UPD160040BN-XXX [NEC]
384-OUTPUT TFT-LCD SOURCE DRIVER; 384输出TFT -LCD源极驱动器型号: | UPD160040BN-XXX |
厂家: | NEC |
描述: | 384-OUTPUT TFT-LCD SOURCE DRIVER |
文件: | 总19页 (文件大小:153K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
DATA SHEET
MOS INTEGRATED CIRCUIT
µPD160040B
384-OUTPUT TFT-LCD SOURCE DRIVER
(COMPATIBLE WITH 256-GRAY SCALE)
DESCRIPTION
The µPD160040B is a source driver for TFT-LCDs capable of dealing with displays with 256-gray scale. Data input
is based on digital input configured as 8 bits by 6 dots (2 pixels), which can realize a full-color display of 16,777,216
colors by output of 256 values γ -corrected by an internal D/A converter and 8-by-2 external power modules.
Because the output dynamic range is as large as VSS2 + 0.2 V to VDD2 – 0.2 V, level inversion operation of the LCD’s
common electrode is rendered unnecessary. Also, to be able to deal with dot-line inversion, n-line inversion and
column line inversion when mounted on a single side, this source driver is equipped with a built-in 8-bit D/A converter
circuit whose odd output pins and even output pins respectively output gray-scale voltage of differing polarity.
FEATURES
• CMOS level input
• 384 outputs
• Input of 8 bits (gray scale data) by 6 dots
• Capable of outputting 256 values by means of 8-by-2 external power modules (16 units) and a D/A converter
• Logic power supply voltage (VDD1): 2.5 to 3.6 V
• Driver power supply voltage (VDD2): 12.5 to 15.5 V (switchable, VSEL)
• Output dynamic range: VSS2 + 0.2 V to VDD2 – 0.2 V
• High-speed data transfer: fCLK. = 55 MHz MAX. (internal data transfer speed when operating at 3.0 V ≤ VDD1 ≤ 3.6 V)
fCLK. = 40 MHz MAX. (internal data transfer speed when operating at 2.5 V ≤ VDD1 < 3.0 V)
• Apply for dot-line inversion, n-line inversion and column line inversion
• Output voltage polarity inversion function (POL)
• Output inversion function (POL21, POL 22)
• Output reset control is possible (MODE)
• Trough-rate control is possible (SRC)
• Output resistance control is possible (ORC)
• Single bank arrangement is possible (Loaded with slim TCP)
ORDERING INFORMATION
Part Number
Package
µPD160040BN-xxx
TCP (TAB package)
Remark The TCP’s external shape is customized. To order the required shape, so please contact one of our sales
representatives.
The information in this document is subject to change without notice. Before using this document, please
confirm that this is the latest version.
Not all products and/or types are available in every country. Please check with an NEC Electronics
sales representative for availability and additional information.
The mark ★ shows major revised points.
Document No. S15953EJ2V0DS00 (2nd edition)
Date Published January 2003 NS CP (K)
Printed in Japan
2001
µPD160040B
1. BLOCK DIAGRAM
STHR
STHL
R,/L
CLK
V
V
DD1
64-bit bidirectional shift register
SS1
STB
C1
C2
C63
C64
MODE
D00-D07
D
D
D
D
D
10-D17
20-D27
30-D37
40-D47
50-D57
Data register
POL21
POL22
Latch
POL
VDD2
Level shifter
D/A converter
V
SS2
V0-V15
V
SEL
Voltage follower output
SRC
ORC
Input
TEST
S
1
S
2
S
3
S
384
Remark /xxx indicates active low signal.
2. RELATIONSHIP BETWEEN OUTPUT CIRCUIT AND D/A CONVERTER
S
1
S
2
S
383
S
384
V
V
V
0
7
8
8
8
Multi-
8-bit D/A converter
plexer
V
15
POL
2
Data Sheet S15953EJ2V0DS
µPD160040B
3. PIN CONFIGURATION (µPD160040BN-xxx) (Copper Foil Surface, Face-up)
S384
S383
S382
STHL
D57
D56
:
D51
D50
D47
D46
:
D41
D40
D37
D36
:
D31
D30
SRC
ORC
VSEL
VDD1
R,/L
V15
V14
V13
V12
V11
V10
V9
V8
VDD2
VSS2
Copper Foil
Surface
7
V
V
V
V
V
V
V
V
6
5
4
3
2
1
0
SS1
V
MODE
TEST
CLK
STB
POL
POL22
POL21
27
D
26
D
:
21
D
20
D
17
D
16
D
:
11
D
10
D
07
D
06
D
:
01
3
D
S
S
00
2
D
STHR
S1
Remark This figure does not specify the TCP package.
3
Data Sheet S15953EJ2V0DS
µPD160040B
4. PIN FUNCTIONS
(1/2)
Pin Symbol
Pin Name
I/O
Description
S1 to S384
D00 to D07
D10 to D17
D20 to D27
D30 to D37
D40 to D47
D50 to D57
R,/L
Driver
Output The D/A converted 256-gray-scale analog voltage is output.
Port 1 display data
Port 2 display data
Shift direction control
Input
Input
Input
The display data is input with a width of 48 bits, viz., the gray scale data
(8 bits) by 6 dots (2 pixels).
DX0: LSB, DX7: MSB
The shift direction control pin of shift register. The shift directions of the
shift registers are as follows.
R,/L = H (right shift): STHR (input) →S1→S384→STHL (output)
R,/L = L (left shift) : STHL (input) →S384→S1→STHR (output)
These are the start pulse input/output pins when connected in cascade.
Loading of display data starts when a H level is read at the rising edge
of CLK.
STHR
STHL
CLK
Right shift start pulse
Left shift start pulse
Shift clock
I/O
I/O
★
★
A H level should be input at the pulse of one cycle of the clock signal.
If the start pulse input is more than 2 CLK, the first 1 CLK of the H-level
input is valid.
For right shift, STHR is input and STHL is output.
For left shift, STHL is input and STHR is output.
Input
The shift clock input pin of shift register. The display data is loaded into
the data register at the rising edge.
When 66 clock pulses are input after input of the start pulse, input of
display data is halted automatically. The contents of the shift register
are cleared at the STB’s rising edge.
STB
Latch
Input
The contents of the data register are transferred to the latch circuit at
the rising edge. In addition, at the falling edge, the gray scale voltage is
supplied to the driver. It is necessary to ensure input of one pulse per
horizontal period.
SRC
ORC
POL
Through rate control
Output resistance control
Polarity input
Input
Input
Input
SRC = H: High through rate mode (large current consumption)
SRC = L: Low through rate mode (small current consumption)
SRC is pulled up to the VDD1 in the IC.
ORC = H: Low output resistance mode
ORC = L: High output resistance mode
ORC is pulled up to the VDD1 in the IC.
POL = L: The S2n−1 output uses V0-V7 as the reference supply. The S2n
output uses V8-V15 as the reference supply.
POL = H: The S2n−1 output uses V8-V15 as the reference supply. The S2n
output uses V0-V7 as the reference supply.
S2n−1 indicates the odd output and S2n indicates the even output. Input
of the POL signal is allowed the setup time (tPOL–STB) with respect to
STB’s rising edge.
When it switches such as POL = H→L or L→H, all output pins are
output reset during STB = H. When it does not switch, all output pins
become Hi-Z (high impedance) during STB = H. Refer to 7.
RELATIONSHIP BETWEEN MODE, STB, SRC, ORC, POL, AND
OUTPUT WAVEFORM for details.
4
Data Sheet S15953EJ2V0DS
µPD160040B
(2/2)
Pin Symbol
MODE
Pin Name
I/O
Description
MODE = H or open: Output reset
Output reset control
Input
MODE = L: No output reset
MODE is pulled up to the VDD1 in the IC.
POL21,
POL22
Data inversion
Input
Input
−
Select of inversion or no inversion for input data.
POL21: Data inversion or no inversion of Port1.
POL22: Data inversion or no inversion of Port2
POL21, POL22 = H: Data are inverted in the IC.
POL21, POL22 = L: Data are not inverted in the IC.
