BTA06-400CRG [STMICROELECTRONICS]
TRIAC,400V V(DRM),6A I(T)RMS,TO-220;型号: | BTA06-400CRG |
厂家: | ST |
描述: | TRIAC,400V V(DRM),6A I(T)RMS,TO-220 栅 三端双向交流开关 栅极 |
文件: | 总7页 (文件大小:77K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
BTA06 and BTB06 Series
®
6A TRIACS
SNUBBERLESS™, LOGIC LEVEL & STANDARD
Table 1: Main Features
A2
Symbol
IT(RMS)
Value
Unit
6
A
G
A1
VDRM/VRRM
600 and 800
5 to 50
V
IGT (Q )
mA
1
A2
DESCRIPTION
Available either in through-hole or surface-mount
packages, the BTA06 and BTB06 triac series is
suitable for general purpose AC switching. They
can be used as an ON/OFF function in applica-
tions such as static relays, heating regulation, in-
duction motor starting circuits... or for phase
control operation in light dimmers, motor speed
controllers,...
A1
A2
A1
A2
G
G
TO-220AB Insulated
(BTA06)
TO-220AB
(BTB06)
Table 2: Order Codes
Part Number
The snubberless and logic level versions (BTA/
BTB...W) are specially recommended for use on
inductive loads, thanks to their high commutation
performances.
Marking
See page table 8 on
page 6
BTA06-xxxxxRG
BTB06-xxxxxRG
By using an internal ceramic pad, the BTA series
provides voltage insulated tab (rated at
2500VRMS) complying with UL standards (File ref.:
E81734).
Table 3: Absolute Maximum Ratings
Symbol
Parameter
Value
Unit
Tc = 110°C
Tc = 105°C
TO-220AB
RMS on-state current (full sine
IT(RMS)
6
A
wave)
TO-220AB Ins.
F = 50 Hz
t = 20 ms
60
63
21
Non repetitive surge peak on-state
current (full cycle, Tj initial = 25°C)
ITSM
A
F = 60 Hz
t = 16.7 ms
²
²
²
tp = 10 ms
I t
I t Value for fusing
A s
Critical rate of rise of on-state cur-
Tj = 125°C
dI/dt
F = 120 Hz
tp = 20 µs
50
A/µs
rent IG = 2 x IGT , tr ≤ 100 ns
IGM
Tj = 125°C
Tj = 125°C
Peak gate current
4
1
A
PG(AV)
Average gate power dissipation
W
Tstg
Tj
- 40 to + 150
- 40 to + 125
Storage junction temperature range
Operating junction temperature range
°C
February 2006
REV. 6
1/7
BTA06 and BTB06 Series
Tables 4: Electrical Characteristics (Tj = 25°C, unless otherwise specified)
■
SNUBBERLESS and Logic Level (3 quadrants)
BTA06 / BTB06
Symbol
Test Conditions
Quadrant
Unit
TW
SW
CW
BW
I
GT (1)
I - II - III MAX.
I - II - III MAX.
5
10
35
50
mA
V
VD = 12 V RL = 30 Ω
VGT
1.3
0.2
VD = VDRM RL = 3.3 kΩ
Tj = 125°C
VGD
IH (2)
IL
I - II - III
MIN.
V
IT = 100 mA
MAX. 10
15
25
30
40
35
50
50
70
80
mA
mA
I - III
II
10
MAX.
IG = 1.2 IGT
15
60
VD = 67 %VDRM gate open Tj = 125°C
(dV/dt)c = 0.1 V/µs Tj = 125°C
(dV/dt)c = 10 V/µs Tj = 125°C
dV/dt (2)
MIN.
20
400
1000 V/µs
-
2.7
3.5
2.4
-
-
-
(dI/dt)c (2)
MIN. 1.2
-
-
A/ms
Without snubber
Tj = 125°C
3.5
5.3
■
Standard (4 quadrants)
Symbol Test Conditions
BTA06 / BTB06
Quadrant
Unit
C
B
I - II - III
IV
25
50
50
100
IGT (1)
MAX.
mA
VD = 12 V
RL = 30 Ω
VGT
VGD
ALL
ALL
MAX.
