ACPL-772L-500E Datasheet ACPL-772L-520E, ACPL-072L-000E, ACPL-772L-000E | P7-P9

Table 3. Absolute Maximum Ratings

Parameter Symbol Min. Max. Units

Storage Temperature T

–55 +125 °C

Ambient Operating Temperature

[1]

–40 +105 °C

Supply Voltages V

DD1

, V

DD2

0 6.0 Volts

Input Voltage V

–0.5 V

DD1

+0.5 Volts

Output Voltage V

–0.5 V

DD2

+0.5 Volts

Average Output Current I

10 mA

Lead Solder Temperature 260°C for 10 sec., 1.6 mm below seating plane

Solder Reﬂow Temperature Proﬁle Please See Solder Reﬂow Temperature Proﬁle Section

Table 4. Recommended Operating Conditions

Parameter Symbol Min. Max. Units

Ambient Operating Temperature T

–40 +105 °C

Supply Voltages ( 3.3V operation) V

DD1

, V

DD2

3.0 3.6 V

Supply Voltages ( 5V operation) V

DD1

, V

DD2

4.5 5.5 V

Logic High Input Voltage V

2.0 V

DD1

Logic Low Input Voltage V

0.0 0.8 V

Input Signal Rise and Fall Times t

, t

1.0 ms

Table 5. Electrical Speciﬁcations

Test conditions that are not speciﬁed can be anywhere within the recommended operating range.

The following speciﬁcations cover the following power supply combinations: (4.5V≤V

DD1

≤5.5V, 4.5V≤V

DD2

≤5.5V),

(3V≤V

DD1

≤3.6V, 3V≤V

DD2

≤3.6V), (4.5V≤V

DD1

≤5.5V, 3V≤V

DD2

≤3.6V) and (3V≤V

DD1

≤3.6V, 4.5V≤V

DD2

≤5.5V).

All typical speciﬁcations are at T

=+25°C , V

DD1

= V

DD2

= +3.3V.

Parameter Symbol Min. Typ. Max. Units Test Conditions

Logic Low Input Supply Current

[2]

DD1L

8.8 15 mA V

= 0 V

Logic High Input Supply Current

[2]

DD1H

1.4 5 mA V

= V

DD1

Output Supply Current I

DD2L

4.3 10 mA

DD2H

4.5 10 mA

Input Current I

–10 10 mA

Logic High Output Voltage V

DD2

-0.4 V

DD2

V I

= –20 mA, V

= V

DD2

-1.4 V

DD2

-0.4 V I

= –4 mA, V

= V

Logic Low Output Voltage V

0 0.1 V I

= 20 mA, V

= V

0.35 1.0 V I

= 4 mA, V

= V

Table 6. Switching Speciﬁcations

Test conditions that are not speciﬁed can be anywhere within the recommended operating range.

The following speciﬁcations cover the following power supply combinations: (4.5V≤V

DD1

≤5.5V, 4.5V≤V

DD2

≤5.5V),

(3V≤V

DD1

≤3.6V, 3V≤V

DD2

≤3.6V), (4.5V≤V

DD1

≤5.5V, 3V≤V

DD2

≤3.6V) and (3V≤V

DD1

≤3.6V, 4.5V≤V

DD2

≤5.5V).

All typical speciﬁcations are at T

=+25°C, V

DD1

= V

DD2

= +3.3V.

Parameter Symbol Min. Typ. Max. Units Test Conditions

Propogation Delay Time

to Logic Low Output

[3]

PHL

23.5 40 ns C

= 15 pF, CMOS Signal Levels

Propogation Delay Time

to Logic High Output

[3]

PLH

25.5 40 ns C

= 15 pF, CMOS Signal Levels

Pulse Width

[4]

40 ns C

= 15 pF, CMOS Signal Levels

Maximum Data Rate

[5]

25 MBd C

= 15 pF, CMOS Signal Levels

Pulse Width Distortion

[6]

| t

PHL

- t

PLH

|PWD | 2 6 ns C

= 15 pF, CMOS Signal Levels

Propagation Delay Skew

[7]

PSK

20 ns C

= 15 pF, CMOS Signal Levels

Output Rise Time

(10% – 90%)

9 ns C

= 15 pF, CMOS Signal Levels

Output Fall Time

(90% - 10%)

8 ns C

= 15 pF, CMOS Signal Levels

Common Mode Transient

Immunity at Logic High Output

[8]

| CM

| 10 20 kV/ms V

= 1000 V, T

= 25°C,

= V

DD1

, V

> 0.8 V

DD1

Common Mode Transient

Immunity at Logic Low Output

[8]

| CM

| 10 20 kV/ms V

= 1000 V, T

= 25°C,

= 0 V, V

< 0.8 V

Table 7. Package Characteristics

All typical speciﬁcations are at T

= 25°C.

