HPM10_16 Datasheet, PDF(16/18 Page) ON Semiconductor – Power Management IC for Hearing Aids

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HPM10_16 Datasheet, PDF (16/18 Pages) ON Semiconductor – Power Management IC for Hearing Aids

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HPM10

â¢ StepâDown Charge Pump: A high efficiency charge

pump, generating a voltage equal to 1/3 of the battery

voltage is used for LiâIon batteries. It supplies directly

to the hearing aid chip as the main power supply. The

output impedance of the charge pump is low (less than

10 ohms).

â¢ Digital Voltage Regulator: This block provides the

supply voltage to the digital logic, low voltage

bandâgaps, oscillator, I/V sense, and ADC when in

Charge Mode

â¢ Hearing Aid Mode Voltage Regulator: This block

provides the supply voltage to all the analog blocks

when in Hearing Aid Mode.

â¢ Digital Interfaces

â¦ The digital inputs and outputs SDA, SCL and CCIF

are powered from the VDDIO supply pin, which can

be connected to DVREG or another available supply.

VDDIO is not used in Hearing Aid mode. When the

I2C interface is used for debugging, it is preferable

that VDDIO is powered externally to minimize

measurement errors.

â¦ The digital inputs and outputs SWOUT, DS_EN,

EXT_CLK, CLKDIV[2:0], AGZN_REG_EN and

WARN are powered from the VHA.

â¢ Voltage References: There are two bandgap voltage

references on the chip. One is a precision bandgap used

to generate the highâprecision voltage references

needed for charging. It also generates other references

for the ADC, OSC, and current reference. A 1 V low

resolution bandgap is used in Hearing Aid Mode for

wakeup and Veol comparators.

General Purpose AnalogâtoâDigital Converter (ADC)

The general purpose ADC with input mux will allow the

state machine to properly manage the charging algorithm

based on analog measurements.

The signals being monitored include:

â¢ Battery voltage (VBAT)

â¢ Charge current

â¢ Internal temperature

â¢ Charger input voltage (VDDP)

â¢ VREF (from BandGap, used to calibrate ADC offset)

Power Domains

The input/output is divided into several independent

power domains, each with their own ESD clamping

structures to allow flexibility in the allowed voltages that

can be present on the pins, shown in Table 6.

Table 6. POWER DOMAIN DESCRIPTIONS

Power Domain

Pins

VDDP

DVREG

VDDIO

SCL, SDA, CCIF, ATST_EN

VHA

SWOUT, WARN, DS_EN, EXT_CLK, CLKDIV[2:0],

AGZN_REG_EN

VBAT

SWIN, VHA, CP1A, CP1B, Cp2A, CP2B

VDD_OTP

VSS

VSS, VSSA, VSSCP

Description

Full voltage range

All digital input/output used in Cradle Mode

All digital input/output used in Hearing Aid mode

All voltages derived from VBAT

Supports overvoltage for OTP burning

All grounds are shorted together < 2 ohms

Development Tools

A full suite of comprehensive tools is available to assist

developers from the initial concept and technology

assessment through to prototyping and product launch.

An Evaluation Board and a Charger Board are available

for customers to demonstrate, evaluate, and develop

products based on HPM10.

HPM10 Programming Interface: This application is

primarily used on the production line. It allows a technician

to program HPM10âs OTP predetermined register values. A

userâs manual will describe the product application features.

The communication between the PC and HPM10 will be

supported by either the Promira Serial Platform from

TotalPhase, Inc. or the Communication Accelerator Adaptor

(CAA) from ON Semiconductor. On the PC, the

communication box will use a USB interface. On HPM10,

the I2C interface of HPM10 will be used.

Company or Product Inquiries

For more information about ON Semiconductor products

or services visit our Web site at http://onsemi.com.

www.onsemi.com

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