VSEL
Driver voltage select
The driver voltage can be switched by controlling the stationary bias
current of the output amplifier via VSEL.
VSEL = H: VDD2 = 12.5 to (14.0 V) (large bias current)
VSEL = L or open: VDD2 = (14.0 V) to 15.5 V (small bias current)
LPC is pulled down to the VSS1 in the IC.
V0-V15
γ -corrected power supplies
Input the γ -corrected power supplies from outside by using operational
amplifier. During the gray scale voltage output, be sure to keep the gray
scale level power supply at a constant level. Make sure to maintain the
following relationships.
VDD2 – 0.2 V ≥ V0 > V1 > V2 > ... ..., > V6 > V7 ≥ 0.5 VDD2 + 0.5 V
0.5 VDD2 – 0.5 V ≥ V8 > V9 > V10 > ... ..., > V14 > V15 ≥ 0.5 VSS2 + 0.2 V
Normally, set the TEST pin to H level or leave open.
This pin is pulled up to VDD1 in the IC.
TEST
Test
Input
VDD1
VDD2
VSS1
VSS2
Logic power supply
Driver power supply
Logic ground
−
−
−
−
2.5 to 3.6 V
12.5 to 15.5 V
Grounding
Driver ground
Grounding
Cautions 1. The power start sequence must be VDD1, logic input, and VDD2 & V0-V15 in that order.
Reverse this sequence to shut down.
2. To stabilize the supply voltage, please be sure to insert a 0.47 µF bypass capacitor between
VDD1-VSS1 and VDD2-VSS2. Furthermore, for increased precision of the D/A converter,
insertion of a bypass capacitor of about 0.1 µF is also advised between the γ-corrected
power supply terminals (V0, V1, V2,....., V15) and VSS2.
5
Data Sheet S15953EJ2V0DS
µPD160040B
5. RELATIONSHIP BETWEEN INPUT DATA AND OUTPUT VOLTAGE VALUE
The µPD160040B incorporates a 8-bit D/A converter whose odd output pins and even output pins output
respectively gray scale voltages of differing polarity with respect to the LCD’s counter electrode voltage. The D/A
converter consists of ladder resistors and switches.
The ladder resistors (r0 to r254) are designed so that the ratio of LCD panel (γ -compensated voltages to V0’-V255’ and
V0”-V255” is almost equivalent as shown in Figure 5−2. For the 2 sets of eight γ -compensated power supplies, V0-V7
and V8-V15, respectively, input gray scale voltages of the same polarity with respect to the 0.5 VDD2.
Figure 5−1 shows the relationship between the driving voltages such as liquid-crystal driving voltages VDD2, VSS2 and
0.5 VDD2, and γ -corrected voltages V0-V15 and the input data. Be sure to maintain the voltage relationships below.
VDD2 – 0.2 V ≥ V0 > V1 > V2 > V3 > V4 > V5 > V6 > V7 ≥ 0.5 VDD2 + 0.5 V
0.5 VDD2 – 0.5 V ≥ V8 > V9 > V10 > V11 > V12 > V13 > V14 > V15 ≥ 0.5 VSS2 + 0.2 V
Figures 5−2 and 5−3 show the relation ship between the input data and the output voltage and the resistance values
of the resistor strings.
Figure 5−1. Relationship between Input Data and γ -corrected Power Supplies
★
V
DD2
0.2 V
V
V
V
0
1
2
32
32
64
V
V
3
4
64
32
16
V
V
5
6
15
V
7
0.5 V
0.5 VDD2
0.5 V
V
V
8
15
9
16
32
V
10
V
11
64
V
12
64
32
32
V
V
V
13
14
15
0.2 V
V
SS2
00 0F 1F
3F
7F
BF
DF
FF
Input Data (HEX)
6
Data Sheet S15953EJ2V0DS
µPD160040B
Figure 5−2. γ-Corrected Voltages and Ladder Resistors Ratio
rn
Ratio 1 Ratio 2 Value
18
rn
Ratio 1 Ratio 2 Value
42
rn
Ratio 1 Ratio 2 Value
34
rn
Ratio 1 Ratio 2 Value
40
V
0
V
V
V
255
254
253
’
’
’
V
8
V
V
V
0
1
2
’’
’’
’’
r0
1.00
1.11
1.33
1.44
1.67
1.89
2.00
2.11
2.22
2.44
2.56
2.89
3.11
3.22
3.44
3.78
3.78
3.89
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
3.89
3.89
3.89
3.89
3.89
3.89
3.89
3.78
3.67
3.67
3.67
3.67
3.56
3.56
3.56
3.44
3.44
3.33
3.22
3.11
2.89
2.78
2.78
2.67
2.44
2.33
2.33
2.33
2.33
2.33
2.33
2.33
2.33
2.33
0.0014
0.0015
0.0018
0.0020
0.0023
0.0026
0.0028
0.0029
0.0031
0.0034
0.0035
0.0040
0.0043
0.0045
0.0048
0.0052
0.0052
0.0054
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0055
0.0054
0.0054
0.0054
0.0054
0.0054
0.0054
0.0054
0.0052
0.0051
0.0051
0.0051
0.0051
0.0049
0.0049
0.0049
0.0048
0.0048
0.0046
0.0045
0.0043
0.0040
0.0038
0.0038
0.0037
0.0034
0.0032
0.0032
0.0032
0.0032
0.0032
0.0032
0.0032
0.0032
0.0032
r65
2.33
2.22
2.11
2.00
2.00
2.00
1.89
2.00
2.00
2.00
2.00
2.11
2.22
2.33
2.33
2.33
2.22
2.22
2.22
2.22
2.11
2.11
2.11
2.00
2.00
1.89
1.78
1.78
1.78
1.89
1.89
1.89
1.89
1.78
1.78
1.78
1.78
1.67
1.56
1.56
1.56
1.56
1.56
1.44
1.44
1.44
1.44
1.44
1.44
1.56
1.67
1.67
1.78
1.89
1.89
1.89
1.89
2.00
2.00
2.00
2.00
2.00
2.00
2.00
2.00
0.0032
0.0031
0.0029
0.0028
0.0028
0.0028
0.0026
0.0028
0.0028
0.0028
0.0028
0.0029
0.0031
0.0032
0.0032
0.0032
0.0031
0.0031
0.0031
0.0031
0.0029
0.0029
0.0029
0.0028
0.0028
0.0026
0.0025
0.0025
0.0025
0.0026
0.0026
0.0026
0.0026
0.0025
0.0025
0.0025
0.0025
0.0023
0.0022
0.0022
0.0022
0.0022
0.0022
0.0020
0.0020
0.0020
0.0020
0.0020
0.0020
0.0022
0.0023
0.0023
0.0025
0.0026
0.0026
0.0026
0.0026
0.0028
0.0028
0.0028
0.0028
0.0028
0.0028
0.0028
0.0028
r130
r131
r132
r133
r134
r135
r136
r137
r138
r139
r140
r141
r142
r143
r144
r145
r146
r147
r148
r149
r150
r151
r152
r153
r154
r155
r156
r157
r158
r159
r160
r161
r162
r163
r164
r165
r166
r167
r168
r169
r170
r171
r172
r173
r174
r175
r176
r177
r178
r179
r180
r181
r182
r183
r184
r185
r186
