HCF4066B ,OR MULTIPLEXING OF ANALOG OR DIGITAL SIGNALS QUAD BILATERAL SWITCH FOR TRANSMISSIONHCF4066BQUAD BILATERAL SWITCH FOR TRANSMISSION ORMULTIPLEXING OF ANALOG OR DIGITAL SIGNALSn 15V DIG ..
HCF4066BEY ,QUAD BILATERAL SWITCH FOR TRANSMISSION OR MULTIPLEXING OF ANALOG OR DIGITAL SIGNALSAPPLICATIONS (BIDIRECTIONAL SIGNAL TRANSMISSION VIA DIGITAL CONTROL LOGIC) TYPICAL
HCF4066BM1 ,QUAD BILATERAL SWITCH FOR TRANSMISSION OR MULTIPLEXING OF ANALOG OR DIGITAL SIGNALSELECTRICAL CHARACTERISTICS(T = 25°C,Typical temperature coefficient for all V value is 0.3 %/°C) ..
HCF4066BM1 ,QUAD BILATERAL SWITCH FOR TRANSMISSION OR MULTIPLEXING OF ANALOG OR DIGITAL SIGNALSapplications, however, thethe input when the switch is ON or to V whenSSthe switch is OFF. This con ..
HCF4066M013TR ,QUAD BILATERAL SWITCH FOR TRANSMISSION OR MULTIPLEXING OF ANALOG OR DIGITAL SIGNALSHCF4066BQUAD BILATERAL SWITCH FOR TRANSMISSION ORMULTIPLEXING OF ANALOG OR DIGITAL SIGNALS ■ 15V D ..
HCF4066M013TR ,QUAD BILATERAL SWITCH FOR TRANSMISSION OR MULTIPLEXING OF ANALOG OR DIGITAL SIGNALSABSOLUTE MAXIMUM RATINGS Symbol Parameter Value UnitV Supply Voltage-0.5 to +22 VDDV DC Input ..
HD64F2633F25 , Series of Microcomputers (MCUs: microcomputer units)
HD64F3334YF16 , Old Company Name in Catalogs and Other Documents
HD64F3334YF16 , Old Company Name in Catalogs and Other Documents
HD64F3334YFLH16 , Hitachi Single Chip Microcomputer
HD64F3334YFLH16 , Hitachi Single Chip Microcomputer
HD64F3334YTF16 , Old Company Name in Catalogs and Other Documents
HCF4066B
Quad Analog Switch
1/9September 2001 15V DIGITALOR± 7.5V PEAKTO PEAK
SWITCHING 125Ω TYPICALON RESISTANCE FOR 15V
OPERATION SWITCHON RESISTANCE MATCHEDTO
WITHIN5Ω TYP. OVER 15V SIGNAL INPUT
RANGE ON RESISTANCE FLAT OVER FULL PEAK PEAK SIGNAL RANGE HIGH ON/OFF OUTPUT VOLTAGE RATIO:
65dB TYP.atfIS= 10KHz,RL= 10KΩ HIGH DEGREEOF LINEARITY:< 0.5%
DISTORTION TYP.atfIS= 1KHz,VIS=5 Vpp,
VDD -VSS> 10V,RL= 10KΩ EXTREMELY LOW OFF SWITCH LEAKAGE
RESULTINGIN VERY LOW OFFSET
CURRENT AND HIGH EFFECTIVE OFF
RESISTANCE: 10pA TYP.VDD-VSS= 10V,Tamb =25°C EXTREMELY HIGH CONTROL INPUT
IMPEDANCE (control circuit isolated from
signal circuit1012 Ω typ.) LOW CROSSTALK BETWEEN SWITCHES:
50dB Typ.atfIS= 0.9MHz,RL =1KΩ MATCHED CONTROL- INPUTTO SIGNAL
OUTPUT CAPACITANCE: REDUCES
OUTPUT SIGNAL TRANSIENTS FREQUENCY RESPONSE SWITCHON:
40MHz (Typ.) QUIESCENT CURRENT SPECIF.UPTO 20V 5V, 10V AND 15V PARAMETRICRATINGS INPUT LEAKAGE CURRENTI= 100nA (MAX)ATVDD= 18VTA =25°C 100% TESTEDFOR QUIESCENT CURRENT MEETS ALL REQUIREMENTSOF JEDEC
JESD13B” STANDARD SPECIFICATIONS
FOR DESCRIPTIONOFB SERIES CMOS
DEVICES”
DESCRIPTIONThe HCF4066Bisa monolithic integrated circuit
fabricated in Metal Oxide Semiconductor
technology availablein DIP and SOP packages.
The HCF4066Bisa QUAD BILATERAL SWITCH
intendedfor the transmissionor multiplexingof
analogor digital signals.ispinforpin compatible with HCF4016B,but
exhibitsa much lowerON resistance.In addition,
HCF4066BQUAD BILATERAL SWITCH FOR TRANSMISSION OR
MULTIPLEXING OF ANALOG OR DIGITAL SIGNALS
PIN CONNECTION
ORDER CODES
PACKAGE TUBE T&RDIP HCF4066BEY
SOP HCF4066BM1 HCF4066M013TR
DIP SOP
HCF4066B2/9
the ON resistanceis relatively constant overthe
full input signal range. The HCF4066B consistsof
four independent bilateral switches.A single
control signalis required per switch. Both thep
andn deviceina given switchare biased ONor
OFF simultaneouslyby the control signal.As
shownin schematic diagram, the wellof the
n-channel deviceon each switchis either tiedto
the input whenthe switchisONortoVSS when
the switchis OFF. This configuration eliminates
the variationof the switch-transistor threshold
voltage with input signal, and thus keepstheON
resistancelow overthefull operating signal range.
