M74HC4852 Dual 4:1 channel analog MUX/DEMUX with injection current protection Datasheet − production data Features ■ Low power dissipation – ICC = 2 µA (max.) at TA = 25 °C ■ Injection current protection: VΔout < 1 mV at VCC = 5 V, IIN = 1 mA, RS = 3.9 kΩ ■...
(Pb-free & Green available): – 16-pin 150-mil wide plastic QSOP (Q) PI5C3251 8:1 Mux/DeMux BusSwitch 1 Description: Pericom Semiconductor's PI5C3251 is a Dual 8:1 Multiplexer/ Demultiplexer with three-state outputs that is pinout compatible with the PI74FCT251T, 74F251, and 74ALS...
NCN3411 4-Differential Channel 1:2 Mux/Demux Switch for PCI Express Gen3 The NCN3411 is a 4−Channel differential SPDT switch designed to route PCI Express Gen3 signals. When used in a PCI Express application, the switch can handle up to two PCIe lanes. Due to the ultra−low ON−...
Source-to-Drain Charge Injection The drain-to-source charge injection becomes important when the device is used as a demultiplexer (demux), where D becomes the input and Sx becomes the output. Figure 40 shows the drain-to-source charge injection across the full signal range. 9 VDD = 10 V...
Instruments Incorporated Product Folder Links: MUX36S16 MUX36D08 Submit Documentation Feedback 27 MUX36S16, MUX36D08 SLASED9C – NOVEMBER 2016 – REVISED OCTOBER 2019 www.ti.com Feature Description (continued) 8.3.3 Bidirectional Operation The MUX36xxx are operable as both a mux and demux. Th...
Propagational 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. 09-0120 3 PS7017H 06/11/09 Test Circuit PI5C3253 Dual 4:1 Mux/DeMux Bus Switch Switch Position ...
Instruments Incorporated Product Folder Links: MUX36S16 MUX36D08 Submit Documentation Feedback 27 MUX36S16, MUX36D08 SLASED9C – NOVEMBER 2016 – REVISED OCTOBER 2019 www.ti.com Feature Description (continued) 8.3.3 Bidirectional Operation The MUX36xxx are operable as both a mux and demux. Th...
Source-to-Drain Charge Injection The drain-to-source charge injection becomes important when the device is used as a demultiplexer (demux), where D becomes the input and Sx becomes the output. 图 40 shows the drain-to-source charge injection across the full signal range. 9 VDD = 10 V, ...
Source-to-Drain Charge Injection The drain-to-source charge injection becomes important when the device is used as a demultiplexer (demux), where D becomes the input and Sx becomes the output. 图 41 shows the drain-to-source charge injection across the full signal range. 9 VDD = 10 V, ...
Source-to-Drain Charge Injection The drain-to-source charge injection becomes important when the device is used as a demultiplexer (demux), where D becomes the input and Sx becomes the output. 图 41 shows the drain-to-source charge injection across the full signal range. 9 VDD = 10 V, ...