ALS Oo0204? Tey mm NSC MICROSEMI CORP S4e D mm &115 1N6356 thru 1N6372 and MPT-5 thru MPT-45C FEATURES DESIGNED TO PROTECT BIPOLAR AND MOS MICROPROCESSOR BASED SYSTEMS. VOLTAGE RANGE OF 5.0 TO 45 VOLTS LOW CLAMPING RATIO MAXIMUM RATINGS 1500 Watts of Peak Pulse Power dissipation at 25C telamping (0 volts to Vig) min): Unidirectional Less than 1 x 10 seconds Bidirectional Less than 5 x 10- seconds Operating and Storage temperatures: -65 to +175C Forward surge rating: 200 amps, 1/120 second at 25C (Applies to Unipolar or single direction only) Steady State power dissipation: 1.0 watt Repetition rate (duty cycle): .01% ELECTRICAL CHARACTERISTICS Clamping Factor: 1.338 @ Full rated power 1.20 @ 50% rated power Clamping Factor: The ratio of the actual Vc (Clamping Voltage) to the actual Vier) (Breakdown Voltage) as measured on a specific device.MICROSEMI CORP STE D WM 6115665 0002048 WbO MNSC 1N6356 thru 1N6372 and MPT-5 thru MPT-45C ELECTRICAL CHARACTERISTICS @ 25C MAXIMUM MINIMUM* MAXIMUM MAXIMUM STAND-OFF REVERSE BREAKDOWN CLAMPING VOLTAGE] CLAMPING VOLTAGE MAXIMUM VOLTAGE LEAKAGE VOLTAGE (Fig. 2} (Fig. 2) PEAK PULSE MICROSEMI (NOTE 1) @ Vwm @ mA Ippy= 1A @ Ipp2= 10A CURRENT PART Vwer lo V(BRy (min) Ve Vc Ipp3 NUMBER VOLTS oh vO_Ts VOITS VOLTS A IN63S6 MPT-5 5.0 300 6.0 71 75 (60 IN635? MPT-8 8.0 25 9.4 11.3 V5 100 IN6358 MPT-10 10.0 2 Wi 13.7 141 90 ING359 MPT-12 12.0 2 14.4 16.1 16.5 70 IN6360 MPT-15 15.0 2 17.6 20.1 20.6 60 ING361 MPT-18 18.0 2 212 24.2 26,2 50 iNBI62 MPT-22 22.0 2 26.9 29.8 32.0 40 IN6363 MPT-36 36.0 2 42.4 50.6 54.3 2a IN6364 MPT-45 45.0 2 52.9 63.3 70.0 19 V at 100 amps peak, 8.3 msec sine wave equals 3.5 volts maximum ELECTRICAL CHARACTERISTICS @ 25C (Test Both Polarities) IN6365 MPT-8C 8.0 25 94 11.4 146 100 IN6366 MPT-10C 10.0 2 7 141 145 90 (N6367 MPT-12C 12.0 2 141 16.7 17.1 70 IN6368 MPT-15C 15.0 2 17.6 20.8 21.4 60 IN6369 MPT-18C 18.0 2 21.2 248 255 50 (N6370 MPT-22C 22.0 2 25.9 30.8 32.0 40 IN6@371 MPT-36C 36.0 2 424 50.6 54.3 23 IN6372 MPT-45C 45.0 2 52.9 63.3 70.0 19 C Suffix indicates Bidirectional NOTE1 TAZare normally selected according to the reverse Stand Off Voltage (Vy) which should be equal to or greater than the DC or continuous peak operating voltage level. *The minimum breakdown voltage as shown takes into consideration the +I volt toler- ance normally specified for power supply regulation on most integrated circuit manu- facturers data sheets. Similar devices are available with reduced clamping voltages where tighter regulated power supply voltages are employed. 100 80 & 8 Ve Clamping Voltage Votts 3 8 1 2 a 6 830 2 Ipp Peak Pulse Current Amps Typical Characteristic Clamping Voltage vs. Peak Pulse Current 400 &G 80100 10,000 Measured at 10,000 20 Zero Bias a0 & = : 3 Measured at es 2 easured al S Zero Bias 2 Measured at u 2 Stand-off Voltage 2 Measured at 2 1000 1p00 f= Standoff g & ' ! eo Ex 300 300 1 10 700 1 10 100 (BR) Breakdown Valtage Volts V(BR) Breakdown Voltage Volts 260 Typical Capacitance vs. Breakdown Voltage (Unidirectionat Types) Typical Capacitance vs. Breakdown Voltage {Bidirectional Types)