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HCC4053BSTN/a1avaiANALOG MULTIPLEXERS-DEMULTIPLEXERS
HCF4052BFSTN/a88avaiANALOG MULTIPLEXERS-DEMULTIPLEXERS


HCF4052BF ,ANALOG MULTIPLEXERS-DEMULTIPLEXERSHCC4051B/52B/53BHCF4051B/52B/53BANALOG MULTIPLEXERS-DEMULTIPLEXERS4051B - SINGLE 8-CHANNEL4052B - D ..
HCF4052BM1 ,DIFFERENTIAL 4 CHANNLE ANALOG MULTIPLEXER DEMULTIPLEXERHCF4052BDIFFERENT 4-CHANNELANALOG MULTIPLEXER/DEMULTIPLEXER■ LOW "ON" RESISTANCE : 125Ω (Typ.)OVER ..
HCF4052M013TR ,DIFFERENTIAL 4 CHANNLE ANALOG MULTIPLEXER DEMULTIPLEXERHCF4052BDIFFERENT 4-CHANNELANALOG MULTIPLEXER/DEMULTIPLEXER■ LOW "ON" RESISTANCE : 125Ω (Typ.)OVER ..
HCF4053 ,TRIPLE 2 CHANNLE ANALOG MULTIPLEXERS DEMULTIPLEXERSHCF4053BTRIPLE 2-CHANNELANALOG MULTIPLEXER/DEMULTIPLEXER■ LOW "ON" RESISTANCE : 125Ω (Typ.)OVER 15V ..
HCF4053BEY ,TRIPLE 2 CHANNLE ANALOG MULTIPLEXERS DEMULTIPLEXERSAbsolute Maximum Ratings are those values beyond which damage to the device may occur. Functional o ..
HCF4053BM1 ,TRIPLE 2 CHANNLE ANALOG MULTIPLEXERS DEMULTIPLEXERSAbsolute Maximum Ratings are those values beyond which damage to the device may occur. Functional o ..
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HCC4053B-HCF4052BF
ANALOG MULTIPLEXERS-DEMULTIPLEXERS
C4051B/52B/53B F4051B/52B/53 BANALOG MULTIPLEXERS-DEMULTIPLEXERS QUIESCENT CURRENT SPECIFIED TO 20V
FOR HCC DEVICE. LOW ”ON” RESISTANCE: 125Ω (typ.) OVER
15V p.p. SIGNAL-INPUT RANGE FOR VDD-
VEE= 15V. HIGH ”OFF” RESISTANCE: CHANNEL LEAK-
AGE± 100pA (typ.) VDD –VEE= 18V. BINARY ADDRESS DECODING ON CHIP. VERY LOW QUIESCENT POWER DISSIPA-
TION UNDER ALL DIGITAL CONTROL INPUT
AND SUPPLY CONDITIONS: 0.2 μW (typ.),
VDD –VSS =VDD –VEE= 10V. MATCHED SWITCH CHARACTERISTICS:
RON =5Ω (typ.)for VDD –VEE= 15V. WIDE RANGE OF DIGITALAND ANALOG SIG-
NAL LEVELS: DIGITAL3 TO 20V, ANALOG TO
20V p.p.. 5V, 10V, AND 15V PARAMETRIC RATINGS. INPUT CURRENT OF 100mA AT 18V AND
25°C FOR HCC DEVICE. 100% TESTED FOR QUIESCENT CURRENT. MEETS ALLREQUIREMENTS OF JEDECTEN-
TATIVE STANDARD No 13A, ”STANDARD
SPECIFICATIONS FOR DESCRIPTION OF ”B”
SERIES CMOS DEVICES”
4051B- SINGLE 8-CHANNEL
4052B- DIFFERENTIAL 4-CHANNEL
4053B- TRIPLE 2-CHANNEL

The HCC4051B,4052B and 4053B(extendedtem-
perature range) and HCF4051B, 4052B and 4053B
(intermediate temperature range) are monolithicin-
tegrated circuits, availablein 16-lead dual in-line
plasticor ceramic package and plastic micropack-
age. HCC/HCF4051B, HCC/HCF4052B, and
HCC/HCF4053B
analog multiplexers/demulti-
plexers are digitally controlled analog switches hav-
ing low ON impedance and very low OFF leakage
PIN CONNECTIONS

(Plastic Package)
(Ceramic FritSeal Package)
(Micro Package)
(Plastic Chip Carrier)
ORDERCODES:

