276.0 1151 S62 -4957.5 276.0 1102 S111 -4222.5 157.0 1152 S61 -4972.5 157.0 1103 S110 -4237.5 276.0 1153 S60 -4987.5 276.0 1104 S109 -4252.5 157.0 1154 S59 -5002.5 157.0 1105 S108 -4267.5 276.0 1155 S58 -5017.5 276.0 1106 S107 -4[...]

  • Страница 33

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 1201 S12 -5707.5 276.0 1251 G359 -6652.5 157.0 1202 S11 -5722.5 157.0 1252 G357 -6667.5 276.0 1203 S10 -5737.5 276.0 1253 G355 -6682.5 157.0 1204 S9 -5752.5 157.0 1254 G353 -6697.5 276.0 1205 S8 -5767.5 276.0 1255 G351 -6712.5 157.0 1206 S7 -5782.[...]

  • Страница 34

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y pad No pad name X Y 1301 G259 -7402.5 157.0 1351 G159 -8152.5 157.0 1302 G257 -7417.5 276.0 1352 G157 -8167.5 276.0 1303 G255 -7432.5 157.0 1353 G155 -8182.5 157.0 1304 G253 -7447.5 276.0 1354 G153 -8197.5 276.0 1305 G251 -7462.5 157.0 1355 G151 -8212.5 157.0 1306 G2[...]

  • Страница 35

    R61509V Pad Coordinate ( Unit : μ m ) 2008.04.21 rev0.1 pad No pad name X Y X Y 1401 G59 -8902.5 157.0 -9381.0 -251.0 1402 G57 -8917.5 276.0 9381.0 -251.0 1403 G55 -8932.5 157.0 1404 G53 -8947.5 276.0 1405 G51 -8962.5 157.0 1406 G49 -8977.5 276.0 Rev0.1 2008.04.21 1407 G47 -8992.5 157.0 Pad No66 IM0/ID → IM0_ID (rename) 1408 G45 -9007.5 27[...]

  • Страница 36

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 36 of 181 Bump Arrangement 㪪 㪪 㪈䌾㪪㪎㪉㪇䋬 㩷 㪞㪈䌾㪞㪋㪊㪉䋬 㩷 㪛㪬㪤㪤㪰㪩㪎㪄㪈㪇㪃㩷 㪫㪜㪪㪫㪦㪈㪈㪄㪈 㪏㪃㩷 㪭㪞㪣㪛㪤㪰㪈㪄 㪋㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㪠㪆㪦㩷㫇㫀㫅[...]

  • Страница 37

    R61509V Wiring Example & Recommended Wiring Resistance (Pad Arrangement Rev0.6) 2008.04.21 Rev0. 5 VCOM R61509V Pad name □ DUMMYR4 1 DUMMYR1 □ DUMMYR3 2 DUMMYR2 □ TESTO15 3 AGNDDUM1 □ VGLDMY4 4 VPP3B Connect to AGNDDUM1/2 □G 1 5 VPP3B Connect to AGNDDUM1/2 □G 3 6 VPP3B Connect to AGNDDUM1/2 □G 5 7 VPP3B Connect to AGNDDUM1/2 □[...]

  • Страница 38

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 38 of 181 GRAM Address Map Table 1 1 GRA M addre ss and di splay positi on on th e pa nel (SS = 0, BGR = 0) S/G pin S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 S12 ・・・・・ S709 S710 S711 S712 S713 S714 S715 S716 S717 S718 S719 S720 GS=0 G S=1 WD[1 7:0] W D[1 7:0] W D[1 7:0] WD[17: 0] ・・・・?[...]

  • Страница 39

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 39 of 181 Table 1 2 GRA M addre ss and di splay positi on on th e pa nel (SS = 1, BGR = 1) S/G pin S720 S719 S718 S717 S716 S715 S714 S713 S712 S711 S710 S709 ・・・・・ S12 S11 S10 S9 S8 S7 S6 S5 S4 S3 S2 S1 GS= 0 GS=1 WD[ 17:0] WD[ 17:0] WD[1 7:0] W D[1 7:0] ・・・・・ WD[ 17:0] W D[17[...]

  • Страница 40

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 40 of 181 Instruction Outline The R61509V adopts 18-bit bus architecture in order to in terface to high-performance microcomputer in high speed. The R61509V starts internal processing after storing control information (18, 16, 9, 8 , 1 bit(s)), sent from the microcomputer, in the in struction regi[...]

  • Страница 41

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 41 of 181 Index (IR) R/W RS IB15 IB14 IB13 IB12 IB11 IB10 IB9 IB8 IB7 IB6 IB5 IB4 IB3 IB2 IB1 IB0 W 0 0 0 0 0 0 ID [10] ID [9] ID [8] ID [7] ID [6] ID [5] ID [4] ID [3] ID [2] ID [1] ID [0] The index register specifies the index es of control register or RAM control to be accessed. It is prohibite[...]

  • Страница 42

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 42 of 181 LCD Drive Wave Control (R002h) R/W RS IB15 IB14 IB13 IB12 IB11 IB10 IB9 IB8 IB7 IB6 IB5 IB4 IB3 IB2 IB1 IB0 R/W 1 0 0 0 0 0 0 0 BC 0 0 0 0 0 0 0 0 Defaul t value 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 BC: Selects the liquid crystal drive waveform VCOM. BC = 0: frame inversion waveform is select[...]

  • Страница 43

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 43 of 181 BGR: Reverses the order from RGB to BGR in writing 18-bit pixel data in the GRAM. BGR = 0: Write data in the order of RGB to the GRAM. BGR = 1: Reverse the order from RGB to BGR in writing data to the GRAM. DFM: In combination with the TRI setting, DFM set s the format to develop 16-/8 -[...]

  • Страница 44

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 44 of 181 ORG = 0 AM = 0 Horizontal AM = 1 V ertical ID1-0 = 00 Horizontal: Decrement V ertical: Decrement ID1-0 = 01 Horizontal: Increment V ertical: Decrement ID1-0 = 10 Horizontal: Decrement V ertical: Increment ID1-0 = 1 1 Horizontal: Increment V ertical: Increment 17'h00000 17'hAFEF[...]

  • Страница 45

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 45 of 181 Display Control 1 (R007h) BASEE: Base image display enable bit. BASEE = 0: No base image is displayed. The R61509V drives the LCD at non-lit d isplay level or displays partial images. BASEE = 1: A base im age is displayed. PTDE: Partial display 1 enable bit. PTDE=0: Partial display is tu[...]

  • Страница 46

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 46 of 181 Display Control 2 (R008h) FP[7:0]: Sets the number of lines for f ront porch period (a blank period made af ter the end of display). BP[7 :0]: Sets the numb er of lines for back porch period (a blank period made before the beginning of disp lay). In external display interface operatio n,[...]

  • Страница 47

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 47 of 181 VSYNCX NL BP FP Back porch Front porch Display Area Note: The output timing to the panel is delayed by 2 line period from the synchronous signal (VSYNCX) input. Figure 5 Front and Back Porch Periods Note on Setting BP and FP: Set the BP and FP bits as follows i n the following operation [...]

  • Страница 48

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 48 of 181 Display Control 3 (R009h) PTS: Sets the source output level to drive non-display area. PTS also sele cts operation of grayscale amplifier and step-up clock frequency. Table 15 Source output in non-lit display area (Note) Non-lit display area Step-up clock frequency PTS Positive polarity [...]

