AQW210HLAZ - Panasonic

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

GU 2 Form A Current Limiting (AQW210HL)

ASCTB56E 201201-T

TYPES

*Indicate the peak AC and DC values.

Note: The surface mount terminal shape indicator “A” and the packing style indicator “X” or “Z” are not marked on the device.

RATING

1. Absolute maximum ratings (Ambient temperature: 25°C 77°F)

Two output type with

current limiting and

reinforced insulation GU 2 Form A

Current Limiting (AQW210HL)

I/O isolation

voltage

Output rating*

Package

Part No.

Packing quantity

Through hole

terminal Surface-mount terminal

Load

voltage

Load

current Tube packing style

Tape and reel packing style

Tube Tape and reel

Picked from the

1/2/3/4-pin side

Picked from the

5/6/7/8-pin side

AC/DC

dual use

Reinforced

5,000 V AC 350 V 100 mA DIP8-pin AQW210HL AQW210HLA AQW210HLAX AQW210HLAZ

1 tube contains:

50 pcs.

1 batch contains:

500 pcs.

1,000 pcs.

Item Symbol AQW210HL(A) Remarks

Input

LED forward current IF50 mA

LED reverse voltage VR5 V

Peak forward current IFP 1 A f = 100 Hz, Duty factor = 0.1%

Power dissipation Pin 75 mW

Output

Load voltage (peak AC) VL350 V

Continuous load current IL0.1 A (0.12 A) Peak AC, DC

( ): in case of using only 1 channel

Power dissipation Pout 800 mW

Total power dissipation PT850 mW

I/O isolation voltage Viso 5,000 V AC

Temperature

limits

Operating Topr –40°C to +85°C –40°F to +185°FNon-condensing at low temperatures

Storage Tstg –40°C to +100°C –40°F to +212°F

TESTING

mm inch

FEATURES

1. Current Limiting Function

To control an over current from ﬂowing,

the current limit function has been

realized. It keeps an output current at a

constant value when the current reaches

a speciﬁed current limit value.

2. Enhances the capability of surge

resistance between output terminals

The current limit function controls the ON

time surge current to enhance the

capability of surge resistance between

output terminals.

3. Reinforced insulation of 5,000 V

More than 0.4 mm internal insulation

distance between inputs and outputs.

Con-forms to EN41003, EN60950

(reinforced insulation).

4. Applicable for 2 Form A use as well

as two independent 1 Form A use.

5. Controls low-level analog signals

6. High sensitivity and high speed

response.

Can control max. 0.12 A load current with

5 mA input current. This enables fast

operation speed of typ. 0.5 ms

7. Low-level off state leakage current

TYPICAL APPLICATIONS

• Telephone equipment

• Modem

3.2

6.4

9.86

2.9

6.4

9.86

.126

.252

.388

.114

.252

.388

RoHS compliant

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

GU 2 Form A Current Limiting (AQW210HL)

ASCTB56E 201201-T

2. Electrical characteristics (Ambient temperature: 25°C 77°F)

*Turn on/Turn off time

RECOMMENDED OPERATING CONDITIONS

Please obey the following conditions to ensure proper device operation and resetting.

■ For Dimensions.

■ For Schematic and Wiring Diagrams.

■ For Cautions for Use.

■ These products are not designed for automotive use.

If you are considering to use these products for automotive applications, please contact your local Panasonic Corporation

technical representative.

For more information.

REFERENCE DATA

Item Symbol AQW210HL(A) Condition

Input

LED operate current Typical IFon

1.2 mA IL = Max.

Maximum 3.0 mA

LED turn off current Minimum IFoff

0.4 mA IL = Max.

Typical 1.1 mA

LED dropout voltage Minimum VF

1.25 (1.14 V at IF = 5 mA) IF = 50 mA

Typical 1.5 V

Output

On resistance Typical Ron

20ΩIF = 5 mA

IL = Max.

Within 1 s on time

Maximum 25Ω

Off state leakage current Maximum ILeak 1µAIF = 0 mA

VL = Max.

Current limit Typical — 0.18 A IF = 5 mA

Transfer

characteristics

Tu rn on time* Typical Ton

0.5 ms IF = 5 mA

IL = Max.

Maximum 2.0 ms

Tu rn off time* Typical Toff

0.08 ms IF = 5 mA

IL = Max.