HCC40XXBF HCF40XXBM1
HCF40XXBEY HCF40XXBC1
4051B 4052B 4053B
DESCRIPTION
FUNCTIONAL DIAGRAMS AND TRUTH TABLES
current. These multiplexer circuits dissipate ex-
tremely low quiescent power over the full VDD –VSS
and VDD –VEE supply-voltage ranges, independent thelogic stateof the control signals. Whena-logic
”1”is presentat the inhibit input terminalall channel
are off. The HCC/HCF4051Bisa single 8-channel
multiplexer having three binary control inputs,A,B,
andC, andan inhibit input. The three binary signals
select1of8 channelstobe turned on, and connect
one of the 8 inputs to the output. The
HCC/HCF4052B
isa differential 4-channel multi-
plexer having two binary control inputs,A andB, and inhibit input. The two binary input signals selectof4 pairsof channelstobe turnedon and connect
the analog inputs to the outputs. The
HCC/HCF4053B
isa triple 2-channel multiplexer
having three separate digital control inputs,A,B,
andC, andan inhibit input. Each control input se-
lects oneofa pairof channels which are connecteda singlepole double-throw configuration.
Input States
Inhibit CBA
”On” Channel
(S)00 001 110 211 300 401 510 611 7 XXX None
4052B
Inhibit B A
0 0 0x,0y 0 1 1x,1y 1 0 2x,2y 1 1 3x,3y X X None
4051B
HCC/HCF4051B/52B/53B
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Value Unit

VDD* Supply Voltage :HCC Types
HCF
Types 0.5to+20 0.5to+18 Input Voltage – 0.5to VDD+ 0.5 V DC Input Current (any one input) ±10 mA
Ptot Total Power Dissipation (per package)
Dissipation per Output Transistor
for Top= Full Package-temperature Range
Top Operating Temperature: HCC Types
HCF
Types55to+ 125
–40to+85
Tstg Storage Temperature –65to+ 150 °C
RECOMMENDED OPERATING CONDITIONS
Symbol Parameter Value Unit

VDD Supply Voltage :HCC Types
HCF
Types
3to18
3to15 Input Voltage 0to VDD V
Stresses above those listed under ”Absolute Maximum Ratings” may cause permanent damageto the device. Thisisa stress
rating only and functional operationofthe deviceat theseor any other conditions above those indicatedinthe operational sec-
tionsof this specificationisnot implied. Exposureto absolute maximum rating conditionsfor external periods may affect device
reliability.All voltage values are referredto VSSpin voltage.
Inhibit AorBC
0 axorbxorcx 1 ayorbyorcy X None
FUNCTIONAL DIAGRAMS AND TRUTH TABLES
(continued)
4053
= Don’t care.
HCC/HCF4051B/52B/53B
STATIC ELECTRICAL CHARACTERISTICS (over recommended operating conditions)
Test Conditions Value
VIS VEE VSS VDD TLow* 25
°CTHigh*Symbol Parameter
(V) (V) (V) (V) Min. Max. Min. Typ. Max. Min. Max.
Unit
Quiescent
Device
Current
HCC
Types 5 0.04 5 150 10 0.04 10 300 20 0.04 20 600 100 0.08 100 3000
HCF
Types 20 0.04 20 150 40 0.04 40 300 80 0.04 80 600
SWITCH
Resistance HCC
Types≤VI VDD 00 880 470 1050 1200 310 180 400 580 220 125 280 400
HCF
Types≤VI VDD 00 880 470 1050 1200 330 180 400 520 230 125 280 360
ΔON Resistance ΔRON
(between any2
channels)
51010 10 5
OFF(•)
Channel
Leakage
Current
Any
Channel
OFF
HCC
Types 0 0 18 100 ± 0.1 100 1000 nA
All
Channels
OFF
(common
OUT/IN)
HCC
Types 0 0 18 100 ± 0.1 100 1000 nA
Any
Channel
OFF
HCF
Types 0 0 15 300 ± 0.1 300 1000 nA
All
Channels
OFF
(common
OUT/IN)
HCF
Types 0 0 15 300 ± 0.1 300 1000 nA
Capaci-
tance
Input 5Output 4051 –5 5
Output 4052 18
Output 4053 9
Feedthrough 0.2
CONTROL
(Addressor Inhibit)
VIL Input Low Voltage= VDD
Thru
1KΩ
VEE =VSS =1KΩ VSS
IIS <2μA
(onalloff
channels) 1.5 1.5 1.510 3 3 3 4 4 4
VIH Input High Voltage 3.5 3.5 3.510 7 7 7 11 11 11
IIH,IIL Input
Leakage
Current
HCC
Types= 0/18V 18 ± 0.1 ±10–3± 0.1 ±1HCF
Types= 0/15V 15 ± 0.3 ±10–3± 0.3 ±1 Input Capacitance Any Addressor Inhibit
Input 7.5 pF
(•) Determinedby minimum feasible leakage measurementfor automatic testing.
(*) TLow =– 55°Cfor HCC device:– 40°Cfor HCF device.
(*) THigh=+ 125°Cfor HCC device:+ 85°Cfor HCF device.
HCC/HCF4051B/52B/53B
DYNAMIC ELECTRICAL CHARACTERISTICS
(Tamb =25°C,CL= 50pFall input square wave rise and fall time= 20ns)
Test Conditions Value
Parameter VEE

