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PDF MOC2R60 Data sheet ( Hoja de datos )
| Número de pieza | MOC2R60 | |
| Descripción | OPTOISOLATOR 2 AMPS RANDOM-PHASE TRIAC OUTPUT 600 VOLTS | |
| Fabricantes | Motorola Semiconductors | |
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MOTOROLA
SEMICONDUCTOR TECHNICAL DATA
Order this document
by MOC2R60–10/D
Advance Information
POWER OPTO™ Isolator
2 Amp RandomĆPhase Triac Output
MOC2R60-10*
MOC2R60-15
This device consists of a gallium arsenide infrared emitting diode optically coupled
to a random phase triac driver circuit and a power triac. It is capable of driving a load
of up to 2 amps (rms) directly, on line voltages from 20 to 280 volts AC (rms).
• Provides Normally Open Solid State AC Output with 2 Amp Rating
• 70 Amp Single Cycle Surge Capability
• Phase Controllable
• High Input-Output Isolation of 3750 vac (rms)
• Static dv/dt Rating of 400 Volts/µs Guaranteed
• 2 Amp Pilot Duty Rating Per UL508 W117 (Overload Test)
and W118 (Endurance Test)
[File No. 129224]
• CSA Approved [File No. CA77170-1]. VDE Approval in Process.
• Exceeds NEMA 2-230 and IEEE472 Noise Immunity Test Requirements
(See Figure 17)
DEVICE RATINGS (TA = 25°C unless otherwise noted)
Rating
Symbol
Value
Unit
INPUT LED
*Motorola Preferred Devices
OPTOISOLATOR
2 AMPS
RANDOM–PHASE
TRIAC OUTPUT
600 VOLTS
CASE 417-02
79
Style 2
PLASTIC PACKAGE
23
Forward Current — Maximum Continuous
Forward Current — Maximum Peak
(PW = 100µs, 120 pps)
Reverse Voltage — Maximum
OUTPUT TRIAC
IF
IF(pk)
VR
50 mA
1.0 A
CASE 417A-02
Style 1
6.0 V PLASTIC PACKAGE
Output Terminal Voltage — Maximum Transient (1)
Operating Voltage Range — Maximum Continuous
(f = 47 – 63 Hz)
On-State Current Range
(Free Air, Power Factor ≥ 0.3)
VDRM
VT
IT(rms)
600
20 to 280
V(pk)
Vac(rms)
0.03 to 2.0
A
CASE 417B-01
Style 1
PLASTIC PACKAGE
Non-Repetitive Single Cycle Surge Current —
Maximum Peak (t = 16.7 ms)
Main Terminal Fusing Current (t = 8.3 ms)
ITSM
I2T
70 A
26 A2sec
DEVICE SCHEMATIC
Load Power Factor Range
Junction Temperature Range
TOTAL DEVICE
Input-Output Isolation Voltage — Maximum (2)
47 – 63 Hz, 1 sec Duration
PF
TJ
VISO
0.3 to 1.0
– 40 to 125
—
°C
3750
Vac(rms)
3
2
7
Thermal Resistance — Power Triac Junction to
Case (See Figure 18)
Ambient Operating Temperature Range
Storage Temperature Range
Lead Soldering Temperature — Maximum
(1/16″ From Case, 10 sec Duration)
RθJC
Toper
Tstg
TL
8.0 °C/W
– 40 to +100
– 40 to +150
260
°C
°C
°C
9
1, 4, 5, 6, 8. NO PIN
2. LED CATHODE
3. LED ANODE
7. MAIN TERMINAL 2
9. MAIN TERMINAL 1
1. Test voltages must be applied within dv/dt rating.
2. Input-Output isolation voltage, VISO, is an internal device dielectric breakdown rating.
(2)For this test, pins 2, 3 and the heat tab are common, and pins 7 and 9 are common.
POWER OPTO is a trademark of Motorola, Inc.
This document contains information on a new product. Specifications and information herein are subject to change without notice.
Preferred devices are Motorola recommended choices for future use and best overall value.
REV 1
© MMoototroorlao,lIancO. 1p9t9o5electronics Device Data
1
1 page  
100
10 t(d)
1 t(f)
0.1
10
20 30 40 50
IFT, LED TRIGGER CURRENT (mA)
60
Figure 13. Delay Time, t(d), and Fall Time, t(f),
versus LED Trigger Current
MOC2R60-10 MOC2R60-15
t(delay), t(f) versus IFT
The POWER OPTO Isolators turn on switching speed con-
sists of a turn on delay time t(d) and a fall time t(f). Figure 13
shows that the delay time depends on the LED trigger cur-
rent, while the actual trigger transition time t(f) stays constant
with about one micro second.
The delay time is important in very short pulsed operation
because it demands a higher trigger current at very short trig-
ger pulses. This dependency is shown in the graph IFT ver-
sus LED PW.
The turn on transition time t(f) combined with the power
triacs turn on time is important to the power dissipation of this
device.
ISOL. TRANSF.
A
C
SCOPE
IFT
VTM
t(d)
t(f)
10 kΩ
VTM
DU
T
ZERO CROSS
DETECTOR
115
VAC
EXT. SYNC
FUNCTION
GENERATOR
Vout
PHASE CTRL.
PW CTRL.
PERIOD CTRL.
Vo AMPL. CTRL.
IFT
100 Ω
Figure 14. Switching Time Test Circuit
MOC2R60
VCC
R1
R2
MOV
C1
Load
Figure 15. Typical Application Circuit
Select the value of R1 according to the following formulas:
(1) R1 = (VCC – VF) / Max. IFT (on) per spec.
(2) R1 = (VCC – VF) / 0.050
Typical values for C1 and R2 are 0.01 µF and 39 Ω,
respectively. You may adjust these values for specific
applications. The maximum recommended value of C1 is
0.022 µF. See application note AN1048 for additional
information on component values.
The MOV may or may not be needed depending upon the
characteristics of the applied AC line voltage. For
applications where line spikes may exceed the 600 volts
rating of the MOC2R60, an MOV is required.
Motorola Optoelectronics Device Data
5
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