  • Страница 49

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 49 of 181 8 Color Control (R00Bh) R/W RS IB15 IB14 IB13 IB12 IB11 IB1 0 IB9 IB8 IB7 IB6 IB5 IB4 IB3 IB2 IB1 IB0 W/R 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 COL Default value 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 COL: When COL = 1, the R61509V enters the eig ht-color display mode. RAM data rewrite operation is n[...]

  • Страница 50

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 50 of 181 External Display Interface Control 1 (R00Ch) RIM: Sets the interface form at when RGB interface is selected by RM and DM bits. Set R IM bit before starting display operation via the ex ternal display interface. Do not change the settin g while the R61509V performs display operation. Tabl[...]

  • Страница 51

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 51 of 181 ENC[2:0]: Sets the RAM write cycle via RGB i nterface. Table 21 ENC[2:0] RAM Write Cycle (frame periods) 3’h0 1 frame 3’h1 2 frames 3’h2 3 frames 3’h3 4 frames 3’h4 5 frames 3’h5 6 frames 3’h6 7 frames 3’h7 8 frames[...]

  • Страница 52

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 52 of 181 External Display Interface Control 2 (R00Fh) R/W RS IB15 IB14 IB13 IB12 IB11 IB10 IB9 IB8 IB7 IB6 IB5 IB4 IB3 IB2 IB1 IB0 R/W 1 0 0 0 0 0 0 0 0 0 0 0 VSPL HSPL 0 EPL DPL Default v alue 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 DPL: Sets th e si gnal polari ty of DOTCL K pin . DPL = 0: input data o[...]

  • Страница 53

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 53 of 181 Panel Interface Control 1 (R010h) RTNI[4:0]: Sets 1H (line) period. This setting is val id when the R61509V’s display operation i s synchronized with internal clock sig nal. Table 22 Clocks per Line (I nternal Clock Operation) RTNI[4:0] Clocks per Line RT NI[4:0 ] Clocks per Line 5’h[...]

  • Страница 54

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 54 of 181 Frame Frequency Calculation fosc Frame frequency = Clocks per line x division ratio x (line + BP + FP) [H z] fosc : RC oscillation frequency Line: Number of lines to drive the L CD (NL bits) Division ratio: DIVI Clocks per line: RTNI[...]

  • Страница 55

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 55 of 181 Panel Interface Control 2 (R011h) R/W RS IB15 IB14 IB13 IB12 IB11 IB10 IB9 IB8 IB7 IB6 IB5 IB4 IB3 IB2 IB1 IB0 R/W 1 0 0 0 0 0 NOW I[2] NOW I[1] NOW I[0] 0 0 0 0 0 SDTI [2] SDTI [1] SDTI [0] Default 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 1 NOWI[2:0]: Sets the non-overlap period of adjacent gate o[...]

  • Страница 56

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 56 of 181 Panel Interface Control 3 (R012h) R/W RS IB15 IB14 IB13 IB12 IB11 IB10 IB9 IB8 IB7 IB6 IB5 IB4 IB3 IB2 IB1 IB0 R/W 1 0 0 0 0 0 VEQ WI[2] VEQ WI[1] VEQ WI[0 ] 0 0 0 0 0 SEQ WI[2 ] SEQ WI[1 ] SEQ WI[0] Default value 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 VEQWI[2:0]: Sets VCOM equalize period. The[...]

  • Страница 57

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 57 of 181 SEQWI[2:0]: Sets source equalize period. SEQWI setting is enabled only when the R615 09V executes display operation in synchronization with internal clock. Table 27 SEQWI[2:0] Source Equalize Period 3'h0 0 clocks 3'h1 1 clock 3'h2 2 clocks 3'h3 3 clocks 3'h4 4 cl[...]

  • Страница 58

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 58 of 181 Panel Interface Control 4 (R013h) MCPI : Defines VCOM alternating timing. This bit i s enabled when displaying in synchronization with internal clock. MCP cannot be used in RGB interface operation. Table 28 MCPI [2:0] VCOM alternati ng timing 3’h0 Setting inhibited 3’h1 1 clock 3’h[...]

  • Страница 59

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 59 of 181 Panel Interface Control 5 (R014h) PCDIVH[2:0], PCDIVL[2:0] : When DM=1 and RGB I/F is selected, d isplay operation is executed using DOTCLKD. PCDIVH and PCDIVL define divi sion ratio of DOTCLK to generate DO TCLKD. PCDIVH is used to define number of DOTCLK in Hi gh period in units of one[...]

  • Страница 60

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 60 of 181 Panel Interface Control 6 (R020h) DIVE[1:0]: Sets the division ratio of DOTCLK. The R615 09V’s internal operation is synchronized with the frequency-divided DOTCLK, the f requency of which is divided by the division ratio set by DIVE[1:0]. This setting is enabled while the R61509V’s [...]

  • Страница 61

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 61 of 181 RTN E[5:0 ]: Sets RTNE in combination with PCDIVH and PCDIVL to decide the num ber of DOTCLK in 1H (1 line) period according to th e following formula. RTNE is enabled when RGB interface is selected. DOTCLKD x RTNE (Number of clock) ≤ D OTCLK in 1H period. Table 32 DOTCLKD in 1H period[...]

  • Страница 62

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 62 of 181 Panel Interface Control 7 (R021h) NOWE[2:0]: Sets the non-overlap period of adjacent gate outputs. NOWE is enabled when RGB interface is selected. Table 33 NOWE[2:0] Non-o verlap period 3’h0 0 clocks 3’h1 1 clock 3’h2 2 clocks 3’h3 3 clocks 3’h4 4 clocks 3’h5 5 clocks 3’h6 [...]

  • Страница 63

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 63 of 181 Panel Interface Control 8 (R022h) VEQWE[2:0]: Sets low power VCOM drive period. The setting is enabled when RGB interface is selected. Table 35 VEQWE[2:0] Source output delay peri od VEQWE[2:0] Source output delay peri od 3’h0 0 clocks ( *see Notes ) 3’h4 4 clocks 3’h1 1 clock 3’[...]

  • Страница 64

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 64 of 181 SEQWE [2:0 ]: Sets source e qualize period. SEQWE setting is enabl ed when the R61509V execu tes display operation via RGB interface. Table 36 SEQWE[2:0] Source Equalize Period 3'h0 0 clocks 3'h1 1 clock 3'h2 2 clocks 3'h3 3 clocks 3'h4 4 clocks 3'h5 5 clock[...]

  • Страница 65

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 65 of 181 Panel Interface Control 9 (R023h) MCP E [2:0] : Specifies VCOM alt ernating point. MCPE is enabled when RGB interface is selected. Table 37 MCPE [2:0 ] VCOM alterna ting point 3’h0 Setting inhibited 3’h1 1 clock 3’h2 2 clocks 3’h3 3 clocks 3’h4 4 clocks 3’h5 5 clocks 3’h6 6[...]

  • Страница 66

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 66 of 181 Frame Marker Control (R090h) FMI[2:0]: Sets FMARK output interval by FMI register se tting according to the up date period of display data and transfer rate. Set FMKM = 1 if FMARK signal is output from FMARK pin. See “FMARK Interface” for detail. Table 38 FMI[2] F MI[1] FMI[0] Ou tpu[...]

