ICPL2611-SMT&R [ISOCOM]

Optocoupler - IC Output, 1 CHANNEL LOGIC OUTPUT OPTOCOUPLER, 10 Mbps, SURFACE MOUNT PACKAGE-8;


型号：	ICPL2611-SMT&R
厂家：	ISOCOM COMPONENTS
描述：	Optocoupler - IC Output, 1 CHANNEL LOGIC OUTPUT OPTOCOUPLER, 10 Mbps, SURFACE MOUNT PACKAGE-8 输出元件光电
文件：	总4页 (文件大小：78K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

ICPL2611

HIGH CMR, VERY HIGH SPEED

OPTICALLY COUPLED ISOLATOR

LOGIC GATE OUTPUT

Dimensions in mm

APPROVALS

2.54

V_CC

UL recognised, File No. E91231

6.9

6.3

DESCRIPTION

The ICPL2611 optocoupler consists of a GaAsP

light emitting diode and a high gain integrated

GND

photo detector to provide 2500Volts

electrical

1.3

isolation between input and output. ^RA^Mn^Senable

input allows the detector to be strobed. The

output of the detector I.C. is an open collector

Schottky clamped transistor. The ICPL2611 has an

internal shield which provides a common mode

transientimmunityspecificationof10000V/µs

typical.This unique design provides maximum ac

and dc circuit isolation while achieving TTL

compatibility. The coupled parameters are

* NOISE SHIELD

9.7

9.1

7.62

4.0

3.6

0.5

15°

Max

0.3

3.3

0.5

1.3

TRUTH TABLE

guaranteed over the temperature range of -40°C to

+85°C, such that a maximum input signal of 5mA

will provide a minimum output sink current of

13mA(equivalent to fan-out of eight gates)

INPUT ENABLE OUTPUT

A 0.1µF bypass

capacitor must be

connected between

pins 8 and 5 ( See

note 1)

FEATURES

High speed - 10MBit/s

High Common Mode Transient

Immunity 10kV/µs typical

Logic gate output

ICPL2611 has improved noise shield

for superior common mode rejection

Options :-

10mm lead spread - add G after part no.

Surface mount - add SM after part no.

Tape&reel - add SMT&R after part no.

ABSOLUTE MAXIMUM RATINGS

(25°C unless otherwise specified)

Storage Temperature

OperatingTemperature

Lead Soldering Temperature

-55°C to + 125°C

-40°Cto+85°C

(1/16 inch (1.6mm) from case for 10 secs) 260°C

INPUT DIODE

APPLICATIONS

Average Forward Current

Reverse Voltage

50mA

Line receiver, data transmission

Computer-peripheral interface

Data multiplexing

DETECTOR

Pulse transformer replacement

OPTION SM

SURFACEMOUNT

OPTION G

Enable Input Voltage ( V )

5.5V

(not to exceed V_CCby more ^Ethan 500mV)

7.62

SupplyVoltage(V

)

(1 minute maxim^Cu^Cm)

Output Current ( I_O)

Output Voltage ( V_O)

Collector Output Power Dissipation

50mA

85mW

1.2

0.6

1.4

0.9

0.3

10.16

10.2

9.5

ISOCOM INC

1024 S.GreenvilleAve,Suite240,

Allen, TX75002 USA

Tel:(214)495-0755 Fax:(214)495-0901

e-mail info@isocom.com

ISOCOMCOMPONENTSLTD

Unit25B, ParkViewRoadWest,

Park View Industrial Estate, Brenda Road

Hartlepool,TS251YDEnglandTel:(01429)863609

Fax:(01429)863581 e-mail sales@isocom.co.uk

http://www.isocom.com

30/7/03

DB91019-AAS/A2

ELECTRICAL CHARACTERISTICS ( T_A= 0°C to 70°C Unless otherwise noted )

PARAMETER

SYM DEVICE MIN TYP* MAX UNITS

TEST CONDITION

High Level Output Current

I_OH

100 µA

V_CC=5.5V,V_O=5.5V

I_F= 250µA, V_E= 2V

Low Level Output Voltage

V_OL

0.35 0.6

V =5.5V,I_F=5mA

V^CC=2V

I_O^E_L(sinking ) = 13mA

Input Threshold Current

High Level Supply Current

Low Level Supply Current

I_FT

V =5.5V,V_O=0.6V

V^C_E^C=2V, I_OL=13mA

I_CCH

V =5.5V,I_F=0mA

V_E^C=^C0.5V

I_CCL

V =5.5V,I_F=10mA

V_E^C=^C0.5V

High Level Enable Current

LowLevelEnableCurrent

I_EH

I_EL

-0.6 -1.6 mA

-0.8 -1.6 mA

V_CC=5.5V,V_E=2V

V_CC=5.5V,V_E=0.5V

V_CC=5.5V,I_F=10mA

HighLevelEnableVoltage

(note 10)

V_EH

LowLevelEnableVoltage

Input Forward Voltage

Input Reverse Breakdown Voltage

Input Capacitance

V_EL

0.8

V_CC=5.5V,I_F=10mA

I_F=10mA, T_A=25^oC

I_R=10µA, T_A=25^oC

V_F=0, f=1MHz

I_F=10mA

1.75

V_BR

C_IN

mV/°C

TemperatureCoefficient

ofForwardVoltage

∆V_F

∆T_A

-1.4

Input-output Isolation Voltage

(note 3)

V_ISO

2500

V_RMS

R.H.equal to or less than

50%,t=1min,T_A=25°C

Input-output Insulation Leakage I_I-O

Current (note 3)

µA

R.H.=45%

t=5s,T_A=25°C

V_I-O=3000Vdc

Resistance (Input to Output)

(note 3)

R_I-O

C_I-O

10¹²

0.6

Ω

V_I-O= 500V dc

Capacitance (Input to Output)

(note 3)

f = 1MHz

* All typicals at T_A= 25°C

RECOMMMENDED OPERATING CONDITIONS

PARAMETER

SYMBOL MIN MAX UNITS

Input Current, Low Level

Input Current, High Level

Supply Voltage, Output

Enable Voltage, Low Level

Enable Voltage, High Level

Fan Out ( TTL Load )

OperatingTemperature

I_FL

250 µA

I_FH

6.3* 15

*6.3mA is a guard banded

value which allows for at least

20% CTR degradation.

