UPD16753N-XXX [NEC]
Liquid Crystal Driver, 384-Segment, MOS;型号: | UPD16753N-XXX |
厂家: | NEC |
描述: | Liquid Crystal Driver, 384-Segment, MOS 驱动 接口集成电路 |
文件: | 总20页 (文件大小:175K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
DATA SHEET
MOS INTEGRATED CIRCUIT
µ
PD16753
384-OUTPUT TFT-LCD SOURCE DRIVER
(COMPATIBLE WITH 256-GRAY SCALES)
DESCRIPTION
The µ PD16753 is a source driver for TFT-LCDs capable of dealing with displays with 256-gray scales. 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.
DD2
SS2
Because the output dynamic range is as large as V
−0.2 V to V
+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 voltages of differing polarity.
Assuring a clock frequency of 40 MHz when driving at 3.0 V, this driver is applicable to XGA-standard TFT-LCD
panels and SXGA TFT-LCD panels.
FEATURES
• CMOS level input
• 384 Outputs
• Input of 8 bits (gradation 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
DD1
• Logic power supply voltage (V ): 3.3 ± 0.3 V
DD2
• Driver power supply voltage (V ): 9.0 V ± 0.5 V
CLK
DD1
• High-speed data transfer: f
= 40 MHz (internal data transfer speed when operating at V
= 3.0 V)
DD2
SS2
• Output dynamic range V
−0.2 V to V
+0.2 V
• Apply for dot-line inversion, n-line inversion and column line inversion
• Output Voltage polarity inversion function (POL)
• Display data inversion function (POL21, POL22)
• Low power control function (LPC)
ORDERING INFORMATION
Part Number
Package
µ PD16753N - ×××
TCP (TAB package)
Remark The TCP’s external shape is customized. To order the required shape, 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 devices/types available in every country. Please check with local NEC representative for
availability and additional information.
Document No. S15630EJ1V0DS00 (1st edition)
Date Published February 2002 NS CP(K)
Printed in Japan
The mark ★ shows major revised points.
2001
©
µPD16753
1. BLOCK DIAGRAM
STHR
R,/L
STHL
V
V
DD1
64-bit bidirectional shift register
CLK
STB
SS1
C1
C2
C63
C64
D00 - D07
D10 - D17
D20 - D27
D30 - D37
D40 - D47
D50 - D57
Data register
POL21
POL22
Latch
POL
V
V
DD2
SS2
Level shifter
V
0
- V15
LPC
D/A converter
Voltage follower output
S
1
S
2
S
3
S
384
Remark /xxx indicates active low signal.
2. RELATIONSHIP BETWEEN OUTPUT CIRCUIT AND D/A CONVERTER
S1
S2
S383
S384
V0
V7
V8
8
8
Multi-
8-bit D/A converter
plexer
V15
POL
2
Data Sheet S15630EJ1V0DS
µPD16753
3. PIN CONFIGURATION (µ PD16753N - xxx)
S384
S383
S382
VSS2
VDD2
V14
V12
V10
V8
V6
V4
V2
V0
R,/L
D50
D51
D52
D53
D54
D55
D56
D57
D40
D41
D42
D43
D44
D45
D46
D47
D30
D31
D32
D33
D34
D35
D36
D37
POL21
POL22
Copper Foil
Surface
POL
STB
STHL
VDD1
CLK
VSS1
LPC
STHR
D20
D21
D22
D23
D24
D25
D26
D27
D10
D11
D12
D13
D14
D15
D16
D17
D00
D01
D02
D03
D04
D05
D06
D07
V1
V3
V5
V7
V9
V11
S3
S2
S1
V13
V15
VDD2
VSS2
Remark This figure does not specify the TCP package.
3
Data Sheet S15630EJ1V0DS
µPD16753
4. PIN FUNCTIONS
(1/2)
Pin Symbol
S1 to S384
D00 to D07
D10 to D17
D20 to D27
D30 to D37
D40 to D47
D50 to D57
R,/L
Pin Name
I/O
O
I
Description
Driver output
The D/A converted 256-gray-scale analog voltage is output.
Display data 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
Shift direction control
input
I
These refer to the start pulse input/output pins when driver ICs are connected
in cascade. The shift directions of the shift registers are as follows.
R,/L = H: STHR input, S1 → S384, STHL output
R,/L = L: STHL input, S384 → S1, STHR output
STHR
STHL
Right shift start pulse
input/output
I/O
I/O
These refer to the start pulse I/O pins when driver ICs are connected in
cascade. Fetching of display data starts when H is read at the rising edge of
CLK.
R,/L = H (right shift): STHR input, STHL output
Left shift start pulse
input/output
R,/L = L (left shift): STHL input, STHR output
A high level should be input as the pulse of one cycle of the clock signal.
If the start pulse input is more then 2CLK, the first 1CLK of the high-level input
is valid
CLK
Shift clock input
I
Refers to the shift register’s shift clock input. At the rising edge ot the 64th
after the start pulse input, the start pulse output reaches the hight level, thus
becoming the start pulse of the next-level driver. If 66th clock pulses are input
after input of the start pulse, input of display data is halted automatically. The
contentsu of the shift register are cleared at the STB’s rising edge.
The contents of the data register are transferred to the latch circuit at the rising
edge. And, 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.
POL = L: The S2n–1 output uses V0 to V7 as the reference supply. The S2n
output uses V8 to V15 as the reference supply.
STB
POL
Latch input
I
I
Polarity input
POL = H: The S2n–1 output uses V8 to V15 as the reference supply. The S2n
output uses V0 to 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.
POL21
POL22
Data inversion input
I
I
Data inversion can invert when display data is loaded.
POL21: Invert/not invert of display data D00 to D07, D10 to D17, D20 to D27.
POL22: Invert/not invert of display data D30 to D37, D40 to D47, D50 to D57.
POL21/22 = H: Data inversion loads display data after inverting it.
POL21/22 = L: Data inversion does not invert input data.
LPC
Low power control
input
The current consumption of VDD2 is lowered by controlling the constant current
source of the output amplifier. This pin is pulled up to the VDD1 power supply
inside the IC.
LPC = L: Normal power mode
LPC = H or Open: Low power mode (the static current consumption of VDD2
reduced to about 2/3 of the normal current consumption.)
4
Data Sheet S15630EJ1V0DS
µPD16753
(2/2)
Pin Symbol
V0 to V15
Pin Name
I/O
Description
γ -corrected power
−
Input the γ -corrected power supplies from outside by using operational amplifier.
supplies
Make sure to maintain the following relationships. During the gray scale voltage
output, be sure to keep the gray scale level power supply at a constant level.
