PCA9620H/Q900/1,51 NXP Semiconductors, PCA9620H/Q900/1,51 Datasheet - Page 33

LCD Drivers 480 SEGMENT LCD SEGMENT DRIVER

PCA9620H/Q900/1,51

Manufacturer Part Number

PCA9620H/Q900/1,51

Description

LCD Drivers 480 SEGMENT LCD SEGMENT DRIVER

Manufacturer

NXP Semiconductors

Datasheet

1.PCA9620HQ900151.pdf (71 pages)

Specifications of PCA9620H/Q900/1,51

Number Of Segments

Maximum Clock Frequency

14500 Hz

Operating Supply Voltage

2.5 V to 5.5 V

Maximum Power Dissipation

400 mW

Maximum Operating Temperature

+ 105 C

Package / Case

LQFP-80

Maximum Supply Current

200 uA

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

935291899518

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Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

PCA9620H/Q900/1,51

Manufacturer:

NXP Semiconductors

Quantity:

10 000

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NXP Semiconductors

PCA9620

Product data sheet

7.4.5 Charge pump driving capability

7.4.6 Charge pump frequency settings and power efficiency

Figure 25

deliver.

The output resistance of the charge pump is specified in

values it can be calculated how much current the charge pump can drive under certain

conditions.

Example: Assuming the user would like to have the normal operation point at 25 °C with

theoretical value of V

the theoretical maximum value and desired one is 3.0 V. The charge pump resistance is

nominally 0.85 kΩ.

deliver:

For this example we get:

In cases where no extreme driving capability is needed, a command is available for

decreasing the charge pump frequency (see

total current consumption. If the charge pump frequency is halved, then the driving

capability is halved as well, whereas the output resistance doubles.

The PCA9620 offers the possibility to use different frequency settings for the charge

pump. Bit CPF controls the frequency at which the charge pump is running (see

on page

but also on the charge pump driving capability. Using a lower charge pump frequency

decreases the current consumption and the driving capability.

The power efficiency of the charge pump determines in certain applications which

frequency settings to choose for the CPF bit. In the example shown in

current consumption was measured with the charge pump set to 2 × V

setup, which is close to 6.0 V. The current load on pin V

delivered by the IC:

The current consumption on pin V

load

Fig 25. Charge pump model (used to characterize the driving strength)

LCD

DD2

= 7.0 V and V

= 3.0 V and VPR[7:0] set to maximum to obtain the maximum possible V

load

ΔV

11). This frequency has a direct influence on the current consumption of the IC

illustrates the main factor determining how much current the charge pump can

LCD

⁄

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

Theoretical V

o cp

LCD

(

DD2

Equation 7

= 2 × V

= 3 × V

)

LCD

Rev. 1 — 9 December 2010

= 5.0 V and the charge pump is set to 2 × V

is 10.0 V and the desired one is 7.0 V. The difference between

DD2

LCD

load

value

shows the possible current that the charge pump could

3.0 V 0.85 kΩ

DD2

determines the input power taken by the IC:

⁄

Output Resistance

o(cp)

Universal LCD driver for low multiplex rates

Table 22 on page

Regulated desired V

This supplies the segments

and backplanes

3.5 mA

LCD

Table 35 on page

determines the output power

11) and thus reducing the

LCD

013aaa259

DD2

PCA9620

DD2

. Then the

Figure

and with

55. With these

LCD

26, the

Table 22

with this

33 of 71

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PCA9620H/Q900/1,51 NXP Semiconductors, PCA9620H/Q900/1,51 Datasheet - Page 33

PCA9620H/Q900/1,51

Specifications of PCA9620H/Q900/1,51

Available stocks

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