ETC SSD1303Z

SOLOMON SYSTECH
SEMICONDUCTOR TECHNICAL DATA
SSD1303
Advance Information
132 x 64 Dot Matrix
OLED/PLED Segment/Common Driver with Controller
This document contains information on a new product. Specifications and information herein are subject to
change without notice.
http://www.solomon-systech.com
SSD1303
Rev 1.7
P 1/56
May 2005
Copyright  2005 Solomon Systech Limited
TABLE OF CONTENTS
1
GENERAL INFORMATION ............................................................................................................................5
2
FEATURES .........................................................................................................................................................5
3
ORDERING INFORMATION ..........................................................................................................................6
4
BLOCK DIAGRAM ...........................................................................................................................................7
5
DIE PAD FLOOR PLAN....................................................................................................................................8
6
PIN DESCRIPTION .........................................................................................................................................12
7
FUNCTIONAL BLOCK DESCRIPTIONS....................................................................................................15
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
7.9
7.10
7.11
8
OSCILLATOR CIRCUIT AND DISPLAY TIME GENERATOR ..................................................................................15
RESET CIRCUIT ................................................................................................................................................15
COMMAND DECODER AND COMMAND INTERFACE ..........................................................................................15
MPU PARALLEL 6800-SERIES INTERFACE .......................................................................................................16
MPU PARALLEL 8080-SERIES INTERFACE .......................................................................................................16
MPU SERIAL INTERFACE .................................................................................................................................17
GRAPHIC DISPLAY DATA RAM (GDDRAM) ..................................................................................................17
CURRENT CONTROL AND VOLTAGE CONTROL.................................................................................................17
SEGMENT DRIVERS / COMMON DRIVERS .........................................................................................................18
AREA COLOUR DECODER .................................................................................................................................18
DC-DC VOLTAGE CONVERTER .......................................................................................................................19
COMMAND TABLE ........................................................................................................................................21
8.1
DATA READ / WRITE ........................................................................................................................................24
9
COMMAND DESCRIPTIONS........................................................................................................................25
10
MAXIMUM RATINGS ....................................................................................................................................32
11
DC CHARACTERISTICS ...............................................................................................................................33
12
AC CHARACTERISTICS ...............................................................................................................................34
13
APPLICATION EXAMPLE ............................................................................................................................38
14
SSD1303T3R1 PACKAGE DETAILS.............................................................................................................39
SSD1303T3R1 PIN ASSIGNMENT ................................................................................................................................39
15
SSD1303T6R1 PACKAGE DETAILS.............................................................................................................43
SSD1303T6R1 PIN ASSIGNMENT ................................................................................................................................43
SSD1303T6R1 TAB PACKAGE DIMENSIONS ..............................................................................................................45
16
SSD1303T8R1 PACKAGE DETAILS.............................................................................................................47
SSD1303T8R1 PIN ASSIGNMENT ................................................................................................................................47
SSD1303T8R1 TAB PACKAGE DIMENSIONS ..............................................................................................................49
17
SSD1303T9R1 PACKAGE DETAILS.............................................................................................................51
SSD1303T9R1 PIN ASSIGNMENT ................................................................................................................................51
SSD1303T9R1 TAB PACKAGE DIMENSIONS ..............................................................................................................53
Solomon Systech
May 2005
P 2/56
Rev 1.7
SSD1303
18
SSD1303Z PACKAGE DETAILS ...................................................................................................................55
SSD1303
Rev 1.7
P 3/56
May 2005
Solomon Systech
TABLE OF FIGURES
Figure 1 - Block Diagram.................................................................................................................................. 7
Figure 2 - SSD1303Z Pin Assignment ............................................................................................................. 8
Figure 3 - SSD1303Z Alignment mark dimensions ........................................................................................ 11
Figure 4 - Oscillator Circuit............................................................................................................................. 15
Figure 5 - Display data read back procedure - insertion of dummy read ....................................................... 16
Figure 6 – Display data write procedure in SPI mode.................................................................................... 17
Figure 7 - DC-DC voltage converter circuit .................................................................................................... 19
Figure 8 - Horizontal scroll direction............................................................................................................... 25
Figure 9 - Segment current vs Contrast setting ............................................................................................. 26
Figure 10 - 6800-series MPU parallel interface characteristics ..................................................................... 35
Figure 11 - 8080-series MPU parallel interface characteristics ..................................................................... 36
Figure 12 - Serial interface characteristics ..................................................................................................... 37
Figure 13 - Application Example (Block Diagram of SSD1303T3)................................................................. 38
Figure 14 - SSD1303T3R1 pin assignment (Copper view, Normal TAB design) .......................................... 39
Figure 15 - SSD1303T6R1 pin assignment (Copper view) ............................................................................ 43
Figure 16 - SSD1303T9R1 pin assignment (Copper view) ............................................................................ 51
LIST OF TABLES
Table 1 - Ordering Information ......................................................................................................................... 6
Table 2 - SSD1303Z Die Pad Coordinates ...................................................................................................... 9
Table 3 - Passive component selection: ........................................................................................................ 20
Table 4 - Command table............................................................................................................................... 21
Table 5 - Read command table ...................................................................................................................... 23
Table 6 - Address increment table (Automatic).............................................................................................. 24
Table 7 - Maximum Ratings ........................................................................................................................... 32
Table 8 - DC Characteristics .......................................................................................................................... 33
Table 9 - AC Characteristics .......................................................................................................................... 34
Table 10 - 6800-Series MPU Parallel Interface Timing Characteristics......................................................... 35
Table 11 - 8080-Series MPU Parallel Interface Timing Characteristics......................................................... 36
Table 12 - Serial Interface Timing Characteristics ......................................................................................... 37
Table 13 - SSD1303T3R1 pin assignment..................................................................................................... 40
Table 14 - SSD1303T6R1 pin assignment..................................................................................................... 44
Table 15 - SSD1303T8R1 pin assignment..................................................................................................... 48
Table 16 - SSD1303T9R1 pin assignment..................................................................................................... 52
Solomon Systech
May 2005
P 4/56
Rev 1.7
SSD1303
1
GENERAL INFORMATION
The SSD1303 is a single-chip CMOS OLED/PLED driver with controller for organic/polymer light
emitting diode dot-matrix graphic display system. It consists of 132 segments, 64 commons that can
support a maximum display resolution of 132x64. Besides, there are 4-colour selections to support
monochrome or area colour OLED/PLED. This IC is designed for Common Cathode type OLED panel.
The SSD1303 embeds with contrast control, display RAM and oscillator, which reduces the number
of external components and power consumption. It is suitable for many compact portable applications, such
as mobile phone sub-display, calculator and MP3 player, etc.
2
-
FEATURES
Support maximum 132 x 64 dot matrix panel
Area colour support with 4 Colour Selection and 64 steps per colour
Logic voltage supply: VDD = 2.4V - 3.5V
High voltage supply: VCC = 7.0V - 16.0V
Maximum segment output current: 320uA
Maximum common sink current: 45mA
Embedded 132 x 64 bit SRAM display buffer
256-step Contrast Control on monochrome passive OLED panel
On-Chip Oscillator
Programmable Frame Frequency and Multiplexing Ratio
8-bit 6800-series Parallel Interface, 8-bit 8080-series Parallel Interface, Serial Peripheral Interface
Row Re-mapping and Column Re-mapping
Vertical Scrolling
Automatic horizontal scrolling function
Low power consumption
Wide range of operating temperatures: -40 to 90 °C
SSD1303
Rev 1.7
P 5/56
May 2005
Solomon Systech
3
ORDERING INFORMATION
Table 1 - Ordering Information
Ordering Part Number
SEG
COM
Package Form
Reference
Remark
SSD1303Z
132
64
Gold Bump Die
Page 8
Die size: 9.22mm x 1.55mm
Pad pitch: COM 51.8µm SEG 52.2µm
SSD1303T3R1
96
64
TAB
Page 39
SSD1303T6R1
132
64
TAB
Page 43
SSD1303T8R1
96
64
TAB
Page 47
SSD1303T9R1
96
64
TAB
Page 51
Solomon Systech
May 2005
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
P 6/56
35mm film
4 sprocket hole
Folding TAB
80 / 68 / SPI interface
Output lead pitch 0.12974mm
35mm film
4 sprocket hole
Folding TAB
80 / 68 / SPI interface
Output lead pitch 0.11976
35mm film
4 sprocket hole
Folding TAB
80 / 68 / SPI interface
Output lead pitch 0.12974mm
35mm film
4 sprocket hole
Folding TAB
80 / 68 / SPI interface
Output lead pitch 0.12974mm
Rev 1.7
SSD1303
Common Drivers(odd)
Segment Drivers
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
Current Control
Voltage Control
COM63
COM61
.
.
.
COM3
COM1
SEG131
SEG130
.
.
.
SEG1
SEG0
COM0
COM2
.
.
.
COM60
COM62
VCL
VSL
CL
CLS
VDDB
VSSB
GDR
RESE
FB
VBREF
VCC
VCOMH
VREF
IREF
Oscillator
Display
Timing
Generator
VDD
VSS
Command
Decoder
.
.
.
.
.
.
.
.
.
.
.
Common Drivers (even)
D7
D6
D5
D4
D3
D2
D1
D0
GDDRAM
RES#
CS#
D/C
E (RD#)
R/W (WR#)
BS2
BS1
BS0
Area Colour Decorder
BLOCK DIAGRAM
MCU
Interface
4
Figure 1 - Block Diagram
SSD1303
Rev 1.7
P 7/56
May 2005
Solomon Systech
5
DIE PAD FLOOR PLAN
Figure 2 - SSD1303Z Pin Assignment
DUMMY
DUMMY
COM30
COM28
COM26
COM24
.
.
.
COM6
COM4
COM2
COM0
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
.
.
.
SEG117
SEG118
SEG119
SEG120
SEG121
SEG122
SEG123
SEG124
SEG125
SEG126
SEG127
SEG128
SEG129
SEG130
SEG131
COM1
COM3
COM5
COM7
.
.
.
COM25
COM27
COM29
COM31
DUMMY
DUMMY
DUMMY (x2)
COM32
COM34
.
.
COM60
COM62
VSS (x3)
VCL (x3)
VSS (x2)
VSL (x3)
VDD
VCC (x2)
VREF
VCOMH (x2)
IREF
ICAS
VDD
CLS
M/S
VSS
D7
D6
D5
D4
D3
D2
D1
D0
VDD
E/RD
R/W
VSS
D/C
RES#
CS#
VSS
DOF#
CL
M
VSS
BS2
VDD
BS1
VSS
BS0
VDD
GPIO1
GPIO0
VCC
VSS
BGGND
SENSE
VBREF
RESE
FB
VDD (x2)
VDDB (x2)
GDR (x2)
VSSB (x2)
VSS
TR0
TR1
TR2
TR3
TR4
TR5
TR6
TR7
TR8
VCOMH (x2)
VCC (x2)
VDD
VSL (x3)
VSSB (x2)
VSS (x2)
VCL (x3)
VSS (x3)
COM63
COM61
.
.
