PALCE2210H-15JC Datasheet Frequent on/off switching: In base stations, frequent on/off switching can cause thermal expansion of the resin that coats the transistor chips and can result in reduced or no output power. The bond wires in the resin will break after long-term thermally induced mechanical stress. PALCE2210H-15JC Price| CHARACTERISTICS | SYMBOL | TEST CONDITIONS | MIN | TYP. | MAX. | UNIT | | Drain to Source On-state Resistance | RDScon)l | Vcs = 10 V, ID = 28 A | | 12 | 17 | ml | | RDScon)2 | VGs = 4.0 V, ID = 28 A | | 19 | 27 | m | | Gate to Source Cut-off Voltage | VGS(off) | VDS = 10 V, ID = 1 mA | 1.0 | 1.6 | 2O | v | | Forward Transfer Admittance | l yfs I | VDS = 10 V, lo = 28 A | 13 | 42 | | S | | Drain Leakage Current | IDSS | VDS = 60 V, VGs = 0 V | | | 10 | oA | | Gate to Source Leakage Current | IGSS | Vcs = +20 V, Vos = 0 V | | | ±10 | oA | | Input Capacitance | Ciss | VDS = 10 V | | 2100 | | pF | | Output Capacitance | Coss | VGs = 0 V | | 550 | | pF | | Reverse Transfer Capacitance | Crss | F=1 MHz | | 220 | | pF | | Turn-on Delay Time | td[onl | ID = 28 A | | 36 | | ns | | Rise Time | tr | VGS(on} = 10 V | | 410 | | ns | | Turn-off Delay Time | td(offl | VDD = 30 V | | 130 | | ns | | Fall Time | tf | Re = 10 I | | 260 | | ns | | Total Gate Charge | QG | ID = 55 A | | 45 | | nC | | Gate to Source Charge | QGS | VDD = 48 V | | 7 | | nC | | Gate to Drain Charge | QGD | VGs = 10 V | | 13 | | nC | | Body Diode Forward Voltage | VF(S-D) | IF = 55 A, VGs = OV | | 1O | | v | | Reverse Recovery Time | t | IF = 55 A, VGs = 0 V | | 60 | | ns | | Reverse Recovery Charge | Qrr | di/dt = 100A/cs | | 100 | | nC | | | | | | | |
PALCE2210H-15JC on stock Description These Precision Optical Perform- ance AlInGaP LEDs provide superior light output for excellent readability in sunlight and are extreruely reliable. AlInGaP LED technology provides extremely stable light output over long periods of time. Precision Optical Performance lamps utilize the aluminum indium galliuru phos- phide (AlInGaP) technology. | A B C D E | 123 VDDQ SA13 SAio NC NC SA9 NC SA12 SAii DQc8 DQC9 Vss DQC6 DQc7 Vss | 4 5 NC SA7 NC SA8 VDD SA6 NC Vss SS Vss | 6 7 SA4 VDDQ NC NC SAs NC DQb9 DQb8 DQb7 DQb6 | | F | VDDQ DQcs Vss | GVss | DQbs VDDQ | | G | DQC3 DQC4 SWc | NC SWb | DQb4 DQb3 | | H | DQci DQc2 Vss | NC Vss | DQb2 DQbi | | J | VDDO VDD NC | VDD NC | VDD VDDO | | K | DQdi DQd2 Vss | KVss | DQa2 DQai | | L | DQd3 DQd4 SWd | KSWa | DQa4 DQa3 | | M | VDDQ DQds Vss | sw Vss | DQas VDDQ | | N | DQd6 DQd7 Vss | SA16 Vss | DQa7 DQa6 | | P R T U | DQd8 DQd9 Vss NC SAis Mi NC NC SA14 VDDO TMS TDI | SAo Vss VDD M2 SAi SA3 TCK TDO | DQa9 DQa8 SA2 NC NC ZZ NC VDDO | | | | |
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