Datasheet TPCS8104 Datasheet (TOSHIBA)

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查询TPCS8104供应商

TOSHIBA Field Effect Transistor Silicon P Channel MOS Type (U-MOS IV)

TPCS8104

TPCS8104

Lithium Ion Battery Applications

Notebook PC Applications

Portable Equipment Applications

• Small footprint due to small and thin package

• Low drain-source ON resistance: R

DS (ON)

• High forward transfer admittance: |Y

• Low leakage current: I

• Enhancement-mode: V

= −10 µA (max) (VDS = −30 V)

DSS

= −0.8 to −2.0 V (VDS = −10 V, ID = −1 mA)

th

Maximum Ratings

Characteristics Symbol Rating Unit

Drain-source voltage V

Drain-gate voltage (R

Gate-source voltage V

Drain current

Drain power dissipation (t = 10 s)

(Note 2a)

Drain power dissipation (t = 10 s)

(Note 2b)

Single pulse avalanche energy
(Note 3)

Avalanche current I

Repetitive avalanche energy
(Note 2a) (Note 4)

Channel temperature Tch 150 °C

Storage temperature range T

(Ta = 25°C)

= 20 kΩ) V

GS

DC (Note 1) I

Pulse (Note 1) I

= 8.1 mΩ (typ.)

| = 23 S (typ.)

fs

−30 V

DSS

−30 V

DGR

±20 V

GSS

−11

D

−44

DP

1.1 W

P

D

0.6 W

P

D

31.5 mJ

E

AS

−11 A

AR

0.11 mJ

E

AR

−55 to 150 °C

stg

A



Unit: mm

JEDEC ―

JEITA ―

TOSHIBA 2-3R1B

Weight: 0.035 g (typ.)

Circuit Configuration

8 7 6 5

Note: For (Note 1), (Note 2), (Note 3) and (Note 4), please refer to the

next page.
This transistor is an electrostatic sensitive device. Please handle with
caution.

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Thermal Characteristics

Characteristics Symbol Max Unit

TPCS8104

Thermal resistance, channel to ambient

(t = 10 s) (Note 2a)

Thermal resistance, channel to ambient

(t = 10 s) (Note 2b)

R

th (ch-a)

R

th (ch-a)

114 °C/W

208 °C/W

Marking

(Note 5)

Type

S8104

※

Note 1: Please use devices on condition that the channel temperature is below 150°C.

Note 2:

(a) Device mounted on a glass-epoxy board (a) (b) Device mounted on a glass-epoxy board (b)

FR-4

25.4 × 25.4 × 0.8

(unit: mm)

FR-4

25.4 × 25.4 × 0.8

(unit: mm)

(a)

Note 3: V

= −24 V, Tch = 25°C (initial), L = 0.2 mH, RG = 25 Ω, IAR = −11 A

DD

Note 4: Repetitive rating: pulse width limited by maximum channel temperature

Note 5: ○ on lower right of the marking indicates Pin 1.

※ shows lot number. (year of manufacture: last decimal digit of the year of manufacture, month of

manufacture: January to December are denoted by letters A to L respectively.)

(b)

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TPCS8104

<

Electrical Characteristics

Characteristics Symbol Test Condition Min Typ. Max Unit

Gate leakage current I

Drain cut-OFF current I

Drain-source breakdown voltage

Gate threshold voltage Vth V

Drain-source ON resistance R

Forward transfer admittance |Yfs| V

Input capacitance C

Reverse transfer capacitance C

Output capacitance C

Rise time t

Turn-ON time t

Switching time

Fall time t

Turn-OFF time t

(Ta ==== 25°C)

V

GSS

V

DSS

V

(BR) DSS

V

(BR) DSX

I

I

DS (ON)

 5710 

iss

 560 

rss

oss

 18 

r

 23 

on

 109 

f

off

= ±16 V, VDS = 0 V   ±10 µA

GS

= −30 V, VGS = 0 V   −10 µA

DS

= −10 mA, VGS = 0 V −30  

D

= −10 mA, VGS = 20 V −15  

D

= −10 V, ID = −1 mA −0.8  −2.0 V

DS

V

= −4 V, ID = −5.5 A  12 18

GS

= −10 V, ID = −5.5 A  8.1 12

V

GS

= −10 V, ID = −5.5 A 11 23  S

DS

V

= −10 V, VGS = 0 V, f = 1 MHz

DS

 590 

VGS

Duty

0 V

−10 V

1%, t

=

w

4.7 Ω

= 10 µs

I

= −5.5 A

D

V

DD

= 2.7 Ω

R

∼

−15 V

−

V

OUT

L

 396 

V

mΩ

pF

ns

Total gate charge
(gate-source plus gate-drain)

Gate-source charge 1 Q

Gate-drain (“miller”) charge Qgd

Q

 107 

g

V
I

 12 

gs1

D

Source-Drain Ratings and Characteristics

Characteristics Symbol Test Condition Min Typ. Max Unit

Drain reverse current Pulse (Note 1) I

Forward voltage (diode) V

   −44 A

DRP

I

DSF

DR

∼

−24 V, V

−

DD

= −11 A

(Ta ==== 25°C)

= −11 A, VGS = 0 V   1.2 V

= 10 V,

GS

nC

 20 

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TPCS8104

– VDS

I

−10

−8

(A)

D

−6

−3 −10

−5 −4

−4

Drain current I

−2

0

0 −2

Drain-source voltage VDS (V)

−40

−30

(A)

