KITPF0100EPEVBE Freescale Semiconductor, KITPF0100EPEVBE Datasheet - Page 19

KITPF0100EPEVBE

Manufacturer Part Number

KITPF0100EPEVBE

Description

Power Management IC Development Tools MMPF0100 Eval Boar

Manufacturer

Freescale Semiconductor

Type

PMIC Solutionsr

Datasheet

1.KITPF0100EPEVBE.pdf (74 pages)

Specifications of KITPF0100EPEVBE

Rohs

yes

Product

Evaluation Boards

Tool Is For Evaluation Of

PF0100

Input Voltage

3.1 V to 4.5 V

Output Voltage

3.1 V to 4.5 V

Description/function

Evaluation Board

Interface Type

USB

Output Current

3 A to 5 A

For Use With

PF0100

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9.1

Freescale Semiconductor

The KITPF0100EPEVBE operates with a single power supply from 3.1 to 4.5 V and is controlled via USB with help

of an integrated USB-I

power up according to the default power-up sequence described in the PF0100 datasheet. Furthermore, for

controlling the PF0100 device or programming the OTP registers, refer to section

Description

Important notice: If power-up sequences and configuration are to be modified, the user must ensure that the

where the quantity, size, and value of the inductors depend on the configuration (single/dual phase or independent

mode) and the switching frequency. Additionally, if an LDO is powered by a buck regulator, it will be gated by the

buck regulator in the start-up sequence. Refer to the MMPF0100 Datasheet for details on buck regulator setup.

Jumper

J1 - J7

Hardware Description

J17

J20

J40

J41

J27

J22

J26

J24

J30

J39

Jumper Description

for a detailed description of the KITPF0100GUI software.

Closed

5-6

1-2

Closed

Open

Closed

2-3

Open

2-3

1-2

Default

C communication bridge. By applying the input voltage supply, the KITPF0100EPEVBE will

Table 1. KITPF0100EPEVBE jumper description

Buck regulators input power path isolation.

Short these jumpers to allow SWxIN to be powered from the SWVIN supply.

SWBST regulator input power path isolation.

Short this jumper to allow SWBSTIN to be powered from the SWVIN supply.

VDDOTP Supply selector

Coin cell selector.

Shorts PVIN and SWVIN. Allows supply isolation to provide more accurate efficiency

readings on the switching supplies.

Shorts SWVIN to VIN. Allows one to isolate or connect the PF0100 logic input supply to

SWVIN net. (debugging option)

Shorts PVIN to VIN. Allows one to isolate or connect the PF0100 logic input supply to

PVIN net. (debugging option)

PF0100 input logic supply selector.

Short to hold PWRON pin low.

Short to pull STANDBY to VSNVS voltage supply.

If 3.3V LDO output is desired as the VDDIO and I

short pins 1,2 and 3 to make sure VDDIO uses the same reference as the I

Control Interface input supply selector

• 1-2: Connect VDDOTP to the OTP Boost output (VDDOTPIN) for OTP programming.

• 3-4: Connect VDDOTP to GND to power up from OTP/TBB sequence.

• 5-6: Connect VDDOTP to VCOREDIG to power up from Default Power up sequence.

• 1-2: Enables BAT1 as the main coin cell supply.

• 2-3: Enables BAT2 as the main coin cell supply.

• 1-2: Connects PF0100 VIN terminal to the 3.3V external LDO regulator for debugging

• 2-3: Connects PF0100 VIN terminal to the main input supply. Refer to

• 1-2: Pull the SCL/SDA signals to the external 3.3V LDO regulator output.

• 2-3: Pull the SCL/SDA signals to the selected VDDIO supply.

• 1-2: Enables PVIN node as the input supply source for the control interface.

• 2-3: Enables USB power as the input supply source for the control interface.

C pull-up supply selector

purposes.

KTPF0100UG, Rev. 2.0

Description

C supply, remove R33 and R34 and

Graphical User Interface

Hardware Description

Figure

C supply.

11.

KITPF0100EPEVBE Freescale Semiconductor, KITPF0100EPEVBE Datasheet - Page 19

KITPF0100EPEVBE

Specifications of KITPF0100EPEVBE

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