PEDL9041A-02
OKI Semiconductor
ML9041A-xxA/xxB
ABSOLUTE MAXIMUM RATINGS
(GND = 0 V)
Parameter
Supply Voltage
LCD Driving Voltage
Symbol
V
DD
V
1
, V
2
, V
3
,
V
4
, V
5
V
I
T
STG
Condition
Ta = 25°C
Ta = 25°C
Rating
–0.3 to +6.5
V
DD
–7.5 to V
DD
+0.3
Unit
V
V
Applicable pins
V
DD
–GND
V
1
, V
4
, V
5
, V
5IN
, V
2
, V
3A
, V
3B
R/W, E,
SHT,
CSR, S/P,
SSR, Sl, RS
0
, RS
1
, BE,
CS,
T
1
to T
3
, DB
0
to DB
7
, V
IN
—
Input Voltage
Storage Temperature
Ta = 25°C
—
–0.3 to V
DD
+0.3
–55 to +150
V
°C
RECOMMENDED OPERATING CONDITIONS
(GND = 0 V)
Parameter
Supply Voltage
LCD Driving Voltage
Voltage Multipler
Operating Voltage
Operating Temperature
Symbol
V
DD
V
DD
–V
5
(See Note)
V
MUL
T
op
Condition
—
—
BE = “1”
—
Range
2.7 to 5.5
3.3 to 7.0
2.7 to 3.5
–40 to +85
Unit
V
V
V
°C
Applicable pins
V
DD
–GND
V
DD
–V
5
(V
5IN
)
V
DD
–V
IN
—
Note:
This voltage should be applied across V
DD
and V
5
. The following voltages are output to the V
1
, V
2
,
V
3A
(V
3B
) and V
4
pins:
•
1/4 bias
V
1
= {V
DD
– (V
DD
– V
5
)/4} ±0.15 V
V
2
= V
3B
= {V
DD
– (V
DD
– V
5
)/2} ±0.15 V
V
4
= {V
DD
– 3
×
(V
DD
– V
5
)/4 } ±0.15 V
•
1/5 bias
V
1
= {V
DD
– (V
DD
– V
5
)/5} ±0.15 V
V
2
= {V
DD
– 2
×
(V
DD
– V
5
)/5} ±0.15 V
V
3A
= V
3B
= {V
DD
– 3
×
(V
DD
– V
5
)/5} ±0.15 V
V
4
= {V
DD
– 4
×
(V
DD
– V
5
)/5} ±0.15 V
The voltages at the V
1
, V
2
, V
3A
(V
3B
), V
4
and V
5
pins should satisfy
V
DD
> V
1
> V
2
> V
3A
(V
3B
) > V
4
> V
5
.
→
Lower)
(Higher
←
* If the chip is attached on a substrate using COG technology, the chip tends to be susceptible
to electrical characteristics of the chip due to trace resistance on the glass substrate. It is
recommended to use the chip by confirming that it operates on the glass substrate properly.
Trace resistance, especially, V
DD
and V
SS
trace resistance, between the chip on the LCD
panel and the flexible cable should be designed as low as possible. Trace resistance that
cannot be very well decreased, larger size of the LCD panel, or greater trace capacitance
between the microcontroller and the ML9041A device can cause device malfunction. In order
to avoid the device malfunction, power noise should be reduced by serial interfacing of the
microcontroller and the ML9041A device.
* Do not apply short-circuiting across output pins and across an output pin and an input/output
pin or the power supply pin in the output mode.
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