  • Страница 67

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 67 of 181 Power Control Power Control 1 (R100h) DSTB: When DSTB = 1, the R615 09V enters the shut down mode. In shu t down mode, the internal logic power supply is turned off to reduce pow er consumption. The GRAM data and in struction setting are not maintained when the R61509V is in t he shut do[...]

  • Страница 68

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 68 of 181 BT[2: 0]: Sets the f actor used in the step-up circuits. Sel ect the optimal step-up factor for the operating voltage. To reduce power consum ption, set a smaller factor. Table 41 Step-Up Factor for Ste p-Up Circuits BT[2:0] DDVDH VCL VG H VGL 3’h0 Set ting inhib ited 3’h1 -(VCI1+ DD[...]

  • Страница 69

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 69 of 181 Power Control 2 (R101h) DC1 [2:0] : Sets step-up clock frequency for Step-up Circuit 2. The step-up clock is in synchronizat ion with internal clock. Table 42 Step-up Frequenc y (Step-up Circuit 1) DC1[2:0] Step-up Circuit 2 Step-up frequency (fDCDC2) 3’h0 Step-up Circuit 2 halts 3’h[...]

  • Страница 70

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 70 of 181 DC0 [2:0] : Sets step-up clock frequency for Step-up Circuit 1. The step-up clock is in synchronizat ion with internal clock. Table 43 Step-up Frequency (Step-up Circuit 2) Note 1: Make sure that fDC DC1 ≥ fDCDC2. Note 2: Set DC0 and RTN* so that ((DCDC1 step-up frequency) ≤ (Line fr[...]

  • Страница 71

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 71 of 181 VC[2:0] : Sets VCI voltage level. VC[2:0] VCI1 voltage (Reference voltage for step-up operation) 3’h0 Setting inhibited 3’h1 0.94 x VCILVL 3’h2 0.89 x VCILVL 3’h3 Setting inhibited 3’h4 Setting inhibited 3’h5 0.76 x VCILVL 3’h6 Setting inhibited 3’h7 1.00 x VCILVL[...]

  • Страница 72

    ■DC0x Value and DCD C1 Step -up Clock S igna l W avef or m Exa mp le DCDC1 performs charge operation and boost operation with the step-up clock generated from the timing generator. The DCDC1 step-up clock frequency is adjusted by setting the division ratio of the reference clock frequency with DC0x registe r. (To prevent flickering, the DCDC1 s[...]

  • Страница 73

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 73 of 181 Power Control3 (R102h) Note: True values of PSON and PON are not read when instruction read is executed. PON, PSON : Turn power supply ON. PON and PSON must be written to power supply ON and start the internal power supply operation. Follo w power supply sequencer to set PON and PSON bit[...]

  • Страница 74

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 74 of 181 Power Control 4 (R103h) VDV[4:0]: Selects the factor of VREG1OUT to set the amplitud e of VCOM alternating vol tage from 0.70 to 1.32. Table 46 VDV[4:0] VCOM amplitude VDV[4:0] VCOM amplitude 5’h0 VREG1OUT x 0.70 5’h10 VREG1OUT x 1.02 5’h1 VREG1OUT x 0.72 5’h11 VREG1OUT x 1.04 5?[...]

  • Страница 75

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 75 of 181 RAM Access RAM Address Set (Horizontal Address) (R200h) RAM Address Set (Vertical A ddress) (R201h) AD[16:0]: Sets a GRAM address in the AC (Address Counter) which is autom atically updated according to the combination of AM, ID[1:0] setting s as the R61509V writes data to th e internal [...]

  • Страница 76

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 76 of 181 GRAM Data Write (R202h) R / W R S W 1 RAM write data WD[17:0] is tran sferred via differe nt data b us in different interface operation. RGB interface RAM write data WD[17:0] is transferred via di ffere nt data bus in different interface operatio n. WD[17:0]: The R61509V develops data in[...]

  • Страница 77

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 77 of 181 GRAM Data Read (R202h) R / W R S R 1 RAM read data RD[17:0] is transferred via differ ent data bus in different interface operation. RD[17:0]: 18-bit data read from the GRAM. RAM read data RD [17:0] is transferred via different data bus in different interface operation. When the R61509V [...]

  • Страница 78

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 78 of 181 NVM Data Read / NVM Data Write (R280 h) UID[3:0] : Used to temporarily store NVM data such as used identification code. The write data is loaded t o NVM data write register (NVDAT [7:0]) and th en is written to NVM. NVM data is loaded to UID[7:0] when p ower on reset, when shutdown mod e[...]

  • Страница 79

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 79 of 181 Table 48 VCM [6:0] VCOMH voltage VCM [6 :0] VCOMH voltage 7’h00 VREG1OUT x 0.4 92 7’h40 VREG1OUT x 0.748 7’h01 VREG1OUT x 0.4 96 7’h41 VREG1OUT x 0.752 7’h02 VREG1OUT x 0.5 00 7’h42 VREG1OUT x 0.756 7’h03 VREG1OUT x 0.5 04 7’h43 VREG1OUT x 0.760 7’h04 VREG1OUT x 0.5 08 [...]

  • Страница 80

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 80 of 181 7’h38 VREG1OUT x 0.716 7’h78 VREG1OUT x 0.972 7’h39 VREG1OUT x 0.720 7’h79 VREG1OUT x 0.976 7’h3A VREG1OUT x 0.724 7’h7A VREG1O UT x 0.980 7’h3B VREG1OUT x 0.728 7’h7B VREG1O UT x 0.984 7’h3C VREG1OUT x 0.732 7’h7C VREG1OUT x 0.988 7’h3D VREG1OUT x 0.736 7’h7D VRE[...]

  • Страница 81

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 81 of 181 Window Address Control Window Horizontal RAM Address Start (R210h), Window Horizontal RAM Addr ess End (R211h) Window Vertical RAM Address Start (R212h), Window Vertical RAM Address End (R213h) HSA[7:0], HEA[7:0]: HSA[7:0] and HEA[7:0] specify the start an d end addresses of the window a[...]

  • Страница 82

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 82 of 181 γ Control γ Control 1 ~ 14 (R30 0h to R309h) R/W RS IB15 IB14 IB13 IB12 IB11 IB10 IB9 IB8 IB7 IB 6 IB5 IB4 IB3 IB 2 IB1 IB0 R 300 W 1 0 0 0 PR0 P01 [4] PR0 P01 [3] PR0 P01 [2] PR0 P01 [1] PR0 P01 [0] 0 0 0 PR0P 00[4] PR0P 00[3 ] PR0P 00[2 ] PR0 P00 [1] PR0 P00 [0] Default 0 0 0 0 0 0 0[...]

  • Страница 83

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 83 of 181 PR0P00[4:0] PR0N00[4:0 ] Adjusts refere nce level fo r positive po larity outp ut R0 Adjusts refere nce level fo r negative pol arity output R 0 PR0P01[4:0] PR0N01[4:0 ] Adjusts refere nce level for positive po larity output R1 Adjusts refere nce level fo r negative pol arity output R 1 [...]

  • Страница 84

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 84 of 181 Base Image Display Control Base Image Number of Li ne (R400h) Base Image Display Control (R401h) Base Image Vertical Scroll Control (R404h) GS: Sets the direction of scan by the gate driver in the range d etermined by SCN and NL bit s. The gate scan direction determined by setting GS = 0[...]

