MAX7375AXR425-T Ver la hoja de datos (PDF) - Maxim Integrated

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Fabricante

MAX7375AXR425-T

3-Pin Silicon Oscillator

Maxim Integrated 

3-Pin Silicon Oscillator

Typical Operating Characteristics (continued)

(V+ = 5V, TA = +25°C, CL = 10pF, 8MHz output, unless otherwise noted.)

CLOCK OUTPUT WAVEFORM

WITH CL = 50pF

MAX7375 toc10

CLOCK OUTPUT WAVEFORM

WITH CL = 100pF

MAX7375 toc11

CLOCK

1V/div

CLOCK

1V/div

40ns/div

V+ = 3.3V

40ns/div

V+ = 3.3V

SC70

1

2

3

PIN

SOT23

2

1

3

NAME

V+

CLOCK

GND

Pin Description

FUNCTION

Positive Supply Voltage

Clock output. Output is push-pull.

Ground

Detailed Description

The MAX7375 is a replacement for ceramic resonators,

crystals, and crystal oscillator modules as the clock

source for microcontrollers and UARTs in 3V, 3.3V, and

5V applications. The MAX7375 is an integrated oscilla-

tor, supplied at specific frequencies just like crystals

and resonators. A variety of popular standard frequen-

cies are available. No external components are

required for setting or adjusting the frequency.

Supply Voltages

The MAX7375 has been designed for use in systems

with nominal supply voltages of 3V, 3.3V, or 5V and is

specified for operation with supply voltages in the 2.7V

to 5.5V range. Operation outside this range is not guar-

anteed. See the Absolute Maximum Ratings table for

limit values of power-supply and pin voltages.

Oscillator

The clock output is a push-pull configuration and is

capable of driving a ground-connected 1kΩ load or a

positive supply connected 500Ω load to within 300mV

of either supply rail. The clock output remains stable

over the full operating voltage range and does not gen-

erate short output cycles during either power on or

power off. A typical startup characteristic is shown in

the Typical Operating Characteristics section.

Output Jitter

The MAX7375’s jitter performance is given in the

Electrical Characteristics table as a peak-to-peak value

obtained by observing the output of the MAX7375 for

20s with a 500MHz oscilloscope. Jitter measurements

are approximately proportional to the period of the out-

put frequency of the device. Thus, a 4MHz part has

approximately twice the jitter value of an 8MHz part.

The jitter performance of all clock sources degrades in

the presence of mechanical and electrical interference.

The MAX7375 is relatively immune to vibration, shock,

and EMI influences and thus provides a considerably

more robust clock source than crystal- or ceramic-res-

onator-based oscillator circuits.

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