How To Make A Circuit Breaker

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High surge voltage 1.25 A SCR for circuit breaker Datasheet - production data Features On-state rms current, 1.25 A Repetitive peak off-state voltage, 800 V Non-repetitive direct surge peak off-state voltage, 1250 V Non-repetitive reverse surge peak off-state voltage, 900 V Triggering gate current, 100 µa High off-state immunity: 200 V/µs ECOPACK 2 compliant component Description Thanks to highly sensitive triggering levels, the series is suitable for circuit breaker applications where the available gate current is limited. The 1250 V direct surge voltage capability of the enables high robustness of the whole circuit breaker. The low leakage current of the reduces power consumption over the entire lifetime of the circuit breaker. The high off-state immunity (200 V/µs) insures the non tripping of the breaker in case of electrical fast transient (EFT) on the mains. The is available in through-hole TO-92 package with GAK and KGA pinout and in SMBflat-3L package. Table 1. Device summary Symbol Value Unit I T(RMS) 1.25 A V DRM, V RRM 800 V V DSm, V RSM 1250, 900 V I GT 100 µa T j 125 C Applications GFCI (Ground Fault Circuit Interrupter) AFCI (Arc Fault Circuit Interrupter) RCD (Residual Current Device) RCBO (Residual Current circuit Breaker with Overload protection) AFDD (Arc Fault Detection Device) October 2014 DocID026589 Rev 1 1/10 This is information on a product in full production. www.st.com

Characteristics 1 Characteristics Table 2. Absolute ratings (limiting values) Symbol Parameter Value Unit I T(RMS) IT (AV) I TSM On-state rms current (180 conduction angle) Average on-state current (180 conduction angle) Non repetitive surge peak on-state current 1st step: one surge every 5 seconds, 25 surges 2nd step: one surge every 5 seconds, 25 surges TO-92 T l = 53 C SMBflat-3L T c = 109 C TO-92 T I = 53 C SMBflat-3L T c = 109 C t p = 8.3 ms 21 T j initial = 25 C t p = 10 ms 20 t p = 10 ms T amb = 90 C 1.25 A 0.8 A 25 times 12 A 25 times 16 A A I ² t I ² t Value for fusing t p = 10 ms, 25 C 2 A 2 S di/dt Critical rate of rise of on-state current I G = 2 x I GT, t r 100 ns F = 50 Hz, 125 C 100 Non repetitive critical current rate of rise at break-over, see Figure 17, V D > V DSm 200 V DRM, V RRM Repetitive peak off-state AC voltage, R GK = 220 Ω T j = 125 C 800 V V DSm Non-repetitive direct surge peak off-state voltage, R GK = 220 Ω A/µs t p = 10 ms T j = 25 C 1250 V V RSM Non-repetitive reverse surge peak off-state voltage, R GK = 220 Ω t p = 10 ms T j = 25 C 900 V I GM Peak gate current t p = 20 µs T j = 125 C 1.2 A P G(AV) Average gate power dissipation T j = 125 C 0.2 W T stg Storage junction temperature range - 40 to + 150 T j Operating junction temperature range - 40 to + 125 C Table 3. Electrical characteristics Symbol Test conditions Value Unit I GT Min. 1 V D = 12 V, R L = 140Ω T j = 25 C Max. 100 µa V GT Max. 0.8 V V GD V D = V DRM, R L = 33 kω, R GK = 220 Ω T j = 125 C Min. 0.1 V V RG I RG = 2 ma T j = 25 C Min. 7.5 V I H I T = 50 ma, R GK = 220 Ω T j = 25 C Max. 12 ma I L I G = 5 ma, R GK = 220 Ω T j = 25 C Max. 12 ma dv/dt V D = 67% V DRM, R GK = 220 Ω T j = 125 C Min. 200 V/µs 2/10 DocID026589 Rev 1

