MCP73841_13 Datasheet, PDF(14/26 Page) Microchip Technology – Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

MCP73841_13 Datasheet, PDF (14/26 Pages) Microchip Technology – Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers

◁

MCP73841/2/3/4

5.1.6

BATTERY VOLTAGE SENSE (VBAT)

The MCP7384X monitors the battery voltage at the

VBAT pin. This input is tied directly to the positive

terminal of the battery. The MCP7384X is offered in

four fixed-voltage versions for single or dual series cell

battery packs, with either coke or graphite anodes:

- 4.1V (MCP73841-4.1, MCP73843-4.1)

- 4.2V (MCP73841-4.2, MCP73843-4.2)

- 8.2V (MCP73842-8.2, MCP73844-8.2)

- 8.4V (MCP73842-8.4, MCP73844-8.4)

5.1.7 DRIVE OUTPUT (DRV)

The MCP7384X controls the gate drive to an external

P-channel MOSFET. The P-channel MOSFET is

controlled in the linear region regulating current and

voltage supplied to the cell. The drive output is

automatically turned off when the voltage on the VDD

input falls below the undervoltage lockout voltage

(VSTOP).

5.2 Digital Circuitry

5.2.1 CHARGE STATUS OUTPUT (STAT1)

A status output provides information on the state-of-

charge. The current-limited, open-drain output can be

used to illuminate an external LED. Optionally, a pull-up

resistor can be used on the output for communication

with a host microcontroller. Table 5-1 summarizes the

state of the status output during a charge cycle.

TABLE 5-1: STATUS OUTPUTS

Charge Cycle State

Stat1

Qualification

Preconditioning

Constant-Current Fast

Charge

Constant-Voltage

Charge Complete

Safety Timer Fault

Cell Temperature Invalid

Disabled - Sleep mode

Battery Disconnected

OFF

Flashing

(1 Hz, 50% duty cycle)

Flashing

(1 Hz, 50% duty cycle)

OFF

The flashing rate (1 Hz) is based off a timer capacitor

(CTIMER) of 0.1 ÂµF. The rate will vary based on the

value of the timer capacitor.

5.2.2 LOGIC ENABLE (EN)

The logic-enable input pin (EN) can be used to

terminate a charge anytime during the charge cycle,

initiate a charge cycle or initiate a recharge cycle.

Applying a logic-high input signal to the EN pin, or tying

it to the input source, enables the device. Applying a

logic-low input signal disables the device and

terminates a charge cycle. When disabled, the deviceâs

supply current is reduced to 0.25 ÂµA, typically.

DS21823D-page 14

ï£ 2003-2013 Microchip Technology Inc.

▷