KIT34671EPEVBE Freescale Semiconductor, KIT34671EPEVBE Datasheet - Page 5

KIT34671EPEVBE

Manufacturer Part Number

KIT34671EPEVBE

Description

KIT EVALUATION FOR MC34671

Manufacturer

Freescale Semiconductor

Type

Battery Managementr

Datasheet

1.KIT34671EPEVBE.pdf (13 pages)

Specifications of KIT34671EPEVBE

Main Purpose

Power Management, Battery Charger

Embedded

Utilized Ic / Part

MC34671

Primary Attributes

1 Cell- Li-Ion

Secondary Attributes

LED Status Indicators

Input Voltage

2.6 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Product

Power Management Modules

Supply Current

600 mA

Silicon Manufacturer

Freescale

Silicon Core Number

MC34671

Kit Application Type

Power Management - Battery

Application Sub Type

Battery Charger

Kit Contents

Evaluation Board, CD

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

MC34671

Current page: 5 of 13
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component recommendations in this configuration, it is the customer’s responsibility to validate

their application.

5.1

The input capacitor is used to minimize the input voltage transient that may cause instability. A

ceramic capacitor of 1.0µF or above is required for most applications. X5R and X7R dielectrics

have better temperature stability. The evaluation board uses 1.0µF X5R ceramic capacitors.

Considering the maximum input voltage rating of the MC34671 is 28V, the input capacitor must

have 16V DC rated voltage.

5.2

The output capacitor is used for stable operation. A ceramic capacitor minimum of a 2.2µF is

required. On the evaluation board, a C2 of 2.2µF is necessary. The large capacitors of C4, C5,

and C6 are used to simulate the situation in the cell phone application where big capacitance is

put in parallel with the Li-Ion battery. The user may remove C4, C5, and C6 if their system doesn’t

need such large capacitance. C4, C5, and C6 do not affect the performance of the MC34671.

Because the highest output voltage of the MC34671 is 4.2V, a 6.3V DC rated voltage is high

enough for the output capacitors.

5.3

The resistor between the ISET pin and GND sets the charge current by the following equation:

where R

should be used for temperature stability. As a result, the charge current will be accurate over the

whole temperature range.

On the evaluation board, three resistors with two pin header jumpers are used for the user to

conveniently configure different charge current values.

the different settings of pin headers JP7 and JP8.

Freescale Semiconductor

CHG

= 2667 / (R

Component Selection

ISET

Input capacitor C1

Output capacitors C2, C4, C5, and C6

Charge current setting resistors R6, R7, and R8

is in units of Ω, I

ISET

Using the High Input Voltage Charger for Single Cell Li-Ion

+96) (A)

CHG

Open

Short

Open

Short

Table 2. The Charge Current Settings

JP7

is in units of amps. A metal film with a 1% tolerance resistor

Open

Short

JP8

Table 2

150mA

300mA

450mA

600mA

Charge Current

shows the charge current with

Batteries, Rev. 1.0

Component Selection

KIT34671EPEVBE Freescale Semiconductor, KIT34671EPEVBE Datasheet - Page 5

KIT34671EPEVBE

Specifications of KIT34671EPEVBE

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