PCA85132U/2DB/Q1,0 NXP Semiconductors, PCA85132U/2DB/Q1,0 Datasheet - Page 38

PCA85132U/2DB/Q1,0

Manufacturer Part Number

PCA85132U/2DB/Q1,0

Description

IC LCD DRIVER 32 UNCASED

Manufacturer

NXP Semiconductors

Datasheet

1.PCA85132U2DAQ10.pdf (53 pages)

Specifications of PCA85132U/2DB/Q1,0

Display Type

LCD

Configuration

Multiple

Interface

I²C

Digits Or Characters

Any Digit Type

Current - Supply

60µA

Voltage - Supply

1.8 V ~ 5.5 V

Operating Temperature

-40°C ~ 95°C

Mounting Type

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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PCA85132_1

Product data sheet

12.3 Cascaded operation

In large display configurations, up to 8 PCA85132 can be distinguished on the same

Table 20.

When cascaded PCA85132 are synchronized, they can share the backplane signals from

one of the devices in the cascade. Such an arrangement is cost-effective in large LCD

applications since the backplane outputs of only one device need to be through-plated to

the backplane electrodes of the display. The other PCA85132 of the cascade contribute

additional segment outputs but their backplane outputs are left open-circuit (see

Figure

For display sizes that are not multiple of 640 elements, a mixed cascaded system can be

considered containing only devices like PCA85132 and PCA85133. Depending on the

application, one must take care of the software commands compatibility and pin

connection compatibility.

The SYNC line is provided to maintain the correct synchronization between all cascaded

PCA85132. This synchronization is guaranteed after the Power-On Reset (POR). The

only time that SYNC is likely to be needed is if synchronization is accidentally lost (e.g. by

noise in adverse electrical environments, or by the definition of a multiplex mode when

PCA85132 with different SA0 levels are cascaded). SYNC is organized as an input/output

pin; the output selection being realized as an open-drain driver with an internal pull-up

resistor. A PCA85132 asserts the SYNC line at the onset of its last active backplane signal

and monitors the SYNC line at all other times. Should synchronization in the cascade be

lost, it will be restored by the first PCA85132 to assert SYNC. The timing relationship

between the backplane waveforms and the SYNC signal for the various drive modes of

the PCA85132 are shown in

When using an external clock signal with high frequencies (f

recommended to have an external pull-up resistor between pin SYNC and pin V

Table

When using it in a cascaded configuration, care must be taken not to route the SYNC

signal to close to noisy signals.

The contact resistance between the SYNC pads of cascaded devices must be controlled.

If the resistance is too high, the device will not be able to synchronize properly. This is

particularly applicable to COG applications.

resistance.

Cluster

C-bus by using the 2-bit hardware subaddress (A0 and A1) and the programmable

C-bus slave address (SA0).

19). This resistor should be present even when no cascading configuration is used!

28).

Addressing cascaded PCA85132

All information provided in this document is subject to legal disclaimers.

Bit SA0

Rev. 01 — 6 May 2010

Figure

30.

Pin A1

Table 21

shows the limiting values for contact

LCD driver for low multiplex rates

Pin A0

clk(ext)

> 4 kHz) it is

PCA85132

Device

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PCA85132U/2DB/Q1,0

Specifications of PCA85132U/2DB/Q1,0

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