SAMSUNG S6B33B2A04-B0CY

132 RGB Segment & 162 Common Driver For 65,536 Color STN LCD
Mar. 08, 2004
Ver. 1.5
Prepared by
Checked by
Approved by
SuNam, Park
JeaHoon.Lee
Yhong-Deug, Ma
[email protected]
[email protected]
[email protected]
System LSI Division
Semiconductor Business
SAMSUNG ELECTRONICS CO., LTD.
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
CONTENTS
INTRODUCTION.........................................................................................................................................................1
FEATURES.................................................................................................................................................................1
BLOCK DIAGRAM .....................................................................................................................................................2
PAD CONFIGURATION .............................................................................................................................................3
PIN CONFIGURATION...............................................................................................................................................4
PIN CONFIGURATION...............................................................................................................................................5
PAD CENTER COORDINATES .................................................................................................................................6
PIN DESCRIPTION...................................................................................................................................................12
FUNCTIONAL DESCRIPTION .................................................................................................................................15
MPU INTERFACE .............................................................................................................................................15
DISPLAY DATA RAM........................................................................................................................................19
INSTRUCTION DESCRIPTION................................................................................................................................28
INSTRUCTION PARAMETER..................................................................................................................................57
POWER ON/OFF SEQENCE ...................................................................................................................................60
SPECIFICATIONS ....................................................................................................................................................62
ABSOLUTE MAXIMUM RATINGS....................................................................................................................62
OPERATING VOLTAGE ...................................................................................................................................62
DC CHARACTERISTICS (1).............................................................................................................................63
DC CHARACTERISTICS (2).............................................................................................................................64
DC CHARACTERISTICS (3).............................................................................................................................65
DC CHARACTERISTICS (4).............................................................................................................................66
DC CHARACTERISTICS (5).............................................................................................................................67
AC CHARACTERISTICS ..................................................................................................................................68
SERIES SPECIFICATIONS......................................................................................................................................71
SYSTEM APPLICATION DIAGRAM........................................................................................................................72
OTP CALIBRATION MODE .....................................................................................................................................74
SEQUENCE FOR SETTING THE MODIFIED ELECTRONIC VOLUME .........................................................74
EPROM CELL STRUCTURE ............................................................................................................................75
V1OUT CALIBRATION FLOW ..........................................................................................................................75
VOLTAGES AND WAVEFORMS FOR OTP PROGRAMMING .......................................................................76
REVISION HISTORY ................................................................................................................................................77
2
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
INTRODUCTION
S6B33B2 is a mid-display-size-compatible driver for liquid crystal dot matrix gray-scale graphic systems. With onchip CR oscillator circuit, the display-timing signal is generated without being sent from MPU. Also, it is capable of
using 8bit/16bit data bus alternatively and operating with 68/80-series MPU in asynchronous. Due to the LCD
driving signal (132 RGB X 162 output) corresponding to the display data and the internal bit-map display RAM of
132 ×163 ×16-bit, S6B33B2 is capable of operating max. 132 RGB x 162 dot LCD panels in low-power consumption.
Being the segment RGB 3-output, one pixel is 16-bit data and S6B33B2 can max display 65,536 color.
FEATURES
Driver Output
−
132 RGB x 162
Gray Scale Function
−
−
−
65,536 color display of R: 32 gray scale, G: 64 gray scale, B: 32 gray scale
4,096 color display of R: 16 gray scale, G: 16 gray scale, B: 16 gray scale
256 color display of R: 8 gray scale, G: 8 gray scale, B: 4 gray scale
On-chip Display Data RAM
−
−
Capacity: 132 x 16 x 162 = 342.144k bits
Burst RAM write function
Display Mode
− Normal display mode: Entire duty displaying, Partial display mode: Partial duty displaying
− Area scroll mode: Particular area scrolling, Standby mode: Internal display clocks off
Microprocessor Interface
−
−
8-bit/16 bit parallel bi-directional interface with 6800-series or 8080-series
3/4 Pin SPI (only write operation)
On-chip Low Power Analog Circuit
−
−
−
On-chip CR oscillator (Internal cap. & external resistor), external clock available
Voltage converter / Voltage regulator / Voltage follower
On-chip electronic contrast control (256 steps)
Operating Voltage Range
−
−
−
−
VDD : 1.8 to 3.3 [V] (without Internal Regulator), 2.4 to 3.3 [V] (With internal Regulator)
VIN1: 2.4 to 3.6 [V]
Display operating voltage(V1): 2.0 to 4.0 V
LCD Operating Voltage Range : Max. 20 V
Low Power Consumption
−
750 µA Typ. (Refer to DC CHARACTERISTICS (2))
Package Type
COG (Output Pad Pitch Min. 40 µm)
Special Features
−
Non-Volatile Memory for V1 Calibration
1
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
BLOCK DIAGRAM
SEGA131
SEGA0
SEGB0 - - -SEGB131
SEGC131
SEGC0
VDD3, VDD3R
COM0 - - - COM161
VDD,VDDO
VSS
CDIR
VSS,VSSA,VSSB,VSSO
VCC
V1IN
VMIN
V0IN
VEE
SEG
Driving Circuit
COM
Driving Circuit
Oscillator
Circuit
OSC1
OSC2
OSC3
OSC4
OSC5
VIN45
VOUT45
396
C11P
162
C11M
Decoder Circuit
C12M
CL
FR
C12P
PM
VIN1
2112
VIN2
V1OUT
VMOUT
DC2OUT
DC2IN
C21P
C21M
C22P
Voltage
Converter/
Display data RAM
162 X 2112
Voltage
Regulator/
Voltage
Follower
I/O Buffer
C22M
C23P
X - Address
Control
Circuit
C23M
C24P
C24M
VRN
C31P
C31M
REG_OUT
REG_ENB
OTPG
OTPD
Y - Address
Control
Circuit
MPU System
Control Circuit
VRP
Power
Regulator
Circuit
OTP Cell
Instruction Decoder
Status
Figure 1. Block Diagram
2
Bus
Holder
CS1B
MPU INTERFACE
V1T
INTRS
LCD
System
Control
Circuit
CS2
D/I(RS)
RDB
WRB
MPU[1:0]
PS
RSTB
DB<15:0>
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
PAD CONFIGURATION
739
256
.......................
740
255
Y
X
(0,0)
S6B33B2
780
215
............
1
ALIGN KEY
TOM
214
PAD
Figure 2. S6B33B2 Chip Pad Configuration
Table 1. S6B33B2 Pad Dimensions
Item
Chip size
(with S/L 120µm)
Pad pitch
Bumped
pad size
Bumped pad height
Size
Pad No.
Unit
X
Y
19960
2130
1 to 214
90
215 to 780
40
1 to 214
70
70
215 to 255, 740 to 780
150
25
256 to 739
25
150
All pad
µm
17
3
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
COG Align Key Coordinate
30µm 30µm 30µm
(-9881.5,968.5)
81µm
30µm
(8018,-393)
(8254.5,-535.5)
19µm
81µm
Figure 3. COG Align Key Coordinate
81µm
19µm
Figure 4. ILB Align Key Coordinate
TOM(TEG On Main chip) Coordinate
(8897,-357)
(8300,-357)
220um
220um
(8880,-577)
(9477,-577)
580um
580um
(-8731,-359)
220um
(-8151,-579)
580um
COF Align Key Coordinate
70um
70um
50um
(-9526,675)
4
(9529,745)
70um
(-9456,745)
20um
(9459,675)
19µm
60µm
81µm
30µm 30µm 30µm
(8018,-526)
ILB Align Key Coordinate
19µm
30µm 30µm 30µm
S6B33B2 VER 1.5
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
PIN CONFIGURATION
COM0
COM1
COM2
:
:
:
:
:
:
:
:
:
:
:
:
COM36
COM37
COM38
COM39
COM40
COM41
:
:
:
COM78
COM79
COM80
S6B33B2 (Top View)
SEGC0
SEGB0
SEGA0
SEGC1
SEGB1
SEGA1
SEGC2
SEGB2
SEGA2
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
SEGC129
SEGB129
SEGA129
SEGC130
SEGB130
SEGA130
SEGC131
SEGB131
SEGA131
:
:
:
:
:
:
:
:
:
:
:
:
COM83
COM82
COM81
COM119
COM118
COM117
COM161
COM161
COM161
:
:
:
COM122
COM121
COM120
dmy_test<2:3>
VOIN
C31M
C31P
VRP
VCC
VEE
VRN
C24M
C24P
C23M
C23P
C22M
C22P
C21M
C21P
DC2IN
DC2OUT
VMIN
VMOUT
V1T
V1OUT
V1IN
C12M
C12P
C11M
C11P
VOUT45
VIN45
VIN2
VIN1(VIN1A)
VDD1(VDD3=VDD3R)
VDD(VDDO)
REG_OUT
OSC1
OSC2
OSC3
OSC4
OSC5
INTRS
REG_ENB
VSS
DB15
DB14
DB13
DB12
DB11
DB10
DB9
DB8
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
RDB
WRB
RS
RSTB
PM
FR
CL
TEST[0]
TEST[1]
TEST[2]
TEST[3]
TEST[4]
TEST[5]
TEST[6]
OTPG
OTPD
CS2
CS1B
CDIR
MPU0
MPU1
PS
VOIN
dmy_test<0:1>
Figure 5. S6B33B2 Chip Pin Configuration
5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
PAD CENTER COORDINATES
Table 2. Pad Center Coordinates
[Unit: µm]
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
6
X
-9585
-9495
-9405
-9315
-9225
-9135
-9045
-8955
-8865
-8775
-8685
-8595
-8505
-8415
-8325
-8235
-8145
-8055
-7965
-7875
-7785
-7695
-7605
-7515
-7425
-7335
-7245
-7155
-7065
-6975
-6885
-6795
-6705
-6615
-6525
-6435
-6345
-6255
-6165
-6075
-5985
-5895
-5805
-5715
-5625
-5535
-5445
-5355
-5265
-5175
Y
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
NAME
dmy_test<0>
dmy_test<1>
V0IN
V0IN
V0IN
VSS
PS
VDD3
MPU<1>
VSS
MPU<0>
VDD3
CDIR
VSS
CS1B
CS2
VDD3
OTPD
OTPD
OTPG
OTPG
TEST<6>
TEST<5>
TEST<4>
TEST<3>
TEST<2>
TEST<1>
TEST<0>
VDD3
CL
FR
PM
RSTB
RS
VSS
WRB
RDB
VDD3
DB<0>
DB<1>
DB<2>
DB<3>
DB<4>
DB<5>
DB<6>
DB<7>
DB<8>
DB<9>
DB<10>
DB<11>
NO
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
X
-5085
-4995
-4905
-4815
-4725
-4635
-4545
-4455
-4365
-4275
-4185
-4095
-4005
-3915
-3825
-3735
-3645
-3555
-3465
-3375
-3285
-3195
-3105
-3015
-2925
-2835
-2745
-2655
-2565
-2475
-2385
-2295
-2205
-2115
-2025
-1935
-1845
-1755
-1665
-1575
-1485
-1395
-1305
-1215
-1125
-1035
-945
-855
-765
-675
Y
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
NAME
DB<12>
DB<13>
DB<14>
DB<15>
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSSA
VSSA
VSSA
VSSA
VSSO
VSSO
VSSB
VSSB
VSSB
VSSB
VSSB
VSSB
VSSB
VSSB
REG_ENB
VDD3
INTRS
OSC5
VSS
OSC4
OSC3
OSC2
OSC1
REG_OUT
REG_OUT
REG_OUT
REG_OUT
VDDO
VDDO
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD3R
VDD3R
NO
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
X
-585
-495
-405
-315
-225
-135
-45
45
135
225
315
405
495
585
675
765
855
945
1035
1125
1215
1305
1395
1485
1575
1665
1755
1845
1935
2025
2115
2205
2295
2385
2475
2565
2655
2745
2835
2925
3015
3105
3195
3285
3375
3465
3555
3645
3735
3825
Y
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
NAME
VDD3R
VDD3R
VDD3
VDD3
VDD3
VDD3
VIN1A
VIN1A
VIN1A
VIN1A
VIN1
VIN1
VIN1
VIN1
VIN1
VIN1
VIN1
VIN1
VIN2
VIN2
VIN2
VIN2
VIN45
VIN45
VIN45
VOUT45
VOUT45
VOUT45
C11P
C11P
C11P
C11M
C11M
C11M
C12P
C12P
C12P
C12M
C12M
C12M
V1IN
V1IN
V1IN
V1OUT
V1OUT
V1OUT
V1T
V1T
VMOUT
VMOUT
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Table 2. Pad Center Coordinates (Continued)
[Unit: µm]
NO
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
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
X
3915
4005
4095
4185
4275
4365
4455
4545
4635
4725
4815
4905
4995
5085
5175
5265
5355
5445
5535
5625
5715
5805
5895
5985
6075
6165
6255
6345
6435
6525
6615
6705
6795
6885
6975
7065
7155
7245
7335
7425
7515
7605
7695
7785
7875
7965
8055
8145
8235
8325
Y