Maximum 1.0 ms

I/O capacitance Typical Ciso

0.8 pF f = 1 MHz

VB = 0 V

Maximum 1.5 pF

Initial I/O isolation resistance Minimum Riso 1,000 MΩ500 V DC

Item Symbol Recommended value Unit

Input LED current IF5 to 10 mA

Ton

Input

Output 10%

90%

Toff

1. Load current vs. ambient temperature

characteristics

Allowable ambient temperature: –40°C to +85°C

–40°F to +185°F

2. On resistance vs. ambient temperature

characteristics

Measured portion: between terminals 5 and 6, 7 and 8;

LED current: 5 mA; Load voltage: Max. (DC)

Continuous load current: Max.(DC)

3. Turn on time vs. ambient temperature

characteristics

LED current: 5 mA; Load voltage: Max.(DC);

Continuous load current: Max.(DC)

Load current, mA

Ambient temperature, °C

200

150

100

0204060

80 85

100–20–40

Using only 1 channel

Using 2 channels

On resistance, Ω

Ambient temperature, °C

–40 –20

0204060

80 85

Turn on time, ms

Ambient temperature, °C

0.5

1.5

–20–40

2.5

0204060

80 85

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

GU 2 Form A Current Limiting (AQW210HL)

ASCTB56E 201201-T

What is current limit

4. Turn off time vs. ambient temperature

characteristics

LED current: 5 mA; Load voltage: Max.(DC);

Continuous load current: Max.(DC)

5. LED operate current vs. ambient

temperature characteristics

Load voltage: Max.(DC);

Continuous load current: Max.(DC)

6. LED turn off current vs. ambient temperature

characteristics

Load voltage: Max.(DC);

Continuous load current: Max.(DC)

Turn off time, ms

Ambient temperature, °C

0.05

0.1

0.15

0.2

0.3

–20–40

0.25

0204060

80 85

LED operate current, mA

Ambient temperature, °C

–20–40

0204060

80 85

LED turn off current, mA

Ambient temperature, °C

–40 –20

0204060

80 85

7. LED dropout voltage vs. ambient

temperature characteristics

LED current: 5 to 50 mA

8. Current vs. voltage characteristics of output

at MOS portion

Measured portion: between terminals 5 and 6, 7 and 8;

Ambient temperature: 25°C 77°F

9. Off state leakage current vs. load voltage

characteristics

Measured portion: between terminals 5 and 6, 7 and 8;

Ambient temperature: 25°C 77°F

0–40 –20 20 40 60

80 85

LED dropout voltage, V

Ambient temperature, °C

1.5

1.4

1.3

1.2

1.1

1.0

50mA

30mA

20mA

10mA

5mA

531

–5 –3

140

120

–20

–40

–60

–80

–100

–120

–140

100

–2–4

–1

Voltage, V

Current, mA

Off state leakage current, A

Load voltage, V

10–3

10–6

10–9

10–12

060 100

20 40 80

10. Turn on time vs. LED forward current

characteristics

Measured portion: between terminals 5 and 6, 7 and 8;

Load voltage: Max.(DC); Continuous load current:

Max.(DC); Ambient temperature: 25°C 77°F

11. Turn off time vs. LED forward current

characteristics

Measured portion: between terminals 5 and 6, 7 and 8;

Load voltage: Max.(DC); Continuous load current:

Max.(DC); Ambient temperature: 25°C 77°F

12. Output capacitance vs. applied voltage

characteristics

Measured portion: between terminals 5 and 6, 7 and 8;

Frequency: 1 MHz; Ambient temperature: 25°C 77°F

Turn on time, ms

LED forward current, mA

0.5

1.5

2.5

10 20 30 40 50 60

Turn off time, ms

LED forward current, mA

0.05

0.1

100203040

0.2

50 60

0.15

Output capacitance, pF

Applied voltage, V

10 20 30 40 500

When a load current reaches the

speciﬁed output control current, a current

limit function works against the load

current to keep the current a constant

value.

The current limit circuit built into the

PhotoMOS thus controls the

instantaneous load current to effectively

ensure circuit safety.

This safety feature protects circuits

downstream of the PhotoMOS against

over-current.

But, if the current-limiting feature is used

longer than the speciﬁed time, the

PhotoMOS can be destroyed. Therefore,

set the output loss to the max. rate or

less.

• Comparison of output voltage and

output current characteristics

V-I Characteristics

Output current

Output voltage