PIC24FV16KM204 Datasheet, PDF(241/336 Page) Microchip Technology – General Purpose, 16-Bit Flash Microcontroller with XLP Technology Data Sheet

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PIC24FV16KM204 Datasheet, PDF (241/336 Pages) Microchip Technology – General Purpose, 16-Bit Flash Microcontroller with XLP Technology Data Sheet

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PIC24FV16KM204 FAMILY

24.0 CHARGE TIME

MEASUREMENT UNIT (CTMU)

Note:

This data sheet summarizes the features of

this group of PIC24F devices. It is not

intended to be a comprehensive reference

source. For more information on the

Charge Measurement Unit, refer to the

âPIC24F Family Reference Manualâ,

Section 53. âCharge Time Measurement

Unit (CTMU) with Threshold Detectâ

(DS39743).

The Charge Time Measurement Unit (CTMU) is a

flexible analog module that provides charge

measurement, accurate differential time measurement

between pulse sources and asynchronous pulse

generation. Its key features include:

â¢ Thirteen external edge input Trigger sources

â¢ Polarity control for each edge source

â¢ Control of edge sequence

â¢ Control of response to edge levels or edge

transitions

â¢ Time measurement resolution of one nanosecond

â¢ Accurate current source suitable for capacitive

measurement

Together with other on-chip analog modules, the CTMU

can be used to precisely measure time, measure

capacitance, measure relative changes in capacitance

or generate output pulses that are independent of the

system clock. The CTMU module is ideal for interfacing

with capacitive-based touch sensors.

The CTMU is controlled through three registers:

CTMUCON1, CTMUCON2 and CTMUICON.

CTMUCON1 enables the module and controls the mode

of operation of the CTMU, as well as controlling edge

sequencing. CTMUCON2 controls edge source selec-

tion and edge source polarity selection. The CTMUICON

register selects the current range of current source and

trims the current.

24.1 Measuring Capacitance

The CTMU module measures capacitance by

generating an output pulse, with a width equal to the

time between edge events, on two separate input

channels. The pulse edge events to both input

channels can be selected from several internal

peripheral modules (OC1, Timer1, any input capture or

comparator module) and up to 13 external pins

(CTED1 through CTED13). This pulse is used with the

moduleâs precision current source to calculate

capacitance according to the relationship:

EQUATION 24-1:

I = C ï d-d---VT--

For capacitance measurements, the A/D Converter

samples an external capacitor (CAPP) on one of its

input channels after the CTMU outputâs pulse. A preci-

sion resistor (RPR) provides current source calibration

on a second A/D channel. After the pulse ends, the

converter determines the voltage on the capacitor. The

actual calculation of capacitance is performed in

software by the application.

Figure 24-1 illustrates the external connections used

for capacitance measurements, and how the CTMU

and A/D modules are related in this application. This

example also shows the edge events coming from

Timer1, but other configurations using external edge

sources are possible. A detailed discussion on measur-

ing capacitance and time with the CTMU module is

provided in the âPIC24F Family Reference Manualâ.

ï£ 2013 Microchip Technology Inc.

Advance Information

DS33030A-page 241

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