  • Страница 85

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 85 of 181 Table 50 VLE Base image 0 Fixed 1 Scrolling enabled REV: Grayscale level of a image is inv erted when REV = 1. This enables the R61509V to display the same image from th e same set of data both on norm ally black and white panels. Table 51 Source Output Level in Display Area REV GRAM Dat[...]

  • Страница 86

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 86 of 181 Table 53 NL [5:0] Number of drive li ne NL [5:0] Number of drive li ne 6’h00 Setting inhibited 6’h1C 232 lines 6’h01 16 lines 6’ h1D 240 lines 6’h02 24 lin es 6’h1E 248 lines 6’h03 32 lin es 6’h1F 256 lines 6’h04 40 lin es 6’h20 264 lines 6’h05 48 lin es 6’h21 272[...]

  • Страница 87

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 87 of 181 Table 54 Gate scan start position SM=0 SM=1 SCN[5:0] GS=0 GS=1 GS=0 GS=1 6’h00 G1 G(N ) G 1 G(2N-432) 6’h01 G9 G(N+8) G17 G(2N-416) 6’h02 G17 G(N+16) G33 G(2N-400) 6’h03 G25 G(N+24) G49 G(2N-384) 6’h04 G33 G(N+32) G65 G(2N-368) 6’h05 G41 G(N+40) G81 G(2N-352) 6’h06 G49 G(N+[...]

  • Страница 88

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 88 of 181 Partial Display Control Partial Image 1: Display Position (R50 0h), RAM Address 1 (Start Line Address) (R501h), RAM Address 1 (End Line Address) (R502h) PTDP[8:0]: Sets the display position of partial im age 1. If PTDP0 = “9’h000 ”, the partial image 1 is displayed f rom the first [...]

  • Страница 89

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 89 of 181 Pin Control Test Register (Software Reset) (R600h) TRSR: When TRSR = 1, test registers are initialized. When TRSR = 0, in itialization of test registers halts. Instruction Write R600h TRSR="1" R600h TRSR="0" 㩷 Instruction Write T est registers are initialized (0.1ms[...]

  • Страница 90

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 90 of 181 NVM Control NVM Access Control 1 (R6F0h), NVM A ccess Control 2 (R6F1h), NVM Access Control 3 (R6F2h) EOP [1 :0]: Writes data on R280h to NVM or halts the write operation . Table 55 EOP[1:0] NVM control 2’h0 Halt 2’h1 Wr ite 2’h2 Setting disabled 2’h3 Erase CALB : When CALB=1, al[...]

  • Страница 91

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 91 of 181 R6F1h Write data to NVM (NVM) Read data from NVM R280h Write “1” to NVDAT[15]. 㪥㪭㩷 㪛㪘㪫㩷 㪲㪈㪌㪴 㩷 㪥㪭㩷 㪛㪘㪫㩷 㪲㪈㪋㪴㩷 㪥㪭㩷 㪛㪘㪫㩷 㪲㪈㪊㪴㩷 㪥㪭㩷 㪛㪘㪫㩷 㪲㪈㪉㪴㩷 㪥㪭 㪛㪘㪫 㪲㪈㪈㪴 㪥㪭 㪛㪘㪫 ?[...]

  • Страница 92

    ●R61509V Instruction List Rev 0.50 2008. 04. 22 Middle category Upper Index Index Command IB15 IB14 IB13 IB12 IB11 IB10 IB9 IB8 IB7 IB6 IB5 IB4 IB3 IB2 IB1 IB0 - Index - Index 00000 ID10 ID9 ID8 ID7 ID6 ID5 ID4 ID3 ID2 ID21 ID0 0** Display Control 00* 000h Device Code Read ALMID1[7] (1) ALMID1[6] (0) ALMID1[5] (1) ALMID1[4] (1) ALMID1[3] (0) [...]

  • Страница 93

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 93 of 181 Reset Function The R61509V is initialized by the RESETX input. Durin g reset period, the R61509V is in a busy state and instruction from the microcomputer and GRAM access are no t accepted. The R61509V’s internal power supply circuit unit is initialized also by the RESETX input. The RE[...]

  • Страница 94

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 94 of 181 5 When a RESETX inpu t is entered into the R61509V while it is in shutdown mode, the R61509V starts up the inside logic regulator and makes a transit ion to the initial state. During this period, the state of the interface pins may become unstable. Fo r this reason, do not enter a RESETX[...]

  • Страница 95

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 95 of 181 Basic Mode O peration of the R615 09V The basic operation modes of the R61509V are show n in the following diagram. Wh en making a transition from one mode to another, refer to instruction setting sequence. Reset state Display OFF Internal clock display operation VSYNC interface RGB inte[...]

  • Страница 96

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 96 of 181 Interface and Data Format The R61509V supports system interface for making instruction and ot her settings, and external display interface for displaying a moving p icture. The R61509V can select the optimum interface for the display (moving or still picture) in order to transf er data e[...]

  • Страница 97

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 97 of 181 CSX RS WRX R61509V System interface 18/16/9/8 RGB interface 18/16 DB17-0 (RDX) ENABLE VSYNCX HSYNCX DOTCLK System interface RGB interface System Figure 13 Internal clock operation The display operation is synchronized with signals generated f rom internal oscillator’s clock (OSC) in th[...]

  • Страница 98

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 98 of 181 RGB interface operation (2) This mode enables the R61509V to rewrite RA M data via system interface while using RGB interface for display operation. To rewrite RAM d ata via system interface, make sure that display data is not transferred via RGB interface (ENABLE = high). To retu rn to [...]

  • Страница 99

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 99 of 181 System Inte rface The following are the kinds of system interfaces available w ith the R61509V. The interf ace operation is selected by setting the IM2/1/0 pins. The sy stem interface is used for instruction setting and RAM access. Table 57 IM Bit Settings a nd System Interface IM2 IM1 I[...]

  • Страница 100

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 100 of 181 80-S ystem 1 8- bit Bu s In terf ace A1 HWR RS WRX 18 R61509V HOST PROCESSOR IM[2:0] = 000 CSn  (RDX) (RDX) D31-0 CSX DB17-0 Figure 14 18-bit Interface Instruction write DB 17 DB 16 DB 15 DB 14 DB 13 DB 12 DB 11 DB 10 DB 9 DB 8 DB 7 DB DB 5 DB 4 DB 3 DB 2 DB 1 DB 0 IB 15 IB IB 13 IB [...]

  • Страница 101

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 101 of 181 80-S ystem 1 6- bit Bu s In terf ace A1 HWR RS WR : 16 R61509V HOST PROCESSOR IM[2:0] = 010 CSn  (RD : )( R D : ) D15-0 CS : DB17-10, 8-1 Figure 17 16-bit Interface Instruction DB 17 DB 16 DB 15 DB 14 DB 13 DB 12 DB 11 DB 10 DB 8 DB 7 DB DB 5 DB 4 DB 3 DB 2 DB 1 IB 15 IB IB 13 IB 12 [...]

  • Страница 102

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 102 of 181 1 DB 17 DB 6 DB 5 DB 14 DB 13 DB 12 DB 11 DB 10 DB 8 DB DB 6 DB 5 DB 4 DB 3 DB 2 DB 1 R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0 RAM data write (1-transfer mode: TRI = 0) 1 7 Note: 65,536 colors are available. Input 1 pixel DB 17 DB 16 DB 15 DB 14 DB 13 DB 12 DB 11 DB 10 DB 8[...]