COM35
COM33
DUMMY (x2)
Y
X
SSD1303
Pad 1,2,3,? >130
Gold Bumps face up
9.22mm x 1.55mm
Die size
Die height
475 +/- 25um
Bump height
Nominal 18um
Bump size
Pad 1-18, 113-298
34um x 84um
Pad 19-112
54um x 84um
Alignment mark
T shape
(-3132.9, 79.5)
75um x 75um
+ shape
(3148.9, 79.5)
75um x 75um
Circle
(3433.9, -274.6)
R37.5um, inner 18um
Circle
(-3433.9, -274.6)
R37.5um, inner 18um
PAD 1
Solomon Systech
May 2005
P 8/56
Rev 1.7
SSD1303
Table 2 - SSD1303Z Die Pad Coordinates
Pad no. Pad Name
1
NC
2
NC
3
COM33
4
COM35
5
COM37
6
COM39
7
COM41
8
COM43
9
COM45
10
COM47
11
COM49
12
COM51
13
COM53
14
COM55
15
COM57
16
COM59
17
COM61
18
COM63
19
VSS
20
VSS
21
VSS
22
VCL
23
VCL
24
VCL
25
VSS
26
VSS
27
VSSB
28
VSSB
29
VSL
30
VSL
31
VSL
32
VDD
33
VCC
34
VCC
35
VCOMH
36
VCOMH
37
TR8
38
TR7
39
TR6
40
TR5
41
TR4
42
TR3
43
TR2
44
TR1
45
TR0
46
VSS
47
VSSB
48
VSSB
49
GDR
50
GDR
51
VDDB
52
VDDB
53
VDD
54
VDD
55
FB
56
RESE
57
VBREF
58
SENSE
59
BGGND
60
VSS
SSD1303
X-pos
-4535.4
-4483.2
-4431.0
-4379.2
-4327.4
-4275.6
-4223.8
-4172.0
-4120.2
-4068.4
-4016.6
-3964.8
-3913.0
-3861.2
-3809.4
-3757.6
-3705.8
-3654.0
-3543.3
-3467.1
-3390.9
-3314.7
-3238.5
-3162.3
-3086.1
-3009.9
-2933.7
-2857.5
-2781.3
-2705.1
-2628.9
-2552.7
-2476.5
-2400.3
-2324.1
-2247.9
-2171.7
-2095.5
-2019.3
-1943.1
-1866.9
-1790.7
-1714.5
-1638.3
-1562.1
-1485.9
-1409.7
-1333.5
-1257.3
-1181.1
-1104.9
-1028.7
-952.5
-876.3
-800.1
-723.9
-647.7
-571.5
-495.3
-419.1
Rev 1.7
Y-pos
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
P 9/56
Pad no. Pad Name
61
VCC
62
GPIO0
63
GPIO1
64
VDD
65
BS0
66
VSS
67
BS1
68
VDD
69
BS2
70
VSS
71
M
72
CL
73
DOF#
74
VSS
75
CS#
76
RES#
77
D/C
78
VSS
79
R/W
80
E/RD
81
VDD
82
D0
83
D1
84
D2
85
D3
86
D4
87
D5
88
D6
89
D7
90
VSS
91
M/S
92
CLS
93
VDD
94
ICAS
95
IREF
96
VCOMH
97
VCOMH
98
VREF
99
VCC
100
VCC
101
VDD
102
VSL
103
VSL
104
VSL
105
VSS
106
VSS
107
VCL
108
VCL
109
VCL
110
VSS
111
VSS
112
VSS
113
COM62
114
COM60
115
COM58
116
COM56
117
COM54
118
COM52
119
COM50
120
COM48
May 2005
X-pos
-342.9
-267.2
-190.5
-114.3
-38.1
38.1
114.3
190.5
266.7
342.9
419.1
495.3
571.5
647.7
723.9
800.1
876.3
952.5
1028.7
1104.9
1181.1
1257.3
1333.5
1409.7
1485.9
1562.1
1638.3
1714.5
1790.7
1866.9
1943.1
2019.3
2095.5
2171.7
2247.9
2324.1
2400.3
2476.5
2552.7
2628.9
2705.1
2781.3
2857.5
2933.7
3009.9
3086.1
3162.3
3238.5
3314.7
3390.9
3467.1
3543.3
3654.0
3705.8
3757.6
3809.4
3861.2
3913.0
3964.8
4016.6
Y-pos
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
Pad no. Pad Name
121
COM46
122
COM44
123
COM42
124
COM40
125
COM38
126
COM36
127
COM34
128
COM32
129
NC
130
NC
131
NC
132
NC
133
COM30
134
COM28
135
COM26
136
COM24
137
COM22
138
COM20
139
COM18
140
COM16
141
COM14
142
COM12
143
COM10
144
COM8
145
COM6
146
COM4
147
COM2
148
COM0
149
SEG0
150
SEG1
151
SEG2
152
SEG3
153
SEG4
154
SEG5
155
SEG6
156
SEG7
157
SEG8
158
SEG9
159
SEG10
160
SEG11
161
SEG12
162
SEG13
163
SEG14
164
SEG15
165
SEG16
166
SEG17
167
SEG18
168
SEG19
169
SEG20
170
SEG21
171
SEG22
172
SEG23
173
SEG24
174
SEG25
175
SEG26
176
SEG27
177
SEG28
178
SEG29
179
SEG30
180
SEG31
X-pos
4068.4
4120.2
4172.0
4223.8
4275.6
4327.4
4379.2
4431.0
4483.2
4535.4
4535.4
4483.2
4431.0
4379.2
4327.4
4275.6
4223.8
4172.0
4120.2
4068.4
4016.6
3964.8
3913.0
3861.2
3809.4
3757.6
3705.8
3654.0
3445.2
3393.0
3340.8
3288.6
3236.4
3184.2
3132.0
3079.8
3027.6
2975.4
2923.2
2871.0
2818.8
2766.6
2714.4
2662.2
2610.0
2557.8
2505.6
2453.4
2401.2
2349.0
2296.8
2244.6
2192.4
2140.2
2088.0
2035.8
1983.6
1931.4
1879.2
1827.0
Y-pos
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
-679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
Solomon Systech
Pad no. Pad Name
181
SEG32
182
SEG33
183
SEG34
184
SEG35
185
SEG36
186
SEG37
187
SEG38
188
SEG39
189
SEG40
190
SEG41
191
SEG42
192
SEG43
193
SEG44
194
SEG45
195
SEG46
196
SEG47
197
SEG48
198
SEG49
199
SEG50
200
SEG51
201
SEG52
202
SEG53
203
SEG54
204
SEG55
205
SEG56
206
SEG57
207
SEG58
208
SEG59
209
SEG60
210
SEG61
211
SEG62
212
SEG63
213
SEG64
214
SEG65
215
SEG66
216
SEG67
217
SEG68
218
SEG69
219
SEG70
220
SEG71
221
SEG72
222
SEG73
223
SEG74
224
SEG75
225
SEG76
226
SEG77
227
SEG78
228
SEG79
229
SEG80
230
SEG81
231
SEG82
232
SEG83
233
SEG84
234
SEG85
235
SEG86
236
SEG87
237
SEG88
238
SEG89
239
SEG90
240
SEG91
Solomon Systech
X-pos
1774.8
1722.6
1670.4
1618.2
1566.0
1513.8
1461.6
1409.4
1357.2
1305.0
1252.8
1200.6
1148.4
1096.2
1044.0
991.8
939.6
887.4
835.2
783.0
730.8
678.6
626.4
574.2
522.0
469.8
417.6
365.4
313.2
261.0
208.8
156.6
104.4
52.2
0.0
-52.2
-104.4
-156.6
-208.8
-261.0
-365.4
-417.6
-469.8
-522.0
-574.2
-626.4
-678.6
-730.8
-783.0
-835.2
-887.4
-939.6
-991.8
-1044.0
-1096.2
-1148.4
-1200.6
-1252.8
-1305.0
-1357.2
Y-pos
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
Pad no. Pad Name
241
SEG92
242
SEG93
243
SEG94
244
SEG95
245
SEG96
246
SEG97
247
SEG98
248
SEG99
249
SEG100
250
SEG101
251
SEG102
252
SEG103
253
SEG104
254
SEG105
255
SEG106
256
SEG107
257
SEG108
258
SEG109
259
SEG110
260
SEG111
261
SEG112
262
SEG113
263
SEG114
264
SEG115
265
SEG116
266
SEG117
267
SEG118
268
SEG119
269
SEG120
270
SEG121
271
SEG122
272
SEG123
273
SEG124
274
SEG125
275
SEG126
276
SEG127
277
SEG128
278
SEG129
279
SEG130
280
SEG131
281
COM1
282
COM3
283
COM5
284
COM7
285
COM9
286
COM11
287
COM13
288
COM15
289
COM17
290
COM19
291
COM21
292
COM23
293
COM25
294
COM27
295
COM29
296
COM31
297
NC
298
NC
X-pos
-1409.4
-1461.6
-1513.8
-1566.0
-1618.2
-1670.4
-1722.6
-1774.8
-1827.0
-1879.2
-1931.4
-1983.6
-2035.8
-2088.0
-2140.2
-2192.4
-2244.6
-2296.8
-2349.0
-2401.2
-2453.4
-2505.6
-2557.8
-2610.0
-2662.2
-2714.4
-2766.6
-2818.8
-2871.0
-2923.2
-2975.4
-3027.6
-3079.8
-3132.0
-3184.2
-3236.4
-3288.6
-3340.8
-3393.0
-3445.2
-3654.0
-3705.8
-3757.6
-3809.4
-3861.2
-3913.0
-3964.8
-4016.6
-4068.4
-4120.2
-4172.0
-4223.8
-4275.6
-4327.4
-4379.2
-4431.0
-4483.2
-4535.4
Y-pos
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
679.6
May 2005
P 10/56
Rev 1.7
SSD1303
Figure 3 - SSD1303Z Alignment mark dimensions
T shape
+ shape
Circle
Unit in um
SSD1303
Rev 1.7
P 11/56
May 2005
Solomon Systech
6
PIN DESCRIPTION
CL
This pin is the system clock input. When internal clock is enabled, this pin should be left open. The internal
clock is output from this pin. When internal oscillator is disabled, this pin receives display clock signal from
external clock source.
CLS
This is the internal clock enable pin. When it is pulled HIGH, internal clock is enabled. When it is pulled
LOW, the internal clock is disabled, an external clock source must be connected to the CL pin for normal
operation.
BS0, BS1, BS2
These are MCU interface input selection pins. See the following table for selecting different interfaces:
BS0
6800-parallel
interface
0
8080-parallel
interface
0
Serial
interface
0
BS1
0
1
0
BS2
1
1
0
CS#
This pin is the chip select input. The chip is enabled for MCU communication only when CS# had been
pulled low.
RES#
This is a reset signal input pin. When it is pulled LOW, initialization of the chip is executed.
D/C
This is the Data/Command control pin. When it is pulled HIGH, the input at D7-D0 is treated as display data.
When it is pulled LOW, the input at D7-D0 is transferred to the command registers. For detail relationship to
MCU interface signals, please refer to the Timing Characteristics Diagrams.
R/W (WR#)
This is a MCU interface input pin. When 6800-series Parallel Interface mode is selected, this pin is used as
Read/Write (R/W) selection input. Pull this pin to HIGH for read mode and pull it to LOW for write mode.
When 8080-series Parallel Interface mode is selected, this pin is used as Write (WR#) selection input. Pull
this pin to LOW for write mode. Data write operation is initiated when this pin is pulled LOW and the CS# is
pulled LOW.
E (RD#)
This is a MCU interface input pin. When 6800-series Parallel Interface is selected, this pin is used as
Enable (E) signal. Read/Write operation is initiated when this pin is pulled HIGH and the CS# pin is pulled
LOW. When 8080-series Parallel Interface is selected, this pin is used to receive the Read Data (RD#)
signal. Data read operation is initiated when this pin is pulled LOW and CS# pin is pulled LOW.
D7-D0
These are 8-bit bi-directional data bus to be connected to the microprocessor’s data bus. When serial
interface mode is selected, D1 will be the serial data input, SDIN, D0 will be the serial clock input, SCLK, and
D2 should be left opened.
Solomon Systech
May 2005
P 12/56
Rev 1.7
SSD1303
VDD
This is a voltage supply pin. It must be connected to external source.
VSS
This is a ground pin. It also acts as a reference for the logic pins and the OLED driving voltages. It must be
connected to external ground.
