TMS320LB53SPZ Datasheet| | | | | | | | N | | | | | | | IF = 30 A K = 15 A | | | | | | | | | | | I | | | | | | | | | | > | | | | | | | | × | | | | | | | | | j | | | | | | | | | | | | | | | | | | __ | | y | | | | ___ _E== | | | | | | | | | 100 1000 diF/dt (A/ps) Fig.8 - TypicaIStored Charge vs. di F /dt | | | | | | | | |
TMS320LB53SPZ Price| Characteristics | Symbol | Test Condition | Min | Typ. | Max | Unit | | Collector cut-off current | ICBO | VCB = 100 V, IE = OA | | | 20 | pA | | Collector cut-off current | ICEO | VCE = 80 V, lB = OA | | | 20 | pA | | Emitter cut-off current | IEBO | VEB=5V,IC=OA | 0 5 | | 2 5 | mA | | Collector-base breakdown voltage | V (BR) CBO | lc = 1 mA,IE = OA | 100 | | | V | | Collector-emitter breakdown voltage | V (BR) CEO | lc = 10 rriA, lB = 0 A | 80 | | | V | | | hFE(1) | VCE = 2 V,lc = 1 A | 2000 | | | | | DC current gain | hFE(2) | VCE = 2 V,lc = 3A | 1000 | | | | | Collector-emitter | VCE (sat) | lc = 3 mA, lB = 6 mA | | | 1 5 | V | | Saturation voltage | Base-emitter | VBE (sat) | lc = 3 mA, lB = 6 mA | | | 2 0 | | Transition frequency | fT | VCE = 2 V, lc = 0.5 A | | 60 | | MHz | | Collector output capacitance | Cob | VCB = lO V, IE = O A, f = l MHz | | 35 | | pF | | | Turn-on time | ton | Input | | 0 2 | | | | Switching time | Storage time | tstg | py,put Vcc = 30 V | | 1 5 | | l Uls | | Fall time | tf | IBi = -lB2 = 6 mA, duty cycle < 1% | | 0 6 | | | | | | | | | |
TMS320LB53SPZ on stock Output Capacitors (Optional): The ESR of the capacitors should be less than 150 ml . Electrolytic capacitors have marginal ripple performance at frequencies greater than 400 kHz but excellent low fre- quency transient response. Above the ripple frequency, ceramic capacitors are necessary to improve the transient response and reduce any high frequency noise components | Model | Temperature Range | Package Option | | AD9660KR AD9660KR-REEL | OYC to +70IC OYC to +70YC | R-28 R-28 (1000/reel) | | | |
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