PIC18F2220 Datasheet, PDF(225/388 Page) Microchip Technology – 28/40/44-Pin High-Performance, Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC18F2220 Datasheet, PDF (225/388 Pages) Microchip Technology – 28/40/44-Pin High-Performance, Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC18F2220/2320/4220/4320

20.2 Comparator Operation

A single comparator is shown in Figure 20-2, along with

the relationship between the analog input levels and

the digital output. When the analog input at VIN+ is less

than the analog input VIN-, the output of the comparator

is a digital low level. When the analog input at VIN+ is

greater than the analog input VIN-, the output of the

comparator is a digital high level. The shaded areas of

the output of the comparator in Figure 20-2 represent

the uncertainty due to input offsets and response time.

20.3 Comparator Reference

An external or internal reference signal may be used

depending on the comparator operating mode. The

analog signal present at VIN- is compared to the signal

at VIN+ and the digital output of the comparator is

adjusted accordingly (Figure 20-2).

FIGURE 20-2:

SINGLE COMPARATOR

VIN+

+

VIN-

â

Output

VIVNI-Nâ

VIVNIN++

OOuuttppuutt

20.3.1 EXTERNAL REFERENCE SIGNAL

When external voltage references are used, the

comparator module can be configured to have the com-

parators operate from the same or different reference

sources. However, threshold detector applications may

require the same reference. The reference signal must

be between VSS and VDD and can be applied to either

pin of the comparator(s).

20.3.2 INTERNAL REFERENCE SIGNAL

The comparator module also allows the selection of an

internally generated voltage reference for the compara-

tors. Section 21.0 âComparator Voltage Reference

Moduleâ contains a detailed description of the compar-

ator voltage reference module that provides this signal.

The internal reference signal is used when comparators

are in mode, CM2:CM0 = 110 (Figure 20-1). In this

mode, the internal voltage reference is applied to the

VIN+ pin of both comparators.

Depending on the setting of the CVROE bit

(CVRCON<6>), the voltage reference may also be

available on pin RA2.

20.4 Comparator Response Time

Response time is the minimum time, after selecting a

new reference voltage or input source, before the

comparator output has a valid level. If the internal ref-

erence is changed, the maximum delay of the internal

voltage reference must be considered when using the

comparator outputs. Otherwise, the maximum delay of

the comparators should be used (see Table 26-2 in

Section 26.0 âElectrical Characteristicsâ).

20.5 Comparator Outputs

The comparator outputs are read through the CMCON

register. These bits are read-only. The comparator

outputs may also be directly output to the RA4 and RA5

I/O pins. When enabled, multiplexers in the output path

of the RA4 and RA5 pins will switch and the output of

each pin will be the unsynchronized output of the com-

parator. The uncertainty of each of the comparators is

related to the input offset voltage and the response time

given in the specifications. Figure 20-3 shows the

comparator output block diagram.

The TRISA bits will still function as an output enable/

disable for the RA4 and RA5 pins while in this mode.

The polarity of the comparator outputs can be changed

using the C2INV and C1INV bits (CMCON<4:5>).

Note 1: When reading the Port register, all pins

configured as analog inputs will read as a

â0â. Pins configured as digital inputs will

convert an analog input according to the

Schmitt Trigger input specification.

2: Analog levels on any pin defined as a

digital input may cause the input buffer to

consume more current than is specified.

ï£© 2003 Microchip Technology Inc.

DS39599C-page 223

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