| Part Numbert | Mfg | Packt | D/C | Descriptiont | Qty | Company/Contact | |
| TPS2216ADBG4 | TI | 05+ | 103 |
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| TPS2216ADBG4 | TI | 05+ | SSOP28 |
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| TPS2216ADBG4 | TI | 05+ | SSOP28 |
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| TPS2216ADBG4 | TI | SSOP28 | 05+ | 103 |
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| TPS2216ADBG4 | TI | 103 | 05+ |
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| TPS2216ADBG4 | TI | SSOP28 | 05+ | 103 |
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TPS2216ADBG4 Datasheet 0 5 0 L r ) o L n 0 5 o r . 0 2 0 r - L n 2 2 - - M - S S 0 1 } 1 3 M O d l \ t l 0 1 V \ I C I V \ I X V V \ I TPS2216ADBG4 Price
TPS2216ADBG4 on stock NOTES: 1. Minimums are guaranteed but not production tested. 2. This parameter is guaranteed but not production tested. 3. The bus switch contributes no propagation delay other than the RC delay of the ON resistance of the switch and the load capacitance. The time constant for the switch alone is of the order of 0.25ns for CL = 50pF. Since this time constant is much smaller than the rise and fall times of typical driving signals, it adds very little propagation delay to the system. Propagation delay of the bus switch, when used in a system, is determined by the driving circuit on the driving side of the switch and its interaction with the load on the driven side. 4. Measured at switch turn off, A to C, load = 50pF in parallel with 10 meg scope probe, VIN at I = OV. 5. Measured at switch turn off through bus multiplexer, A to C > A to D, B connected to C, load = 50pF in parallel with 10 meg scope probe, VIN at A = OV. Charge injection is reduced because the injection from the turn off of the A to C switch is compensated by the turn on of the B to C switch.
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