ROHM EMG2, FMG2A, UMG2N Schematic [ru]

EMG2 / UMG2N / FMG2A

Transistors

Emitter common
(dual digital transistors)

EMG2 / UMG2N / FMG2A

zFeatures

1) Two DTC144E chips in a EMT or UMT or SMT
package.

2) Mounting cost and area can be cut in half.

zStructure

Dual NPN digital transistor
(each with a single built in resistors)

The following characteristics apply to both the DTr
DTr

2.

1 and

zEquivalent circuit

EMG2 / UMG2N FMG2A

DTr

R

1

2

(2)

(3) (4) (5)

R2R

2

(1)

R
DTr

1

1

R1=47kΩ

2

=47kΩ

R

(3) (2) (1)

R

1

DTr

2

(4)

R2R

R1=47kΩ

2

=47kΩ

R

R

1

2

DTr

1

(5)

zAbsolute maximum ratings (Ta = 25°C)

Parameter Symbol

Supply voltage

Input voltage

Output current

Power
dissipation

EMG2, UMG2N 150 (TOTAL)
FMG2A 300 (TOTAL)

C (Max.)

I

Junction temperature
Storage temperature

1 120mW per element must not be exceeded.

∗

2 200mW per element must not be exceeded.

∗

Tstg −55 to +150 ˚C

V

CC

IN

V

O

I

Pd

Tj 150 ˚C

Limits

50 V
40

−10
30

100

Unit

V

mA

mW

Rev.A 1/2

zExternal dimensions (Unit : mm)

EMG2

(4)

0.22

(5)

1.2

1.6

0.13

ROHM : EMT5

Abbreviated symbol : G2

UMG2N

ROHM : UMT5
EIAJ : SC-88A

)

4

(

0.2

(5)

1.25

2.1

0.15

0.1Min.

0to0.1

Each lead has same dimensions

Abbreviated symbol : G2

FMG2A

ROHM : SMT5
EIAJ : SC-74A

)

2

(

0.3

)

1

(

1.6

2.8

0.15

0.3to0.6

0to0.1

Each lead has same dimensions

Abbreviated symbol : G2

1

∗

2

∗

(3)

0.5

1.0

1.6

(2)

0.5

(1)

0.5

Each lead has same dimensions

)

3

(

)

0.65

2

(

1.3

2.0

)

0.65

1

(

0.9

0.7

)

3

(

0.95

2.9

1.9

)

4

(

0.95

)

5

(

1.1

0.8

EMG2 / UMG2N / FMG2A

Transistors

zElectrical characteristics (Ta = 25°C)

Parameter Symbol

Input voltage

Output voltage
Input current
Output current
DC current gain
Transition frequency
Input resistance
Resistance ratio

Transition frequency of the device

∗

zPackaging specifications

Package
Code TR T148

Type

Basic ordering

unit (pieces)
EMG2
UMG2N
FMG2A

zElectrical characteristic curves

100

50

20

(V)

I (on)

10

Ta=−40˚C

5

2
1

500m

INPUT VOLTAGE : V

200m
100m

100µ 200µ 500µ1m 2m 5m 10m 20m 50m100m

25˚C

100˚C

OUTPUT CURRENT : I

Fig.1 Input voltage vs. output current

(on-characteristics)

1

500m

Ta=100˚C

(V)

200m

O (on)

100m

50m

20m
10m

5m

OUTPUT VOLTAGE : V

2m
1m

100µ 200µ 500µ1m 2m 5m 10m 20m 50m100m

25˚C

−40˚C

OUTPUT CURRENT : I

Fig.4 Output voltage vs. output
current

R2/R

O

(A)

O

V
V

V

I

(A)

Min.

Typ. Max. Unit Conditions

−

I (off)

I (on)

O (on)

I

O (off)

G

f

R

I

I

T

1

1

−

3

−

−

0.1

−

−

−

−

68

−

− 250 − V

32.9

47

0.8

1

Taping

T2R

8000

VO=0.3V

lO/lI=20

3000 3000

CC

=

5V, I

O

=

O

=

O

=

10mA, I

I

=

5V

CC

O

=

CE

=

0.3V, I

=

50V, V

5V, I

10V, I

100µA

O

=2

mA

I

=

0.5mA

I

=

0V

O

=

5mA

E

=

−5mA, f=100MHz

−

0.5

−

0.3

0.18

0.5

−

mA

µA

V

V

V

V

I
V
V

−

V

MHz

kΩ

61.1

−−

1.2

10m

VCC=5V

5m

Ta=100˚C

2m

25˚C

(A)

1m

−40˚C

500µ

200µ
100µ

50µ
20µ

10µ

OUTPUT CURRENT : Io

5µ
2µ

1µ

0.5 1.0 1.5 2.0 2.5 3.00

INPUT VOLTAGE : V

Fig.2 Output current vs. input voltage
(off-characteristics)

I (off)

(V)

∗

1k

500

Ta=100˚C

200
100

DC CURRENT GAIN : GI

25˚C

−40˚C

50

20

10

5

2
1

100µ 200µ 500µ1m 2m 5m 10m 20m 50m100m

OUTPUT CURRENT : IO (A)

Fig.3 DC current gain vs. output
current

VO=5V

Rev.A 2/2