VDD2 –0.2 V ≥ V0 > V1 > V2 > V3 > V4 > V5 > V6 > V7 ≥ 0.5 VDD2
0.5 VDD2 –0.3 ≥ V8 > V9 > V10 > V11 > V12> V13 > V14 > V15 ≥ VSS2 +0.2 V
VDD1
VDD2
VSS1
VSS2
Logic power supply
Driver power supply
Logic ground
−
−
−
−
3.3 V ± 0.3 V
9.0 V ± 0.5 V
Grounding
Driver ground
Grounding
Cautions 1.The power start sequence must be VDD1, logic input, and VDD2 & V0 to V15 in that order.
Reverse this sequence to shut down (Simulaneous power application to VDD2 and V0 to V15 is
possible.).
2.To stabilize the supply voltage, please be sure to insert a 0.1 µF bypass capacitor between
V
DD1-VSS1 and VDD2-VSS2. Furthermore, for increased precision of the D/A converter, insertion of a
bypass capacitor of about 0.01 µF is also advised between the γ -corrected power supply
terminals (V , V , V , ∙∙∙, V15) and VSS2.
0
1
2
5
Data Sheet S15630EJ1V0DS
µPD16753
5. RELATIONSHIP BETWEEN INPUT DATA AND OUTPUT VOLTAGE VALUE
This product 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 (common electrode) voltage. The
D/A converter consists of ladder resistors.
DD2
Figure 5-1 shows the relationship between the driving voltages such as liquid-crystal driving voltages V
and
SS2
V
COM
0
15
, common electrode potential V
, and γ -corrected voltages V to V and the input data.
Be sure to maintain the voltage relationships as follows:
DD2
V
0
1
2
3
4
5
6
7
DD2
–0.2 V ≥ V > V > V > V > V > V > V > V ≥ 0.5 V
DD2
0.5 V
8
9
10
11
12
13
14
15
SS2
–0.3 ≥ V > V > V > V > V > V > V > V ≥ V +0.2 V.
Figures 5−3 and 5−4 show the relationship between the input data and the output voltage. This driver IC is
designed for only single-sided mounting.
Figure 5−1. Relationship between Input Data and γ - corrected Power Supplies
V
DD2
0.2 V
V
0
32
V
V
1
2
32
64
V
3
64
32
V
V
4
5
32
Split interval
32
V
V
6
7
0.5 VDD2
0.3 V
V
V
8
9
V
V
10
11
32
64
V
12
64
32
V
V
13
14
32
V
15
0.2 V
V
SS2
00
20
40
80
C0
E0
FEFF
Input data (HEX)
6
Data Sheet S15630EJ1V0DS
µPD16753
Figure 5−2. γ -corrected Voltages and Ladder Resistors Ratio
V
8
9
V
0
V
V
V
V
0
1
2
3
’
’
’
’
V
255’’
rn
r0
r1
r2
r3
r4
r5
r6
Ratio
16.0
14.5
13.0
11.5
10.0
8.9
7.8
6.8
5.8
4.8
4.8
4.8
3.8
3.8
3.8
3.0
3.0
3.0
2.5
2.5
2.5
2.0
2.0
2.0
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.4
1.4
1.4
1.4
1.4
1.4
1.4
1.4
1.3
1.3
1.3
1.3
1.3
1.3
1.3
1.3
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.1
rn
r64
r65
r66
r67
r68
r69
r70
r71
r72
r73
r74
r75
r76
r77
r78
r79
r80
r81
r82
r83
r84
r85
r86
r87
r88
r89
r90
r91
r92
r93
r94
Ratio
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
rn
Ratio
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.3
1.3
1.3
1.3
1.3
1.3
1.3
1.3
1.4
1.4
1.4
1.4
1.4
1.4
1.4
1.4
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
rn
Ratio
r
r
r
r
0
1
2
3
r128
r129
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
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
r251
r252
r253
r254
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.8
2.8
2.8
3.3
3.3
3.3
3.8
3.8
3.8
4.5
4.5
4.5
5.2
5.2
5.9
5.9
6.6
6.6
7.3
7.3
8.0
8.0
9.0
9.0
10.0
10.0
12.0
12.0
14.0
14.0
r
254
V
V
V
254’’
253’’
r
253
252
r
r7
r8
r9
V
252’’
251’’
r
251
250
V
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
r
r30
r31
r32
r33
V
V
V
31
32
33
’
’
’
V
1
r
r
r
225
V
V
V
225’’
224’’
223’’
224
223
V
10
r222
r95
r96
r97
r98
r99
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
r222
r223
r224
r225
V
V
V
223
224
225
’
’
’
r33
r32
r31
r30
V
5
V
33’’
32’’
V
V
14
V31’’
r251
r252
r253
r254
V
V
V
252
253
254
’
’
’
r2
V2
’’
r
1
0
V
6
7
V
1
’’
r
V
15
V
V
255
’
V
0
’’
Caution There is no connection between V7 and V8 in the chip.
