ETC MOC3062 Optically coupled bilateral switch light activated zero voltage crossing triac Datasheet

MOC3060, MOC3061, MOC3062, MOC3063
MOC3060X, MOC3061X, MOC3062X, MOC3063X
OPTICALLY COUPLED BILATERAL
SWITCH LIGHT ACTIVATED ZERO
VOLTAGE CROSSING TRIAC
Dimensions in mm
'X' SPECIFICATION APPROVALS
l
2.54
VDE 0884 in 3 available lead form : - STD
7.0
6.0
- G form
- SMD approved to CECC 00802
The MOC306_ Series are optically coupled
isolators consisting of a Gallium Arsenide
infrared emitting diode coupled with a monolithic silicon detector performing the functions
of a zero crossing bilateral triac mounted in a
standard 6 pin dual-in-line package.
FEATURES
l
Options :10mm lead spread - add G after part no.
Surface mount - add SM after part no.
Tape&reel - add SMT&R after part no.
l
High Isolation Voltage, 5.3kVRMS
l
Zero Voltage Crossing
l
600V Peak Blocking Voltage
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All electrical parameters 100% tested
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Custom electrical selections available
4
7.62
6.62
7.62
4.0
3.0
13°
Max
0.5
3.0
0.5 3.35
0.26
ABSOLUTE MAXIMUM RATINGS
(25 °C unless otherwise noted)
Storage Temperature
-550C - +1500C
Operating Temperature
-400C - +1000C
Lead Soldering Temperature
2600C
(1.6mm from case for 10 seconds)
INPUT DIODE
OUTPUT PHOTO TRIAC
OPTION SM
OPTION G
SURFACE MOUNT
7.62
Off-State Output Terminal Voltage
600V
Forward Current (Peak)
1A
Power Dissipation
150mW
(derate linearly 1.76mW/0C above 250C)
POWER DISSIPATION
1.25
0.75
0.26
10.16
ISOCOM COMPONENTS LTD
Unit 25B, Park View Road West,
Park View Industrial Estate, Brenda Road
Hartlepool, TS25 1YD England Tel: (01429)863609
Fax : (01429) 863581 e-mail [email protected]
http://www.isocom.com
20/9/02
3
Forward Current
50mA
Reverse Voltage
6V
Power Dissipation
120mW
(derate linearly 1.41mW/0C above 250C)
APPLICATIONS
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CRTs
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Power Triac Driver
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Motors
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Consumer appliances
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Printers
10.46
9.86
6
5
1.2
DESCRIPTION
0.6
0.1
1
2
Total Power Dissipation
250mW
(derate linearly 2.94mW/0C above 250C)
ISOCOM INC
1024 S. Greenville Ave, Suite 240,
Allen, TX 75002 USA
Tel: (214) 495-0755 Fax: (214) 495-0901
e-mail [email protected]
http://www.isocom.com
DB91051m-AAS/A7
ELECTRICAL CHARACTERISTICS ( TA = 25°C Unless otherwise noted )
PARAMETER
Input
Forward Voltage (VF)
Reverse Current (IR)
Output
Peak Off-state Current ( IDRM )
Peak Blocking Voltage ( VDRM )
On-state Voltage ( VTM )
Critical rate of rise of
off-state Voltage ( dv/dt )
Coupled
1.2
0.05
V
µA
IF = 20mA
VR = 6V
500
nA
V
V
VDRM = 600V (note 1 )
IDRM = 500nA
ITM = 100mA ( peak )
3.0
600
TEST CONDITION
1.4
10
600
V/µs
1500
Input Current to Trigger ( IFT )(note 2 )
MOC3060
MOC3061
MOC3062
MOC3063
Holding Current , either direction ( IH )
Input to Output Isolation Voltage VISO
Zero
Crossing
Charact-eristic
MIN TYP MAX UNITS
30
15
10
5
mA
mA
mA
mA
µA
VRMS
400
5300
Inhibit Voltage ( VIH )
20
V
Leakage in Inhibited State ( IS )
500
µA
VTM = 3V ( note 2 )
See note 3
IF= Rated IFT
MT1-MT2 Voltage
above which device
will not trigger
IF= Rated IFT
VDRM = 600V off-state
Note 1. Test voltage must be applied within dv/dt rating.
Note 2. Guaranteed to trigger at an IF value less than or equal to max. IFT , recommended IF lies
between Rated IFT and absolute max. IF .
Note 3. Measured with input leads shorted together and output leads shorted together.
20/9/02
DB91051m-AAS/A7
CHARACTERISTIC CURVES
Fig.1 Forward Current vs.
Ambient Temperature
Fig.2 On-state Current vs. Ambient
Temperature
50
ITM , on-state current (A)
Forward current I
F
(mA)
60
40
30
20
10
0
-40 -20
0
20
40
60
0.10
0.05
0
-40 -20
80 100 120
o
60
80 100 120
100
VP = 6V
R L = 100
(mA)
8
o
o
60 C
40 C
20 C
F
80 C
100 C
o
o
6
Forward current I
(mA)
40
Fig.4 Forward Current vs. Forward
Voltage
10
FT
20
Ambient temperature Ta ( C)
Fig.3 Minimum Trigger Current
vs. Ambient Temperature
Minimum trigger current I
0
o
Ambient temperature Ta ( C)
4
2
0
o
10
1
20
40
60
80
0.4
100
o
0.8
1.2
Fig.5 On-state Voltage vs. Ambient
Temperature
Fig.6 Holding Current vs.
Ambient Temperature
3.0
1
VP = 6V
(mA)
2.2
On-state voltage V
H
2.6
Forward current I
I TM = 100mA
TM (V)
2.0
1.6
Forward voltage V F (V)
Ambient temperature ( C)
1.8
1.4
1.0
0.01
20
40
60
80
100
o
Ambient temperature Ta ( C)
20/09/02
0.1
20
40
60
80
100
o
Ambient Temperature Ta ( C)
DB91051m-AAS/A7
CHARACTERISTIC CURVES
Fig.7 Turn-on Time vs. Forward
Current
Fig.8 Repetitive Peak Off-state Current
vs. Temperature
1000
10
Repetitive Peak Off-state Current
Idrm (nA)
Turn-on time Ton (
s)
VP = 9V
R L = 100
8
6
4
2
100
0
10
1
10
20
30
40
50
20
+ 400
Vdc
100
R TEST
R= 10k
80
C TEST
TM
(mA)
80
Static dv/dt Test Circuit
100
On-state current I
60
Ambient tem p e rature Ta ( C)
Fig.9 On-state Current vs.
On-state Voltage
PULSE
INPUT
60
40
MERCURY
WETTED
RELAY
D.U.T.
X100
SCOPE
PROBE
20
0
APPLIED VOLTAGE
WAVEFORM
0
0.5
1.0
1.5
2.0
2.5
On-state voltage V TM (V)
20/09/02
40
O
Forward current I F (mA)
3.0
0 VOLTS
Vmax = 400V
252 V
τRC
dv/dt=
0.63 V max
τRC
=
DB91051m-AAS/A7
378
τRC
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