T6L60 [TOSHIBA]
IC LIQUID CRYSTAL DISPLAY DRIVER, UUC167, TCP-167, Display Driver;型号: | T6L60 |
厂家: | TOSHIBA |
描述: | IC LIQUID CRYSTAL DISPLAY DRIVER, UUC167, TCP-167, Display Driver 驱动 接口集成电路 |
文件: | 总12页 (文件大小:153K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
T6L60
TOSHIBA CMOS Digital Integrated Circuit Silicon Monolithic
T6L60
Gate Driver for TFT LCD Panels
The T6L60 is a 150/154-channel output gate driver for TFT
LCD panels. This device accepts external input of the panel drive
voltage, allowing you to change the low-level output voltage. Thus,
this device can be used for various TFT LCD panel drive systems.
Unit: mm
User area pitch
T6L60
IN
OUT
Features
(SAN, 3NS)
0.80000
0.14979
Please contact Toshiba or a distributor for
the latest TCP specification and product
line-up.
·
·
·
·
·
LCD drive output pins : Switchable between 150 and 154 pins
LCD drive voltage : max V + 40 V
Data transfer method : Bidirectional shift register
EE
Operating temperature: −20 to 75°C
Package
: Tape carrier package (TCP)
TCP (Tape Carrier Package)
Block Diagram
MODE
DO/I
DI/O
CPV
U/D
Shift register
Input circuit unit
OE1
OE2
OE3
Control circuit unit
V
GG
V
Output circuit unit
OFF
V
EE
V
DD
V
SS
G1 G2 G3
G152 G153 G154
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2001-12-18
T6L60
Pin Assignment
G1 167
G2 166
G3 165
1
2
V
V
OFF
EE
3
DI/O
4
V
SS
5
MODE
6
7
8
9
10
11
V
DD
U/D
CPV
OE3
OE2
OE1
T6L60
(chip top view)
12 DO/I
13
V
GG
G152 16
G153 15
G154 14
The above diagram shows the device’s pin configuration only and does not necessarily correspond to the pad
layout on the chip. Please contact Toshiba or our distributors for the latest TCP specification.
2
2001-12-18
T6L60
Pin Function
Pin Name
I/O
Function
Vertical shift data I/O pins
These pins are used to input and output shift data. These pins are switched between input and
output by setting the U/D pin as shown below.
U/D
DI/O
DO/I
H
L
Input
Output
Input
DI/O
DO/I
I/O
Output
When set for input
This pin is used to feed data into the shift registers at the first stage of the LCD driver.
The data is latched into the shift registers at the rising edge of CPV.
When set for output
When two or more T6L60s are cascaded, this pin outputs the data to be fed into the next
stage. This data changes state synchronously with the falling edge of CPV.
Transfer direction select pin
This pin specifies the direction in which data is transferred through the shift registers.
The shift register data is shifted synchronously with each rising edge of CPV as follows:
When U/D is high, data is shifted in the direction
U/D
I
G1 ® G2 ® G3 ® G4 ® ··· ® G154
When U/D is low, the direction is reversed to give
G154 ® G153 ® G152 ® G151 ® ··· ® G1
The voltage applied to this pin must be a DC-level voltage that is either high (V ) or low (V
DD
SS
or V
)
EE
Vertical shift clock
CPV
I
I
This is the shift clock for the shift registers. Data is shifted through the shift registers
synchronously with the rising edge of CPV.
Output enable pins
These signals control the data appearing at the LCD panel drive pins (G1 through G154).
OE doesn’t synchronize with the CPU.
OE1 to OE3
The V
voltage is output when OE1 to OE 3 are high; normal shift data is output
OFF
when OE 1 to OE 3 are low.
Output channels select pin
This signal selects either 150-pin mode or 154-pin mode for the LCD panel driver.
When MODE = high, 150-pin mode is selected, in which case G76 through G79 are not
used. (V level)
MODE
I
OFF
When MODE = low, 154-pin mode is selected.
LCD panel drive pins
G1 to G154
O
These pins output the shift register data or the voltage applied to V
control signals OE1 to OE 3.
or V
depending on the
OFF
GG
V
¾
¾
Power supply for LCD drive
GG
Analog reference voltage
V
OFF
These pins accept as their input the OFF level at the LCD panel drive pins (G1 through G154).