7
Data Sheet S15630EJ1V0DS
µPD16753
Figure 5−3. Relationship between Input Data and Output Voltage (POL21/22 = L)
(Output Voltage 1) VDD2 −0.2 V ≥ V0 > V1 > V2 > V3 > V4 > V
5
> V
6
> V
7
≥ 0.5 VDD2
Data
Output Voltage
V0
Data
40H V64'
Output Voltage
V2
Data
Output Voltage
Data
Output Voltage
00H V0'
01H V1'
02H V2'
03H V3'
04H V4'
05H V5'
06H V6'
07H V7'
08H V8'
09H V9'
80H V128' V3
C0H V192' V4
V1+(V0-V1) X
V1+(V0-V1) X
V1+(V0-V1) X
V1+(V0-V1) X
V1+(V0-V1) X
V1+(V0-V1) X
V1+(V0-V1) X
V1+(V0-V1) X
V1+(V0-V1) X
138.6 /
124.1 /
111.1 /
99.6 /
89.6 /
80.7 /
72.9 /
66.1 /
60.3 /
55.5 /
50.7 /
45.9 /
42.1 /
38.3 /
34.5 /
31.5 /
28.5 /
25.5 /
23 /
154.6 41H V65'
154.6 42H V66'
154.6 43H V67'
154.6 44H V68'
154.6 45H V69'
154.6 46H V70'
154.6 47H V71'
154.6 48H V72'
154.6 49H V73'
154.6 4AH V74'
154.6 4BH V75'
154.6 4CH V76'
154.6 4DH V77'
154.6 4EH V78'
154.6 4FH V79'
154.6 50H V80'
154.6 51H V81'
154.6 52H V82'
154.6 53H V83'
154.6 54H V84'
154.6 55H V85'
154.6 56H V86'
154.6 57H V87'
154.6 58H V88'
154.6 59H V89'
154.6 5AH V90'
154.6 5BH V91'
154.6 5CH V92'
154.6 5DH V93'
154.6 5EH V94'
154.6 5FH V95'
60H V96'
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
V3+(V2-V3) X
63 /
62 /
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56 /
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54 /
53 /
52 /
51 /
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10 /
9 /
64 81H V129' V4+(V3-V4) X
64 82H V130' V4+(V3-V4) X
64 83H V131' V4+(V3-V4) X
64 84H V132' V4+(V3-V4) X
64 85H V133' V4+(V3-V4) X
64 86H V134' V4+(V3-V4) X
64 87H V135' V4+(V3-V4) X
64 88H V136' V4+(V3-V4) X
64 89H V137' V4+(V3-V4) X
64 8AH V138' V4+(V3-V4) X
64 8BH V139' V4+(V3-V4) X
64 8CH V140' V4+(V3-V4) X
64 8DH V141' V4+(V3-V4) X
64 8EH V142' V4+(V3-V4) X
64 8FH V143' V4+(V3-V4) X
64 90H V144' V4+(V3-V4) X
64 91H V145' V4+(V3-V4) X
64 92H V146' V4+(V3-V4) X
64 93H V147' V4+(V3-V4) X
64 94H V148' V4+(V3-V4) X
64 95H V149' V4+(V3-V4) X
64 96H V150' V4+(V3-V4) X
64 97H V151' V4+(V3-V4) X
64 98H V152' V4+(V3-V4) X
64 99H V153' V4+(V3-V4) X
64 9AH V154' V4+(V3-V4) X
64 9BH V155' V4+(V3-V4) X
64 9CH V156' V4+(V3-V4) X
64 9DH V157' V4+(V3-V4) X
64 9EH V158' V4+(V3-V4) X
64 9FH V159' V4+(V3-V4) X
64 A0H V160' V4+(V3-V4) X
64 A1H V161' V4+(V3-V4) X
64 A2H V162' V4+(V3-V4) X
64 A3H V163' V4+(V3-V4) X
64 A4H V164' V4+(V3-V4) X
64 A5H V165' V4+(V3-V4) X
64 A6H V166' V4+(V3-V4) X
64 A7H V167' V4+(V3-V4) X
64 A8H V168' V4+(V3-V4) X
64 A9H V169' V4+(V3-V4) X
64 AAH V170' V4+(V3-V4) X
64 ABH V171' V4+(V3-V4) X
64 ACH V172' V4+(V3-V4) X
64 ADH V173' V4+(V3-V4) X
64 AEH V174' V4+(V3-V4) X
64 AFH V175' V4+(V3-V4) X
64 B0H V176' V4+(V3-V4) X
64 B1H V177' V4+(V3-V4) X
64 B2H V178' V4+(V3-V4) X
64 B3H V179' V4+(V3-V4) X
64 B4H V180' V4+(V3-V4) X
64 B5H V181' V4+(V3-V4) X
64 B6H V182' V4+(V3-V4) X
64 B7H V183' V4+(V3-V4) X
64 B8H V184' V4+(V3-V4) X
64 B9H V185' V4+(V3-V4) X
64 BAH V186' V4+(V3-V4) X
64 BBH V187' V4+(V3-V4) X
64 BCH V188' V4+(V3-V4) X
64 BDH V189' V4+(V3-V4) X
64 BEH V190' V4+(V3-V4) X
64 BFH V191' V4+(V3-V4) X
75 /
74 /
76 C1H V193' V5+(V4-V5) X
76 C2H V194' V5+(V4-V5) X
76 C3H V195' V5+(V4-V5) X
76 C4H V196' V5+(V4-V5) X
76 C5H V197' V5+(V4-V5) X
76 C6H V198' V5+(V4-V5) X
76 C7H V199' V5+(V4-V5) X
76 C8H V200' V5+(V4-V5) X
76 C9H V201' V5+(V4-V5) X
76 CAH V202' V5+(V4-V5) X
76 CBH V203' V5+(V4-V5) X
76 CCH V204' V5+(V4-V5) X
76 CDH V205' V5+(V4-V5) X
76 CEH V206' V5+(V4-V5) X
76 CFH V207' V5+(V4-V5) X
76 D0H V208' V5+(V4-V5) X
76 D1H V209' V5+(V4-V5) X
76 D2H V210' V5+(V4-V5) X
76 D3H V211' V5+(V4-V5) X
76 D4H V212' V5+(V4-V5) X
76 D5H V213' V5+(V4-V5) X
76 D6H V214' V5+(V4-V5) X
76 D7H V215' V5+(V4-V5) X
76 D8H V216' V5+(V4-V5) X
76 D9H V217' V5+(V4-V5) X
76 DAH V218' V5+(V4-V5) X
76 DBH V219' V5+(V4-V5) X
76 DCH V220' V5+(V4-V5) X
76 DDH V221' V5+(V4-V5) X
76 DEH V222' V5+(V4-V5) X
76 DFH V223' V5+(V4-V5) X
76 E0H V224' V5
62.3 /
60.6 /
58.9 /
57.2 /
55.5 /
53.8 /
52.1 /
50.4 /
48.5 /
46.6 /
44.7 /
42.8 /
40.9 /
39 /
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
73 /
72 /
71 /
70 /
69 /
68 /
67 /
0AH V10' V1+(V0-V1) X
