BTA16-XXXXXRG [STMICROELECTRONICS]

16A TRIACS; 16A双向可控硅

BTA16-XXXXXRG


型号：	BTA16-XXXXXRG
厂家：	ST
描述：	16A TRIACS 16A双向可控硅可控硅三端双向交流开关
文件：	总9页 (文件大小：100K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

BTA16, BTB16 and T16 Series

®

16A TRIACS

SNUBBERLESS™, LOGIC LEVEL & STANDARD

Table 1: Main Features

A2

Symbol

I_T(RMS)

Value

Unit

16

A

G

A1

V_DRM/V_RRM

600, 700 and 800

10 to 50

V

A2

I_{GT (Q )}

mA

1

A1

A2

G

DESCRIPTION

D²PAK

(T16-G)

Available either in through-hole or surface-mount

packages, the BTA16, BTB16 and T16 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, ...

A2

A1

A2

A1

A2

G

G

TO-220AB Insulated

(BTA16)

TO-220AB

(BTB16)

The snubberless versions (BTA/BTB...W and T16

series) are specially recommended for use on in-

ductive loads, thanks to their high commutation

performances. By using an internal ceramic pad,

the BTA series provides voltage insulated tab (rat-

ed at 2500V_RMS) complying with UL standards

(File ref.: E81734).

Table 2: Order Codes

Part Number

Marking

BTA16-xxxxxRG

BTB16-xxxxxRG

T16xx-xxxG

See page table 8 on

page 8

February 2006

REV. 7

1/9

BTA16, BTB16 and T16 Series

Table 3: Absolute Maximum Ratings

Symbol

Parameter

Value

Unit

D²PAK /

T_c= 100°C

T_c= 15°C

RMS on-state current (full sine

wave)

TO-220AB

I_T(RMS)

16

A

TO-220AB Ins.

F = 50 Hz

t = 20 ms

160

168

144

Non repetitive surge peak on-state

current (full cycle, T_jinitial = 25°C)

I_TSM

A

F = 60 Hz

t = 16.7 ms

²

²

²

t_p= 10 ms

I t

I t Value for fusing

A s

Critical rate of rise of on-state cur-

T_j= 125°C

T_j= 25°C

dI/dt

F = 120 Hz

50

A/µs

V

rent I_G= 2 x I_GT, t_r≤ 100 ns

V_DSM/V_RSM

+ 100

Non repetitive surge peak off-state

voltage

V

_DSM/V_RSM

t_p= 10 ms

t_p= 20 µs

I_GM

T_j= 125°C

T_j= 125°C

Peak gate current

4

1

A

P_G(AV)

Average gate power dissipation

W

T_stg

T_j

- 40 to + 150

- 40 to + 125

Storage junction temperature range

Operating junction temperature range

°C

Tables 4: Electrical Characteristics (T_j= 25°C, unless otherwise specified)

SNUBBERLESS and Logic Level (3 quadrants)

■

T16

BTA16 / BTB16

Symbol

Test Conditions

Quadrant

Unit

T1635 SW

CW

BW

I_GT(1)

V_GT

I - II - III MAX. 35

I - II - III MAX.

10

35

50

mA

V

V_D= 12 V R_L= 33 Ω

1.3

0.2

V_D= V_DRMR_L= 3.3 kΩ

T_j= 125°C

V_GD

I - II - III MIN.

MAX. 35

V

I_H(2)

I_T= 500 mA

15

25

30

40

35

50

60

50

70

80

mA

I - III

II

50

60

I_L

I_G= 1.2 I_GT

MAX.

mA

V_D= 67 %V_DRMgate open

(dV/dt)c = 0.1 V/µs

T_j= 125°C

dV/dt (2)

MIN. 500

-

500 1000 V/µs

T_j= 125°C

T_j= 125°C

T_j= 125°C

8.5

3.0

-

-

-

-

-

(dI/dt)c (2) (dV/dt)c = 10 V/µs

Without snubber

MIN.

-

A/ms

8.5

8.5

14

2/9

BTA16, BTB16 and T16 Series

■

Standard (4 quadrants)

Symbol Test Conditions

BTA16 / BTB16

Unit

Quadrant

C

B

I - II - III

IV

25

50

50

100

I_GT(1)

MAX.

mA

V_D= 12 V

R_L= 33 Ω

V_GT

V_GD

ALL

ALL

MAX.

MIN.

