Voltage detectors bd48xxg/fve bd49xxg/fve, Electrical characteristics, Term explanation – Rainbow Electronics BD4923G_FVE User Manual

Power dissipation

When it is used in the ambient temperature of (Ta)=25°C and more, make reference to each thermal derating
characteristics of used package. Both Fig.5 and Fig.6 show these characteristic when only IC is used.

Power consumption of the IC

SSOP5

(SMP5C2) package

75

100

125

150

200

25

50

50

100

0

P

o

w

er dissipation (mW)

Ambient temperature Ta(°C)

EMP5

(VSOF5) package

Fig.5 Thermal derating curve

Fig.6 Thermal derating curve

75

100

125

150

200

25

50

50

100

0

P

o

w

er dissipation (mW)

Ambient temperature Ta(°C)

BD48XXFVE

BD49XXFVE

Circuit current at ON/OFF is very small. Power consumption in output depends on each load connected with
V

OUT

pin. Please note that total power consumption must be within a power dissipation range in the secure

area of the entire operating temperature. Power dissipation of these packages; SSOP5 (SMP5C2) package
(BD48XXG/BD49XXG) Fig.5, and VSOF5 (EMP5) package (BD48XXFVE/BD49XXFVE) Fig.6 is shown below.

—

—

—
—
—

—

—

0.60

0.80
0.85
0.90

—

100

1.80

—

0.51

1.53

V

S

=2.3 to 3.1V

—

0.56

1.68

V

S

=3.2 to 4.2V

V

S

=4.3 to 5.2V

—

0.66

1.98

V

S

=5.3 to 6.0V

V

S

=3.2 to 4.2V

V

S

=4.3 to 5.2V

V

S

=5.3 to 6.0V

—

0.75

V

S

=2.3 to 3.1V

2.25
2.40
2.55
2.70

0.1

T

PLH

I

CC1

I

CC2

I

leak

"H" transfer delay time

Circuit current when ON

Circuit current when OFF

Output leak current

V

S X

0.03 V

S X

0.05 V

S X

0.08

V

Hysteresis voltage

RL=470k , V

DD

=L H L

C

L

=100pF, R

L

=100k

*2

Detection voltage

temperature coefficient

—

±100

±360

ppm/°C

*1 Operation is guaranteed forTa=25°C.
*2 T

PLH

: V

DD

=(V

S

typ.–0.5V) (V

S

typ.+0.5V).

Note) RL is not necessary for CMOS output type.
Note) Minimum operating voltage
V

OUT

output becomes inconsistent if the V

DD

is equal to or lower than the operating limit voltage. It goes open, H, or L.

Note) Hysteresis voltage=(Reset release voltage)-(Reset detection voltage) [V]

V

OUT

=GND 50%

*1

V

DD

=Vs–0.2V

V

DD

=Vs+2V

0.95

—

—

V

V

OPL

Min. operating voltage

R

L

=470k , V

OL

0.4V

*1

V

DD

=V

DS

=10V

*1

0.7

1.4

—

0.9

1.8

—

1.1

2.2

—

mA

I

OH

"H" output current

V

DS

=0.5V, V

DD

=4.8V V

S

=2.3 to 4.2V

V

DS

=0.5V, V

DD

=6.0V V

S

=4.3 to 5.2V

V

DS

=0.5V, V

DD

=8.0V V

S

=5.3 to 6.0V

Electrical characteristics (

Unless otherwise noted; Ta=-25°C to 85°C)

2.0

4

—

mA

I

OL

"L" output current

0.4

1

—

V

DS

=0.5V, V

DD

=1.2V

V

DS

=0.5V, V

DD

=2.4V (V

S

2.7V)

Symbol

Min.

Max.

Unit

Conditions

Fig.28

Fig.31

Fig.12,13
15,17

Fig.33

Fig.31

Fig.32

Fig.30

Fig.29

Reference

Tap.

Parameter

• Detection voltage (V

S

) : V

DD

voltage when the output (Vout) goes from "H" to "L".

• Release voltage (V

S

+ V

S

) : V

DD

voltage when output (Vout) goes from "L" to "H".

• Hysteresis voltage : The difference between detection voltage and release voltage. Malfunction due to noise in V

DD

(within hysteresis voltage) could be avoided by hysteresis voltage.

Term explanation

*1

*1

BD48XXG

BD49XXG

4/15

Voltage detectors

BD48XXG/FVE
BD49XXG/FVE

V

S

/ T

Rev.A

V

S

s

A

A

A

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