Power supply for LCD drive
V
¾
¾
¾
EE
V
Power supply for the internal logic
DD
V
Power supply for the internal logic
SS
3
2001-12-18
T6L60
Device Operation
(1) Shift data transfer method
Shift Data
Output
Mode Pin
U/D Pin
Data Transfer Method
Input
DI/O
H
L
DO/I
DI/O
DO/I
DI/O
G1 ® G2 ® G3 ® ··· ® G75 ® G80 ® ··· ® G154
H
(150-out)
DO/I
DI/O
DO/I
G154 ® G153 ® G152 ® ··· ® G80 ® G75 ® ··· ® G1
G1 ® G2 ® G3 ® G4 ® ··· ® G154
H
L
L
(154-out)
G154 ® G153 ® G152 ® G151 ® ··· ® G1
The input data (DI/O or DO/I) is latched into the internal register synchronously with the rising edge of the
shift clock CPV. At the same time that the data is shifted to the next register at the next rise of CPV, new
vertical shift data is latched into.
In the output operation, the data in the last shift register (G154 or G1) is output synchronously with the
falling edge of CPV. (The output high voltage is the V
level; the output low voltage is the V level.)
SS
DD
Note: The outputs of G76 to G79 are V
level in 150 output mode.
OFF
(2) LCD panel drive outputs
The LCD panel drive outputs are controlled byOE1 to OE3 as shown below.
The following combinations of mode pins and output enable pins don´t depend on the polarity of U/D pins;
hence, LCD panel drive outputs for LCD panel drive pins controlled byOE are the same when the U/D pins is
High or Low.
LCD Panel Drive Outputs
LCD Panel Drive Pins Controller by
Mode Pin
Output Enable Pin
Output
OE1= “H”
OE2 = “H”
OE3 = “H”
OE1= “L”
OE2 = “L”
OE3 = “L”
OE1= “H”
OE2 = “H”
OE3 = “H”
OE1= “L”
OE2 = “L”
OE3 = “L”
G1, G4, G7, ···G73, G80 ··· G149, G152
V
level
G2, G5, G8, ···G74, G81 ··· G150, G153
G3, G6, G9, ···G75, G82 ··· G151, G154
G1, G4, G7, ···G73, G80 ··· G149, G152
G2, G5, G8, ···G74, G81 ··· G150, G153
G3, G6, G9, ···G75, G82 ··· G151, G154
G1, G4, G7, ···G148, G151, G154
G2, G5, G8, ···G149, G152
OFF
H
(150-out)
Normal data output
V
level
OFF
G3, G6, G9, ···G150, G153
L
(154-out)
G1, G4, G7, ···G148, G151, G154
G2, G5, G8, ···G149, G152
Normal data output
G3, G6, G9, ···G150, G153
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2001-12-18
T6L60
(3) Voltage setting
The V
OFF
level, which sets the LCD panel drive’s output low level, can take on any value between V to
EE
V
EE
+ 6 V.
(Example 1) Positive voltage output
(Example 2) Negative voltage output
V
V
V
- V
= 40 V
V
V
V
- V
= 40 V
GG
OFF
GG
OFF
- V
OFF
- V
EE
= 0 to 6 V
- V
EE
= -10 to -4 V
OFF
- V
EE
= 5 to 15 V
= -10 to 0 V
EE
SS
SS
G1 to G154
G1 to G154
V
(40 V)
(20 V)
(15 V)
V
(35 V)
GG
GG
Logic
input
V
DD
Logic
input
V
SS
V
(5 V)
(0 V)
DD
V
SS
V
V
(-5 V)
OFF
V
= V
(0 V)
(-10 V)
EE
EE
OFF
Note: The logic input here means input pins DI/O, DO/I, CPV, MODE and OE1 to OE3 .
The amplitude between V and V is applied to above pins.
SS DD
Make sure that the voltage applied to the U/D pin is a high (= V ) or low (= V or V ) DC-level voltage.
DD SS EE
5
2001-12-18
T6L60
Timing Diagram 1
154-output-pin (MODE = low), UP mode (U/D = high)
DI/O
(input)
1
2
3
4
5
154
155
CPV
OE1
OE2
OE3
G1
G2
G3
G4
G154
DO/I
(output)
: This part is output which is controlled (fixed to V
) by
OFF
pin.