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
NAME
VMOUT
VMOUT
VMIN
VMIN
VMIN
VMIN
DC2OUT
DC2OUT
DC2OUT
DC2IN
DC2IN
DC2IN
C21P
C21P
C21P
C21M
C21M
C21M
C22P
C22P
C22P
C22M
C22M
C22M
C23P
C23P
C23P
C23M
C23M
C23M
C24P
C24P
C24P
C24M
C24M
C24M
VRN
VRN
VRN
VEE
VEE
VEE
VEE
DUMMY<10>
DUMMY<11>
VCC
VCC
VCC
VRP
VRP
NO
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
241
242
243
244
245
246
247
248
249
250
X
8415
8505
8595
8685
8775
8865
8955
9045
9135
9225
9315
9405
9495
9585
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
9824
Y
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-950
-822
-782
-742
-702
-662
-622
-582
-542
-502
-462
-422
-382
-342
-302
-262
-222
-182
-142
-102
-62
-22
18
58
98
138
178
218
258
298
338
378
418
458
498
538
578
NAME
VRP
C31P
C31P
C31P
C31M
C31M
C31M
DUMMY<12>
VSS
V0IN
V0IN
V0IN
dmy_test<2>
dmy_test<3>
DUMMY<0>
COM<0>
COM<1>
COM<2>
COM<3>
COM<4>
COM<5>
COM<6>
COM<7>
COM<8>
COM<9>
COM<10>
COM<11>
COM<12>
COM<13>
COM<14>
COM<15>
COM<16>
COM<17>
COM<18>
COM<19>
COM<20>
COM<21>
COM<22>
COM<23>
COM<24>
COM<25>
COM<26>
COM<27>
COM<28>
COM<29>
COM<30>
COM<31>
COM<32>
COM<33>
COM<34>
NO
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
X
9824
9824
9824
9824
9824
9660
9620
9580
9540
9500
9460
9420
9380
9340
9300
9260
9220
9180
9140
9100
9060
9020
8980
8940
8900
8860
8820
8780
8740
8700
8660
8620
8580
8540
8500
8460
8420
8380
8340
8300
8260
8220
8180
8140
8100
8060
8020
7980
7940
7900
Y
618
658
698
738
778
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
COM<35>
COM<36>
COM<37>
COM<38>
DUMMY<1>
DUMMY<2>
COM<39>
COM<40>
COM<41>
COM<42>
COM<43>
COM<44>
COM<45>
COM<46>
COM<47>
COM<48>
COM<49>
COM<50>
COM<51>
COM<52>
COM<53>
COM<54>
COM<55>
COM<56>
COM<57>
COM<58>
COM<59>
COM<60>
COM<61>
COM<62>
COM<63>
COM<64>
COM<65>
COM<66>
COM<67>
COM<68>
COM<69>
COM<70>
COM<71>
COM<72>
COM<73>
COM<74>
COM<75>
COM<76>
COM<77>
COM<78>
COM<79>
COM<80>
DUMMY<3>
SEGC<0>
7
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Table 2. Pad Center Coordinates (Continued)
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
8
X
7860
7820
7780
7740
7700
7660
7620
7580
7540
7500
7460
7420
7380
7340
7300
7260
7220
7180
7140
7100
7060
7020
6980
6940
6900
6860
6820
6780
6740
6700
6660
6620
6580
6540
6500
6460
6420
6380
6340
6300
6260
6220
6180
6140
6100
6060
6020
5980
5940
5900
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGB<0>
SEGA<0>
SEGC<1>
SEGB<1>
SEGA<1>
SEGC<2>
SEGB<2>
SEGA<2>
SEGC<3>
SEGB<3>
SEGA<3>
SEGC<4>
SEGB<4>
SEGA<4>
SEGC<5>
SEGB<5>
SEGA<5>
SEGC<6>
SEGB<6>
SEGA<6>
SEGC<7>
SEGB<7>
SEGA<7>
SEGC<8>
SEGB<8>
SEGA<8>
SEGC<9>
SEGB<9>
SEGA<9>
SEGC<10>
SEGB<10>
SEGA<10>
SEGC<11>
SEGB<11>
SEGA<11>
SEGC<12>
SEGB<12>
SEGA<12>
SEGC<13>
SEGB<13>
SEGA<13>
SEGC<14>
SEGB<14>
SEGA<14>
SEGC<15>
SEGB<15>
SEGA<15>
SEGC<16>
SEGB<16>
SEGA<16>
NO
351
352
353
354
355
356
357
358
359
360
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
X
5860
5820
5780
5740
5700
5660
5620
5580
5540
5500
5460
5420
5380
5340
5300
5260
5220
5180
5140
5100
5060
5020
4980
4940
4900
4860
4820
4780
4740
4700
4660
4620
4580
4540
4500
4460
4420
4380
4340
4300
4260
4220
4180
4140
4100
4060
4020
3980
3940
3900
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGC<17>
SEGB<17>
SEGA<17>
SEGC<18>
SEGB<18>
SEGA<18>
SEGC<19>
SEGB<19>
SEGA<19>
SEGC<20>
SEGB<20>
SEGA<20>
SEGC<21>
SEGB<21>
SEGA<21>
SEGC<22>
SEGB<22>
SEGA<22>
SEGC<23>
SEGB<23>
SEGA<23>
SEGC<24>
SEGB<24>
SEGA<24>
SEGC<25>
SEGB<25>
SEGA<25>
SEGC<26>
SEGB<26>
SEGA<26>
SEGC<27>
SEGB<27>
SEGA<27>
SEGC<28>
SEGB<28>
SEGA<28>
SEGC<29>
SEGB<29>
SEGA<29>
SEGC<30>
SEGB<30>
SEGA<30>
SEGC<31>
SEGB<31>
SEGA<31>
SEGC<32>
SEGB<32>
SEGA<32>
SEGC<33>
SEGB<33>
NO
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
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
[Unit: µm]
X
3860
3820
3780
3740
3700
3660
3620
3580
3540
3500
3460
3420
3380
3340
3300
3260
3220
3180
3140
3100
3060
3020
2980
2940
2900
2860
2820
2780
2740
2700
2660
2620
2580
2540
2500
2460
2420
2380
2340
2300
2260
2220
2180
2140
2100
2060
2020
1980
1940
1900
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGA<33>
SEGC<34>
SEGB<34>
SEGA<34>
SEGC<35>
SEGB<35>
SEGA<35>
SEGC<36>
SEGB<36>
SEGA<36>
SEGC<37>
SEGB<37>
SEGA<37>
SEGC<38>
SEGB<38>
SEGA<38>
SEGC<39>
SEGB<39>
SEGA<39>
SEGC<40>
SEGB<40>
SEGA<40>
SEGC<41>
SEGB<41>
SEGA<41>
SEGC<42>
SEGB<42>
SEGA<42>
SEGC<43>
SEGB<43>
SEGA<43>
SEGC<44>
SEGB<44>
SEGA<44>
SEGC<45>
SEGB<45>
SEGA<45>
SEGC<46>
SEGB<46>
SEGA<46>
SEGC<47>
SEGB<47>
SEGA<47>
SEGC<48>
SEGB<48>
SEGA<48>
SEGC<49>
SEGB<49>
SEGA<49>
SEGC<50>
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Table 2. Pad Center Coordinates (Continued)
[Unit: µm]
NO
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
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
X
1860
1820
1780
1740
1700
1660
1620
1580
1540
1500
1460
1420
1380
1340
1300
1260
1220
1180
1140
1100
1060
1020
980
940
900
860
820
780
740
700
660
620
580
540
500
460
420
380
340
300
260
220
180
140
100
60
20
-20
-60
-100
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGB<50>
SEGA<50>
SEGC<51>
SEGB<51>
SEGA<51>
SEGC<52>
SEGB<52>
SEGA<52>
SEGC<53>
SEGB<53>
SEGA<53>
SEGC<54>
SEGB<54>
SEGA<54>
SEGC<55>
SEGB<55>
SEGA<55>
SEGC<56>
SEGB<56>
SEGA<56>
SEGC<57>
SEGB<57>
SEGA<57>
SEGC<58>
SEGB<58>
SEGA<58>
SEGC<59>
SEGB<59>
SEGA<59>
SEGC<60>
SEGB<60>
SEGA<60>
SEGC<61>
SEGB<61>
SEGA<61>
SEGC<62>
SEGB<62>
SEGA<62>
SEGC<63>
SEGB<63>
SEGA<63>
SEGC<64>
SEGB<64>
SEGA<64>
SEGC<65>
SEGB<65>
SEGA<65>
SEGC<66>
SEGB<66>
SEGA<66>
NO
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
541
542
543
544
545
546
547
548
549
550
X
-140
-180
-220
-260
-300
-340
-380
-420
-460
-500
-540
-580
-620
-660
-700
-740
-780
-820
-860
-900
-940
-980
-1020
-1060
-1100
-1140
-1180
-1220
-1260
-1300
-1340
-1380
-1420
-1460
-1500
-1540
-1580
-1620
-1660
-1700
-1740
-1780
-1820
-1860
-1900
-1940
-1980
-2020
-2060
-2100
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGC<67>
SEGB<67>
SEGA<67>
SEGC<68>
SEGB<68>
SEGA<68>
SEGC<69>
SEGB<69>
SEGA<69>
SEGC<70>
SEGB<70>
SEGA<70>
SEGC<71>
SEGB<71>
SEGA<71>
SEGC<72>
SEGB<72>
SEGA<72>
SEGC<73>
SEGB<73>
SEGA<73>
SEGC<74>
SEGB<74>
SEGA<74>
SEGC<75>
SEGB<75>
SEGA<75>
SEGC<76>
SEGB<76>
SEGA<76>
SEGC<77>
SEGB<77>
SEGA<77>
SEGC<78>
SEGB<78>
SEGA<78>
SEGC<79>
SEGB<79>
SEGA<79>
SEGC<80>
SEGB<80>
SEGA<80>
SEGC<81>
SEGB<81>
SEGA<81>
SEGC<82>
SEGB<82>
SEGA<82>
SEGC<83>
SEGB<83>
NO
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
X
-2140
-2180
-2220
-2260
-2300
-2340
-2380
-2420
-2460
-2500
-2540
-2580
-2620
-2660
-2700
-2740
-2780
-2820
-2860
-2900
-2940
-2980
-3020
-3060
-3100
-3140
-3180
-3220
-3260
-3300
-3340
-3380
-3420
-3460
-3500
-3540
-3580
-3620
-3660
-3700
-3740
-3780
-3820
-3860
-3900
-3940
-3980
-4020
-4060
-4100
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGA<83>
SEGC<84>
SEGB<84>
SEGA<84>
SEGC<85>
SEGB<85>
SEGA<85>
SEGC<86>
SEGB<86>
SEGA<86>
SEGC<87>
SEGB<87>
SEGA<87>
SEGC<88>
SEGB<88>
SEGA<88>
SEGC<89>
SEGB<89>
SEGA<89>
SEGC<90>
SEGB<90>
SEGA<90>
SEGC<91>
SEGB<91>
SEGA<91>
SEGC<92>
SEGB<92>
SEGA<92>
SEGC<93>
SEGB<93>
SEGA<93>
SEGC<94>
SEGB<94>
SEGA<94>
SEGC<95>
SEGB<95>
SEGA<95>
SEGC<96>
SEGB<96>
SEGA<96>
SEGC<97>
SEGB<97>
SEGA<97>
SEGC<98>
SEGB<98>
SEGA<98>
SEGC<99>
SEGB<99>
SEGA<99>
SEGC<100>
9
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Table 2. Pad Center Coordinates (Continued)
[Unit: µm]
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
10
X
-4140
-4180
-4220
-4260
-4300
-4340
-4380
-4420
-4460
-4500
-4540
-4580
-4620
-4660
-4700
-4740
-4780
-4820
-4860
-4900
-4940
-4980
-5020
-5060
-5100
-5140
-5180
-5220
-5260
-5300
-5340
-5380
-5420
-5460
-5500
-5540
-5580
-5620
-5660
-5700
-5740
-5780
-5820
-5860
-5900
-5940
-5980
-6020
-6060
-6100
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGB<100>
SEGA<100>
SEGC<101>
SEGB<101>
SEGA<101>
SEGC<102>
SEGB<102>
SEGA<102>
SEGC<103>
SEGB<103>
SEGA<103>
SEGC<104>
SEGB<104>
SEGA<104>
SEGC<105>
SEGB<105>
SEGA<105>
SEGC<106>
SEGB<106>
SEGA<106>
SEGC<107>
SEGB<107>
SEGA<107>
SEGC<108>
SEGB<108>
SEGA<108>
SEGC<109>
SEGB<109>
SEGA<109>
SEGC<110>
SEGB<110>
SEGA<110>
SEGC<111>
SEGB<111>
SEGA<111>
SEGC<112>
SEGB<112>
SEGA<112>
SEGC<113>
SEGB<113>
SEGA<113>
SEGC<114>
SEGB<114>
SEGA<114>
SEGC<115>
SEGB<115>
SEGA<115>
SEGC<116>
SEGB<116>
SEGA<116>
NO
651
652
653
654
655
656
657
658
659
660
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
X
-6140
-6180
-6220
-6260
-6300
-6340
-6380
-6420
-6460
-6500
-6540
-6580
-6620
-6660
-6700
-6740
-6780
-6820
-6860
-6900
-6940
-6980
-7020
-7060
-7100
-7140
-7180
-7220
-7260
-7300
-7340
-7380
-7420
-7460
-7500
-7540
-7580
-7620
-7660
-7700
-7740
-7780
-7820
-7860
-7900
-7940
-7980
-8020
-8060
-8100
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
NAME
SEGC<117>
SEGB<117>
SEGA<117>
SEGC<118>
SEGB<118>
SEGA<118>
SEGC<119>
SEGB<119>
SEGA<119>
SEGC<120>
SEGB<120>
SEGA<120>
SEGC<121>
SEGB<121>
SEGA<121>
SEGC<122>
SEGB<122>
SEGA<122>
SEGC<123>
SEGB<123>
SEGA<123>
SEGC<124>
SEGB<124>
SEGA<124>
SEGC<125>
SEGB<125>
SEGA<125>
SEGC<126>
SEGB<126>
SEGA<126>
SEGC<127>
SEGB<127>
SEGA<127>
SEGC<128>
SEGB<128>
SEGA<128>
SEGC<129>
SEGB<129>
SEGA<129>
SEGC<130>
SEGB<130>
SEGA<130>
SEGC<131>
SEGB<131>
SEGA<131>
DUMMY<4>
COM<161>
COM<160>
COM<159>
COM<158>
NO
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
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
X
-8140
-8180
-8220
-8260
-8300
-8340
-8380
-8420
-8460
-8500
-8540
-8580
-8620
-8660
-8700
-8740
-8780
-8820
-8860
-8900
-8940
-8980
-9020
-9060
-9100
-9140
-9180
-9220
-9260
-9300
-9340
-9380
-9420
-9460
-9500
-9540
-9580
-9620
-9660
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
Y
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
910
778
738
698
658
618
578
538
498
458
418
378
NAME
COM<157>
COM<156>
COM<155>
COM<154>
COM<153>
COM<152>
COM<151>
COM<150>
COM<149>
COM<148>
COM<147>
COM<146>
COM<145>
COM<144>
COM<143>
COM<142>
COM<141>
COM<140>
COM<139>
COM<138>
COM<137>
COM<136>
COM<135>
COM<134>
COM<133>
COM<132>
COM<131>
COM<130>
COM<129>
COM<128>
COM<127>
COM<126>
COM<125>
COM<124>
COM<123>
COM<122>
COM<121>
COM<120>
DUMMY<5>
DUMMY<6>
COM<119>
COM<118>
COM<117>
COM<116>
COM<115>
COM<114>
COM<113>
COM<112>
COM<111>
COM<110>
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Table 2. Pad Center Coordinates (Continued)
[Unit: µm]
NO
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
X
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
-9824
Y
338
298
258
218
178
138
98
58
18
-22
-62
-102
-142
-182
-222
-262
-302
-342
-382
-422
-462
-502
-542
-582
-622
-662
-702
-742
-782
-822
NAME
COM<109>
COM<108>
COM<107>
COM<106>
COM<105>
COM<104>
COM<103>
COM<102>
COM<101>
COM<100>
COM<99>
COM<98>
COM<97>
COM<96>
COM<95>
COM<94>
COM<93>
COM<92>
COM<91>
COM<90>
COM<89>
COM<88>
COM<87>
COM<86>
COM<85>
COM<84>
COM<83>
COM<82>
COM<81>
DUMMY<7>
11
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
PIN DESCRIPTION
Table 3. Power Supply Pins
Name
I/O
VDD3
Supply
VDD3R
Supply
VDD
Supply
VDDO
Supply
VSS VSSO
VSSA VSSB
V1IN / V1OUT
Description
Main power supply
Internal regulator power supply
This pin is connected to VDD3.
Regulated power supply input pin for internal digital and DDRAM block.
This pin is connected to REG_OUT outside the chip with stabilization capacitor.
When the internal regulator is not used, VDD1 should be tied to VDD directly.
Internal oscillator power supply
This pin is connected to VDD.
GND
Ground
I/O
LCD segment high selected driving voltage input / output pin
VMIN / VMOUT
I/O
LCD common/segment non-selected driving voltage input / output pin
V0IN
I
VCC / VRP
I/O
VEE / VRN
I/O
VIN1 VIN1A
I
LCD common low selected driving voltage input / output pin
The relationship between VCC, V1, VM, V0 and VEE:
VCC > V1 > VM > V0(=VSS) > VEE (V1 - VM = VM – V0, VCC –VM = VM - VEE)
Power supply for 1’st booster circuit and VM amp
VIN2
I
Power supply for 2’nd booster circuit
VOUT45
O
1’st booster output pin
VIN45
I
Power supply for V1. Connect to VOUT45 or VIN1
C11P C11M
C12P C12M
O
External capacitor connection pins used for 1’st booster circuit
V1T
I
INTRS
I
DC2IN
I
Thermistor resistor connection pin
External resister select pin for temperature compensation circuit
- INTRS = L : External resistor mode, INTRS = H : Internal resistor mode
Power supply for 2’nd booster. Connect to DC2OUT pin
DC2OUT
O
Power output pin for 2’nd booster input
C21P C21M
C22P C22M
C23P C23M
C24P C24M
O
External capacitor connection pins used for 2’nd booster circuit
C31P C31M
O
External capacitor connection pins used for 3’rd booster circuit
OTPG
I
Gate Voltage for OTP programming
OTPD
I
Drain Voltage for OTP programming
12
LCD segment low selected driving voltage input pin
LCD common high selected driving voltage input / output pin
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Table 4. MPU Interface Pins
Name
I/O
RSTB
I
Description
Reset input pin.