r187
r188
r189
r190
r191
r192
r193
r194
1.89
1.89
1.78
1.78
1.78
1.78
1.78
1.78
1.78
1.78
1.78
1.78
1.78
1.67
1.67
1.67
1.67
1.67
1.67
1.67
1.67
1.67
1.67
1.78
1.78
1.78
1.78
1.89
1.89
1.89
1.89
1.89
1.89
1.89
1.89
1.89
1.89
2.00
2.11
2.11
2.11
2.11
2.22
2.22
2.22
2.22
2.22
2.22
2.11
2.11
2.00
2.00
2.00
2.00
2.00
2.00
2.00
2.11
2.22
2.22
2.22
2.22
2.22
2.22
2.22
0.0026
0.0026
0.0025
0.0025
0.0025
0.0025
0.0025
0.0025
0.0025
0.0025
0.0025
0.0025
0.0025
0.0023
0.0023
0.0023
0.0023
0.0023
0.0023
0.0023
0.0023
0.0023
0.0023
0.0025
0.0025
0.0025
0.0025
0.0026
0.0026
0.0026
0.0026
0.0026
0.0026
0.0026
0.0026
0.0026
0.0026
0.0028
0.0029
0.0029
0.0029
0.0029
0.0031
0.0031
0.0031
0.0031
0.0031
0.0031
0.0029
0.0029
0.0028
0.0028
0.0028
0.0028
0.0028
0.0028
0.0028
0.0029
0.0031
0.0031
0.0031
0.0031
0.0031
0.0031
0.0031
r195
r196
r197
r198
r199
r200
r201
r202
r203
r204
r205
r206
r207
r208
r209
r210
r211
r212
r213
r214
r215
r216
r217
r218
r219
r220
r221
r222
r223
r224
r225
r226
r227
r228
r229
r230
r231
r232
r233
r234
r235
r236
r237
r238
r239
r240
r241
r242
r243
r244
r245
r246
r247
r248
r249
r250
2.22
2.22
2.22
2.22
2.22
2.22
2.22
2.33
2.44
2.44
2.56
2.56
2.56
2.78
2.78
2.78
2.78
2.89
2.89
2.89
2.89
2.89
3.00
3.00
3.00
3.00
3.00
3.00
3.11
3.11
3.22
3.22
3.44
3.56
3.67
3.78
3.78
3.78
3.89
4.00
4.22
4.44
4.56
4.56
4.78
4.78
4.89
5.11
5.44
5.89
6.22
6.56
6.78
7.44
8.11
9.56
0.0031
0.0031
0.0031
0.0031
0.0031
0.0031
0.0031
0.0032
0.0034
0.0034
0.0035
0.0035
0.0035
0.0038
0.0038
0.0038
0.0038
0.0040
0.0040
0.0040
0.0040
0.0040
0.0042
0.0042
0.0042
0.0042
0.0042
0.0042
0.0043
0.0043
0.0045
0.0045
0.0048
0.0049
0.0051
0.0052
0.0052
0.0052
0.0054
0.0055
0.0058
0.0062
0.0063
0.0063
0.0066
0.0066
0.0068
0.0071
0.0075
0.0082
0.0086
0.0091
0.0094
0.0103
0.0112
0.0132
0.0151
0.0169
0.0206
0.0308
r
r
r
254
253
252
r
r
r
0
1
2
20
24
26
30
34
36
38
40
44
46
52
56
58
62
68
68
70
72
72
72
72
72
72
72
72
72
72
72
72
72
70
70
70
70
70
70
70
68
66
66
66
66
64
64
64
62
62
60
58
56
52
50
50
48
44
42
42
42
42
42
42
42
42
42
40
38
36
36
36
34
36
36
36
36
38
40
42
42
42
40
40
40
40
38
38
38
36
36
34
32
32
32
34
34
34
34
32
32
32
32
30
28
28
28
28
28
26
26
26
26
26
26
28
30
30
32
34
34
34
34
36
36
36
36
36
36
36
36
34
32
32
32
32
32
32
32
32
32
32
32
30
30
30
30
30
30
30
30
30
30
32
32
32
32
34
34
34
34
34
34
34
34
34
34
36
38
38
38
38
40
40
40
40
40
40
38
38
36
36
36
36
36
36
36
38
40
40
40
40
40
40
40
40
40
r1
r66
r2
r67
40
r3
r68
40
r4
r69
40
r5
r70
40
r6
r71
42
r7
r72
44
r8
r73
44
r9
r74
r224
r223
r222
r221
r13
r14
r15
r16
46
r10
r11
r12
r13
r14
r15
r16
r17
r18
r19
r20
r21
r22
r23
r24
r25
r26
r27
r28
r29
r30
r31
r32
r33
r34
r35
r36
r37
r38
r39
r40
r41
r42
r43
r44
r45
r46
r47
r48
r49
r50
r51
r52
r53
r54
r55
r56
r57
r58
r59
r60
r61
r62
r63
r64
r75
V
V
V
224’
223’
222
’
V14’’
V15’’
V16’’
46
r76
46
r77
V
1
V9
50
r78
50
r79
50
r80
50
r81
52
r82
52
r83
52
r84
52
r85
52
r86
54
r87
54
r88
54
r89
54
r90
54
r91
54
r92
56
r93
56
r94
58
r95
58
r96
r16
r15
r14
r13
r221
r222
r223
r224
62
r97
V
V
V
16’
15’
14
’
V222’’
V223’’
V224’’
64
r98
66
r99
V
6
V14
68
r100
r101
r102
r103
r104
r105
r106
r107
r108
r109
r110
r111
r112
r113
r114
r115
r116
r117
r118
r119
r120
r121
r122
r123
r124
r125
r126
r127
r128
r129
68
68
70
72
76
80
82
82
86
86
r2
r1
r0
r252
r253
r254
88
V
V
2
’
’
V
V
253’’
254’’
92
98
1
106
112
118
122
134
146
172
196
220
268
400
13004
18
V
7
V15
V
0’
V
255’’
r251 10.89
r252 12.22
r253 14.89
r254 22.22
Total resistance
Minimum resistance value
Remark The resistance ratio1 is a relative ratio in the case of setting the minimum resistance value to 1.
The resistance ratio2 is a relative ratio in the case of setting the total resistance to 1.
7
Data Sheet S15953EJ2V0DS
µPD160040B
Figure 5−3. Relationship between Input Data and Output Voltage (POL21, POL22 = L) (1/2)
(Output voltage 1) VDD2 – 0.2 V ≥ V0 > V1 > V2 > V3 > V4 > V5 > V6 > V7 ≥ 0.5 VDD2 + 0.5 V
★
Output voltage1
Output voltage1
Output voltage1
Output voltage1
Data
00H
01H
02H
03H
04H
05H
06H
07H
08H
09H
0AH
0BH
0CH
0DH
0EH
0FH
10H
11H
12H
13H
14H
15H
16H
17H
18H
19H
1AH
1BH
1CH
1DH
1EH
1FH
20H
21H
22H
23H
24H
25H
26H
27H
28H
29H
2AH
2BH
2CH
2DH
2EH
2FH
30H
31H
32H
33H
34H
35H
36H
37H
38H
39H
3AH
3BH
3CH
3DH
3EH
3FH
Data
40H
41H
42H
43H
44H
45H
46H
47H
48H
49H
4AH
4BH
4CH
4DH
4EH
4FH
50H
51H
52H
53H
54H
55H
56H
57H
58H
59H
5AH
5BH
5CH
5DH
5EH
5FH
60H
61H
62H
63H
64H
65H
66H
67H
68H
69H
6AH
6BH
6CH
6DH
6EH
6FH
70H
71H
72H
73H
74H
75H
76H
77H
78H
79H
7AH
7BH
7CH
7DH
7EH
7FH
Data
80H
81H
82H
83H
84H
85H
86H
87H
88H
89H
8AH
8BH
8CH
8DH
8EH
8FH
90H
91H
92H
93H
94H
95H
96H
97H
98H
99H
9AH
9BH
9CH
9DH
9EH
9FH
A0H
A1H
A2H
A3H
A4H
A5H
A6H
A7H
A8H
A9H
AAH
ABH
ACH
ADH
AEH
AFH
B0H
B1H
B2H
B3H
B4H
B5H
B6H
B7H
B8H
B9H
BAH
BBH
BCH
BDH
BEH
BFH
Data
C0H
C1H
C2H
C3H
C4H
C5H
C6H
C7H
C8H
C9H
CAH
CBH
CCH
CDH
CEH
CFH
D0H
D1H
D2H
D3H
D4H
D5H
D6H
D7H
D8H
D9H
DAH
DBH
DCH
DDH
DEH
DFH
E0H
E1H
E2H
E3H
E4H
E5H
E6H
E7H
E8H
E9H
EAH
EBH
ECH
EDH
EEH
EFH
F0H
F1H
F2H
F3H
F4H
F5H
F6H
F7H
F8H
F9H
FAH
FBH
FCH
FDH
FEH
FFH
V0' V7
V64' V4+(V3-V4) X