1.3

0.2

V

V

V_D= V_DRMR_L= 3.3 kΩ T_j= 125°C

I_H(2)

I_T= 500 mA

MAX.

25

40

50

60

mA

I - III - IV

II

I_L

I_G= 1.2 I_GT

MAX.

mA

80

120

400

V_D= 67 %V_DRMgate open

T_j= 125°C

dV/dt (2)

MIN.

MIN.

200

V/µs

V/µs

T_j= 125°C

(dV/dt)c (2) (dI/dt)c = 7 A/ms

5

10

Table 5: Static Characteristics

Symbol

Test Conditions

t_p= 380 µs T_j= 25°C

Value

Unit

V

V_T(2)

V_to(2)

R_d(2)

I_TM= 22.5 A

MAX.

1.55

0.85

25

T_j= 125°C

T_j= 125°C

T_j= 25°C

T_j= 125°C

Threshold voltage

Dynamic resistance

MAX.

MAX.

V

mΩ

µA

mA

5

I_DRM

I_RRM

V_DRM= V_RRM

MAX.

2

Note 1: minimum I

is guaranted at 5% of I

GT

max.

GT

Note 2: for both polarities of A2 referenced to A1.

Table 6: Thermal resistance

Symbol

Parameter

D²PAK / TO-220AB

Value Unit

1.2

R_th(j-c)

Junction to case (AC)

Junction to ambient

°C/W

2.1

TO-220AB Insulated

D²PAK

²

45

S = 1 cm

R_th(j-a)

°C/W

60

TO-220AB / TO-220AB Insulated

S = Copper surface under tab.

3/9

BTA16, BTB16 and T16 Series

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)

20

18

16

14

12

10

8

18

16

14

12

10

8

BTB / T16

BTA

6

6

4

4

2

2

T (°C)

C

I

(A)

T(RMS)

0

0

0

25

50

75

100

125

0

2

4

6

8

10

12

14

16

Figure 3: RMS on-state current versus ambient

temperature (printed circuit board FR4, copper

thickness: 35µm) (full cycle)

Figure 4: Relative variation of thermal

impedance versus pulse duration

I

(A)

T(RMS)

K=[Z /R

]

th th

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0.0

1E+0

1E-1

1E-2

D²PAK

(S=1cm²

)

Z

th(j-c)

Z

th(j-a)

t (s)

p

T (°C)

C

1E-3

1E-2

1E-1

1E+0

1E+1

1E+2

5E+2

0

25

50

75

100

125

Figure 5: On-state characteristics (maximum

values)

Figure 6: Surge peak on-state current versus

number of cycles

I

(A)

TM

I

(A)

TSM

200

100

180

160

140

120

100

80

T_jmax.

V_to= 0.85V

R_d= 25 mΩ

t=20ms

One cycle

T_j= T_jmax.

Non repetitive

T_jinitial=25°C

T_j= 25°C.

Repetitive

T_C=85°C

10

60

40

20

Number of cycles

V

(V)

TM

0

1

1

10

100

1000

0.5

1.0

1.5

2.0

2.5

3.0

3.5

4.0

4.5

5.0

4/9

BTA16, BTB16 and T16 Series

Figure 7: Non-repetitive surge peak on-state

current for a sinusoidal pulse with width t_p< 10 ms

and corresponding value of I²t

Figure 8: Relative variation of gate trigger

current, holding current and latching current

versus junction temperature (typical values)

I

,I ,I [T ] / I ,I ,I [T =25°C]

GT

H

L

j

GT

H

L

j

I

(A), I²t (A²s)

TSM

2.5

2.0

1.5

1.0

0.5

0.0

3000

1000

T_jinitial=25°C

dI/dt limitation:

50A/µs

I_GT

I_TSM

I_H& I_L

I²t

T (°C)

j

t (ms)

p

100

-40

-20

0

20

40

60

80

100

120

140

0.01

0.10

1.00

10.00

Figure 9: Relative variation of critical rate of

decrease of main current versus (dV/dt)c

(typical values) (Snubberless & Logic level

types)

Figure 10: Relative variation of critical rate of

decrease of main current versus (dV/dt)c

(typical values) (Standard types)

(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

1

0

2.0

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

SW

C

B

T1635/CW/BW

T (°C)

j

(dV/dt)c (V/µs)