MIN.
1.3
0.2
V
V
VD = VDRM RL = 3.3 kΩ Tj = 125°C
IH (2)
IT = 500 mA
MAX.
25
40
50
50
mA
I - III - IV
II
IL
IG = 1.2 IGT
MAX.
mA
80
100
400
VD = 67 %VDRM gate open Tj = 125°C
dV/dt (2)
(dV/dt)c (2)
MIN.
MIN.
200
V/µs
V/µs
(dI/dt)c = 2.7 A/ms
Tj = 125°C
5
10
Table 5: Static Characteristics
Symbol
Test Conditions
tp = 380 µs Tj = 25°C
Value
Unit
V
VTM (2)
Vt0 (2)
Rd (2)
ITM = 8.5 A
MAX.
1.55
0.85
60
Tj = 125°C
Tj = 125°C
Tj = 25°C
Tj = 125°C
Threshold voltage
Dynamic resistance
MAX.
MAX.
V
mΩ
µA
mA
5
IDRM
IRRM
VDRM = VRRM
MAX.
1
Note 1: minimum I
is guaranted at 5% of I
GT
max.
GT
Note 2: for both polarities of A2 referenced to A1.
2/7
BTA06 and BTB06 Series
Table 6: Thermal resistance
Symbol
Parameter
Value
1.8
Unit
TO-220AB
Rth(j-c)
Rth(j-a)
Junction to case (AC)
Junction to ambient
°C/W
TO-220AB Insulated
2.7
TO-220AB
TO-220AB Insulated
60
°C/W
Figure 1: Maximum power dissipation versus
RMS on-state current (full cycle)
Figure 2: RMS on-state current versus case
temperature (full cycle)
P(W)
I
(A)
T(RMS)
8
7
6
5
4
3
2
BTB
7
6
5
4
3
2
1
BTA
1
T (°C)
C
I
(A)
T(RMS)
0
0
0
25
50
75
100
125
0
1
2
3
4
5
6
Figure 3: Relative variation of thermal
impedance versus pulse duration
Figure 4: On-state characteristics (maximum
values)
I (A)
TM
K=[Z /R
]
th th
100
1E+0
1E-1
1E-2
Tj = Tj max.
Tj max.
Vt0 = 0.85V
Rd = 60 mΩ
Z
th(j-c)
Z
th(j-a)
10
t (s)
p
V
(V)
TM
1
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
5E+2
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
3/7
BTA06 and BTB06 Series
Figure 5: Surge peak on-state current versus
number of cycles
Figure 6: Non-repetitive surge peak on-state
current for a sinusoidal pulse with width tp < 10 ms
and corresponding value of I2t
I
(A)
TSM
I
(A), I2t (A2s)
TSM
70
60
50
40
30
20
10
0
1000
100
10
Tj initial=25°C
t=20ms
One cycle
dI/dt limitation:
50A/µs
Non repetitive
Tj initial=25°C
ITSM
Repetitive
TC=105°C
I2t
Number of cycles
t (ms)
p
1
10
100
1000
0.01
0.10
1.00
10.00
Figure 7: Relative variation of gate trigger
current, holding current and latching current
versus junction temperature (typical values)
Figure 8: Relative variation of critical rate of
decrease of main current versus (dV/dt)c
(typical values) (Snubberless & logic level
types)
I
,I ,I [T ] / I ,I ,I [T =25°C]
GT
H
L
j
GT
H
L
j
(dI/dt)c [(dV/dt)c] / Specified (dI/dt)c
2.5
2.0
1.5
1.0
0.5
0.0
2.4
2.2
2.0
1.8
1.6
IGT
TW
1.4
1.2
BW/CW
IH & IL
1.0
0.8
0.6
0.4
0.2
0.0
SW
T (°C)
j
(dV/dt)c (V/µs)
0.1
1.0
10.0
100.0
-40
-20
0
20
40
60
80
100
120
140
Figure 9: Relative variation of critical rate of
decrease of main current versus (dV/dt)c
(typical values) (Standard types)
Figure 10: Relative variation of critical rate of
decrease of main current versus junction
temperature
(dI/dt)c [T ] / (dI/dt)c [T specified]
j
j
(dI/dt)c [(dV/dt)c] / Specified (dI/dt)c
