AQZ192 - PANASONIC - Datasheet.Directory

–1– ASCTB308E-1 201404-T

TYPES

Note: Please refer to the cautions for use regarding the recommended operation load voltage.

*Load voltage and load current of DC type: DC

RATING

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

Max. high capacity 10A

in a slim SIL package Power 1 Form A

DC High Capacity (AQZ19❍)

Output rating* Package Part No. Packing quantity

Load voltage Load current Inner carton Outer carton

DC only 60 V 10 A SIL4-pin AQZ192 20 pcs 500 pcs

200 V 5 A AQZ197

Item Symbol AQZ192 AQZ197 Remarks

Input

LED forward current IF50 mA

LED reverse voltage VR5 V

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

Power dissipation Pin 75 mW

Output

Load voltage (DC) VL60 V 200 V

Continuous load current (DC) IL10 A 5 A

Peak load current Ipeak 30 A 15 A 100 ms (1shot), VL = DC

Power dissipation Pout 2.0 W

Total power dissipation PT2.0 W

I/O isolation voltage Viso 3,000 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

VDE

mm inch

FEATURES

1. High capacity type power

PhotoMOS.

Can switch a wide range of currents and

voltages. Can control various types of

loads, from very small loads to a max.

10 A DC current for sequencers, motors,

and lamps.

2. Low on-resistance and high

sensitivity.

Low on-resistance of less than typ. 8 mΩ

(AQZ192). High sensitivity LED operate

current of typ. 0.7 mA.

3. 4-pin SIL type

(Thickness: Max. 4.5 mm .177 inch)

(L) 24.5 mm × (W) 4.5 mm × (H) 20.5 mm

(L) .965 inch × (W) .177 inch × (H) .807

inch.

4. Low-level off state leakage current

of max. 10 μA

5. Controls low-level analog signals

The triac, photocoupler, or SSR cannot

be used to control signals of less than

several hundred mV. The high capacity

type power PhotoMOS feature extremely

low closed-circuit offset voltage to enable

control of low-level analog signals without

distortion.

TYPICAL APPLICATIONS

• Photovoltaic power generation system

• Battery system

• Measuring instruments

• Power supply unit

• Industrial machines

Height includes

standoff

20.5

.807

4.5

.177

24.5

.965

+−+−

RoHS compliant

New

Power 1 Form A DC High Capacity (AQZ19)

–2– ASCTB308E-1 201404-T

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

Note: Please refer to the “Schematic and Wiring Diagrams” for connection method.

*Turn on/off time

RECOMMENDED OPERATING CONDITIONS

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

■ 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.

REFERENCE DATA

Item Symbol AQZ192 AQZ197 Remarks

Input

LED operate current Typical IFon

0.7 mA

IL = 100 mA

VL = 10 V

Maximum 3.0 mA

LED turn off current Minimum IFoff

0.2 mA

Typical 0.5 mA

LED dropout voltage Typical VF

1.35 V (1.17 V at IF = 10 mA) IF = 50 mA

Maximum 1.5 V

Output On resistance Typical Ron

8 mΩ31 mΩIF = 10 mA, IL = Max.

Within 1 s on time

Maximum 15 mΩ50 mΩ

Off state leakage current Maximum ILeak 10 μAIF = 0 mA, VL = Max.

Transfer

characteristics

Turn on time* Typical Ton

1.0 ms 0.7 ms IF = 10 mA, IL = 100 mA, VL = 10 V

Maximum 3.0 ms

Turn off time* Typical Toff

0.11 ms 0.05 ms IF = 10 mA, IL = 100 mA, VL = 10 V

Maximum 1.0 ms

I/O capacitance Typical Ciso

1.3 pF f = 1 MHz, VB = 0 V

Maximum 3.0 pF

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

Maximum operating frequency Maximum — 0.5 cps IF = 10 mA, Duty factor = 50%,

VL = Max., IL = Max.

