MCP73871DM-VPCC Microchip Technology, MCP73871DM-VPCC Datasheet - Page 22

MCP73871DM-VPCC

Manufacturer Part Number

MCP73871DM-VPCC

Description

DEMO BOARD FOR MCP73871

Manufacturer

Microchip Technology

Datasheets

1.MCP73871-2AAIML.pdf (38 pages)

2.MCP73871DM-VPCC.pdf (24 pages)

Specifications of MCP73871DM-VPCC

Main Purpose

Power Management, Battery Charger

Embedded

Utilized Ic / Part

MCP73871

Primary Attributes

1 Cell- Li-Ion / Li-Pol, 4.2V @ 100 ~ 500mA: USB, 1A: AC Adaptor

Secondary Attributes

Safety Timer, Thermal Protection, Automatic Charge Termination and Recharge

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MCP73871DM-VPCC

Manufacturer:

Microchip Technology

Quantity:

135

Current page: 22 of 38
Download datasheet (639Kb)

MCP73871

4.12

If the voltage on the IN pin drops to a preset value,

determined by the threshold established at the VPCC

input, due to a limited amount of input current or input

source impedance, then the battery charging current is

reduced. The VPCC control tries to reach a

steady-state condition where the system load has

priority and the battery is charged with the remaining

current. Therefore, if the system demands more

current than the input can provide, the ideal diode will

become forward biased and the battery is able to

supplement the input current to the system load.

The VPCC sustains the system load as its highest

priority. It does this by reducing the noncritical charge

current while maintaining the maximum power output of

the adapter. Further demand from the system is

supported by the battery, if possible.

The VPCC feature functions identically for USB port or

ac-dc adapter inputs. This feature can be disabled by

connecting the VPCC to IN pin.

DS22090B-page 22

Voltage Proportional Charge

Control (VPCC)

4.13

If the input current threshold is reached, then the

battery charging current is reduced. The ICLC tries to

reach a steady-state condition where the system load

has priority and the battery is charged with the

remaining current. No active control limits the current

to the system. Therefore, if the system demands more

current than the input can provide or the input ICLC is

reached, the ideal diode will become forward biased

and the battery is able to supplement the input current

to the system load.

The ICLC sustains the system load as its highest

priority. This is done by reducing the non-critical charge

current while adhering to the current limits governed by

the USB specification or the maximum ac-dc adapter

current supported. Further demand from the system is

supported by the battery, if possible.

FIGURE 4-4:

USB Port.

-100

-200

700

600

500

400

300

200

100

Input Current Limit Control (ICLC)

100 200 300 400 500 600 700

Load Current (mA)

Input Current Limit Control -

Ideal

Diode

Input Current

Battery Current

Load Current

MCP73871DM-VPCC Microchip Technology, MCP73871DM-VPCC Datasheet - Page 22

MCP73871DM-VPCC

Specifications of MCP73871DM-VPCC

Available stocks

Related parts for MCP73871DM-VPCC