When RSTB is “L”, initialization is executed.
MPU interface select pin
PS
MPU[1:0]
CS1B
CS2
D/I
(RS)
I
PS
MPU[1]
MPU[0]
Description
H
L
L
8080-series 8bit interface
H
L
H
8080-series 16bit interface
H
H
L
6800-series 8bit interface
H
H
H
6800-series 16bit interface
L
L
X
3 pin SPI(Write only)
L
H
X
4 pin SPI(Write only)
I
Chip select input pins
Data / instruction I/O is enabled only when CS1B is “L” and CS2 is “H”. When chip
select is non-active, DB0 to DB15 may be high impedance.
I
Data / Instruction select input pin
− D/I = “H”: DB0 to DB15 are display data
− D/I = “L”: DB0 to DB7 are instruction data
Read / Write execution control pin
WRB
(R/W)
I
PS
MPU
MPU Type
WRB
Description
H
H
6800-series
R/W
ReadWRBite control input pin
− R/W = “H”: read
− R/W = “L”: write
H
L
8080-series
WRB
Write enable clock input pin
The data on DB0 to DB15 are latched at the
rising edge of the WRB signal.
Read / Write execution control pin
MPU[1]
RDB
(E)
I
DB[15:8]
DB[7]/SDI
DB[6]/SCL
DB[5:0]
I/O
CDIR
I
MPU type
RDB
H
6800series
E
L
8080series
RDB
Description
Read / Write control input pin
− R/W = “H”: When E is “H”, DB0 to DB15
are in an output status.
− R/W = “L”: The data on DB0 to DB15 are
latched at the falling edge of the E signal.
Read enable clock input pin
When RDB is “L”, DB0 to DB15 are in an output
status.
-DB[15:0]: 16-bit bi-directional data bus.
-SDI: Serial data input pin. The data is latched at the rising edge of SCL.
-SCL: Serial clock input pin.
Common direction select pin.
13
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Table 5. Oscillator and Power Regulator Pins
Name
I/O
Description
OSC1
OSC2
OSC3
OSC4
O
CR oscillator output pin
When the internal CR oscillator is used, connect to OSC1, OSC3 through a resistor.
OSC1 – OSC2: Using in normal display mode, partial display mode 0
OSC3 – OSC4: Using in partial display mode 1
When an external oscillator is used, OSC1 pin is connected to VDD or VSS.
OSC5
I
External clock input pin
When an external input is used, it is input to this pin. But the internal oscillator is used,
this pin is connected to VDD3 or VSS.
REG_ENB
I
Internal regulator enable/disable input pin
- REG_ENB = “L” (tied to VSS) : enable internal regulator
- REG_ENB = “H” (tied to VDD3) : disable internal regulator
REG_OUT
O
Internal voltage regulator output pin
The regulator output port from this pin is used as a power supplier for an internal digital
block via VDD pins.
Table 6. Timing signal Pins for monitoring
Name
I/O
Description
CL
O
Shift clock output pin
PM
O
Field delimiter output pin
FR
O
Liquid crystal alternating current output pin
Table 7. LCD driver output pins
Name
I/O
Description
SEGA0 to 131
O
LCD driving segment output (Red or Blue)
SEGB0 to 131
O
LCD driving segment output (Green)
SEGC0 to131
O
LCD driving segment output (Blue or Red)
COM0 to 161
O
LCD common outputs
Table 8. Test pins
Name
I/O
TEST[3:0]
I
TEST[6:4]
O
dmy_test<3:0>
O
14
Description
Don’t use these pins. IC maker’s test pins
These pins must be tied to VDD3 or VSS.
Don’t use these pins. IC maker’s test pins
These pins must be open.
Don’t use these pins. IC maker’s test pins
These pins must be open.
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
FUNCTIONAL DESCRIPTION
MPU INTERFACE
Chip Select Input
There are CS1B and CS2 pins for chip selection. The S6B33B2 can interface with an MPU only when CS1B is “L”
and CS2 is “H”. When these pins are set to any other combination, D/I, RDB, and WRB inputs are disabled and DB0
to DB15 are to be high impedance. And, in case of serial interface, the internal shift register and the counter are
reset.
Parallel/Serial Interface
The S6B33B2 has four types of interface with an MPU, which are two serial and two parallel interfaces. This parallel
or serial interface is determined by PS pin as shown in Table9.
Table 9. Parallel / Serial Interface Mode.
PS
MPU[1]
CS1B
CS2
MPU bus type
L
8080-Series MPU
H
CS1B
CS2
H
6800-Series MPU
L
L
CS1B
H
3–Pin SPI
CS2
4-Pin SPI
Parallel Interface (PS=”H”)
The 8-bit/16-bit bi-directional data bus is used in parallel interface. The type of MPU is selected by MPU[1] and the
mode of data-bus is controlled by MPU[0] as shown in below. In accessing internal registers (D/I = “L”), only DB[7:0]
are valid.
Table 10. Microprocessor Selection for Parallel Interface
MPU[1]
L
H
MPU[0]
L
H
L
H
CS1B
CS2
RDB
WRB
CS1B
CS2
RDB
WRB
CS1B
CS2
E
R/W
Data Bus
DB[7:0]
DB[15:0]
DB[7:0]
DB[15:0]
MPU bus type
8080-series MPU
6800-series MPU
Table 11. Parallel Data Transfer
6800-series
8080-series
D/I
Description
RDB
WRB
RDB
WRB
H
H
H
L
H
Read display data
H
H
L
H
L
Write display data
L
H
H
L
H
Read out internal status register
L
H
L
H
L
Write instruction data
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132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
/CS1
CS2
D/I
R/W
E
DB
Command Write
Data Write
Status Read
Data Read
Figure 6. 6800-Series MPU Interface protocol (MPU[1]=”H”)
/CS1
CS2
D/I
/WR
/RD
DB
Command Write
Data Write
Status Read
Data Read
Figure 7. 8080-Series MPU Interface Protocol (MPU[1]=”L”)
16
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Serial Interface(PS=”L”)
Communication with the microprocessor occurs via a clock-synchronized serial peripheral interface when PS is low.
When using the serial interface, read operations are not allowed. When the chip select inputs are valid (CS1B = “L”
& CS2 = “H”), the serial data is sent most significant bit first on the rising edge of a serial clock going into DB6 and
processed as 8 bit parallel data on the eighth clock. Since the clock signal is easy to be affected by the external
noise caused by the line length, the operation check on the actual machine is recommended. And Invalid, the
internal shift register and the counter are reset.
The serial interface type is selected by setting PS as shown in Table12.
Table 12. Microprocessor Selection for Serial Interface
PS
MPU[1]
L
CS1B
CS2
D/I
L
CS1B
CS2
By S/W
H
CS1B
CS2
D/I
Serial Data
Serial Clock
DB[7]
DB[6]
SPI Mode
3-Pin
4-Pin
3-Pin SPI Interface (PS = "L" & MPU[1] = "L")
In 3-Pin SPI Interface mode, the pre-defined instruction called Display Data Length is used to indicate whether serial
data input is display or instruction data instead of D/I pin. The data is handled as instruction data until the Display
Data Length instruction is issued. This Display Data Length instruction consists of three bytes instruction. The first
byte instruction enables the next instruction to be valid, and data of the second two bytes indicate that a specified
number of display data bytes(1 to 65536) are to be transmitted. Next two bytes after the display data string is
handled as instruction data. For details, refer the Figure 8.
Chip Select
/CS1 = L, CS2 = H
1
2
23 24 1
2
159 160
SCL(DB6)
3 bytes (1)
SDI(DB7)
DDC
DDL_H
DDL_H = 00H
Internal D/I
20 bytes(2)
DDL_L
DDL_L = 09H
10 pixel display data
User's display data (Max. 42768(162x132) bytes)
DDL = 0009H(9D)
(1) Set DDC(Display Data Command) and DDL(Display Data Length)
Set DDC(3 Pin SPI mode only) : 1 1 1 1 1 1 0 0 (FCH)
Set DDL(2 Bytes) : (1'st byte) D7 D6 D5 D4 D3 D2 D1 D0 (DDL_L)
(2'nd byte) D7 D6 D5 D4 D3 D2 D1 D0 (DDL_H)
(2) DDL Register Value
Number of Display data : (DDL + 1) Pixel Data ((DDL+1) x 2 byte)
Necessary clock pulse number : 8 x [(DDL+1) x 2]
Figure 8. 3-Pin SPI Timing (D/I is not used)
17
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
4-Pin Serial Interface (PS=”L” & MPU[1]=”H”)
In 4-pin SPI interface mode, D/I pin is used for indicating whether serial data input is display or instruction data.
Data is display data when D/I is high and instruction data when D/I is low.
Serial data can be read on the rising edge of serial clock going into DB6 and processed as 8-bit parallel data on the
eighth serial clock.
Chip Select
/CS1=L, CS2=H
l
SID(DB7)
DB7
DB6
DB5
DB4
DB3
DB2
SCL(DB6)
D/I
Figure 9. 4-Pin Serial Interface Timing
18
DB1
DB0
DB7
DB6
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
DISPLAY DATA RAM
The on-chip display data RAM of S6B33B2 is a static RAM that is stored the data for the display. It is a 2,304 x 176
structure. It is controlled by 2 addresses, X and Y. And, RAM area selection and automatic address count up
functions are accomplished by the internal instructions.
DDRAM Address Area Selection
A part of DDRAM address area of S6B33B2 can be accessed by X and Y address area settings. After setting RAM
area, the addresses become the start address.
Y-address
X-address
Figure 10. DDRAM Address Area
Table 13. X address Control
Code
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
0
0
0
1
P1
X start address set(Initial Status = 00H)
P2
X end address set(Initial Status = A1H)
Table 14. Y address Control
Code
DB7
DB6
0
0
DB5
DB4
DB3
DB2
DB1
DB0
1
1
0
0
0
1
P1
Y start address set (Initial status = 00H)
P2
Y end address set (Initial status =83H)
19
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
RAM Addressing Count up
By selecting the X address and Y address area by the internal instructions, the address counts up from its start
address to end address after data access operation. When one address is equal to the end address, it returns to the
start address. At this time, the other address is increased by 1.
Y address count mode (Y address = 00h to 83h, X address = 00h to A1h)
Y-address
01h
02h
00h
1
133
265
03h
397
00h
X-address
01h 02h 03h 04h 05h 06h 07h 08h
2
3
4
5
6
7
8
9
83h
132
264
396
528
A1h 21253
21384
Figure 11. Y address count mode
X address count mode (Y address =00h to 83h, X address = 00h to A1h)
Y-address
X-address
00h 01h 02h 03h 04h 05h 06h 07h 08h
00h 1 163 325 487 649 781 943 1105 1267
01h 2
02h 3
03h
4
A1h 162 324 486 648 780 942 1104 1266 1428
Figure 12. X address count mode
20
83h
21223
21384
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
YA Address
XA
Address 00H 01H 02H 03H 04H 05H 06H 07H 08H - - - - - - 00H
------01H
------02H
------03H
------04H
------05H
------06H
------07H
------08H
------09H
------0AH
------0BH
------0CH
------0DH
------0EH
------0FH
-------
-----
----B2H
B3H
B4H
B5H
B6H
B7H
B8H
B9H
BAH
BBH
BCH
BDH
BEH
BFH
A0H
A1H
7DH 7EH 7FH 80H 81H 82H 83H
-------------------------------------------------------------------------------------------------
D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0
Red
Green
Blue
Figure 13. Display Data RAM Map
21
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Partial Display Mode
The S6B33B2 realizes the partial display function with low duty driving for saving power consumption and showing
the various display duties. It is set as display start/end line number.
Area Scroll Function
The S6B33B2 realizes the specific area scroll function. (1/162 duty case).
Example of Scrolling up
0
Fixed 15 lines
14
15
132 Lines
147
Fixed 15 lines
161
Example of Scrolling down
0
LCD Panel
Fixed area
Scroll area
Display area
14
15
146
147
161
Figure 14. Area scroll examples (duty = 1/162, center scroll mode)
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S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Display Direction
SDIR
The SDIR flag of Driver Output Mode Set instruction selects the direction of segment display.
SEGA0
SEGB0
SEGC0
Y=0
x=0
(D7~D0)
1st
SEGA1
SEGB1
SEGC1
SEGA131
SEGB131
SEGC131
Y=1
(D7~D0)
2nd
(D7~D0)
(D7~D0)
Y = 131
(D7~D0)
(D7~D0)
Figure 15. 8-bit data bus mode when SDIR = L
SEGA0
SEGB0
SEGC0
X=0
Y=0
(D15~D0)
SEGA1
SEGB1
SEGC1
Y=1
(D15~D0)
SEGA131
SEGB131
SEGC131
Y = 131
(D15~D0)
Figure 16. 16-bit data bus mode when SDIR = L
x=0
SEGA0
SEGB0
SEGC0
SEGA1
SEGB1
SEGC1
Y = 131
(D7~D0)
(D7~D0)
1st
2nd
Y = 130
(D7~D0)
(D7~D0)
SEGA131
SEGB131
SEGC131
Y=0
(D7~D0)
(D7~D0)
Figure 17. 8-bit data bus mode when SDIR = H
SEGA0
SEGB0
SEGC0
x=0
Y = 131
(D15~D0)
SEGA1
SEGB1
SEGC1
SEGA131
SEGB131
SEGC131
Y = 130
(D15~D0)
Y=0
(D15~D0)
Figure 18. 16-bit data bus mode when SDIR = H
23
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
CDIR
The direction of common scanning is selected by CDIR pin.
COM 80
COM 0
SEG132
Driver
132 Display Lines (DLN=00)
<CDIR=1>
<CDIR=0>
COM 0
Line number 0
Line number 131
COM 0
Display Area
Display Area
Line number 66
Line number 65
COM 65
COM 65
Line number 66
COM 81
Line number 65
COM 81
Display Area
Display Area
Line number 0
Line number 131
COM 146
COM 146
144 Display Lines (DLN=01)
<CDIR=0>
COM 0
<CDIR=1>
Line number 0
COM 0
Display Area
Line number 143
Display Area
Line number 71
COM 71
Line number 72
COM 71
Line number 72
COM 81
COM 81
Display Area
Line number 143
COM 152
Line number 71
Display Area
COM 152
Line number 0
162 Display Lines (DLN=10)
<CDIR=1>
<CDIR=0>
COM 0
Line number 0
COM 0
Display Area
COM 161
Line number 161
Display Area
Line number 161
Line number 0
COM 161
96 Display Lines (DLN=11)
<CDIR=0>
COM 0
<CDIR=1>
Line number 0
Display Area
COM 0
Line number 48
COM 81
Display Area
24
Line number 48
COM 47
COM 81
COM 128
Line number 95
Display Area
Line number 47
COM 47
Line number 47
Display Area
Line number 95
COM 128
Line number 0
COM162
COM81
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
SWP
The SWP flag of Driver Output Mode Set instruction selects the swapping of segment display.