0BH V11' V1+(V0-V1) X
0CH V12' V1+(V0-V1) X
0DH V13' V1+(V0-V1) X
0EH V14' V1+(V0-V1) X
0FH V15' V1+(V0-V1) X
10H V16' V1+(V0-V1) X
11H V17' V1+(V0-V1) X
12H V18' V1+(V0-V1) X
13H V19' V1+(V0-V1) X
14H V20' V1+(V0-V1) X
15H V21' V1+(V0-V1) X
16H V22' V1+(V0-V1) X
17H V23' V1+(V0-V1) X
18H V24' V1+(V0-V1) X
19H V25' V1+(V0-V1) X
1AH V26' V1+(V0-V1) X
1BH V27' V1+(V0-V1) X
1CH V28' V1+(V0-V1) X
1DH V29' V1+(V0-V1) X
1EH V30' V1+(V0-V1) X
1FH V31' V1+(V0-V1) X
20H V32' V1
66 /
65 /
64 /
63 /
62 /
61 /
37.1 /
35.2 /
33.1 /
31 /
60 /
59 /
58 /
57 /
28.9 /
26.8 /
24.7 /
22.6 /
20.5 /
18.4 /
16.1 /
13.8 /
11.5 /
9.2 /
20.5 /
18 /
56 /
55 /
16 /
54 /
14 /
53 /
12 /
52 /
10.5 /
9 /
50.9 /
49.8 /
48.7 /
47.6 /
46.5 /
45.4 /
44.3 /
43.2
42 /
7.5 /
6 /
4.5 /
6.9 /
3 /
4.6 /
1.5 /
2.3 /
21H V33' V2+(V1-V2) X
22H V34' V2+(V1-V2) X
23H V35' V2+(V1-V2) X
24H V36' V2+(V1-V2) X
25H V37' V2+(V1-V2) X
26H V38' V2+(V1-V2) X
27H V39' V2+(V1-V2) X
28H V40' V2+(V1-V2) X
29H V41' V2+(V1-V2) X
2AH V42' V2+(V1-V2) X
2BH V43' V2+(V1-V2) X
2CH V44' V2+(V1-V2) X
2DH V45' V2+(V1-V2) X
2EH V46' V2+(V1-V2) X
2FH V47' V2+(V1-V2) X
30H V48' V2+(V1-V2) X
31H V49' V2+(V1-V2) X
32H V50' V2+(V1-V2) X
33H V51' V2+(V1-V2) X
34H V52' V2+(V1-V2) X
35H V53' V2+(V1-V2) X
36H V54' V2+(V1-V2) X
37H V55' V2+(V1-V2) X
38H V56' V2+(V1-V2) X
39H V57' V2+(V1-V2) X
3AH V58' V2+(V1-V2) X
3BH V59' V2+(V1-V2) X
3CH V60' V2+(V1-V2) X
3DH V61' V2+(V1-V2) X
3EH V62' V2+(V1-V2) X
3FH V63' V2+(V1-V2) X
38.6 /
37.2 /
35.8 /
34.4 /
33 /
40 61H V97'
76 E1H V225' V6+(V5-V6) X
76 E2H V226' V6+(V5-V6) X
76 E3H V227' V6+(V5-V6) X
76 E4H V228' V6+(V5-V6) X
76 E5H V229' V6+(V5-V6) X
76 E6H V230' V6+(V5-V6) X
76 E7H V231' V6+(V5-V6) X
76 E8H V232' V6+(V5-V6) X
76 E9H V233' V6+(V5-V6) X
76 EAH V234' V6+(V5-V6) X
76 EBH V235' V6+(V5-V6) X
76 ECH V236' V6+(V5-V6) X
76 EDH V237' V6+(V5-V6) X
76 EEH V238' V6+(V5-V6) X
76 EFH V239' V6+(V5-V6) X
76 F0H V240' V6+(V5-V6) X
76 F1H V241' V6+(V5-V6) X
76 F2H V242' V6+(V5-V6) X
76 F3H V243' V6+(V5-V6) X
76 F4H V244' V6+(V5-V6) X
76 F5H V245' V6+(V5-V6) X
76 F6H V246' V6+(V5-V6) X
76 F7H V247' V6+(V5-V6) X
76 F8H V248' V6+(V5-V6) X
76 F9H V249' V6+(V5-V6) X
76 FAH V250' V6+(V5-V6) X
76 FBH V251' V6+(V5-V6) X
76 FCH V252' V6+(V5-V6) X
76 FDH V253' V6+(V5-V6) X
76 FEH V254' V6
185.2 /
182.4 /
179.6 /
176.8 /
173.5 /
170.2 /
166.9 /
163.1 /
159.3 /
155.5 /
151 /
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
40 62H V98'
40.8 /
39.6 /
38.4 /
37.2 /
36 /
40 63H V99'
40 64H V100'
40 65H V101'
40 66H V102'
40 67H V103'
40 68H V104'
40 69H V105'
40 6AH V106'
40 6BH V107'
40 6CH V108'
40 6DH V109'
40 6EH V110'
40 6FH V111'
40 70H V112'
40 71H V113'
40 72H V114'
40 73H V115'
40 74H V116'
40 75H V117'
40 76H V118'
40 77H V119'
40 78H V120'
40 79H V121'
40 7AH V122'
40 7BH V123'
40 7CH V124'
40 7DH V125'
40 7EH V126'
40 7FH V127'
31.6 /
30.2 /
28.8 /
27.5 /
26.2 /
24.9 /
23.6 /
22.3 /
21 /
34.8 /
33.6 /
32.3 /
31 /
29.7 /
28.4 /
27.1 /
25.8 /
24.5 /
23.2 /
21.8 /
20.4 /
19 /
146.5 /
142 /
136.8 /
131.6 /
125.7 /
119.8 /
113.2 /
106.6 /
99.3 /
92 /
19.7 /
18.4 /
17.2 /
16 /
14.8 /
13.6 /
12.4 /
11.2 /
10 /
17.6 /
16.2 /
14.8 /
13.4 /
12 /
84 /
76 /
8.8 /
8 /
67 /
7.7 /
7 /
10.5 /
9 /
58 /
6.6 /
6 /
48 /
5.5 /
5 /
7.5 /
6 /
38 /
4.4 /
4 /
26 /
3.3 /
3 /
4.5 /
3 /
14 /
2.2 /
2 /
1.1 /
1 /
1.5 /
76 FFH V255' V7
8
Data Sheet S15630EJ1V0DS
µPD16753
Figure 5−4. Relationship between Input Data and Output Voltage (POL21/22 = L)
(Output Voltage 2) 0.5 VDD2 −0.3 V ≥ V8 > V9 > V10 > V11 > V12 > V13 > V14 > V15 ≥ VDD2 +0.2 V
Data
Output Voltage
V15
Data
40H V64"
Output Voltage
Data
Output Voltage
Data
Output Voltage
00H V0"
01H V1"
02H V2"
03H V3"
04H V4"
05H V5"
06H V6"
07H V7"
08H V8"
09H V9"
V13
80H V128" V12
C0H V192" V11
V15+(V14-V15) X
V15+(V14-V15) X
V15+(V14-V15) X
V15+(V14-V15) X
V15+(V14-V15) X
V15+(V14-V15) X
V15+(V14-V15) X
V15+(V14-V15) X
V15+(V14-V15) X
16 /
30.5 /
154.6 41H V65"
154.6 42H V66"
154.6 43H V67"
154.6 44H V68"
154.6 45H V69"
154.6 46H V70"
154.6 47H V71"
154.6 48H V72"
154.6 49H V73"
154.6 4AH V74"
154.6 4BH V75"
154.6 4CH V76"