Item Symbol Recommended value Unit

Input LED current IF10 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. Load current vs. ambient temperature

characteristics in adjacent mounting

Sample: All types

IL: Load current;

IL (max.): Maximum continuous load current

3. On resistance vs. ambient temperature

characteristics

LED current: 10 mA;

Continuous load current: 10 A DC (AQZ192)

5 A DC (AQZ197)

00-40 20 40 60

8085

100-20 +32-40 +68 +104 +140

+176 +185

+212-4

Load current, A

Ambient temperature, °C°F

AQZ192

AQZ197

120

100

IL/IL(max.)×100, %

0-40 20 40 60

8085

100-20 +32-40 +68 +104 +140

+176 +185

+212-4

Ambient temperature, °C°F

=Adjacent mounting pitch

=20mm

.787 inch

=10mm

.394 inch

=5mm

.197 inch

AQZ197

AQZ192

0.1

0.08

0.06

0.04

0.02

00-40 20 40 60

80 85

-20 +32-40 +68 +104 +140

+176 +185

-4

On resistance, Ω

Ambient temperature, °C°F

Power 1 Form A DC High Capacity (AQZ19)

–3– ASCTB308E-1 201404-T

4. Turn on time vs. ambient temperature

characteristics

LED current: 10 mA; Load voltage: 10 V (DC);

Continuous load current: 100 mA (DC)

5. Turn off time vs. ambient temperature

characteristics

LED current: 10 mA; Load voltage: 10 V (DC);

Continuous load current: 100 mA (DC)

6. LED operate current vs. ambient

temperature characteristics

Sample: All types

Load voltage: 10 V (DC);

Continuous load current: 100 mA (DC)

Turn on time, ms

0-40 20 40 60

80 85

-20 +32-40 +68 +104 +140

+176 +185

-4

Ambient temperature, °C°F

AQZ192

AQZ197

0.5

0.4

0.3

0.2

0.1

Turn off time, ms

0-40 20 40 60

80 85

-20 +32-40 +68 +104 +160

+176 +185

-4

Ambient temperature, °C°F

AQZ192

AQZ197

LED operate current, mA

0-40 20 40 60

80 85

-20 +32-40 +68 +104 +140

+176 +185

-4

Ambient temperature, °C°F

7. LED turn off current vs. ambient temperature

characteristics

Sample: All types

Load voltage: 10 V (DC);

Continuous load current: 100 mA (DC)

8. LED dropout voltage vs. ambient

temperature characteristics

Sample: All types

LED current: 5 to 50 mA

9. Current vs. voltage characteristics of output

at MOS portion

Ambient temperature: 25°C 77°F

LED turn off current, mA

0-40 20 40 60

80 85

-20 +32-40 +68 +104 +140

+176 +185

-4

Ambient temperature, °C°F

0.9

1.1

1.2

1.3

1.4

1.5

50mA

30mA

20mA

10mA

5mA

0-40 20 40 60

80 85

-20 +32-40 +68 +104 +140

+176 +185

-4

LED dropout voltage, V

Ambient temperature, °C°F

-0.5 -0.4 -0.3 -0.2 -0.1

0.1 0.2 0.3 0.4 0.5

-2

-4

-6

-8

-10

-12

Voltage, V

Current, A

AQZ192

AQZ197

10. Leakage current vs. load voltage

characteristics

Ambient temperature: 25°C 77°F

11. Turn on time vs. LED forward current

characteristics

Load voltage: 10 V (DC);

Continuous load current: 100 mA (DC);

Ambient temperature: 25°C 77°F

12. Turn off time vs. LED forward current

characteristics

Load voltage: 10 V (DC);

Continuous load current: 100 mA (DC);