BGGND
This is a ground pin for analog circuits. It must be connected to external ground
VCC
This is the most positive voltage supply pin of the chip. It should be supplied externally.
VREF
This is a voltage reference pin for pre-charge voltage in driving OLED device. Voltage should be set to
match with the OLED driving voltage in current drive phase. It can either be supplied externally or by
connecting to VCC.
IREF
This is a segment current reference pin. A resistor should be connected between this pin and VSS. Set the
current at 10uA.
VCOMH
This is an input pin for the voltage output high level for COM signals. A capacitor should be connected
between this pin and VSS.
VDDB This is a power supply pin for the internal buffer of the DC-DC voltage converter. It must be
connected to VDD when the converter is used.
VSSB
This is a ground pin for the internal buffer of the DC-DC voltage converter. It must be connected to VSS
when the converter is used.
GDR
This is an output pin drives the gate of the external NMOS of the booster circuit.
RESE
This is a source current pin of the external NMOS of the booster circuit.
VBREF
This is an internal voltage reference pin for booster circuit. A stabilization capacitor, typ. 1uF, should be
connected to Vss.
FB
This is a feedback resistor input pin for the booster circuit. It is used to adjust the booster output voltage
level, Vcc.
COM0-COM63
These are pins provided the Common switch signals to the OLED panel. They are in high impedance state
when display is OFF.
SSD1303
Rev 1.7
P 13/56
May 2005
Solomon Systech
SEG0-SEG131
These are pins provided the Segment switch signals to the OLED panal. They are in high impedance stage
when display is OFF.
TR0-TR8, GPIO0, GPIO1, ICAS, M and DOF#
These are reserved pins. No connection necessary and should be left open individually.
VSL
This is a segment voltage reference pin. This pin should be connected to VSS externally.
VCL
This is a common voltage reference pin. This pin should be connected to VSS externally.
M/S
This pin must be connected to VDD to enable the chip.
NC
Dummy pad. Do not group or short NC pins together.
Solomon Systech
May 2005
P 14/56
Rev 1.7
SSD1303
7
FUNCTIONAL BLOCK DESCRIPTIONS
7.1 Oscillator Circuit and Display Time Generator
Internal
Oscillator
M
U
X
CL
CLK
Divider
DCLK
Internal
Display
Clock
Figure 4 - Oscillator Circuit
This module is an On-Chip low power RC oscillator circuitry (Figure 4). The oscillator generates the clock
for the Display Timing Generator.
7.2 Reset Circuit
When RES# pin is pulled LOW, the chip is initialized with the following status:
1. Display is OFF
2. 132 x 64 Display Mode
3. Normal segment and display data column address and row address mapping (SEG0 is mapped to
column address 00H and COM0 is mapped to row address 00H)
4. Shift register data clear in serial interface
5. Display start line is set at display RAM address 0
6. Column address counter is set at 0
7. Normal scan direction of the COM outputs
8. Contrast control register is set at 80H
9. DC/DC enable
7.3 Command Decoder and Command Interface
This module determines whether the input data is interpreted as data or command. When the D/C# pin is
pulled HIGH, the inputs at D7-D0 are interpreted as data and be written to Graphic Display Data RAM
(GDDRAM). When it is pulled LOW, the inputs at D7-D0 are interpreted as command, they will be decoded
and be written to the corresponding command registers.
SSD1303
Rev 1.7
P 15/56
May 2005
Solomon Systech
7.4 MPU Parallel 6800-series Interface
The parallel interface consists of 8 bi-directional data pins (D7-D0), R/W (WR#), E (RD#), D/C, CS#. When
the R/W (WR#) pin is pulled HIGH, Read operation from the Graphic Display Data RAM (GDDRAM) or the
status register occurs. When the R/W (WR#) pin is pulled LOW, Write operation to Display Data RAM or
Internal Command Registers occurs, depending on the status of D/C input. The E (RD#) input serves as
data latch signal (clock) when HIGH provided that CS# is LOW. Refer to Parallel Interface Timing Diagram
of 6800-series microprocessors.
In order to match the operating frequency of display RAM with that of the microprocessor, some pipeline
processing is internally performed, which requires the insertion of a dummy read before the first actual
display data read. This is shown in Figure 5 below.
R/W#
(W/R#)
E (RD#)
Data bus
N
Write column address
n+1
n
Dummy read
Data read1
Data read2
n+2
Data read3
Figure 5 - Display data read back procedure - insertion of dummy read
7.5 MPU Parallel 8080-series Interface
The parallel interface consists of 8 bi-directional data pins (D7-D0), R/W (WR#), E (RD#), D/C, CS#. The E
(RD#) input serves as data read latch signal (clock) when it is LOW provided that CS# is LOW. Display data
or status register read is controlled by D/C signal.
R/W (WR#) input serves as data write latch signal (clock) when it is HIGH and provided that CS# is LOW.
Display data or command register write is controlled by D/C. Refer to Parallel Interface Timing Diagram of
8080-series microprocessor. Similar to 6800-series interface, a dummy read is also required before the first
actual display data read.
Solomon Systech
May 2005
P 16/56
Rev 1.7
SSD1303
7.6 MPU Serial Interface
The serial interface consists of serial clock SCLK, serial data SDIN, D/C#, CS#. In SPI mode, D0 acts as
SCLK, D1 acts as SDIN. For the unused data pins, D2 should be left open. D3 to D7, E and R/W pins can
be connected to external ground.
SDIN is shifted into an 8-bit shift register on every rising edge of SCLK in the order of D7, D6, ... D0. D/C# is
sampled on every eighth clock and the data byte in the shift register is written to the Display Data RAM or
command register in the same clock.
During data writing, an additional NOP command should be inserted before the CS# goes high (Refer to
Figure 6.
Figure 6 – Display data write procedure in SPI mode
CS#
D/C
SDIN/
SCLK
DB1
DB2
DBn
NOP COMMAND
SCLK(D0)
SDIN(D1)
D7
D6
D5
D4
D3
D2
D1
D0
7.7 Graphic Display Data RAM (GDDRAM)
The GDDRAM is a bit mapped static RAM holding the bit pattern to be displayed. The size of the RAM is
132 x 64 bits. For mechanical flexibility, re-mapping on both Segment and Common outputs can be
selected by software.
For vertical scrolling of the display, an internal register storing display start line can be set to control the
portion of the RAM data to be mapped to the display.
7.8 Current Control and Voltage Control
This block is used to derive the incoming power sources into different levels of internal use voltage and
current. VCC and VDD are external power supplies. VREF is reference voltage, which is used to derive the
driving voltage for segments and commons. IREF is a reference current source for segment current drivers.
SSD1303
Rev 1.7
P 17/56
May 2005
Solomon Systech
7.9 Segment Drivers / Common Drivers
Segment drivers deliver 132 current sources to drive OLED panel. The driving current can be adjusted from
0 to 300uA with 256 steps. Common drivers generate voltage scanning pulses.
7.10 Area Colour Decoder
Page 0 and Page 1 of the display are divided into 32 banks. Bank16 and Bank32 comprise of a display area
of 12 x 8 pixels. Other banks (0~15 & 17~31) have matrices of 8 x 8 pixels. Each bank can be programmed
to any one of the four colours (colour A, B, C, D). Detailed operation can be referred to the Command
Table.
Page 0, bank 1
Page 0, bank 16
Page 1, bank 17
Page 1, bank 32
Bank 0 (background)
Page 2 – Page 7
Solomon Systech
May 2005
P 18/56
Rev 1.7
SSD1303
7.11DC-DC Voltage Converter
It is a switching voltage generator circuit, designed for handheld applications. In SSD1303, internal DC-DC
voltage converter accompanying with an external application circuit (shown in below figure) can generate a
high voltage supply VCC from a low voltage supply input VDD. VCC is the voltage supply to the OLED driver
block. Below application circuit is an example for the input voltage of 3V VDD to generate VCC of 12V
@0mA ~ 20mA application.
Figure 7 - DC-DC voltage converter circuit
L1
D1
VCC
VDD
+
C5
Q1
AGND
VDDB
GDR
R1
+
+
C6
VBREF
C7
RESE
+
+
+
C2
C3
R3
C1
VSSB
AGND
FB
+
C4
AGND
R2
DGND
Remark:
1.
2.
3.
4.
SSD1303
VSSB is tied to VSS on SSD1303T3 package.
L1, D1, Q1, C5 should be grouped closed together on PCB layout.
R1, R2, C1, C4 should be grouped closed together on PCB layout.
The VCC output voltage level can be adjusted by R1and R2, the reference formula is:
VCC = 1.2 x (R1+R2) / R2
The value of (R1+R2) should be between 500k to 1M Ohm.
Rev 1.7
P 19/56
May 2005
Solomon Systech
Table 3 - Passive component selection:
Components Typical Value
L1
Inductor, 10µH
D1
Schottky diode
Q1
MOSFET
R1, R2
R3
C1
C2
C3
C4
C5
C6
C7
Resistor
Resistor, 1.2Ω
Capacitor, 1µF
Capacitor, 6.8µF
Capacitor, 1µF
Capacitor, 10nF
Capacitor, 1 ~ 10 µF
Capacitor, 0.1 ~ 1µF
Capacitor, 15nF
Solomon Systech
Remark
1A
1A, 25V e.g. 1N5822, BAT54 [Philips
Semiconductors]
N-FET with low RDS(on) and low Vth voltage.
e.g. MGSF1N02LT1 [ON SEMI]
1%,1/10W
1%, 1/2W
16V
Low ESR, 25V
16V
16V
16V
16V
16V
May 2005
P 20/56
Rev 1.7
SSD1303
8
COMMAND TABLE
Table 4 - Command table
(D/C =0, R/W (WR#)=0, E (RD#)=1)
Note: commands marked with “**” are compatible to SSD1301
D/C Hex
D7 D6 D5 D4 D3 D2 D1 D0
Command
Description
0
00~0F
0
0
0
0
X3
X2
X1
X0
Set Lower Column
Address **
Set the lower nibble of the column address register
using X3X2X1X0 as data bits. The initial display line
register is reset to 0000b after POR.
0
10~1F
0
0
0
1
X3
X2
X1
X0
Set Higher Column
Address **
Set the higher nibble of the column address register
using X3X2X1X0 as data bits. The initial display line
register is reset to 0000b after POR.
0
26
0
0
1
0
0
1
1
0
Horizontal scroll setup
0
A[2:0]
*
*
*
*
*
A2
A1
A0
Valid value: 001b, 010b, 011b, 100b
0
B[2:0]
*
*
*
*
*
B2
B1
B0
B[2:0] Define start page address
0
C[1:0]
*
*
*
*
*
*
C1
C0
C[1:0] Set time interval between each scroll step in
terms of frame frequency
0
D[2:0]
*
*
*
*
*
D2
D1
D0
A[2:0] Set the number of column scroll per step
00b – 12 frame
01b – 64 frames
10b – 128 frames
11b – 256 frames
D[2:0] Define end page address
Set the value of D[2:0] larger or equal to B[2:0]
0
2F
0
0
1
0
1
1
1
1
Activate horizontal scroll Start horizontal scrolling
0
2E
0
0
1
0
1
1
1
0
Deactivate horizontal
scroll
0
40-7F
0
1
X5
X4
X3
X2
X1
X0
Set Display Start Line
Stop horizontal scrolling
Set display TAM display start line register from 0-63
using X5X3X2X1X0.
Display start line register is reset to 000000 during
POR
Set Contrast Control
Register **
Double byte command to select 1 out of 256 contrast
steps. Contrast increases as the value increases.
