74HCT4316 Series
5-V, 1:1 (SPST), 4-channel analog switch with level translation & TTL inputs
Manufacturer: Texas Instruments
Catalog(3 parts)
| Part | Mounting Type | On-State Resistance (Max)▲▼ | Multiplexer/Demultiplexer Circuit | Channel-to-Channel Matching (ΔRon)▲▼ | Supplier Device Package | Current - Leakage (IS(off)) (Max)▲▼ | Voltage - Supply, Single (V+)▲▼ | Voltage - Supply, Single (V+)▲▼ | Switch Time (Ton, Toff) (Max)▲▼ | Switch Time (Ton, Toff) (Max)▲▼ | Number of Circuits▲▼ | -3db Bandwidth▲▼ | Switch Circuit | Voltage - Supply, Dual (V±)▲▼ | Voltage - Supply, Dual (V±)▲▼ | Operating Temperature▲▼ | Operating Temperature▲▼ | Package / Case | Package / Case▲▼ |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Surface Mount | 170 Ω | 1:1 | 5 Ω | 16-SOIC | 1.0000000116860974e-7 A | 4.5 V | 5.5 V | 3.6999999508680055e-8 s | 3.6999999508680055e-8 s | 4 ul | 200000000 Hz | SPST - NO | -1 V | 5 V | -55 °C | 125 °C | 16-SOIC | 0.003911599982529879 m, 3.900000095367432 ul | |
Surface Mount | 170 Ω | 1:1 | 5 Ω | 16-SOIC | 1.0000000116860974e-7 A | 4.5 V | 5.5 V | 3.6999999508680055e-8 s | 3.6999999508680055e-8 s | 4 ul | 200000000 Hz | SPST - NO | -1 V | 5 V | -55 °C | 125 °C | 16-SOIC | 0.003911599982529879 m, 3.900000095367432 ul | |
Surface Mount | 170 Ω | 1:1 | 5 Ω | 16-SOIC | 1.0000000116860974e-7 A | 4.5 V | 5.5 V | 3.6999999508680055e-8 s | 3.6999999508680055e-8 s | 4 ul | 200000000 Hz | SPST - NO | -1 V | 5 V | -55 °C | 125 °C | 16-SOIC | 0.003911599982529879 m, 3.900000095367432 ul |
Key Features
• Wide analog-input-voltage range:VCC - VEE: 0V to 10VLow ON resistance:45Ω (typical): VCC = 4.5V35Ω (typical): VCC = 6V30Ω (typical): VCC – VEE = 9VFast switching and propagation delay timesLow OFF leakage currentBuilt-in break-before-make switchingLogic-level translation to enable 5V logic to accommodate ±5 V analog signalsWide operating temperature range: -55°C to 125°CHC types:2V to 10V operationHigh noise immunity: NIL = 30%, NIH = 30% of VCC at VCC = 5VHCT types:Direct LSTTL input logic compatibility, VIL= 0.8V (maximum), VIH = 2V (minimum)CMOS input compatibility, II ≤ 1 µA at VOL, VOHWide analog-input-voltage range:VCC - VEE: 0V to 10VLow ON resistance:45Ω (typical): VCC = 4.5V35Ω (typical): VCC = 6V30Ω (typical): VCC – VEE = 9VFast switching and propagation delay timesLow OFF leakage currentBuilt-in break-before-make switchingLogic-level translation to enable 5V logic to accommodate ±5 V analog signalsWide operating temperature range: -55°C to 125°CHC types:2V to 10V operationHigh noise immunity: NIL = 30%, NIH = 30% of VCC at VCC = 5VHCT types:Direct LSTTL input logic compatibility, VIL= 0.8V (maximum), VIH = 2V (minimum)CMOS input compatibility, II ≤ 1 µA at VOL, VOH
Description
AI
The ’HC4316 and CD74HCT4316 contain four independent digitally controlled analog switches that use silicon-gate CMOS technology to achieve operating speeds similar to LSTTL with the low power consumption of standard CMOS integrated circuits.
In addition these devices contain logic-level translation circuits that provide for analog signal switching of voltages between ±5V via 5V logic. Each switch is turned on by a high-level voltage on its select input (S) when the common Enable (E) is Low. A High E disables all switches. The digital inputs can swing between VCC and GND; the analog inputs/outputs can swing between VCC as a positive limit and VEE as a negative limit. Voltage ranges are shown in Figure 13-1 and Figure 13-2.
The ’HC4316 and CD74HCT4316 contain four independent digitally controlled analog switches that use silicon-gate CMOS technology to achieve operating speeds similar to LSTTL with the low power consumption of standard CMOS integrated circuits.
In addition these devices contain logic-level translation circuits that provide for analog signal switching of voltages between ±5V via 5V logic. Each switch is turned on by a high-level voltage on its select input (S) when the common Enable (E) is Low. A High E disables all switches. The digital inputs can swing between VCC and GND; the analog inputs/outputs can swing between VCC as a positive limit and VEE as a negative limit. Voltage ranges are shown in Figure 13-1 and Figure 13-2.