PIC24FJ16MC101_12 Datasheet, PDF(22/350 Page) Microchip Technology – 16-bit Microcontrollers (up to 32 KB Flash and 2 KB SRAM)

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PIC24FJ16MC101_12 Datasheet, PDF (22/350 Pages) Microchip Technology – 16-bit Microcontrollers (up to 32 KB Flash and 2 KB SRAM)

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PIC24FJ16MC101/102 AND PIC24FJ32MC101/102/104

FIGURE 2-1:

RECOMMENDED

MINIMUM CONNECTION

VDD

10 ÂµF

Tantalum

0.1 ÂµF

Ceramic

R

R1

MCLR

C

PIC24F

VSS

VDD

VDD

0.1 ÂµF

Ceramic

VSS

0.1 ÂµF

Ceramic

L1(1)

0.1 ÂµF

Ceramic

0.1 ÂµF

Ceramic

Note 1:

As an option, instead of a hard-wired connection, an

inductor (L1) can be substituted between VDD and

AVDD to improve ADC noise rejection. The inductor

impedance should be less than 1Î© and the inductor

capacity greater than 10 mA.

Where:

f = F-----C---N----V-

2

(i.e., ADC conversion rate/2)

f = -----------1------------

(2Ï LC)

L

=

â

â

(---2---Ï----f1------C-----)â â

2

2.2.1 TANK CAPACITORS

On boards with power traces running longer than six

inches in length, it is suggested to use a tank capacitor

for integrated circuits including MCUs to supply a local

power source. The value of the tank capacitor should

be determined based on the trace resistance that con-

nects the power supply source to the device, and the

maximum current drawn by the device in the applica-

tion. In other words, select the tank capacitor so that it

meets the acceptable voltage sag at the device. Typical

values range from 4.7 ÂµF to 47 ÂµF.

2.3 CPU Logic Filter Capacitor

Connection (VCAP)

A low-ESR (< 5 Ohms) capacitor is required on the

VCAP pin, which is used to stabilize the voltage

regulator output voltage. The VCAP pin must not be

connected to VDD, and must have a capacitor between

4.7 ÂµF and 10 ÂµF, 16V connected to ground. The type

can be ceramic or tantalum. Refer to Section 26.0

âElectrical Characteristicsâ for additional

information.

The placement of this capacitor should be close to the

VCAP. It is recommended that the trace length not

exceed one-quarter inch (6 mm). Refer to Section 23.2

âOn-Chip Voltage Regulatorâ for details.

2.4 Master Clear (MCLR) Pin

The MCLR pin provides two specific device

functions:

â¢ Device Reset

â¢ Device programming and debugging

During device programming and debugging, the

resistance and capacitance that can be added to the

pin must be considered. Device programmers and

debuggers drive the MCLR pin. Consequently,

specific voltage levels (VIH and VIL) and fast signal

transitions must not be adversely affected. Therefore,

specific values of R and C will need to be adjusted

based on the application and PCB requirements.

For example, as shown in Figure 2-2, it is

recommended that the capacitor C, be isolated from

the MCLR pin during programming and debugging

operations.

Place the components shown in Figure 2-2 within

one-quarter inch (6 mm) from the MCLR pin.

FIGURE 2-2:

EXAMPLE OF MCLR PIN

CONNECTIONS

VDD

R(1)

R1(2)

MCLR

JP

PIC24F

C

Note 1:

2:

R â¤ 10 kÎ© is recommended. A suggested

starting value is 10 kÎ©. Ensure that the

MCLR pin VIH and VIL specifications are met.

R1 â¤ 470Î© will limit any current flowing into

MCLR from the external capacitor C, in the

event of MCLR pin breakdown, due to

Electrostatic Discharge (ESD) or Electrical

Overstress (EOS). Ensure that the MCLR pin

VIH and VIL specifications are met.

DS39997C-page 22

Preliminary

Â© 2011-2012 Microchip Technology Inc.

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