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BCR4CM-16LH-1#BB0

P1-P3P4-P6P7-P9
BCR4CM-16LH Preliminary
R07DS0255EJ0200 Rev.2.00 Page 4 of 8
Feb 25, 2013
On-State Power Dissipation (W)
RMS On-State Current (A)
Maximum On-State Power Dissipation
RMS On-State Current (A)
Case Temperature (°C)
Allowable Case Temperature vs.
RMS On-State Current
RMS On-State Current (A)
Ambient Temperature (°C)
Allowable Ambient Temperature vs.
RMS On-State Current
Junction Temperature (°C)
Repetitive Peak Off-State Current (Tj = t°C)
Repetitive Peak Off-State Current (Tj = 25°C)
× 100 (%)
Repetitive Peak Off-State Current vs.
Junction Temperature
Holding Current vs.
Junction Temperature
Junction Temperature (°C)
Holding Current (Tj = t°C)
Holding Current (Tj = 25°C)
× 100 (%)
RMS On-State Current (A)
Ambient Temperature (°C)
Allowable Ambient Temperature vs.
RMS On-State Current
0
2
1
4
3
6
5
7
01234 75
6
01.51.00.5 2.0 2.5
3.0
0
20
40
80
60
100
120
140
160
10
3
10
2
10
1
–40 0 40 80 120 160 –40 0 40 80 120 160
10
6
10
2
10
5
10
4
10
3
360° Conduction
Resistive,
inductive loads
Natural convection
No fins
Curves apply
regardless of
conduction angle
Resistive,
inductive loads
01234 65
0
20
40
80
60
100
120
140
160
Curves apply regardless
of conduction angle
360° Conduction
Resistive,
inductive loads
0
20
40
80
60
100
120
140
160
012345
60 60 t2.3
100 100 t2.3
120 120 t2.3
Curves apply regardless of
conduction angle
Resistive, inductive loads
Natural convection
All fins are black painted
aluminum and greased
Typical Example
Typical Example
BCR4CM-16LH Preliminary
R07DS0255EJ0200 Rev.2.00 Page 5 of 8
Feb 25, 2013
Rate of Rise of Off-State Voltage (V/μs)
Breakover Voltage (dv/dt = xV/μs)
Breakover Voltage (dv/dt = 1V/μs)
× 100 (%)
Breakover Voltage vs.
Rate of Rise of Off-State Voltage (Tj=125°C)
Rate of Rise of Off-State Voltage (V/μs)
Breakover Voltage (dv/dt = xV/μs)
Breakover Voltage (dv/dt = 1V/μs)
× 100 (%)
Breakover Voltage vs.
Rate of Rise of Off-State Voltage (Tj=150°C)
Breakover Voltage vs.
Junction Temperature
Junction Temperature (°C)
Breakover Voltage (Tj = t°C)
Breakover Voltage (Tj = 25°C)
× 100 (%)
Commutation Characteristics (Tj=125°C)
Critical Rate of Rise of Off-State
Commutating Voltage (V/μs)
Rate of Decay of On-State
Commutating Current (A/ms)
Commutation Characteristics (Tj=150°C)
Critical Rate of Rise of Off-State
Commutating Voltage (V/μs)
Rate of Decay of On-State
Commutating Current (A/ms)
Latching Current (mA)
Latching Current vs.
Junction Temperature
Junction Temperature (°C)
0
20
40
80
60
100
120
140
160
–40 0 40 80 120 160 –40 0 40 80 120
160
10
2
10
3
10
1
10
4
10
2
10
3
10
1
10
4
0
20
40
80
60
100
120
160
10
1
10
0
10
2
10
1
10
0
10
2
10
0
10
1
10
2
10
0
10
1
10
2
140
T
2
+
, G
Typical Example
T
2
+
, G
+
Typical Example
T
2
, G
Typical Example
Distribution
Typical Example
Typical Example
Tj = 125°C
III Quadrant
I Quadrant
Minimum
Value
(I
GT
item1)
10
3
10
1
10
2
10
0
0
20
40
80
60
100
120
160
140
Typical Example
Tj = 150°C
III Quadrant
I Quadrant
Typical Example
Tj = 125°C
I
T
= 4A
τ = 500μs
V
D
= 200V
f = 3Hz
Main Voltage
Main Current
I
T
(di/dt)c
τ
V
D
Time
Time
(dv/dt)c
III Quadrant
I Quadrant
Minimum
Value
Typical Example
Tj = 150°C
I
T
= 4A
τ = 500μs
V
D
= 200V
f = 3Hz
Main Voltage
Main Current
I
T
(di/dt)c
τ
V
D
Time
Time
(dv/dt)c
III Quadrant
I Quadrant
BCR4CM-16LH Preliminary
R07DS0255EJ0200 Rev.2.00 Page 6 of 8
Feb 25, 2013
C
1
= 0.1 to 0.47μF
R
1
= 47 to 100Ω
C
0
= 0.1μF
R
0
= 100Ω
Gate Trigger Characteristics Test Circuits Recommended Circuit Values Around The Triac
Test Procedure I
Test Procedure III
Test Procedure II
330Ω
330Ω
330Ω
C
1
C
0
R
0
R
1
6Ω
6Ω
6V
6V
A
V
A
V
6Ω
6V
A
V
Load
P1-P3P4-P6P7-P9

BCR4CM-16LH-1#BB0

Mfr. #:
Buy BCR4CM-16LH-1#BB0
Manufacturer:
Renesas Electronics
Description:
Triacs Triac
Lifecycle:
New from this manufacturer.
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