TLP2530 [TOSHIBA]

TOSHIBA Photocoupler GaAГAs Ired & Photo IC; 东芝光电GaAГAs红外发光二极管和光电IC


型号：	TLP2530
厂家：	TOSHIBA
描述：	TOSHIBA Photocoupler GaAГAs Ired & Photo IC 东芝光电GaAГAs红外发光二极管和光电IC 光电二极管输出元件
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TLP2530,TLP2531

TOSHIBA Photocoupler GaAℓAs Ired & Photo IC

TLP2530, TLP2531

Degital Logic Isolation

Line Receiver

Unit in mm

Power Supply Control

Switching Power Supply

Transistor Inverter

The TOSHIBA TLP2530 and TLP2531 dual photocouplers consist of a

pair of GaAℓAs light emitting diode and integrated photodetector.

This unit is 8−lead DIP.

Separate connection for the photodiode bias and output transistor

collectors improve the speed up to a hundred times that of a

conventional phototransistor coupler by reducing the base−collector

capacitance.

l TTL compatibel

l Switching speed: t

=0.3µs, t =0.3µs(typ.)

pLH

pHL

(@R =1.9kΩ)

TOSHIBA

Weight: 0.54g

11−10C4

l Guaranteed performance over temp: 0~70°C

l Isolation voltage: 2500 Vrms(min.)

l UL recognized: UL1577, file no. E67349

Pin Configuration (top view)

Schematic

GND

1. : Anode.1

2. : Cathode.1

3. : Cathode.2

4. : Anode.2

5. : Gnd

6. : V (output 2)

7. : V (output 1)

8. : V

2002-09-25

TLP2530,TLP2531

Maximum Ratings

Characteristic

Forward current(each channel)

Symbol

Rating

Unit

(Note 1)

(Note 2)

(Note 3)

Pulse forward current

(Each Channel)

Total pulse forward current

(each channel)

FPT

Reverse voltage(each channel)

Diode power dissipation

(each channel)

(Note 4)

Output current(each channel)

Peak output current

(each channel)

Supply voltage

-0.5~15

Output voltage(each channel)

Output power dissipation

(each channel)

(Note 5)

(Note 7)

Operating temperature range

Storage temperature range

Lead solder temperature(10s)**

-55~100

-55~125

260

°C

opr

stg

sol

Isolation voltage

2500

Vrms

(AC, 1min., R.H.≤ 60%)

(Note 1) Derate 0.8mA above 70°C.

(Note 2) 50% duty cycle, 1ms pulse width. Derate 1.6mA / °C above 70°C.

(Note 3) Pulse width 1µs, 300pps.

(Note 4) Derate 0.9mW / °C above 70°C.

(Note 5) Derate 1mW / °C above 70°C.

**2mm below seating plane.

Recommended Operating Conditions

Characteristic

Supply voltage

Symbol

Min.

Typ.

Max.

Unit

Forward current, each channel

Operating temperature

°C

-25

opr

2002-09-25

TLP2530,TLP2531

Electrical Characteristics

Over Recommended Temperature (Ta = 0°C~70°C, unless otherwise noted)

Characteristic

Symbol

Test Condition

Min.

Typ.**

Max.

Unit

TLP2530

TLP2531

I = 16mA, V = 0.4V

CTR

= 4.5V, Ta = 25°C

(Note 6)

Current transfer

ratio

(each channel)

TLP2530

TLP2531

I = 16mA, V = 0.5V

CTR

= 4.5V

(Note 6)

I = 16mA, I = 1.1mA

TLP2530

TLP2531

0.1

0.4

Logic low output

voltage

(each channel)

= 4.5V

I = 16mA, I = 2.4mA

= 4.5V

I = 0mA, V = V = 5.5V

500

µA

Logic high output current

(each channel)

Ta = 25℃

I = 0mA, V = V = 15V

= I = 16mA

160

µA

Logic low supply current

= V = Open

CCL

CCH

= 15V

= I = 0mA

0.05

Logic high supply current

= V = Open

= 15V

Input forward voltage

(each channel)

1.65

-2

1.7

mV/°C

= 16mA, Ta = 25°C

= 16mA

Temperature coefficent of

forward voltage(each channel)

∆V / ∆Ta

Input reverse breakdown

voltage(each channel)

Input capacitance

(each channel)

IR = 10µA, Ta = 25°C

f = 1MHz, V = 0

Relative humidity = 45%

I-O

Ta = 25°C

Input-output insulation

leakage current

1.0

µA

t = 5s, V

= 3000V

I-O

(Note 7)

Resistance (input-output)

Capacitance (input-output)

V - = 500V

(Note 7)

I-O

I O

I-O

0.6

f = 1MHz

(Note 7)

Relative humidity = 45%

t = 5s, V 500V

0.005

µA

Input-input leakage current

I-I

I-I =

(Note 8)

Resistance (input-input)

Capacitance (input-iutput)

V - = 500V

I I

I-I

0.25

f = 1MHz

I-I

**All typicals at Ta = 25°C.

2002-09-25

TLP2530,TLP2531

Switching Characteristics (unless otherwise specified, Ta = 25°C, V = 5V, I = 16mA)

Test

Cir-

cuit

Characteristic

Symbol

Test Condition

Min.

