ETC MOC3062

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.
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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