  • Страница 103

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 103 of 181 Data Transfer Synchronization i n 16-bit Bus Interface O peration The R61509V supports data transfer synchronization function to reset the counters for upper 16-/2-bit and lower 2-/16-bit transfers in 16-bit 2-transf er mode. When a mism atch occurs in upper and lower data transfers due[...]

  • Страница 104

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 104 of 181 80-System 9-bit Bus Interface When transferring 16-bit instruction, it is divided into upper and lo wer 8 bits, and the upper 8 bits are transferred first (the LSB is not used). The RAM write data is also divided int o upper and lower 9 bits, and the upper 9 bits are transf erred first.[...]

  • Страница 105

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 105 of 181 DB 17 DB 16 DB 15 DB 14 DB 13 DB 12 DB 11 DB 10 DB 9 DB 17 DB 6 DB 5 DB 14 DB 13 DB 12 DB 11 DB 10 DB 9 R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0 R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0 RD [17] RD [16] RD [15] RD [14] RD [13] RD [12] RD [1 1] RD [10] RD [9] RD [...]

  • Страница 106

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 106 of 181 80-System 8-bit Bus Interface When transferring 16-bit instruction, it is divided into upper and lo wer 8 bits, and the upper 8 bits are transferred first. The RAM write data is also div ided into upper and lower 8 bits, and th e upper 8 bits are transferred first. The RAM write data is[...]

  • Страница 107

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 107 of 181 DB 17 DB 16 DB 15 DB 14 DB 13 DB 12 DB 11 DB 10 DB 17 DB 16 DB 15 DB 14 DB 13 DB 12 DB 11 DB 10 R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0 RAM data write (2-transfer mode: TRI = 0) Input First transfer Second transfer Note: Normal display in 65,536 colors. 1 pixel DB 17 DB 16[...]

  • Страница 108

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 108 of 181 Data Transfer Synchronization in 8 -bit Bus Interface operation The R61509V supports data transfer synchronization function to reset the counters for upper and lower 8- bit transfers in 8-bit bus transfer m ode. When a mismatch occurs in up per and lower data transfers due to noise and [...]

  • Страница 109

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 109 of 181 Serial Interface The serial interface is selected by setting the IM2/1 pins to the IOVCC/GND lev els, respectively. The data is transferred via chip select line (CS), serial transf er clock line (SCL), serial data input line (SD I), and serial data output line (SDO). In serial interface[...]

  • Страница 110

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 110 of 181 Fi rst t ransfer (upper) S ec on d t ransfer (lower) D 15 D 14 D 13 D 12 D 11 D 10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 IB 15 IB 14 IB 13 IB 12 IB 11 IB 10 IB 9 IB 8 IB 7 IB 6 IB 5 IB 4 IB 3 IB 2 IB 1 IB 0 RAM data write Fi rst t ran sfer (upper) S ec on d t r ansfer (lower) D 0 D 7 D 6 D 5 D [...]

  • Страница 111

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 111 of 181 D0 LSB 1 “0” “1” “1” “1” “0” ID RS RW D15 D1 4 D13 D1 2 D11 D1 0 D9 D8 D7 D6 D5 D4 D3 D2 D1 2 3 4 5 6 7 8 9 1 01 1 1 21 31 41 51 61 71 81 92 02 12 2 2 32 4 Device ID code RS RW MSB Transfer start End of transfe r D0 D15 D14 D1 3 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1[...]

  • Страница 112

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 112 of 181 VSYNC Interface The R61509V supports VSYNC interface, wh ich enables displaying a moving picture via system interface by synchronizing the display operation with the VSYNCX signal. VSYNC interface can realize moving picture display with minimum modification to the conventional system op[...]

  • Страница 113

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 113 of 181 The VSYNC interface has the m inimum for RAM data write speed and internal clo ck frequency, which must be more than the values calcu lated from the following formulas, resp ectively. iance var ) clocks ( 23 )) BP ( BackPorch ) FP ( FrontPorch ) NL ( es DisplayLin ( ency FrameFrequ ) [H[...]

  • Страница 114

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 114 of 181 RAM write Display operation 0 16.67 (60 Hz) Back porch (14 lines) Main panel Moving picture display (432 lines) Front porch (2 lines) Blank period RC oscillation ±7% Display operation VSYNCX [line] 432 VSYNCX BP = 14H RAM write 7.4 MHz FP = 2H [ms] Line processing Figure 35 Write/Displ[...]

  • Страница 115

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 115 of 181 3. The front porch perio d continues from the end of one f rame period to the next VSYNCX input. 4. The instructions to swit ch from internal clock operation (DM1-0 = 00) to VSYNC interface operatio n modes and vice versa are enabled f rom the next frame period. 5. The partial display a[...]

  • Страница 116

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 116 of 181 FMARK Interface In the FMARK interface o peration, data is written to internal RAM via system interface synchronizing with the frame mark signal (FM ARK), realizing tearing less video imag e while using conventional system interface. FMARK output position is set in uni ts of line using [...]

  • Страница 117

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 117 of 181 When transferring data in synchronization wit h FMARK signal, minimum RAM data write speed and internal clock frequency must be taken i nto consideration. They must be more than the values cal culated from the fo llowing equations. iance var ) clocks ( 23 )) BP ( BackPorch ) FP ( FrontP[...]

  • Страница 118

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 118 of 181 starts the display operation of the data writt en in that line and can write moving pic ture data without causing flicker on the display. 7% FP+BP= 16H 432 0 FMARK 16.67 (60Hz) [ms] FMARK RAM write Display operation Back porch (14 lines) Main panel Moving picture display (432 lines) Fro[...]

  • Страница 119

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 119 of 181 Table 60 Table 61 FMP[ 8:0] F MARK output position 9’h000 0 9’h001 1 st line 9’h002 2 nd line : 9’h1BD 445 th line 9’h1BE 446 th line 9’h1BF 447 th line 9’h1C0 ~ 1FF Setting disabled FMI[2] FMI [1] FMI[0] FMARK Outp ut interval 0 0 0 One fram e peri od 0 0 1 2 frame period[...]

  • Страница 120

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 120 of 181 FMP Setting Example NL=6'h35 Front porch Display area FMP=9’h008 NL=6’h35 (432 lines) FP=4’h8 BP=4’h8 VL=8’h00 Line address Back porch FMARK output position FMP=9’h008 RAM physical line address Base image 0 (1st line) 1 (2nd line) 2 (3rd line) 3 (4th line) 4 (5th line) [...]

  • Страница 121

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 121 of 181 RGB Interface The R61509V supports the RGB interface. The in terface format is set by RM[1:0] bits. The i nternal RAM is accessible via RGB interface. Table 62 RGB interface RIM RGB Int erfac e DB Pin 0 18-bit RGB interface DB17-0 1 16-bit RGB interface DB17-13, DB11-1 Note: Using mu lt[...]

  • Страница 122

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 122 of 181 Polarities of VSYNCX, HSYNCX, ENABLE, and DOTCLK Signals The polarities of VSYNCX, HSYNCX , ENABLE, and DOTCLK signals can be changed by settin g the DPL, EPL, HSPL, and VSPL bits, respectively for convenience of system configuration. 㪧 㪝 㪟 㫉 㪻 㪘 㪟 㪧 㪙 㪟 㪺 㫅 㫐 [...]

