PIC24FJ64GA306-I/MR Microchip Technology, PIC24FJ64GA306-I/MR Datasheet - Page 323
PIC24FJ64GA306-I/MR
Manufacturer Part Number
PIC24FJ64GA306-I/MR
Description
16-bit, 16 MIPS, 64 KB Flash, 8 KB RAM, 53 I/O, LCD, XLP W/Vbat 64 QFN 9x9x0.9mm
Manufacturer
Microchip Technology
Datasheet
1.PIC24FJ128GA308-IPT.pdf
(406 pages)
27.0
The Charge Time Measurement Unit (CTMU) is a
flexible
measurement, accurate differential time measurement
between pulse sources and asynchronous pulse
generation. Its key features include:
• Thirteen external edge input trigger sources
• Polarity control for each edge source
• Control of edge sequence
• Control of response to edge levels or edge
• Time measurement resolution of one nanosecond
• Accurate current source suitable for capacitive
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,
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.
2010-2011 Microchip Technology Inc.
Note:
transitions
measurement
CHARGE TIME
MEASUREMENT UNIT (CTMU)
analog
Section 11. “Charge Time Measurement
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
“PIC24F
Unit (CTMU)” (DS39724).
CTMUCON2
module
Family
that
Reference
and
provides
CTMUICON.
Manual”,
PIC24FJ128GA310 FAMILY
charge
27.1
The
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 four sources: two
internal peripheral modules (OC1 and Timer1) and up
to 13 external pins (CTEDG1 through CTEDG13). This
pulse is used with the module’s precision current
source to calculate capacitance according to the
relationship:
EQUATION 27-1:
For capacitance measurements, the A/D Converter
samples an external capacitor (C
input channels after the CTMU output’s pulse. A
precision resistor (R
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 27-1
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
measuring capacitance and time with the CTMU
module is provided in the “PIC24F Family Reference
Manual”, Section 11. “Charge Time Measurement
Unit (CTMU)”.
CTMU
Measuring Capacitance
illustrates the external connections used
module
I
PR
=
measures
) provides current source
C
dV
------ -
dT
APP
DS39996F-page 323
capacitance
) on one of its
by
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