Optoelectronic device directly drives power MOSFET. Semiconductor rela
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PhotoMOS Relay Technical Information PhotoMOS Relays Operate:
Optoelectronic device directly drives power MOSFET. Semiconductor relay incorporating advantages both electromagnetic relays semiconductors.
Power MOSFET Optoelectronic device
When operated When turned
When signal current flows input terminals input side emits light.
When signal current input terminal off, stops emitting light.
emitted light passes through transparent silicon reaches photoelectric element (solar cell) which mounted opposite LED.
When emitted light from stops, voltage photoelectric element decreases.
photoelectric element converts received light voltage corresponding quantity light. This voltage passes through control circuit charges MOSFET gate output side.
When voltage supplied from photoelectric element decrease, control circuit rapidly discharges gate charge MOSFET.
When MOSFET gate voltage supplied from photoelectric element reaches preset voltage value, MOSFET begins conduct turns load.
This control circuit makes MOSFET stop conducting immediately turns load.
PhotoMOS Relay Dimensions
Type Through hole terminal type Dimensions Surface mount terminal type
Max. 6-0.8 dia. 6-.031 dia. 6.4±0.05 .252±.002 7.62±0.05 .300±.002 Max. Max. 8.8±0.05 .346±.002 3.9±0.2 .154±.008 .118 0.47 .019 1.25 .049 2.54 .100 0.47 .019 1.25 .049 0.47 .019 1.25 .049 2.54 .100 .134 .134 ±0.2 ±.008 0.47 .008 .019 1.25 .049 .039 8.8±0.05 .346±.002 .134 6.4±0.05 .252±.002 .299 5.08 .200 2.54 .100 2.54 7.62 .100 .300
inch
board pattern (Bottom view)
AQV10 AQV20 AQV21 AQV22 AQV23 AQV25 AQV41 AQV45 Series
.252
Tolerance:±0.1 ±.004 Recommended mounting (Top view)
.327 .075 .059
Terminal thickness 0.25 .010
0.47 .019 1.25 .049 2.54 2.54 .100 .100
0.47 .019 1.25 .049
Terminal thickness 0.25 .010
General tolerance: ±0.1 ±.004
General tolerance: ±0.1 ±.004
Max.
2.54 2.54 .100 .100
Through hole terminal type
Max. .252 7.62 .300 Max. 9.78 .385 .134
Surface mount terminal type
board pattern (Bottom view)
8-0.8 dia. 8-.031 dia. 7.62 .300 2.54 .100 2.54 7.62 .100 .300
AQW21 AQW22 AQW25 AQW41 AQW45 AQW61 AQW65 Series
.252
7.62 .300 .252 .039 9.78 .385 .134
3.9±0.2 .154±.008 .118 0.47 .019 .039 0.47 0.47 .019 .019 1.25 1.25 .049 .049 2.54 2.54 2.54 .100 .100 .100 0.47 .019 .039
Terminal thickness 0.25 .010
.134 ±0.2 .008 ±.008 0.47 .019 .039
Tolerance:±0.1 ±.004 Recommended mounting (Top view)
.327 .075 .059 2.54 2.54 2.54 .100 .100 .100
0.47 0.47 .019 .019 1.25 1.25 .049 .049 2.54 2.54 2.54 .100 .100 .100
0.47 .019 .039
Terminal thickness 0.25 .010
General tolerance: ±0.1 ±.004
.020
General tolerance: ±0.1 ±.004
Recommended mounting (Top view)
4.4±0.2 .173±.008
6.8±0.4 .268±.016
AQV21 (SOP) AQV22 (SOP) AQV41 (SOP) Series
.016
.236 .047 .031 2.54 2.54 .100 .100
6.3±0.2 .248±.008 2±0.2 .079±.008 .004 .016
.020
.016 2.54 2.54 .100 .100
Tolerance: ±0.1 ±.004
.020 6.8±0.4 .268±.016
Recommended mounting (Top view)
4.4±0.2 .173±.008
AQW21(SOP) AQW21rTS (SOP) Series
9.37±0.2 .369±.008
2±0.2 .079±.008 .016 .016 2.54 .016 .100 2.54 .100 2.54 .100 .016 .004
.020 .031 2.54 2.54 2.54 .100 .100 .100
.236 .047
Terminal thickness 0.15 .006
General tolerance: ±0.1 ±.004
.020 ±0.2 .173 ±.008 ±0.4 .268 ±.016
Tolerance: ±0.1 ±.004
Recommended mounting (Top view)
.236
.047
AQW21rT2S (SOP) Series
.016 2.54 .100
9.37 .369
±0.2 ±.008
±0.2 .079 ±.008
.016 0.10 .016 .004 .016 1.27 .050 1.27 .050
.020 2.54 .100 1.27 1.27 1.27 .050 .050 .050
.031
.016 .016 1.27 .050 1.27 .050
Terminal thickness 0.15 .006 General tolerance: ±0.1 ±.004
Tolerance: ±0.1 ±.004
inch Type
max. 1.339
Dimensions
max. .197
board pattern (Bottom view)
Series (Multi-channel type)
.020 .039
max. .709
.138 0.25 .010
Tolerance: ±0.1 ±.004
General tolerance: ±0.5 ±.020 Recommended mounting (Top view)
.020
.236 .047 .031 2.54 .100
4.4±0.2 .173 ±.008
±0.4 .268 ±.016
AQY21 (SOP) AQY41 (SOP) Series
±0.2 .169 ±.008