154.6 4DH V77"
154.6 4EH V78"
154.6 4FH V79"
154.6 50H V80"
154.6 51H V81"
154.6 52H V82"
154.6 53H V83"
154.6 54H V84"
154.6 55H V85"
154.6 56H V86"
154.6 57H V87"
154.6 58H V88"
154.6 59H V89"
154.6 5AH V90"
154.6 5BH V91"
154.6 5CH V92"
154.6 5DH V93"
154.6 5EH V94"
154.6 5FH V95"
60H V96"
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
V13+(V12-V13) X
1 / 64 81H V129" V12+(V11-V12) X
2 / 64 82H V130" V12+(V11-V12) X
3 / 64 83H V131" V12+(V11-V12) X
4 / 64 84H V132" V12+(V11-V12) X
5 / 64 85H V133" V12+(V11-V12) X
6 / 64 86H V134" V12+(V11-V12) X
7 / 64 87H V135" V12+(V11-V12) X
8 / 64 88H V136" V12+(V11-V12) X
9 / 64 89H V137" V12+(V11-V12) X
10 / 64 8AH V138" V12+(V11-V12) X
11 / 64 8BH V139" V12+(V11-V12) X
12 / 64 8CH V140" V12+(V11-V12) X
13 / 64 8DH V141" V12+(V11-V12) X
14 / 64 8EH V142" V12+(V11-V12) X
15 / 64 8FH V143" V12+(V11-V12) X
16 / 64 90H V144" V12+(V11-V12) X
17 / 64 91H V145" V12+(V11-V12) X
18 / 64 92H V146" V12+(V11-V12) X
19 / 64 93H V147" V12+(V11-V12) X
20 / 64 94H V148" V12+(V11-V12) X
21 / 64 95H V149" V12+(V11-V12) X
22 / 64 96H V150" V12+(V11-V12) X
23 / 64 97H V151" V12+(V11-V12) X
24 / 64 98H V152" V12+(V11-V12) X
25 / 64 99H V153" V12+(V11-V12) X
26 / 64 9AH V154" V12+(V11-V12) X
27 / 64 9BH V155" V12+(V11-V12) X
28 / 64 9CH V156" V12+(V11-V12) X
29 / 64 9DH V157" V12+(V11-V12) X
30 / 64 9EH V158" V12+(V11-V12) X
31 / 64 9FH V159" V12+(V11-V12) X
1 / 76 C1H V193" V11+(V10-V11) X
2 / 76 C2H V194" V11+(V10-V11) X
3 / 76 C3H V195" V11+(V10-V11) X
4 / 76 C4H V196" V11+(V10-V11) X
5 / 76 C5H V197" V11+(V10-V11) X
6 / 76 C6H V198" V11+(V10-V11) X
7 / 76 C7H V199" V11+(V10-V11) X
8 / 76 C8H V200" V11+(V10-V11) X
9 / 76 C9H V201" V11+(V10-V11) X
10 / 76 CAH V202" V11+(V10-V11) X
11 / 76 CBH V203" V11+(V10-V11) X
12 / 76 CCH V204" V11+(V10-V11) X
13 / 76 CDH V205" V11+(V10-V11) X
14 / 76 CEH V206" V11+(V10-V11) X
15 / 76 CFH V207" V11+(V10-V11) X
16 / 76 D0H V208" V11+(V10-V11) X
17 / 76 D1H V209" V11+(V10-V11) X
18 / 76 D2H V210" V11+(V10-V11) X
19 / 76 D3H V211" V11+(V10-V11) X
20 / 76 D4H V212" V11+(V10-V11) X
21 / 76 D5H V213" V11+(V10-V11) X
22 / 76 D6H V214" V11+(V10-V11) X
23 / 76 D7H V215" V11+(V10-V11) X
24 / 76 D8H V216" V11+(V10-V11) X
25.1 / 76 D9H V217" V11+(V10-V11) X
26.2 / 76 DAH V218" V11+(V10-V11) X
27.3 / 76 DBH V219" V11+(V10-V11) X
28.4 / 76 DCH V220" V11+(V10-V11) X
29.5 / 76 DDH V221" V11+(V10-V11) X
30.6 / 76 DEH V222" V11+(V10-V11) X
31.7 / 76 DFH V223" V11+(V10-V11) X
1.7 /
3.4 /
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
43.5 /
5.1 /
55 /
6.8 /
65 /
8.5 /
73.9 /
10.2 /
11.9 /
13.6 /
15.5 /
17.4 /
19.3 /
21.2 /
23.1 /
25 /
81.7 /
88.5 /
94.3 /
0AH V10" V15+(V14-V15) X
0BH V11" V15+(V14-V15) X
0CH V12" V15+(V14-V15) X
0DH V13" V15+(V14-V15) X
0EH V14" V15+(V14-V15) X
0FH V15" V15+(V14-V15) X
10H V16" V15+(V14-V15) X
11H V17" V15+(V14-V15) X
12H V18" V15+(V14-V15) X
13H V19" V15+(V14-V15) X
14H V20" V15+(V14-V15) X
15H V21" V15+(V14-V15) X
16H V22" V15+(V14-V15) X
17H V23" V15+(V14-V15) X
18H V24" V15+(V14-V15) X
19H V25" V15+(V14-V15) X
1AH V26" V15+(V14-V15) X
1BH V27" V15+(V14-V15) X
1CH V28" V15+(V14-V15) X
1DH V29" V15+(V14-V15) X
1EH V30" V15+(V14-V15) X
1FH V31" V15+(V14-V15) X
20H V32" V14
99.1 /
103.9 /
108.7 /
112.5 /
116.3 /
120.1 /
123.1 /
126.1 /
129.1 /
131.6 /
134.1 /
136.6 /
138.6 /
140.6 /
142.6 /
144.1 /
145.6 /
147.1 /
148.6 /
150.1 /
151.6 /
153.1 /
26.9 /
28.8 /
30.9 /
33 /
35.1 /
37.2 /
39.3 /
41.4 /
43.5 /
45.6 /
47.9 /
50.2 /
52.5 /
54.8 /
57.1 /
59.4 /
61.7 /
32
64 A0H V160" V12+(V11-V12) X
32.8
76 E0H V224" V10
21H V33" V14+(V13-V14) X
22H V34" V14+(V13-V14) X
23H V35" V14+(V13-V14) X
24H V36" V14+(V13-V14) X
25H V37" V14+(V13-V14) X
26H V38" V14+(V13-V14) X
27H V39" V14+(V13-V14) X
28H V40" V14+(V13-V14) X
29H V41" V14+(V13-V14) X
2AH V42" V14+(V13-V14) X
2BH V43" V14+(V13-V14) X
2CH V44" V14+(V13-V14) X
2DH V45" V14+(V13-V14) X
2EH V46" V14+(V13-V14) X
2FH V47" V14+(V13-V14) X
30H V48" V14+(V13-V14) X
31H V49" V14+(V13-V14) X
32H V50" V14+(V13-V14) X
33H V51" V14+(V13-V14) X
34H V52" V14+(V13-V14) X
35H V53" V14+(V13-V14) X
