AQ-B RELAYS File No.: E43149 File No.: LR48894M14 types avai
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AQ-B SOLID STATE RELAY
AQ-B RELAYS
File No.: E43149 File No.: LR48894M14
types available: zero-cross type Zero-cross type zero-cross type permits phase control Zero-cross type suppresses occurrence noise. Slim type small-sized slim type long wide high) (1.693 .354 .945 inch) permits high density mounting board. High dielectric strength: 1500 (between input output)
TYPES
Type Load voltage Input voltage Part AQB1A1-ZT3/6VDC AQB1A1-ZT7/14VDC AQB1A1-ZT10/18VDC AQB1A1-ZT18/30VDC AQB1A2-ZT3/6VDC AQB1A2-ZT7/14VDC AQB1A2-ZT10/18VDC AQB1A2-ZT18/30VDC AQB2A1-ZT3/6VDC AQB2A1-ZT7/14VDC AQB2A1-ZT10/18VDC AQB2A1-ZT18/30VDC AQB2A2-ZT3/6VDC AQB2A2-ZT7/14VDC AQB2A2-ZT10/18VDC AQB2A2-ZT18/30VDC AQB1A1-T3/6VDC AQB1A1-T7/14VDC AQB1A1-T10/18VDC AQB1A1-T18/30VDC AQB1A2-T3/6VDC AQB1A2-T7/14VDC AQB1A2-T10/18VDC AQB1A2-T18/30VDC AQB2A1-T3/6VDC AQB2A1-T7/14VDC AQB2A1-T10/18VDC AQB2A1-T18/30VDC AQB2A2-T3/6VDC AQB2A2-T7/14VDC AQB2A2-T10/18VDC AQB2A2-T18/30VDC
APPLICATIONS
Copying equipment machines, sequencers, robots conditioners
Zero-cross
Zero-cross
zero-cross
zero-cross
ORDERING INFORMATION
3/6VDC
Load current
Load voltage
Type Zero-cross type zero-cross type
Input voltage 3/6, 7/14, 10/18, 18/30
SPECIFICATIONS
Ratings 20°C 68°F, Input voltage ripple: less)
Zero-cross type type Item Part AQB1A1-ZT AQB1A1-ZT AQB1A1-ZT AQB1A1-ZT AQB1A2-ZT AQB1A2-ZT AQB1A2-ZT AQB1A2-ZT 7/14VDC 10/18VDC 18/30VDC 3/6VDC 7/14VDC 10/18VDC 18/30VDC 3/6VDC Approx. 0.18 Approx. 0.75 Approx. Approx. 2.15 mA/100 applied V/µs mA/200 applied cycle max. carrying current "DATA Approx. 0.18 Approx. 0.75 Approx. Approx. 2.15 Remarks
Input voltage Input Input impedance side Drop-out voltage, min. Max. load current Load voltage Frequency Repetitive peak voltage, max. Load Non-repetitive side surge current "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current state dV/dt type Item
Part AQB2A1-ZT AQB2A1-ZT AQB2A1-ZT AQB2A1-ZT AQB2A2-ZT AQB2A2-ZT AQB2A2-ZT AQB2A2-ZT 3/6VDC 7/14VDC 10/18VDC 18/30VDC 3/6VDC 7/14VDC 10/18VDC 18/30VDC Approx. 0.18 Approx. 0.75 Approx. Approx. 2.15 mA/100 applied V/µs mA/200 applied Approx. 0.18 Approx. 0.75 Approx. Approx. 2.15
Remarks
Input voltage Input Input impedance side Drop-out voltage, min. Max. load current Load voltage Frequency Repetitive peak voltage, max. Load Non-repetitive side surge current "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current state dV/dt
"DATA
cycle max. carrying current
zero-cross type type Item Part AQB1A1-T 3/6VDC Approx. 0.18 AQB1A1-T 7/14VDC Approx. 0.75 AQB1A1-T 10/18VDC Approx. AQB1A1-T 18/30VDC Approx. 2.15 mA/100 applied V/µs AQB2A1-T 7/14VDC Approx. 0.75 AQB2A1-T 10/18VDC Approx. AQB2A1-T 18/30VDC Approx. 2.15 mA/100 applied V/µs mA/200 applied cycle max. carrying current "DATA AQB2A2-T 3/6VDC Approx. 0.18 AQB2A2-T 7/14VDC Approx. 0.75 AQB2A2-T 10/18VDC Approx. AQB2A2-T 18/30VDC Approx. 2.15 mA/200 applied cycle max. carrying current "DATA AQB1A2-T 3/6VDC Approx. 0.18 AQB1A2-T 7/14VDC Approx. 0.75 AQB1A2-T 10/18VDC Approx. AQB1A2-T 18/30VDC Approx. 2.15 Remarks
Input voltage Input Input impedance side Drop-out voltage, min. Max. load current Load voltage Frequency Repetitive peak voltage, max. Load Non-repetitive side surge current "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current state dV/dt type Item