OE
Timing Diagram 2
154-output-pin (MODE = low), DOWN mode (U/D = low)
DO/I
(input)
1
2
3
4
5
154
155
CPV
OE1
OE2
OE3
G154
G153
G152
G151
G1
DI/O
(output)
: This part is output which is controlled (fixed to V
) by
OFF
pin.
OE
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2001-12-18
T6L60
Timing Diagram 3
150-output-pin (MODE = high), UP mode (U/D = high)
DI/O
(input)
1
2
3
4
5
150
151
CPV
OE1
OE2
OE3
G1
G2
G3
G4
G76 to G79
(V
)
OFF
G154
DO/I
(output)
: This part is output which is controlled (fixed to V
) by
OFF
pin.
OE
Timing Diagram 4
150-output-pin (MODE = high), DOWN mode (U/D = low)
DI/O
(input)
1
2
3
4
5
150
151
CPV
OE1
OE2
OE3
G154
G153
G152
G151
G76 to G79
(V
)
OFF
G1
DO/I
(output)
: This part is output which is controlled (fixed to V
) by
OFF
pin.
OE
7
2001-12-18
T6L60
Absolute Maximum Ratings (V = 0 V)
SS
Characteristics
Supply voltage (1)
Symbol
Rating
Unit
V
-0.3 to 22.0
-0.3 to 16.5
-0.3 to 7.0
-0.3 to 7.0
-0.3 to 45.0
-0.3 to 45.0
DD
Supply voltage (2)
Supply voltage (3)
Supply voltage (4)
Supply voltage (5)
Supply voltage (6)
V
SS
V
- V
DD
SS
V
V
OFF
V
GG
V
- V
GG
OFF
V
V
- 0.3 to
SS
Input voltage
V
V
IN
+ 0.3
DD
Storage temperature
T
-55 to 125
°C
stg
Recommended Operating Conditions (V = 0 V)
SS
Characteristics
Supply voltage (1)
Symbol
Rating
5 to 15
Unit
V
V
SS
DD
Supply voltage (2)
VSS + 3.0 to
VSS + 5.5
V
Supply voltage (3)
V
0 to 6
OFF
Supply voltage (4)
V
- V
17 to 25
GG
SS
Operating temperature
Operating frequency
Output load capacitance
T
-20 to 75
DC to 100
300 (max)
°C
opr
f
kHz
CPV
C
pF/pin
L
8
2001-12-18
T6L60
Electrical Characteristics
DC Characteristics V - V = 17 to 25 V, V = 3.0 to 5.5 V, V = 0 V,
GG
SS
DD
SS
Ta = -20 to 75°C, V = -15 to -5 V, V
= V to V + 6 V
EE
OFF
EE
EE
Test
circuit
Relevant
Pin
Characteristics
Symbol
Test Condition
Min
Max
Unit
0.1 ´
(V
-
DD
Low level
V
V
SS
IL
V
) +
SS
V
SS
Input voltage
¾
¾
V
(Note 1)
0.9 ´
(V
-
DD
High level
V
V
IH
DD
V
) +
SS
V
SS
V
0.4
+
SS
Low level
High level
V
I
I
= 40 mA
V
OL
OL
SS
DI/O,
DO/I
Output voltage
¾
¾
V
V
-
DD
V
= -40 mA
V
DD
OH
OH
0.4
V
V
= V + 0.5 V
EE
OUT
OUT
Low level
High level
R
¾
1500
1500
OL
(Note 1)
(Note 1)
Output
resistance
G1 to
G154
W
= V
- 0.5 V
GG
R
I
¾
OH
Input leakage current
¾
¾
¾
-1
1
mA
mA
(Note 2)
IN
Current consumption (1)
Current consumption (2)
Current consumption (3)
I
¾
1500
DD
(Note 3)
I
-200
SS
I
¾
150
GG
Note 1: V
GG
- V = 25 to 35 V
EE
Note 2: Input pins ・・・ DI/O, DO/I, CPV, OE1 to OE3 , MODE
Note 3: Current consumption in 1/600-duty LCD.
