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BT138-600G |BT138600GPHIN/a45avai4Q Triac
BT138-800 |BT138800PHILIPSN/a159avaiTriacs
BT138-800F |BT138800FNXPN/a1800avaiTriacs
BT138PHILIPSN/a15000avaiTriacs sensitive gate
BT138-500 |BT138500N/a30avaiTriacs
BT138-600 |BT138600PHILIPSN/a275avai4Q Triac
BT138-600 |BT138600PHN/a40avai4Q Triac
BT138-600F |BT138600FNXPN/a3000avaiTriacs


BT138 ,Triacs sensitive gateapplications requiring high BT138- 500 600 800bidirectional transient and blocking BT138- 500F 600F ..
BT138-500 ,Triacsapplications requiring high BT138- 500 600 800bidirectional transient and blocking BT138- 500F 600F ..
BT138-600 ,4Q Triacapplications include motor control, voltagesindustrial and domestic lighting, I RMS on-state curren ..
BT138-600 ,4Q Triacapplications include motor control, voltagesindustrial and domestic lighting, I RMS on-state curren ..
BT138-600D ,4Q TriacApplications• General purpose phase controlGeneral purpose switching•4. Quick reference dataTable 1 ..
BT138-600E ,Triacs sensitive gatePIN CONFIGURATION SYMBOLPIN DESCRIPTIONtab1 main terminal 1T2 T12 main terminal 23 gateG123tab main ..
BZV55-C3V6 ,Voltage regulator diodesLIMITING VALUESIn accordance with the Absolute Maximum Rating System (IEC 134).SYMBOL PARAMETER CON ..
BZV55C3V9 ,Voltage regulator diodesDISCRETE SEMICONDUCTORSDATA SHEET1/3 page (Datasheet)M3D054BZV55 seriesVoltage regulator diodes1999 ..
BZV55-C3V9 ,Voltage regulator diodesAPPLICATIONS• Low-power voltage stabilizers orThe cathode is indicated by a yellow band.voltage ref ..
bzv55-c3v9 ,Voltage regulator diodesThermal characteristics Table 6.
BZV55C43 ,ZENER DIODESLimiting values Table 5.
BZV55-C43 ,ZENER DIODESLIMITING VALUESIn accordance with the Absolute Maximum Rating System (IEC 134).SYMBOL PARAMETER CON ..


BT138-BT138-500-BT138-600-BT138-600F-BT138-600G-BT138-800-BT138-800F
Triacs
Philips Semiconductors Product specification
Triacs BT138 series
GENERAL DESCRIPTION QUICK REFERENCE DATA

Glass passivated triacsina plastic SYMBOL PARAMETER MAX. MAX. MAX. UNIT
envelope, intended for use inapplications requiring high BT138- 500 600 800
bidirectional transient and blocking BT138- 500F 600F 800F
voltage capability and high thermal BT138- 500G 600G 800Gcycling performance. Typical VDRM Repetitive peak off-state 500 600 800 V
applications include motor control, voltages
industrial and domestic lighting, IT(RMS) RMS on-state current 12 12 12 Aheating and static switching. ITSM Non-repetitive peak on-state 95 95 95 A
current
PINNING - TO220AB PIN CONFIGURATION SYMBOL
PIN DESCRIPTION
main terminal 1 main terminal 2 gate
tab main terminal 2
LIMITING VALUES

Limiting values in accordance with the Absolute Maximum System (IEC 134).
SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT
-500 -600 -800

VDRM Repetitive peak off-state - 5001 6001 800 V
voltages
IT(RMS) RMS on-state current full sine wave; Tmb ≤ 99 ˚C - 12 A
ITSM Non-repetitive peak full sine wave; Tj = 25 ˚C prior to
on-state current surge
t = 20 ms - 95 A
t = 16.7 ms - 105 A2 tI2 t for fusing t = 10 ms - 45 A2s
dIT/dt Repetitive rate of rise of ITM = 20 A; IG = 0.2 A;
on-state current after dIG/dt = 0.2 A/μs
triggering T2+ G+ - 50 A/μs
T2+ G- - 50 A/μs
T2- G- - 50 A/μs
T2- G+ - 10 A/μs
IGM Peak gate current - 2 A
VGM Peak gate voltage - 5 V
PGM Peak gate power - 5 W
PG(AV) Average gate power over any 20 ms period - 0.5 W
Tstg Storage temperature -40 150 ˚C Operating junction - 125 ˚C
temperatureT2123
tab
Philips Semiconductors Product specification
Triacs
BT138 series
THERMAL RESISTANCES
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

Rth j-mb Thermal resistance full cycle - - 1.5 K/W
junction to mounting base half cycle - - 2.0 K/W
Rth j-a Thermal resistance in free air - 60 - K/W
junction to ambient
STATIC CHARACTERISTICS
j = 25 ˚C unless otherwise stated
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
BT138- ... ...F ...G