Parameters Symbol Min. Typ. Max. Units Test Conditions

Input-Output Momentary

With-stand Voltage

[7,8,9]

072L V

ISO

3750 V rms RH ≤ 50%, t = 1 min, T

= 25°C

772L 3750

772L with

020 option

5000

Input-Output Resistance

[9]

I-O

= 500 V dc

Input-Output Capacitance C

I-O

0.6 pF f = 1 MHz

Input Capacitance

[12]

3.0 pF

Input IC Junction-to-Case

Thermal Resistance

772L qjci 145 °C/W Thermocouple located at center

underside of package

072L 160

Output IC Junction-to-Case

Thermal Resistance

772L qjco 140 °C/W

072L 135

Package Power Dissipation P

150 mW

Notes:

1. Absolute Maximum ambient operating temperature means the device will not be damaged if operated under these conditions. It does not

guarantee functionality.

2. The LED is ON when V

is low and OFF when V

is high.

3. t

PHL

propagation delay is measured from the 50% level on the falling edge of the V

signal to the 50% level of the falling edge of the V

signal. t

PLH

propagation delay is measured from the 50% level on the rising edge of the V

signal to the 50% level of the rising edge of the V

signal.

4. The minimum pulse width is the shortest pulse width at which the speciﬁed pulse width distortion is guaranteed.

5. The maximum data rate is the fastest data rate at which the speciﬁed pulse width distortion is guaranteed.

6. PWD is deﬁned as |t

PHL

- t

PLH

|. %PWD (percent pulse width distortion) is equal to the PWD divided by pulse width.

7. t

PSK

is equal to the magnitude of the worst case diﬀerence in t

PHL

and/or t

PLH

that will be seen between units at any given temperature within the

recommended operating conditions.

Figure 1. Typical propagation delays vs temperature

Figure 2. Typical pulse width distortion vs temperature

-20 0 20 40 60 80 100

(

plh

, T

phl

(ns)

plh

phl

1.00

1.20

1.40

1.60

1.80

2.00

2.20

2.40

-20 0 20 40 60 80 100

(

PWD (ns)

PWD

Figure 3. Typical rise and fall time vs temperature

Figure 4. Typical propagation delays vs load capacitance

-20 0 20 40 60 80 100

(

, T

(ns)

Rise Time

Fall Time

15 25 35 45 55

(pF)

plh

, T

phl

(ns)

plh

phl

8. CM

is the maximum common mode voltage slew rate that can be sustained while maintaining V

> 0.8 V

DD2

. CML is the maximum common

mode voltage slew rate that can be sustained while maintaining V

< 0.8 V. The common mode voltage slew rates apply to both rising and falling

common mode voltage edges.

9. Device considered a two-terminal device: pins 1, 2, 3, and 4 shorted together and pins 5, 6, 7, and 8 shorted together.

10. In accordance with UL1577, each ACPL-072L is proof tested by applying an insulation test voltage ≥ 4500 V

RMS

for 1 second (leakage detection

current limit, I

I-O

≤ 5 mA). Each ACPL-772L is proof tested by applying an insulation test voltage ≥ 4500 V

RMS

for 1 second (leakage detection current

limit, I

I-O

≤ 5 mA).

11. The Input-Output Momentary Withstand Voltage is a dielectric voltage rating that should not be interpreted as an input-output continuous

voltage rating. For the continuous voltage rating refers to your equipment level safety speciﬁcation or Avago Technologies Application Note 1074

entitled “Optocoupler Input-Output Endurance Voltage.”

12. C

is the capacitance measured at pin 2 (V

15 25 35 45 55

(pF)

PWD (ns)

PWD

Figure 5. Typical pulse width distortion vs load capacitance

Figure 6. Thermal derating curve, dependence of safety limiting value with

case temperature per IEC/EN/DIN EN 60747-5-2

Surface Mount SO-8 Product Standard 8-pin DIP Product

200

400

600

800

1,000

0 25 50 75 100 125 150 175

- Case Temperature - C

Output Power - Ps, Input Current - Is

Is (mA)

Ps (mW)

200

400

600

800

1000

0 25 50 75 100 125 150 175

- Case Temperature - °C

Output Power - Ps, Input Current - Is

Is (mA)

Ps (mW)

P1-P3 P4-P6 P7-P9 P10-P11

ACPL-772L-500E

Mfr. #:

Buy ACPL-772L-500E

Manufacturer:

Broadcom / Avago

Description:

High Speed Optocouplers 25MBd 6ns PWD

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

T/T Paypal Visa MoneyGram Western Union

ACPL-772L-500E

ACPL-772L-500E

Products related to this Datasheet