(POR = 80h)
Double byte command to select 1 out of 256
brightness steps. Brightness increases as the value
increases. (POR = 80h)
0
81
1
0
0
0
0
0
0
1
0
A[7:0]
A7
A6
A5
A4
A3
A2
A1
A0
0
82
1
0
0
0
0
0
1
0
0
A[7:0]
A7
A6
A5
A4
A3
A2
A1
A0
0
91
1
0
0
1
0
0
0
1
0
X[5:0]
*
*
X5
X4
X3
X2
X1
X0
Bank 0: X[5:0] = 0… 63; for pulse width set to 1 ~
64 clocks (POR = 110001b)
0
A[5:0]
*
*
A5
A4
A3
A2
A1
A0
Colour A: A[5:0] same as above (POR = 111111b)
0
B[5:0]
*
*
B5
B4
B3
B2
B1
B0
Colour B: B[5:0] same as above (POR = 111111b)
0
C[5:0]
*
*
C5
C4
C3
C2
C1
C0
Colour C: C[5:0] same as above (POR = 111111b)
Brightness for color
banks
Set Look Up Table
(LUT) for area colour
Set current drive pulse width of Bank 0, Colour A, B
and C.
Note: colour D pulse width is fixed at 64 clocks
pulse .
SSD1303
Rev 1.7
P 21/56
May 2005
Solomon Systech
D/C Hex
D7 D6 D5 D4 D3 D2 D1 D0
0
92
1
0
0
1
0
0
1
0
0
A[7:0]
A7
A6
A5
A4
A3
A2
A1
A0
Command
Set bank colour of for
bank 1-16 (Page 0)
Description
A[1:0] : 00, 01, 10, or 11 for Colour = A, B, C or D of
bank 1
A[3:2] : 00, 01, 10, or 11 for Colour = A, B, C or D
of bank 2
0
B[7:0]
B7
B6
B5
B4
B3
B2
B1
B0
:
0
C[7:0]
C7
C6
C5
C4
C3
C2
C1
C0
:
0
D[7:0]
D7
D6
D5
D4
D3
D2
D1
D0
D[7:6]: 00, 01, 10, or 11 for Colour = A, B, C or D of
bank 16
0
93
1
0
0
1
0
0
1
1
0
A[7:0]
A7
A6
A5
A4
A3
A2
A1
A0
Set bank colour of for
bank 17-32 (Page 1)
A[1:0] : 00, 01, 10, or 11 for Colour = A, B, C or D of
bank 17
A[3:2] : 00, 01, 10, or 11 for Colour = A, B, C or D
of bank 18
0
B[7:0]
B7
B6
B5
B4
B3
B2
B1
B0
0
C[7:0]
C7
C6
C5
C4
C3
C2
C1
C0
:
:
0
D[7:0]
D7
D6
D5
D4
D3
D2
D1
D0
D[7:6]: 00, 01, 10, or 11 for Colour = A, B, C or D of
bank 32
0
A0~ A1
1
0
1
0
0
0
0
X0 Set Segment Re-map ** X0=0: column address 0 is mapped to SEG0 (POR)
X0=1: column address 131 is mapped to SEG0
0
0
A4~A5
A6~A7
1
1
0
0
1
1
0
0
0
0
1
1
0
1
X0
X0
Set Entire Display
ON/OFF **
X0=0: normal display (POR)
Set Normal/Inverse
Display **
X0=0: normal display (POR)
Set Multiplex Ratio **
The next command, A[5:0] determines multiplex ratio
N from 16MUX-64MUX, POR= 64MUX
X0=1: entire display ON
X0=1: inverse display
0
A8
1
0
1
0
1
0
0
0
0
A[5:0]
*
*
A5
A4
A3
A2
A1
A0
0
AA
1
0
1
0
1
0
1
0
NOP
Reserved, do not use
0
AB
1
0
1
0
1
0
1
1
NOP
Reserved, do not use
0
0
AD
1
1
0
0
1
0
0
0
1
1
1
0
0
1
1 Set DC-DC on/off
X0
0
AE~AF
1
0
1
0
1
1
1
X0
Set Display ON/OFF **
0
B0~BF
1
0
1
1
X3
X2
X1
X0
Set Page Address **
Set GDDRAM Page Address (0~7) for read/write
using X3X2X1X0
0
C0/C8
1
1
0
0
X3
*
*
*
Set COM Output Scan
Direction **
X3=0: normal mode (POR) Scan from COM 0 to COM
[N –1]
X0 : 1
DC-DC will be turned on when display on
(POR)
0
DC-DC is disable
X0=0: turns OFF OLED panel (POR)
X0=1: turns ON OLED panel
X3=1: remapped mode. Scan from COM [N-1] to
COM0
0
D0-D1
1
Solomon Systech
1
0
1
0
0
0
X0
Reserved
Where N is the Multiplex ratio.
Reserved, do not use
May 2005
P 22/56
Rev 1.7
SSD1303
D/C Hex
D7 D6 D5 D4 D3 D2 D1 D0
0
D3
1
1
0
1
0
0
1
1
0
A[5:0]
*
*
A5
A4
A3
A2
A1
A0
0
D5
1
1
0
1
0
1
0
1
0
A[7:0]
A7
A6
A5
A4
A3
A2
A1
A0
Command
Set Display Offset **
Description
Set vertical scroll by COM from 0-63.
The value is reset to 00H after POR.
Set Display Clock
Divide Ratio/Oscillator
Frequency
A[3:0] Define the divide ratio of the display clocks
(DCLK):
Divide ratio= A[3:0] + 1, POR is 0000b (divide ratio =
1)
A[7:4] Set the Oscillator Frequency. Oscillator
Frequency increases with the value of A[7:4] and vice
versa. POR is 0111b
0
D8
0
1
1
0
1
1
0
0
0
0
0
X5
X4
0
X2
0
X0
0
D9
1
1
0
1
1
0
0
1
0
A[7:0]
A7
A6
A5
A4
A3
A2
A1
A0
0
DA
1
1
0
1
1
0
1
0
0
0
0
X4
0
0
1
0
0
Set area colour mode
on/off & low power
display mode
X5X4= 00 (POR) : mono mode
X5X4= 11 Area Colour enable
X2=0 and X0=0: Normal (POR) power mode
X2=1 and X0=1: Set low power save mode
Set Pre-charge period** A[3:0] Phase 1 period of up to 15 dclk clocks
[POR=2h]; 0 is invalid entry
A[7:4] Phase 2 period of up to 15 dclk clocks
[POR=2h]; 0 is invalid entry
Set COM pins hardware X4=0, Sequential COM pin configuration
configuration
(i.e. COM31, 30, 29….0 ; SEG0-132;
COM31,32….62,63)
X4=1(POR), Alternative COM pin configuration
(i.e. COM62,60,58,…2,0; SEG0-132;
COM1,3,5…61,63)
0
DB
1
1
0
1
1
0
1
1
0
A[6:0]
*
A6
A5
A4
A3
A2
A1
A0
Set VCOM Deselect
Level
A[6:0] 0000000 low VCOM deselect level (~ 0.43
Vref)
0110101 normal VCOM deselect level (~ 0.77*Vref
(POR))
1111111 high VCOM deselect level (equal Vref)
0
E2
1
1
1
0
0
0
1
0
Reserved
Reserved
0
E3
1
1
1
0
0
0
1
1
NOP **
Command for No Operation
0
F*
1
1
1
1
*
*
*
*
Reserved
Reserved, do not use
Note: Remark “*” stands for “Don’t Care”
Table 5 - Read command table
SSD1303
Rev 1.7
P 23/56
May 2005
Solomon Systech
(D/C=0, R/W (WR#)=1, E (RD#)=1 for 6800 or E (RD#)=0 for 8080)
Bit Pattern
Command
D7D6D5D4D3D2D1D0
Description
D7 :
D6 :
D5 :
D4 :
D3 :
D2 :
D1 :
D0 :
Status Register Read *
Reserve
“1” for display OFF / “0” for display ON
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Note: Patterns other than that given in Command Table are prohibited to enter to the chip as a command; otherwise, unexpected result
will occur.
8.1 Data Read / Write
To read data from the GDDRAM, input HIGH to R/W (WR#) pin and D/C pin for 6800-series parallel mode,
LOW to E (RD#) pin and HIGH to D/C# pin for 8080-series parallel mode. No data read is provided in serial
mode operation.
In normal data read mode, GDDRAM column address pointer will be increased by one automatically after
each data read.
Also, a dummy read is required before the first data read. See Figure 5 in Functional Block Description.
To write data to the GDDRAM, input LOW to R/W (WR#) pin and HIGH to D/C pin for 6800-series parallel
mode AND 8080-series parallel mode. For serial interface mode, it is always in write mode. GDDRAM
column address pointer will be increased by one automatically after each data write.
Table 6 - Address increment table (Automatic)
D/C
R/W (WR#)
Comment
Address Increment
0
0
1
1
0
1
0
1
Write Command
Read Status
Write Data
Read Data
No
No
Yes
Yes*1
*1. If read-data command is issued in read-modify-write mode, address increase is not applied.
Solomon Systech
May 2005
P 24/56
Rev 1.7
SSD1303
9
COMMAND DESCRIPTIONS
Set Lower Column Address
This command specifies the lower nibble of the 8-bit column address of the display data RAM. The column
address will be incremented by each data access after it is pre-set by the MCU.
Set Higher Column Address
This command specifies the higher nibble of the 8-bit column address of the display data RAM. The column
address will be incremented by each data access after it is pre-set by the MCU.
Activate Horizontal Scroll
Start motion of horizontal scrolling. This command should only be issued after Horizontal scroll setup
parameters are defined.
The following actions are prohibited after the horizontal scroll is activated
1.
RAM access (Data write or read)
2.
Changing horizontal scroll setup parameters
The SSD1303 horizontal scroll is designed for 128 columns scrolling only.
reserved for computation and should be left open.
4 remaining columns are
With column address 0 mapped to SEG0 (Segment remap setting = A0h), the 4 unused columns will be
SEG128, SEG129, SEG130, SEG131.
With column address 0 mapped to SEG131 (Segment remap setting = A1h), the 4 unused columns will be
SEG0, SEG1, SEG2, SEG3.
A1
…
…
…
SEG126
SEG127
D
E
F
!
!
!
Y
Z
Invalid data
Z
Y
"
"
"
F
E
SEG131
SEG5
C
SEG130
SEG4
B
SEG129
SEG3
A
SEG128
SEG2
A0
SEG1
REMAP
SETTING
SEG0
Figure 8 - Horizontal scroll direction
Invalid data
D
C
B
A
Scroll direction
SSD1303
Rev 1.7
P 25/56
May 2005
Solomon Systech
Deactivate Horizontal Scroll
Stop motion of horizontal scrolling.
Horizontal Scroll Setup
This command consists of 5 consecutive bytes to set up the horizontal scroll parameters. It determined the
scrolling start page, end page and the scrolling speed.
Before issuing this command, the horizontal scroll must be deactivated (2Eh). Otherwise, ram content may
be corrupted.
Set Display Start Line
This command is to set Display Start Line register to determine starting address of display RAM to be
displayed by selecting a value from 0 to 63. With value equals to 0, D0 of Page 0 is mapped to COM0. With
value equals to 1, D1 of Page0 is mapped to COM0. The display start line values of 0 to 63 are assigned to
Page 0 to 7.
Set Contrast Control Register
This command is to set Contrast Setting of the display. The chip has 256 contrast steps from 00 to FF. The
segment output current increases as the contrast step value increases. See Figure 9.