  • Страница 123

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 123 of 181 Setting Example of Display Control Clock in RGB Interface Operat ion Register The display operation via DPI is performed in synchronization wi th the internal clock (PCLKD) that is generated by dividing PCLK frequency. PCDIVH[3:0]: When PCLKD is High, the num ber of clocks is set in uni[...]

  • Страница 124

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 124 of 181 RGB Interface Timing The timing relationship of signals in RGB interface operation is as follows. 16-/18-Bit RGB Interface Timing 1H 1 clock 1H or more One frame Back porch period Front porch period HLW ҈ 1CLK DTST ҈ 1CLK VSYNCX HSYNCX DOTCLK ENABLE DB17-0 VSYNCX HSYNCX DOTCLK ENABLE [...]

  • Страница 125

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 125 of 181 Moving Picture Display via RGB Interface The R61509V supports RGB interface for moving picture display and i ncorporates RAM for storing display data, which provides the fol lowing advantages in displaying a moving picture. 1. The window address function enables transferring data only w[...]

  • Страница 126

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 126 of 181 16-Bit RGB Interface The 16-bit RGB interface is selected b y setting RIM = 1. The display operation is synchronized with VSYNCX, HSYNCX, and DO TCLK signals. The display data i s transferred to the internal RAM in synchronization with the display operation via 16-bit p orts while data [...]

  • Страница 127

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 127 of 181 18-bit RGB Interface The 18-bit RGB interface is selected b y setting RIM = 0. The display operation is synchronized with VSYNCX, HSYNCX, and DO TCLK signals. The display data i s transferred to the internal RAM in synchronization with the display operation via 18-bit p orts (DB17-0) wh[...]

  • Страница 128

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 128 of 181 Notes to RGB Interface Operation 1. The following functions are not available in RGB interface operation. Table 64 Functions Not Availabl e in RGB Interface operation Function RGB In terface Internal Di splay Op eration Partial display Not available Available Scroll function Not availab[...]

  • Страница 129

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 129 of 181 RAM Address and Display Position on the Panel The R61509V has memory to store display data of 240RGB x 432 lines. The R6 1509V incorporates a circuit to control partial display, which allows switch ing driving method between full-screen display mod e and partial display mode. The R61509[...]

  • Страница 130

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 130 of 181 (VSA,VEA) 9’h000 9’h1AF NL (HSA,HEA) Window Address PTDP 1 PTSA0 PTEA0 䇼 LCD 䇽 Panel display position Display data output position Base image RAM address Partial image RAM address RAM write address Partial image Base image Scan direction Figure 50 RAM Address, Display Position a[...]

  • Страница 131

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 131 of 181 The following figure shows the relationship among the RAM address, displ ay position, and the lines driven for the display. 0 3 NL 9’h000 n-1 ( n line ) NL PTDP 1 PTSA PTEA 9’h1AF 1 2 4 5 NL Base image RAM area Partial image RAM area Partial image Display area LCD panel physical lin[...]

  • Страница 132

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 132 of 181 Instruction Setting Example The followings are examples of settings for 24 0(RGB) x 432(lines) panel. 1. Full screen display (no partial display) The following is an example of settin gs for full screen display. Table 67 Base image display instruction BASEE 1 NL[5:0] 6’h3 5 PTDE 0 3 N[...]

  • Страница 133

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 133 of 181 2. Partial only The following is an example of settings fo r displaying partial image 1 only and turning off th e base image. The partial image 1 is displayed at t he position specified by PTDP0 bit. Table 68 Base image display instruction BASEE 0 NL[5:0] 6’h3 5 partial image 1 displa[...]

  • Страница 134

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 134 of 181 Window Address Function The window address function enables writing disp lay data consecutively in a rectangular area (a window address area) made in the internal RAM. T he window address area is described by t he horizontal address register (start: HSA7-0, end: HEA7-0 bi ts) and the ve[...]

  • Страница 135

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 135 of 181 Scan Mode Setting The R61509V can set the gate pin assignm ent and the scan direction in the f ollowing 4 different ways by setting SM and GS bits to realize various connections between the R61509V and the LCD panel. SM Scan direction 0 Note: the numbers in the circles in the figure sho[...]

  • Страница 136

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 136 of 181 8-Color Display Mode The R61509V has a function to display in eight co lors. In this display mode, only V0 and V63 are used and power supplies to other grayscales (V1 to V62) are turned off to reduce pow er consumption. In 8-color display mode, the γ -adjustment registers R300 to R309 [...]

  • Страница 137

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 137 of 181 Frame-Frequency Adjustment Function The R61509V supports a function to adjust f rame frequency. The frame frequency for driving liquid crystal can be adjusted by setting the DIVI, RTNI bits w ithout changing the oscillation frequency. By changing the DIVI and RTNI settin gs, the R61509V[...]

  • Страница 138

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 138 of 181 Under the above conditions, the f rame frequency can be changed according to the table show n below. Table 69 Frame Frequency Setting (NL = 432 lines, BP = 14 lines, FP = 2 lines, fosc = 678 kHz) RTNI[4:0] DIVI = 2’h0 DIVI = 2’h1 5’h00 - 5’h0F - - 5’h10 95 Hz 47 Hz 5’h11 89 [...]

  • Страница 139

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 139 of 181 Partial Display Function The partial display function allows the R61 509V to drive lines selectively to display partial im ages by setting partial display control registers. The lines not used for displaying partial images are driven at non- lit display level to reduce power consu mptio[...]

  • Страница 140

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 140 of 181 Liquid Crystal Panel Interface Timing The relationships between RGB interface signals and liquid crystal panel control signals in internal operation and RGB interface operations are as f ollows. Internal Clock Operation FMAR K G1 G2 S ( 3n+1 ) VCOM 1H (FMP=BP-1) NOWI 432nd line G432 R,G[...]

  • Страница 141

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 141 of 181 RGB Interface Operation 1 2 3 4 5 6 432 431 430 1 2 3 BP 1H 5DOTCLK FP One frame VSYNCX HSYNCX DOTCL K S ( 3n+1 ) ENABLE DB FMAR K G1 G2 G3 RGB 432 1 G432 VCOM (FMP=BP-1) 1H NOWE S ( 3n+2 ) S ( 3n+3 ) n=0 to 239 RGB RGB SDTE Note: Transfer RGB data in one transfer via 16-bit port See no[...]

  • Страница 142

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 142 of 181 γ Correctio n Function γ Correction Function The R61509V supports γ -correction function to make t he optimal colors according to the characteristics of the panel. The R61509V h as registers for positive and negative polarities. γ Correction Circuit The following figure shows the γ[...]

  • Страница 143

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 143 of 181 γ Correction Registers The γ -correction registers include 42 bits for each of R, G, and B dots and 8-bit interpolation adjustm ent registers. Reference level adjustment registers Table 70 Reference level adjustment registers Gamma Control Resistor Positive polari ty Negative polarity[...]

  • Страница 144

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 144 of 181 Table 71 Reference Level Adjustment Registers and Resistors Register Register Resistor Name Valu e Resistance Resistor Name Valie Resistan ce 5'h00 0R 4'h0 4R 5'h01 1R 4'h1 5R 5'h02 2R 4'h2 6R R0 PR0*00[4:0 ] 5'h1F 31R R5 PR0*0 5[3:0] 4'hF 19R 5&a[...]