(V)
(kΩ)i
(kHz)
VIS

(V)
VSS

(V)
VDD

(V) Typ. Max. Unit
SWITCH

tpd Propagation Delay Time
(signal inputto output) 200V__
530 3010 15 60 11 20
Frequency Response
Channel ”ON” (sine wave
input)
=VSS 15 (•)10 Voat Common
OUT/IN
4053B 30
MHz4052B 25
4051B 20Voat20 Log =– 3dB__ Voat any Channel 60
Feedthrough (all channels
OFF)
=VSS 15 (•)10 Voat Common
OUT/IN
4053 8
MHz4052 10
4051 12Voat20 Log =– 40dB__ Voat any Channel 8
Frequency Signal Crosstalk Between any2 Channels 3at20 Log =– 40dB__
=VSS 15(•) 10 Between Sections
4052B only
measured
common
MHz
MHz
measured any
channel
Between any2
Sections 4053B
onlyPin2
outPin14
2.5Pin15
outPin14
Sine Wave Distortion
fis= 1kHz Sine Wave
=VSS 10 1 2(•) 5 0.310 1 3(•) 10 0.2 1 5(•) 15 0.12
CONTROL
(Addressor Inhibit)
Progation Delay Time:
Address-to Signal OUT
Channels ONor OFF 0 5 360 7200 0 10 160 320 0 15 120 240 0 5 225 450
Propagation Delay Time:
Inhibitto Signal OUT
(channel turning ON) 360 7200 0 10 160 320 0 15 120 24010 0 5 200 400
Propagation Delay Time:
Inhibitto Signal OUT
(channel turning OFF)
0.3 200 450010 90 210
015 70 160
–10 5 130 300
Addressor Inhibitto Signal
Crosstalk 0 10* 0 10 VC =VDD–VSS (square
wave) 65 mV
peak
(•) Peakto peak voltage symmetrical about VDD-VEE
(*) Both endsof channel.
HCC/HCF4051B/52B/53B
Typical Channel ON Resistance vs. Input Signal
Voltage (all types).
Typical Channel ON Resistance vs. Input Signal
Voltage (all types).
Typical Channel ON Resistance vs. Input Signal
Voltage (all types).
Typical Channel ON Resistance vs. Input Signal
Voltage (all types).
Typical Dynamic Power Dissipation/Package vs. Switching Frequency and Test Circuit (4051B).
HCC/HCF4051B/52B/53B
Typical ON Characteristics for1of8 Channels
(4051B).
Typical DynamicPower Dissipation/Package vs. Switching Frequency and Test Circuit (4052B).
Typical DynamicPower Dissipation/Package vs. Switching Frequency and Test Circuit (4053B).
HCC/HCF4051B/52B/53B
Channel Being Turned ON (RL= 10KΩ). Channel Being Turned OFF (RL= 300KΩ).
TYPICAL BIAS VOLTAGES

Fig.(a) Fig. (b) Fig.(c) Fig. (d)
The ADDRESS (digital-control inputs) and INHIBIT logic levels are: ”0”=VSS and ”1”=VDD. The analog signal (trough the TG)
may swing from VEEto VDD.
WAVEFORMS
HCC/HCF4051B/52B/53B
TYPICAL APPLICATIONS
TYPICAL TIME-DIVISION APPLICATION OF THE 4052B
Controlof analog signalsupto 20V peak-to-peak
canbe achievedby digital signal amplitudesof 4.5 20V(if VDD –VSS= 3V,a VDD –VEEofupto 13V
canbe controlled; for VDD –VEE level differences
above 13V,a VDD –VSS ofat least 4.5Vis required).
For example,if VDD=+ 5V, VSS=0, and VEE=
–13.5V, analog signals from– 13.5Vto+ 4.5V can controlledby digital inputsof0to 4.5V.In certain
applications, the external load-resistor current may
include both VDD and signal-line components. To
avoid drawing VDD current when switch current
flows into the transmission gate inputs, the voltage
drop acrossthe bidirectional switchmustnot exceed
0,8 volt (valvulated from RON values shownin
ELECTRICAL CHARACTERISTICS CHART). No
VDD current will flow throughRLif the switch current
flows into lead3on theHCC/HCF4051; leads3 and on the HCC/HCF4052; leads4, 14, and15on
the HCC/HCF4053.
SPECIAL CONSIDERATIONS
HCC/HCF4051B/52B/53B
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