6
5
4
3
2
2.0
1.8
1.6
C
1.4
1.2
B
1.0
0.8
0.6
0.4
1
0.2
(dV/dt)c (V/µs)
T (°C)
j
0.0
0
0.1
1.0
10.0
100.0
0
25
50
75
100
125
4/7
BTA06 and BTB06 Series
Figure 11: Ordering Information Scheme
Triac series
BT A 06 - 600 BW (RG)
Insulation
A = insulated
B = non insulated
Current
06 = 6A
Voltage
600 = 600V
800 = 800V
Sensitivity and type
B = 50mA Standard
C = 25mA Standard
SW = 10mA Logic Level
BW = 50mA Snubberless
CW = 35mA Snubberless
TW = 5mA Logic Level
Packing mode
RG = Tube
Table 7: Product Selector
Voltage (xxx)
Part Number
BTA/BTB06-xxxB
Sensitivity
Type
Package
600 V
800 V
X
X
X
X
X
X
X
X
X
X
X
X
50 mA
50 mA
25 mA
35 mA
10 mA
5 mA
Standard
Snubberless TO-220AB
Standard TO-220AB
Snubberless TO-220AB
TO-220AB
BTA/BTB06-xxxBW
BTA/BTB06-xxxC
BTA/BTB06-xxxCW
BTA/BTB06-xxxSW
BTA/BTB06-xxxTW
BTB: non insulated TO-220AB package
Logic level
Logic Level
TO-220AB
TO-220AB
5/7
BTA06 and BTB06 Series
Figure 12: TO-220AB (insulated and non insulated) Package Mechanical Data
DIMENSIONS
Millimeters Inches
Min. Typ. Max. Min. Typ. Max.
REF.
A
15.20
15.90 0.598
0.625
C
B
a1
3.75
0.147
Ø I
b2
a2 13.00
14.00 0.511
10.40 0.393
0.88 0.024
1.32 0.048
4.60 0.173
0.70 0.019
2.72 0.094
2.70 0.094
6.60 0.244
3.85 0.147
0.551
0.409
0.034
0.051
0.181
0.027
0.107
0.106
0.259
0.151
L
B
b1
b2
C
10.00
0.61
1.23
4.40
0.49
2.40
2.40
6.20
3.75
F
A
I4
l3
l2
c1
c2
e
c2
a1
a2
F
ØI
M
c1
b1
I4 15.80 16.40 16.80 0.622 0.646 0.661
e
L
2.65
1.14
1.14
2.95 0.104
1.70 0.044
1.70 0.044
0.116
0.066
0.066
l2
l3
M
2.60
0.102
In order to meet environmental requirements, ST offers these devices in ECOPACK® packages. These
packages have a Lead-free second level interconnect . The category of second level interconnect is
marked on the package and on the inner box label, in compliance with JEDEC Standard JESD97. The
maximum ratings related to soldering conditions are also marked on the inner box label. ECOPACK is an
ST trademark. ECOPACK specifications are available at: www.st.com.
Table 8: Ordering Information
Ordering type
Marking
Package
Weight Base qty Delivery mode
2.3 g 50 Tube
BTA/BTB06-xxxyzRG BTA/BTB06-xxxyz
TO-220AB
Note: xxx = voltage, yy = sensitivity, z = type
Table 9: Revision History
Date
Revision
Description of Changes
Apr-2002
5A
Last update.
TO-220AB delivery mode changed from bulk to tube.
ECOPACK statement added.
13-Feb-2006
6
6/7
BTA06 and BTB06 Series
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of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted
by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject
to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not
authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
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7/7
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