BTA06-600TRG
Triac, 600 V, 6 A, TO-220AB, 1.5 V, 60 A, 10 mA
- Manufacturer: STMICROELECTRONICS
- Product type:
- Peak Repetitive Off-State Voltage, Vdrm:600V; On State RMS Current IT(rms):6A; Triac Case Style:TO-220AB; Gate Trigger Current Max (QI), Igt:5mA; Gate Trigger Voltage Max Vgt:1.5V; Peak Gate Power:1W; Peak No
- MSL: -
- SVHC: No SVHC (25-Jun-2025)
- No. of Pins: 3Pins
- Product Range: -
- Triac Case Style: TO-220AB
- Thyristor Mounting: Through Hole
- Holding Current Max: 10mA
- On State RMS Current: 6A
- Peak On State Voltage: 1.55V
- Gate Trigger Voltage Max: 1.5V
- Operating Temperature Max: 125°C
- Peak Non Repetitive Surge Current: 60A
- Peak Repetitive Off State Voltage: 600V
| Delivery and price | |
|---|---|
| Units per pack | 1000 |
| Price | 0.515 € |
| Current stock | 10+ |
| Lead time | 30 days |
## G7 SGS-THOMSON BTAO6 T/D/S/A \/ Matiorocleennonics BTB06 T/D/S/A
## SENSITIVE GATE TRIACS
## FEATURES
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a VERY LOW lat = 10mA max :<br>= LOW Iq = 15mA max ocr ae<br>» BTA Family: ~ G<br>INSULATING VOLTAGE = 2500V(Rms)<br>(UL RECOGNIZED : E81734) Bo<br>JA<br>DESCRIPTION YZ<br>The BTA/BTBO6 T/D/S/A triac family are high per- AlA2Zpgf<br>formance glass passivated PNPN devices.<br>These parts are suitables for general purpose ap-<br>plications where gate high sensitivity is required. TO220AB<br>Application on 4Q such as phase control and static (Plastic)<br>switching.<br>ABSOLUTE RATINGS (limiting values)<br>smo [Parmer «SSCs<br>IT(RMS) RMS on-state current A<br>(360° conduction angle)<br>ITSM Non repetitive surge peak on-state current fip-83ms| os A<br>( Tj initial = 25°C) fp-tom<br>SS™*~<“~*~*~*~*~s<br>[a fave tome | eC<br>di/dt Critical rate of rise of on-state current Repetitive 10 Alus<br>Gate supply : Iq =50mA_ diG/dt = 0.1A/us F = 50 Hz<br>Non 50<br>Repetitive<br>Tstg Storage and operating junction temperature range - 40 to + 150 me} :<br>Tj - 40 to+ 110 me)<br>Tl Maximum lead temperature for soldering during 10 s at 4.5 mm 260 °C<br>from case<br>VDRM Repetitive peak off-state voltage 700 Vv<br>VRRM Tj = 110°C<br>**----- End of picture text -----**<br>
. March 1995
1/5
m 7929237?
0077163 34T
BTAO6 T/D/S/A / BTB06 T/D/S/A
THERMAL RESISTANCES
||THERMALRESISTANCES|THERMALRESISTANCES|
|---|---|---|
||THERMAL RESISTANCES<br>sro[pwr<br>m|<br>0a||
||Ath (j-c) DC|Junction to case forDC|°C/W|
||( F= 50 Hz)||
||GATE CHARACTERISTICS (maximum values)||
||Pe (Av) = 1W<br>P@m= 10W (tp =20s)<br>IGM=4A (tp= 208s)<br>=VGam = 16V (tp = 20 us).||
||ELECTRICAL CHARACTERISTICS||
||Symbol<br>Test Conditions<br>Quadrant<br>|<br>sutx |<br>ptiols<br>a|<br>l@T<br>Vp=12V)<br>(DC) Rp=33Q |] Tj-25°C | vem | max| s [|s | to | 10| <br>| ow | max|s | 0 | 0 | 2s||mA|
||veo fvo-vonw aaa [a0 |wun<br>|ww|<br>oe |v|||
||dig/dt = 0.5A/us||
|:|IL<br>IG= 1.2IGT<br>Tj=25°C<br>TYP | 10| 10 | 20 | 20 | mA<br>.<br>pon|<br>| 0 | a0 |ao | ao|<br>[inet aes |sa**ve**|<br>max vePe [om | os| ma **|**<br>Vio<br>[imeasa wmaeoe | ra<br>| [wx] ie sv||
||=~<br>ae||
||dV/dt<br>*<br>Linear<br>: slope<br>up<br>to]<br>Tj=110°C<br>Ire | to | i | - | - | <br>cca<br>pe fel<br>ovaie [iar<br>[wo]<br>wel [a[sls |we<br>* ForeitherpolarityofelectrodeA»voltagewithreferencetoelectrodeAj.|Vius<br>we|
.
:
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a4 fy» MICROELECTRONICS868 “THOM Mm 79e%e37 OOF71bY 2eTh
BTA06 T/D/S/A / BTBO6 T/D/S/A
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ORDERING INFORMATION<br>ee<br>(Insulated) | wf x Tx Tx x<br>(Uninsulated) | so | x | x Tx Tx<br>**----- End of picture text -----**<br>
Fig.1 : Maximum RMS power dissipation versus RMS on-state current (F=50Hz). (Curves are cut off by (di/dt)c limitation)
Fig.2 : Correlation between maximum RMS power dissipation and maximum allowabie temperatures (Tamb and Tease) for different thermal resistances heatsink + contact (BTA).