±0.2 .079 ±.008
.020
.016
2.54 .016 .100
.004
Terminal thickness 0.15 .006 General tolerance: ±0.1 ±.004 Surface mount terminal type Tolerance: ±0.1 ±.004 board pattern (Bottom view)
Max.10° .039 4-0.8 dia. 5.08 4-.031 dia. .200
Through hole terminal type
.346
±0.05 ±0.2 10.16 ±.001 .346 ±0.08.400
10.16 .400 2.54 .100
±0.2 .346 ±0.08
10.16 .400
AQY27 Series
±0.2 .366 ±.008 .138
±0.1 ±0.04
±0.2 .366 ±0.08 ±0.08 .154
±0.2
.039 ±0.2 .138 ±0.08 ±0.2 .008 ±0.08
Tolerance: ±0.1 ±.004 Recommended mounting (Top view)
11.0 .433 .071
0.47 .019 5.08 .200
Terminal thickness 0.47 0.25 .010 .019 General tolerance: ±0.1 ±.004
21±0.2 .827±.008
.118
5.08 .200
Terminal thickness 0.25 .010 General tolerance: ±0.1 ±.004
2-0.8 dia. 2-.031 dia.
.071 5.08 .200
Tolerance: ±0.1 ±.004
3.5±0.2 .138±.008 2.8±0.2 .110±.008
board pattern (Bottom view)
2-1.1 dia. 2-.043 dia.
11±0.2 .433±.008
AQZ10 AQZ20 Series
.043 .059 2.54 .100 .059 .059 .059 .031 10.16 .400 .047 .031 5.08 .200
2.54 .100
10.16 .400
.197 .138
Tolerance: ±0.1 ±.004
type Input: Input: Output: Output:
5.08 .200
AC/DC type
0.25 .010
General tolerance: ±0.1 ±.004
Max. .354
Input: Input: Output: Output:
Max. 43.0 1.693
4-0.8dia. 4-.031dia.
.098 Max. 32.0 1.260
AQZ26 Series
Min. .315 5.08 .200 5.08 .200 12.7 .500 10.16 .400
Mounting hole location(Bottom view)
Terminal
QQQQ PPPP @@@@ ,,,, QQQQ PPPP @@@@ ,,,, QQQQ PPPP @@@@ ,,,,
27.94 1.100
Copper foil
4-1.2 dia. 4-.047
Input: Input: Output Output
General tolerance ±0.5 ±.020
Pitch tolerance: ±0.1 ±.004
Terminology
Term forward current reverse voltage Peak forward current Input operate current turn current dropout voltage Power dissipation Load voltage Continuous load current Output resistance state leakage current Power dissipation Turn time Turn time capacitance Output capacitance Electrical characteristics isolation resistance Total power dissipation isolation voltage Operating temperature Storage temperature Ileak Pout Toff Ciso Cout Riso Viso Topr Tstg Symbol IFON IFoff Description Current that flows between input terminals when input diode forward biased. Reverse breakdown voltage between input terminals. Maximum instantaneous value forward current. Current when output switches increasing current) with designated supply voltage load connected between output terminals. Current when output switches decreasing current) after operating relay with designated supply voltage load connected between output terminals. Dropout voltage between input terminals forward current. Allowable power dissipation between input terminals. Supply voltage range output used normally operate PhotoMOS relay. Represents peak value voltages. Maximum current value that flows continuously between output terminals PhotoMOS relay under designated ambient temperature conditions. Represents peak value current. Obtained using equation below from dropout voltage (on) between output terminals (when designated current made flow through input terminals designated load current through output terminals.) (on)/IL Current flowing output when designated supply voltage applied between output terminals with current flow. Allowable power dissipation between output terminals. Delay time until output switches after designated current made flow through input terminals. Delay time until output switches after designated current flowing through input terminals off. Capacitance between input output terminals. Capacitance between output terminals when current does flow. Resistance between terminals (input output) when specified voltage applied between input output terminals. Allowable power dissipation entire circuit between input output terminals. Critical value before dielectric breakdown occurs, when high voltage applied minute between same terminals where isolation resistance measured. Ambient temperature range which PhotoMOS relay operate normally with designated load current conditions. Ambient temperature range which PhotoMOS relay stored without applying voltage.