SWP=1
* i = 0 to 131
RAM
DATA
D4
SEGAi
SEGBi
R control
G control
D1 D0 D10 D9
D8
D7
MPU I/F
DATA D15 D14 D13 D12 D11 D10 D9
D8
D7
D3
D2
SEGCi
B control
D6
D6
D5
D15 D14 D13 D12 D11
D5
D4
D3
D1
D0
* i = 0 to 131
SWP=0
SEGAi
R control
RAM
DATA
D2
SEGBi
SEGCi
G control
B control
D15 D14 D13 D12 D11 D10 D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
MPU I/F
DATA D15 D14 D13 D12 D11 D10 D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
SWP = 0
SWP = 1
SEGAi
SEGBi
SEGCi
RED
GREEN
BLUE
Color
D15 ~ D11
D10~ D5
D4 ~ D0
Assigned Bit
BLUE
GREEN
RED
Color
D4~ D0
D10 ~ D5
D15 ~ D11
Assigned Bit
Figure 19. The relationship between SEG outputs and RGB color
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132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
On-Chip Regulator Configuration
The output voltage of regulator circuit(REG_OUT) is ranging from 1.8V to 2.2V and nominal value is 2.0V.
Value of external Capacitance
VDD3
REG_ENB
REG_ENB
REG_OUT
REG_OUT
Item
Value
Unit
C1
1.0 to 4.7
µF
Floating
C1
VDD
/VDDO
VDD
/VDDO
VDD3
VDD3
VDD3
/VDD3R
VDD3
/VDD3R
VDD3: 2.4 to 3.3V
VDD3: 1.8 to 3.3V
REG_OUT : 2.0V
Figure 20. Regulator Application
Oscillator Circuit
When internal oscillator is used(EXT=0), the selection of oscillator resistor is determined by display mode.
- Normal display mode/ Partial display mode 0 : resistor1 between OSC1 and OSC2
- Partial display mode 1 : resistor2 between OSC3 and OSC4
When external clock is used (EXT=1), clock frequency should be adjusted to display mode that is selected.
Example of external oscillator application
External clock
OSC5
OSC4
VSS
OSC3
OSC2
OSC1
Figure 21. External oscillator application
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S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Example of internal oscillator application
VSS/VDD3
VSS/VDD3
R1
OSC5
OSC4
OSC3
OSC2
R2
OSC1
OSC5
When partial display mode 1 is not used.
OSC4
R1
OSC3
OSC2
OSC1
When partial display mode 1 is used.
Figure 22. Internal oscillator application
Discharge Circuit
Driving voltage level discharge time at standby ON.
T[ms]
Internal STB signal
+VR
V1
VM
V+[mV]
VSS
V-[mV]
-VR
The relation between voltage level and discharge time from when “Standby ON” command is inputted.
LEVEL
+VR,V1,VM,-VR
CONDITION
T[ms]
∆V+,∆V-[mV]
+VR=12.0V, V1=3.0V, VM=1.5V, -VR=-9.0V
at T=0
100
300
< 50
< 20
27
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
INSTRUCTION DESCRIPTION
Table 15. Instruction Table
Instruction Name
D/I WRB RDB
DB15
DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 Hex. Parameter
~ DB8
Non Operation
0
0
1
*
0
0
0
0
0
0
0
0
Oscillation Mode Set
0
0
1
*
0
0
0
0
0
0
1
0
00
02
1Byte
Driver Output Mode Set
0
0
1
*
0
0
0
1
0
0
0
0
10
1Byte
DC-DC Select
0
0
1
*
0
0
1
0
0
0
0
0
20
1Byte
Bias Set
0
0
1
*
0
0
1
0
0
0
1
0
22
1Byte
DCDC Clock Division Set
0
0
1
*
0
0
1
0
0
1
0
0
24
1Byte
DCDC and AMP ON/OFF set
0
0
1
*
0
0
1
0
0
1
1
0
26
1Byte
Temperature Compensation Set
0
0
1
*
0
0
1
0
1
0
0
0
28
1Byte
Contrast Control(1)
0
0
1
*
0
0
1
0
1
0
1
0
2A
1Byte
Contrast Control(2)
0
0
1
*
0
0
1
0
1
0
1
1
2B
1Byte
Standby Mode OFF
0
0
1
*
0
0
1
0
1
1
0
0
2C
-
Standby Mode ON
0
0
1
*
0
0
1
0
1
1
0
1
2D
-
DDRAM Burst Mode OFF
0
0
1
*
0
0
1
0
1
1
1
0
2E
-
DDRAM Burst Mode ON
0
0
1
*
0
0
1
0
1
1
1
1
2F
-
Addressing Mode Set
0
0
1
*
0
0
1
1
0
0
0
0
30
1Byte
ROW Vector Mode Set
0
0
1
*
0
0
1
1
0
0
1
0
32
1Byte
N-line Inversion Set
0
0
1
*
0
0
1
1
0
1
0
0
34
1Byte
Frame Frequency control
0
0
1
*
0
0
1
1
0
1
1
0
36
1Byte
Entry Mode Set
0
0
1
*
0
1
0
0
0
0
0
0
40
1Byte
X-address Area Set
0
0
1
*
0
1
0
0
0
0
1
0
42
2Byte
Y-address Area Set
0
0
1
*
0
1
0
0
0
0
1
1
43
2Byte
RAM Skip Area Set
0
0
1
*
0
1
0
0
0
1
0
1
45
1Byte
Display OFF
0
0
1
*
0
1
0
1
0
0
0
0
50
-
Display ON
0
0
1
*
0
1
0
1
0
0
0
1
51
-
Specified Display Pattern Set
0
0
1
*
0
1
0
1
0
0
1
1
53
1Byte
Partial Display Mode Set
0
0
1
*
0
1
0
1
0
1
0
1
55
1Byte
Partial Display Start Line Set
0
0
1
*
0
1
0
1
0
1
1
0
56
1Byte
Partial Display End Line Set
0
0
1
*
0
1
0
1
0
1
1
1
57
1Byte
Area Scroll Mode Set
0
0
1
*
0
1
0
1
1
0
0
1
59
4Byte
Scroll Start Line Set
0
0
1
*
0
1
0
1
1
0
1
0
5A
1Byte
Set Display Data Length
X
X
X
*
1
1
1
1
1
1
0
0
FC
1Byte
Display Data Write
1
0
1
Display Data Write
-
-
Display Data Read
1
1
0
Display Data Read
-
-
Status Read
Test Mode1
Test Mode2
Test Mode3
Test Mode4
Test Mode5
Test Mode6
OTP Mode Off
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
0
*
*
*
*
*
*
*
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
FF
FE
FD
FB
FA
F9
EA
1Byte
1Byte
1Byte
1Byte
1Byte
1Byte
-
OTP Mode On
0
0
1
*
1
1
1
0
Offset Volume Set
OTP Write Enable
0
0
0
0
1
1
*
*
1
1
1
1
1
1
0
0
Status Data Read
1
1
1
1
1
1
1
1
1
1
1
1
0
1
*: Don’t care
Parameter: The number of parameter bytes that follows instruction data.
28
1
1
1
0
0
0
0
1
1
0
1
1
0
1
1
0
1
1
0
1
0
1
0
1
1
EB
-
1
1
1
1
0
1
1
1
ED
EF
1Byte
-
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Non Operation (00H)
This instruction is Non operation.
D/I
WRB
RDB
DB7
0
0
1
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
0
0
0
0
0
0
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
EXT
OSC
DB5
DB4
DB3
DB2
DB1
DB0
0
1
0
0
0
0
0
SDIR
SWP
0
Oscillation Mode Set (02H)
Setting internal function mode.
D/I
WRB
RDB
0
0
1
EXT: External clock selecting
EXT = 0: Internal clock mode (Initial status)
EXT = 1: External clock mode
OSC: Internal oscillator ON/OFF
OSC = 0: Internal oscillator OFF(Initial status)
OSC = 1: Internal oscillator ON
Driver Output Mode Set(10H)
This instruction sets the display direction.
D/I
WRB
RDB
DB7
DB6
0
0
1
0
0
0
0
DLN
DLN: Display Line number selecting
DB5
DB4
Display Duty
0
0
1/132 (Initial status)
0
1
1/144
1
0
1/162
1
1
1/96
SDIR: Segment direction
This bit is for controlling the direction of segment driver.
SDIR = 0 (Initial status)
SWP: Swap segment output SEGAi and SEGCi
This bit is for swapping the output of segment driver.
SWP = 0 (Initial status)
29
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
DC-DC Select (20H)
Selects DC-DC step-up of the common driver in normal and partial mode
D/I
0
WRB
0
RDB
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
0
0
0
0
0
0
0
0
DC(2)
DC(1)
DC(1) : 1’st DC-DC booster boosting step select for V1 generation in normal mode and partial mode 0.
DC(2) : 1’st DC-DC booster boosting step select for V1 generation in partial mode 1.
DC(2) : In partial mode 1
30
DC(1) : In normal mode, partial mode 0
DB3
DB2
DC-DC step up
DB1
DB0
DC-DC step up
0
0
X1.0
0
0
X1.0
0
1
X1.5
0
1
X1.5
1
0
X2.0
1
0
X2.0
1
1
X2.0
1
1
X2.0
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
DC-DC Select and power supply for V1 Op-Amp.
Even if VIN45 is connected to VOUT45 or VIN1, a setup by software must be able to be performed.
Power supply for V1 Op-Amp. is decided by Hardware setting and Software setting.
The example of usage is shown below.
Figure28. Example :
Hardware Setting
: VIN45 connected to VOUT45
Software Setting
: Power supply for V1 Op.Amp. uses VIN1 ( not VOUT45).
Hardware Setting
Software Setting
VIN45
VOUT45
+
VSS
C11+
C11-
V1
1st
Booster
Circuit
R1
C12+
EV_256
C12-
R1
VIN1
Reference
voltage
generator
&
Temperature
Compensation
Control Circuit
V1 generation circuit
Hardware setting : VIN45 connected to (1) VIN1
(when 1’st boosting is not used)
(2) VOUT45 (when 1’st boosting is used)
Software setting : DC-DC Select(20H) - DC(1), DC(2)
Set value “00” Power supply for V1 Op-Amp. uses VIN1 directly.
Set value “01” or “10” Power supply for V1 Op-Amp. uses VOUT45.
31
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Bias Set (22H)
This instruction set up the value of bias in normal mode and in partial mode.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
0
0
1
0
0
0
0
1
0
Bias(2)
DB2
DB1
DB0
0
0
1
0
0
0
Bias(1)
Bias(1): Bias value selecting in normal mode and partial mode0.
Bias(2): Bias value selecting in partial mode1.
Bias (2) : In partial mode 1
Bias (1) : In normal mode, partial mode 0
DB5
DB4
DB1
DB0
Bias(1)
2’nd boosting step
0
0
Bias(2) 2’nd boosting step
1/4
x(-3)
0
0
1/4
x(-3)
0
1
1/5
x(-4)
0
1
1/5
x(-4)
1
0
1/6
x(-4)
1
0
1/6
x(-4)
1
1
1/7
x(-5)
1
1
1/7
x(-5)
DCDC Clock Division Set(24H)
This instruction sets the internal booster clock frequency.
D/I
WRB
RDB
DB7
DB6
DB5
0
0
1
0
0
0
0
DB4
DB3
DB2
DB1
DB0
0
0
1
0
0
0
0
1
DIV(2)
DIV(1)
DIV(1) : DC-DC Charge Pump Division Ratio in Normal Mode Display and Partial Display Mode0
- DIV(1) = 10 (Initial status)
DIV(2) : Division Ratio in Partial Display Mode1
- DIV(2) = 10 (Initial status)
DB5
DB4
DIV(2)
DB1
DB0
DIV(1)
0
0
fPCK = fOSC/4
0
0
fPCK = fOSC/4
0
1
fPCK = fOSC/8
0
1
fPCK = fOSC/8
1
0
fPCK = fOSC/16
1
0
fPCK = fOSC/16
1
1
fPCK = fOSC/32
1
1
fPCK = fOSC/32
Note: fOSC = ( ROUNDUP (Duty/3) + dummy) x 4 x 8 x frame frequency
32
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
DC/DC and AMP ON/OFF Set (26H)
This instruction set up the DC/DC and Op-amp in common start up setting.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
0
0
1
0
0
0
0
AMP: Built-in OP-AMP ON/OFF.
- AMP=0: OP-AMP OFF (Initial status)
- AMP=1: OP-AMP ON
DCDC1: Built-in 1’st Booster ON/OFF
- DCDC1= 0: 1’st Booster OFF (Initial status)
- DCDC1= 1: 1’st Booster ON
DCDC2: Built-in 2’nd Booster ON/OFF
- DCDC2= 0: 2’nd Booster OFF (Initial status)
- DCDC2= 1: 2’nd Booster ON
DCDC3: Built-in 3’rd Booster ON/OFF
- DCDC3= 0: 3’rd Booster OFF (Initial status)
- DCDC3= 1: 3’rd Booster ON
1
0
0
0
0
AMP
DB2
DB1
DB0
1
1
0
DCDC3 DCDC2 DCDC1
Temperature Compensation Set (28H)
This Instruction sets up the driving voltage slope for temperature compensation.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
0
0
1
DB2
DB1
DB0
0
0
1
0
1
0
0
0
0
0
0
0
0
0
TCS
TCS: Temperature compensation slope set
- TCS = 00 : 0.00%/degC (Initial status)
- TCS = 01 : -0.05%/degC
- TCS = 10 : -0.10%/degC
- TCS = 11 : -0.15%/degC
Product code
Temp. Coefficient
TCS Register Set *
S6B33B2A01-B0CY
0.00%/°C
00
S6B33B2A02-B0CY
-0.05%/°C
01
S6B33B2A03-B0CY
-0.10%/°C
10
S6B33B2A04-B0CY
-0.15%/°C
11
* Note :
In case of S6B33B2A01-B0CY, SEC guarantees only 0.00%/°C, not –0.05 and –0.10, -0.15%/°C.
In case of S6B33B2A02-B0CY, SEC guarantees only -0.05%/°C, not –0.00 and –0.1, -0.15%/°C.
In case of S6B33B2A03-B0CY, SEC guarantees only -0.10%/°C, not –0.00 and –0.05, -0.15%/°C.
In case of S6B33B2A04-B0CY, SEC guarantees only -0.15%/°C, not –0.00 and –0.05, -0.10%/°C.
33
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Driving
voltage
00: 0.00 %/degC
01: -0.05 %/degC
10: -0.10 %/degC
11: -0.15 %/degC
25degC
Temperature
Temperature Compensation
If external temperature compensation is needed, circuit diagram is described as below.
To use temperature compensation, two resistors and one thermistor are needed.