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P (Ww) . P (w) Tease (°C)<br>10° ~ Or 18094TT 10BPUNr e Ss5°c/w 80i]<br>6 ! ; 7 6 NS Ae<br>Spe]<br>4 a: 60 i> OSs | | 4LL [ONISKAL] aN XIN TL ss<br>2 aba . oA T | |) ot TT [AA] Ke \ TL Te<br>be-F 2 SY 106<br>* 7 1 2 3 4 5i 6, 7 ° 20 40 60 80 100 120 140.”<br>: Correlationandand maximumbetweenallowablemaximumtemperaturesRMS _betweenallowablemaximumtemperaturesRMS _allowablemaximumtemperaturesRMS _maximumtemperaturesRMS _temperaturesRMS _RMS _ _ (Tambpowerpower Fig.4: RMS on-state current versus case temperature.<br>Tease) for different thermal resistances heatsink +<br>(BTB).<br>P (Ww) Tease (°C) ' T(RMS) {A) .<br>10 7<br>TT] [eee ooo<br>TIN Vem ott tT TTT AA Te |<br>of} EN al 95 tt TT | fom TT<br>LENSE.PTT = (EEEEEETTNTT<br>°, \<br>ami cere<br>;Tee AA [INU] NottTE ottporwr| merotT| LT| LY<br>0 20 40 60 80 100 120 140 0 10 20 30 40 50 60 70 80 90 100110120<br>**----- End of picture text -----**<br>
dissipationFig.3 : Correlationandand maximumbetweenallowablemaximumtemperaturesRMS _betweenallowablemaximumtemperaturesRMS _allowablemaximumtemperaturesRMS _maximumtemperaturesRMS _temperaturesRMS _RMS _ _ (Tambpowerpower and Tease) for different thermal resistances heatsink + contact (BTB).
—_______________ GF SGS-THomson al M8 7929237vs MIRAE RMreAMnaAe0077165ae13°
BTAO6 T/D/S/A / BTBO6 T/D/S/A
Fig.5 : Relative vatiation of thermal impedance versus pulse duration.
Fig.6 : Relative variation of gate trigger current and holding current versus junction temperature.
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1 Zth/RthAee IgtiIgtTie25°C]_—IniT}=25°C| Til Ani.<br>aaCeEee a aESeeAoo eea 25<br>PailinTT awe UL A ,MELTN] ELE<br>eyePEEea Teol TMDHLTT] eeRNpos<br>sricammssiiimeerartilioe” anti Hi —-H Ry<br>Cae re | SE] E) ELL Ld<br>FccA eet 1 >SKEET TTT |<br>ee PP RREEEH<br>Pe TTT TR TTT Po 0.8 1<br>0<br>vole1E-3PAE [Tl] 1E-2ETI1E-1 1E+0 1841 Tinie1£4+2 5E+2 -40-30-20-10Lee0 LTT10 20 30 40 50 60 70 80 90 100110<br>**----- End of picture text -----**<br>
Fig.7 : Non Repetitive surge peak on-state current versus number of cycles.
Fig.8 : Non repetitive surge peak on-state current for a sinusoidal pulse with width : t < 10ms, and corresponding value of It.
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troy (A) Item (A). tt (A's)<br>60crear Fina 26° TT<br>eI TE ToT ae TTT<br>so} po<br>30a| CH Fypeee | eS=phESRSere NS NS Ee=<br>10TISAICTA LUAUETTPtah TSaa—— HDeeeemannAS Sone Secaiell ROE RA<br>vow oes THT Tl 10EL<br>0 ei<br>1 10 100 1000 1 2 5 10<br>: On-state characteristics (maximum values).<br>try (A)<br>100[a————[a———————— Sean Sinceaneninen Sinceaneninenaneninen<br>a SSZo {|SaZo {|Sa {|SaSa .<br>**----- End of picture text -----**<br>
Fig.9 : On-state characteristics (maximum values).
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try (A)<br>100[a————[a———————— Sean Sinceaneninen Sinceaneninenaneninen<br>a SSZo {|SaZo {|Sa {|SaSa<br>7 OO| oe—— |Z|—<br>—__ Tj max —— Tj max<br>ee| VioRt 0.0660=113V<br>| [ff]<br>1 C/o eee<br>1 2 3 4 5<br>**----- End of picture text -----**<br>
—___________4/5 faS/ MiccoutesnetiesSGS-THOMSON —______________--____ Mm 792%¢e57 OO771bb O79
BTA06 T/D/S/A / BTBO6 T/D/S/A
PACKAGE MECHANICAL DATA
TO220AB _~Plastic
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A a ie[|[| [DIMENSIONS] Min. | Max. |feMin. [| Max.— |<br>: | B | 14.23 | 15.87 | 0560 | 0.625 |<br>3 | Dp | 585 | 685 | 0230 | 0.270 |<br>|e | [450 [| orza |<br>| Gg | 254 | 3.00 | ot00 | o119 |<br>| H | 448 | 482 | 0.176 | 0.190 |<br>P i ‘ | uv | 115 | 1.39 | 0.045 | 0.055 |<br>| ° | | 035 | 065 | 0.013 | 0.026 |<br>| m | 210 | 270 | 0.082 | 0.107 |<br>| N | 458 | 5.58 | 018 | 022 |<br>| o | oso | 1.20 | 0.031 | 0.048 |<br>| P| o64 | 096 | 0.025 | 0.038 |<br>**----- End of picture text -----**<br>
Cooling method: C Marking : type number Weight : 2.3 g Recommended torque value : 0.8 m.N. Maximum torque value: 1 m.N.
—________________ {72 $GS-THOMsSoNicRosLecracses ——_______*©5/5 mM 79e%9237 OO771b7? TOS
Updated at June 10, 2026
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