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PIC24FJ128GC010 FAMILY

DS30009312B-page 434  2012-2013 Microchip Technology Inc.

TABLE 37-13: VBAT OPERATING VOLTAGE SPECIFICATIONS

TABLE 37-15: USB ON-THE-GO MODULE SPECIFICATIONS

Param

No.

Symbol Characteristic Min Typ Max Units Comments

DVB01 V

BT Operating Voltage 1.6 — 3.6 V Battery connected to the

BAT pin, VBTBOR = 0

DVB02 V

BATBOR — 3.6 V Battery connected to the

BAT pin, VBTBOR = 1

DVB10 VBTADC VBAT A/D Monitoring Voltage

Specification

(1)

1.6 — 3.6 V A/D monitoring the VBAT

pin using the internal A/D

channel

Note 1: Measuring the A/D value using the A/D is represented by the equation:

Measured Voltage = ((V

BAT/2)/VDD) * 4096) for 12-bit A/D.

TABLE 37-14: CTMU CURRENT SOURCE SPECIFICATIONS

DC CHARACTERISTICS

Standard Operating Conditions: 2.0V to 3.6V (unless otherwise stated)

Operating temperature -40°C  T

A  +85°C for Industrial

Param

No.

Sym Characteristic Min Typ

(1)

Max Units Comments Conditions

DCT10 I

OUT1 CTMU Current

Source, Base Range

— 550 — nA CTMUICON<1:0> = 00

2.5V < V

DD < VDDMAX

DCT11 IOUT2 CTMU Current

Source, 10x Range

—5.5—A CTMUICON<1:0> = 01

DCT12 I

OUT3 CTMU Current

Source, 100x Range

—55—A CTMUICON<1:0> = 10

DCT13 I

OUT4 CTMU Current

Source, 1000x Range

— 550 — A CTMUICON<1:0> = 11

(2)

DCT21 V Temperature Diode

Voltage Change per

Degree Celsius

—-3—mV/°C

Note 1: Nominal value at center point of current trim range (CTMUICON<7:2> = 000000).

2: Do not use this current range with temperature sensing diode.

DC CHARACTERISTICS

Standard Operating Conditions: 2.0V to 3.6V (unless otherwise stated)

Operating temperature -40°C  T

A  +85°C for Industrial

Param

No.

Symbol Characteristic Min Typ Max Units Conditions

Operating Voltage

DUS01 V

USB3V3 USB Supply Voltage Greater of:

3.0 or

DD – 0.3V)

3.3 3.6 V USB module enabled

DD – 0.3V)

(1)

— 3.6 V USB disabled, RG2/RG3

are unused and externally

pulled low or left in a

high-impedance state

DD – 0.3V) VDD 3.6 V USB disabled, RG2/RG3

are used as general

purpose I/O

Note 1: The V

USB pin may also be left in a high-impedance state under these conditions. However, if the voltage

floats below (V

DD – 0.3V), this may result in higher IPD currents than specified. The preferred method is to

tie the V

USB pin to VDD, even if the USB module is not used.