Internal
Chip
External
V1IN
+
V1OUT
V1T
INTRS
34
S6B33B2 VER 1.5
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Contrast Control (1) (2AH)
This instruction updates the contrast control value in normal display mode and partial display mode 0.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
0
0
1
0
0
1
0
1
0
1
DB0
0
Contrast control value (0 to 255)
The relation between V1 voltage (typ.) and Contrast(1) set value ( 3bit step case)
Contrast(1)
(HEX)
V1
[V]
Contrast(1)
(HEX)
V1
[V]
Contrast(1)
(HEX)
V1
[V]
Contrast(1)
(HEX)
V1
[V]
Contrast(1)
(HEX)
V1
[V]
Contrast(1)
(HEX)
V1
[V]
00h
2.000
30h
2.376
60h
2.753
90h
3.129
C0h
3.506
F0h
3.882
08h
2.063
38h
2.439
68h
2.816
98h
3.192
C8h
3.569
F8h
3.945
10h
2.125
40h
2.502
70h
2.878
A0h
3.255
D0h
3.631
FFh
4.000
18h
2.188
48h
2.565
78h
2.941
A8h
3.318
D8h
3.694
20h
2.251
50h
2.627
80h
3.004
B0h
3.380
E0h
3.757
28h
2.314
58h
2.690
88h
3.067
B8h
3.443
E8h
3.820
Contrast Control (2) (2BH)
This instruction updates the contrast control value in partial display mode 1.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
0
0
1
0
0
1
0
1
DB2
DB1
DB0
0
1
1
Contrast control value (0 to 255)
The relation between V1 voltage (typ.) and Contrast(2) set value ( 3 bit step case)
Contrast(2)
(HEX)
V1
[V]
Contrast(2)
(HEX)
V1
[V]
Contrast(2)
(HEX)
V1
[V]
Contrast(2)
(HEX)
V1
[V]
Contrast(2)
(HEX)
V1
[V]
Contrast(2)
(HEX)
F0h
V1
[V]
3.882
00h
2.000
30h
2.376
60h
2.753
90h
3.129
C0h
3.506
08h
2.063
38h
2.439
68h
2.816
98h
3.192
C8h
3.569
F8h
3.945
10h
2.125
40h
2.502
70h
2.878
A0h
3.255
D0h
3.631
FFh
4.000
18h
2.188
48h
2.565
78h
2.941
A8h
3.318
D8h
3.694
20h
2.251
50h
2.627
80h
3.004
B0h
3.380
E0h
3.757
28h
2.314
58h
2.690
88h
3.067
B8h
3.443
E8h
3.820
Note :
S6B33B2 has a hardware protection for "2VR < 20V". It means the limitation of contrast value in each bias.
If 1/6 bias is set, max contrast value is limited to A9h, and if 1/7 bias is set, max contrast value is limited to 6Dh.
35
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Standby Mode OFF (2CH)
This instruction releases the standby mode.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
0
1
0
1
1
0
0
The internal statuses during standby off are as following:
- All common and segment output: VSS or V1
- Oscillator circuit: On (EXT = 0, OSC=1),OFF (others)
- Displaying clocks (FR, PM, CL): In operation
Function and Pin condition at standby OFF
Function/Pin
Condition
DC/DC
booster(1’st,2’nd,3’rd)
ON(Operate)
COM outputs
+VR or VM or VSS or -VR
SEG outputs
V1 or VSS
Standby Mode ON (2DH)
This instruction enters the standby mode to reduce the power consumption to the static power consumption
value (Initial status). The following instructions, standby off and display on, cause returning to the normal
operation status.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
0
1
0
1
1
0
1
The internal statuses during standby on are as following:
- All common and segment output: VSS
- Oscillator circuit: OFF
- Displaying clocks (FR, PM, CL) are held.
Function and Pin condition at standby ON
Function/Pin
Condition
DC/DC
booster(1’st,2’nd,3’rd)
OFF
SEG and COM outputs
VSS
LCD driving power output condition at Standby ON.
36
level
Condition
+VR
VSS
V1
VSS
VM
VSS
-VR
VSS
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
DDRAM Burst Mode OFF(2EH) /ON(2FH)
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
0
1
0
1
1
1
BM
BM: Internal DDRAM Burst Mode Interface Off/On Control
- 0 : Burst Mode Interface Off(Initial Status)
- 1 : Burst Mode Interface On
When BM=0, If MPU[0] is 0 then internal DDRAM I/F bpw(bits per word) is 8 bits.
Else MPU[0] is 1 then internal DDRAM I/F bpw(bits per word) is 16bits.
When BM=1, Regardless of MPU[0] bit, Internal DDRAM I/F bpw(bits per word) is 32 bits.
MPU
16
Register1
8
S6B33B2
Register2
8
32
X Address
Counter
00H 01H 02H 03H
---------
Y Address
Counter
8EH 8FH
8
DDRAM
Figure 23. Burst mode writing to DDRAM
37
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
/CS
E
DB15
~DB0
Burst
Mode
ON
---------
-----
---------
-----
Y
RAM
RAM
RAM
RAM
RAM
RAM
X
DATA
DATA
DATA
DATA
DATA
Address Address DATA
Setting Setting 1(16bits) 2(16bits) 3(16bits) 4(16bits) 5(16bits) 6(16bits)
RAM W rite time
RAM write data (32 bits)
RAM data 1 to 2
RAM X address
RAM Y address
RAM W rite tim e
RAM W rite tim e
RAM data 3 to 4
RAM data 5 to 6
00H
00H
02H
-----
---------
04H
-----
Figure 24. Example of the Burst mode writing to DDRAM (68-mode 16-bit parallel interface)
When DDRAM burst mode is used, note the following.
Notes:
1.Data is written to DDRAM each two words. If only one word data is written to DDRAM, the data will not
be written.
So, the number of word data must be even. It means that Y start address must be even and Y end
address must be odd.
2.X address count mode can’t be used.
3.Burst mode and normal mode write operation cannot be executed at the same time.
4.In the read data mode and serial interface mode, the burst mode can’t be used.
5.In the 256 color mode with 16-bit data bus mode and 4,096 color mode with 8-bit data bus mode,
The address is counted as burst mode enable. So these modes are influenced by above notes.
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S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Addressing Mode Set (30H)
D/I
WRB
0
RDB
0
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
0
0
0
0
DSG
SGF
0
GSM
SGP
SGM
GSM: Gray Scale Mode
- 00: 65,536 color mode (Initial status)
- 01: 4,096 color mode* (refer to “Data Format Select (60H/61H)”)
- 10: 256 color mode*
- 11: 256 color mode*
* In the 256 color mode with 16-bit data bus mode and 4,096 color mode with 8-bit data format B,
the address is counted as burst mode enable. So, In this case, refer to notes of burst mode at page 39.
DSG: Duty Adjust Setting
- 0: Dummy subgroup is one subgroup
- 1: Dummy subgroup is none (Initial status)
SGF: Sub Group Frame Inversion mode setting
- 0: SG Frame inversion OFF
- 1: SG Frame inversion ON (Initial status)
SGM: Sub Group inversion mode setting
- 0: SG inversion OFF
- 1: SG inversion ON (Initial status)
SGP: Sub Group Phase mode setting
- 00: Same phase in all pixels
- 01: Different phase by 1pixel-unit
- 10: Different phase by 2pixel-unit (Initial status)
- 11: Different phase by 4pixel-unit
Row Vector Mode Set (32H)
Setting ROW function.
D/I
WRB
RDB
0
0
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
0
0
1
0
0
0
0
0
INC
VEC
INC: Row Vector Increment Mode. This Parameter set up Row vector increment period
DB3
DB2
DB1
Row Vector Increment Period
0
0
0
Every subgroup
0
0
1
Every 2subgroup
0
1
0
Every 4subgroup
0
1
1
Every 8subgroup
1
0
0
Every 16subgroup
1
0
1
Every 16subgroup
1
1
0
Every 16subgroup
1
1
1
Every sub-frame (initial status)
VEC: ROW Vector Sequence Mode
- 0: R1->R2->R3->R4 -> R1… (Initial status)
- 1: R1->R3->R2->R4 -> R1...
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132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
N-block inversion Set (34H)
This instruction set up N block inversion for AC driving.
D/I
WRB
RDB
DB7
DB6
DB5
0
0
1
0
0
1
FIM
FIP
0
DB4
DB3
DB2
DB1
DB0
1
0
1
0
0
N-block inversion
FIM: Forcing Inversion Mode
FIM = 0: Forcing Inversion OFF
FIM = 1: Forcing Inversion ON (Initial status)
FIP: Forcing Inversion Period
FIP = 0: Forcing Inversion Period is one frame (Initial status)
FIP = 1: Forcing Inversion Period is two frame
N-block Inversion: This parameter indicates the basic period of polarity inversion.
The whole period of polarity inversion is decided by FIM, FIP and this parameter.
(Initial status: 01101)
DB7
DB6
DB5
DB4 – DB0
x
X
x
0
every frame
Polarity Inversion Period
0
X
x
1
every 1 block
:
:
:
:
:
0
X
x
31
every 31 blocks
1
0
x
1
every 1 block and every frame
:
:
:
:
1
0
x
31
every 31 blocks and every frame
1
1
x
1
every 1 block and every 2 frames
:
:
:
:
1
1
x
31
:
:
every 31 blocks and every 2 frames
Frame Frequency Control (36H)
This instruction controls the internal frame frequency.
D/I
WRB
RDB
DB7
DB6
DB5
0
0
1
DB3
DB2
DB1
DB0
0
0
1
1
0
1
1
0
0
0
0
0
0
0
0
LFS
LFS: Low frame frequency set for low power consumption.
LFS = 0 : Low frequency set OFF (Initial status)
LFS = 1 : Low frequency set ON
Note: fFR @(LFS=1) = fFR @(LFS=0) / 2
40
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S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
256 Color Mode Palettes
At 256-color mode, the instruction and parameter below set each Gray Scale level of the Red/Green/Blue.
Gray scale level is determined by GS data.
Red Palette (38H)
D/I
0
WRB
0
RDB
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
1
0
0
0
0
0
0
GS data “000” to RAM data
0
0
0
GS data “001” to RAM data
0
0
0
GS data “010” to RAM data
0
0
0
GS data “011” to RAM data
0
0
0
GS data “100” to RAM data
0
0
0
GS data “101” to RAM data
0
0
0
GS data “110” to RAM data
0
0
0
GS data “111” to RAM data
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
1
0
1
0
0
0
GS data “000” to RAM data
0
0
GS data “001” to RAM data
0
0
GS data “010” to RAM data
0
0
GS data “011” to RAM data
0
0
GS data “100” to RAM data
0
0
GS data “101” to RAM data
0
0
GS data “110” to RAM data
0
0
GS data “111” to RAM data
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
1
1
0
0
0
0
0
GS data “00” to RAM data
0
0
0
GS data “01” to RAM data
0
0
0
GS data “10” to RAM data
0
0
0
GS data “11” to RAM data
Green Palette (3AH)
D/I
0
WRB
0
RDB
1
Blue Palette (3CH)
D/I
0
WRB
0
RDB
1
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132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Initial value for each Palette
Gray Scale
Initial Gray Scale Level
Data
Red
Green
Blue
000
0
0
0
001
8
16
12
010
12
24
20
011
16
32
31
100
20
40
-
101
24
48
-
110
28
56
-
111
31
63
-
The relationship between Gray Scale level and RAM data for Red/Blue
RAM Data
42
RAM Data
GS Level
DB4
DB3
DB2
DB1
DB0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
GS Level
DB4
DB3
DB2
DB1
DB0
0
1
0
0
0
0
16
1
1
1
0
0
0
1
17
0
2
1
0
0
1
0
18
1
1
3
1
0
0
1
1
19
1
0
0
4
1
0
1
0
0
20
0
1
0
1
5
1
0
1
0
1
21
0
1
1
0
6
1
0
1
1
0
22
0
0
1
1
1
7
1
0
1
1
1
23
0
1
0
0
0
8
1
1
0
0
0
24
0
1
0
0
1
9
1
1
0
0
1
25
0
1
0
1
0
10
1
1
0
1
0
26
0
1
0
1
1
11
1
1
0
1
1
27
0
1
1
0
0
12
1
1
1
0
0
28
0
1
1
0
1
13
1
1
1
0
1
29
0
1
1
1
0
14
1
1
1
1
0
30
0
1
1
1
1
15
1
1
1
1
1
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S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
The relationship between Gray Scale level and Gray Scale data for Green
GS Data
GS Data
GS Level
DB5
DB4
DB3
DB2
DB1
DB0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
GS Level
DB5
DB4
DB3
DB2
DB1
DB0
0
1
0
0
0
0
0
32
1
1
1
0
0
0
0
1
33
0
2
1
0
0
0
1
0
34
1
1
3
1
0
0
0
1
1
35
1
0
0
4
1
0
0
1
0
0
36
0
1
0
1
5
1
0
0
1
0
1
37
0
0
1
1
0
6
1
0
0
1
1
0
38
0
0
1
1
1
7
1
0
0
1
1
1
39
0
0
1
0
0
0
8
1
0
1
0
0
0
40
0
0
1
0
0
1
9
1
0
1
0
0
1
41
0
0
1
0
1
0
10
1
0
1
0
1
0
42
0
0
1
0
1
1
11
1
0
1
0
1
1
43
0
0
1
1
0
0
12
1
0
1
1
0
0
44
0
0
1
1
0
1
13
1
0
1
1
0
1
45
0
0
1
1
1
0
14
1
0
1
1
1
0
46
0
0
1
1
1
1
15
1
0
1
1
1
1
47
0
1
0
0
0
0
16
1
1
0
0
0
0
48
0
1
0
0
0
1
17
1
1
0
0
0
1
49
0
1
0
0
1
0
18
1
1
0
0
1
0
50
0
1
0
0
1
1
19
1
1
0
0
1
1
51
0
1
0
1
0
0
20
1
1
0
1
0
0
52
0
1
0
1
0
1
21
1
1
0
1
0
1
53
0
1
0
1
1
0
22
1
1
0
1
1
0
54
0
1
0
1
1
1
23
1
1
0
1
1
1
55
0
1
1
0
0
0
24
1
1
1
0
0
0
56
0
1
1
0
0
1
25
1
1
1
0
0
1
57
0
1
1
0
1
0
26
1
1
1
0
1
0
58
0
1
1
0
1
1
27
1
1
1
0
1
1
59
0
1
1
1
0
0
28
1
1
1
1
0
0
60
0
1
1
1
0
1
29
1
1
1
1
0
1
61
0
1
1
1
1
0
30
1
1
1
1
1
0
62
0
1
1
1
1
1
31
1
1
1
1
1
1
63
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132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Entry Mode Set (40H)
Setting internal function mode.
D/I
WRB
RDB
0
0
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
1
0
0
0
0
0
0
0
0
0
0
HL
MDI
X/Y
RMW
1
HL: When GSM is 10 or 11 (256 color mode),
Exchange higher and lower byte in 16-bit data bus mode only for “Display Data Write/Read”
HL = 0: Not exchanged status (Initial status)
HL = 1: Exchanged status
MDI: Memory data inversion setting for low power consumption.
MDI = 0: Memory data inversion OFF (Initial status)
MDI = 1: Memory data inversion ON
<MDI=0>
Display Data Write
<MDI=1>
Display Data Read
Display Data Write
Display Data Read
Data Bus
00h
00h
00h
FFh
Memory
00h
00h
FFh
00h
X/Y: Memory address counter mode setting
X/Y = 0: Y address counter mode (Initial status)
X/Y = 1: X address counter mode
RMW: Read modify write mode ON/OFF select
RMW = 0: Read modify write OFF (Initial status)
RMW = 1: Read modify write ON. When this mode is on, X(Y) address of on-chip display RAM is not
increment in reading display data but in writing display data.
X Address Area Set (42H)
This instruction and parameter set up the X address areas of the on-chip display data RAM.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
0
0
0
1
1
0
0
0
0
1
DB0
0
X start address set (Initial Status = 00H)
X end address set (Initial Status = A1H)
The current X address of the on-chip display data RAM is the X start address by setting this instruction. In X
address count mode (X/Y = “H”), the X address is increased from X start address to X end address. When X
address is equal to the X end address, the Y address is increased by 1 and the X address returns to X start
address. The X start and X end addresses must be set as a pair and X start address must be less than X end
address.
