ETC KAQW414S

High Voltage, Photo DEMos Relay
KAQW414S
UL 1577/ UL 508 (File No.E108430), FI EN60950 (File No.FI13698)
Features
KAQW414S
1. Normally Close, Single Pole Single Throw
2. Control 400VAC or DC Voltage
3. Switch 130mA Loads
4. LED control Current, 5mA
5. Low ON-Resistance
6. dv/dt, >500V/ms
Unit : mm
TOLERANCE : ± 0.2mm
7. Isolation Test Voltage, 1500VACrms
Absolute Maximum Ratings
(Ta=25°C)
Emitter ( Input )
Detector ( Output )
Reverse Voltage……………………………5.0V
Output Breakdown Voltage ……………±400V
Continuous Forward Current ……………50mA
Continuous Load Current ……………±130mA
Peak Forward Current ………………………1A
Power Dissipation ……………………500mW
Power Dissipation ……………………100mW
Derate Linearly from 25°C …………1.3mW/°C
General Characteristics
Operate/ Reverse time
Isolation Test Voltage……………1500VACrms
Storage Temperature Range …-40°C to +125°C
Isolation Resistance
Operating Temperature Range…-30°C to +85°C
10
Vio=500V, Ta=25°C ……………………≥10 Ω
Junction Temperature……………………100°C
Total Power Dissipation ………………550mW
Soldering Temperature,
Derate Linearly from 25°C …………2.5mW/°C
2mm from case, 10 sec …………………260°C
Electro-optical Characteristics
Parameter
(Ta=25°C)
Symbol
Conditions
Min.
Typ.
Max.
Unit
1.8
2.0
V
5
mA
Emitter (Input)
VF
IF =10mA
Operation Input Current
IFON
VL =±20V, IL =100mA, t =10mS
Recovery Input Current
IFOFF
VL =±20V, IL ≤5uA
0.2
400
Forward Voltage
mA
Detector (Output)
Output Breakdown Voltage
VB
IB=50uA
Output Off-State Leakage
ITOFF
VT =100V, IF =0mA
V
0.2
uA
I/O Capacitance
CISO
IF =0, f =1MHZ
6
ON Resistance
RON
IL =100mA, IF =10mA
40
50
Ω
Reverse (ON) Time
TON
IF =10mA, VL =±20V
0.6
1.5
ms
Operate (OFF) Time
TOFF
t =10ms, IL =±100mA
0.3
1.0
ms
Mos Relay Schematic and Wiring Diagrams
Type
KAQW414S
100
2
Schematic
Output
configuration
2b
c 2002 cosmo ELECTRONICS CORPORATION
http://www.cosmo-ic.com
Load
Connection
AC/DC
–
Wiring Diagrams
pF
KAQW414S
Data Curve
Fig.3 Operate (OFF) time vs. ambient
temperature Load voltage: 400V(DC)
LED current: 5mA
Continuous load current: 130mA(DC)
Operate (OFF) Time Msec
Fig.2 On resistance vs. ambient temperature
Across terminals 5,7 and 6,8 pin
LED current: 0mA
Continuous load current: 130mA(DC)
On Resistonce (Ω)
Load Current (mA)
Fig.1 Load current vs. ambient temperature
Allowable ambient temperature:
-40°C to +85°C
Ambient Temperature Ta (°C)
Ambient Temperature Ta (°C)
Fig.5 LED operate (OFF) vs. ambient
temperature Load voltage: 400V(DC)
Continuous load current: 130mA(DC)
Fig.6 LED reverse (ON) current vs. ambient
temperature Load voltage: 400V(DC)
Continuous load current: 130mA(DC)
Ambient Temperature Ta (°C)
Ambient Temperature Ta (°C)
Ambient Temperature Ta (°C)
Fig.8 Voltage vs. current characteristics of
output at MOS FET portion
Measured portion: across terminals 5,7
and 6,8 pin
Ambient temperature: 25°C
Fig.9 Off state leakage current
Across terminals 5,7 and 6,8 pin
Ambient temperature: 25°C
LED Dropout Voltage (V)
Off State Leakage Current
Fig.7 LED dropout voltage vs. ambient
temperature
LED current: 5 to 50mA
LED reverse (ON) Current (mA)
Reverse (ON) Time Msec
LED Operate (OFF) Current (mA)
Fig.4 Reverse (ON) time vs. ambient
temperature LED current: 5mA; Load
voltage: 400V(DC)
Continuous load current: 130mA(DC)
Ambient Temperature Ta (°C)
Ambient Temperature Ta (°C)
Fig.12 Applied voltage vs. output capacitance
Across terminals 5,7 and 6,8 pin
Frequency: 1MHz
Ambient temperature: 25°C
Output CapaCitance (pF)
Fig.11 LED forward current vs. Reverse (ON)
timeAcross terminals 5,7 and 6,8 pin;
Load voltage: 400V (DC);
Continuous load current: 130mA (DC);
Ambient temperature: 25°C
Reverse (ON) Time Msec
Operate (OFF) Time Msec
Fig.10 LED forward current vs. operate (OFF)
time Across terminals 5,7 and 6,8 pin;
Load voltage: 400V (DC);
Continuous load current: 130mA (DC);
Ambient temperature: 25°C
Load Voltage (V)
LED Forward Current (mA)
LED Forward Current (mA)
Applied Voltage (V)
c
2002
cosmo ELECTRONICS CORPORATION
http://www.cosmo-ic.com
101