ST BTA/BTB06 Series handbook
Contents
1. 2 4 2 2 2 0 1 8 1 6 Fs 1 4 E ows TW 1 2 BW CW 1 0 i at ee oe 0 8 a 0 6 0 4 0 2 dV dt c V us 004 1 0 10 0 100 0 Fig 9 Relative variation of critical rate of decrease of main current versus junction temperature di dt c Tj di dt c Tj specified iS 0 25 50 75 100 125 5 6 BTA BTBO6 Series PACKAGE MECHANICAL DATA TO 220AB TO 220AB Ins DIMENSIONS c REF Millimeters Inches p Min Typ Max Min Typ Max A 15 20 15 90 0 598 0 625 7 al 3 75 0 147 a2 13 00 14 00 0 511 0 551 B 10 00 10 40 0 393 0 409 b1 0 61 0 88 0 024 0 034 14 b2 1 23 1 32 0 048 0 051 C 4 40 4 60 0 173 0 181 c2 c1 0 49 0 70 0 019 0 027 c2 2 40 2 72 0 094 0 107 e 2 40 2 70 0 094 0 106 F 6 20 6 60 0 244 0 259 3 75 3 85 0 147 0 151 14 15 80 16 40 16 80 0 622 0 646 0 661 Mm L 2 65 2 95 0 104 0 116 z a 12 1 14 1 70 0 044 0 066 13 1 14 1 70 0 044 0 066 M 2 60 0 102 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 parties2. Note 1 minimum IGT is guaranted at 5 of IGT max Note 2 for both polarities of A2 referenced to A1 2 6 lt THERMAL RESISTANCES BTA BTBO6 Series Symbol Parameter Value Unit Rth j c Junction to case AC TO 220AB 1 8 C W TO 220AB Insulated 2 7 Rth j a Junction to ambient TO 220AB 60 C W TO 220AB Insulated PRODUCT SELECTOR Voltage xxx Part Number Sensitivity Type Package 600 V 800 V BTA BTB0O6 xxxB X X 50 mA Standard TO 220AB BTA BTBO6 xxxBW 50 mA Snubberless TO 220AB BTA BTBO6 xxxC X X 25 mA Standard TO 220AB BTA BTBO6 xxxCW X X 35 mA Snubberless TO 220AB BTA BTBO6 xxxSW X X 10 mA Logic level TO 220AB BTA BTB06 xxxTW X X 5 mA Logic level TO 220AB BTB non insulated TO 220AB package ORDERING INFORMATION TRIAC 4l PACKING MODE SERIES Blank Bulk SENSITIVITY amp TYPE RG Tube INSULATION B 50mA STANDARD A insulated VOLTAGE BW 50mA SNUBBERLESS B non insulated 600 600V C 25mA STANDARD 800 800V CW 35mA SNUBBERLESS CURRENT 6A SW 10mA LOGIC LEVEL TW 5mA LOGIC LEVEL OTHER INFORMATION A Base Packing Part Number Marking Weight quantity mode BTA BTBO6 xxxyz BTA BT BO6 xxxyz 2 3g 250 Bulk BTA BTB06 xxxyzRG BTA BTB06 xxxyz 2 3g 50 Tube Note xxx voltage y sensitivity z type 4 3 6 BTA BTBO6 Series Fig 1 Maximum power dissipation ver
3. 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 2002 STMicroelectronics Printed in Italy All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia Brazil Canada China Finland France Germany Hong Kong India Isreal Italy Japan Malaysia Malta Morocco Singapore Spain Sweden Switzerland United Kingdom United States http www st com 4 6 6
4. O 0 BrA06 6008 0 O S7 BTA BTBO06 Series SNUBBERLESS LOGIC LEVEL amp STANDARD 6A TRIACS MAIN FEATURES Symbol It RMS DESCRIPTION Suitable for AC switching operations the BTA BTBO6 series can be used as an ON OFF function in applications such as static relays heating regulation induction motor starting circuits or for TO 220AB Insulated TO 220AB phase control in light dimmers motor speed BTAO6 BTB06 controllers The snubberless and logic level versions BTA BTB W are specially recommended for use on inductive loads thanks to their high commutation performances By using an internal ceramic pad the BTA series provides voltage insulated tab rated at 2500V RMS complying with UL standards File ref E81734 ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit t RMS RMS on state current full sine wave TO 220AB Tc 110 C A TO 220AB Ins Tc 105 C ITSM Non repetitive surge peak on state F 50 Hz t 20 ms 60 A current full cycle Tj initial 25 C FL 60Hz te iE7 ms 63 t t Value for fusing tp 10 ms 21 A s di at ee pete ll neu F 120 Hz Tj 125 C 50 Alus lam Peak gate current tp 20 us Tj 125 C 4 A Pq AV Average gate power dissipation Tj 125 C 1 WwW Tstg Storage junction temperature range 40 to 150 C Tj Operating junction temperature range 40 to 125 April 2002 Ed 5A 1 6 BTA BTBO6 S