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S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Y Address Area Set (43H)
This instruction and parameter set up the Y address areas of the on-chip display data RAM.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
0
0
0
1
1
0
0
0
0
DB0
1
1
Y start address set (Initial Status = 00H)
Y end address set (Initial Status = 83H)
The current Y address of the on-chip display data RAM is the Y start address by setting this instruction. In
Y address count mode (X/Y = “L”), the Y address is increased from Y start address to Y end address. When
Y address is equal to the Y end address, the X address is increased by 1 and the Y address returns to Y start
address. The Y start and Y end address must be set as a pair and Y start address must be less than Y end
address.
RAM Skip Area Set (45H)
This instruction and parameter set up the X address areas of the on-chip display data RAM.
D/I
0
WRB
0
RDB
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
1
0
0
0
1
0
1
0
0
0
0
0
0
RSK
RSK : RAM Skip function ON/OFF set
- RSK = 00 : No Skip
- RSK = 01 : Y address 40h - 43h skip
- RSK = 10 : Y address 3Ch - 47h skip
- RSK = 11 : Reserved
RAM Skip Area Set
RAM Skip Area Set can skip a part of RAM Y-address area. After setting RAM skip area, Y-address count
skip this area and count. In other words, Y address after skip area is changed into Y address which added a
part for skip area.
Memory data
Y-address Area
Input Display Area
Skip Area
X-address
Area
45
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Display OFF (50H)
Turn the display OFF(Initial status).
When display is off, all segment and common output are VSS level.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
1
0
1
0
0
0
0
Function and Pin condition at Display OFF
Function/Pin
Condition
DC/DC
booster(1’st,2’nd,3’rd)
ON(Operate)
SEG and COM outputs
VSS
Display ON (51H)
Turns the display ON.
In case of being standby mode, this instruction does not work. This instruction is executed after standby mode
off.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
1
0
1
0
0
0
1
Function and Pin condition at Display ON
Function/Pin
Condition
DC/DC
booster(1’st,2’nd,3’rd)
ON(Operate)
COM outputs
+VR or VM or -VR
SEG outputs
V1 or VSS
Specified Display Pattern Set (53H)
This instruction sets the specified display pattern.
D/I
0
WRB
0
RDB
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
1
0
1
0
0
1
1
0
0
0
0
0
0
SDP
SDP : Specified Display Pattern set
- SDP = 00 : Normal display
- SDP = 01 : Reverse display : Display data reversing mode setting without the contents of the display
RAM
- SDP = 10 : Whole display pattern becomes OFF regardless of the RAM data.
- SDP = 11 : Whole display pattern becomes ON regardless of the RAM data.
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S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Partial Display Mode Set (55H)
D/I
WRB
RDB
0
0
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
1
0
1
0
1
0
1
0
0
0
0
0
0
PDM
PT
PT: Partial Display ON/OFF
- PT = 0: Partial display OFF = Normal mode (Initial status)
- PT = 1: Partial display ON
PDM: Partial Display mode set
- PDM = 0: Partial mode 0 : Duty ratio is same as Normal display mode(initial status)
- PDM = 1: Partial mode 1 : Duty ratio is changed from Normal display mode
(DSG = 0 : 69 line fixed(including 1 dummy subgroup),
DSG = 1 : 66 line fixed(no dummy subgroup))
Applied parameter in PDM0 and PDM1 are summarized as below
PDM
Contrast
Duty
Bias
DC-DC Select
OSC
PCK
0
Contrast control(1)
Normal
Bias(1)
DC(1)
OSC1-OSC2
DIV(1)
1
Contrast control(2)
1/69
Bias(2)
DC(2)
OSC3-OSC4
DIV(2)
Partial Start Line
Display
Area
Partial Start Line
M line
N line
69 line Fix
Partial End Line
Partial End Line
PDM 0
No display Area
PDM 1
: No COM Scanning field (COM = Vm fixed)
Except Partial Display Area : COM Timing is existing, but COM = Vm fixed
Partial Display Area
: Real display field
Operation in Partial Display Mode 0 (PDM=0)
On scanning except partial display area
- SEG output select V0 or V1 level depend on “FR” value. Refer to Page50.
- All of COM output is fixed VM level.
On scanning partial display area
- It is equal to be in normal mode
Operation in Partial Display Mode 1 (PDM=1)
Display area is from partial start line to partial end line.
(COM driver output is fixed VM except display area, only max69 line output COM signal.
On scanning except partial display area
- SEG output select V0 or V1 level depend on “FR” value. Refer to Page50.
- All of COM output is fixed VM level.
On scanning partial display area
- It is equal to be in normal mode
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132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Partial Display Mode0
Item
Partial Display Area
Out of Partial Display Area
Duty
Same as normal display mode
Bias
Same as normal display mode ( Bias(1) setting )
Contrast
Same as normal display mode ( Contrast(1) setting )
Oscillator
Same as normal display mode ( OSC1 – OSC2 )
SEG Output level
COM Output level
Depends on Internal “FR” signal
Same as normal mode (V1,V0)
See page 50
Same as normal mode
VM fixed
(+VR,VM,-VR)
In case of COM 6 to COM11 Partial display
+VR
VM
-VR
<COM0-2>
<COM3-5>
<COM6-8>
<COM9-11>
<COM12-14>
Normal Display Mode
Partial Display Mode 1
Partial display mode1
Item
Partial Display Area
Duty
48
Out of Partial Display Area
Out of Display Area
1/69duty
Bias
Bias(2) setting
Contrast
Contrast(2) setting
Oscillator
( OSC3 – OSC4 ) setting value
SEG Output
level
Same as normal mode
(V1,V0)
COM Output
level
Same as normal mode
(+VR, VM, -VR)
Depends on “FR” signal
See page 50
VM fixed
VM fixed
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Partial Display Start Line Set (56H), Partial Display End Line Set(57H)
These 2 instructions set the partial display area and it is possible to display a part.
Partial Display Start Line Set (56H)
D/I
WRB
RDB
DB7
0
0
0
1
0
DB5
DB4
DB3
DB2
DB1
DB0
1
0
1
0
1
1
0
Partial start line
Partial Display End Line Set (57H)
D/I
WRB
RDB
DB7
0
DB6
0
1
DB6
DB5
DB4
DB3
DB2
DB1
DB0
1
0
1
0
1
1
1
Partial end line
COM 0
COM 1
COM 2
COM 3
line 0
line 1
line 2
line 3
:
:
:
COM 158
COM 159
COM 160
COM 161
line 158
line 159
line 160
line 161
Parameter set appoints display line number. At PDM 0, Parameter Size is able to be in a number of Display
lines. But that is not able to be over max 69 line at PDM 1. Partial end line must set bigger number than Partial
start line.
49
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Example of Segment Voltage in non-display area
N
Frame
0
Subframe
N+1
1
2
3
0
+VR
VM
COM
VM
VM
VM
VM
Display
Off
-VR
Partial
Display
Addressing Duty
internal
polarity
counter
(FR)
V1
SEG
V1
V0
V1
V0
V1
V0
V1
V0
V1
VM
V0
V0
Area scroll Set (59H)
This instruction sets up area scroll field (start line, end line, Lower fixed line number), and it is possible to make
screen to display as partial scroll field.
D/I
0
WRB
0
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
0
1
0
1
1
0
0
0
0
0
0
0
0
1
Scroll area start line
Scroll area end line
Lower fixed number
SCM: Scroll mode setting
50
DB1
DB0
Mode
0
0
Entire display(Initial status)
0
1
Upper scroll display
1
0
Lower scroll display
1
1
Center scroll display
DB0
1
SCM
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Entire Display
Upper Display
Lower Display
Center Display
Scroll Start Line Set (5AH)
This instruction and parameter set up scroll start line. On this instruction, scroll start line becomes the first of
area scroll field. Scroll operation is occurred every issue of this instruction.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
1
0
1
1
0
1
0
Scroll start line
<Example>
-DLN : 2’b10 (1/162 duty)
-SCM : 2’b11 (Center display mode)
-Scroll area start line : 6
-Scroll area end line
: 152
-Lower fixed number : 9
-Scroll start line
: 40
<DUTY BLOCK>
COM0
COM6
<DISPLAY>
<RAM BLOCK>
Upper
fix
Xadr=0
Xadr=6
Upper
fIx
COM0
Addr0
COM6
Addr5
Addr40
Xadr=40
Scroll
display
COM153
COM161
Lower
fix
Scroll
area
Xadr=153
Xadr=161
Lower
fix
Addr152
Addr6
COM153
Addr39
Addr153
COM161
Addr161
RAM Address.
51
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Normal Mode
Set partial start line
Set partial end line
Set partial mode 0
Set
Set
Set
Set
Set
Partial Mode 0
scroll mode
scroll area start line
scroll area end line
lower fixed line no.
scroll start line
Set scroll mode
Set scroll area start line
Set scroll area end line
Set lower fixed line
Set scroll start line
Set partial start line
Check busy flag
Set partial end line
Set partial mode 0
Scroll Mode
Set
Set
Set
Set
Set
Release partial mode
Scroll/Partial Mode 0
scroll mode
scroll area start line
scroll area end line
lower fixed line no.
scroll start line
Set scroll mode
Set scroll area start line
Set scroll area end line
Set lower fixed line no.
Set scroll start line
Release partial mode
Normal Mode
Data Format Select (60H/61H)
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
0
1
1
0
0
0
0
DFS
DFS: 4,096 Color Mode Data Format Select
- 0 : 4,096 Color Data Format A (Initial Status)
8 bit mode :
DB[7:0] : XXXXRRRR (1’st write)
DB[7:0] : GGGGBBBB(2’nd write)
16 bit mode :
DB[15:0] :XXXXRRRRGGGGBBBB (12 bit)
- 1 : 4,096 Color Data Format B
8 bit mode :
DB[7:0] : RRRRGGGG(1’st write)
DB[7:0] : BBBBRRRR (2’nd write)
DB[7:0] : GGGGBBBB(3’rd write)
16 bit mode :
DB[15:0] :RRRRGGGGBBBBXXXX (12 bit)
52
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Display Data Write/Read
D/I
WRB
RDB
DB15
~ DB8
1
0
1
Display RAM write in data
1
1
0
Display RAM read out data
GSM = 00(65,536 Color Mode)
(1) 16bit access mode
15 14 13
1’st cycle
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
12
11
10
9
8
7
6
5
4
3
2
1
0
R4
R3
R2
R1
R0
G5
G4
G3
G2
G1
G0
B4
B3
B2
B1
B0
2’nd cycle
R4
(2) 8bit access mode
7
R3
R2
R1
R0
G5
G4
G3
G2
G1
G0
B4
B3
B2
B1
B0
6
5
4
3
2
1
0
1’st cycle
R4
R3
R2
R1
R0
G5
G4
G3
2’nd cycle
G2
G1
G0
B4
B3
B2
B1
B0
3’rd cycle
R4
R3
R2
R1
R0
G5
G4
G3
4’th cycle
G2
G1
G0
B4
B3
B2
B1
B0
GSM = 01(4,096 Color Mode)
(1) 16bit access mode
15 14 13
12
11
10
9
8
7
6
5
4
3
2
1
0
1’st cycle
X
X
X
X
R3
R2
R1
R0
G3
G2
G1
G0
B3
B2
B1
B0
2’nd cycle
X
(2) 8bit access mode
7
X
X
X
R3
R2
R1
R0
G3
G2
G1
G0
B3
B2
B1
B0
6
5
4
3
2
1
0
1’st cycle
X
X
X
X
R3
R2
R1
R0
2’nd cycle
G3
G2
G1
G0
B3
B2
B1
B0
3’rd cycle
X
X
X
X
R3
R2
R1
R0
4’th cycle
G3
G2
G1
G0
B3
B2
B1
B0
GSM = 10 or 11 (256 Color Mode)
(1) 16bit access mode
15 14 13
12
11
10
9
8
7
6
5
4
3
2
1
0
1’st cycle
R2
R1
R0
G2
G1
G0
B1
B0
R2
R1
R0
G2
G1
G0
B1
B0
2’nd cycle
R2
(2) 8bit access mode
7
R1
R0
G2
G1
G0
B1
B0
R2
R1
R0
G2
G1
G0
B1
B0
6
5
4
3
2
1
0
1’st cycle
R2
R1
R0
G2
G1
G0
B1
B0
2’nd cycle
R2
R1
R0
G2
G1
G0
B1
B0
3’rd cycle
R2
R1
R0
G2
G1
G0
B1
B0
4’th cycle
R2
R1
R0
G2
G1
G0
B1
B0
53
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Status Read
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
1
0
BSY
X/Y
OPRT
PDM
PT
STB
REV
DP
This instruction indicates the internal status of the S6B33B2.
DP: ( 0 : Display OFF Status, 1 : Display ON Status )
REV: ( 0 : Display Image Non-Reversing, 1 : Display Image Reversing )
STB: ( 0 : Standby Mode OFF Status, 1 : Standby Mode ON Status )
PT: ( 0 : Partial Display Mode OFF Status, 1 : Partial Display Mode ON Status )
PDM: ( 0 : Partial Display Mode 0, 1 : Partial Display Mode 1 )
OPRT: (0: OTP mode non-protection status, 1: OTP mode protection status)
X/Y: ( 0 : Y-address Count Mode, 1 : X-address Count Mode )
BSY: ( 0 : No Busy, 1 : Busy )
Set Display Data Length (FCH)
This Instruction is only used in 3-pin SPI MPU interface mode(PS=”L”, MPU[1]=”L”). It consists of two
continuous commands, the first byte control the data direction(write mode only) and inform the LCD driver the
second and third bytes will be number of data bytes will be write. When DI is not used, the Display Data Length
instruction is used to indicate that a specified number of display data bytes are to be transmitted.
The next byte after the display data string is handled as command data.
D/I
0
WRB
0
RDB
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
1
1
1
1
1
1
0
0
Number of display data upper 8bits (DDL_H)
Number of display data lower 8bits (DDL_L)
54
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
OTP Mode On (EBH)
This command is used to turn OTP mode on. (Initial status)
RS
RW_WR
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
1
0
1
0
1
1
OTP Mode Off (EAH)
This command is used to turn OTP mode off
RS
RW_WR
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
1
0
1
0
1
0
Offset Volume Set (EDH)
This command is used to set offset value x (-32 to +31) to electronic volume by 2s complement.
RS
RW_WR
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
1
0
1
1
0
1
0
0
0
OPRT
P15
P14
P13
P12
P11
P10
OPRT : OTP mode protection bit
0 : OTP cell is able to be programmed
1 : OTP cell isn’t able to be programmed
P15
0
:
0
0
1
1
P14
1
:
0
0
1
:
0
P13
1
:
0
0
1
:
0
P12
1
:
0
0
1
:
0
P11
1
:
0
0
1
:
0
P10
1
:
1
0
1
:
0
Offset Volume(x)
31
1
0
-1
:
-32
OTP Write Enable (EFH)
This command is used to write offset value (OV) into EPROM cells.
RS
RW_WR
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
1
1
1
0
1
1
1
1
55
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Test Mode1 (FFH)
This Instruction is for testing IC. User is not permitted to access. if access, have to reset.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
0
0
1
1
1
1
1
1
1
DB1
DB0
1
1
DB1
DB0
1
0
DB1
DB0
0
1
DB1
DB0
1
1
DB1
DB0
1
0
DB1
DB0
0
1
DB1
DB0
0
0
Test Mode2 (FEH)
This Instruction is for testing IC. User is not permitted to access. if access, have to reset.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
0
0
1
1
1
1
1
1
1
Test Mode3 (FDH)
This Instruction is for testing IC. User is not permitted to access. if access, have to reset.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
0
0
1
1
1
1
1
1
1
Test Mode4 (FBH)
This Instruction is for testing IC. User is not permitted to access. if access, have to reset.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
0
0
1
1
1
1
1
1
0
Test Mode5 (FAH)
This Instruction is for testing IC. User is not permitted to access. if access, have to reset.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
0
0
1
1
1
1
1
1
0
Test Mode6 (F9H)
This Instruction is for testing IC. User is not permitted to access. if access, have to reset.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
0
0
1
1
1
1
1
1
0
Test Mode7(F8)
This Instruction is for testing IC. User is not permitted to access. if access, have to reset.