  • Страница 145

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 145 of 181 Interpolation Registers Table 72 Interpolation Registers Gamma Control Interpolation adjustment Positive polarity Negati ve polarity PI0P0[1:0] PI0N0[1:0] V2~V7 PI0P1[1:0] PI0N1[1:0] PI0P2[1:0] PI0N2[1:0] V56~V61 PI0P3[1:0] PI0N3[1:0] Table 73 Interpolation factor for V2 to V7 (See “G[...]

  • Страница 146

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 146 of 181 Table 74 Interpolation Factor for V56 to V61 PI0*3[1:0] PI0*2[1: 0] IPV56 IPV57 IPV58 IPV59 IPV60 IPV61 2'h0 87% 74% 61 % 48% 33 % 19% 2'h1 89% 78% 67 % 57% 39 % 22% 2'h2 92% 85% 77 % 69% 48 % 27% 2'h0 2'h3 93% 86% 79 % 72% 50 % 28% 2'h0 86% 72% 58 % 44% 32[...]

  • Страница 147

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 147 of 181 Table 75 Grayscale Voltage Calculation Formula Grayscale voltage Formula Grayscale voltage Formula V0 ΔV x Σ(R1~R8)/SUMR V32 V43 + (V20 - V43) x 11/23 V1 ΔV x Σ(R2~R8)/SUMR V33 V43 + (V20 - V43) x 10/23 V2 V8 + (V1 - V8) x IPV2 V34 V 43 + (V20 - V43) x 9/23 V3 V8 + (V1 -[...]

  • Страница 148

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 148 of 181 Frame Memory Data and the Grayscale Vo ltage Table 76 Grayscale Voltage G rayscale Voltage REV = 1 REV = 0 REV = 1 REV = 0 Frame memory data Positive polar ity Negative polarity Positive polar ity Negative polarity Fram e memor y data Positi ve polarity Negative polarity Positive polari[...]

  • Страница 149

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 149 of 181 Power Supply Generating Circui t The following figures show the configurations of liquid crystal driv e voltage generating circuit of the R61509V. Power Supply Circuit Connection Ex ample 1 (VCI1 = VCIOU T) In the following example, the VC I1 level can be adjusted. 㓏⺞㔚࿶ ↢ᚑ?[...]

  • Страница 150

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 150 of 181 Power Supply Circuit Connection Example 2 (VCI1 = V CI Direct Input) In the following example, the electrical p otential VCI is directly applied to VCI1. In this case, the VCIOUT level cannot be adjusted int ernally but step-up operation becomes more effective. Make sure that VCI ≤ 3.[...]

  • Страница 151

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 151 of 181 Specifications of Power-supply Circuit External Elements The specifications of external elements connected to the power-supply circuit of the R61509V are as follows. Table 77 Capacitor Capacitance Voltage proof Pin Connection 6 V (1) VREG1OUT, (3 ) VCI1, (4) C11P, C 11M, (5) C12P, C12M,[...]

  • Страница 152

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 152 of 181 Voltage Setting Pat tern Diagram The following are the diagram s of voltage generation in the R61509V and the TFT display application voltage waveforms and electrical potential relati onship. VGH BT VC VCI1 VREG1OUT VCM/VCOMR VRH VREG1OUT DDVDH BT VCOML VDV VGL BT VCL 㩷 VCOMH IOVCC(1.[...]

  • Страница 153

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 153 of 181 Liquid Crystal Application Voltage Wav eform and Electrical Potential VCOM Gn (panel interface output) Sn (source driver output) VG H VREG1O UT VCOM H VCOML Figure 64[...]

  • Страница 154

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 154 of 181 VCOMH and VREG1OU T Voltage Adjust ment Sequence When adjusting the VCOMH voltage by setting VCM[6:0] (R28 0h, internal VCOMH level adjustment circuit), follow the sequence below . The R61509V can retain permanently the VREG1OUT and VCOMH level adjustment setting v alues in NVM. To writ[...]

  • Страница 155

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 155 of 181 NVM Control The R61509V incorporates 16-bit NVM for user’s use. • 7 bits are for VCOM adjustm ent (VCM register value is stored). • 8 bits are for UID. • 1 bit is for a dummy bit. To write, read and erase data f rom/to the NVM, follow the sequence s below. Data on the NVM is lo [...]

  • Страница 156

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 156 of 181 NVM Load (Register Resetting) Sequence Data on the NVM is loaded either automatically or by setting a comm and. During the following sequence, the data written to the NVM is autom atically loaded to the internal register. NVM data read W ait 1ms or more Except for the shutdown mode Inde[...]

  • Страница 157

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 157 of 181 NVM Write Sequence Defined 16 bit data is written to the selected address. When “0” is w ritten to these bits, the bits are set to “0”. If the data is erased from the bit, the bit is returned to ”1”. Th e bit to which data is not writte n should be set to “1”. RS=0, DB=1[...]

  • Страница 158

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 158 of 181 NVM Erase Sequence The data written to the selected 16 b its is erased all together. The bit s from which data is erased are set to “1”. To erase data from NV M, make sure VGL < VPP3A, and follow the sequence below after power supply ON sequence. 㩷 㩷 㩷 㩷 㩷 㩷㩷  ?[...]

  • Страница 159

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 159 of 181 Power Supply Setting Sequence The following are the sequences for setting power supp ly ON/OFF instructions. Set power supply ON/OFF instructions according to the foll owing sequences in Display ON/OFF, Sleep set/ex it sequences. 㪭㪚㪚 㪠 㪦㪭㪚㪚 㪭㪚 㪠 㪞 㪥㪛 㩷 㩷 [...]

  • Страница 160

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 160 of 181 ޣᶧ᥏㔚Ḯ ࠝࡈࡈࡠ ޤ R102h: PON=0  PSON=0   㪞 㪥㪛 Power Supply OFF Sequence 5 frames or more (A) Liquid crystal power supply OFF (DCDC OFF) Display OFF state (B) Liquid crystal power supply ON (DCDC ON) state Display OFF state VCI → IOVCC → VCC or VCC, IOVCC,[...]

  • Страница 161

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 161 of 181 Notes to Power Supply ON Sequence When voltages do not rise in the order of VCC, IOVCC and then V CI and have to change the order, please follow the following note. Note Internal operation of the R61509V is unstable until VCC rises. If IOVCC rose before V CC rises, the R61509V may be in[...]

  • Страница 162

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 162 of 181 Instruction Setting Sequence and Refresh Sequence Display ON/OFF Sequences and Refresh Sequence In setting instruction in the R61509V, follow the sequences below. To reduce malfunction caused b y noise, execute refresh sequence 1 regularly. To exit shutd own mode, execute refresh sequen[...]

  • Страница 163

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 163 of 181 Shutdown Mode Sequences CSX=”Low” ( 1 ) CSX=”Low” ( 2 ) CSX=”Low” ( 3 ) CSX=”Low” ( 4 ) CSX=”Low” ( 5 ) CSX=”Low” ( 6 ) 㩷 㩷  㩷 㩷 Waveforms in Exiting Shutdown Mode (Input CSX="Low") Notes: 1. See AC characteristics in Electrical Characteri[...]

  • Страница 164

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 164 of 181 Index Write ( Data=16’h0000 ) Index Write ( Data=16’h0000 ) Index Write ( Data=16’h0000 ) Index Write ( Data=16’h0000 ) Index Write ( Data=16’h0000 ) Index Write ( Data=16’h0000 ) 㩷 Automatic NVM data load Set shutdown mode Notes: 1. See AC characteristics in Electrical Ch[...]