36H V54" V14+(V13-V14) X
37H V55" V14+(V13-V14) X
38H V56" V14+(V13-V14) X
39H V57" V14+(V13-V14) X
3AH V58" V14+(V13-V14) X
3BH V59" V14+(V13-V14) X
3CH V60" V14+(V13-V14) X
3DH V61" V14+(V13-V14) X
3EH V62" V14+(V13-V14) X
3FH V63" V14+(V13-V14) X
1.4 /
2.8 /
40 61H V97"
33 / 64 A1H V161" V12+(V11-V12) X
34 / 64 A2H V162" V12+(V11-V12) X
35 / 64 A3H V163" V12+(V11-V12) X
36 / 64 A4H V164" V12+(V11-V12) X
37 / 64 A5H V165" V12+(V11-V12) X
38 / 64 A6H V166" V12+(V11-V12) X
39 / 64 A7H V167" V12+(V11-V12) X
40 / 64 A8H V168" V12+(V11-V12) X
41 / 64 A9H V169" V12+(V11-V12) X
42 / 64 AAH V170" V12+(V11-V12) X
43 / 64 ABH V171" V12+(V11-V12) X
44 / 64 ACH V172" V12+(V11-V12) X
45 / 64 ADH V173" V12+(V11-V12) X
46 / 64 AEH V174" V12+(V11-V12) X
47 / 64 AFH V175" V12+(V11-V12) X
48 / 64 B0H V176" V12+(V11-V12) X
49 / 64 B1H V177" V12+(V11-V12) X
50 / 64 B2H V178" V12+(V11-V12) X
51 / 64 B3H V179" V12+(V11-V12) X
52 / 64 B4H V180" V12+(V11-V12) X
53 / 64 B5H V181" V12+(V11-V12) X
54 / 64 B6H V182" V12+(V11-V12) X
55 / 64 B7H V183" V12+(V11-V12) X
56 / 64 B8H V184" V12+(V11-V12) X
57 / 64 B9H V185" V12+(V11-V12) X
58 / 64 BAH V186" V12+(V11-V12) X
59 / 64 BBH V187" V12+(V11-V12) X
60 / 64 BCH V188" V12+(V11-V12) X
61 / 64 BDH V189" V12+(V11-V12) X
62 / 64 BEH V190" V12+(V11-V12) X
63 / 64 BFH V191" V12+(V11-V12) X
34 / 76 E1H V225" V10+(V9-V10) X
35.2 / 76 E2H V226" V10+(V9-V10) X
36.4 / 76 E3H V227" V10+(V9-V10) X
37.6 / 76 E4H V228" V10+(V9-V10) X
38.8 / 76 E5H V229" V10+(V9-V10) X
40 / 76 E6H V230" V10+(V9-V10) X
41.2 / 76 E7H V231" V10+(V9-V10) X
42.4 / 76 E8H V232" V10+(V9-V10) X
43.7 / 76 E9H V233" V10+(V9-V10) X
45 / 76 EAH V234" V10+(V9-V10) X
46.3 / 76 EBH V235" V10+(V9-V10) X
47.6 / 76 ECH V236" V10+(V9-V10) X
48.9 / 76 EDH V237" V10+(V9-V10) X
50.2 / 76 EEH V238" V10+(V9-V10) X
51.5 / 76 EFH V239" V10+(V9-V10) X
52.8 / 76 F0H V240" V10+(V9-V10) X
54.2 / 76 F1H V241" V10+(V9-V10) X
55.6 / 76 F2H V242" V10+(V9-V10) X
57 / 76 F3H V243" V10+(V9-V10) X
58.4 / 76 F4H V244" V10+(V9-V10) X
59.8 / 76 F5H V245" V10+(V9-V10) X
61.2 / 76 F6H V246" V10+(V9-V10) X
62.6 / 76 F7H V247" V10+(V9-V10) X
64 / 76 F8H V248" V10+(V9-V10) X
65.5 / 76 F9H V249" V10+(V9-V10) X
67 / 76 FAH V250" V10+(V9-V10) X
68.5 / 76 FBH V251" V10+(V9-V10) X
70 / 76 FCH V252" V10+(V9-V10) X
71.5 / 76 FDH V253" V10+(V9-V10) X
73 / 76 FEH V254" V9
2.3 /
5.1 /
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
187.5
40 62H V98"
4.2 /
40 63H V99"
7.9 /
5.6 /
40 64H V100" V13+(V12-V13) X
40 65H V101" V13+(V12-V13) X
40 66H V102" V13+(V12-V13) X
40 67H V103" V13+(V12-V13) X
40 68H V104" V13+(V12-V13) X
40 69H V105" V13+(V12-V13) X
40 6AH V106" V13+(V12-V13) X
40 6BH V107" V13+(V12-V13) X
40 6CH V108" V13+(V12-V13) X
40 6DH V109" V13+(V12-V13) X
40 6EH V110" V13+(V12-V13) X
40 6FH V111" V13+(V12-V13) X
40 70H V112" V13+(V12-V13) X
40 71H V113" V13+(V12-V13) X
40 72H V114" V13+(V12-V13) X
40 73H V115" V13+(V12-V13) X
40 74H V116" V13+(V12-V13) X
40 75H V117" V13+(V12-V13) X
40 76H V118" V13+(V12-V13) X
40 77H V119" V13+(V12-V13) X
40 78H V120" V13+(V12-V13) X
40 79H V121" V13+(V12-V13) X
40 7AH V122" V13+(V12-V13) X
40 7BH V123" V13+(V12-V13) X
40 7CH V124" V13+(V12-V13) X
40 7DH V125" V13+(V12-V13) X
40 7EH V126" V13+(V12-V13) X
40 7FH V127" V13+(V12-V13) X
10.7 /
14 /
7 /
8.4 /
17.3 /
20.6 /
24.4 /
28.2 /
32 /
9.8 /
11.2 /
12.5 /
13.8 /
15.1 /
16.4 /
17.7 /
19 /
36.5 /
41 /
45.5 /
50.7 /
55.9 /
61.8 /
67.7 /
74.3 /
80.9 /
88.2 /
95.5 /
103.5 /
111.5 /
120.5 /
129.5 /
139.5 /
149.5 /
161.5 /
173.5 /
20.3 /
21.6 /
22.8 /
24 /
25.2 /
26.4 /
27.6 /
28.8 /
30 /
31.2 /
32.3 /
33.4 /
34.5 /
35.6 /
36.7 /
37.8 /
38.9 /
74.5 / 76 FFH V255" V8
9
Data Sheet S15630EJ1V0DS
µPD16753
6. RELATIONSHIP BETWEEN INPUT DATA AND OUTPUT PIN
Data format : 8 bits × 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
POL
L
S2n–1
S2n
V0 to V7
V8 to V15
V8 to V15
V0 to V7
H
2n-1
Note S
2n
(Odd output), S (Even output)
7. RELATIONSHIP BETWEEN STB, POL AND OUTPUT WAVEFORM
The output voltage is written to the LCD panel synchronized with the STB falling edge.