5. eries ELECTRICAL CHARACTERISTICS Tj 25 C unless otherwise specified SNUBBERLESS and LOGIC LEVEL 3 Quadrants Symbol Test Conditions Quadrant BTA BTBO6 Unit SW CW lat 1 1 I I MAX 5 10 35 50 mA Vp 12V R 30Q VGT 1 1 MAX 1 3 V VGD Vp Vppm RL 3 3kQ 1 1 1 MIN 0 2 v Tj 125 C Ip 2 lr 100 mA MAX 10 15 35 50 mA IL Ig 1 2 let l MAX 10 25 50 70 mA II 15 30 60 80 dV dt 2 Vp 67 Vprm gate open Tj 125 C MIN 20 40 400 1000 V us dl dt c 2 dV dt c 0 1 V us Tj 125 C MIN 2 7 3 5 A ms dV dt c 10 V us Tj 125 C 1 2 2 4 Without snubber Tj 125 C 3 5 5 3 STANDARD 4 Quadrants Symbol Test Conditions Quadrant BTA BTBO6 Unit C Ig 1 1 1I I MAX 25 50 mA Vp 12V R_ 302 IV l 50 100 VGT ALL MAX 1 3 V Vap Vp Vpprm RL 3 3kQ Tj 125 C ALL MIN 0 2 Vv ly 2 I 500 mA MAX 25 50 mA IL lg 1 2 let 1 I IV MAX 40 50 mA II 80 100 dV dt 2 Vp 67 Vpprm gate open Tj 125 C MIN 200 400 V us dV dt c 2 dl dt c 2 7 A ms Tj 125 C MIN 5 10 V us STATIC CHARACTERISTICS Symbol Test Conditions Value Unit Vr 2 lM 5 5A tp 380 us Tj 25 C MAX 1 55 V Vio 2 Threshold voltage Tj 125 C MAX 0 85 V Ra 2 Dynamic resistance Tj 125 C MAX 60 mQ V V Tj 25 C 5 A DRM DRM V RRM l MAX H RRM Tj 125 C 1 mA
6. pulse with width tp lt 10ms and corresponding value of It ITSM A Pt As 1000 z jnital 25 6 Tj initial 25 C lt avat limitation 50A us ITSM 100 Pt tp ms 10 0 01 0 10 1 00 10 00 Fig 7 Relative variation of gate trigger current holding current and latching current versus junction temperature typical values IGT IH IL Tj IGT IH IL Tj 25 C Tj C 40 20 0 20 40 60 80 100 120 140 Fig 8 2 Relative variation of critical rate of decrease of main current versus dV dt c typical values Standard Types dl dt c dV dt c Specified dl dt c 2 0 1 8 N 1 6 1 4 H 1 2 ert 1 0 Tt tears Sal 0 8 0 6 0 4 0 2 dV dt c V s iihi 0 0 1 l 0 1 1 0 10 0 100 0 BTA BTBO6 Series Fig 8 1 Relative variation of critical rate of decrease of main current versus dV dt c typical values Snubberless amp Logic Level Types di dt c dV dt c Specified dl dt c
7. sus RMS on state current full cycle P W IT RMS A O NOA TDN CO 0 1 2 3 4 5 6 Fig 3 Relative variation of thermal impedance versus pulse duration K Zth Rth 1E 0 1E 1 ES 16 2 1E1 1E 0 1E 1E 2 5E 2 Fig 5 Surge peak on state current versus number of cycles ITSM A 70 T T JIER h r t 20ms 5 0 One cycle 40 Non repetitive Tj initial 25 C Repetitive Tc 105 C Number of cycles 1 10 100 1000 4 6 Fig 2 RMS on state current versus case temperature full cycle IT RMS A 7 BTB 6 BTA 5 4 3 2 1 Te C 0 0 25 50 75 100 125 Fig 4 On state characteristics maximum values ITM A 100 et TEV Te Mme F Rd 60 mo gt ee tT 10 VTM V 1 i 0 5 1 0 15 20 25 30 35 40 45 50 Fig 6 Non repetitive surge peak on state current for a sinusoidal
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ST BTA/BTB06 Series handbook part 6 of the bsb handbook bt06 user guide manual