Characteristics Table 4. Static electrical characteristics Symbol Test conditions Value Unit V TM I TM = 2.5 A, t p = 380 µs T j = 25 C Max. 1.6 V V T0 Threshold voltage T j = 125 C Max. 0.95 V R D Dynamic resistance T j = 125 C Max. 220 mω I DRM I RRM V D = V DRM / V RRM, R GK = 220 Ω T j = 25 C 1 µa Max. T j = 125 C 100 µa Table 5. Thermal resistance Symbol Parameter Value Unit R th(j-l) Junction to leads (DC) TO-92 65 TO-92 160 R th(j-a) Junction to ambient (DC) S = 5 cm 2 SMBflat-3L 75 R th(j-c) Junction to case (DC) SMBflat-3L 14 C/W Figure 1. Maximum average power dissipation versus average on-state current 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 Figure 3. Average and DC on-state current versus case temperature (SMBflat-3L) I T(AV) (A) SMBflat-3L T ( C) c = 30, 60, 90, 120, 180, DC 0 25 50 75 100 125 Figure 2. Average and DC on-state current versus lead temperature (TO-92) Figure 4. Average and DC on-state current versus ambient temperature DocID026589 Rev 1 3/10 10

Characteristics Figure 5. Relative variation of thermal impedance junction to ambient versus pulse duration Figure 6. Typical thermal resistance junction to ambient versus copper surface under anode (epoxy FR4, Cu th = 35 µm) 1.00 K = [Z th(j-a) /R th(j-a) ] TO-92 SMBflat-3L Copper surface area = 5cm² 0.10 0.01 T p ( s) 1.0E-03 1.0E-02 1.0E-01 1.0E+00 1.0E+01 1.0E+02 1.0E+03 Figure 7. Relative variation of gate trigger current and trigger voltage versus junction temperature (typical values) Figure 9. Relative variation of holding current versus gate-cathode resistance (typical values) 2.5 2.0 1.5 1.0 0.5 0.0 I H [ R GK ] / I H [ R GK = 220 Ω] RGK ( KΩ) 1.E-01 1.E+00 1.E+01 Figure 8. Relative variation of latching and holding current versus junction temperature (typical values) Figure 10. Relative variation of dv/dt immunity versus junction temperature (typical values) 10 9 8 7 6 5 4 3 2 1 0 dv/dt [T j] / dv/dt [T j = 125 C] T j ( C) VD = 0.67 X VDRM R GK = 220 Ω 20 40 60 80 100 120 4/10 DocID026589 Rev 1

Characteristics Figure 11. Relative variation of dv/dt immunity versus gate-cathode resistance (typical values) 10.00 1.00 0.10 dv/dt [ RGK] / dv/dt [ RGK = 220 Ω] R GK ( Ω) VD = 0.67 X V T DRM j = 125 C 100 200 300 400 500 600 700 Figure 12. Relative variation of dv/dt immunity versus gate-cathode capacitor (typical values) 5.0 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0.0 dv/dt [ CGK] / dv/dt [ CGK = 100 pf] VD = 0.67 X V T DRM j = 125 C RGK = 220 Ω C GK ( nf) 0.0 0.5 1.0 1.5 2.0 Figure 13. On-state characteristics (maximum values) 100.0 10.0 1.0 I TM ( A) T j = 125 C T j = 25 C T j = 125 C V to = 0.95 V V TM ( V) R d = 220 mω 0.1 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 Figure 14. Surge peak on-state current versus number of cycles Figure 15. Non repetitive surge peak on-state current DocID026589 Rev 1 5/10 10