Ambient temperature: 25°C 77°F

050 100

10–3

10–6

10–9

10–12

Load voltage, V

Leakage current, A

AQZ192

AQZ197

010 20 30 40 50 600

LED forward current, mA

Turn on time, ms

AQZ192

AQZ197

0.5

0.4

0.3

0.2

0.1

Turn off time, ms

10 20 30 40 50 600

LED forward current, mA

AQZ192

AQZ197

Power 1 Form A DC High Capacity (AQZ19)

–4– ASCTB308E-1 201404-T

DIMENSIONS (mm inch)

CAUTIONS FOR USE

SAFETY WARNINGS

13. Maximum operating frequency vs. load

voltage/current characteristics

Sample: All types; LED current: 10 mA;

Ambient temperature: 25°C 77°F

VL: Load voltage, VL (Max.): Max. rated load voltage

IL: Load current, IL (Max.): Max. rated continuous load

current

14. Output capacitance vs. applied voltage

characteristics

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

020 30 40 50 60 70 80 90 100

duty = 50%

010

× 100, %

Maximum operating frequency, time/s

VL × IL

VL (max.) × IL (max.)

3000

2500

2000

1500

1000

500

0 20406080100

Applied voltage, V

Output capacitance, pF

AQZ197

AQZ192

The CAD data of the products with a CAD Data mark can be downloaded from: http://industrial.panasonic.com/ac/e/

External dimensions

General tolerance: ±0.2 ±.008

24.5 max.

7.6210.162.54

4-1.6

4-0.7

4.5 max.

0.25

1.2

20.5 max.

0.8

3.7

.965 max.

.300.400.100

4-.063

4-.028

.177 max.

.010

.047

.807 max.

.031

.146

PC board pattern (Bottom view)

Tolerance: ±0.1 ±.004

Schematic

2.54 10.16 7.62

4-1.0 dia.

1.2

.100 .400 .300

4-.039 dia.

.047

––

OutputInput

CAD Data

• Do not use the product under conditions

that exceed the range of its speciﬁca-

tions. It may cause overheating, smoke,

or ﬁre.

• Do not touch the recharging unit while

the power is on. There is a danger of

electrical shock.

Be sure to turn off the power when

performing mounting, maintenance, or

repair operations on the device (including

connecting parts such as the terminal

board and socket).

• Check the connection diagrams in the

catalog and be sure to connect the

terminals correctly.

Erroneous connections could lead to

unexpected operating errors, overheat-

ing, or ﬁre.

1. Applying stress that exceeds the

absolute maximum rating

If the voltage or current value for any of

the terminals exceeds the absolute

maximum rating, internal elements will

deteriorate because of the overvoltage or

overcurrent. In extreme cases, wiring

may melt, or silicon P/N junctions may be

destroyed.

Therefore, the circuit should be designed

in such a way that the load never exceed

the absolute maximum ratings, even

momentarily.

2. Derating design

Derating is essential in any reliable

design and is a signiﬁcant factor for

product life.

Even if the conditions of use

(temperature, current, voltage, etc.) of the

product fall within the absolute maximum

ratings, reliability can be reduced

remarkably when continually used under

high load (high temperature, high

humidity, high current, high voltage, etc.).

Therefore, please derate sufﬁciently

below the absolute maximum rating and

verify operation of the actual design

before use.

Also, if there is the possibility that the

inferior quality of this product could

possibility cause great adverse affect on

human life or physical property we

recommend that, from the perspective of

a manufacturer’s liability, sufﬁcient

amount of derating to be added to the

maximum rating value and implement

safety measures such as fail-safe circuit.

Power 1 Form A DC High Capacity (AQZ19)

–5– ASCTB308E-1 201404-T

3. Short across terminals

Do not short circuit between I/O terminals

when device is energized, since there is

possibility of breaking of the internal IC.

4. Surge voltages at the input

If reverse surge voltages are present at

the input terminals, connect a diode in

reverse parallel across the input

terminals and keep the reverse voltages

below the reverse breakdown voltage.

Power type

5. LED current vs. ambient

temperature characteristics

Please keep the LED current to within the

range given below.

