5027 Datasheet, PDF(10/21 Page) Nippon Precision Circuits Inc

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5027 Datasheet, PDF (10/21 Pages) Nippon Precision Circuits Inc – Crystal Oscillator Module ICs

◁

5027 series

For Fundamental Oscillator: High frequency version (5027ÃP to 5027ÃW)

VDD = 1.60 to 3.63V, VSS = 0V, Ta = â40 to +85Â°C unless otherwise noted.

Parameter

Symbol

Condition

Rating

Unit

min

typ

max

HIGH-level output voltage

VOH Q: Measurement cct 3, IOH = â 4mA

VDD â 0.4

LOW-level output voltage

VOL Q: Measurement cct 3, IOL = 4mA

HIGH-level input voltage

VIH INHN, Measurement cct 4

0.7VDD

LOW-level input voltage

VIL

INHN, Measurement cct 4

Output leakage current

Q: Measurement cct 5,

INHN = LOW

VOH = VDD

VOL = VSS

â 10

5027ÃP (fO), Measurement cct 1,

VDD = 3.3V

2.5

no load, INHN = open, fO = 80MHz, VDD = 2.5V

2.0

fOUT = 80MHz

VDD = 1.8V

1.6

5027ÃQ (fO/2), Measurement cct 1, VDD = 3.3V

2.4

no load, INHN = open, fO = 80MHz, VDD = 2.5V

1.9

fOUT = 40MHz

VDD = 1.8V

1.5

5027ÃR (fO/4), Measurement cct 1, VDD = 3.3V

1.8

no load, INHN = open, fO = 80MHz, VDD = 2.5V

1.5

fOUT = 20MHz

VDD = 1.8V

1.2

5027ÃS (fO/8), Measurement cct 1, VDD = 3.3V

1.7

Current consumption*1

IDD

no load, INHN = open, fO = 80MHz, VDD = 2.5V

1.4

fOUT = 10MHz

VDD = 1.8V

1.1

5027ÃT (fO/16), Measurement cct 1, VDD = 3.3V

1.6

no load, INHN = open, fO = 80MHz, VDD = 2.5V

1.3

fOUT = 5MHz

VDD = 1.8V

1.0

5027ÃV (fO/32), Measurement cct 1, VDD = 3.3V

1.5

no load, INHN = open, fO = 80MHz, VDD = 2.5V

1.2

fOUT = 2.5MHz

VDD = 1.8V

1.0

5027ÃW (fO/64), Measurement cct 1, VDD = 3.3V

1.5

no load, INHN = open, fO = 80MHz, VDD = 2.5V

1.2

fOUT = 1.25MHz

VDD = 1.8V

1.0

Standby current

IST

Measurement cct 1, INHN = LOW

INHN pull-up resistance

RUP1

Measurement cct 6

RUP2

0.4

1.5

Oscillator feedback

resistance

100

0.4

0.3VDD

ÂµA

3.8

3.0

2.4

3.6

2.9

2.3

2.7

2.3

1.6

2.6

2.1

1.7

2.4

2.0

1.5

2.3

1.8

1.5

2.3

1.8

1.5

ÂµA

Mâ¦

150

kâ¦

200

kâ¦

Oscillator capacitance

Design value (a monitor pattern on a wafer is tested),

1.6

Excluding parasitic capacitance.

3.2

2.4

4.8

*1. The consumption current IDD (CLOUT) with a load capacitance (CLOUT) connected to the Q pin is given by the following equation, where IDD is the no-

load consumption current and

IDD (CLOUT) [mA] = IDD [mA] +

fOUT is

CLOUT

the output frequency.

[pF] Ã VDD [V] Ã fOUT

[MHz]

10â3

SEIKO NPC CORPORATION â10

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