MCP73223T-C2SI/MF Microchip Technology, MCP73223T-C2SI/MF Datasheet - Page 17

MCP73223T-C2SI/MF

Manufacturer Part Number

MCP73223T-C2SI/MF

Description

IC LI IRON PHOSPHATE CTRLR 10DFN

Manufacturer

Microchip Technology

Datasheet

1.MCP73123-22SIMF.pdf (34 pages)

Specifications of MCP73223T-C2SI/MF

Battery Type

Lithium Iron Phosphate (LiFePO4)

Package / Case

10-DFN

Function

Charge Management

Voltage - Supply

4 V ~ 16 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Product

Charge Management

Output Voltage

7.2 V

Output Current

130 mA to 1100 mA

Operating Supply Voltage

4.2 V to 13 V

Supply Current

700 uA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Charge Safety Timers

Mounting Style

SMD/SMT

Temperature Monitoring

Uvlo Start Threshold

4.15 V

Uvlo Stop Threshold

4.05 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

MCP73X23EV-LFP - BOARD EVAL BATT CHARGER MCP73X23

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MCP73223T-C2SI/MF

Manufacturer:

MICROCHIP

Quantity:

12 000

Current page: 17 of 34
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5.0

5.1

An internal undervoltage lockout (UVLO) circuit

monitors the input voltage and keeps the charger in

Shutdown mode until the input supply rises above the

UVLO threshold. In the event a battery is present when

the input power is applied, the input supply must rise

approximately 150 mV above the battery voltage

before the MCP73123/223 becomes operational.

The UVLO circuit places the device in shutdown mode

if the input supply falls to approximately 150 mV above

the battery voltage.The UVLO circuit is always active.

At any time, the input supply is below the UVLO

threshold or approximately 150 mV of the voltage at the

Shutdown mode.

5.2

An internal overvoltage protection (OVP) circuit

monitors the input voltage and keeps the charger in

shutdown mode when the input supply rises above

the OVP threshold. The hysteresis of OVP is

approximately 150 mV for the MCP73123/223 device.

The MCP73123/223 device is operational between

UVLO and OVP threshold. The OVP circuit is also

recognized as an overvoltage lockout (OVLO).

5.3

When the input power is applied, the input supply must

rise 150 mV above the battery voltage before the

MCP73123/223 becomes operational.

The automatic power down circuit places the device in

a shutdown mode if the input supply falls to within

+50 mV of the battery voltage.

The automatic circuit is always active. At any time the

input supply is within +50 mV of the voltage at the

mode.

For a charge cycle to begin, the automatic power

down conditions must be met and the charge enable

input must be above the input high threshold.

5.3.1

The V

223. The MCP73123/223 automatically enters a

Power-down mode if the voltage on the V

to within +50 mV of the battery voltage. This feature

prevents draining the battery pack when the V

supply is not present.

 2011 Microchip Technology Inc.

BAT

Note:

pin, the MCP73123/223 is placed in a Shutdown

pin, the MCP73123/223 device is placed in a

DETAILED DESCRIPTION

Undervoltage Lockout (UVLO)

Overvoltage Protection (OVP)

Charge Qualification

input is the input supply to the MCP73123/

In order to extend the battery cycle life, the

charge will initiate only when battery

voltage is below 3.4V per cell.

BATTERY MANAGEMENT INPUT

SUPPLY (V

)

input falls

5.3.2

The battery charge control output is the drain terminal

of an internal P-channel MOSFET. The MCP73123/223

provides constant current and voltage regulation to the

battery pack by controlling this MOSFET in the linear

region. The battery charge control output should be

connected to the positive terminal of the battery pack.

5.3.3

The MCP73123/223 detects the battery presence with

charging of the output capacitor. The charge flow will

initiate when the voltage on V

“Electrical Characteristics”

The value will be the same for non-rechargeable

device.

When V

suspended or not started, depending on the condition,

to prevent overcharge that may occur.

5.4

If the voltage at the V

preconditioning threshold, the MCP73123/223 device

enters a preconditioning mode. The preconditioning

threshold is factory set. Refer to

“Electrical

threshold options.

In this mode, the MCP73123/223 device supplies 10%

of the fast charge current (established with the value of

the resistor connected to the PROG pin) to the battery.

When the voltage at the V

preconditioning threshold, the MCP73123/223 device

enters the Constant Current (Fast Charge) mode.

5.4.1

If the internal timer expires before the voltage threshold

is reached for fast charge mode, a timer fault is

indicated and the charge cycle terminates. The

MCP73123/223 device remains in this condition until

the battery is removed or input power is cycled. If the

battery is removed, the MCP73123/223 device enters

the Standby mode, where it remains until a battery is

reinserted.

RECHARGE

Note:

BAT

Preconditioning

BATTERY CHARGE CONTROL

OUTPUT (V

BATTERY DETECTION

The MCP73123/223 also offers options

with no preconditioning.

TIMER EXPIRED DURING

PRECONDITIONING MODE

The typical preconditioning timer for

MCP73123/223 is 32 minutes.

MCP73123/223 also offers options with no

preconditioning timer.

> V

Characteristics”

threshold.

MCP73123/223

REG

+ Hysteresis, the charge will be

BAT

Refer

)

BAT

for V

pin is less than the

pin rises above the

for

is pulled below the

RECHARGE

DS22191C-page 17

preconditioning

Section 1.0

values.

The

MCP73223T-C2SI/MF Microchip Technology, MCP73223T-C2SI/MF Datasheet - Page 17

MCP73223T-C2SI/MF

Specifications of MCP73223T-C2SI/MF

Available stocks

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