Input V = VDD, V = V , f
IH IL SS CPV
= 100 kHz
Start pulse period = 104.2 Hz, OE1 to OE3 = V , no load
SS
AC Characteristics V - V = 17 to 25 V, V = 3.0 to 5.5 V, V = 0 V,
GG
SS
DD
SS
Ta = -20 to 75°C, V = -15 to -5 V, V
= V to V + 6 V
EE
OFF
EE
EE
Test
circuit
Characteristics
Clock period
Symbol
Test Condition
Min
Max
Unit
t
¾
¾
¾
¾
¾
¾
¾
¾
5
100
¾
kHz
ms
ms
ns
ns
ms
ns
ns
ns
ns
ns
ns
ns
CPV
CPV pulse width (H)
CPV pulse width (L)
Data set-up time
Data hold time
t
¾
¾
¾
¾
¾
¾
¾
¾
¾
¾
¾
¾
CPVH
t
5
¾
CPVL
t
t
700
700
1
¾
sDI
hDI
¾
OE
enable time
t
¾
wOE
Output delay time (1)
Output delay time (2)
Output delay time (3)
Input rising time
t
C
L
C
L
C
L
C
L
C
L
C
L
C
L
= 30 pF
¾
¾
¾
¾
¾
¾
¾
1000
800
800
30
pdDO
t
= 300 pF
= 300 pF
= 300 pF
= 300 pF
= 300 pF
= 300 pF, V
pdG
t
pdOE
t
t
r
Input falling time
30
f
Output rising time
Output falling time
r-OUT
f-OUT
500
500
= V = 0 V
OFF
EE
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2001-12-18
T6L60
t
t
CPVL
CPVH
CPV
50%
50%
50%
50%
50%
t
t
hDI
sDI
DI/O, DO/I
(Input)
50%
50%
t
t
t
pdG
pdG
pdG
V
V
GG
G1
50%
50%
OFF
t
pdG
V
V
GG
G2 to G154
50%
50%
OFF
CPV
50%
50%
V
V
GG
G154
OFF
t
t
pdDO
pdDO
DO/I, DI/O
(Output)
50%
50%
t
wOE
50%
50%
OE1 to OE3
G1 to G154
t
t
pdOE
pdOE
V
V
GG
50%
50%
OFF
t
t
r-OUT
f-OUT
r
f
CPV,
DI/O, DO/I,
OE1to OE3
90%
90%
10%
G1 to G154
10%
10
2001-12-18
T6L60
Power Supply Sequence
Turn power on in the order V ® V
® Input signal ® V ® V
EE OFF
® V .
GG
SS
DD
Turn power off in th reverse order.
V
GG
V
DD
V
SS
V
, V
EE OFF
11
2001-12-18
T6L60
RESTRICTIONS ON PRODUCT USE
000707EBE
· TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor
devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical
stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of
safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of
such TOSHIBA products could cause loss of human life, bodily injury or damage to property.
In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as
set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and
conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability
Handbook” etc..
· The TOSHIBA products listed in this document are intended for usage in general electronics applications
(computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances,
etc.). These TOSHIBA products are neither intended nor warranted for usage in equipment that requires
extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or
bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or
spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments,
medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in this
document shall be made at the customer’s own risk.
· Polyimide base film is hard and thin. Be careful not to injure yourself on the film or to scratch any other parts with
the film. Try to design and manufacture products so that there is no chance of users touching the film after
assembly, or if they do , that there is no chance of them injuring themselves. When cutting out the film, try to
ensure that the film shavings do not cause accidents. After use, treat the leftover film and reel spacers as
industrial waste.
· Light striking a semiconductor device generates electromotive force due to photoelectric effects. In some cases
this can cause the device to malfunction.
This is especially true for devices in which the surface (back), or side of the chip is exposed. When designing
circuits, make sure that devices are protected against incident light from external sources. Exposure to light both
during regular operation and during inspection must be taken into account.
· The products described in this document are subject to the foreign exchange and foreign trade laws.
· The information contained herein is presented only as a guide for the applications of our products. No
responsibility is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other
rights of the third parties which may result from its use. No license is granted by implication or otherwise under
any intellectual property or other rights of TOSHIBA CORPORATION or others.
· The information contained herein is subject to change without notice.
12
2001-12-18
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