STB
POL
S
2n-1
Selected voltage V
0
-V
7
Selected voltage V
8
-V15
Selected voltage V
0
-V
7
S
2n
Selected voltage V
8
-V15
Selected voltage V
0
-V
7
Selected voltage V -V15
8
Hi-Z
Hi-Z
Hi-Z
10
Data Sheet S15630EJ1V0DS
µPD16753
8. RELATIONSHIP BETWEEN STB, CLK, AND OUTPUT WAVEFORM
The output voltage is written to the LCD panel synchronized with the STB falling edge.
Figure 8−1. Output Circuit Block Diagram
Output AMP
−
DAC
+
SW1
Sn (Vx)
SW1 switches according to the level of STB signal.
STB = L: SW = ON
STB = H: SW = OFF
Figure 8−2. Output Circuit Timing Chart
[1]
[1']
CLK
STB
t
STB-CLK
SW1: OFF
Hi-Z
Sn (V )
X
STB-CLK
STB = H is loaded with the rising edge of CLK [1]. However, when not satisfying the specification of t
, STB =
H is loaded with the rising edge of the next CLK [1’]. Latch operation of display data is completed with the falling
edge of the next CLK which loaded STB = H. Therefore, in order to complete latch operation of display data, it is
necessary to input at least 2 CLK in STB = H period.
11
Data Sheet S15630EJ1V0DS
µPD16753
9. CURRENT CONSUMPTION REDUCTION FUNCTION
The µ PD16753 has a low power control function (LPC) which can switch the bias current of the output amplifier
between two levels.
<Low Power control function (LPC) >
The bias current of the output amplifier can be switched between two levels using this pin.
LPC = H or open: low power mode
LPC = L: nomal power mode
DD2
The V
of static current consumption can be reduced to two thirds of that in normal mode, input a stable DC
DD1 SS1
current (V /V ) to this pin.
Caution Because the power and bias-current control functions control the bias current in the output
amplifier and regulate the ove-all current consumption of the driver IC, when this occurs, the
characteristics of the output amplifier will simultaneously change. Therefore, when using these
functions, be sure to sufficiently evaluate the picture quality.
12
Data Sheet S15630EJ1V0DS
µPD16753
10. ELECTRICAL SPECIFICATIONS
Absolute Maximum Ratings (TA = 25°C, VSS1 = VSS2 = 0 V)
Parameter
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
Symbol
VDD1
VDD2
VI1
Rating
Unit
V
–0.5 to +4.0
–0.5 to +10.0
–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
V
VO2
V
TA
°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
High-Level Input Voltage
Low-Level Input Voltage
γ -Corrected Voltage
Symbol
VDD1
MIN.
3.0
TYP.
3.3
MAX.
3.6
Unit
V
VDD2
8.5
9.0
9.5
V
VIH
0.7 VDD1
0
VDD1
V
VIL
0.3 VDD1
VDD2 −0.2
0.5 VDD2 −0.3
VDD2 −0.2
40
V
V0 to V7
V8 to V15
VO
0.5 VDD2
VSS2 +0.2
VSS2 +0.2
V
Driver Part Output Voltage
Clock Frequency
V
fCLK
MHz
13
Data Sheet S15630EJ1V0DS
µPD16753
Electrical Characteristics (TA = –10 to +75°C, VDD1 = 3.3 V± 0.3 V, VDD2 = 9.0 V± 0.5 V, VSS1 = VSS2 = 0 V,
Unless otherwise specified, LPC = H or Open)
Parameter
Input Leak Current
Symbol
IIL
Conditions
Except LPC
MIN.
TYP.
±0.1
60
MAX.
Unit
µA
µA
V
±1.0
LPC
★
High-Level Output Voltage
VOH
VOL
Rγ
STHR (STHL), IOH = 0 mA
VDD1 − 0.1
0.1
17.8
−0.09
V
Low-Level Output Voltage
γ -Corrected Supply Resistance
Driver Output Current
STHR (STHL), IOL = 0 mA
V0 to V7 = V8 to V15 = 4.0 V
4.4
8.9
−0.185
0.238
±30
k
Note
IVOH
IVOL
∆VO
VX = 7.0 V, VOUT = 6.5 V
VX = 1.0 V, VOUT = 1.5 V
VO = 0.2 V to 1.2 V
mA
mA
mV
Note
0.12
Output Voltage Deviation
±50
±20
VO = VDD2 −1.2 V to VDD2 −0.2 V
VO = 1.2 V to 0.5 VDD2 −0.3 V
VO = 0.5 VDD2 to VDD2 −1.2 V
VO = 0.2 V to 0.8 V
±10
±20
±10
±3
mV
mV
mV
mV
V
Output Swing Difference
Deviation
∆VP–P
±40
VO = VDD2 −0.8 V to VDD2 −0.2 V
VO = 0.8 V to 1.2 V
±20
VO = VDD2 −1.2 V to VDD2 −0.8 V
VO = 1.2 V to 0.5 VDD2 −0.3 V
VO = 0.5 VDD2 to VDD2 −1.2 V
VDD2 = 8.5 V, VO = 7.9 V, V3 =
6.22 V, V7 = 4.0 V, V8 = 4.0 V,
V12 = 1.78 V, V12 = 0.1 V, V1, V2,
V4, V5, V6, V9, V10, V11, V13, V14:
Open, TA = 25°C, Input data:
80H
±10
Output Swing Average
Difference Deviation
AVO
4.433
4.447
Logic Part Dynamic Current
Consumption
IDD1
VDD1, with no load
0.8
4.5
6.0
mA
mA
Driver Part Dynamic Current
Consumption
IDD2
VDD2, with no load
11.0
X
1
384
OUT
Note V refers to the output voltage of analog output pins S to S . V
refers to the voltage applied to analog
1
384
output pins S to S
.
Cautions 1.The STB cycle is defined to be 20 µs at fCLK = 40 MHz.
2.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.
3.Refers to the current consumption per driver when cascades are connected under the
assumption of XGA single-sided mounting (8 units).
