PDF MC74HC4066A Data sheet ( Hoja de datos )

Número de pieza	MC74HC4066A
Descripción	Quad Analog Switch/Multiplexer/Demultiplexer
Fabricantes	ON Semiconductor
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No Preview Available ! MC74HC4066A Quad Analog Switch/ Multiplexer/Demultiplexer High−Performance Silicon−Gate CMOS The MC74HC4066A utilizes silicon−gate CMOS technology to achieve fast propagation delays, low ON resistances, and low OFF−channel leakage current. This bilateral switch/ multiplexer/demultiplexer controls analog and digital voltages that may vary across the full power−supply range (from VCC to GND). The HC4066A is identical in pinout to the metal−gate CMOS MC14016 and MC14066. Each device has four independent switches. The device has been designed so the ON resistances (RON) are more linear over input voltage than RON of metal−gate CMOS analog switches. The ON/OFF control inputs are compatible with standard CMOS outputs; with pullup resistors, they are compatible with LSTTL outputs. For analog switches with voltage−level translators, see the HC4316A. Features • Fast Switching and Propagation Speeds • High ON/OFF Output Voltage Ratio • Low Crosstalk Between Switches • Diode Protection on All Inputs/Outputs • Wide Power−Supply Voltage Range (VCC − GND) = 2.0 to 12.0 V • Analog Input Voltage Range (VCC − GND) = 2.0 to 12.0 V • Improved Linearity and Lower ON Resistance over Input Voltage than the MC14016 or MC14066 • Low Noise • Chip Complexity: 44 FETs or 11 Equivalent Gates • These Devices are Pb−Free, Halogen Free and are RoHS Compliant • NLV Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC−Q100 Qualified and PPAP Capable 14 1 http://onsemi.com MARKING DIAGRAMS 14 SOIC−14 D SUFFIX CASE 751A 1 HC4066AG AWLYWW 14 1 TSSOP−14 DT SUFFIX CASE 948G 14 HC 4066A ALYWG G 1 A WL, L Y WW, W G or G = Assembly Location = Wafer Lot = Year = Work Week = Pb−Free Package (Note: Microdot may be in either location) ORDERING INFORMATION See detailed ordering and shipping information in the package dimensions section on page 2 of this data sheet. © Semiconductor Components Industries, LLC, 2014 March, 2014 − Rev. 12 1 Publication Order Number: MC74HC4066A/D 1 page MC74HC4066A ADDITIONAL APPLICATION CHARACTERISTICS (Voltages Referenced to GND Unless Noted) ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎSymbol Parameter ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎBW Maximum On−Channel Bandwidth or ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎMinimum Frequency Response (Figure 5) ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ− Off−ChannelFeedthroughIsolation ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ(Figure 6) Test Conditions fin = 1 MHz Sine Wave Adjust fin Voltage to Obtain 0 dBm at VOS Increase fin Frequency Until dB Meter Reads – 3 dB RL = 50 W, CL = 10 pF fin Sine Wave Adjust fin Voltage to Obtain 0 dBm at VIS fin = 10 kHz, RL = 600 W, CL = 50 pF fin = 1.0 MHz, RL = 50 W, CL = 10 pF ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ− FeedthroughNoise,Controlto Switch ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ(Figure 7) Vin v 1 MHz Square Wave (tr = tf = 6 ns) Adjust RL at Setup so that IS = 0 A RL = 600 W, CL = 50 pF RL = 10 kW, CL = 10 pF ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ− CrosstalkBetweenAnyTwo ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎSwitches ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ(Figure 12) fin Sine Wave Adjust fin Voltage to Obtain 0 dBm at VIS fin = 10 kHz, RL = 600 W, CL = 50 pF fin = 1.0 MHz, RL = 50 W, CL = 10 pF ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎTHD Total Harmonic Distortion (Figure 14) fin = 1 kHz, RL = 10 kW, CL = 50 pF THD = THDMeasured − THDSource VIS = 4.0 VPP sine wave VIS = 8.0 VPP sine wave VIS = 11.0 VPP sine wave ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎGuaranteed limits not tested. Determined by design and verified by qualification. VCC V 4.5 9.0 12.0 4.5 9.0 12.0 4.5 9.0 12.0 4.5 9.0 12.0 4.5 9.0 12.0 4.5 9.0 12.0 4.5 9.0 12.0 4.5 9.0 12.0 Limit 25°C 54/74HC 150 160 160 Unit MHz − 50 dB − 50 − 50 − 40 − 40 − 40 60 mVPP 130 200 30 65 100 – 70 dB – 70 – 70 – 80 – 80 – 80 % 0.10 0.06 0.04 http://onsemi.com 5 5 Page MC74HC4066A 0 - 10 FUNDAMENTAL FREQUENCY - 20 - 30 - 40 - 50 DEVICE - 60 SOURCE - 70 - 80 - 90 1.0 2.0 FREQUENCY (kHz) Figure 15. Plot, Harmonic Distortion 3.0 APPLICATION INFORMATION The ON/OFF Control pins should be at VCC or GND logic levels, VCC being recognized as logic high and GND being recognized as a logic low. Unused analog inputs/outputs may be left floating (not connected). However, it is advisable to tie unused analog inputs and outputs to VCC or GND through a low value resistor. This minimizes crosstalk and feedthrough noise that may be picked−up by the unused I/O pins. The maximum analog voltage swings are determined by the supply voltages VCC and GND. The positive peak analog voltage should not exceed VCC. Similarly, the negative peak analog voltage should not go below GND. In the example below, the difference between VCC and GND is twelve volts. Therefore, using the configuration in Figure 16, a maximum analog signal of twelve volts peak−to−peak can be controlled. When voltage transients above VCC and/or below GND are anticipated on the analog channels, external diodes (Dx) are recommended as shown in Figure 17. These diodes should be small signal, fast turn−on types able to absorb the maximum anticipated current surges during clipping. An alternate method would be to replace the Dx diodes with Mosorbs (Mosorb™ is an acronym for high current surge protectors). Mosorbs are fast turn−on devices ideally suited for precise DC protection with no inherent wear out mechanism. + 12 V 0V ANALOG I/O VCC = 12 V 14 ANALOG O/I ON + 12 V 0V SELECTED CONTROL INPUT 7 OTHER CONTROL INPUTS (VCC OR GND) Figure 16. 12 V Application VCC Dx Dx VCC 16 Dx ON Dx VCC SELECTED CONTROL INPUT OTHER CONTROL INPUTS 7 (VCC OR GND) Figure 17. Transient Suppressor Application http://onsemi.com 11 11 Page

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