Reliability tests
Classification Item High temperature storage test temperature storage test Life tests High temperature high humidity storage test Continuous operation life test Temperature cycling test Thermal environment tests Thermal shock test Solder burning resistance Vibration test Shock test Mechanical environment tests Drop test Terminal strength test Solderability Condition Tstg (Max.) Tstg (Min.) 85°C 185°F, R.H. Purpose Determines resistance long term storage high temperature. Determines resistance long term storage temperature. Determines resistance long term storage high temperature high humidity.
Max., Max., operate current (Max.) Determines resistance electrical stress (voltage current). storage temperature (Tstg Min.) High storage temperature (Tstg Max.) temperature (0°C) (32°F), High temperature (100°C) (212°F) 260±5°C 500±41°F, m/s2 2,000 Hz*1 9,800 m/s2 {1,000 ms*2; 4,900 m/s2 {500 Dropped height board Determined from terminal shape cross section 230°C 446°F (with soldering flux) Determines resistance exposure both temperatures high temperatures. Determines resistance exposure sudden changes temperature. Determines resistance thermal stress occurring while soldering. Determines resistance vibration sustained during shipment operation. Determines mechanical structural resistance shock. Determines mechanical resistance drops sustained during shipment operation. Determines resistance external force terminals PhotoMOS relay mounted board while wiring operating. Evaluates solderability terminals.
double amplitude Power PhotoMOS relays. 4,900 m/s2, Power PhotoMOS relays.
PhotoMOS Relay Schematic Wiring Diagrams
Type Schematic Output configuration Load Connection
Load (AC,DC)
Wiring diagram
Load (AC,DC)
AC/DC
Load
(DC)
(DC) Load
AQV21 AQV21 (SOP) AQV22 AQV22 (SOP) AQV23 AQV25 Series
(DC) Load
Load
(DC)
Load
(DC)
Load
(DC)
(AQV254R only)
independent Form
Load Load (AC,DC) (AC,DC) Load (AC,DC) Load (AC,DC)
AQW21 AQW21 (SOP) AQW22 AQW25 Series
AC/DC
Form
Load Load (AC,DC) (AC,DC) Load (AC,DC) Load (AC,DC)
Load VL1(AC,DC)
Load VL1(AC,DC)
AQW21rTS Series
Relay portion Detecter portion Relay portion (1,2,7,8 pins) Detector portion (3,4,5,6 pins)
Relay portion AC/DC Detecter portion
(DC)VL2
Load
Load VL1(AC,DC)
Load VL1(AC,DC)
AQW21rT2S Series
Relay portion (1,2,11,12 pins) Detector portion (3,4,9,10 pins) (5,6,7,8 pins)
Relay portion Detecter portion
Relay portion AC/DC Detecter portion
Load
(DC)VL2 (DC)VL3
Load
*Can also connected Form type. (However, continuous load current should exceed absolute maximum rating.) **Can also connected Form type. (However, continuous load current should exceed absolute maximum rating.) Notes: Power source input side; VIN: Input voltage; forward current; Load voltage; Load current; Current limit resistor. Method connecting load output devided into types.
Type
Schematic
Output configuration
Load
Connection
Wiring diagram
Load (AC,DC)
Load (AC,DC)
AC/DC
Load
(DC)
(DC) Load
AQV41 AQV41 (SOP) AQV45 Series
(DC) Load
Load
(DC)
Load
(DC)
Load
(DC)
independent Form Form
N.C.
Load Load (AC,DC) (AC,DC)
Load (AC,DC) Load (AC,DC)
AQW61 AQW65 Series
N.O.
1a1b
AC/DC
Form Form
Load Load (AC,DC) (AC,DC) Load (AC,DC) Load (AC,DC)
independent Form
Load Load (AC,DC) (AC,DC) Load (AC,DC) Load (AC,DC)
AQW41 AQW45 Series
AC/DC
Form
Load Load (AC,DC) (AC,DC) Load (AC,DC) Load (AC,DC)
Load
AQV10 Series
(DC)
Load
(DC)
Terminal cannot used, since internal circuit relay.
*Can also connected Form type. (However, continuous load current should exceed absolute maximum rating.) **Can also connected Form type. (However, continuous load current should exceed absolute maximum rating.) Notes: Power source input side; VIN: Input voltage; forward current; Load voltage; Load current; Current limit resistor. Method connecting load output devided into types.
Type
Schematic
Output configuration
Load
Connection
Load
Wiring diagram
(AC,DC)
Load (AC,DC)
AC/DC
Load
(DC)
(DC) Load
AQV20 Series
(DC) Load
Load
(DC)
Load
(DC)
Load
(DC)
Terminal cannot used, since internal circuit relay.