Figure 9 - Segment current vs Contrast setting
Segm ent current vs Contrast setting
350
300
250
Segment output current setting:
Current (uA)
200
Iseg = Cr/256 * Iref * scale factor
Where:
Cr is contrast step
Iref is reference current equals 10uA
Scale factor =32
150
100
50
0
00
0F 1F 2F
3F 4F 5F 6F 7F 8F 9F AF BF CF DF EF FF
Contrast setting
Set Brightness for Color Banks
This command is to set Brightness Setting of the display for area colors banks (except bank 0). The chip
has 256 brightness steps from 00 to FF. The segment output current increases as the brightness step value
increases
Solomon Systech
May 2005
P 26/56
Rev 1.7
SSD1303
Set Look Up Table (LUT) for area colour
SSD1303 provides 4 colour (pulse width) settings - Colour A, B, C and D. The colour intensity (or grey
scale) is defined by the current drive pulse width. The pulse width of colour A, B, C can be programmable
from 1 to 64 DCLK* duration. The colour D is fixed at 64 DCLK pulse width. This colour setting has to be
stored in the Look Up Table (LUT).
For the background colour, the colour intensity is defined by a variable X[5:0].
Set LUT command:
10010001
X[5:0]
A[5:0]
B[5:0]
C[5:0]
Description
Number of
DCLKs
X[5:0]
A[5:0]
B[5:0]
C[5:0]
64 (fixed)
Bank 0
Colour A
Colour B
Colour C
Colour D
Set background colour
Set Pulse Width A
Set Pulse Width B
Set Pulse Width C
Pulse width D is fixed to 64
DCLK
DCLK: Internal Display Clock
Set bank colour of bank 1-16 (Page 0) and bank colour of bank 17-32 (Page 1)
Next step is to define the colour of each display area. The 132x64 display matrix is divided into 8 pages of 8
commons per pages. The first two pages, page 0 and page 1, are divided into 32 banks: Bank16 and
Bank32 comprise of a display area of 12x8 pixels. Other banks (0~15 & 17~31) have matrices of 8x8 pixels.
Each bank can be programmable to any 1 of the 4 colour (A, B, C, D). User can use 92h and 93h command
for the bank colour setting. Note: Only applicable in area colour mode.
Set Segment Re-map
This command changes the mapping between the display data column address and segment driver. It
allows flexibility in OLED module design. Refer to Command Table.
Set Entire Display ON/OFF
This command forces the entire display to be “ON” regardless of the contents of the display data RAM. This
command has priority over normal/reverse display. This command will be used with “Set Display ON/OFF”
command to form a compound command for entering power save mode.
Set Normal/Inverse Display
This command sets the display to be either normal/inverse. In normal display, a RAM data of 1 indicates an
“ON” pixel while in inverse display; a RAM data of 0 indicates an “ON” pixel.
Set Multiplex Ratio
This command switches default 63 multiplex mode to any multiplex ratio from 2 to 63. The output pads
COM0-COM63 will be switched to corresponding COM signal.
Set DC-DC on/off
This command is to control the DC-DC voltage converter. The converter will be turned on by issuing this
command then DISPLAY ON command. The panel display must be off while issuing this command.
POR the DC-DC will be turned on.
SSD1303
Rev 1.7
P 27/56
May 2005
Solomon Systech
Set Display ON/OFF
This command turns the display ON or OFF. When the display is OFF, the segment and common output
are in high impedance state.
Set Page Address
This command positions the page address from 0 to 7 in GDDRAM. Refer to Command Table.
Set COM Output Scan Direction
This command sets the scan direction of the COM output allowing layout flexibility in OLED module design.
In addition, the display will have immediate effect once this command is issued. That is, if this command is
sent during normal display, the graphic display will be vertically flipped.
Set Display Offset
This is a double byte command. The next command specifies the mapping of display start line to one of
COM0-63 (it is assumed that COM0 is the display start line, display start line register equals to 0).
For example, to move the COM16 towards the COM0 direction for 16 lines, the 6-bit data in the second byte
should be given by 010000. To move in the opposite direction by 16 lines, the 6-bit data should be given by
(64 – 16) and so the second byte should be 100000.
Solomon Systech
May 2005
P 28/56
Rev 1.7
SSD1303
Hardware
pin name
COM0
COM1
COM2
COM3
COM4
COM5
COM6
COM7
COM8
COM9
COM10
COM11
COM12
COM13
COM14
COM15
COM16
COM17
COM18
COM19
COM20
COM21
COM22
COM23
COM24
COM25
COM26
COM27
COM28
COM29
COM30
COM31
COM32
COM33
COM34
COM35
COM36
COM37
COM38
COM39
COM40
COM41
COM42
COM43
COM44
COM45
COM46
COM47
COM48
COM49
COM50
COM51
COM52
COM53
COM54
COM55
COM56
COM57
COM58
COM59
COM60
COM61
COM62
COM63
SSD1303
64
Normal
0
0
Row0
RAM0
Row1
RAM1
Row2
RAM2
Row3
RAM3
Row4
RAM4
Row5
RAM5
Row6
RAM6
Row7
RAM7
Row8
RAM8
Row9
RAM9
Row10
RAM10
Row11
RAM11
Row12
RAM12
Row13
RAM13
Row14
RAM14
Row15
RAM15
Row16
RAM16
Row17
RAM17
Row18
RAM18
Row19
RAM19
Row20
RAM20
Row21
RAM21
Row22
RAM22
Row23
RAM23
Row24
RAM24
Row25
RAM25
Row26
RAM26
Row27
RAM27
Row28
RAM28
Row29
RAM29
Row30
RAM30
Row31
RAM31
Row32
RAM32
Row33
RAM33
Row34
RAM34
Row35
RAM35
Row36
RAM36
Row37
RAM37
Row38
RAM38
Row39
RAM39
Row40
RAM40
Row41
RAM41
Row42
RAM42
Row43
RAM43
Row44
RAM44
Row45
RAM45
Row46
RAM46
Row47
RAM47
Row48
RAM48
Row49
RAM49
Row50
RAM50
Row51
RAM51
Row52
RAM52
Row53
RAM53
Row54
RAM54
Row55
RAM55
Row56
RAM56
Row57
RAM57
Row58
RAM58
Row59
RAM59
Row60
RAM60
Row61
RAM61
Row62
RAM62
Row63
RAM63
64
Normal
8
0
Row8
RAM8
Row9
RAM9
Row10
RAM10
Row11
RAM11
Row12
RAM12
Row13
RAM13
Row14
RAM14
Row15
RAM15
Row16
RAM16
Row17
RAM17
Row18
RAM18
Row19
RAM19
Row20
RAM20
Row21
RAM21
Row22
RAM22
Row23
RAM23
Row24
RAM24
Row25
RAM25
Row26
RAM26
Row27
RAM27
Row28
RAM28
Row29
RAM29
Row30
RAM30
Row31
RAM31
Row32
RAM32
Row33
RAM33
Row34
RAM34
Row35
RAM35
Row36
RAM36
Row37
RAM37
Row38
RAM38
Row39
RAM39
Row40
RAM40
Row41
RAM41
Row42
RAM42
Row43
RAM43
Row44
RAM44
Row45
RAM45
Row46
RAM46
Row47
RAM47
Row48
RAM48
Row49
RAM49
Row50
RAM50
Row51
RAM51
Row52
RAM52
Row53
RAM53
Row54
RAM54
Row55
RAM55
Row56
RAM56
Row57
RAM57
Row58
RAM58
Row59
RAM59
Row60
RAM60
Row61
RAM61
Row62
RAM62
Row63
RAM63
Row0
RAM0
Row1
RAM1
Row2
RAM2
Row3
RAM3
Row4
RAM4
Row5
RAM5
Row6
RAM6
Row7
RAM7
Rev 1.7
P 29/56
Output
64
56
Normal
Normal
0
0
8
0
Row0
RAM8
Row0
RAM0
Row1
RAM9
Row1
RAM1
Row2
RAM10
Row2
RAM2
Row3
RAM11
Row3
RAM3
Row4
RAM12
Row4
RAM4
Row5
RAM13
Row5
RAM5
Row6
RAM14
Row6
RAM6
Row7
RAM15
Row7
RAM7
Row8
RAM16
Row8
RAM8
Row9
RAM17
Row9
RAM9
Row10
RAM18
Row10
RAM10
Row11
RAM19
Row11
RAM11
Row12
RAM20
Row12
RAM12
Row13
RAM21
Row13
RAM13
Row14
RAM22
Row14
RAM14
Row15
RAM23
Row15
RAM15
Row16
RAM24
Row16
RAM16
Row17
RAM25
Row17
RAM17
Row18
RAM26
Row18
RAM18
Row19
RAM27
Row19
RAM19
Row20
RAM28
Row20
RAM20
Row21
RAM29
Row21
RAM21
Row22
RAM30
Row22
RAM22
Row23
RAM31
Row23
RAM23
Row24
RAM32
Row24
RAM24
Row25
RAM33
Row25
RAM25
Row26
RAM34
Row26
RAM26
Row27
RAM35
Row27
RAM27
Row28
RAM36
Row28
RAM28
Row29
RAM37
Row29
RAM29
Row30
RAM38
Row30
RAM30
Row31
RAM39
Row31
RAM31
Row32
RAM40
Row32
RAM32
Row33
RAM41
Row33
RAM33
Row34
RAM42
Row34
RAM34
Row35
RAM43
Row35
RAM35
Row36
RAM44
Row36
RAM36
Row37
RAM45
Row37
RAM37
Row38
RAM46
Row38
RAM38
Row39
RAM47
Row39
RAM39
Row40
RAM48
Row40
RAM40
Row41
RAM49
Row41
RAM41
Row42
RAM50
Row42
RAM42
Row43
RAM51
Row43
RAM43
Row44
RAM52
Row44
RAM44
Row45
RAM53
Row45
RAM45
Row46
RAM54
Row46
RAM46
Row47
RAM55
Row47
RAM47
Row48
RAM56
Row48
RAM48
Row49
RAM57
Row49
RAM49
Row50
RAM58
Row50
RAM50
Row51
RAM59
Row51
RAM51
Row52
RAM60
Row52
RAM52
Row53
RAM61
Row53
RAM53
Row54
RAM62
Row54
RAM54
Row55
RAM63
Row55
RAM55
Row56
RAM0
Row57
RAM1
Row58
RAM2
Row59
RAM3
Row60
RAM4
Row61
