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PCA8553DTT/AJ

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30P31-P33P34-P36P37-P39P40-P42P43-P45P46-P48P49-P51P52-P54P55-P56
PCA8553 All information provided in this document is subject to legal disclaimers. © NXP Semiconductors N.V. 2015. All rights reserved.
Product data sheet Rev. 2 — 27 March 2015 16 of 56
NXP Semiconductors
PCA8553
Automotive 40 × 4 LCD segment driver
9.1 LCD bias generator
Fractional LCD biasing voltages are obtained from an internal voltage divider of three
impedances connected between V
LCD
and V
SS
. These intermediate levels are tapped off
at positions of
1
3
and
2
3
, or
1
2
, depending on the bias mode chosen. To keep current
consumption to a minimum, on-chip low-power buffers provide these levels to the display.
9.2 LCD voltage selector
The LCD voltage selector coordinates the multiplexing of the LCD in accordance with the
selected LCD drive configuration. The operation of the voltage selector is controlled by the
Display_ctrl_1 command (see Table 7
). The biasing configurations that apply to the
preferred modes of operation, together with the biasing characteristics as functions of
V
LCD
and the resulting discrimination ratios (D) are given in Table 12.
A practical value for V
LCD
is determined by equating V
off(RMS)
with a defined LCD
threshold voltage (V
th(off)
), typically when the LCD exhibits approximately 10 % contrast. In
the static drive mode, a suitable choice is V
LCD
>3V
th(off)
.
Multiplex drive modes of 1:3 and 1:4 with
1
2
bias are possible but the discrimination and
hence the contrast ratios are smaller.
Bias is calculated with Equation 2
(2)
The values for a
bias
are:
a
bias
= 1 for
1
2
bias
a
bias
= 2 for
1
3
bias
The RMS on-state voltage (V
on(RMS)
) for the LCD is calculated with Equation 3:
(3)
where the values for n are
n
MUX
= 1 for static drive mode
n
MUX
= 2 for 1:2 multiplex drive mode
n
MUX
= 3 for 1:3 multiplex drive mode
Table 12. Biasing characteristics
LCD drive
mode
Number of: LCD bias
configuration
Backplanes Levels
static 1 2 static 0 1
1:2 multiplex 2 3
1
2
0.354 0.791 2.236
1:2 multiplex 2 4
1
3
0.333 0.745 2.236
1:3 multiplex 3 4
1
3
0.333 0.638 1.915
1:4 multiplex 4 4
1
3
0.333 0.577 1.732
V
off RMS
V
LCD
-------------------------
V
on RMS
V
LCD
------------------------
D
V
on RMS
V
off RMS
-------------------------=
1
1a
bias
+
---------------------
V
on RMS
a
bias
2
2a
bias
n
MUX
++
n
MUX
1a
bias
+
2
-----------------------------------------------------
V
LCD
=
PCA8553 All information provided in this document is subject to legal disclaimers. © NXP Semiconductors N.V. 2015. All rights reserved.
Product data sheet Rev. 2 — 27 March 2015 17 of 56
NXP Semiconductors
PCA8553
Automotive 40 × 4 LCD segment driver
n
MUX
= 4 for 1:4 multiplex drive mode
The RMS off-state voltage (V
off(RMS)
) for the LCD is calculated with Equation 4:
(4)
Discrimination is a term which is defined as the ratio of the on and off RMS voltages
(V
on(RMS)
to V
off(RMS)
) across a segment. It can be thought of as a measurement of
contrast. Discrimination is determined from Equation 5
:
(5)
Using Equation 5
, the discrimination for an LCD drive mode of 1:3 multiplex with
1
2
bias is and the discrimination for an LCD drive mode of 1:4 multiplex with
1
2
bias is .
The advantage of these LCD drive modes is a reduction of the LCD full scale voltage V
LCD
as follows:
1:3 multiplex (
1
2
bias):
1:4 multiplex (
1
2
bias):
These compare with when
1
3
bias is used.
V
LCD
is sometimes referred as the LCD operating voltage.
9.2.1 Electro-optical performance
Suitable values for V
on(RMS)
and V
off(RMS)
are dependent on the LCD liquid used. The
RMS voltage, at which a pixel will be switched on or off, determine the transmissibility of
the pixel.
For any given liquid, there are two threshold values defined. One point is at 10 % relative
transmission (at V
th(off)
) and the other at 90 % relative transmission (at V
th(on)
), see
Figure 9
. For a good contrast performance, the following rules should be followed:
(6)
(7)
V
on(RMS)
(see Equation 3) and V
off(RMS)
(see Equation 5) are properties of the display
driver and are affected by the selection of a
bias
, n
MUX
, and the V
LCD
voltage.
V
th(off)
and V
th(on)
are properties of the LCD liquid and can be provided by the module
manufacturer. V
th(off)
is sometimes named V
th
. V
th(on)
is sometimes named saturation
voltage V
sat
.
V
off RMS
a
bias
2
2 a
bias
n
MUX
+
n
MUX
1a
bias
+
2
--------------------------------------------------
V
LCD
=
D
V
on RMS
V
off RMS
-----------------------
a
bias
2
2a
bias
n
MUX
++
a
bias
2
2a
bias
n
MUX
+
-------------------------------------------------------==
3 1.732=
21
3
---------- 1.528=
V
LCD
6V
off RMS
2.449V
off RMS
==
V
LCD
43
3
----------------------
2.309V
off RMS
==
V
LCD
3V
off RMS
=
V
on RMS
V
th on
V
off RMS
V
th off
PCA8553 All information provided in this document is subject to legal disclaimers. © NXP Semiconductors N.V. 2015. All rights reserved.
Product data sheet Rev. 2 — 27 March 2015 18 of 56
NXP Semiconductors
PCA8553
Automotive 40 × 4 LCD segment driver
It is important to match the module properties to those of the driver in order to achieve
optimum performance.
Fig 9. Electro-optical characteristic: relative transmission curve of the liquid
9
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P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24P25-P27P28-P30P31-P33P34-P36P37-P39P40-P42P43-P45P46-P48P49-P51P52-P54P55-P56

PCA8553DTT/AJ

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Manufacturer:
NXP Semiconductors
Description:
FIFO Automotive 40X4 LCD segment driver
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