Part AQB2A1-T 3/6VDC Approx. 0.18
Remarks
Input voltage Input Input impedance side Drop-out voltage, min. Max. load current Load voltage Frequency Repetitive peak voltage, max. Load Non-repetitive side surge current "OFF-state" leakage current Max. "ON-state" voltage drop Min. load current state dV/dt
Characteristics 20°C 68°F, Input voltage ripple: less than
Item Operate time, max. Release time, max. Insulation resistance, min. Breakdown voltage Vibration resistance Shock resistance Ambient temperature Storage temperature Operational method Functional Destructive Functional Destructive Zero-cross type (1/2 cycle voltage sine wave) between input output 1,500 between input output double amplitude double amplitude Min. m/s2 {100 Min. m/s2 {100 -20°C +80°C -4°F +176°F -25°C +85°C -13°F +185°F Zero-cross Turn-ON Zero-cross Turn-OFF Radom Turn-ON Zero-cross Turn-OFF minute minutes axes hour axes times axes times axes zero-cross type Remarks
(1/2 cycle voltage sine wave)
OPERATING PRINCIPLE
Internal circuit Zero-cross type
Trigger circuit Phototriac coupler Zerocross circuit Snubber circuit Load voltage Triac Output terminal Input signal Load current
Wave form input output (Resistive load)
Input Input terminal circuit
zero-cross type
Input Input terminal circuit Snubber circuit Trigger circuit Phototriac coupler Load voltage Triac Output terminal Input signal Load current
DIMENSIONS
(Common zero-cross zero-cross type)
Max. 1.693
Max. .354
board pattern (Bottom view) inch
Copper foil 12.5 .492 27.5 1.083 Terminal 10.0 .394 4-1.4 dia. 4-.055 dia.
Max. .787 .197 .039 .039 3.75 .148 12.5 .197 .492 .039 .394 .039 .157 .020 Max. .079 INPUT Output: Output: Input: Input: LOAD
Terminal connection diagram
Load Input power Load power source source
General tolerance: ±0.5 ±.020
DATA
Load current ambient temperature
Non-repetitive surge current, Load current, type
2-1. Non-repetitive surge current carrying time type)
2-2. Non-repetitive surge current carrying time type)
Non-repetitive surge current,
type
Ambient temperature,
cycles
cycles
Input voltage input current
Load current ambient temperature adjacent mounting
type type
Input current, Input voltage, type) type) type) type) Load current, Load current,
R=20.32 .800 inch R=12.7 .500 inch R=9.0 .354 inch
R=20.32 .800 inch R=12.7 .500 inch R=9.0 .354 inch
R=Adjacent mounting
R=Adjacent mounting
Ambient temperature,
Ambient temperature,
AQ-B
NOTE
When used load less than rated case load current less than rated, malfunction result from residual voltage across both ends load even solid state relay turned off. dummy resistor countermeasure. total current through resistor load current must exceed min. rated load current.
(dummy resistor) Load power source
case dummy resistor used, keep mind that residual voltage becomes follows:
Example: inductive load load current load voltage, load impedance becomes Ve/V estimated from right above graph. Accordingly, voltage remains across both ends load when solid state relay turned off.
Characteristics load impedance residual voltage
Residual voltage Power voltage Load
Load
Power factor: (resistive load) Power factor: (inductive load)
Load impedance,
Cautions
6/1/1999
Rights Reserved, Copyright Matsushita Electric Works, Ltd.
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