RAM5
Row62
RAM6
Row63
RAM7
-
May 2005
56
Normal
8
0
Row8
RAM8
Row9
RAM9
Row10
RAM10
Row11
RAM11
Row12
RAM12
Row13
RAM13
Row14
RAM14
Row15
RAM15
Row16
RAM16
Row17
RAM17
Row18
RAM18
Row19
RAM19
Row20
RAM20
Row21
RAM21
Row22
RAM22
Row23
RAM23
Row24
RAM24
Row25
RAM25
Row26
RAM26
Row27
RAM27
Row28
RAM28
Row29
RAM29
Row30
RAM30
Row31
RAM31
Row32
RAM32
Row33
RAM33
Row34
RAM34
Row35
RAM35
Row36
RAM36
Row37
RAM37
Row38
RAM38
Row39
RAM39
Row40
RAM40
Row41
RAM41
Row42
RAM42
Row43
RAM43
Row44
RAM44
Row45
RAM45
Row46
RAM46
Row47
RAM47
Row48
RAM48
Row49
RAM49
Row50
RAM50
Row51
RAM51
Row52
RAM52
Row53
RAM53
Row54
RAM54
Row55
RAM55
Row0
RAM0
Row1
RAM1
Row2
RAM2
Row3
RAM3
Row4
RAM4
Row5
RAM5
Row6
RAM6
Row7
RAM7
56
Normal
0
8
Row0
RAM8
Row1
RAM9
Row2
RAM10
Row3
RAM11
Row4
RAM12
Row5
RAM13
Row6
RAM14
Row7
RAM15
Row8
RAM16
Row9
RAM17
Row10
RAM18
Row11
RAM19
Row12
RAM20
Row13
RAM21
Row14
RAM22
Row15
RAM23
Row16
RAM24
Row17
RAM25
Row18
RAM26
Row19
RAM27
Row20
RAM28
Row21
RAM29
Row22
RAM30
Row23
RAM31
Row24
RAM32
Row25
RAM33
Row26
RAM34
Row27
RAM35
Row28
RAM36
Row29
RAM37
Row30
RAM38
Row31
RAM39
Row32
RAM40
Row33
RAM41
Row34
RAM42
Row35
RAM43
Row36
RAM44
Row37
RAM45
Row38
RAM46
Row39
RAM47
Row40
RAM48
Row41
RAM49
Row42
RAM50
Row43
RAM51
Row44
RAM52
Row45
RAM53
Row46
RAM54
Row47
RAM55
Row48
RAM56
Row49
RAM57
Row50
RAM58
Row51
RAM59
Row52
RAM60
Row53
RAM61
Row54
RAM62
Row55
RAM63
-
Set MUX ratio(A8)
COM Normal / Remapped (C0 / C8)
Display offset (D3)
Display start line (40 - 7F)
Solomon Systech
Output
64
64
64
48
48
48
48
Remap
Remap
Remap
Remap
Remap
Remap
Remap
0
8
0
0
8
0
8
0
0
8
0
0
8
16
Hardware
pin name
Set MUX ratio(A8)
COM Normal / Remapped (C0 / C8)
Display offset (D3)
Display start line (40 - 7F)
COM0
Row63
RAM63
Row7
RAM7
Row63
RAM7
Row47
RAM47
-
-
Row47
RAM41
-
-
COM1
Row62
RAM62
Row6
RAM6
Row62
RAM6
Row46
RAM46
-
-
Row46
RAM40
-
-
COM2
Row61
RAM61
Row5
RAM5
Row61
RAM5
Row45
RAM45
-
-
Row45
RAM41
-
-
COM3
Row60
RAM60
Row4
RAM4
Row60
RAM4
Row44
RAM44
-
-
Row44
RAM42
-
-
COM4
Row59
RAM59
Row3
RAM3
Row59
RAM3
Row43
RAM43
-
-
Row43
RAM43
-
-
COM5
Row58
RAM58
Row2
RAM2
Row58
RAM2
Row42
RAM42
-
-
Row42
RAM44
-
-
COM6
Row57
RAM57
Row1
RAM1
Row57
RAM1
Row41
RAM41
-
-
Row41
RAM45
-
-
COM7
Row56
RAM56
Row0
RAM0
Row56
RAM0
Row40
RAM40
-
-
Row40
RAM46
-
-
COM8
Row55
RAM55
Row63
RAM63
Row55
RAM63
Row39
RAM39
Row47
RAM47
Row39
RAM47
Row47
RAM63
COM9
Row54
RAM54
Row62
RAM62
Row54
RAM62
Row38
RAM38
Row46
RAM46
Row38
RAM46
Row46
RAM62
COM10
Row53
RAM53
Row61
RAM61
Row53
RAM61
Row37
RAM37
Row45
RAM45
Row37
RAM45
Row45
RAM61
COM11
Row52
RAM52
Row60
RAM60
Row52
RAM60
Row36
RAM36
Row44
RAM44
Row36
RAM44
Row44
RAM60
COM12
Row51
RAM51
Row59
RAM59
Row51
RAM59
Row35
RAM35
Row43
RAM43
Row35
RAM43
Row43
RAM59
COM13
Row50
RAM50
Row58
RAM58
Row50
RAM58
Row34
RAM34
Row42
RAM42
Row34
RAM42
Row42
RAM58
COM14
Row49
RAM49
Row57
RAM57
Row49
RAM57
Row33
RAM33
Row41
RAM41
Row33
RAM41
Row41
RAM57
COM15
Row48
RAM48
Row56
RAM56
Row48
RAM56
Row32
RAM32
Row40
RAM40
Row32
RAM40
Row40
RAM56
COM16
Row47
RAM47
Row55
RAM55
Row47
RAM55
Row31
RAM31
Row39
RAM39
Row31
RAM39
Row39
RAM55
COM17
Row46
RAM46
Row54
RAM54
Row46
RAM54
Row30
RAM30
Row38
RAM38
Row30
RAM38
Row38
RAM54
COM18
Row45
RAM45
Row53
RAM53
Row45
RAM53
Row29
RAM29
Row37
RAM37
Row29
RAM37
Row37
RAM53
COM19
Row44
RAM44
Row52
RAM52
Row44
RAM52
Row28
RAM28
Row36
RAM36
Row28
RAM36
Row36
RAM52
COM20
Row43
RAM43
Row51
RAM51
Row43
RAM51
Row27
RAM27
Row35
RAM35
Row27
RAM35
Row35
RAM51
COM21
Row42
RAM42
Row50
RAM50
Row42
RAM50
Row26
RAM26
Row34
RAM34
Row26
RAM34
Row34
RAM50
COM22
Row41
RAM41
Row49
RAM49
Row41
RAM49
Row25
RAM25
Row33
RAM33
Row25
RAM33
Row33
RAM49
COM23
Row40
RAM40
Row48
RAM48
Row40
RAM48
Row24
RAM24
Row32
RAM32
Row24
RAM32
Row32
RAM48
COM24
Row39
RAM39
Row47
RAM47
Row39
RAM47
Row23
RAM23
Row31
RAM31
Row23
RAM31
Row31
RAM47
COM25
Row38
RAM38
Row46
RAM46
Row38
RAM46
Row22
RAM22
Row30
RAM30
Row22
RAM30
Row30
RAM46
COM26
Row37
RAM37
Row45
RAM45
Row37
RAM45
Row21
RAM21
Row29
RAM29
Row21
RAM29
Row29
RAM45
COM27
Row36
RAM36
Row44
RAM44
Row36
RAM44
Row20
RAM20
Row28
RAM28
Row20
RAM28
Row28
RAM44
COM28
Row35
RAM35
Row43
RAM43
Row35
RAM43
Row19
RAM19
Row27
RAM27
Row19
RAM27
Row27
RAM43
COM29
Row34
RAM34
Row42
RAM42
Row34
RAM42
Row18
RAM18
Row26
RAM26
Row18
RAM26
Row26
RAM42
COM30
Row33
RAM33
Row41
RAM41
Row33
RAM41
Row17
RAM17
Row25
RAM25
Row17
RAM25
Row25
RAM41
COM31
Row32
RAM32
Row40
RAM40
Row32
RAM40
Row16
RAM16
Row24
RAM24
Row16
RAM24
Row24
RAM40
COM32
Row31
RAM31
Row39
RAM39
Row31
RAM39
Row15
RAM15
Row23
RAM23
Row15
RAM23
Row23
RAM39
COM33
Row30
RAM30
Row38
RAM38
Row30
RAM38
Row14
RAM14
Row22
RAM22
Row14
RAM22
Row22
RAM38
COM34
Row29
RAM29
Row37
RAM37
Row29
RAM37
Row13
RAM13
Row21
RAM21
Row13
RAM21
Row21
RAM37
COM35
Row28
RAM28
Row36
RAM36
Row28
RAM36
Row12
RAM12
Row20
RAM20
Row12
RAM20
Row20
RAM36
COM36
Row27
RAM27
Row35
RAM35
Row27
RAM35
Row11
RAM11
Row19
RAM19
Row11
RAM19
Row19
RAM35
COM37
Row26
RAM26
Row34
RAM34
Row26
RAM34
Row10
RAM10
Row18
RAM18
Row10
RAM18
Row18
RAM34
COM38
Row25
RAM25
Row33
RAM33
Row25
RAM33
Row9
RAM9
Row17
RAM17
Row9
RAM17
Row17
RAM33
COM39
Row24
RAM24
Row32
RAM32
Row24
RAM32
Row8
RAM8
Row16
RAM16
Row8
RAM16
Row16
RAM32
COM40
Row23
RAM23
Row31
RAM31
Row23
RAM31
Row7
RAM7
Row15
RAM15
Row7
RAM15
Row15
RAM31
COM41
Row22
RAM22
Row30
RAM30
Row22
RAM30
Row6
RAM6
Row14
RAM14
Row6
RAM14
Row14
RAM30
COM42
Row21
RAM21
Row29
RAM29
Row21
RAM29
Row5
RAM5
Row13
RAM13
Row5
RAM13
Row13
RAM29
COM43
Row20
RAM20
Row28
RAM28
Row20
RAM28
Row4
RAM4
Row12
RAM12
Row4
RAM12
Row12
RAM28
COM44
Row19
RAM19
Row27
RAM27
Row19
RAM27
Row3
RAM3
Row11
RAM11
Row3
RAM11
Row11
RAM27
COM45
Row18
RAM18
Row26
RAM26
Row18
RAM26
Row2
RAM2
Row10
RAM10
Row2
RAM10
Row10
RAM26
COM46
Row17
RAM17
Row25
RAM25
Row17
RAM25
Row1
RAM1
Row9
RAM9
Row1
RAM9
Row9
RAM25
COM47
Row16
RAM16
Row24
RAM24
Row16
RAM24
Row0
RAM0
Row8
RAM8
Row0
RAM8
Row8
RAM24
COM48
Row15
RAM15
Row23
RAM23
Row15
RAM23
-
-
Row7
RAM7
-
-
Row7
RAM23
COM49
Row14
RAM14
Row22
RAM22
Row14
RAM22
-
-
Row6
RAM6
-
-
Row6
RAM22
COM50
Row13
RAM13
Row21
RAM21
Row13
RAM21
-
-
Row5
RAM5
-
-
Row5
RAM21
COM51
Row12
RAM12
Row20
RAM20
Row12
RAM20
-
-
Row4
RAM4
-
-
Row4
RAM20
COM52
Row11
RAM11
Row19
RAM19
Row11
RAM19
-
-
Row3
RAM3
-
-
Row3
RAM19
COM53
Row10
RAM10
Row18
RAM18
Row10
RAM18
-
-
Row2
RAM2
-
-
Row2
RAM18
COM54
Row9
RAM9
Row17
RAM17
Row9
RAM17
-
-
Row1
RAM1
-
-
Row1
RAM17
COM55
Row8
RAM8
Row16
RAM16
Row8
RAM16
-
-
Row0
RAM0
-
-
Row0
RAM16
COM56
Row7
RAM7
Row15
RAM15
Row7
RAM15
-
-
-
-
-
-
-
-
COM57
Row6
RAM6
Row14
RAM14
Row6
RAM14
-
-
-
-
-
-
-
-
COM58
Row5
RAM5
Row13
RAM13
Row5
RAM13
-
-
-
-
-
-
-
-
COM59
Row4
RAM4
Row12
RAM12
Row4
RAM12
-
-
-
-
-
-
-
-
COM60
Row3
RAM3
Row11
RAM11
Row3
RAM11
-
-
-
-
-
-
-
-
COM61
Row2
RAM2
Row10
RAM10
Row2
RAM10
-
-
-
-
-
-
-
-
COM62
Row1
RAM1
Row9
RAM9
Row1
RAM9
-
-
-
-
-
-
-
-
COM63
Row0
RAM0
Row8
RAM8
Row0
RAM8
-
-
-
-
-
-
-
-
Set Display Clock Divide Ratio/ Oscillator Frequency
This command is used to set the frequency of the internal display clocks, DCLKs. It is defined as the divide
ratio (Value from 1 to 16) used to divide the oscillator frequency. POR is 1. Frame frequency is determined
by divide ratio, number of display clocks per row, MUX ratio and oscillator frequency.
Set Area Colour Mode ON/OFF
This command is used to enable area colour mode. POR is mono mode.
Solomon Systech
May 2005
P 30/56
Rev 1.7
SSD1303
Set Low Power Display Mode
This is a double byte command. This command is set to reduce power consumption during IC operation.
Set Pre-charge period
This command is used to set the duration of the pre-charge period. The interval is counted in number of
DCLK. POR is 2 DCLK.