V65' V4+(V3-V4) X
42
84
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
V128' V3+(V2-V3) X
V129' V3+(V2-V3) X
36
72
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
V192' V2+(V1-V2) X
V193' V2+(V1-V2) X
40
80
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
V1' V7+(V6-V7) X
V2' V7+(V6-V7) X
V3' V7+(V6-V7) X
V4' V7+(V6-V7) X
18
38
62
88
/
/
/
/
/
/
/
/
/
/
/
/
/
/
584
584
584
584
584
584
584
584
584
584
584
584
584
584
V66' V4+(V3-V4) X 126
V67' V4+(V3-V4) X 166
V68' V4+(V3-V4) X 204
V69' V4+(V3-V4) X 240
V70' V4+(V3-V4) X 276
V71' V4+(V3-V4) X 312
V72' V4+(V3-V4) X 346
V73' V4+(V3-V4) X 382
V74' V4+(V3-V4) X 418
V75' V4+(V3-V4) X 454
V76' V4+(V3-V4) X 490
V77' V4+(V3-V4) X 528
V78' V4+(V3-V4) X 568
V79' V4+(V3-V4) X 610
V80' V4+(V3-V4) X 652
V81' V4+(V3-V4) X 694
V82' V4+(V3-V4) X 734
V83' V4+(V3-V4) X 774
V84' V4+(V3-V4) X 814
V85' V4+(V3-V4) X 854
V86' V4+(V3-V4) X 892
V87' V4+(V3-V4) X 930
V88' V4+(V3-V4) X 968
V89' V4+(V3-V4) X 1004
V90' V4+(V3-V4) X 1040
V91' V4+(V3-V4) X 1074
V92' V4+(V3-V4) X 1106
V93' V4+(V3-V4) X 1138
V94' V4+(V3-V4) X 1170
V95' V4+(V3-V4) X 1204
V96' V4+(V3-V4) X 1238
V97' V4+(V3-V4) X 1272
V98' V4+(V3-V4) X 1306
V99' V4+(V3-V4) X 1338
V100' V4+(V3-V4) X 1370
V101' V4+(V3-V4) X 1402
V102' V4+(V3-V4) X 1434
V103' V4+(V3-V4) X 1464
V104' V4+(V3-V4) X 1492
V105' V4+(V3-V4) X 1520
V106' V4+(V3-V4) X 1548
V107' V4+(V3-V4) X 1576
V108' V4+(V3-V4) X 1604
V109' V4+(V3-V4) X 1630
V110' V4+(V3-V4) X 1656
V111' V4+(V3-V4) X 1682
V112' V4+(V3-V4) X 1708
V113' V4+(V3-V4) X 1734
V114' V4+(V3-V4) X 1760
V115' V4+(V3-V4) X 1788
V116' V4+(V3-V4) X 1818
V117' V4+(V3-V4) X 1848
V118' V4+(V3-V4) X 1880
V119' V4+(V3-V4) X 1914
V120' V4+(V3-V4) X 1948
V121' V4+(V3-V4) X 1982
V122' V4+(V3-V4) X 2016
V123' V4+(V3-V4) X 2052
V124' V4+(V3-V4) X 2088
V125' V4+(V3-V4) X 2124
V126' V4+(V3-V4) X 2160
V127' V3
V130' V3+(V2-V3) X 108
V131' V3+(V2-V3) X 142
V132' V3+(V2-V3) X 176
V133' V3+(V2-V3) X 208
V134' V3+(V2-V3) X 240
V135' V3+(V2-V3) X 272
V136' V3+(V2-V3) X 304
V137' V3+(V2-V3) X 336
V138' V3+(V2-V3) X 368
V139' V3+(V2-V3) X 400
V140' V3+(V2-V3) X 432
V141' V3+(V2-V3) X 464
V142' V3+(V2-V3) X 496
V143' V3+(V2-V3) X 528
V144' V3+(V2-V3) X 558
V145' V3+(V2-V3) X 588
V146' V3+(V2-V3) X 618
V147' V3+(V2-V3) X 648
V148' V3+(V2-V3) X 678
V149' V3+(V2-V3) X 708
V150' V3+(V2-V3) X 738
V151' V3+(V2-V3) X 768
V152' V3+(V2-V3) X 798
V153' V3+(V2-V3) X 828
V154' V3+(V2-V3) X 860
V155' V3+(V2-V3) X 892
V156' V3+(V2-V3) X 924
V157' V3+(V2-V3) X 956
V158' V3+(V2-V3) X 990
V159' V3+(V2-V3) X 1024
V160' V3+(V2-V3) X 1058
V161' V3+(V2-V3) X 1092
V162' V3+(V2-V3) X 1126
V163' V3+(V2-V3) X 1160
V164' V3+(V2-V3) X 1194
V165' V3+(V2-V3) X 1228
V166' V3+(V2-V3) X 1262
V167' V3+(V2-V3) X 1296
V168' V3+(V2-V3) X 1332
V169' V3+(V2-V3) X 1370
V170' V3+(V2-V3) X 1408
V171' V3+(V2-V3) X 1446
V172' V3+(V2-V3) X 1484
V173' V3+(V2-V3) X 1524
V174' V3+(V2-V3) X 1564
V175' V3+(V2-V3) X 1604
V176' V3+(V2-V3) X 1644
V177' V3+(V2-V3) X 1684
V178' V3+(V2-V3) X 1724
V179' V3+(V2-V3) X 1762
V180' V3+(V2-V3) X 1800
V181' V3+(V2-V3) X 1836
V182' V3+(V2-V3) X 1872
V183' V3+(V2-V3) X 1908
V184' V3+(V2-V3) X 1944
V185' V3+(V2-V3) X 1980
V186' V3+(V2-V3) X 2016
V187' V3+(V2-V3) X 2052
V188' V3+(V2-V3) X 2090
V189' V3+(V2-V3) X 2130
V190' V3+(V2-V3) X 2170
V191' V2
V194' V2+(V1-V2) X 120
V195' V2+(V1-V2) X 160
V196' V2+(V1-V2) X 200
V197' V2+(V1-V2) X 240
V198' V2+(V1-V2) X 280
V199' V2+(V1-V2) X 320
V200' V2+(V1-V2) X 360
V201' V2+(V1-V2) X 400
V202' V2+(V1-V2) X 440
V203' V2+(V1-V2) X 482
V204' V2+(V1-V2) X 526
V205' V2+(V1-V2) X 570
V206' V2+(V1-V2) X 616
V207' V2+(V1-V2) X 662
V208' V2+(V1-V2) X 708
V209' V2+(V1-V2) X 758
V210' V2+(V1-V2) X 808
V211' V2+(V1-V2) X 858
V212' V2+(V1-V2) X 908
V213' V2+(V1-V2) X 960
V214' V2+(V1-V2) X 1012
V215' V2+(V1-V2) X 1064
V216' V2+(V1-V2) X 1116
V217' V2+(V1-V2) X 1168
V218' V2+(V1-V2) X 1222
V219' V2+(V1-V2) X 1276
V220' V2+(V1-V2) X 1330
V221' V2+(V1-V2) X 1384
V222' V2+(V1-V2) X 1438
V223' V1
V5' V7+(V6-V7) X 118
V6' V7+(V6-V7) X 152
V7' V7+(V6-V7) X 188
V8' V7+(V6-V7) X 226
V9' V7+(V6-V7) X 266
V10' V7+(V6-V7) X 310
V11' V7+(V6-V7) X 356
V12' V7+(V6-V7) X 408
V13' V7+(V6-V7) X 464
V14' V7+(V6-V7) X 522
V15' V6
V16' V6+(V5-V6) X
68
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
V17' V6+(V5-V6) X 136
V18' V6+(V5-V6) X 206
V19' V6+(V5-V6) X 278
V20' V6+(V5-V6) X 350
V21' V6+(V5-V6) X 422
V22' V6+(V5-V6) X 494
V23' V6+(V5-V6) X 566
V24' V6+(V5-V6) X 638
V25' V6+(V5-V6) X 710
V26' V6+(V5-V6) X 782
V27' V6+(V5-V6) X 854
V28' V6+(V5-V6) X 926
V29' V6+(V5-V6) X 998
V30' V6+(V5-V6) X 1070
V31' V5
V32' V5+(V4-V5) X
70
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
V224' V1+(V0-V1) X
56
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
V33' V5+(V4-V5) X 140
V34' V5+(V4-V5) X 210
V35' V5+(V4-V5) X 280
V36' V5+(V4-V5) X 350
V37' V5+(V4-V5) X 420
V38' V5+(V4-V5) X 490
V39' V5+(V4-V5) X 558
V40' V5+(V4-V5) X 624
V41' V5+(V4-V5) X 690
V42' V5+(V4-V5) X 756
V43' V5+(V4-V5) X 822
V44' V5+(V4-V5) X 886
