ADP8861ACPZ-R7 Analog Devices Inc, ADP8861ACPZ-R7 Datasheet - Page 19

ADP8861ACPZ-R7

Manufacturer Part Number

ADP8861ACPZ-R7

Description

Charge Pump Based Backlight Controller

Manufacturer

Analog Devices Inc

Series

-r

Datasheet

1.ADP8861ACPZ-RL.pdf (40 pages)

Specifications of ADP8861ACPZ-R7

Constant Current

Constant Voltage

Topology

Switched Capacitor (Charge Pump)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Backlight, LED Blinker

Type - Secondary

RGB, White LED

Frequency

800kHz ~ 1.32MHz

Voltage - Supply

2.5 V ~ 5.5 V

Voltage - Output

4.3 V ~ 5.5 V

Mounting Type

Surface Mount

Package / Case

20-WFQFN Exposed Pad, CSP

Operating Temperature

-40°C ~ 85°C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

ADP8861ACPZ-R7

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 19 of 40
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APPLICATIONS INFORMATION

The ADP8861 allows the charge pump to operate efficiently

with a minimum of external components. Specifically, the user

must select an input capacitor (C

and two charge pump fly capacitors (C1 and C2). C

be 1 μF or greater. The value must be high enough to produce

a stable input voltage signal at the minimum input voltage and

maximum output load. A 1 μF capacitor for C

Larger values are permissible, but care must be exercised to

ensure that VOUT charges above 55% (typical) of V

4 ms (typical). See the Short-Circuit Protection Mode section

for more details.

For best practice, it is recommended that the two charge pump

fly capacitors be 1 μF; larger values are not recommended, and

smaller values may reduce the ability of the charge pump to

deliver maximum current. For optimal efficiency, the charge

pump fly capacitors should have low equivalent series resistance

(ESR). Low ESR X5R or X7R capacitors are recommended for

all four components. The use of fly capacitors sized 0402 and

smaller is allowed, but the GDWN_DIS bit in Register 0x01

must be set. Minimum voltage ratings should adhere to the

guidelines in Table 6.

Table 6. Capacitor Stress in Each Charge Pump Gain State

Capacitor

Any color LED can be used if the Vf (forward voltage) is less

than 4.1 V. However, using lower Vf LEDs reduces the input

power consumption by allowing the charge pump to operate at

lower gain states.

The equivalent circuit model for a charge pump is shown in

Figure 39.

The input voltage is multiplied by the gain (G) and delivered to

the output through an effective resistance (R

current flows through R

The R

switches used in the charge pump and a small resistance, which

accounts for the effective dynamic charge pump resistance. The

switches). Typical R

and Figure 14.

OUT

level changes based upon the gain (the configuration of the

OUT

term is a combination of the R

= G ×V

Figure 39. Charge Pump Equivalent Circuit Model

Gain = 1×

None

G × V

OUT

VOUT

− I

OUT

values are given in Table 1, Figure 13,

OUT

Gain = 1.5×

OUT

× R

× 1.5 (max of 5.5 V)

and produces an IR drop to yield:

OUT

(G)

), output capacitor (C

DSON

OUT

resistance for the

Gain = 2×

is recommended.

). The output

× 2.0 (max of 5.5 V)

should

within

OUT

Rev. A | Page 19 of 40

(5)

voltage drop across the regulating current source. This gives

Combining Equation 5 and Equation 6 gives

Equation 7 is useful for calculating approximate bounds for the

charge pump design.

DETERMINING THE TRANSITION POINT OF THE

CHARGE PUMP

Consider the following design example where:

At the point of a gain transition, V

typical value of V

level when the gain transitions from 1.5× to 2× is

LAYOUT GUIDELINES

Note the following layout guidelines:

•

OUT

(MAX)

= 140 mA (7 LEDs at 20 mA each)

For optimal noise immunity, place the C

capacitors as close to their respective pins as possible. These

capacitors should share a short ground trace. If the LEDs

are a significant distance from the VOUT pin, another

capacitor on VOUT, placed closer to the LEDs, is advisable.

For optimal efficiency, place the charge pump fly capacitors

(C1 and C2) as close to the part as possible.

The ADP8861 does not distinguish between power ground and

analog ground. Therefore, both ground pins can be connected

directly together. It is recommended that these ground pins

be connected at the ground for the input and output capacitors.

The LFCSP package requires the exposed pad to be

soldered at the board to the GND1 and/or GND2 pin(s).

Unused diode pins (Pin D1 to Pin D7) can be connected

to ground or to VOUT, or remain floating. However, the

unused diode current sinks must be disabled by setting

them as independent sinks in Register 0x05 and then

disabling them in Register 0x10. If they are not disabled,

the charge pump efficiency may suffer.

If the interrupt pin (nINT) is not used, connect it to

ground or leave it floating. Never connect it to a voltage

supply, except through a ≥1 kΩ series resistor.

The ADP8861 has an integrated noise filter on the nRST pin.

Under normal conditions, it is not necessary to filter the reset

line. However, if the part is exposed to an unusually noisy

signal, it is beneficial to add a small RC filter or bypass capacitor

on this pin. If the nRST pin is not used, it must be pulled

well above the V

nRST pin to float.

(G = 1.5×) = 3 Ω (obtained from Figure 13)

is also equal to the largest Vf of the LEDs used plus the

OUT

= 3.7 V

= (Vf

= (3.7 V + 0.2 V + 140 mA × 3 Ω)/1.5 = 2.88 V

= Vf

(MAX)

HR(UP)

+ V

IH(MIN)

as 0.2 V. Therefore, the input voltage

+ I

level (see Table 1). Do not allow the

OUT

× R

OUT

= V

(G))/G

HR(UP)

. Table 1 gives the

and C

ADP8861

OUT

(6)

(7)

ADP8861ACPZ-R7 Analog Devices Inc, ADP8861ACPZ-R7 Datasheet - Page 19

ADP8861ACPZ-R7

Specifications of ADP8861ACPZ-R7

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