Set COM pins hardware configuration
This command is to set the COM signals pin configuration (sequential or alternative) to match the OLED
panel hardware layout
Sequential COM pin configuration:
COM31, 30, 29…0
SEG0, 1, 2… 131
COM32, 33, 34…63
Alternative COM pin configuration (POR):
COM62, 60, 58…0
SEG0, 1, 2… 131
COM1, 3, 5…63
Set VCOM deselect level
This command is to set the COM pin output voltage level at deselect stage.
NOP
No Operation Command
Status register Read
This command is issued by setting D/C# LOW during a data read (refer to Figure 10 and Figure 11 for
parallel interface waveform). It allows the MCU to monitor the internal status of the chip. No status read is
provided for serial mode.
SSD1303
Rev 1.7
P 31/56
May 2005
Solomon Systech
10 MAXIMUM RATINGS
Table 7 - Maximum Ratings
(Voltage Reference to VSS)
Symbol
VDD
VCC
VREF
VCOMH
Vin
TA
Tstg
Parameter
Supply Voltage
Supply Voltage/Output voltage
SEG/COM output voltage
Input voltage
Operating Temperature
Storage Temperature Range
Value
-0.3 to +4.0
0.0 to 18.0
0.0 to 18.0
0.0 to 18.0
0.0 to 18.0
Vss-0.3 to Vdd+0.3
-40 to +90
-65 to +150
Unit
V
V
V
V
V
V
ºC
ºC
Maximum Ratings are those values beyond which damage to the device may occur. Functional operation should be restricted to the
limits in the Electrical Characteristics tables or Pin Description.
Solomon Systech
May 2005
P 32/56
Rev 1.7
SSD1303
11 DC CHARACTERISTICS
Table 8 - DC Characteristics
(Unless otherwise specified, Voltage Referenced to VSS, VDD = 2.4 to 3.5V, TA = 25°C)
Symbol
VCC
Parameter
Operating Voltage
Test Condition
-
Min
7
Typ
12
Max
16
Unit
V
V
VDD
Logic Supply Voltage
-
2.4
-
3.5
-
3.0
-
3.5
V
IOUT = 100uA, 3.3MHz
IOUT = 100uA, 3.3MHz
IOUT = 100uA, 3.3MHz
IOUT = 100uA, 3.3MHz
VDD=2.7V, display
OFF, No panel attached
VDD=2.7V, display
OFF, No panel attached
0.9*VDD
0
0.8*VDD
0
-
VDD
0.1*VDD
VDD
0.2*VDD
V
V
V
V
-10
-
+10
uA
-10
-
+10
uA
VOH
VOL
VIH
VIL
Logic Supply Voltage (internal
DC/DC enable)
High Logic Output Level
Low Logic Output Level
High Logic Input Level
Low Logic Input Level
ICC, SLEEP
Sleep mode Current
IDD, SLEEP
Sleep mode Current
ICC
VCC Supply Current
VDD = 2.7V, VCC = 12V, IREF = 10uA
No loading, Display ON, All ON
Contrast = FF
-
550
-
uA
VDD Supply Current
VDD = 2.7V, VCC = 12V, IREF = 10uA
No loading, Display ON, All ON
Contrast = FF
-
190
-
uA
Segment Output Current
Contrast=FF
285
320
355
VDD=2.7V, VCC=12V,
IREF=10uA, Display ON, Segment
pin under test is connected with a
20K resistive load to VSS
Contrast=AF
-
220
-
Contrast=5F
-
120
-
Contrast=0F
-
20
-
-
-
±3
%
-
±2.0
-
%
11.0
12.0
13.0
VDD
IDD
ISEG
Dev
Segment output current uniformity
Adj. Dev
Adjacent pin output current
uniformity (contrast = FF)
Dev = (ISEG – IMID)/IMID
IMID = (IMAX + IMIN)/2
ISEG[0:131] = Segment
current at contrast = FF
Adj Dev = (I[n]-I[n+1]) /
(I[n]+I[n+1])
VDD input=3V, L=22uH;
R1=450Kohm;
R2=50Kohm;
Icc = 20mA(loading)
Vcc
DC-DC converter output voltage
V
-
Pwr
SSD1303
DC-DC converter output power
Rev 1.7
P 33/56
May 2005
uA
VDD input=3V, L=22uH;
Vcc = 12V
7
-
16
-
-
400
mW
Solomon Systech
12 AC CHARACTERISTICS
Table 9 - AC Characteristics
(Unless otherwise specified, Voltage Referenced to VSS, VDD = 2.4 to 3.5V, TA = 25°C.)
Parameter
Test Condition
Min
Typ
Symbol
FOSC
Oscillation Frequency of
Display Timing
Generator
Vdd = 2.7V
315
360
FFRM
Frame Frequency for 64
MUX Mode
132x64 Graphic Display Mode,
Display ON, Internal Oscillator
Enabled
-
FOSC X
1/(D*K*64)
Reset low pulse width
-
3
Reset complete time
-
Max
420
Unit
kHz
-
Hz
us
RES#
2
us
D: divide ratio (default value = 1)
K: number of display clocks (default value = 54)
Refer to command table (set display clock divide ratio/oscillator freq) for detail description
Solomon Systech
May 2005
P 34/56
Rev 1.7
SSD1303
Table 10 - 6800-Series MPU Parallel Interface Timing Characteristics
(VDD - VSS = 2.4 to 3.5V, TA = 25°C)
Symbol
Parameter
Min
Typ
Max
Unit
300
-
-
ns
tcycle
Clock Cycle Time
tAS
Address Setup Time
0
-
-
ns
tAH
Address Hold Time
0
-
-
ns
tDSW
Write Data Setup Time
40
-
-
ns
tDHW
Write Data Hold Time
7
-
-
ns
tDHR
Read Data Hold Time
20
-
-
ns
tOH
Output Disable Time
-
-
70
ns
tACC
Access Time
-
-
140
ns
-
-
ns
-
-
ns
PW CSL
PW CSH
Chip Select Low Pulse Width (read)
Chip Select Low Pulse Width (write)
Chip Select High Pulse Width (read)
Chip Select High Pulse Width (write)
120
60
60
60
tR
Rise Time
-
-
15
ns
tF
Fall Time
-
-
15
ns
D/C
tAS
tAH
R/W
E
tcycle
PW CSH
PW CSL
tR
CS#
tF
tDHW
tDSW
D0~D7(WRITE)
Valid Data
tACC
D0~D7(READ)
tDHR
Valid Data
tOH
Figure 10 - 6800-series MPU parallel interface characteristics
SSD1303
Rev 1.7
P 35/56
May 2005
Solomon Systech
Table 11 - 8080-Series MPU Parallel Interface Timing Characteristics
(VDD - VSS = 2.4 to 3.5V, TA = 25°C)
Symbol
tcycle
tAS
tAH
tDSW
tDHW
tDHR
tOH
tACC
PW CSL
PW CSH
tR
tF
Parameter
Min
Typ
Max
Unit
300
0
0
40
7
20
120
60
60
60
-
-
70
140
-
ns
ns
ns
ns
ns
ns
ns
ns
ns
-
-
ns
-
15
15
ns
ns
Clock Cycle Time
Address Setup Time
Address Hold Time
Write Data Setup Time
Write Data Hold Time
Read Data Hold Time
Output Disable Time
Access Time
Chip Select Low Pulse Width (read)
Chip Select Low Pulse Width (write)
Chip Select High Pulse Width (read)
Chip Select High Pulse Width (write)
Rise Time
Fall Time
D/C
tAS
t AH
CS#
tF
tR
tcycle
PW CSL
PW CSH
RD#
WR#
tDHW
tDSW
D0-D7
(Write data to driver)
D0-D7
Valid Data
tDHR
tACC
(Read data from driver)
Valid Data
t
Figure 11 - 8080-series MPU parallel interface characteristics
Solomon Systech
May 2005
P 36/56
Rev 1.7
SSD1303
Table 12 - Serial Interface Timing Characteristics
(VDD - VSS = 2.4 to 3.5V, TA = 25°C)
Symbol
Parameter
tcycle
Clock Cycle Time
tAS
Address Setup Time
tAH
Address Hold Time
tCSS
Chip Select Setup Time
tCSH
Chip Select Hold Time
tDSW
Write Data Setup Time
tDHW
Write Data Hold Time
tCLKL
Clock Low Time
tCLKH
Clock High Time
tR
Rise Time
tF
Fall Time
Min
Typ
Max
Unit
-
-
ns
150
-
-
ns
150
-
-
ns
120
-
-
ns
60
-
-
ns
100
-
-
ns
100
-
-
ns
100
-
-
ns
100
-
-
ns
-
-
15
ns
-
-
15
ns
250
D/C
tAS
tAH
tCSS
CS#
tCSH
tcycle
tCLKL
tCLKH
SCLK(D0)
tF
tR
tDSW
SDIN(D1)
tDHW
Valid Data
CS#
SCLK(D0)
D7
SDIN(D1)
D6
D5
D4
D3
D2
D1
D0
Figure 12 - Serial interface characteristics
SSD1303
Rev 1.7
P 37/56
May 2005
Solomon Systech
13 APPLICATION EXAMPLE
Figure 13 - Application Example (Block Diagram of SSD1303T3)
The configuration for 6800-parallel interface mode, externally VCC is shown in the following diagram:
(VDD=2.7V, VCC=VREF=12V, IREF=10uA)
COM1
COM3
.
.
COM61
COM63
SEG0
.
.
.
.
.
.
.
.
.
.
.
.
SEG95
COM62
COM60
.
.
COM2
COM0
DISPLAY PANEL SIZE
96 x 64
SSD1303T3
VCC
C3
VCOMH IREF D7~D0 E (RD#) R/W# (W/R#) D/C# RES# CS# BS1 BS2
VDD VDDB GDR RESE FB VBREF VSS
R1
C1
C2
Vcc
D0~D7 E (RD#) R/W# (W/R#)
D/C# RES#
CS# BS1 BS2
VDD
VSS
VSS
[GND]
Pin connected to MCU interface: D0~D7, E, R/W#, D/C#, CS#, RES#
Pin externally connected to VSS: BS0, VSSB
Pin internally connected to VCC: VREF
GDR, RESE, VBREF, FB should be left open individually;
C1~ C3: 4.7uF
R1: 910kΩ, R1=(Voltage at IREF pin-VSS)/IREF
Voltage at IREF pin = VCC-3V
Solomon Systech
May 2005
P 38/56
Rev 1.7
SSD1303
14 SSD1303T3R1 PACKAGE DETAILS
SSD1303T3R1 Pin Assignment
Figure 14 - SSD1303T3R1 pin assignment (Copper view, Normal TAB design)
Remark:
Use internal clock
VREF is connected to VCC
Support MCU interface: 8-bit 6800/8080 parallel interface and SPI
VSSB, BGGND are connected to VSS
BS0 is connected to VSS
SSD1303
Rev 1.7
P 39/56
May 2005
Solomon Systech
Table 13 - SSD1303T3R1 pin assignment
Pin no.
Pin name
Pin no.
Pin name
Pin 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
NC
VSS
GDR
VDDB
FB
RESE
VBREF
GP0
GP1
NC
VDD1
BS1
BS2
NC
CS#
RES#
D/C
R/W
E/RD
D0
D1
D2
D3
D4
D5
D6
D7
IREF
VCOMH
VCC
NC
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
COM8
COM6
COM4
COM2
COM0
NC
NC
NC
NC
NC
NC
NC
NC
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
NC
NC
COM62
COM60
COM58
COM56
COM54
COM52
COM50
COM48
COM46
COM44
COM42
COM40
COM38
COM36
COM34
COM32
COM30
COM28
COM26
COM24
COM22
COM20
COM18
COM16
COM14
COM12
COM10
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
Solomon Systech
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46
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
Pin name
SEG47
SEG48
SEG49
SEG50
SEG51
SEG52
SEG53
SEG54
SEG55
SEG56
SEG57
SEG58
SEG59
SEG60
SEG61
SEG62
SEG63
SEG64
SEG65
SEG66
SEG67
SEG68
SEG69
SEG70
SEG71
SEG72
SEG73
SEG74
SEG75
SEG76
SEG77
SEG78
SEG79
SEG80
SEG81
SEG82
SEG83
SEG84
SEG85
SEG86
SEG87
SEG88
SEG89
SEG90
SEG91
SEG92
SEG93
SEG94
SEG95
Pin no.