6. Ripple in the input power supply

If ripple is present in the input power

supply, observe the following:

1) Please maintain the LED current at

10 mA for Emin.

2) Please make sure for Emax. is no higher

the LED current at than 50 mA.

7. Spike voltages at the output

1) If an inductive load generates spike

voltages which exceed the absolute

maximum rating, the spike voltage must

be limited.

Power type

2) Even if spike voltages generated at the

load are limited with a clamp diode or

snubber circuit if the circuit wires are

long, spike voltages will occur by

inductance. Keep wires as short as

possible to minimize inductance.

8. Cleaning solvents compatibility

We recommend cleaning with an organic

solvent. If you cannot avoid using

ultrasonic cleansing, please ensure that

the following conditions are met, and

check beforehand for defects.

• Frequency: 27 to 29 kHz

• Ultrasonic output: No greater than

0.25W/cm2 (Note)

• Cleaning time: No longer than 30

seconds

• Cleanser used: Asahiklin AK-225

• Other: Submerge in solvent in order to

prevent the PC board and elements

from being contacted directly by the

ultrasonic vibrations.

Note: Applies to unit area ultrasonic output for

ultrasonic baths.

9. Notes for mounting

1) If many different packages are

combined on a single substrate, then

lead temperature rise is highly dependent

on package size. For this reason, please

make sure that the temperature of the

terminal solder area of the PhotoMOS

falls within the temperature conditions

“10. Soldering” before mounting.

2) If the mounting conditions exceed the

recommended solder conditions, resin

strength will fall and the nonconformity of

the heat expansion coefﬁcient of each

constituent material will increase

markedly, possibly causing cracks in the

package, severed bonding wires, and the

like. For this reason, please inquire with

us about whether this use is possible.

10. Soldering

When soldering PC board terminals,

keep soldering time to within 10 seconds

at 260°C 500°F.

• When using lead-free solder, we

recommend a type with an alloy

composition of Sn 3.0 Ag 0.5 Cu. Please

inquire about soldering conditions and

other details.

11. Packing format for relay

Tube packaging

The relays are packaged in a tube so that

pin No. 1 is on the stopper B side.

Observe correct orientation when

mounting them on PC boards.

(Power type)

12. Transportation and storage

1) Extreme vibration during transport will

warp the lead or damage the device.

Handle the outer and inner cartons with

care.

2) Storage under extreme conditions will

cause soldering degradation, external

appearance defects, and deterioration of

the characteristics. The following storage

conditions are recommended:

• Temperature: 0 to 45°C 32 to 113°F

• Humidity: Less than 70% R.H.

• Atmosphere: No harmful gasses such

as sulfurous acid gas, minimal dust.

13. Input LED current (Standard power

type)

For rising and dropping ratio (di/dt) of

input LED current, maintain min. 100

μA/s.

14. Adjacent mounting (Power type)

1) When relays are mounted close

together with the heat-generated devices,

ambient temperature may rise

abnormally. Mounting layout and

ventilation of power type should be

considered.

2) When many power type relays are

mounted close together, load current

should be reduced. (Refer to the date of

“Load current vs. ambient temperature

characteristics in adjacent mounting.”)

15. Recommended load voltage

As a guide in selecting PhotoMOS ,

please refer to the following table.

100

0100

80 85

6040200-20-40 +212

+176 +185

+140+104+68+32-4-40

LED current, mA

Ambient temperature, °C°F

Emin. Emax.

1234

Load

Add a clamp diode

to the load

1234

Load

Add a CR snubber

circuit to the load

1234

Load Add a varistor to the

PhotoMOS®

Part No.

Absolute maximum

ratings Recommended

load voltage

Load

voltage

Load

current

AQZ192 60 V DC 10 A DC 5, 12, 24 V DC

AQZ197 200 V DC 5 A DC 100 V DC

Stopper B Stopper A