D/I
WRB
RDB
DB7
DB6
DB5
DB4
DB3
DB2
0
56
0
1
1
1
1
1
1
0
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
INSTRUCTION PARAMETER
Table 16. Instruction Parameter
Instruction
Hex
Para.
Oscillation Mode Set
02H
1
Driver Output Mode Set
10H
1
DC-DC Set
20H
1
Bias Set
22H
1
DCDC Clock Division Set
24H
1
DCDC and AMP ON/OFF Set
26H
1
Temperature Compensation Set
28H
1
Contrast Control (1)
2AH
1
Contrast Control(2)
2BH
1
Addressing Mode Set
30H
1
ROW Vector Mode Set
32H
1
N-line Inversion Set
34H
1
Frame Frequency Control
36H
1
Entry Mode Set
40H
1
X-address Area Set
42H
2
Y-address Area Set
43H
2
RAM Skip Area Set
45H
1
Set Display Data Length
FCH
2
Specified Display Pattern Set
53H
1
Partial Display Mode Set
55H
1
Partial Display Start Line Set
56H
1
Partial Display End Line Set
57H
1
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
0
0
0
0
0
0
EXT
OSC
*
*
*
*
*
*
0
0
0
0
DLN
0
SDIR
SWP
0
*
*
0
0
*
0
0
0
0
0
0
0
DC(2)
DC(1)
0
0
0
0
0
0
0
0
0
0
Bias(2)
0
0
Bias(1)
0
*
0
0
*
*
0
0
0
0
DIV(2)
0
0
DIV(1)
*
*
1
0
*
*
1
0
0
0
0
0
AMP
DCDC3 DCDC2 DCDC1
*
*
*
*
0
0
0
0
0
0
0
0
0
0
TCS
*
*
*
*
*
*
0
0
Contrast control value in normal and partial display mode0(0 to 255)
0
0
0
0
0
0
0
0
Contrast control value in partial display mode 1(0 to 255)
0
0
0
0
0
0
0
0
GSM
DSG
SGF
SGP
SGM
0
*
0
0
1
1
1
0
1
0
0
0
0
INC
VEC
*
*
*
*
1
1
1
0
FIM
FIP
0
N-block Inversion
1
0
*
0
1
1
0
1
0
0
0
0
0
0
0
LFS
*
*
*
*
*
*
*
0
0
0
0
0
HL
MDI
X/Y
RMW
*
*
*
*
*
0
0
0
X Start address set
0
0
0
0
0
0
0
0
X end address set
1
0
1
0
0
0
0
1
Y start address set
0
0
0
0
0
0
0
0
Y end address set
1
0
0
0
0
0
1
1
0
0
0
0
0
0
RSK
*
*
*
*
*
*
0
0
Number of display data DDL_H
Number of display data DDL_L
0
0
0
0
0
0
SDP
*
*
*
*
*
*
0
0
0
0
0
0
0
0
PDM
PT
*
*
*
*
*
*
0
0
Partial start line
0
0
0
0
0
0
0
0
Partial end line
0
0
0
0
0
0
0
0
57
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Table 16. Instruction Parameter (Continued)
58
Instruction
Hex
Para.
Area Scroll Mode Set
59H
4
Scroll Start Line Set
5AH
1
Offset Volume Set
EDH
1
DB7
0
*
DB6
0
*
DB5
0
*
0
0
0
1
0
1
0
0
0
0
1
*
0
1
*
0
1
*
DB4
DB3
DB2
0
0
0
*
*
*
Scroll area start line
0
0
0
Scroll area end line
0
0
0
Lower Fixed number
0
0
0
Scroll start line
0
0
0
0
1
1
0
0
0
DB1
DB0
SCM
0
0
0
0
0
1
0
0
0
0
0
0
1
0
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Reset Operation
When RSTB becomes “L”, following procedure is occurred.
- X start address: 0, X end address: 161, - Y start address: 0, Y end address: 131
- Display OFF
- Read Modify Write Mode OFF
- Function Mode Set
MDI = 0: Memory Data Inversion OFF
OSC = 0: Oscillator OFF
EXT = 0: Internal Oscillator Mode
REV = 0: Reversing mode OFF
X/Y = 0: Y-address Count Mode
Standby Mode ON
- DCDC Clock Division Set
DIV(1) = 10: fPCK = fOSC/16x
DIV(2) = 10: fPCK = fOSC/16x
- Duty Set
Display Duty = 00: 1/132 duty
- DC-DC Select
DC(1) = 0: X1 step-up
DC(2) = 0: X1 step-up
- Bias Set
Bias(1) = 0H: 1/4 bias
Bias(2) = 0H: 1/4 bias
- DC/DC and AMP ON/OFF Set
AMP =0: Built-in OP-AMP OFF
DCDC1 =0: Built-in 1’st booster OFF
DCDC2 =0: Built-in 2’nd booster OFF
DCDC3 =0: Built-in 3’rd booster OFF
- N-block inversion
FIM =1: Forcing Inversion ON
FIP =0: Forcing Inversion Period in one frame
N-block inversion = 0DH: 13 block inversion
- Frame Frequency Control
LFS =0: Low Frequency Set OFF
- Partial Display Mode
PT = 0: Partial Display Mode OFF
- Partial Display Area Set
Partial start line = 00H
Partial end line = 00H
-Area Scroll Set
Mode = 00H : Entire Display Scroll Mode
Area Start Line: 00H
Area End Line: A1H
Lower Fixed Line Number: 00H
- Scroll Start Line Set
Scroll Start Line: 00H
- Addressing Mode Set
GSM=00: 65,536 Color Mode
DSG = 1: No dummy subgroup
SGF = 0: SG Frame Inversion OFF
SGM = 1: SG Reverse Mode ON
SGP=10: Different phase by 2pixel-unit
- Row Vector Mode Set
INC =111: Increment every sub-frame
VEC=0: R1->R2->R3->R4->R1->…
59
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
POWER ON/OFF SEQENCE
Power ON Sequence
Power On
Set various registers and RAM data if needed
(XS,XE,YS,YE,MDI,EXT,REV,XY,DIV,DLN,BIAS,DC,
FIM,FIP,N-block,PT,PDM,SMOD,DSG,GSM,SGF,
SGM,SGP,INC,VEC, Display Data)
Reset
Waiting for
releasingReset
Display ON
Standby
mode OFF
Busy
Busy Flag
check or
waiting for
No busy
OSC ON
DCDC1 ON
AMP ON
DCDC2 ON
DCDC3 ON
60
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Power OFF Sequence
Display Off
Standby On
( DCDC3 OFF
DCDC2 OFF
AMP OFF
DCDC1 OFF
OSC OFF )
Waiting for
Discharge
Power Off
61
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS
Item
Symbol
Rating
Supply Voltage range
VDD3
LCD Supply Voltage range
|VCC – VEE|
Input Voltage range
Vin
Operating Temperature range
TOPR
-30 to +70
°C
Storage Temperature range
TSTR
-55 to +150
°C
-0.3
- 0.3
Unit
to +4.0
V
22
V
to VDD +0.3
V
OPERATING VOLTAGE
62
Item
Symbol
Min.
Typ.
Max.
Unit
Supply Voltage (1)
VDD3
1.8
-
3.3
V
Supply Voltage (2)
2Vr
4.0
-
20
V
Supply Voltage (3)
VIN
2.4
3.0
3.6
V
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
DC CHARACTERISTICS (1)
(Vss = 0V, VDD3 = 1.8 to 3.3V, Ta = -30 to 70 °C)
Item
Symbol
Operating voltage
VDD3
1.8
Operating voltage
VIN1
2.4
Operating voltage
VIN2
Operating voltage
VIN45
Operating voltage
Operating voltage
Max
Unit
Remarks
3.3
V
VDD3
-
3.6
V
VIN1,VIN1A
2.4
-
7.2
V
2.4
-
7.2
V
VOUT45
1/4 Bias
1.5
-
3.0
1/5 Bias
1.33
-
2.67
1/6 Bias
1.67
-
3.33
V
DC2OUT
1/7 Bias
1.5
-
3.0
2Vr = |(+VR)- (-VR)|
4.0
-
20
V
+VR, -VR
1.0
2.0
V
VMOUT
5.0
12.0
V
VRP
VEE
-3.0
-8.0
V
VRN
DC2IN
2Vr
Condition
VM
Driving voltage input
range
VCC
External power supply
mode
Min
Typ
Input
voltage
High
VIH
0.8VDD
-
VDD
Low
VIL
VSS
-
0.2VDD
Output
voltage
High
VOH
IOH = 0.5mA
0.8VDD
-
VDD
Low
VOL
IOL = 0.5mA
VSS
-
0.2VDD
Input leakage current
IIL
VIN = VDD or VSS
-1.0
-
+1.0
µA
Output leakage current
IOZ
VIN = VDD or VSS
-3.0
-
+3.0
µA
Normal or
Partial 0
FOSC1
R1=90kOhm, (fFR=100Hz
target), DSG=0, 162 Duty,
Vdd3=3V, Ta=25°C
155.5
172.8
190.1
kHz
OSC1
OSC2
-
Tolerance
Partial 1
FOSC2
R1=300kOhm, (fFR=70Hz
target), DSG=0, 66 Duty
Vdd3=3V, Ta=25°C
44.35
49.28
54.21
kHz
OSC3
OSC4
-
Oscillator
Normal or
Partial 0
FOSC1
(*1)
61.44
259.2
kHz
OSC1
OSC2
-
Partial 1
FOSC2
(*2)
29.44
88.32
kHz
OSC3
OSC4
-
Oscillator
Frequency
Frequency
Range
Driving voltage input
range
V1
2.0
VM
1.0
Regulator output range
REG_OUT
REG_ENB = “L”
1.8
-
4.0
2.0
2.2
V
V
V
V
(*1) Minimum oscillator frequency range is defined at fFR=60Hz and display line number=96
Maximum oscillator frequency range is defined at fFR=150Hz and display line number=162
(*2) Minimum oscillator frequency range is defined at fFR=40Hz and display line number=69
Maximum oscillator frequency range is defined at fFR=120Hz and display line number=69
63
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
DC CHARACTERISTICS (2)
Item
Symbol
Condition
Min
Typ
Max
Unit
Remarks
SEG
RON-Seg
V1=3.0 V, V0=0V,
Ta = 25°C, Iload=50uA
-
1.5
3.0
kΩ
SEGn
COM
RON-Com
-
1.0
1.5
kΩ
COMn
-
750
950
µΑ
Driver output
resistance
Normal
Mode
Current
consumption
IDD
Partial1
Mode
VCC=10.5 V, VM=1.5V,
VEE=-7.5V,
Ta = 25°C, Iload=100uA
VDD3=VIN1=3.0V, V1=3.0V,
Bias(1)=1/6, DC(1)=x1.5,
Ta=25°C, Display line=162
DSG=1 (No dummy)
fOSC1=172.8kHz (fFR=100Hz)
No load, No access,
All white pattern
VDD3=VIN1=3.0V, V1=3.0V,
Bias(2)=1/5, DC(2)=x1.5,
Ta=25°C, 1/66 duty
fOSC2=49.28kHz (fFR=70Hz)
No load, No access,
All white pattern
* : “IDD” is determined from lowest power consumption for dc-dc converter.
64
VDD3
+ VIN1
-
300
500
µΑ
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
DC CHARACTERISTICS (3)
Item
(Vss = 0V, VDD3 = 1.8 to 3.3V, VIN1=2.4 to 3.6V, Ta = -30 to 70 °C)
Condition
Min
Typ
Max Unit Remarks
Symbol
∆ (+VR)
Isource = 80uA
-
-
150
mV
+VR
∆ (V1)
Isource = 250uA
-
-
20
mV
V1
∆ (VM)
Isource,sink = 250uA
-
-
20
mV
VM
∆ (-VR)
Isink = 80uA
-
-
150
mV
-VR
Voltage shift range(*1)
(*1) Voltage shift means output voltage deference between output current = Iload and no-load.
Refer to the following figure. (in case of source current mode)
No-load
Vx
Vx
Current = I Load
Vy
I=0
Vshift = |Vx-Vy|
Vy
I=ILoad
Item
Symbol
Condition
Min
Typ
Max
Unit
Remarks
Tolerance of Bias ratio
∆ (+VR)_0
∆ (-VR)_0(*1)
No load
-100
-
+100
mV
+VR
-VR
(*1) Tolerance of bias ratio definition
∆ (+VR)_0 = ((+VR) - VM ) – VM / Bias
∆ (-VR)_0 = ( VM - (-VR)) – VM / Bias
65
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
DC CHARACTERISTICS (4)
Item
Symbol
Temperature
compensation
Tolerance of Contrast
step of V1
∆Vt
Voltage range
(Vss = 0V, VDD3 = 1.8 to 3.3V, VIN1=2.4 to 3.6V, Ta = -30 to 70 °C)
Condition
Min
Typ
Max
Unit Remarks
VDD3=VIN1=V1=3.0V,
-20 to 70 °C
-0.02
-
+0.02
%/°C
V1
3.92
7.84
11.76
mV
V1
V1
3.95
4.00
4.05
V
V1
VM
1.95
2.00
2.05
V
VM
V1
1.95
2.00
2.05
V
V1
VM
0.95
1.00
1.05
V
VM
∆Vstep
Contrast set = FFh
∆V1
∆VM
Contrast set = 00h
Condition
Item
Load current
||+VR-VM| -|VM -(-VR)||
Offset
Voltage
+VR
I Load = +100uA (+VR)
I Load = -100uA (-VR)
A
I Load = +100uA ( V1, VM )
B
I Load = +100uA (+VR)
I Load = -100uA (-VR)
||V1-VM| -|VM-V0||
+100uA
+VR=5.0~12.0 V
V1=2.0~4.0V
VM=1.0~2.0V
-VR=-3.0~-8.0 V
V1
|Vx-Vy| < 150mV
Unit
Ref
150
mV
Fig.1
50
mV
Fig.2
+100uA (both Case A and B)
Va
Vx
VM
Max
Voltage range
-100uA (Case B)
VM
+100uA (Case A)
Vy
-VR
Vb
-100uA
Fig. 1: Offset voltage definition (+VR,VM,-VR)
66
V0
|Va-Vb| < 50mV
Fig. 2: Offset voltage definition (V1,VM,V0)
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
DC CHARACTERISTICS (5)
(Vss = 0V, VDD3 = 1.8 to 3.3V, VIN1=2.4 to 3.6V, Ta = -30 to 70 °C)
Range
Item
V1OUT
Voltage Level
Min
Max
2.0 V
4.0 V (DC(1) and DC(2) = X2) (*1)
VMOUT
1.0 V
2.0 V (DC(1) and DC(2) = X2) (*2)
DC2OUT
1.33V
(1/5 Bias, V1OUT = 2V)
3.33V (DC(1) and DC(2) = X2) (*3)
(1/6 Bias, V1OUT = 4V)
(*1) This definition is shown as below
VIN45
V1OUT
Output
VIN45
Delta V
V1OUT
Delta V > 0.3 V (External VIN45)
VIN45
VIN45 - Delta V
Fig. 1
Delta V > 0.5 V (VIN45 = VOUT45)
If V1OUT input voltage is set over VIN45,
V1OUT output voltage must be clipped near VIN45.