D

−20

D

−2.5

−2.4

−4 −6 −8 −10

Common source
Ta = 25°C
Pulse test

−2.3

V

GS

−2.2

−2.1

= −2 V

– VGS

I

D

Common source
V

= −10 V

DS

Pulse test

−20

−16

(A)

D

−12

−8

−10

−3

−2.7

−5

−4

Drain current I

−4

0

0 −4

Drain-source voltage VDS (V)

−0.5

−0.4

(V)

DS

−0.3

−0.2

– VDS

I

D

−2.6

−8 −12 −16 −20

V

– VGS

DS

Common source
Ta = 25°C
Pulse test

−2.5

Common source
Ta = 25°C
Pulse test

V

GS

−2.4

−2.3

−2.2

= −2.1 V

Drain current I

−10

25

0

0 −1

100

Ta = −55°C

−2 −3 −4 −5

Gate-source voltage VGS (V)

| – ID

|Y

100

50

| (S)

30

fs

10

5

3

1

0.5

Forward transfer admittance |Y

0.3

−0.1 −1 −10 −50

fs

Ta = −55°C

100

Drain current ID (A)

25

Common source
V

= −10 V

DS

Pulse test

−30 −3 −5 −0.3 −0.5

I

−0.1

Drain-source voltage V

−2.5

0

0 −4

= −11 A

D

−8 −12 −16 −20

−5.5

Gate-source voltage VGS (V)

DS (ON)

V

= −4.5 V

GS

– ID

−10

Common source
Ta = 25°C
Pulse test

−30 −3 −5 −0.3 −0.5

100

R

50

30

10

(mΩ)

5

3

DS (ON)

R

Drain-source ON resistance

1

0.5

0.3

−0.1 −1 −10 −50

Drain current ID (A)

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TPCS8104

25

Common source

Pulse test

20

15

Drain-source ON resistance

(mΩ)

DS (ON)

R

V

= −4.5 V

GS

10

5

0

−80 −40 0 40 120 160 80

−10

Ambient temperature Ta (°C)

Capacitance – V

50000

30000

10000

5000

3000

1000

Capacitance C (pF)

500

Common source

300

V

= 0 V

GS

f = 1 MHz
Ta = 25°C

100

−0.1 −1 −10

Drain-source voltage VDS (V)

R

– Ta

DS (ON)

I

= −11 A, −5.5 A, −2.5 A

D

I

= −11 A, −5.5 A, −2.5 A

D

DS

I

– VDS

−10

−3

DR

−1

−5

V

= 0 V

GS

Common source
Ta = 25°C
Pulse test

−100

(A)

DR

−10

−1

Drain reverse current I

−0.1

0

0.2 0.4 0.6 0.8 1

Drain-source voltage VDS (V)

−2.5

−2

(V)

th

C

iss

C

oss

C

rss

−100 −0.3 −3 −30

−1.5

−1

−0.5

Gate threshold voltage V

0

−80 −40 0 40 120 160 80

Ambient temperature Ta (°C)

V

– Ta

th

Common source

V

= −10 V

DS

I

= −1 mA

D

Pulse test

– Ta

P

2.0

1.6

(W)

D

1.2
(1)

0.8

(2)

0.4

D

(1) Device mounted on a

glass-epoxy board (a)
(Note 2a)

(2) Device mounted on a

glass-epoxy board (b)
(Note 2b)

t = 10 s

Drain power dissipation P

0

0 50

25 75 125

100 150 175

Ambient temperature Ta (°C)

5

Dynamic Input/Output Characteristics

−30

−25

V

= −24 V

(V)

DS

Drain-source voltage V

DD

−20

−15

−10

VDS

−12

−6

−5

0

0 20 40 60 80

Total gate charge Qg (nC)

−12

VGS

−6

V

DD

Common source

I

D

Ta = 25°C
Pulse test

= −24 V

= −11 A

100 120

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140

−12

−10

−8

−6

−4

−2

0

(V)

GS

Gate-source voltage V

TPCS8104

− t

r

th

1000

(1) Device mounted on a glass-epoxy

board (a) (Note 2a)

(°C/W)

th

(2) Device mounted on a glass-epoxy

board (b) (Note 2b)

t = 10 s

100

w

(2)

(1)

10

1

Normalized transient thermal impedance r

0.1

0.001 0.01 0.1 1 10 100 1000

Pulse width tw (s)

Single pulse

Safe Operating Area

100

ID max (pulse)*

1 ms*

10

(A)

D

1

10 ms*

Drain current I

0.1

*: Single pulse Ta = 25°C

Curves must be derated

linearly with increase in

temperature.

0.01

0.01 0.1 1 10 100

Drain-source voltage VDS (V)

V

max

DSS

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TPCS8104

A

RESTRICTIONS ON PRODUCT USE

• TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor

devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical
stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of
safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of
such TOSHIBA products could cause loss of human life, bodily injury or damage to property.
In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as
set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and
conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability
Handbook” etc..

• The TOSHIBA products listed in this document are intended for usage in general electronics applications

(computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances,
etc.). These TOSHIBA products are neither intended nor warranted for usage in equipment that requires
extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or
bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or
spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments,
medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in this
document shall be made at the customer’s own risk.

• The information contained herein is presented only as a guide for the applications of our products. No

responsibility is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other
rights of the third parties which may result from its use. No license is granted by implication or otherwise under
any intellectual property or other rights of TOSHIBA CORPORATION or others.

• The information contained herein is subject to change without notice.

000707EA

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