IGT Gate trigger current VD = 12 V; IT = 0.1 A
T2+ G+ - 5 35 25 50 mA
T2+ G- - 8 35 25 50 mA
T2- G- - 10 35 25 50 mA
T2- G+ - 22 70 70 100 mA Latching current VD = 12 V; IGT = 0.1 A
T2+ G+ - 7 40 40 60 mA
T2+ G- - 20 60 60 90 mA
T2- G- - 8 40 40 60 mA
T2- G+ - 10 60 60 90 mA Holding current VD = 12 V; IGT = 0.1 A - 6 30 30 60 mA On-state voltage IT = 15 A - 1.4 1.65 V
VGT Gate trigger voltage VD = 12 V; IT = 0.1 A - 0.7 1.5 V
VD = 400 V; IT = 0.1 A; 0.25 0.4 - V
Tj = 125 ˚C Off-state leakage current VD = VDRM(max); - 0.1 0.5 mA
Tj = 125 ˚C
DYNAMIC CHARACTERISTICS

Tj = 25 ˚C unless otherwise stated
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
BT138- ... ...F ...G

dVD/dt Critical rate of rise of VDM = 67% VDRM(max); 100 50 200 250 - V/μs
off-state voltage Tj = 125 ˚C; exponential
waveform; gate open
circuit
dVcom/dt Critical rate of change of VDM = 400 V; Tj = 95 ˚C; - - 10 20 - V/μs
commutating voltage IT(RMS) = 12 A;
dIcom/dt = 5.4 A/ms; gate
open circuit
tgt Gate controlled turn-on ITM = 16 A; VD = VDRM(max);- - - 2 - μs
time IG = 0.1 A; dIG/dt = 5 A/μs
Philips Semiconductors Product specification
Triacs
BT138 series
Fig.1. Maximum on-state dissipation, Ptot, versus rms
on-state current, IT(RMS), where α = conduction angle.
Fig.2. Maximum permissible non-repetitive peak
on-state current ITSM, versus pulse width tp, for
sinusoidal currents, tp ≤ 20ms.
Fig.3. Maximum permissible non-repetitive peak
Fig.4. Maximum permissible rms current IT(RMS) ,
versus mounting base temperature Tmb.
Fig.5. Maximum permissible repetitive rms on-state
current IT(RMS), versus surge duration, for sinusoidal
currents, f = 50 Hz; Tmb ≤ 99˚C.
Fig.6. Normalised gate trigger voltage 5 10 150
IT(RMS) / A
Ptot / W Tmb(max) / C
-50 0 50 100 1500
Tmb / C
IT(RMS) / A
10us 100us 1ms 10ms 100ms10
T / s
0.01 0.1 1 100
surge duration / s 10 100 10000
Number of cycles at 50Hz
-50 0 50 100 1500.4
Tj / C
VGT(Tj)
VGT(25 C)
Philips Semiconductors Product specification
Triacs
BT138 series
Fig.7. Normalised gate trigger current
IGT(Tj)/ IGT(25˚C), versus junction temperature Tj.
Fig.8. Normalised latching current IL(Tj)/ IL(25˚C),
versus junction temperature Tj.
Fig.9. Normalised holding current IH(Tj)/ IH(25˚C),
versus junction temperature Tj.
Fig.10. Typical and maximum on-state characteristic.
Fig.11. Transient thermal impedance Zth j-mb, versus
pulse width tp.
Fig.12. Typical commutation dV/dt versus junction
temperature, parameter commutation dIT/dt. The triac
-50 0 50 100 1500
Tj / C
IGT(Tj)
IGT(25 C) 0.5 1 1.5 2 2.5 30
VT / V
IT / A
-50 0 50 100 1500
Tj / C
IL(Tj)
IL(25 C)
tp / s
Zth j-mb (K/W)
10us 0.1ms 1ms 10ms 0.1s 1s 10s
-50 0 50 100 1500
Tj / C
IH(Tj)
IH(25C) 50 100 1501
Tj / C
dV/dt (V/us)
Philips Semiconductors Product specification
Triacs
BT138 series
MECHANICAL DATA

Dimensions in mm
Net Mass: 2 g
Fig.13. TO220AB; pin 2 connected to mounting base.
Notes

1. Refer to mounting instructions for TO220 envelopes.
2. Epoxy meets UL94 V0 at 1/8".
10,3
max3,0 max
not tinned
2,4
0,6
4,5
max
15,8max
1,3
2,54 2,54
13,5min
Philips Semiconductors Product specification
Triacs
BT138 series
DEFINITIONS
Data sheet status

Objective specification This data sheet contains target or goal specifications for product development.
Preliminary specification This data sheet contains preliminary data; supplementary data may be published later.
Product specification This data sheet contains final product specifications.
Limiting values

Limiting values are given in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one
or more of the limiting values may cause permanent damage to the device. These are stress ratings only and
operation of the device at these or at any other conditions above those given in the Characteristics sections of
this specification is not implied. Exposure to limiting values for extended periods may affect device reliability.
Application information

Where application information is given, it is advisory and does not form part of the specification.
 Philips Electronics N.V. 1997
All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the
copyright owner.
The information presented in this document does not form part of any quotation or contract, it is believed to be
accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any
consequence of its use. Publication thereof does not convey nor imply any license under patent or other
industrial or intellectual property rights.
LIFE SUPPORT APPLICATIONS

These products are not designed for use in life support appliances, devices or systems where malfunction of these
products can be reasonably expected to result in personal injury. Philips customers using or selling these products
for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting
from such improper use or sale.
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