  • Страница 165

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 165 of 181 Index Write ( Data=8’h00 ) Index Write ( Data=8’h00 ) Index Write ( Data=8’h00 ) Index Write ( Data=8’h00 ) Index Write ( Data=8’h00 ) Index Write ( Data=8’hFF ) Index Write ( Data=8’h00 ) Index Write ( Data=8’h00 ) Index Write ( Data=8’h00 ) Index Write ( Data=8’h00[...]

  • Страница 166

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 166 of 181 8-Color Mo de Setting R00Bh: COL=1 262,144-color mode display 8-color mode display 8 color to 262,144 color mode R00Bh: COL=0 262,144-color mode display 8-color mode display 262,144 color to 8 color mode Figure 75 Partial Display Setting Partial Display Setting Sequence Partial display [...]

  • Страница 167

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 167 of 181 Absolute Maximum Ratings Table 82 Notes: 1. If used beyond the absolute maximum ratings, the LSI may be per manently damaged. It is strongly recommended to use the LSI un der the condit ion within the electrical characteristics in normal operation. If exp osed to the condition not with [...]

  • Страница 168

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 168 of 181 Electrical Characteristics DC Characteristics (VCC= 2.50V~3.30V, VCI=2.50 V~3.30 V, IOVCC=1.65V~3.30V, Ta= -40 ° C~+85 ° C * See note 1 ) Table 83 Items Symbol Unit T est condition Min. Typ. Max. Notes Input high-level voltage V IH V IOVCC=1.65V ~ 3.30V 0.80 × IOVCC - IOVCC 2, 3 [...]

  • Страница 169

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 169 of 181 LCD power supply current (VCI-GND) 8-color, 64-line partial display Ici2 mA IOVCC=1.8V, VCC=VCI=2.8V, 64-li ne part ial, fFLM= 40Hz , Ta=25 ℃ , Frame memory da ta: 18’h00000, REV=0, BC0=0, FP[7 :0]=8 ’h8, BP[7: 0]=8 ’h8, VC[2:0]=3’h1, BT[2:0]=3’h2, VRH[4:0]=5’h18, VCM[6:0][...]

  • Страница 170

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 170 of 181 Step-up Circuit Characteristics Table 84 Item Unit Test condi tion Min. Typ. Max. Note DDVDH V IOVCC=VCC=VCI=2.80[V], fosc=678[kHz], Ta =25 ℃ , VC=3’h1, AP=3’h3, BT=3’h2, DC0=3’h4 (div. 1/8), DC1=3’h2 (div. 1/4), COL=0, D=2’h0, C11=C12=C13=C21=C22=1[uF]/B characteristics, [...]

  • Страница 171

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 171 of 181 Power Supply Voltag e Range (Ta= -40 ° C~+85 ° C, GND=AGND=0V) Table 86 Item S ymbol Unit Min. Typ. Max. Condition Power Supply Voltage IOVCC V 1.65 1.80/2.80 3.30 - Power Supply Voltage VCC V 2.50 2.80 3.30 - Power Supply Voltage VCI V 2.50 2.80 3.30 - V 8.9 9.2 9.5 Write Power Suppl[...]

  • Страница 172

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 172 of 181 AC Characteristics (VCC= 2.50V~3.30V, IOVCC=1.65V~3.30V, Ta= -40 ° C~+85 ° C * See note 1 ) Clock Characteristics Table 88 Item Symbol Unit Test condition Min. Typ. Max. Not e Oscillation cloc k f osc kHz VCC=IOVCC=3.0V 631 678 725 9 80-system 18-/16-/9-/8-bit Bus interface Timing Cha[...]

  • Страница 173

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 173 of 181 Clock Synchronous Serial Interface Timi ng Char acteristics (IOVCC=1.65V~3.30V) TBD Table 90 Item Symbol Unit Test condition Min. Typ. Max. Write (receive) t SCYC ns Figure B 100 (TBD) - 20,000 Serial clock cycle time Re ad (tra nsmit ) t SCYC ns Figure B 350 (TBD) - 20,000 Write (r[...]

  • Страница 174

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 174 of 181 LCD Driver Output Characteristics Table 92 Item Symbol Unit Test condition Min. Typ. Max. Note Source driver output delay time tdds µs VCC=IOVCC =2.8 0V, VC[2:0 ]=3’h7 VRH[ 4:0]= 5’h 1F, fosc=678kHz (432-line drive), Ta=25 ° C, PR*P00=PR*N00=5’h00, PR*P01=PR*N01=5’h02, PR*P02=[...]

  • Страница 175

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 175 of 181 Notes to Electrical Characteristics Note 1. The DC/AC electrical characteristics of bare die and wafer products are guaranteed at 85 ℃ . Note 2. The following figures illustrate the conf igurations of input, I/O, and output pins. GND Output data IOVCC IOVCC IOVCC IOVCC IOVCC GND GND G[...]

  • Страница 176

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 176 of 181 Note 3: Test 1, 2 and 3 pins must be grounded. The VDDTEST and VREFC m ust be fixed to AGND. The IM0_I D pin must be fixed t o IOVC C or be ground ed. Note 4: This excludes the current in th e output drive MOS. Note 5: This excludes the current in th e input/output lines. Make sure that[...]

  • Страница 177

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 177 of 181 Timing Characteristics 80-system Bus Interface tDDR tDHR VIL VOL tWRf VIH VIL VIH VIL VIL VIH VIL VIH VIH VIL VIH RS CSX WRX RDX tAS tAH PWHW PWHR tWRr tCYCW tCYCR VIH VIL DB17-0 VIH tDSW tH VOH VOL DB17-0 VOH PWL W PWLR VIH VIL Note 2 Note 1 Write Data Read Data Note 1: PWL W and PWLR [...]

  • Страница 178

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 178 of 181 Clock Synchronous Serial Interface VIL VIL VIL VIL VIL tsc r VIL VIH CSX tSCYC VIH SCL VIH tCSU SDI VIH VIH VIL VIH tCH tSCH tSCL tscf VIH tSISU tSISH VOL1 SDO VOH1 VOL1 VOH1 tSOD tSOH Start: S End: P Input Data Input Data Output Data Output Data Figure B Clock Synchronou s Serial Inter[...]

  • Страница 179

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 179 of 181 RGB Interface tPDH VIL VIH VIL VIH VIL VIL VSYNCX HSYNCX VIH VIH VIL ENABLE VIH tENS tENH VIL VIL VIH VIL DOTCLK VIH PWDL PWDH VIH VIL DB17-0 VIH tPDS tSYNCS tCYCD trgbf trgbr tr g bf tr g b r Write Data Figure D RGB Interface Timing LCD Driver and VCOM Output Characteristics VCOM S1-72[...]

  • Страница 180

    Keep safety rst in your circuit designs! 1. Renesas T echnology Corp. puts the maximum eort into making semiconductor products better and more reliable, but there is al way s the possibility that trouble may occur with them. T rouble with semic onductors may lead to personal injury, re or property damage. Remember to give due consideration[...]

  • Страница 181

    R61509V Tar get Spec Rev. 0.11 April 25, 2008, page 181 of 181 Revision Reco rd Rev. Date Page No. Contents of Modifica tion Drawn by Approv ed by 0.11 2008/04/25 First issue[...]