AC line transient voltage ruggedness 2 AC line transient voltage ruggedness In comparison with standard SCRs, the is self-protected against over-voltage. The switch can safely withstand AC line direct surge voltages by switching to the on state (for less than 10 ms on 50 Hz mains) to dissipate energy shocks through the load. The load limits the current through the. The self-protection against over-voltage is based on an overvoltage crowbar technology. This safety feature works even with high turn-on current ramp up. Figure 16 represents the in a test environment. It is used to stress the switch according to the IEC 61000-4-5 standard conditions. The folds back safely to the on state as shown in Figure 17. The recovers its blocking voltage capability after the direct surge and the next zero current crossing. Such a non repetitive test can be done at least 10 times. Figure 16. Overvoltage ruggedness test circuit for IEC 61000-4-5 standards Figure 17. Typical current and voltage waveforms across the during IEC 61000-4-5 standard test 6/10 DocID026589 Rev 1

Package information 3 Package information Epoxy meets UL94, V0 Lead-free package In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK packages, depending on their level of environmental compliance. ECOPACK specifications, grade definitions and product status are available at: www.st.com. ECOPACK is an ST trademark. Figure 18. TO-92 dimensions (definitions) A a B C F D E Ref. Table 6. TO-92 dimensions (values) Millimeters Dimensions Inches Min. Typ. Max. Min. Typ. Max. A 1.35 0.053 B 4.70 0.185 C 2.54 0.100 D 4.40 0.173 E 12.70 0.500 F 3.70 0.146 a 0.5 0.019 For ammopack packing information, please contact your sales representative. DocID026589 Rev 1 7/10 10

Package information Figure 19. SMBflat-3L dimensions (definitions) D A e b 2x c L 2x L2 2x E E1 L1 L1 L L2 b4 Ref. Table 7. SMBflat-3L dimensions (values) Millimeters Dimensions Inches Min. Typ. Max. Min. Typ. Max. A 0.90 1.10 0.035 0.043 b 0.35 0.65 0.014 0.026 b4 1.95 2.20 0.07 0.087 c 0.15 0.40 0.006 0.016 D 3.30 3.95 0.130 0.156 E 5.10 5.60 0.201 0.220 E1 4.05 4.60 0.156 0.181 L 0.75 1.50 0.030 0.059 L1 0.40 0.016 L2 0.60 0.024 e 1.60 0.063 Figure 20. SMBflat-3L footprint dimensions 0.51 (0.020) 5.84 (0.230) 2.07 (0.082) 2.07 (0.082) 0.51 (0.020) 1.20 (0.047) 3.44 (0.136) 1.20 (0.047) millimeters (inches) 8/10 DocID026589 Rev 1

Ordering information 4 Ordering information Figure 21. Ordering information scheme TS 1 10-8 A1 (- AP) Sensitive SCR series Current (rms) 1 = 1.25 A Gate sensitivity 10 = 100 μa Voltage 8 = 800 V Package A1 = TO-92 with GAK pinout A2 = TO-92 with KGA pinout UF = SMBflat-3L Packing mode - AP = Ammopack (TO_92) Blank = Bulk (TO-92), 13 tape and reel (SMBflat-3L) Table 8. Ordering information Order code Marking Package Weight Base qty. Delivery mode A1 2500 Bulk T0-92 200 mg A1-AP 2000 Ammopack A2 2500 Bulk T0-92 200 mg A2-AP 2000 Ammopack UF SMBflat-3L 47 mg 5000 Tape and reel 13 5 Revision history Table 9. Document revision history Date Revision Changes 13-Oct-2014 1 Initial release. DocID026589 Rev 1 9/10 10

IMPORTANT NOTICE PLEASE READ CAREFULLY STMicroelectronics NV and its subsidiaries ( ST ) reserve the right to make changes, corrections, enhancements, modifications, and improvements to ST products and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. ST products are sold pursuant to ST s terms and conditions of sale in place at the time of order acknowledgement. Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of Purchasers products. No license, express or implied, to any intellectual property right is granted by ST herein. Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product. ST and the ST logo are trademarks of ST. All other product or service names are the property of their respective owners. Information in this document supersedes and replaces information previously supplied in any prior versions of this document. 2014 STMicroelectronics All rights reserved 10/10 DocID026589 Rev 1

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