0.1

1.0

10.0

100.0

0

25

50

75

100

125

Figure 11: D²PAK Thermal resistance junction to

ambient versus copper surface under tab (printed

circuit board FR4, copper thickness: 35 µm)

R

th(j-a)

(°C/W)

80

70

60

50

40

30

20

10

0

D²PAK

S(cm²)

0

4

8

12

16

20

24

28

32

36

40

5/9

BTA16, BTB16 and T16 Series

Figure 12: Ordering Information Scheme (BTA16 and BTB16 series)

BT A 16 - 600 BW RG

Triac series

Insulation

A = insulated

B = non insulated

Current

16 = 16A

Voltage

600 = 600V

700 = 700V

800 = 800V

Sensitivity and type

B = 50mA Standard

C = 25mA Standard

SW = 10mA Logic Level

BW = 50mA Snubberless

CW = 35mA Snubberless

Packing mode

RG = Tube

Figure 13: Ordering Information Scheme (T16 series)

T 16 35 - 600 G (-TR)

Triac series

Current

16 = 16A

Sensitivity

35 = 35mA

Voltage

600 = 600V

800 = 800V

Package

G = D²PAK

Packing mode

Blanck = Tube

-TR = Tape & Reel

Table 7: Product Selector

Voltage (xxx)

Part Numbers

Sensitivity

Type

Package

600 V

700 V

800 V

BTA/BTB16-xxxB

BTA/BTB16-xxxBW

BTA/BTB16-xxxC

BTA/BTB16-xxxCW

BTA/BTB16-xxxSW

T1635-xxxG

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

50 mA

50 mA

25 mA

35 mA

10 mA

35 mA

Standard

TO-220AB

Snubberless TO-220AB

Standard TO-220AB

Snubberless TO-220AB

Logic level

TO-220AB

D²PAK

Snubberless

BTB: non insulated TO-220AB package

6/9

BTA16, BTB16 and T16 Series

DIMENSIONS

Figure 14: D²PAK Package Mechanical Data

REF.

Millimeters

Inches

A

Min. Typ. Max. Min. Typ. Max.

E

A

A1

A2

B

4.30

2.49

4.60 0.169

2.69 0.098

0.23 0.001

0.93 0.027

0.181

0.106

0.009

0.037

C2

L2

0.03

D

0.70

L

B2

C

1.25 1.40

0.45

0.048 0.055

L3

0.60 0.017

1.36 0.047

9.35 0.352

10.28 0.393

5.28 0.192

15.85 0.590

1.40 0.050

1.75 0.055

0.024

0.054

0.368

0.405

0.208

0.624

0.055

0.069

A1

C2

D

1.21

B2

B

R

C

8.95

E

10.00

4.88

G

G

A2

L

15.00

1.27

2mm min.

FLAT ZONE

L2

L3

R

1.40

V2

0.40

0.016

V2

0°

8°

0°

8°

Figure 15: D²PAK Foot Print Dimensions

(in millimeters)

16.90

10.30

5.08

1.30

3.70

8.90

7/9

BTA16, BTB16 and T16 Series

Figure 16: TO-220AB Package Mechanical Data

DIMENSIONS

Millimeters Inches

Min. Typ. Max. Min. Typ. Max.

REF.

C

B

A

15.20

15.90 0.598

0.625

Ø I

b2

a1

3.75

0.147

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

F

B

b1

b2

C

10.00

0.61

1.23

4.40

0.49

2.40

2.40

6.20

3.75

A

I4

l3

l2

c2

c1

c2

e

a1

a2

F

M

ØI

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

BTA/BTB16-xxxyzRG

T1635-xxxG

Marking

BTA/BTB16xxxyz

T1635xxxG

Package

Weight Base qty Delivery mode

TO-220AB

2.3 g

50

50

Tube

Tube

D²PAK

1.5 g

T1635-xxxG-TR

T1635xxxG

1000

Tape & reel

Note: xxx = voltage, yy = sensitivity, z = type

Table 9: Revision History

Date

Revision

Description of Changes

Oct-2002

6A

Last update.

TO-220AB delivery mode changed from bulk to tube.

ECOPACK statement added.

13-Feb-2006

7

8/9

BTA16, BTB16 and T16 Series

Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences

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.

The ST logo is a registered trademark of STMicroelectronics.

All other names are the property of their respective owners

© 2006 STMicroelectronics - All rights reserved

STMicroelectronics group of companies

Australia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan -

Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America

www.st.com

9/9

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