Pin name
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
COM7
COM9
COM11
COM13
COM15
COM17
COM19
COM21
COM23
COM25
COM27
COM29
COM31
COM33
COM35
COM37
COM39
COM41
COM43
COM45
COM47
COM49
COM51
COM53
COM55
COM57
COM59
COM61
COM63
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
COM1
COM3
COM5
May 2005
P 40/56
Rev 1.7
SSD1303
SOLOMON
SSD1303
Rev 1.7
P 41/56
May 2005
SSD1303T3
SSD1303T3R1 TAB PACKAGE DIMENSIONS
Solomon Systech
Solomon Systech
May 2005
P 42/56
Rev 1.7
SSD1303
15 SSD1303T6R1 PACKAGE DETAILS
SSD1303T6R1 Pin Assignment
Figure 15 - SSD1303T6R1 pin assignment (Copper view)
Remark:
Use internal clock
VREF is connected to VCC
Support MCU interface: 8-bit 6800/8080 parallel interface and SPI
VSSB, BGGND are connected to VSS
BS0 is connected to VSS
SSD1303
Rev 1.7
P 43/56
May 2005
Solomon Systech
Table 14 - SSD1303T6R1 pin assignment
Pin no.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
Pin name
NC
VCC
VCOMH
IREF
D7
D6
D5
D4
D3
D2
D1
D0
E/RD
R/W
D/C
RES#
CS#
NC
BS2
BS1
VDD
NC
NC
NC
VBREF
RESE
FB
VDDB
GDR
VSS
NC
NC
NC
COM63
COM61
COM59
COM57
COM55
COM53
COM51
COM49
COM47
COM45
COM43
COM41
COM39
COM37
COM35
COM33
COM31
COM29
COM27
COM25
COM23
COM21
COM19
COM17
COM15
COM13
COM11
Solomon Systech
Pin no.
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
Pin name
COM9
COM7
COM5
COM3
COM1
NC
NC
NC
NC
NC
NC
NC
SEG131
SEG130
SEG129
SEG128
SEG127
SEG126
SEG125
SEG124
SEG123
SEG122
SEG121
SEG120
SEG119
SEG118
SEG117
SEG116
SEG115
SEG114
SEG113
SEG112
SEG111
SEG110
SEG109
SEG108
SEG107
SEG106
SEG105
SEG104
SEG103
SEG102
SEG101
SEG100
SEG99
SEG98
SEG97
SEG96
SEG95
SEG94
SEG93
SEG92
SEG91
SEG90
SEG89
SEG88
SEG87
SEG86
SEG85
SEG84
Pin no.
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
Pin name
SEG83
SEG82
SEG81
SEG80
SEG79
SEG78
SEG77
SEG76
SEG75
SEG74
SEG73
SEG72
SEG71
SEG70
SEG69
SEG68
SEG67
SEG66
SEG65
SEG64
SEG63
SEG62
SEG61
SEG60
SEG59
SEG58
SEG57
SEG56
SEG55
SEG54
SEG53
SEG52
SEG51
SEG50
SEG49
SEG48
SEG47
SEG46
SEG45
SEG44
SEG43
SEG42
SEG41
SEG40
SEG39
SEG38
SEG37
SEG36
SEG35
SEG34
SEG33
SEG32
SEG31
SEG30
SEG29
SEG28
SEG27
SEG26
SEG25
SEG24
Pin no.
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
Pin name
SEG23
SEG22
SEG21
SEG20
SEG19
SEG18
SEG17
SEG16
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
SEG9
SEG8
SEG7
SEG6
SEG5
SEG4
SEG3
SEG2
SEG1
SEG0
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
COM0
COM2
COM4
COM6
COM8
COM10
COM12
COM14
COM16
COM18
COM20
COM22
COM24
COM26
COM28
COM30
COM32
COM34
COM36
COM38
COM40
COM42
COM44
COM46
COM48
May 2005
Pin no.
241
242
243
244
245
246
247
248
249
P 44/56
Pin name
COM50
COM52
COM54
COM56
COM58
COM60
COM62
NC
NC
Rev 1.7
SSD1303
SSD1303T6R1 TAB Package Dimensions
6
3T
30
D1
S
S
SSD1303
Rev 1.7
P 45/56
May 2005
Solomon Systech
Solomon Systech
May 2005
P 46/56
Rev 1.7
SSD1303
16 SSD1303T8R1 PACKAGE DETAILS
SSD1303T8R1 Pin Assignment
Remark:
Use internal clock
VREF is connected to VCC
Support MCU interface: 8-bit 6800/8080 parallel interface and SPI
VSSB, BGGND are connected to VSS
BS0 is connected to VSS
SSD1303
Rev 1.7
P 47/56
May 2005
Solomon Systech
Table 15 - SSD1303T8R1 pin assignment
Pin no.
Pin name
Pin no.
Pin name
Pin 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
NC
VSS
GDR
VDDB
FB
RESE
VBREF
GP0
GP1
NC
VDD1
BS1
BS2
NC
CS#
RES#
D/C
R/W
E/RD
D0
D1
D2
D3
D4
D5
D6
D7
IREF
VCOMH
VCC
NC
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
COM8
COM6
COM4
COM2
COM0
NC
NC
NC
NC
NC
NC
NC
NC
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
NC
NC
COM62
COM60
COM58
COM56
COM54
COM52
COM50
COM48
COM46
COM44
COM42
COM40
COM38
COM36
COM34
COM32
COM30
COM28
COM26
COM24
COM22
COM20
COM18
COM16
COM14
COM12
COM10
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
Solomon Systech
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46
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
Pin name
SEG47
SEG48
SEG49
SEG50
SEG51
SEG52
SEG53
SEG54
SEG55
SEG56
SEG57
SEG58
SEG59
SEG60
SEG61
SEG62
SEG63
SEG64
SEG65
SEG66
SEG67
SEG68
SEG69
SEG70
SEG71
SEG72
SEG73
SEG74
SEG75
SEG76
SEG77
SEG78
SEG79
SEG80
SEG81
SEG82
SEG83
SEG84
SEG85
SEG86
SEG87
SEG88
SEG89
SEG90
SEG91
SEG92
SEG93
SEG94
SEG95
Pin no.
Pin name
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
COM7
COM9
COM11
COM13
COM15
COM17
COM19
COM21
COM23
COM25
COM27
COM29
COM31
COM33
COM35
COM37
COM39
COM41
COM43
COM45
COM47
COM49
COM51
COM53
COM55
COM57
COM59
COM61
COM63
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
COM1
COM3
COM5
May 2005
P 48/56
Rev 1.7
SSD1303
SSD1303T8R1 TAB Package Dimensions
SSD1303
Rev 1.7
P 49/56
May 2005
Solomon Systech
Solomon Systech
May 2005
P 50/56
Rev 1.7
SSD1303
17 SSD1303T9R1 PACKAGE DETAILS
SSD1303T9R1 Pin Assignment
Figure 16 - SSD1303T9R1 pin assignment (Copper view)
Remark:
Use internal clock
VREF is connected to VCC
Support MCU interface: 8-bit 6800/8080 parallel interface and SPI
VSSB, BGGND are connected to VSS
BS0 is connected to VSS
SSD1303
Rev 1.7
P 51/56
May 2005
Solomon Systech
Table 16 - SSD1303T9R1 pin assignment
Pin
No.
Pin
name
Pin
No.
Pin
name
Pin
No.
Pin
name
Pin
No.
Pin
name
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
NC
VCC
VCOMH
IREF
D7
D6
D5
D4
D3
D2
D1
D0
E
R/W
D/C
RES
CS#
NC
BS2
BS1
VDD1
NC
GPIO1
GPIO0
VBREF
RESE
FB
VDDB
GDR
VSS
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
COM9
COM7
COM5
COM3
COM1
NC
NC
NC
NC
NC
NC
NC
NC
SEG127
SEG126
SEG125
SEG124
SEG123
SEG122
SEG121
SEG120
SEG119
SEG118
SEG117
SEG116
SEG115
SEG114
SEG113
SEG112
SEG111
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
SEG80
SEG79
SEG78
SEG77
SEG76
SEG75
SEG74
SEG73
SEG72
SEG71
SEG70
SEG69
SEG68
SEG67
SEG66
SEG65
SEG64
SEG63
SEG62
SEG61
SEG60
SEG59
SEG58
SEG57
SEG56
SEG55
SEG54
SEG53
SEG52
SEG51
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
COM6
COM8
COM10
COM12
COM14
COM16
COM18
COM20
COM22
COM24
COM26
COM28
COM30
COM32
COM34
COM36
COM38
COM40
COM42
COM44
COM46
COM48
COM50
COM52
COM54
COM56
COM58
COM60
COM62
NC
31
NC
91
SEG110
151
SEG50
211
NC
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
NC
NC
COM63
COM61
COM59
COM57
COM55
COM53
COM51
COM49
COM47
COM45
COM43
COM41
COM39
COM37
COM35
COM33
COM31
COM29
COM27
COM25
COM23
COM21
COM19
COM17
COM15
COM13
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
SEG109
SEG108
SEG107
SEG106
SEG105
SEG104
SEG103
SEG102
SEG101
SEG100
SEG99
SEG98
SEG97
SEG96
SEG95
SEG94
SEG93
SEG92
SEG91
SEG90
SEG89
SEG88
SEG87
SEG86
SEG85
SEG84
SEG83
SEG82
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
SEG49
SEG48
SEG47
SEG46
SEG45
SEG44
SEG43
SEG42
SEG41
SEG40
SEG39
SEG38
SEG37
SEG36
SEG35
SEG34
SEG33
SEG32
NC
NC
NC
NC
NC
NC
NC
NC
COM0
COM2
60
COM11
120
SEG81
180
COM4
Solomon Systech
May 2005
P 52/56
Rev 1.7
SSD1303
SSD1303T9R1 TAB Package Dimensions
S
SSD1303
Rev 1.7
P 53/56
May 2005
03
13
D
S
T9
Solomon Systech
Solomon Systech
May 2005
P 54/56
Rev 1.7
SSD1303
18 SSD1303Z PACKAGE DETAILS
DIE TRAY DIMENSIONS
SSD1303
Rev 1.7
P 55/56
May 2005
Solomon Systech
Solomon Systech reserves the right to make changes without further notice to any products herein. Solomon Systech makes no warranty,
representation or guarantee regarding the suitability of its products for any particular purpose, nor does Solomon Systech assume any liability arising
out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or
incidental damages. “Typical” parameters can and do vary in different applications. All operating parameters, including “Typicals” must be validated
for each customer application by customer’s technical experts. Solomon Systech does not convey any license under its patent rights nor the rights of
others. Solomon Systech products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the
body, or other applications intended to support or sustain life, or for any other application in which the failure of the Solomon Systech product could
create a situation where personal injury or death may occur. Should Buyer purchase or use Solomon Systech products for any such unintended or
unauthorized application, Buyer shall indemnify and hold Solomon Systech and its offices, employees, subsidiaries, affiliates, and distributors
harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal
injury or death associated with such unintended or unauthorized use, even if such claim alleges that Solomon Systech was negligent regarding the
design or manufacture of the part.
http://www.solomon-systech.com
Solomon Systech
May 2005
P 56/56
Rev 1.7
SSD1303