MC74HC4046AFEL ON Semiconductor, MC74HC4046AFEL Datasheet - Page 8

MC74HC4046AFEL

Manufacturer Part Number

MC74HC4046AFEL

Description

IC PHASE LOCK LOOP CMOS 16SOEIAJ

Manufacturer

ON Semiconductor

Series

74HCr

Type

Phase Lock Loop (PLL)r

Datasheet

1.MC74HC4046ADR2G.pdf (18 pages)

Specifications of MC74HC4046AFEL

Pll

Yes

Input

CMOS

Output

CMOS

Number Of Circuits

Ratio - Input:output

1:4

Frequency - Max

13MHz

Divider/multiplier

No/No

Voltage - Supply

3 V ~ 6 V

Operating Temperature

-55°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (5.3mm Width), 16-SO, 16-SOEIIJ

Frequency-max

13MHz

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

MC74HC4046AFELOS

Current page: 8 of 18
Download datasheet (167Kb)

Phase Comparators

COMP

network that enables AC coupling of input signals. If the

signals are not AC coupled, standard 74HC input levels are

required. Both input structures are shown in Figure 7. The

Phase Comparator 1

74HC86. Its operation is similar to an overdriven balanced

modulator. To maximize lock range the input frequencies

must have a 50% duty cycle. Typical input and output

waveforms are shown in Figure 8. The output of the phase

detector feeds the loop filter which averages the output

voltage. The frequency range upon which the PLL will lock

onto if initially out of lock is defined as the capture range.

The capture range for phase detector 1 is dependent on the

loop filter design. The capture range can be as large as the

lock range, which is equal to the VCO frequency range.

two square wave signals are applied to this comparator, an

output waveform (whose duty cycle is dependent on the

phase difference between the two signals) results. As the

phase difference increases, the output duty cycle increases

and the voltage after the loop filter increases. In order to

achieve lock when the PLL input frequency increases, the

VCO input voltage must increase and the phase difference

between COMP

frequency equal to f

requires the phase detector output to be grounded; hence, the

All three phase comparators have two inputs, SIG

This comparator is a simple XOR gate similar to the

To see how the detector operates, refer to Figure 8. When

COMP

SIG

. The SIG

and SIG

min

and COMP

, the VCO input is at 0 V. This

will increase. At an input

Figure 7. Logic Diagram for Phase Comparators

have a special DC bias

http://onsemi.com

MC74HC4046A

and

outputs of these comparators are essentially standard 74HC

outputs (comparator 2 is TRI−STATEABLE). In normal

operation V

filter. This differs from some phase detectors which supply

a current to the loop filter and should be considered in the

design. (The MC14046 also provides a voltage).

two input signals must be in phase. When the input

frequency is f

detector inputs must be 180 degrees out of phase.

of the SIG

a signal 2 times the VCO frequency results in the same

output duty cycle as a signal equal to the VCO frequency.

The difference is that the output frequency of the 2f example

is twice that of the other example. The loop filter and VCO

range should be designed to prevent locking on to

harmonics.

COMP

PC1

The XOR is more susceptible to locking onto harmonics

VCO

SIG

OUT

Figure 8. Typical Waveforms for PLL Using

than the digital phase detector 2. For instance,

max

and ground voltage levels are fed to the loop

, the VCO input must be V

Phase Comparator 1

PCP

PC2

PC3

PC1

OUT

and the phase

GND

MC74HC4046AFEL ON Semiconductor, MC74HC4046AFEL Datasheet - Page 8

MC74HC4046AFEL

Specifications of MC74HC4046AFEL

Related parts for MC74HC4046AFEL