Typ.

Max.

Unit

µs

Propagation delay

TLP2530

TLP2531

R = 4.1kΩ

―

0.3

0.2

1.5

0.8

time to logic low

at output

pHL

pLH

(each channel)

R = 1.9kΩ

Propagation delay

time to logic

TLP2530

TLP2531

R = 4.1kΩ

―

0.5

0.3

1.5

0.8

µs

high at output

(each channel)

R = 1.9kΩ

Common mode

transient

I = 0mA, V

= 400V

p-p

TLP2530

―

1500

―

R = 4.1kΩ

immunity at logic

high level output

(each channel,

V / µs

= 0mA, V

p-p

TLP2531

TLP2530

TLP2531

―

R = 1.9kΩ

Note 9)

Common mode

transient

= 400V

p-p

-1500

R = 4.1kΩ, I = 16mA

immunity at logic

low level output

(each channel,

V / µs

= 400

p-p

―

-1500

―

R = 1.9kΩ, I = 16mA

Note 9)

Bandwidth

R = 100Ω

(each channel, Note 10)

(Note 6) DC current transfer ratio is defined as the ratio of output collector current, I_O,to the forward LED

input current_,I_F,times 100%.

(Note 7) Device considered a two-terminal device: Pins 1, 2, 3 and 4 shorted together and pins 5, 6, 7, and

8 shorted together.

(Note 8) Measured between pins 1 and 2 shorted together, and pins 3 and 4 shorted together.

(Note 9) Common mode transient immunity in logic high level is the maximum tolerable (positive) dVcm / dt

on the leading egde of the common mode pulse, Vcm, to assure that the output will remain in a

logic high state(i.e., V_O> 2.0V).

Common mode transient immunity in logic low Level is the maximum tolerable (negative) dVcm / dt

on the trailing edge of the common mode pulse signal, Vcm, to assure that the output will remain in

logic low state(i.e., V_O> 0.8V).

(Note 10) The frequency at which the ac output voltage is 3dB below the low frequency asymptote.

2002-09-25

TLP2530,TLP2531

Test Circuit 1: Switching Time, t HL, t LH

=5V

Pulse

Generator

PW=100µs

Duty Cycle = 1/10

Output

Monitor

1.5V

pHL

pLH

Test Circuit 2: Transient Immunity And Typical Waveform

400V

90%

=5V

10%

Output

(I =0mA)

Monitor

0.8V

(I =16mA)

Pulse Generator

Z =50Ω

320(V)

, CM

t (ms)

Test Circuit 3: Frequency Responce

15V

Set I

0.1µF

Input

1.6Vdc

0.25V

P-P

2002-09-25

TLP2530,TLP2531

– V

∆VF /∆Ta - I

100

-2.6

Ta = 25 °C

-2.4

-2.2

-2.0

-1.8

0.5

0.3

0.1

0.05

0.03

-1.6

-1.4

0.01

0.1

0.3 0.5

1.0

1.2

1.4

Forward voltage

1.6

1.8

2.0

(V)

Forward current

(mA)

– Ta

I – I

O F

OH(1)

300

100

= 5 V

= 0.4 V

Ta = 25 °C

0.5

0.3

0.1

0.05

0.03

0.6

0.01

120

0.1

0.30.5

30 50 100

300

160

Ambient temperature Ta (°C)

Forward current

(mA)

/ I – I

I / I – Ta

O F

1.2

1.0

100

= 5 V

= 0.4 V

Ta = -25°C

0.8

0.6

25°C

100°C

Normalized to :

= 16 mA

0.4

0.2

= 4.5 V

= 0.4 V

Ta = 25 °C

-40

-20

100

0.3 0.5

(mA)

Forward current

Ambient temperature Ta (°C)

2002-09-25

TLP2530,TLP2531

– V

V – I

O F

= 5 V

Ta = 25 °C

30mA

25mA

=5V

20mA

15mA

Ta=25°C

= 2kΩ

10mA

= 5mA

3.9kΩ

10kΩ

Output voltage

(V)

Forward current

(mA)

, t

– R

pHL pLH L

= 16 mA

= 5 V

Ta = 25 °C

pLH

0.5

0.3

pHL

0.1

(kΩ)

100

Load resistance

2002-09-25

TLP2530,TLP2531

RESTRICTIONS ON PRODUCT USE

000707EBC

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.

Gallium arsenide (GaAs) is a substance used in the products described in this document. GaAs dust and fumes

are toxic. Do not break, cut or pulverize the product, or use chemicals to dissolve them. When disposing of the

products, follow the appropriate regulations. Do not dispose of the products with other industrial waste or with

domestic garbage.

The products described in this document are subject to the foreign exchange and foreign trade laws.

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.

2002-09-25

This datasheet has been download from:

www.datasheetcatalog.com

Datasheets for electronics components.

TLP2530 [TOSHIBA]

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