ON MKP3V120RL Sidac high voltage bidirectional trigger Datasheet

MKP3V120, MKP3V240
Preferred Device
Sidac High Voltage
Bidirectional Triggers
Bidirectional devices designed for direct interface with the ac power
line. Upon reaching the breakover voltage in each direction, the device
switches from a blocking state to a low voltage on–state. Conduction
will continue like a Triac until the main terminal current drops below
the holding current. The plastic axial lead package provides high pulse
current capability at low cost. Glass passivation insures reliable
operation. Applications are:
• High Pressure Sodium Vapor Lighting
• Strobes and Flashers
• Ignitors
• High Voltage Regulators
• Pulse Generators
• Used to Trigger Gates of SCR’s and Triacs
• Indicates UL Registered — File #E116110
• Device Marking: Logo, Device Type, e.g., MKP3V120, Date Code
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SIDACS ( )
1 AMPERE RMS
120 and 240 VOLTS
MT1
MT2
MAXIMUM RATINGS (TJ = 25°C unless otherwise noted)
Rating
Symbol
Peak Repetitive Off–State Voltage
(Sine Wave, 50 to 60 Hz,
TJ = – 40 to 125°C)
MKP3V120
MKP3V240
VDRM,
VRRM
On-State RMS Current
(TL = 80°C, Lead Length = 3/8″,
All Conduction Angles)
Peak Non–Repetitive Surge Current
(60 Hz One Cycle Sine Wave,
Peak Value, TJ = 125°C)
Operating Junction Temperature Range
Storage Temperature Range
Value
Unit
Volts
IT(RMS)
"90
"180
"1.0
Amp
ITSM
"20
Amps
TJ
– 40 to
+125
°C
Tstg
– 40 to
+150
°C
SURMETIC 50
PLASTIC AXIAL
(No Polarity)
CASE 267
STYLE 2
ORDERING INFORMATION
Device
Package
Shipping
SURMETIC 50
Bulk 500/Bag
MKP3V120RL SURMETIC 50
Tape and Reel
1.5K/Reel
MKP3V240
SURMETIC 50
Bulk 500/Bag
MKP3V240RL SURMETIC 50
Tape and Reel
1.5K/Reel
MKP3V120
Preferred devices are recommended choices for future use
and best overall value.
 Semiconductor Components Industries, LLC, 2000
May, 2000 – Rev. 3
1
Publication Order Number:
MKP3V120/D
MKP3V120, MKP3V240
THERMAL CHARACTERISTICS
Characteristic
Symbol
Max
Unit
RθJL
15
°C/W
TL
260
°C
Thermal Resistance, Junction to Lead
(Lead Length = 3/8″)
Lead Solder Temperature
(Lead Length
1/16″ from Case, 10 s Max)
w
ELECTRICAL CHARACTERISTICS (TC = 25°C unless otherwise noted; Electricals apply in both directions)
Characteristic
Symbol
Min
Typ
Max
Unit
IDRM
—
—
10
µA
110
220
—
—
130
250
OFF CHARACTERISTICS
Repetitive Peak Off–State Current
(50 to 60 Hz Sine Wave)
VDRM = 90 V
VDRM = 180 V
MKP3V120
MKP3V240
ON CHARACTERISTICS
Breakover Voltage, IBO = 200 µA
VBO
MKP3V120
MKP3V240
Volts
Breakover Current
IBO
—
—
200
µA
Peak On–State Voltage
(ITM = 1 A Peak, Pulse Width ≤ 300 µs, Duty Cycle ≤ 2%)
VTM
—
1.1
1.5
Volts
Dynamic Holding Current
(Sine Wave, 60 Hz, RL = 100 Ω)
IH
—
—
100
mA
Switching Resistance
(Sine Wave, 50 to 60 Hz)
RS
0.1
—
—
kΩ
di/dt
—
120
—
A/µs
DYNAMIC CHARACTERISTICS
Critical Rate–of–Rise of On–State Current,
Critical Damped Waveform Circuit
(IPK = 130 Amps, Pulse Width = 10 µsec)
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2
MKP3V120, MKP3V240
Voltage Current Characteristic of SIDAC
(Bidirectional Device)
+ Current
Symbol
IDRM
VDRM
ITM
Parameter
VTM
Slope = RS
IH
Off State Leakage Current
Off State Repetitive Blocking Voltage
VBO
IBO
Breakover Voltage
IH
VTM
Holding Current