Load Load Load Load (AC,DC) (AC,DC) (AC,DC) (AC,DC)
Load Load Load Load (AC,DC) (AC,DC) (AC,DC) (AC,DC)
Series (Multichannel type)
Input Common: Input Input Input Input Output (N.O.): Output (N.O.): Output (N.O.): Output (N.O.): Output (N.O.): Output (N.O.): Output (N.O.): Output (N.O.):
AC/DC
AQY21 (SOP) AQY27 Series
(AC,DC)
Load (AC,DC)
AC/DC
Load
(AC,DC)
Load (AC,DC)
AQY41 (SOP) Series
AC/DC
Load
*Can also connected Form type. (However, continuous load current should exceed absolute maximum rating.) **Can also connected Form type. (However, continuous load current should exceed absolute maximum rating.) Notes: Power source input side; VIN: Input voltage; forward current; Load voltage; Load current; Current limit resistor. Method connecting load output devided into types.
Type
Schematic
Output configuration
Load
Wiring diagram
AQZ20 Series
AC/DC
Load
Load
AQZ10 Series
Load
(DC)
Load
(DC)
Series
AC/DC
Load
Load
Series
AC/DC
Load
Load
Series
Load
(DC)
Load
(DC)
AQZ26 Series
AC/DC
Load
Load
Notes: Power source input side; VIN: Input voltage; forward current; Load voltage; Load current; Current limit resistor. Method connecting load output devided into types.
PhotoMOS Relay Cautions
SAFETY WARNINGS
product under conditions that exceed range specifications. cause overheating, smoke, fire. touch recharging unit while power There danger electrical shock. sure turn power when performing mounting, maintenance, repair operations relay (including connecting parts such terminal board socket). Check connection diagrams catalog sure connect terminals correctly. Erroneous connections could lead unexpected operating errors, overheating, fire.
NOTES
PhotoMOS Relays excluding Power PhotoMOS Relays Ripple input power supply Unused terminals ripple present input power terminal used with supply, observe following: circuit inside relay. Therefore, operate current Emin, connect external circuitry with either connection method maintain value mentioned table Short across terminals "Note Recommended forward short circuit between terminals current (IF)." when relay energized, since there Keep operate current possibility breaking internal PhotoMOS Relay Surge voltages input with display type) less Emax. reverse surge voltages present input terminals, connect diode reverse parallel across input terminals keep reverse voltages Emin. Emax. reverse breakdown voltage.
Cleaning solvents compatibility cleaning with organic solvent recommended removal solder flux, dust, etc. Select cleaning solvent from following table. ultrasonic cleaning must used, severity factors such frequency, output power cleaning solvent selected cause loose wires other defects. Make sure these conditions correct before use. details, please consult
Cleaning solvent I.I.I. Trichloroethlene (Chloroethlene) Trichloroethlene (Trichlene) Perchloroethlene Methlene chloride Indusco 624, 1000 Hollis Lonco Terg Ethanol Thinner Gasoline Compatibility
Output spike voltages inductive load generates spike voltages which exceed absolute maximum rating, spike voltage must limited. Typical circuits shown below.
Load
Chlorinebase
Adueous Alcoholbase Others
Recommended forward current (IF) recommended that forward current (IF) each PhotoMOS Relay should according following table.
Type Product name AQV10,20 Series AQY27 Series* AQV21 Series (including SOP) AQV22 Series (including SOP) AQV25 Series AQV45 Series AQW21 Series (including SOP) AQW21rTS,T2S Series AQW41 Series AQW61 Series AQW22 Series AQW25 Series AQW45 Series AQW65 Series AQY21,41 Series AQV23 Series Recommended forward current (IF)
clamp diode load
Load
INPUT WIRING PATTERN With types, avoid installing input (LED side) wiring pattern bottom side package require specified isolation voltage (Viso) after mounting board. Since part frame output side exposed, cause fluctuations isolation voltage.
Portion output side frame (Output terminal side)
type
Standard isolation type (1,500
scrubber circuit load
Even spike voltages generated load limited with clamp diode circuit wires long, spike voltages will occur inductance. Keep wires short possible minimize inductance.
Input wiring (Input terminal side) pattern
allow prescribed withstand voltage (Viso) achieved
Reinforced isolation AQV21,41 Series (5,000 AQV25,45 Series AQX21 Series type AQZ10,20,26 Series
*Standard insolation type (2,500
Soldering When soldering board terminals, keep soldering time within 260°C 500°F. When soldering surface-mount terminals, following conditions recommended. (Infrared reflow) soldering method
Vapor phase soldering method
Double wave soldering method
165°C 329°F 180°C 200°C 392°F 245°C 473°F less less less
200°C 392°F 215°C 419°F less less(40 less type)
165°C 329°F 260°C 500°F less less t2+t3 less
Soldering iron method temperature: 300°C 572°F Wattage: Soldering time: within
Others Check mounting conditions before using other soldering methods (hot-air, plate, pulse heater, etc.) temperature profile indicates temperature soldered terminal surface board.