V45' V5+(V4-V5) X 950
V46' V5+(V4-V5) X 1014
V47' V5+(V4-V5) X 1076
V48' V5+(V4-V5) X 1138
V49' V5+(V4-V5) X 1198
V50' V5+(V4-V5) X 1256
V51' V5+(V4-V5) X 1312
V52' V5+(V4-V5) X 1364
V53' V5+(V4-V5) X 1414
V54' V5+(V4-V5) X 1464
V55' V5+(V4-V5) X 1512
V56' V5+(V4-V5) X 1556
V57' V5+(V4-V5) X 1598
V58' V5+(V4-V5) X 1640
V59' V5+(V4-V5) X 1682
V60' V5+(V4-V5) X 1724
V61' V5+(V4-V5) X 1766
V62' V5+(V4-V5) X 1808
V63' V4
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
V225' V1+(V0-V1) X 112
V226' V1+(V0-V1) X 170
V227' V1+(V0-V1) X 228
V228' V1+(V0-V1) X 290
V229' V1+(V0-V1) X 354
V230' V1+(V0-V1) X 420
V231' V1+(V0-V1) X 488
V232' V1+(V0-V1) X 556
V233' V1+(V0-V1) X 624
V234' V1+(V0-V1) X 694
V235' V1+(V0-V1) X 766
V236' V1+(V0-V1) X 842
V237' V1+(V0-V1) X 922
V238' V1+(V0-V1) X 1004
V239' V1+(V0-V1) X 1086
V240' V1+(V0-V1) X 1172
V241' V1+(V0-V1) X 1258
V242' V1+(V0-V1) X 1346
V243' V1+(V0-V1) X 1438
V244' V1+(V0-V1) X 1536
V245' V1+(V0-V1) X 1642
V246' V1+(V0-V1) X 1754
V247' V1+(V0-V1) X 1872
V248' V1+(V0-V1) X 1994
V249' V1+(V0-V1) X 2128
V250' V1+(V0-V1) X 2274
V251' V1+(V0-V1) X 2446
V252' V1+(V0-V1) X 2642
V253' V1+(V0-V1) X 2862
V254' V1+(V0-V1) X 3130
V255' V0
8
Data Sheet S15953EJ2V0DS
µPD160040B
Figure 5−3. Relationship between Input Data and Output Voltage (POL21, POL22 = L) (2/2)
(Output voltage 2) 0.5 VDD2 – 0.5 V ≥ V8 > V9 > V10 > V11 > V12 > V13 > V14 > V15 ≥ VSS2 + 0.2 V
★
Output voltage2
Output voltage2
Output voltage2
Output voltage2
Data
00H
01H
02H
03H
04H
05H
06H
07H
08H
09H
0AH
0BH
0CH
0DH
0EH
0FH
10H
11H
12H
13H
14H
15H
16H
17H
18H
19H
1AH
1BH
1CH
1DH
1EH
1FH
20H
21H
22H
23H
24H
25H
26H
27H
28H
29H
2AH
2BH
2CH
2DH
2EH
2FH
30H
31H
32H
33H
34H
35H
36H
37H
38H
39H
3AH
3BH
3CH
3DH
3EH
3FH
Data
40H
41H
42H
43H
44H
45H
46H
47H
48H
49H
4AH
4BH
4CH
4DH
4EH
4FH
50H
51H
52H
53H
54H
55H
56H
57H
58H
59H
5AH
5BH
5CH
5DH
5EH
5FH
60H
61H
62H
63H
64H
65H
66H
67H
68H
69H
6AH
6BH
6CH
6DH
6EH
6FH
70H
71H
72H
73H
74H
75H
76H
77H
78H
79H
7AH
7BH
7CH
7DH
7EH
7FH
Data
80H
81H
82H
83H
84H
85H
86H
87H
88H
89H
8AH
8BH
8CH
8DH
8EH
8FH
90H
91H
92H
93H
94H
95H
96H
97H
98H
99H
9AH
9BH
9CH
9DH
9EH
9FH
A0H
A1H
A2H
A3H
A4H
A5H
A6H
A7H
A8H
A9H
AAH
ABH
ACH
ADH
AEH
AFH
B0H
B1H
B2H
B3H
B4H
B5H
B6H
B7H
B8H
B9H
BAH
BBH
BCH
BDH
BEH
BFH
Data
V0" V8
V64" V12+(V13-V12) X 2154
V65" V12+(V13-V12) X 2112
V66" V12+(V13-V12) X 2070
V67" V12+(V13-V12) X 2030
V68" V12+(V13-V12) X 1992
V69" V12+(V13-V12) X 1956
V70" V12+(V13-V12) X 1920
V71" V12+(V13-V12) X 1884
V72" V12+(V13-V12) X 1850
V73" V12+(V13-V12) X 1814
V74" V12+(V13-V12) X 1778
V75" V12+(V13-V12) X 1742
V76" V12+(V13-V12) X 1706
V77" V12+(V13-V12) X 1668
V78" V12+(V13-V12) X 1628
V79" V12+(V13-V12) X 1586
V80" V12+(V13-V12) X 1544
V81" V12+(V13-V12) X 1502
V82" V12+(V13-V12) X 1462
V83" V12+(V13-V12) X 1422
V84" V12+(V13-V12) X 1382
V85" V12+(V13-V12) X 1342
V86" V12+(V13-V12) X 1304
V87" V12+(V13-V12) X 1266
V88" V12+(V13-V12) X 1228
V89" V12+(V13-V12) X 1192
V90" V12+(V13-V12) X 1156
V91" V12+(V13-V12) X 1122
V92" V12+(V13-V12) X 1090
V93" V12+(V13-V12) X 1058
V94" V12+(V13-V12) X 1026
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
2196
V128" V13+(V12-V13) X 2174
V129" V13+(V12-V13) X 2138
V130" V13+(V12-V13) X 2102
V131" V13+(V12-V13) X 2068
V132" V13+(V12-V13) X 2034
V133" V13+(V12-V13) X 2002
V134" V13+(V12-V13) X 1970
V135" V13+(V12-V13) X 1938
V136" V13+(V12-V13) X 1906
V137" V13+(V12-V13) X 1874
V138" V13+(V12-V13) X 1842
V139" V13+(V12-V13) X 1810
V140" V13+(V12-V13) X 1778
V141" V13+(V12-V13) X 1746
V142" V13+(V12-V13) X 1714
V143" V13+(V12-V13) X 1682
V144" V13+(V12-V13) X 1652
V145" V13+(V12-V13) X 1622
V146" V13+(V12-V13) X 1592
V147" V13+(V12-V13) X 1562
V148" V13+(V12-V13) X 1532
V149" V13+(V12-V13) X 1502
V150" V13+(V12-V13) X 1472
V151" V13+(V12-V13) X 1442
V152" V13+(V12-V13) X 1412
V153" V13+(V12-V13) X 1382
V154" V13+(V12-V13) X 1350
V155" V13+(V12-V13) X 1318
V156" V13+(V12-V13) X 1286
V157" V13+(V12-V13) X 1254
V158" V13+(V12-V13) X 1220
V159" V13+(V12-V13) X 1186
V160" V13+(V12-V13) X 1152
V161" V13+(V12-V13) X 1118
V162" V13+(V12-V13) X 1084
V163" V13+(V12-V13) X 1050
V164" V13+(V12-V13) X 1016
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
2210
C0H V192" V14+(V13-V14) X 1452
C1H V193" V14+(V13-V14) X 1412
C2H V194" V14+(V13-V14) X 1372
C3H V195" V14+(V13-V14) X 1332
C4H V196" V14+(V13-V14) X 1292
C5H V197" V14+(V13-V14) X 1252
C6H V198" V14+(V13-V14) X 1212
C7H V199" V14+(V13-V14) X 1172
C8H V200" V14+(V13-V14) X 1132
C9H V201" V14+(V13-V14) X 1092
CAH V202" V14+(V13-V14) X 1052
CBH V203" V14+(V13-V14) X 1010
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
1492
V1" V9+(V8-V9) X
V2" V9+(V8-V9) X
V3" V9+(V8-V9) X
V4" V9+(V8-V9) X
V5" V9+(V8-V9) X
V6" V9+(V8-V9) X
V7" V9+(V8-V9) X
V8" V9+(V8-V9) X
V9" V9+(V8-V9) X
V10" V9+(V8-V9) X
V11" V9+(V8-V9) X
V12" V9+(V8-V9) X
V13" V9+(V8-V9) X
V14" V9+(V8-V9) X
V15" V9
566
546
522
496
466
432
396
358
318
274
228
176
120
62
/
/
/
/
/
/
/
/
/
/
/
/
/
/
584
584
584
584
584
584
584
584
584
584
584
584
584
