MC145151DW2R2 Freescale Semiconductor, MC145151DW2R2 Datasheet - Page 9

MC145151DW2R2

Manufacturer Part Number

MC145151DW2R2

Description

IC PAR-IN PLL FREQ SYNTH 28-SOIC

Manufacturer

Freescale Semiconductor

Type

PLL Clock/Frequency Synthesizerr

Datasheet

1.MC145151DW2.pdf (24 pages)

Specifications of MC145151DW2R2

Pll

Yes

Input

Clock

Output

CMOS

Number Of Circuits

Ratio - Input:output

1:1

Differential - Input:output

No/No

Frequency - Max

25MHz

Divider/multiplier

Yes/No

Voltage - Supply

3 V ~ 9 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Frequency-max

25MHz

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

MC145151DW2TR

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N0 - N9

N Counter Programming Inputs (Pins 11 - 20)

The N inputs provide the data that is preset into the ÷ N counter when it reaches the count of 0. N0 is the

least significant digit and N9 is the most significant. Pull-up resistors ensure that inputs left open remain

at a logic 1 and require only a SPST switch to alter data to the zero state.

A0 - A5

A Counter Programming Inputs

(Pins 23, 21, 22, 24, 25, 10)

The A inputs define the number of clock cycles of f

Section 4.3, “Dual-Modulus

ensure that inputs left open will remain at a logic 1.

OSC

Reference Oscillator Input/Output (Pins 27, 26)

These pins form an on-chip reference oscillator when connected to terminals of an external parallel

resonant crystal. Frequency setting capacitors of appropriate value must be connected from OSC

ground and OSC

signal. This signal is typically ac coupled to OSC

levels) dc coupling may also be used. In the external reference mode, no connection is required to OSC

2.2.2

Phase Detector B Outputs (Pins 7, 8)

These phase detector outputs can be combined externally for a loop-error signal.

If the frequency f

pulsing low. φ

If the frequency of f

minimum time period when both pulse low in phase.

Dual-Modulus Prescale Control Output (Pin 9)

Signal generated by the on-chip control logic circuitry for controlling an external dual-modulus prescaler.

The MC level will be low at the beginning of a count cycle and will remain low until the ÷ A counter has

counted down from its programmed value. At this time, MC goes high and remains high until the ÷ N

counter has counted the rest of the way down from its programmed value (N - A additional counts since

both ÷ N and ÷ A are counting down during the first portion of the cycle). MC is then set back low, the

counters preset to their respective programmed values, and the above sequence repeated. This provides for

a total programmable divide value (N

Freescale Semiconductor

, φ

pulsing low. φ

, OSC

Output Pins

out

remains essentially high.

out

is less than f

is greater than f

remains essentially high.

to ground. OSC

= f

and both are in phase, then both φ

Prescaling,”

MC145151-2 and MC145152-2 Technical Data, Rev. 5

or if the phase of f

may also serve as the input for an externally-generated reference

) = N • P + A where P and P + 1 represent the dual-modulus prescaler

on page

MC145152-2 Parallel-Input (Interfaces with Dual-Modulus Prescalers)

21). The A inputs all have internal pull-up resistors that

, but for larger amplitude signals (standard CMOS logic

is lagging, then error information is provided by φ

that require a logic 0 on the MC output (see

is leading, then error information is provided by

and φ

remain high except for a small

out

MC145151DW2R2 Freescale Semiconductor, MC145151DW2R2 Datasheet - Page 9

MC145151DW2R2

Specifications of MC145151DW2R2

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