ambient temperature increase excessively. Check temperature under mounting conditions. conditions infrared reflow soldering apply when preheating using method.
following shows packaging format Tape reel
Type
0.3±0.05 .012±.002
inch Dimensions paper tape reel
1.75±0.1 .069±.004
Tape dimensions
Direction picking Tractor feed holes 1.55±0.05 dia. .061±.002 dia. 4±0.1 7.2±0.1 .157±.004 .283±.004
package 4-pin type
2.8±0.3 .110±.012
Device mounted tape 12±0.3 .472±.012 2±0.1 .079±.004
5.5±0.1 .217±.004 12±0.1 .472±.004 4.7±0.1 .185±.004 1.55±0.1 dia. .061±.004 dia.
21±0.3 .827±.012 80±1 dia. 3.150±.039 dia. 2±0.5 .079±.020 250±2 dia. 9.843±.079 dia. 80±1 dia. 3.150±.039 dia.
When picked from 1/2-pin side: Part AQYrrrSX (Reel color: blue) (Shown above) When picked from 3/4-pin side: Part AQYrrrSZ (Reel color: orange)
Direction picking 0.3±0.06 .012±.002 Tractor feed holes 1.55±0.06 dia. .061±.002 dia. 4±0.1 7.2±0.1 .157±.004 .283±.004 1.75±0.1 .069±.004
package 6-pin type
2.8±0.3 .110±.012
Device mounted tape 12±0.3 .472±.012 2±0.1 .079±.004
5.5±0.1 .217±.004 12±0.1 .472±.004 6.9±0.1 .272±.004 1.55±0.1 dia. .061±.004 dia.
13±0.5 dia. .512±.020 dia. 14±1.5 .55±.059 2±0.5 .079±.020
When picked from 1/2/3-pin side: Part AQVrrrSX (Reel color: blue) (Shown above) When picked from 4/5/6-pin side: Part AQVrrrSZ (Reel color: orange)
0.3±0.05 .012±.002 Tractor feed holes 1.55±0.05 dia. .061±.002 dia. Direction picking 7.5±0.1 .295±.004 1.75±0.1 .069±.004
package 8-pin type
2.8±0.3 .110±.012
Device mounted tape 12±0.1 .472±.004 4±0.1 .157±.004 2±0.1 .079±.004
7.5±0.1 .295±.004 16±0.3 .630±.012 10.5±0.1 .413±.004 1.55±0.1 dia. .061±.004 dia.
21±0.8 .827±.031 80±1 dia. 3.150±.039 dia. 2±0.5 .079±.020 250±2 dia. 9.843±.079 dia. 80±1 dia. 3.150±.039 dia.
When picked from 1/2/3/4-pin side: Part AQWrrrSX (Shown above) When picked from 5/6/7/8-pin side: Part AQWrrrSZ
0.3±0.05 .012±.002 Tractor feed holes 1.55±0.05 dia. .061±.002 dia. Direction picking 7.5±0.1 .295±.004 1.75±0.1 .069±.004
package 12-pin type
2.8±0.3 .110±.012
Device mounted tape 12±0.1 .472±.004 4±0.1 .157±.004 2±0.1 .079±.004
7.5±0.1 .295±.004 16±0.3 .630±.012 10.5±0.1 .413±.004 1.55±0.1 dia. .061±.004 dia.
13±0.5 dia. .512±.020 dia. 17.5±1.5 .689±.059
.079±.039
When picked from 1/2/3/4/5/6-pin side: Part AQWrrrT2SX (Shown above) When picked from 7/8/9/10/11/12-pin side: Part AQWrrrT2SZ
inch Type Tape dimensions Dimensions paper tape reel
21±0.8 .827±.031 100±1 dia. 3.937±.039 dia.
1.75±0.1 .069±.004 11.5±0.1 .453±.004 24.0±0.3 .945±.012
Device mounted tape
0.3±0.05 .012±.002
Tractor feed holes 1.55 +0.05 dia. 4.0±0.1 -0.05 .061 +.002 dia. .157±.004 -.002
Direction picking 12.6±0.1 .496±.004
2±0.5 .079±.020 330±2 dia. 12.992±.079 dia. 100±1 dia. 3.937±.039 dia.