The advantages over single channel switches
include peak input signal voltage swings equalto
thefull supply voltage, and more constant ON
impedance over the input signal range. For
sample and hold applications, however, the
HCF4016Bis recommended.
INPUT EQUIVALENT CIRCUIT PIN DESCRIPTION
TRUTH TABLE
SCHEMATIC DIAGRAM(1OF4 IDENTICAL SWITCHES AND ITS ASSOCIATED CONTROL
CIRCUITY)
PINNo SYMBOL NAME AND FUNCTION4,8,11 AtoDI/O Independent Inputs/Out-
puts3,9,10 AtoDO/I Independent Outputs/
Inputs
13,5,6,12 CONTROL
AtoD Enable Inputs VSS Negative Supply Voltage VDD Positive Supply Voltage
CONTROL SWITCH FUNCTIONHON OFF
HCF4066B3/9
ABSOLUTE MAXIMUM RATINGSAbsolute Maximum Ratingsare those values beyond which damagetothe device mayoccur. Functional operation under these conditionsis
not implied.
All voltage values arereferredtoVSSpin voltage.
RECOMMENDED OPERATING CONDITIONS
ELECTRICAL CHARACTERISTICSamb =25°C,Typical temperature coefficientforallVDD valueis0.3 %/°C)
Symbol Parameter Value UnitVDD Supply Voltage -0.5to+22 V DC Input Voltage -0.5toVDD+0.5 V DC Input Current ±10 mA Power Dissipationper Package 200 mW
Power Dissipationper Output Transistor 100 mW
Top Operating Temperature -55to +125 °C
Tstg Storage Temperature -65to +150 °C
Symbol Parameter Value UnitVDD Supply Voltage 3to20 V Input Voltage 0toVDD V
Top Operating Temperature -55to125 °C
Symbol Parameter
Test Condition Value
UnitVI
(V)
VDD
(V)A =25°C -40to 85°C -55to 125°C
Min. Typ. Max. Min. Max. Min. Max. Quiescent Device
Current(all
switchesONorall
switches OFF)
0/5 5 0.01 0.25 7.5 7.50/10 10 0.01 0.5 15 15
0/15 15 0.01 1 30 30
0/20 20 0.02 5 150 150
SIGNAL INPUTS (VIS)and OUTPUTS (VOS)RON Resistance VC=VDDRL= 10KΩ
Returnto (VDD-VSS)/2
VIS =VSStoVDD 470 1050 1200 120010 180 400 500 500 125 240 300 300
ΔON Resistance ΔRON
(betweenany2of switches)= 10KΩ,VC =VDD10 10 15
TDH Total Harmonic
Distortion =VDD =5V,VSS=-5V
VIS (p-p)=5V,RL= 10KΩ
(sine wave centeredin0V)
fIS= 1KHzsine wave
0.4 %
-3dB Cutoff
Frequency (Switch
on) =VDD =5V,VSS=-5V
VIS (p-p)=5V,RL =1KΩ
(sine wave centeredin0V) MHz
-50dB Feedthrough
Frequency (switch
off) =VSS=-5V
VIS (p-p)=5V,RL =1KΩ
(sine wave centeredin0V)
1MHz
HCF4066B4/9
-50dB Crosstalk
Frequency
VC(A) =VDD= +5V
VC(B) =VSS =-5V
VIS(A)=5V (p-p)
50Ω source,RL =1KΩ
8MHz
tpd Propagation Delay
Time (signal input output)= 200KΩ, VC =VDD
VSS= GND,CL= 50pF
VIS=10V
square wave centeredon5V
tr,tf= 20ns 40 20
CIS Input Capacitance =VSS=-5 +5COS Output
Capacitance 8
CIOS Feedthrough 0.5
Input/Output
Leakage Current
Switch OFFC =0V
VIS= 18V,VOS =0V
VIS =0V,VOS=18V ±10-3 ±0.1 ±1 ±1 μA
CONTROL (VC)VILC Control InputLow
Voltage IIS<10μAIS=VSS,VOS=VDD
and
VIS =VDD,VOS =VSS 1 110 2 2 2 2 2 2IHC Control Input High
Voltage 3.5 3.5 3.510 7 7 7 11 11 11 Input Leakage
Current
VIS
VDD -VSS=18V 18 ±10-5 ±0.1 ±1 ±1 μA
Crosstalk (control
inputto signal
output)C=10V(sq. wave)
tr,tf= 20ns= 10KΩ 50 mV
Turn-On
Propagation Delay
Time
VIN =VDD,tr,tf= 20ns= 50pF,RL =1KΩ
535 7010 20 40 15 30
Control Input
Repetition Rate
VIS=VDD,VSS=GND =1KΩ to GNDL= 50pF,VC=10V
sq. wave center on5V
tr,tf= 20ns
VOS=1/2VOSat 1KHz
MHz 9 9.5 Input Capacitance Any Input 5 7.5 pF
Symbol Parameter
Test Condition Value
UnitVI
(V)
VDD
(V) =25°C -40to 85°C -55to 125°C
Min. Typ. Max. Min. Max. Min. Max.
HCF4066B
5/9
TYPICAL APPLICATIONS (BIDIRECTIONAL SIGNAL TRANSMISSION VIA DIGITAL CONTROL
LOGIC)
TYPICAL APPLICATIONS (4-CHANNEL PAM MULTIPLEXER SYSTEM DIAGRAM)
HCF4066B
6/9
TEST CIRCUIT=50pFor equivalent (includesjigand probe capacitance)= 200KΩ=ZOUTof pulse generator (typically50Ω)
WAVEFORM: PROPAGATION DELAY TIMES (f=1MHz; 50% duty cycle)