584
CCH V204" V14+(V13-V14) X
CDH V205" V14+(V13-V14) X
CEH V206" V14+(V13-V14) X
CFH V207" V14+(V13-V14) X
D0H V208" V14+(V13-V14) X
D1H V209" V14+(V13-V14) X
D2H V210" V14+(V13-V14) X
D3H V211" V14+(V13-V14) X
D4H V212" V14+(V13-V14) X
D5H V213" V14+(V13-V14) X
D6H V214" V14+(V13-V14) X
D7H V215" V14+(V13-V14) X
D8H V216" V14+(V13-V14) X
D9H V217" V14+(V13-V14) X
DAH V218" V14+(V13-V14) X
DBH V219" V14+(V13-V14) X
DCH V220" V14+(V13-V14) X
DDH V221" V14+(V13-V14) X
DEH V222" V14+(V13-V14) X
DFH V223" V14
966
922
876
830
784
734
684
634
584
532
480
428
376
324
270
216
162
108
54
V16" V10+(V9-V10) X
V17" V10+(V9-V10) X
V18" V10+(V9-V10) X
V19" V10+(V9-V10) X
V20" V10+(V9-V10) X
V21" V10+(V9-V10) X
V22" V10+(V9-V10) X
V23" V10+(V9-V10) X
V24" V10+(V9-V10) X
V25" V10+(V9-V10) X
V26" V10+(V9-V10) X
V27" V10+(V9-V10) X
V28" V10+(V9-V10) X
V29" V10+(V9-V10) X
V30" V10+(V9-V10) X
V31" V10
1074
1006
936
864
792
720
648
576
504
432
360
288
216
144
72
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
1142
V95" V12+(V13-V12) X
V96" V12+(V13-V12) X
V97" V12+(V13-V12) X
V98" V12+(V13-V12) X
V99" V12+(V13-V12) X
V100" V12+(V13-V12) X
V101" V12+(V13-V12) X
V102" V12+(V13-V12) X
V103" V12+(V13-V12) X
V104" V12+(V13-V12) X
V105" V12+(V13-V12) X
V106" V12+(V13-V12) X
V107" V12+(V13-V12) X
V108" V12+(V13-V12) X
V109" V12+(V13-V12) X
V110" V12+(V13-V12) X
V111" V12+(V13-V12) X
V112" V12+(V13-V12) X
V113" V12+(V13-V12) X
V114" V12+(V13-V12) X
V115" V12+(V13-V12) X
V116" V12+(V13-V12) X
V117" V12+(V13-V12) X
V118" V12+(V13-V12) X
V119" V12+(V13-V12) X
V120" V12+(V13-V12) X
V121" V12+(V13-V12) X
V122" V12+(V13-V12) X
V123" V12+(V13-V12) X
V124" V12+(V13-V12) X
V125" V12+(V13-V12) X
V126" V12+(V13-V12) X
V127" V12
992
958
924
890
858
826
794
762
732
704
676
648
620
592
566
540
514
488
462
436
408
378
348
316
282
248
214
180
144
108
72
V32" V11+(V10-V11) X 1780
V33" V11+(V10-V11) X 1710
V34" V11+(V10-V11) X 1640
V35" V11+(V10-V11) X 1570
V36" V11+(V10-V11) X 1500
V37" V11+(V10-V11) X 1430
V38" V11+(V10-V11) X 1360
V39" V11+(V10-V11) X 1292
V40" V11+(V10-V11) X 1226
V41" V11+(V10-V11) X 1160
V42" V11+(V10-V11) X 1094
V43" V11+(V10-V11) X 1028
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
1850
E0H V224" V15+(V14-V15) X 3474
E1H V225" V15+(V14-V15) X 3418
E2H V226" V15+(V14-V15) X 3360
E3H V227" V15+(V14-V15) X 3302
E4H V228" V15+(V14-V15) X 3240
E5H V229" V15+(V14-V15) X 3176
E6H V230" V15+(V14-V15) X 3110
E7H V231" V15+(V14-V15) X 3042
E8H V232" V15+(V14-V15) X 2974
E9H V233" V15+(V14-V15) X 2906
EAH V234" V15+(V14-V15) X 2836
EBH V235" V15+(V14-V15) X 2764
ECH V236" V15+(V14-V15) X 2688
EDH V237" V15+(V14-V15) X 2608
EEH V238" V15+(V14-V15) X 2526
EFH V239" V15+(V14-V15) X 2444
F0H V240" V15+(V14-V15) X 2358
F1H V241" V15+(V14-V15) X 2272
F2H V242" V15+(V14-V15) X 2184
F3H V243" V15+(V14-V15) X 2092
F4H V244" V15+(V14-V15) X 1994
F5H V245" V15+(V14-V15) X 1888
F6H V246" V15+(V14-V15) X 1776
F7H V247" V15+(V14-V15) X 1658
F8H V248" V15+(V14-V15) X 1536
F9H V249" V15+(V14-V15) X 1402
FAH V250" V15+(V14-V15) X 1256
FBH V251" V15+(V14-V15) X 1084
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
3530
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
V165" V13+(V12-V13) X
V166" V13+(V12-V13) X
V167" V13+(V12-V13) X
V168" V13+(V12-V13) X
V169" V13+(V12-V13) X
V170" V13+(V12-V13) X
V171" V13+(V12-V13) X
V172" V13+(V12-V13) X
V173" V13+(V12-V13) X
V174" V13+(V12-V13) X
V175" V13+(V12-V13) X
V176" V13+(V12-V13) X
V177" V13+(V12-V13) X
V178" V13+(V12-V13) X
V179" V13+(V12-V13) X
V180" V13+(V12-V13) X
V181" V13+(V12-V13) X
V182" V13+(V12-V13) X
V183" V13+(V12-V13) X
V184" V13+(V12-V13) X
V185" V13+(V12-V13) X
V186" V13+(V12-V13) X
V187" V13+(V12-V13) X
V188" V13+(V12-V13) X
V189" V13+(V12-V13) X
V190" V13+(V12-V13) X
V191" V13
982
948
914
878
840
802
764
726
686
646
606
566
526
486
448
410
374
338
302
266
230
194
158
120
80
V44" V11+(V10-V11) X
V45" V11+(V10-V11) X
V46" V11+(V10-V11) X
V47" V11+(V10-V11) X
V48" V11+(V10-V11) X
V49" V11+(V10-V11) X
V50" V11+(V10-V11) X
V51" V11+(V10-V11) X
V52" V11+(V10-V11) X
V53" V11+(V10-V11) X
V54" V11+(V10-V11) X
V55" V11+(V10-V11) X
V56" V11+(V10-V11) X
V57" V11+(V10-V11) X
V58" V11+(V10-V11) X
V59" V11+(V10-V11) X
V60" V11+(V10-V11) X
V61" V11+(V10-V11) X
V62" V11+(V10-V11) X
V63" V11
964
900
836
774
712
652
594
538
486
436
386
338
294
252
210
168
126
84
FCH V252" V15+(V14-V15) X
FDH V253" V15+(V14-V15) X
FEH V254" V15+(V14-V15) X
FFH V255" V15
888
668
400
42
36
40
9
Data Sheet S15953EJ2V0DS
µPD160040B
6. RELATIONSHIP BETWEEN INPUT DATA AND OUTPUT PIN
Data format: 8 bits x 2 RGBs (6 dots)
Input width: 48 bits (2-pixel data)
(1) R,/L = H (right shift)
Output
Data
S1
S2
S3
S4
…
…
S383
S384
D00 to D07
D10 to D17
D20 to D27
D30 to D37
D40 to D47
D50 to D57
(2) R,/L = L (left shift)
Output
Data
S1
S2
S3
S4
…
…
S383
S384
D00 to D07
D10 to D17
D20 to D27
D30 to D37
D40 to D47
D50 to D57
Note
Note
S2n–1
S2n
POL
L
V0-V7
V8-V15
V0-V7
H
V8-V15
Note S2n–1 (odd output), S2n (even output), n = 1, 2, ..., 192.