4-pin type
9.7±0.1 .382±.004 16.0±0.1 .630±.004 2.0±0.1 .079±.004 1.55±0.1 .061±.004
4.5±0.3 .177±.012
When picked from 1/2-pin side: Part AQYrrrAX (Shown above) When picked from 3/4-pin side: Part AQYrrrAZ
Direction picking 0.4±0.05 .016±.002 Tractor+0.1 feed holes dia. .059 +.004 dia. 10.1±0.1 .400±.004 1.75±0.1 .069±.004
13±0.5 dia. .512±.020 dia. 25.5±2.0 1.004±.079
1.7±0.8 .067±.031
6-pin type
4.5±0.3 .177±.012
Device mounted tape 12±0.1 .472±.004
7.5±0.1 .295±.004 16±0.3 .630±.012 9.2±0.1 4±0.1 .157±.004 .362±.004 1.6±0.1 dia. 2±0.1 .063±.004 dia. .079±.004
21±0.8 .827±.031 80±1 dia. 3.150±.039 dia. 2±0.5 .079±.020 300±2 dia. 11.811±.079 dia. 80±1 dia. 3.150±.039 dia.
When picked from 1/2/3-pin side: Part AQVrrrAX (Shown above) When picked from 4/5/6-pin side: Part AQVrrrAZ
Direction picking 0.3±0.05 .012±.002 Tractor+0.1 feed holes dia. .059 +.004 dia. 4±0.1 10.1±0.1 .157±.004 .400±.004 1.75±0.1 .069±.004
8-pin type
4.5±0.3 .177±.012
Device mounted tape 12±0.1 .472±.004 2±0.1 .079±.004
7.5±0.1 .295±.004 16±0.3 .630±.012 10.2±0.1 .402±.004 1.55±0.1 dia. .061±.004 dia.
13±0.5 dia. .512±.020 dia. 17.5±1.5 .689±.059
2±0.2 .079±.008
When picked from 1/2/3/4-pin side: Part AQWrrrAX (Shown above) When picked from 5/6/7/8-pin side: Part AQWrrrAZ
Tube Devices packaged tube stopper side. Observe correct orientation when mounting them boards.
package type, type)
StopperB (green)
StopperA (gray)
(DIP, type)
StopperB
StopperA
Storage PhotoMOS relays implemented packages sensitive moisture come sealed moisture-proof packages. Observe following cautions storage. After moisture-proof package unsealed, take devices storage soon possible (within month most). devices left storage considerable period after moisture-proof package been unsealed, recommended keep them another moisture-proof containing silica (within months
most). Transportation storage Extreme vibration during transport will warp lead damage relay. Handle outer inner boxes with care. Storage under extreme conditions will cause soldering degradation, external appearance defects, deterioration characteristics. following storage conditions recommended: Temperature: 30°C 86°F Humidity: Less than R.H. Atomosphere: harmful gasses such sulfurous acid gas, minimal dust.
Power PhotoMOS Relays 1.-1) Input current (Standard type Internal varistor type) rising dropping ratio input current (di/dt), maintain min. µA/s. 1.-2) Input voltage (Voltage sensitive type) rising dropping ratio input voltage (dv/dt), maintain min. mV/s.
Short across terminals short circuit between terminals when relay energized, since there possibility breaking internal Surge voltages input reverse surge voltages present input terminals, connect diode reverse parallel across input terminals keep reverse voltages reverse breakdown voltage.
Recommended load voltage guide selecting PhotoMOS Relays, please refer following table. Power photoMOS relays
Type Absolute maximum rating Load Load voltage current Peak Peak Peak Peak Peak Peak Peak Peak Recommended load voltage
AQZ202 AC/DC type AQZ205 AQZ207 AQZ204 AQZ102 type AQZ105 AQZ107 AQZ104
12,24 5,12,24
5.-1) Ripple input power supply (Standard type high capacity type internal varistor type) ripple present input power supply, observe following: operate current Emin, maintain min. Keep operate current less Emax. 5.-2) Ripple input power supply (Voltage sensitive type) ripple present input power supply, observe following: input voltage Emin, maintain min. Keep input voltage less Emax.
When many relays mounted close together, load current should reduced. (Refer date "Load current ambient temperature characteristics adjacent mounting.") Cleaning solvents compatibility cleaning with organic solvent recommended removal solder flux, dust, etc. Select cleaning solvent from following table. ultrasonic cleaning must used, severity factors such frequency, output power cleaning solvent selected cause loose wires other defects. Make sure these conditions correct before use. details, please consult
Cleaning solvent I.I.I. Trichloroethlene (Chloroethlene) Trichloroethlene (Trichlene) Perchloroethlene Methlene chloride Indusco 624, 1000 Hollis Lonco Terg Ethanol Thinner Gasoline Compatibility
Emin. Emax.
Chlorinebase
Power PhotoMOS relay high capacity type
Absolute maximum rating Type Load Load voltage current Peak Peak AQZ262 Peak Peak AQZ264 400V Recommended load voltage 5,12,24V AC100V DC200V
AC/DC type
Output spike voltages inductive load generates spike voltages which exceed absolute maximum rating, spike voltage must limited. Typical circuits shown below.
