ACSL-6210-50R Avago Technologies US Inc., ACSL-6210-50R Datasheet - Page 17

ACSL-6210-50R

Manufacturer Part Number

ACSL-6210-50R

Description

OPTOCOUPLER DUAL BIDIR 8-SOIC

Manufacturer

Avago Technologies US Inc.

Datasheet

1.ACSL-6210-00RE.pdf (19 pages)

Specifications of ACSL-6210-50R

Package / Case

8-SOIC (0.154", 3.90mm Width)

Voltage - Isolation

2500Vrms

Number Of Channels

2, Bi-Directional

Current - Output / Channel

50mA

Data Rate

15MBd

Propagation Delay High - Low @ If

44ns @ 8mA

Current - Dc Forward (if)

15mA

Input Type

Output Type

Open Collector

Mounting Type

Surface Mount

Isolation Voltage

2500 Vrms

Maximum Continuous Output Current

50 mA

Maximum Fall Time

12 ns

Maximum Forward Diode Current

15 mA

Maximum Rise Time

35 ns

Minimum Forward Diode Voltage

1.25 V

Output Device

Logic Gate Photo IC

Configuration

2 Channel

Maximum Baud Rate

15 MBps

Maximum Forward Diode Voltage

1.8 V

Maximum Reverse Diode Voltage

5 V

Maximum Power Dissipation

60 mW

Maximum Operating Temperature

+ 100 C

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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With a CMOS gate to drive the optocoupler, the circuit

shown in Figure 19 can be used. The diode in parallel to

the current limiting resistor speeds the turn-oﬀ of the

optocoupler LED. Any HC or HCT series CMOS gate can

be used in this circuit.

For high common-mode rejection applications, the drive

circuit shown in Figure 20 is recommended. In this circuit,

only an open-collector TTL, or an open drain CMOS gate

can be used. This circuit drives the optocoupler LED with

a 220 ohm current-limiting resistor to ensure that an I

of 7 mA is applied under worst case conditions and thus

guarantee the 10,000 V/μs optocoupler common mode

rejection rating. The designer can obtain even higher

common-mode rejection performance than 10,000 V/μs

by driving the LED harder than 7 mA.

Phase Relationship to Input

The output of the optocoupler is inverted when

compared to the input. The input is deﬁned to be logic

HIGH when the LED is ON. If there is a design that requires

the optocoupler to behave as a non-inverting gate, then

Figure 19. CMOS drive circuit for the ACSL-6xx0.

Figure 20. High CMR drive circuit for the ACSL-6xx0.

the series input drive circuit shown in Figure 19 can be

used. This input drive circuit has an inverting function,

and since the optocoupler also behaves as an inverter,

the total circuit is non-inverting. The shunt drive circuits

shown in Figures 18 and 20 will cause the optocoupler to

function as an inverter.

Current and Voltage Limitations

The absolute maximum voltage allowable at the output

supply voltage pin and the output voltage pin of the opt-

ocoupler is 7 volts. However, the recommended maximum

voltage at these two pins is 5.5 volts. The output sinking

current should not exceed 13 mA in order to make the

Low Level Output Voltage be less than 0.6 volt. If the

output voltage is not a consideration, then the absolute

maximum current allowed through the ACSL-6xx0 is 50

mA. If the output requires switching either higher currents

or voltages, output buﬀer stages as shown in Figures 21

and 22 are suggested.

Figure 21. High voltage switching with ACSL-6xx0.

Figure 22. High voltage and high current switching

with ACSL-6xx0.

ACSL-6210-50R Avago Technologies US Inc., ACSL-6210-50R Datasheet - Page 17

ACSL-6210-50R

Specifications of ACSL-6210-50R

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