10
Data Sheet S15953EJ2V0DS
µPD160040B
7. RELATIONSHIP BETWEEN MODE, STB, SRC, ORC, POL, AND OUTPUT WAVEFORM
When MODE = H or open and STB = H, all outputs are reset (short) and the gray-scale voltage is output to LCD in
synchronization with the falling edge of STB.
When MODE = L and STB = H, all outputs became Hi-Z and the gray-scale voltage is output to the LCD in
synchronization with the falling edge of STB.
Also, setting the SRC pin to H level allows the bias current value of the output amplifier to rise temporarily, and
setting the ORC pin to H level allows the output resistance value of the amplifier to lower temporarily.
For the timing and the processing of STB, SRC, or ORC during a high-level period, We recommend a thorough
evaluation of the LCD panel specifications in advance.
(1) MODE = H or open
STB
High through rate period
SRC
Low through rate period
ORC
High output resistance period
Low output resistance period
POL
S2n–1
Voltage selected form V
0
to V
7
Voltage selected form V0 to V7
Voltage selected form V8 to V15
S
2n
Voltage selected form V
Hi-Z
8
to V15
Voltage selected form V8 to V15
Voltage selected form V0 to V7
Hi-Z
Hi-Z
11
Data Sheet S15953EJ2V0DS
µPD160040B
(2) MODE = L
STB
High through rate period
SRC
ORC
Low through rate period
High output resistance period
Low output resistance period
POL
S2n–1
Voltage selected form V0 to V7
Voltage selected form V
8
to V15
Voltage selected form V0 to V7
S
2n
Voltage selected form V8 to V15
Voltage selected form V
0
to V
7
Voltage selected form V8 to V15
Hi-Z
Hi-Z
Hi-Z
12
Data Sheet S15953EJ2V0DS
µPD160040B
8. ELECTRICAL SPECIFICATIONS
Absolute Maximum Ratings (TA = 25°C, VSS1 = VSS2 = 0 V)
Parameter
Symbol
VDD1
Ratings
Unit
V
Logic part supply voltage
Driver part supply voltage
Logic part input voltage
Driver part input voltage
Logic part output voltage
Driver part output voltage
Operating ambient temperature
Storage temperature
–0.5 to + 4.0
VDD2
VI1
–0.5 to + 17.0
–0.5 to VDD1 + 0.5
–0.5 to VDD2 + 0.5
–0.5 to VDD1 + 0.5
–0.5 to VDD2 + 0.5
–10 to + 75
V
V
VI2
V
VO1
VO2
TA
V
V
°C
°C
Tstg
–55 to + 125
Caution Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any
parameter. That is, the absolute maximum ratings are rated values at which the product is on the
verge of suffering physical damage, and therefore the product must be used under conditions that
ensure that the absolute maximum ratings are not exceeded.
Recommended Operating Range (TA = –10 to +75°C, VSS1 = VSS2 = 0 V)
Parameter
Logic part supply voltage
Driver part supply voltage
Symbol
VDD1
Condition
MIN.
2.5
TYP.
MAX.
3.6
Unit
V
VDD2
VSEL = H
12.5
13.0
15.0
(14.0)
V
VSEL = L or open
(14.0)
0.7 VDD1
0
15.5
V
High-level input voltage
Low-level input voltage
γ -corrected voltage
VIH
VDD1
V
VIL
0.3 VDD1
VDD2 − 0.2
0.5 VDD2 − 0.5
VDD2 − 0.2
55
V
V0-V7
V8-V15
VO
0.5 VDD2 + 0.5
0.2
V
V
Driver part output voltage
Clock frequency
0.2
V
fCLK
3.0 V ≤ VDD1 ≤ 3.6 V
2.5 V ≤ VDD1 < 3.0 V
MHz
MHz
40
Remark The value enclosed in parentheses is a reference value.
13
Data Sheet S15953EJ2V0DS
µPD160040B
Electrical Characteristics (TA = –10 to +75°C, VDD1 = 2.5 to 3.6 V, VDD2 = 12.5 to 15.5 V, VSS1 = VSS2 = 0 V)
Parameter
Input leakage current
High-level output voltage
Low-level output voltage
γ -corrected resistance
Driver output current
Symbol
IIL
Condition
MIN.
VDD1 − 0.1
6.5
TYP.
MAX.
Unit
µA
±1.0
VOH
VOL
STHR (STHL), IOH = 0 mA
V
STHR (STHL), IOL = 0 mA
0.1
19.5
−0.40
V
Rγ
VDD2 = 15.0 V, V0-V7 = V8-V15 = 7.0 V
VX = 12.0 V, VOUT = 11.0 V Note1
VX = 1.0 V, VOUT = 2.0 V Note1
TA = 25°C, VSS2 + 1.0 V to VDD2 − 1.0 V
VOUT = 7.0 to 8.0 V Note1
VOUT = 4.0 to 11.0 V Note1
VDD2 = 15.0 V,
13.0
kΩ
mA
mA
mV
mV
mV
mV
mA
IVOH
IVOL
∆VO
0.65
Output voltage deviation
±10
±5
±20
±10
±15
±20
12
Output swing voltage difference ∆VP-P1
VDD1 = 3.3 V,
deviation
∆VP-P2
±7
VOUT = 1.0 to 14.0 V Note1
TA = 25°C
∆VP-P3
±10
1.3
Notes 2, 3
VDD1
Logic part dynamic current
consumption
IDD1
VDD2, with no load Notes 3, 4
Driver part dynamic current
consumption
IDD2
12
30
mA
Notes 1. VX refers to the output voltage of analog output pins S1 to S384.
VOUT refers to the voltage applied to analog output pins S1 to S384
2. fSTB = 64 kHz, fCLK = 54 MHz
3. The TYP. values refer to an all black or all white input pattern. The MAX. Value refers to the measured
values in the dot checkerboard input pattern.
4. Refers to the current consumption per driver when cascades are connected under the assumption of SXGA
single-sided mounting (10 units).
Switching Characteristics (TA = −10 to +75°C, VDD1 = 2.5 to 3.6 V, VDD2 = 12.5 to 15.5 V, VSS1 = VSS2 = 0 V)
Parameter
Symbol
tPLH1
Condition
MIN.
TYP.
MAX.