(AC/DC type)
Adueous Alcoholbase Others
Power photoMOS relays (Voltage sensitive type)
Type Absolute maximum rating Load Load voltage current Peak Peak Peak Peak 0.45 Recommended load voltage
Soldering When soldering board terminals, keep soldering time within 260°C 500°F. Packing style
Load clamp diode load Green Stopper Gray Stopper
Peak Peak AQZ205D Peak AQZ207D Peak AQZ204D AQZ202D AQZ102D
12,24 5,12,24
AC/DC type
Load snubber circuit load
type
AQZ105D AQZ107D AQZ104D
Load varistor Power PhotoMOS Relay
power photoMOS relays stick packed that number terminal direction stopper stick contains power photoMOS relays.
Power photoMOS relays with internal varistor type
Type Absolute maximum rating Load Load voltage current Peak Peak Peak Peak Recommended load voltage 5,12
Does include internal varistor type
AQZ205V AQZ207V AQZ204V AQZ202V
Even spike voltages generated load limited with clamp diode circuit wires long, spike voltages will occur inductance. Keep wires short possible minimize inductance. Adjacent mounting When relays mounted close together with heat-generated devices, ambient temperature rise abnormally. Mounting layout ventilation should considered.
Transport storage product subject extreme vibration during transport, lead warp main unit become damaged. Handle outer inner boxes with care. storage environment extremely bad, give rise deterioration soldering, external appearance defects, degradation characteristics product. following conditions recommended storage location: Temperature: 30°C 86°F Humidity: Less than Environment: hazardous substances such sulfurous acid gases, little dust.
AC/DC type
PhotoMOS Relays Various Applications
Automatic meter reading
needs centralized remote meter reading systems water, electricity medium high rise apartments subdivisions increasing. PhotoMOS relays capable controlling from level signals power signals feature leakage current noise from optoelectronic device power MOSFET combination.
PhotoMOS Indicator light Modulator Receiver circuit Centralized sensor control circuit Receiver Drive circuit
Medical equipment
Medical equipment which processes level signals includes electrocardiographs, electroencephalographs, X-ray scanners. PhotoMOS relays accurately transfer level signals (less than several hundred millivolts). Furthermore, they also convenient driving rotary solenoids such those used automatically switch voltage ranges.
Rotary solenoid
Security Equipment
There many types security systems from home office security building security. PhotoMOS relays ideal input interfaces system sensors output interfaces alarms. Input interface: leakage current makes possible level voltage current input. Output interface: Outputs either load voltage
Telephone line
Threshold driver
Telecommunications
Communications equipment
future communications satellite communications. Satellite-communications feature many advantages such indifference terrestrial disasters, wide service areas, simple circuit modification simultaneous conversations. important control operation communications equipment fast automatic tuning. PhotoMOS relays easily connected parallel, difficult with conventional transistor type. result, variety circuit connection possible power circuits also designed.
Impedance detection circuit input Coupler input
equipment
equipment usually contains sensor control unit (for temperature, speed, torque, etc.), drive unit, power supply unit, processing unit which controls overall system. organized similarly compact factory automation machinery. PhotoMOS relays have wide application interfaces signals which connect functions these units. Operates input enable direct control C-MOS devices. Signal transfer through optical coupling achieves high resistance noise transients, eliminating need adding snubber circuit output control load voltage. Advantages total cost reliability control system result from absence leakage current related snubber circuit.
variety signals, with levels from millivolts microamperes) tens volts several hundred milliamperes), even high bit-rate signals, superimposed telephone lines, heart telecommunication networks. switches telecommunication circuits, which normally carry signals, also carry signals level when intermittent signal (e.g. ringer signal) being sent. PhotoMOS relays capable controlling small level (millivolts microamperes) signals.
Line switching (normal reverse)
AC/DC switches AC/DC switches
switches
Subscriber test Ringing equipment ring trip
Telephone line test equipment
Control unit (microcomputer)
Actuator
Instrumentation
Programmable controller
output circuit programmable controller requires various interfaces match load type. Recently, computing speed data processing speed increase, problems arise from noise input interface well output interface. PhotoMOS relays resistant inrush current (due phase shift) eliminate need snubber circuits long they operated within ratings. Furthermore, PhotoMOS relays decreases mounting area requirements, resulting more compact programmable controllers.
With spread microcomputer chips, latest instruments required measure variety signals high speeds under various conditions. PhotoMOS relays recommended measurement scanning functions, automatic zero-point compensation eliminate zero-point error, measurement sequence interfaces (e.g. alarm interface.)
Scanner
Measurement Programmable programmable amplifier converter controller
Control
Conversion circuit
Output AC/DC combination type
user experiencing difficulty with solid-state relays triacs:
would like control small analog signals with photocoupler solid-state relays. require device with small leakage current opposed bipolar devices having large internal leakage currents). would like directly control analog signals would like device integrating photocoupler, driver analog simplify circuit much possible. require snubber circuit with triac solid-state relay, concerned about snubber circuit's leakage current. require device control that resistant ambient temperature changes input signal noise.