On State Voltage
ITM
Peak on State Current
IS
VS
IDRM
Breakover Current
I(BO)
+ Voltage
VDRM
RS
+ (V(I
(BO)
S
V(BO)
– V S)
– I (BO))
CURRENT DERATING
TA , MAXIMUM ALLOWABLE AMBIENT
TEMPERATURE ( °C)
TC , MAXIMUM ALLOWABLE CASE TEMPERATURE (°C)
130
120
α
α = Conduction Angle
TJ Rated = 125°C
110
90
a = 180°
80
0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
α = Conduction Angle
TJ Rated = 125°C
120
100
80
a = 180°
60
40
20
0
2.0
0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
IT(AV), AVERAGE ON–STATE CURRENT (AMPS)
IT(AV), AVERAGE ON–STATE CURRENT (AMPS)
Figure 1. Maximum Case Temperature
Figure 2. Maximum Ambient Temperature
PAV , MAXIMUM AVERAGE POWER DISSIPATION (WATTS)
I T , INSTANTANEOUS ON–STATE CURRENT (AMPS)
100
α
140
1.0
1.25
25°C
0.8
125°C
a = 180°
1.00
0.6
0.4
α
α = Conduction Angle
TJ Rated = 125°C
0.75
0.3
2.0
0.50
0.2
0.25
0.1
0.8
0.9
1.0
1.1
1.2
1.3
VT, INSTANTANEOUS ON–STATE VOLTAGE (VOLTS)
0
Figure 3. Typical Forward Voltage
0.2
0.4
0.6
0.8
IT(AV), AVERAGE ON–STATE CURRENT (AMPS)
Figure 4. Typical Power Dissipation
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3
1.0
MKP3V120, MKP3V240
THERMAL CHARACTERISTICS
r(t), TRANSIENT THERMAL RESISTANCE (NORMALIZED)
1.0
ZqJL(t) = RqJL • r(t)
DTJL = Ppk RqJL[r(t)]
tp
TIME
where:
DTJL = the increase in junction temperature above the
lead temperature
r(t) = normalized value of transient thermal resistance at
time, t from this figure. For example,
r(tp) = normalized value of
transient resistance at time tp.
0.5
0.3
0.2
0.1
0.05
LEAD LENGTH = 1/4″
The temperature of the lead should be
measured using a thermocouple placed on the
lead as close as possible to the tie point. The
thermal mass connected to the tie point is
normally large enough so that it will not
significantly respond to heat surges generated
in the diode as a result of pulsed operation
once steady–state conditions are achieved.
Using the measured value of TL, the junction
temperature may be determined by:
0.03
0.02
TJ = TL + DTJL
0.01
0.2
0.5
1.0
2.0
5.0
20
10
50
100
200
500
1.0 k
2.0 k
5.0 k
10 k
20 k
t, TIME (ms)
Figure 5. Thermal Response
TYPICAL CHARACTERISTICS
225
80
200
IH , HOLDING CURRENT (mA)
250
90
I(BO) , BREAKOVER CURRENT ( mA)
100
70
60
50
40
30
20
10
0
–60
175
150
125
100
75
50
25
–40
–20
0
20
40
60
80
100
120
0
–60
140
–40
–20
0
20
40
60
80
100
TJ, JUNCTION TEMPERATURE (°C)
TJ, JUNCTION TEMPERATURE (°C)
Figure 6. Typical Breakover Current
Figure 7. Typical Holding Current
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4
120 140
MKP3V120, MKP3V240
PACKAGE DIMENSIONS
SURMETIC 50
PLASTIC AXIAL
(No Polarity)
CASE 267–03
ISSUE D
K
A
D
1
B
2
NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
2. CONTROLLING DIMENSION: INCH.
DIM
A
B
D
K
K
INCHES
MIN
MAX
0.370
0.380
0.190
0.210
0.048
0.052
1.000
–––
STYLE 2:
NO POLARITY
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5
MILLIMETERS
MIN
MAX
9.40
9.65
4.83
5.33
1.22
1.32
25.40
–––
MKP3V120, MKP3V240
Notes
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6
MKP3V120, MKP3V240
Notes
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7
MKP3V120, MKP3V240
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MKP3V120/D
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