17
24
5
Unit
ns
ns
µs
µs
µs
µs
pF
Start pulse delay time
CL = 15 pF, 3.0 V ≤ VDD1 ≤ 3.6 V
CL = 15 pF, 2.5 V ≤ VDD1 < 3.0 V
CL = 100 pF, RL = 10 kΩ
Note
Note
Note
Note
tPLH2
tPLH3
tPHL2
tPHL3
CI1
Driver output delay time
Input capacitance
10
5
10
10
logic input, except STHR (STHL),
TA = 25°C
5
CI2
STHR (STHL), TA = 25°C
10
15
pF
Note tPLH2, tPHL2 refer to the arrival time from falling edge of STB to target voltage ±10%
tPLH3, tPHL3 refer to thearrival time from falling edge of STB to target voltage ±0.02 V (condition: VO = 3.0 V ↔12.0 V)
<Test Condition>
★
Measurement
point
RL5
RL3
RL4
RL2
RL1
Output
R
Ln = 2 kΩ
Ln = 20 pF
CL5
CL4
CL2
CL3
CL1
C
GND
14
Data Sheet S15953EJ2V0DS
µPD160040B
Timing Requirements (TA = −10 to +75°C, VDD1 = 2.5 to 3.6 V, VSS1 = 0 V, tr = tf = 5.0 ns)
Parameter
Clock pulse width
Symbol
PWCLK
Condition
3.0 V ≤ VDD1 ≤ 3.6 V
MIN.
18
25
4
TYP.
MAX.
Unit
ns
2.5 V ≤ VDD1 < 3.0 V
3.0 V ≤ VDD1 ≤ 3.6 V
2.5 V ≤ VDD1 < 3.0 V
ns
Clock pulse high period
PWCLK (H)
ns
6
ns
Clock pulse low period
Data setup time
PWCLK (L)
tSETUP1
tHOLD1
4
ns
0
ns
Data hold time
4
ns
Start pulse setup time
Start pulse hold time
POL21, POL22 setup time
POL21, POL22 hold time
STB pulse width
tSETUP2
tHOLD2
tSETUP3
tHOLD3
0
ns
4
ns
0
ns
4
ns
PWSTB
tLDT
1.0
2
µs
Last data timing
CLK
ns
CLK-STB time
tCLK-STB
tSTB-CLK
CLK ↑→ STB↑
4
STB-CLK time
STB ↑→ CLK↑
4
ns
Time between STB and start pulse tSTB-STH
STB ↑→ STHR (STHL) ↑
POL ↑ or ↓→ STB ↑
STB ↓→ POL ↓ or ↑
STB ↑ → SRC ↑
2
CLK
ns
POL-STB time
STB-POL time
STB-SRC time
STB-ORC time
tPOL-STB
tSTB-POL
tSTB-SRC
tSTB-ORC
4
4
ns
0
ns
STB ↑ → ORC ↑
0
ns
★
Remark Unless otherwise specified, the input level is defined to be VIH = 0.7 VDD1, VIL = 0.3 VDD1.
15
Data Sheet S15953EJ2V0DS
PWCLK(L) PWCLK
PWCLK(H)
t
r
tf
1
2
V
V
DD1
SS1
90%
1
2
3
64
65
66
641
642
CLK
10 %
t
STB-CLK
t
CLK-STB
t
SETUP2
tHOLD2
V
V
DD1
SS1
STHR
(1st Dr.)
t
SETUP1
t
HOLD1
tSTB-STH
V
V
DD1
SS1
D
D
373 to
D
D
379 to
D
D
385 to
D
D3840
3835 to
D7 to D12
D1 to D6
D1 to D6
D7 toD12
D
n0 to Dn7
INVALID
INVALID
INVALID
INVALID
378
384
390
t
SETUP3
t
HOLD3
V
V
DD1
SS1
POL21,
POL22
t
PLH1
V
V
DD1
SS1
STHL
(1st Dr.)
t
LDT
PWSTB
V
V
DD1
SS1
STB
t
STB-SRC
t
STB-ORC
V
V
DD1
SS1
SRC, ORC
t
POL-STB
tSTB-POL
V
V
DD1
SS1
POL
t
PLH3
t
PLH2
S
n
µ
µ
(Vx)
t
t
PHL2
PHL3
PWCLK(L) PWCLK
PWCLK(H)
t
r
tf
1
2
V
V
DD1
SS1
90%
1
2
3
64
65
66
641
642
CLK
10 %
t
STB-CLK
t
CLK-STB
t
SETUP2
tHOLD2
V
V
DD1
SS1
STHR
(1st Dr.)
t
SETUP1
t
HOLD1
tSTB-STH
V
V
DD1
SS1
D
D
373 to
D
D
379 to
D
D
385 to
D
D3840
3835 to
D7 to D12
D1 to D6
D1 to D6
D7 toD12
D
n0 to Dn7
INVALID
INVALID
INVALID
INVALID
378
384
390
t
SETUP3
t
HOLD3
V
V
DD1
SS1
POL21,
POL22
t
PLH1
V
V
DD1
SS1
STHL
(1st Dr.)
t
LDT
PWSTB
V
V
DD1
SS1
STB
t
STB-SRC
t
STB-ORC
V
V
DD1
SS1
SRC, ORC
t
POL-STB
tSTB-POL
V
V
DD1
SS1
POL
t
PLH3
Hi-Z
t
PLH2
S
n
µ
µ
(Vx)
t
t
PHL2
PHL3
µPD160040B
9. RECOMMENDED MOUNTING CONDITIONS
The following conditions must be met for mounting conditions of the µPD160040B.
For more details, refer to the Semiconductor Device Mounting Technology Manual (C10535E).
Please consult with our sales offices in case other mounting process is used, or in case the mounting is done under
different conditions.
µPD160040BN-xxx: TCP (TAB Package)
Mounting Condition
Thermocompression
Mounting Method
Soldering
Condition
Heating tool 300 to 350°C, heating for 2 to 3 sec, pressure 100g (per
solder).
ACF
Temporary bonding 70 to 100°C, pressure 3 to 8 kg/cm2, time 3 to 5
sec. Real bonding 165 to 180°C pressure 25 to 45 kg/cm2, time 30 to
40 sec. (When using the anisotropy conductive film SUMIZAC1003 of
Sumitomo Bakelite, Ltd.)
(Adhesive Conductive
Film)
Caution To find out the detailed conditions for mounting the ACF part, please contact the ACF
manufacturing company. Be sure to avoid using two or more mounting methods at a time.
18
Data Sheet S15953EJ2V0DS
µPD160040B
NOTES FOR CMOS DEVICES
1
PRECAUTION AGAINST ESD FOR SEMICONDUCTORS
Note:
Strong electric field, when exposed to a MOS device, can cause destruction of the gate oxide and
ultimately degrade the device operation. Steps must be taken to stop generation of static electricity
as much as possible, and quickly dissipate it once, when it has occurred. Environmental control
must be adequate. When it is dry, humidifier should be used. It is recommended to avoid using
insulators that easily build static electricity. Semiconductor devices must be stored and transported
in an anti-static container, static shielding bag or conductive material. All test and measurement
tools including work bench and floor should be grounded. The operator should be grounded using
wrist strap. Semiconductor devices must not be touched with bare hands. Similar precautions need
to be taken for PW boards with semiconductor devices on it.
2
HANDLING OF UNUSED INPUT PINS FOR CMOS
Note:
No connection for CMOS device inputs can be cause of malfunction. If no connection is provided
to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence
causing malfunction. CMOS devices behave differently than Bipolar or NMOS devices. Input levels
of CMOS devices must be fixed high or low by using a pull-up or pull-down circuitry. Each unused
pin should be connected to VDD or GND with a resistor, if it is considered to have a possibility of
being an output pin. All handling related to the unused pins must be judged device by device and
related specifications governing the devices.
3
STATUS BEFORE INITIALIZATION OF MOS DEVICES
Note:
Power-on does not necessarily define initial status of MOS device. Production process of MOS
does not define the initial operation status of the device. Immediately after the power source is
turned ON, the devices with reset function have not yet been initialized. Hence, power-on does
not guarantee out-pin levels, I/O settings or contents of registers. Device is not initialized until the
reset signal is received. Reset operation must be executed immediately after power-on for devices
having reset function.
19
Data Sheet S15953EJ2V0DS
相关型号:
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