In this case, V1OUT output level must not be
unstable. Refer to Fig.1
(*2) This definition is shown as below
VIN1
V1OUT
Input
VMOUT
Output
VIN1
Delta V
VMOUT
Delta V > 0.3 V
If VMOUT input voltage is set over VIN1,
VMOUT output voltage must be clipped near
VIN1.
In this case, VMOUT output level must not be
unstable. Refer to Fig.2
(*3) This definition is shown as below
VIN2
VIN1
VIN1 - Delta V
Fig. 2
VMOUT
Input
DC2OUT
Output
VIN2
Delta V
DC2OUT
Delta V > 0.3 V (External VIN2)
Delta V > 0.5 V (VIN2 = VOUT45)
If DC2OUT input voltage is set over VIN2,
DC2OUT output voltage must be clipped near VIN2.
In this case, DC2OUT output level must not be
unstable. Refer to Fig.3
VIN2
VIN2 - Delta V
Fig. 3
DC2OUT
Input
67
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
AC CHARACTERISTICS
Read / Write Characteristics (8080-series MPU)
D/I
tAS80
tAH80
/CS1
(CS2)
tCY80
tPW L80(R),
0.9VDD
/RD, /W R
tPW L80(W )
tPW H80(R),
tPW H80(W )
0.1V DD
tDS80
tDH80
DB0 to DB7
(W rite)
tACC80
tOD80
DB0 to DB7
(Read)
** tPWL80(W) and tPWL80(R) is specified in the overlapped period when CS1B is low (CS2 is high)
and /W R(/RD) is low.
Figure 25. Parallel Interface (8080-series MPU) Timing Diagram
Table 17. AC Characteristics (8080-series Parallel Mode)
Item
Signal
Symbol
Address setup time
Address hold time
D/I
tAS80
tAH80
0
0
0
0
-
ns
tCY80
150
360
-
ns
Pulse width low for write
Pulse width High for write
WRB
(WRB)
tPWLW
tPWHW
50
30
100
75
-
ns
Pulse width low for read
Pulse width high for read
RDB
tPWLR
tPWHR
50
30
100
75
-
ns
tDS80
tDH80
5
28
10
54
-
ns
System cycle time
Data setup time
Data hold time
Read access time
Output disable time
(RDB)
DB0
to
DB15
tACC80
tOD80
Condition
(VDD3 = 1.8 to 3.3V, Ta = -30 to +70°C)
Min.
Max.
Unit
(3.3V/1.8V)
3.3V
1.8V
CL = 100 pF
-
60 / 120
-
50 / 100
NOTE: *1. The input signal rise time and fall time (tr, tf) is specified at 10 ns or less.
(tr + tf) < (tCY80 - tPWLW - tPWHW ) for write, (tr + tf) < (tCY80 - tPWLR - tPWHR ) for read
68
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Read / Write Characteristics (6800-series Microprocessor)
D/I,R/W
tAS68
tAH68
/CS1
(CS2)
tCY68
tEWH68(R), tEWH68(W)
E
tEWL68(R), tEWL68(W)
0.9VDD
0.1VDD
tDS68
tDH68
DB0 to DB7
(Write)
tACC68
tOD68
DB0 to DB7
(Read)
** tEWH68(W) and tEWH68(R) is specified in the overlapped period when /CS1 is low (CS2 is high)
and E is high.
Figure 26. Parallel Interface (6800-series MPU) Timing Diagram
Table 18. AC Characteristics (6800-series Parallel Mode)
Item
Signal
Symbol
Address setup time
Address hold time
D/I
R/W
tAS68
tAH68
0
0
0
0
-
ns
tCY68
150
360
-
ns
System cycle time
Condition
(VDD3 = 1.8 to 3.3V, Ta = -30 to +70°C)
Min.
Max.
Unit
(3.3V/1.8V)
3.3V
1.8V
Enable width high for write
Enable width low for write
RDB
(E)
tEWHW
tEWLW
50
30
100
75
-
ns
Enable width high for read
Enable width low for read
RDB
(E)
tEWHR
tEWLR
50
30
100
75
-
ns
tDS68
tDH68
5
28
10
54
-
ns
Data setup time
Data hold time
Read access time
Output disable time
DB0
to
DB15
TACC68
tOD68
CL = 100 pF
-
60 / 120
-
50 / 100
NOTE: *1. The input signal rise time and fall time (tr, tf) is specified at 10 ns or less.
(tr + tf) < (tCY68 - tEWHW - tEWLW ) for write, (tr + tf) < (tCY68 - tEWHR - tEWLR ) for read
69
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
Serial Data Interface Timing
tCSS
/CS1
tSCYC
(CS2) 0.1VDD
tCSH
0.1VDD
tSHW
tr
tSLW
SCL
tf
tSAS
tSAH
D/I
tSDS
SDI
tSDH
0.9VDD
0.9VDD
0.1VDD
0.1VDD
Table 19. Serial Data Interface Timing
(VDD3 = 1.8 to 3.3V, Ta = -30 to +70°C)
70
Item
Signal
Symbol
SCL Cycle Time
SCL
SCL High Pulse Width
Condition
Min.
Max.
Unit
tSCYC
120
-
ns
SCL
tSHW
60
-
ns
SCL Low Pulse Width
SCL
tSLW
60
-
ns
SDI Setup time
SDI
tSDS
60
-
ns
SDI Hold time
SDI
tSDH
60
-
ns
D/I Setup time
D/I
tSAS
60
-
ns
D/I Hold time
D/I
tSAH
60
-
ns
Chip Select Setup time
CS1B (CS2)
tCSS
60
-
ns
Chip Select Hold time
CS1B (CS2)
tCHS
60
-
ns
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
Reset Input Timing
tRW
/RST
tR
During reset
Internal status
Reset complete
Figure 27. Reset Input Timing Diagram
Table 20. AC Characteristics (Reset mode)
(VDD3 = 1.8 to 3.3V, Ta = -30 to +70°C)
Item
Signal
Symbol
Condition
Min.
Max.
Unit
Reset low pulse width
RSTB
tRW
1000
-
ns
Reset time
-
tR
-
1000
ns
SERIES SPECIFICATIONS
Product code
Temp. Coefficient
TCS Register Set *
S6B33B2A01-B0CY
0.00%/°C
00
S6B33B2A02-B0CY
-0.05%/°C
01
S6B33B2A03-B0CY
-0.10%/°C
10
S6B33B2A04-B0CY
-0.15%/°C
11
Note :
In case of S6B33B2A01-B0CY, SEC guarantees only 0.00%/°C, not –0.05 and –0.10, -0.15%/°C.
In case of S6B33B2A02-B0CY, SEC guarantees only -0.05%/°C, not –0.00 and –0.1, -0.15%/°C.
In case of S6B33B2A03-B0CY, SEC guarantees only -0.10%/°C, not –0.00 and –0.05, -0.15%/°C.
In case of S6B33B2A04-B0CY, SEC guarantees only -0.15%/°C, not –0.00 and –0.05, -0.10%/°C.
71
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
External Components
SYSTEM APPLICATION DIAGRAM
Name
Internal Power Mode
VDD3, VDD3R
VDD3 or REG_OUT
REG_OUT
Item
1.0 to 4.7µF
1.0 to 2.2µF
1.0 to 2.2µF
Vforward = Max. 0.3V at 1mA
D1
Vreverse = Min. 15V
Rd
Typ. 1M ohm
Note : Employing Rd is recommended when
abnormal display occurs in recovery sequence
after detaching battery.
(It depends on module or panel characteristics.)
DB15 to DB0
/RD
/RD
/WR
/WR
/CS1
/CS1
CS2
CS2
Maximum
capacitors
D/I
D/I
/RST
/RST
R1
OSC1
R2
OSC2
OSC3
OSC4
OSC5
S6B33B2
VIN1
VIN2
VIN1, VIN1A
C2
C2
DC2OUT
C11M
DC2IN
C12M
VIN45
V1IN
C21P
C21M
3V
11V
6V
6V
3V
5V
6V
5V
10V
13V
13V
13V
17V
18V
C22P
C2
C2
C24P
C24M
VEES, VEE
VRN
C2
VMOUT
C3
REG_OUT to VSS
VOUT45 to VSS
C11P to C11M
C12P to C12M
VMOUT to VSS
DC2OUT to VSS
V1OUT to VSS
C21P to C21M
C22P to C22M
C23P to C23M
C24P to C24M
VSS to VRN
C31P to C31M
VRP to VSS
C2
C23P
C23M
C3
VMIN
D1
V0IN
C31P
C31M
C2
Rd
VRP
VCC
72
of
Maximum
rating voltage
C3
C22M
voltage
Item
C12P
V1OUT
C3
rating
VIN2
C11P
VOUT45
C3
Capacitance
C1
C2
C3
VSS, VSSA, VSSB, VSSO
DB15DB0
Resistors
Capacitors
Schottky barrier diode
Discharge Resistor
Values of external Components
VDD, VDDO
C1
MPU
Device
R1,R2
C1,C2,C3
D1
Rd
C3
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
External Power Mode
VDD3, VDD3R
VDD3 or REG_OUT
VDD, VDDO
REG_OUT
C
VSS, VSSA, VSSB, VSSO
DB15 to DB0
DB15 to DB0
/RD
MPU
/RD
/WR
/WR
/CS1
/CS1
CS2
CS2
D/I
D/I
/RST
/RST
R1
OSC1
R2
OSC2
OSC3
OSC4
OSC5
S6B33B2
VIN1
VIN1, VIN1A
VIN2
C11P
DC2OUT
C11M
DC2IN
VIN
2
C12P
C12M
C21P
C21M
VOUT45
VIN45
C22P
C22M
C23P
V1IN
C23M
V1OUT
V1IN
C24P
C24M
VRN
VMIN
VMOUT
VEES, VEE
VE
E
VMIN
V0IN
C31P
C31M
VRP
VC
C
VCC
73
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
OTP CALIBRATION MODE
SEQUENCE FOR SETTING THE MODIFIED ELECTRONIC VOLUME
- Next figure is a Block Diagram of Sequence for Setting the Modified Electronic Volume.
Electronic volume
8bit level
(EV)
OTP
Writing
Process
ADDER
INST calibration
6bit offset
(INST_OV)
0
OTP calibration
6bit offset
(OTP_OV)
1
Modified EV
8bit level
(MEV)
MUX
OTP_MODE
ON/OFF
Figure 28. Sequence for Setting the Modified Electronic Volume
Initially, OTP cell is not programmed and has 6'b00000 value. When the external reset is applied, OTP mode is On.
MEV is EV + OTP_OV. Since OTP_OV is 6'b00000, MEV is EV. For V1OUT calibration The instruction "OTP mode
off" is executed, and then MEV is EV + OV and user can adjust MEV value using the instruction "Set offset volume
register". When MEV overflows or underflows, MEV will be saturated. Repeat this step until end of the calibration. If
V1OUT calibration is suitable, OTP writing process is executed, and then OTP cell is programmed and OTP_OV is
programmed with OV. Finally, V1OUT calibration process is finished. Again, when the external reset is applied, OTP
mode is ON. MEV is EV + OTP_OV. Accordingly MEV is the EV that has always the offset with OTP_OV value.
However, if programmed OTP_OV is unlike, the instruction "OTP mode off" can be executed and then MEV will be
EV + OV. Accordingly OV can be adjusted with instructions although OTP cell is programmed.
74
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
EPROM CELL STRUCTURE
OTP (One Time Programmable) has been implemented on the S6B33B2. The EPROM stores the offset volume for
V1OUT calibration after the device has been assembled and calibrated on a LCD module. For OTP programming,
OTPD pin and OTPG pin are used. These pins should be available to on the module glass by ITO.
The OTP block of the S6B33B2 consists of 7 bits. 1 bit is used for OTP mode protection bit (OPRT), and 6 bits are
used for V1OUT calibration (OV5~OV0). OPRT can be read or written automatically in this LSI.
EPROM block
MSB
LSB
OPRT
OV5
OV4
OV3
OV2
OV1
OV0
Description
OPRT : The Offset Volume(OV) can be written to EPROM cells only when OPRT bit = ‘0’
OV5~OV0 : The OV is used for calibrating the V1OUT voltage as an offset to the EV register value.
V1OUT CALIBRATION FLOW
V1OUT may be calibrated with OTP in the following order.(ex : EV = 32, OV=-3)
STEP
RS
RW
DB7
DB6
DB5
DB4 DB3
DB2 DB1
DB0
Apply external reset
(OTP data read)
1.
2.
3.
4.
Description
0
0
0
0
1
0
1
0
1
0 or 1
0
0
0
0
1
0
0
0
0
0
Set contrast control 1 or 2 by
using instruction (EV = 32)
0
0
1
1
1
0
1
0
1
0
OTP mode off by using the instruction
0
0
1
1
1
0
1
1
0
1
0
0
0
0
1
1
1
1
0
1
Set offset volume by using the
instruction (OV = -3)
Repeat STEP 4. Until the end of the
calibration
Apply programming voltages for OTP
programming (OTPG=12.5V,OTPD=10)
5
6.
7.
0
0
0
0
1
0
1
1
0
1
Standby on by using the instruction.
8
0
0
1
1
1
0
1
1
1
1
OTP write Enable
(Only available when OPRT= 0)
9
10.
Apply external reset
Cut off programming voltages for OTP
programming (OTPG,OTPD)
After the external reset, the calibrated data are automatically transferred to the 6-bit reference voltage control
register.
*Step 6, 7, 8, 9 are OTP_WRITING PROCESS.
*OTP_WRITING PROCESS is available when OPRT is zero (if OPRT = 1, OTP cell could not be programmed).
75
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
S6B33B2 VER 1.5
VOLTAGES AND WAVEFORMS FOR OTP PROGRAMMING
12.5V *
OTPG
10V *
OTPD
Pow er
Save ON
OTP
WRITE
ENABLE
t1
RESETB
t2
t3
OTP WRITE MODE
Figure 29. Voltages and waveforms for OTP programming (OTP Writing Process)
* Note : Voltages for OTPG and OTPD may be changed.
Specific timings (t1~t3)
76
Timing
Min
Max
t1,t2
100uS
-
t3
100mS
300mS
S6B33B2 VER 1.5
132 RGB SEGMENT & 162 COMMON DRIVER FOR 65,536 COLOR STN LCD
REVISION HISTORY
S6B33B2 Specification Revision History
Version
Content
Date
0.0
Original
Oct. 2002
0.1
Added OTP Calibration Mode
Nov.2002
0.2
Added pad coordinate and pad configuration and pad dimension
Modify pad name(p6,7)
: Dummy<9:8> -> dmy_test<1:0>, Dummy<14:13> -> dmy_test<3:2>
Add the dmy_test pin description (p14)
Add the Series Specifications (p71)
Add the discharge resistor at the system application diagram (P72)
Modify the read status flag (P54)
Jan.2003
0.3
0.4
1.1
Definition of TBD items
Change DLN initial value (P29)
Modify the AC Characteristics (P68,69 )
1.2
Modify the AC Characteristics (Data hold Time, P68/P69)
1.0
Jun.2003
July.2003
Nov.2003
Jan.2004
Jan.2004
1.4
Add the condition of oscillator frequency tolerance
(Additional condition: Vdd3/Ta, P63)
Modify the OTP Specific timings (t3 Max. : 2S -> 300mS, P76)
Feb.2004
1.5
Correct the tolerance of contrast step of V1. (P66)
Mar.2004
1.3
Jan.2004
77