PhotoMOS relays feature offset voltages resistances 0.25 less. (AQV251 Connection)
PhotoMOS relays have leakage currents order microamperes control 1500 (peak). (AQV258)
PhotoMOS relays contain these functions single package. Furthermore, circuit design simplified power supply unnecessary since internal optoelectronic device directly drives power MOSFET.
PhotoMOS relays resistant transients long they operated within maximum ratings, eliminate need adding snubber circuit output control rise load voltage. Leakage current ceases problem, with cost reliability being other advantages. PhotoMOS relays employ self-trigger mechanism used SCRs triacs. Therefore, they switch accidentally. Furthermore, noise suppression characteristics optoelectronic devices make them highly resistant ambient noise operation temperatures 80°C 176°F.
PhotoMOS Relay Application Examples
High Response Speed
Microprocessor system board
Latch AC,OUT AC,OUT Power output Four outputs available with relays.
Data
output also provided. Increased power parallel configuration
Measurements AQV204(400V) AC/DC type Turn time current Turn time with speed-indrease capacitor (LED current 0.18 0.03
Dial Pulse Generator
Capacitor Switch Circuit
Instrumentation block Line
Line transformer
Scanner
Part Load Voltage Quick Reference
PhotoMOS Relays
Form Type
Group name Part Pack- Number style channels Load voltage Third digit AQV251 AQV252 (RF:80 AQV255 AQV257 AQV253 AQV253H AQV254 AQV254R AQV254H AQW254 AQV257M AQV212 AQV215 AQV217 AQV210 AQV214 AQV214H AQW212 AQW215 AQW217 AQW210 AQW214 AQX21444 AQY210S AQV212S AQV215S AQV217S AQV210S AQY214S AQV214S AQV216S AQW216 AQV216 1000 AQV259 1500 AQV258
AQV25r AQW25r Soft ON/OFF type AQV25rM
Standard Viso 1-channel High Viso 2-channels Standard Viso 1-channel Standard Viso Standard Viso High Viso 2-channels Standard Viso
AQV21r AQW21r AQX2144r AQY21rS AQV21rS AQW21rS
1-channel
4-channels Standard Viso 1-channel pin) 1-channel pin) Standard Viso Standard Viso
2-channels Standard Viso
AQW210S AQW214S AQW210TS AQW210T2S AQV210E AQV214E
2-channels AQW21rTS (MOSFET+ Standard Viso optocoupler) 3-channels AQW21r (MOSFET+ Standard Viso 2optocouplers) GU-E AQV21rE AQV22r AQV22rN Low-ON AQW22rN type AQV22rNS AQV23r AQV10r AQV20r AQY27r 1-channel 1-channel 1-channel 1-channel 1-channel Standard Viso High Viso Standard Viso Standard Viso AQV221 AQV225 AQV225N AQV227N
AQV210EH AQV214EH
AQV224N AQW224N AQV224NS AQV234
2-channels Standard Viso 1-channel 1-channel 1-channel Standard Viso Standard Viso Standard Viso Standard Viso Standard Viso AQV101 AQV201 AQV102 AQV202 AQY272
AQW225N AQW227N AQV225NS AQV227NS
AQV103 AQV203 AQY275 AQY277
AQV104 AQV204 AQY274
Form Type
Group name Part AQV45r AQW45r AQV41r AQW41r AQY41rS AQV41rS GU-E AQV41rE Package Number style channels 1-channel Load voltage Third digit Standard Viso AQV453 AQV454 AQV454H AQW454 AQV414 AQW414 AQY414S AQV414S AQV414E AQV414EH
Form Form Type
Group name Part AQW65r AQW61r Package style Number channel 2-channel 2-channel Load voltage Third digit Standard Viso Standard Viso AQW654 AQW614
High Viso 2-channels Standard Viso 1-channel 2-channels 1-channel (4-pin) 1-channel (6-pin) 1-channel Standard Viso Standard Viso Standard Viso Standard Viso Standard Viso High Viso
Power PhotoMOS Relays
Form Type
Group name Standard type Part AQZ10r Standard Viso Package style Number channels Load voltage Third digit AQZ102 AQZ202 1-channel AQZ202V AQZ102D AQZ202D AQZ262 AQZ105 AQZ205 AQZ205V AQZ105D AQZ205D AQZ107 AQZ207 AQZ207V AQZ107D AQZ207D AQZ104 AQZ204 AQZ204V AQZ104D AQZ204D AQZ264
AQZ20r Varistor incorporated type AQZ20rV Voltage sensitive type High capacity type AQZ10rD AQZ20rD AQZ26r
stands third digit. Notes: Standard Viso: 1,500 between I/O. 2.High Viso: 5,000 between I/O.
PDF-File generated 1998, Matsushita Automation Controls Group Europe, data change without notice
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