Initial input current threshold

value is 5.0mA or less

V_CC

V_EL

V_EH

4.5

5.5

0.8

V_CC

2.0

T_A

-40

°C

30/7/03

DB91019-AAS/A2

SWITCHING SPECIFICATIONS AT T_A= 25°C ( V_CC= 5V, I_F= 7.5mA Unless otherwise noted )

PARAMETER

Propagation Delay Time

to Logic Low at Output

( fig 1 )( note4 )

SYM DEVICE

MIN TYP MAX UNITS TEST CONDITION

t_PHL

75 ns

R_L=350Ω,C_L=15pF

PropagationDelayTime

to Logic High at Output

( fig 1 )( note5 )

t_PLH

R_L=350Ω,C_L=15pF

PropagationDelayTime

of Enable from V_EHto V_EL

( note6 )

t_EHL

R_L=350Ω,C_L=15pF

V_EL=0V,V_EH=3.5V

PropagationDelayTime

of Enable from V_ELto V_EH

( note7 )

t_ELH

R_L=350Ω,C_L=15pF

V_EL=0V,V_EH=3.5V

Common Mode Transient

Immunity at Logic High

Level Output ( fig 2 )( note8 )

CM_H

CM_L

10000

V/µs

I_F=0mA,V_CM=50V_PP

R_L=350Ω,V_OH=2Vmin.

Common Mode Transient

Immunity at Logic Low

Level Output ( fig 2 )( note9 )

V/µs

V =50V_PP

R_L^C=^M350Ω,V_OL=0.8Vmax.

NOTES:-

Bypassing of the power supply line is required, with a 0.01µF ceramic disc capacitor adjacent to

each isolator. The power supply bus for the isolator(s) should be seperate from the bus for any

active loads. Otherwise a larger value of bypass capacitor (up to 0.1µF) may be needed to supress

regenerative feedback via the power supply.

Peaking circuits may produce transient input currents up to 50mA, 50ns maximum pulse width,

provided average current does not exceed 20mA.

Device considered a two terminal device; pins 1, 2, 3, and 4 shorted together, and pins 5, 6, 7

and 8 shorted together.

The t_PHLpropagation delay is measured from the 3.75 mA level Low to High transition of the input

current pulse to the 1.5V level on the High to Low transition of the output voltage pulse.

The t_PLHpropagation delay is measured from the 3.75mA level High to Low transition of the input

current pulse to the 1.5V level on the Low to High transition of the output voltage pulse.

The t_EHLenable input propagation delay is measured from the 1.5V level on the Low to High transition of

the enable input voltage pulse to the 1.5V level on the High to Low of the output voltage pulse.

The t_ELHenable input propagation delay is measured from the 1.5V level on the High to Low transition of

the enable input voltage pulse to the 1.5V level on the Low to High of the output voltage pulse.

CM is the maximum tolerable rate of rise of the common mode voltage to assure that the output

will^Hremain in a high logic state (ie Vout > 2.0V).

CM is the maximum tolerable rate of fall of the common mode voltage to assure that the output

will^Lremain in a low logic state (ie Vout < 0.8V)

No external pull up is required for a high logic state on the enable input.

FIG.1 SWITCHING TEST CIRCUIT

PULSE

GENERATOR

Z_O= 50Ω

t_r= 5ns

I_F

10% Duty Cycle

V_O

1/f < 100µs

R_L

1.5V

V_OL

V_O

t_PHL

t_PLH

I_FMonitor

C_L= 15pF

100Ω

DB91019-AAS/A2

30/7/03

FIG. 2 TEST CIRCUIT FOR TRANSIENT IMMUNITY AND TYPICAL WAVEFORMS

V_CC

R_L

I_F

10V

V_CM

10%

90%

10%

t_r

V_O

t_f

SWITCH AT A: I_F= 0mA

V_FF

V_CM

V_OL

V_O

SWITCH AT B: I_F= 7.5mA

PULSE GEN.

Output Voltage vs.

Forward Input Current

Forward Current vs. Forward

Voltage

= 5V

T_A^CC= 25°C

T_A= 25°C

0.4

0.2

0.1

R_L= 1kΩ

R_L= 350Ω

0.04

0.02

0.01

1.0

1.2

1.4

1.6

Forward input current I_F(mA)

Forward voltage V_F(V)

High Level Output Current vs.

Ambient Temperature

Low Level Output Voltage vs.

Ambient Temperature

0.8

0.7

0.6

1.0

0.4

= 5.5V

V^CC= 5.5V

V^C_E^C= 2V

I_F= 5mA

V^O_E= 2V

0.2

0.1

I_F= 250µA

0.5

0.4

I_O= 12.8mA

I_O= 9.6mA

I_O= 16mA

I_O= 6.4mA

0.04

0.02

0.01

0.3

0.2

0.004

0.002

0.001

0.1

60 70

Ambient temperature T_A( °C )

30/7/03

DB91019-AAS/A2

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