14
Data Sheet S15630EJ1V0DS
µPD16753
Switching Characteristics (TA = –10 to +75°C, VDD1 = 3.3 V± 0.3 V, VDD2 = 9.0 V± 0.5 V, VSS1 = VSS2 = 0 V,
Unless otherwise specified, LPC = H or Open)
Parameter
Symbol
tPLH1
tPLH2
tPLH3
tPHL2
tPHL3
CI1
Conditions
MIN.
TYP.
MAX.
20
6
Unit
ns
Start Pulse Delay Time
Driver Output Delay Time
CL = 15 pF
CL = 75 pF,
RL = 5 kΩ
8
3
µs
µs
µs
µs
pF
4
8
3
6
4
8
Input Capacitance
STHR (STHL) excluded,
TA = 25°C
4.8
10
CI2
STHR (STHL),TA = 25°C
8.6
15
pF
<Measure Condition>
Ln
R
= 1 kΩ
Ln
C
= 15 pF
Measuring Point
RL1
RL2
RL3
RL4
RL5
Output
CL1
CL2
CL3
CL4
CL5
GND
15
Data Sheet S15630EJ1V0DS
µPD16753
Timing Requirement (TA = –10 to +75°C, VDD1 = 3.3 V± 0.3 V, VSS1 = 0 V, tr = tf = 8.0 ns)
Parameter
Clock Pulse Width
Symbol
PWCLK
PWCLK(H)
PWCLK(L)
tSETUP1
tHOLD1
Conditions
MIN.
25
4
TYP.
MAX.
Unit
ns
Clock Pulse High Period
Clock Pulse Low Period
Data Setup Time
ns
4
ns
2
ns
Data Hold Time
2
ns
Start Pulse Setup Time
Start Pulse Hold Time
POL21/22 Setup Time
POL21/22 Hold Time
STB Pulse Width
tSETUP2
tHOLD2
tSETUP3
tHOLD3
2
ns
2
ns
2
ns
2
ns
PWSTB
tLDT
2
µs
Last Data Timing
2
CLK
ns
CLK-STB Time
tCLK-STB
tSTB-CLK
tSTB-STH
tPOL-STB
tSTB-POL
CLK ↑ → STB ↑
6
STB-CLK Time
STB ↑ → CLK ↑
6
ns
Time Between STB and Start Pulse
POL-STB Time
STB ↑ → STHR(STHL) ↑
POL ↑ or ↓ → STB ↑
STB ↓ → POL ↓ or ↑
2
CLK
ns
–5
6
STB-POL Time
ns
IH
DD1
IL
DD1
Remark Unless otherwise specified, the input level is defined to be V = 0.7 V , V = 0.3 V
.
16
Data Sheet S15630EJ1V0DS
µPD16753
Switching Characteristics Waveform (R,/L = H)
IH
DD1
IL
DD1
Unless otherwise specified, the input level is defined to be V = 0.7 V , V = 0.3 V
.
17
Data Sheet S15630EJ1V0DS
µPD16753
11. RECOMMENDED SOLDERING CONDITIONS
The following conditions must be met for soldering conditions of the µ PD16753.
For more details, refer to the Semiconductor Device Mounting Technology Manual (C10535E).
Please consult with our sales offices in case other soldering process is used, or in case the soldering is done
under different conditions.
µ PD16753N - ×××: TCP (TAB package)
Mounting Condition
Thermocompression
Mounting Method
Soldering
Condition
Heating tool 300 to 350°C, heating for 2 to 3 seconds, pressure 100g (per
solder)
ACF
Temporary bonding 70 to 100°C, pressure 3 to 8 kg/cm2, time 3 to 5
(Adhesive Conductive
Film)
seconds.
Real bonding 165 to 180°C, pressure 25 to 45 kg/cm2, time 30 to 40
seconds. (When using the anisotropy conductive film SUMIZAC1003 of
Sumitomo Bakelite, Ltd.)
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 S15630EJ1V0DS
µPD16753
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 S15630EJ1V0DS
µPD16753
Reference Documents
NEC Semiconductor Device Reliability / Quality Control System (C10983E)
Quality Grades to NEC’s Semiconductor Devices (C11531E)
•
The information in this document is current as of February, 2002. The information is subject to
change without notice. For actual design-in, refer to the latest publications of NEC's data sheets or
data books, etc., for the most up-to-date specifications of NEC semiconductor products. Not all
products and/or types are available in every country. Please check with an NEC sales representative
for availability and additional information.
•
•
No part of this document may be copied or reproduced in any form or by any means without prior
written consent of NEC. NEC assumes no responsibility for any errors that may appear in this document.
NEC does not assume any liability for infringement of patents, copyrights or other intellectual property rights of
third parties by or arising from the use of NEC semiconductor products listed in this document or any other
liability arising from the use of such products. No license, express, implied or otherwise, is granted under any
patents, copyrights or other intellectual property rights of NEC or others.
•
•
•
Descriptions of circuits, software and other related information in this document are provided for illustrative
purposes in semiconductor product operation and application examples. The incorporation of these
circuits, software and information in the design of customer's equipment shall be done under the full
responsibility of customer. NEC assumes no responsibility for any losses incurred by customers or third
parties arising from the use of these circuits, software and information.
While NEC endeavours to enhance the quality, reliability and safety of NEC semiconductor products, customers
agree and acknowledge that the possibility of defects thereof cannot be eliminated entirely. To minimize
risks of damage to property or injury (including death) to persons arising from defects in NEC
semiconductor products, customers must incorporate sufficient safety measures in their design, such as
redundancy, fire-containment, and anti-failure features.
NEC semiconductor products are classified into the following three quality grades:
"Standard", "Special" and "Specific". The "Specific" quality grade applies only to semiconductor products
developed based on a customer-designated "quality assurance program" for a specific application. The
recommended applications of a semiconductor product depend on its quality grade, as indicated below.
Customers must check the quality grade of each semiconductor product before using it in a particular
application.
"Standard": Computers, office equipment, communications equipment, test and measurement equipment, audio
and visual equipment, home electronic appliances, machine tools, personal electronic equipment
and industrial robots
"Special": Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster
systems, anti-crime systems, safety equipment and medical equipment (not specifically designed
for life support)
"Specific": Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life
support systems and medical equipment for life support, etc.
The quality grade of NEC semiconductor products is "Standard" unless otherwise expressly specified in NEC's
data sheets or data books, etc. If customers wish to use NEC semiconductor products in applications not
intended by NEC, they must contact an NEC sales representative in advance to determine NEC's willingness
to support a given application.
(Note)
(1) "NEC" as used in this statement means NEC Corporation and also includes its majority-owned subsidiaries.
(2) "NEC semiconductor products" means any semiconductor product developed or manufactured by or for
NEC (as defined above).
M8E 00. 4
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