Fujitsu MB15E07SL Fiche De Données

6

■

(V

CC

 = 2.4 to 3.6 V, Ta = –40 to +85

°

C)

*1 : Conditions; fosc = 12 MHz, Ta = +25

°

C, in locking state.

*2 : V

CC

 = V

P

 = 3.0 V, fosc = 12.8 MHz, Ta = +25

°

C, in power saving mode

Power supply current*

1

I

CC

*1

fin = 2500 MHz, V

CC

 = V

P

 = 2.7 V

(V

CC

 = V

P

 = 3.0 V)

–

3.5

(4.0)

–

mA

Power saving current

I

PS

ZC = “H” or open

–

0.1

*2

10

µ

A

Operating frequency

fin

f

IN

–

700

–

2500

MHz

OSC

IN

OSC

IN

–

3

–

40

MHz

Input sensitivity

fin

*3

Pfin

50

 Ω 

system

(Refer to the measurement 
  circuit.)

–15

–

+2

dBm

OSC

IN

*3

V

OSC

–

0.5

–

V

CC

Vp-p

“H” level input voltage

Data,

Clock,

LE, PS, 

ZC

V

IH

–

V

CC

 ×

 0.7

–

–

V

“L” level input voltage

V

IL

–

–

–

V

CC

 × 

0.3

“H” level input current

Data,

Clock,

LE, PS

I

IH

*4

–

–1.0

–

+1.0

µ

A

“L” level input current

I

IL

*4

–

–1.0

–

+1.0

“H” level input current

OSC

IN

I

IH

–

0

–

+100

µ

A

“L” level input current

I

IL

*4

–

–100

–

0

“H” level input current

ZC

I

IH

*4

–

–1.0

–

+1.0

µ

A

“L” level input current

I

IL

*4

Pull up input

–100

–

0

“L” level output voltage

φφφφ

P

V

OL

Open drain output

–

–

0.4

V

“H” level output voltage

φφφφ

R,

LD/fout

V

OH

V

CC

 = V

P

 = 3.0 V, I

OH

 = –1 mA

V

CC

 – 0.4

–

–

V

“L” level output voltage

V

OL

V

CC

 = V

P

 = 3.0 V, I

OL

 = 1 mA

–

–

0.4

“H” level output voltage

Do

V

DOH

V

CC

 = V

P

 = 3.0 V, I

DOH

 = –0.5 mA V

P

 – 0.4

–

–

V

“L” level output voltage

V

DOL

V

CC

 = V

P

 = 3.0 V, I

DOL

 = 0.5 mA

–

–

0.4

High impedance cutoff 
current

Do

I

OFF

V

CC

 = V

P

 = 3.0 V,

V

OFF

 = 0.5 V to V

P

 – 0.5 V

–

–

2.5

nA

“L” level output current

φφφφ

P

I

OL

Open drain output

1.0

–

–

mA

“H” level output current

φφφφ

R,

LD/fout

I

OH

–

–

–

–1.0

mA

“L” level output current

I

OL

–

1.0

–

–

“H” level output current

Do

I

DOH

*4

V

CC

 = 3 V,

V

P 

= 3 V,

V

DO

 = V

P

/2

Ta = +25

°

C

CS bit = “H”

–

–6.0

–

mA

CS bit = “L”

–

–1.5

–

“L” level output current

I

DOL

CS bit = “H”

–

6.0

–

CS bit = “L”

–

1.5

–

Charge pump current 
rate

I

DOL

/I

DOH

I

DOMT

*5

V

DO

 = V

P

/2

–

3

–

%

vs V

DO

I

DOVD

*6

0.5 V 

≤

 V

DO

 

≤

 V

P

 – 0.5 V

–

10

–

%

vs Ta

I

DOTA

*7

– 40

°

C 

≤

 Ta 

≤

 +85

°

C

–

10

–

%