PCA85233UG/2DA/Q1Z Datasheet PCA85233UG/2DA/Q1Z | P22-P24

Product data sheet Rev. 4 — 6 May 2015 22 of 54

NXP Semiconductors

PCA85233

Automotive 80 × 4 LCD driver for low multiplex rates

7.8.4 1:4 Multiplex drive mode

When four backplanes are provided in the LCD, the 1:4 multiplex drive mode applies, as

shown in Figure 13

state1

(t) = V

(t)  V

BP0

(t).

on(RMS)

= 0.577V

LCD

state2

(t) = V

(t)  V

BP1

(t).

off(RMS)

= 0.333V

LCD

Fig 13. Waveforms for the 1:4 multiplex drive mode with

⁄

bias

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Product data sheet Rev. 4 — 6 May 2015 23 of 54

NXP Semiconductors

PCA85233

Automotive 80 × 4 LCD driver for low multiplex rates

7.9 Backplane outputs

The LCD drive section includes four backplane outputs: BP0 to BP3. The backplane

output signals are generated in accordance with the selected LCD drive mode.

• In the 1:4 multiplex drive mode BP0 to BP3 must be connected directly to the LCD.

If less than four backplane outputs are required the unused outputs can be left

open-circuit.

• In 1:3 multiplex drive mode: BP3 carries the same signal as BP1; therefore, these two

adjacent outputs can be tied together to give enhanced drive capabilities.

• In 1:2 multiplex drive mode: BP0 and BP2, respectively, BP1 and BP3 carry the same

signals and can also be paired to increase the drive capabilities.

• In static drive mode: The same signal is carried by all four backplane outputs; and

they can be connected in parallel for very high drive requirements.

7.10 Segment outputs

The LCD drive section includes 80 segment outputs (S0 to S79) which must be connected

directly to the LCD. The segment output signals are generated in accordance with the

multiplexed backplane signals and with data residing in the display register. When less

than 80 segment outputs are required the unused segment outputs must be left

open-circuit.

Product data sheet Rev. 4 — 6 May 2015 24 of 54

NXP Semiconductors

PCA85233

Automotive 80 × 4 LCD driver for low multiplex rates

8. Characteristics of the I

C-bus

The I

C-bus is for bidirectional, two-line communication between different ICs or modules.

The two lines are a Serial DAta line (SDA) and a Serial CLock line (SCL). Both lines must

be connected to a positive supply via a pull-up resistor when connected to the output

stages of a device. Data transfer may be initiated only when the bus is not busy.

By connecting pin SDAACK to pin SDA on the PCA85233, the SDA line becomes fully

C-bus compatible. In COG applications where the track resistance from the SDAACK

pin to the system SDA line can be significant, possibly a voltage divider is generated by

the bus pull-up resistor and the Indium Tin Oxide (ITO) track resistance. As a

consequence it may be possible that the acknowledge generated by the PCA85233 can’t

be interpreted as logic 0 by the master. In COG applications where the acknowledge cycle

is required, it is therefore necessary to minimize the track resistance from the SDAACK

pin to the system SDA line to guarantee a valid LOW level.

By separating the acknowledge output from the serial data line (having the SDAACK open

circuit) design efforts to generate a valid acknowledge level can be avoided. However, in

that case the I

C-bus master has to be set up in such a way that it ignores the

acknowledge cycle.

The following definition assumes SDA and SDAACK are connected and refers to the pair

as SDA.

8.1 Bit transfer

One data bit is transferred during each clock pulse. The data on the SDA line must remain

stable during the HIGH period of the clock pulse as changes in the data line at this time

will be interpreted as a control signal (see Figure 14

8.2 START and STOP conditions

Both data and clock lines remain HIGH when the bus is not busy.

A HIGH-to-LOW change of the data line, while the clock is HIGH, is defined as the START

condition (S).

A LOW-to-HIGH change of the data line, while the clock is HIGH, is defined as the STOP

condition (P).

2. For further information, please consider the NXP application note: Ref. 1 “AN10170”.

Fig 14. Bit transfer

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PCA85233UG/2DA/Q1Z

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NXP Semiconductors

Description:

LCD Drivers PCA85233UG/WLCSP201//2DA/Q1/DIE 3 WAFFLE CARRIERS

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