STMicroelectronics HCC4053BEY Analog multiplexers-demultiplexer Datasheet

HCC4051B/52B/53B
HCF4051B/52B/53B
ANALOG MULTIPLEXERS-DEMULTIPLEXERS
4051B - SINGLE 8-CHANNEL
4052B - DIFFERENTIAL 4-CHANNEL
4053B - TRIPLE 2-CHANNEL
.
.
.
..
.
.
..
..
QUIESCENT CURRENT SPECIFIED TO 20V
FOR HCC DEVICE
LOW ”ON” RESISTANCE : 125Ω (typ.) OVER
15V p.p. SIGNAL-INPUT RANGE FOR VDDVEE = 15V
HIGH ”OFF” RESISTANCE : CHANNEL LEAKAGE ± 100pA (typ.) VDD – VEE = 18V
BINARY ADDRESS DECODING ON CHIP
VERY LOW QUIESCENT POWER DISSIPATION 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 DIGITAL AND ANALOG SIGNAL LEVELS : DIGITAL 3 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 ALL REQUIREMENTS OF JEDEC TENo
TATIVE STANDARD N 13A, ”STANDARD
SPECIFICATIONS FOR DESCRIPTION OF ”B”
SERIES CMOS DEVICES”
EY
(Plastic Package)
M1
(Micro Package)
F
(Ceramic Frit Seal Package)
C1
(Plastic Chip Carrier)
ORDER CODES :
HCC40XXBF
HCF40XXBM1
HCF40XXBEY
HCF40XXBC1
DESCRIPTION
The HCC 4051B, 4052B and 4053B (extended temperature range) and HCF4051B, 4052B and 4053B
(intermediate temperature range) are monolithic integrated circuits, available in 16-lead dual in-line
plastic or ceramic package and plastic micropackage. HCC/HCF4051B, HCC/HCF4052B, and
HCC/HCF4053B analog multiplexers/demultiplexers are digitally controlled analog switches having low ON impedance and very low OFF leakage
PIN CONNECTIONS
4051B
June 1989
4052B
4053B
1/17
HCC/HCF4051B/52B/53B
current. These multiplexer circuits dissipate extremely low quiescent power over the full VDD – VSS
and VDD – VEE supply-voltage ranges, independent
of the logic state of the control signals. When a-logic
”1” is present at the inhibit input terminal all channel
are off. The HCC/HCF4051B is a single 8-channel
multiplexer having three binary control inputs, A, B,
and C, and an inhibit input. The three binary signals
select 1 of 8 channels to be turned on, and connect
one of the 8 inputs to the output. The
HCC/HCF4052B is a differential 4-channel multi-
plexer having two binary control inputs, A and B, and
an inhibit input. The two binary input signals select
1 of 4 pairs of channels to be turned on and connect
the analog inputs to the outputs. The
HCC/HCF4053B is a triple 2-channel multiplexer
having three separate digital control inputs, A, B,
and C, and an inhibit input. Each control input selects one of a pair of channels which are connected
in a singlepole double-throw configuration.
FUNCTIONAL DIAGRAMS AND TRUTH TABLES
4051B
Input States
”On” Channel (S)
Inhibit
C
B
A
0
0
0
0
0
0
0
0
1
1
0
0
1
0
2
0
0
1
1
3
0
1
0
0
4
0
1
0
1
5
0
1
1
0
6
0
1
1
1
7
1
X
X
X
None
4052B
2/17
Inhibit
B
A
0
0
0
0x, 0y
0
0
1
1x, 1y
0
1
0
2x, 2y
0
1
1
3x, 3y
1
X
X
None
HCC/HCF4051B/52B/53B
FUNCTIONAL DIAGRAMS AND TRUTH TABLES (continued)
4053
Inhibit
A or B
or C
0
0
ax or bx or cx
0
1
ay or by or cy
1
X
None
X = Don’t care.
ABSOLUTE MAXIMUM RATINGS
Symbol
V DD*
Parameter
Supply Voltage : HC C Types
H C F Types
Vi
Input Voltage
II
Value
Unit
– 0.5 to + 20
– 0.5 to + 18
V
V
– 0.5 to V DD + 0.5
V
DC Input Current (any one input)
± 10
mA
Pt ot
Total Power Dissipation (per package)
Dissipation per Output Transistor
for T o p = Full Package-temperature Range
200
mW
100
mW
Top
Operating Temperature : HCC Types
H CF Types
– 55 to + 125
– 40 to + 85
°C
°C
Tstg
Storage Temperature
– 65 to + 150
°C
Stresses above those listed under ”Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress
rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for external periods may affect device
reliability.
* All voltage values are referred to VSS pin voltage.
RECOMMENDED OPERATING CONDITIONS
Symbol
V DD
VI
Top
Parameter
Supply Voltage : HC C Types
H C F Types
Input Voltage
Operating Temperature : H CC Types
H C F Types
Value
Unit
3 to 18
3 to 15
V
V
0 to V DD
V
– 55 to + 125
– 40 to + 85
°C
°C
3/17
HCC/HCF4051B/52B/53B
STATIC ELECTRICAL CHARACTERISTICS (over recommended operating conditions)
Symbol
IL
Parameter
Quiescent
Device
Current
HCC
Types
HCF
Types
SWITCH
ON
Resistance
HCC
Types
Test Conditions
V EE V SS V DD
V IS
(V)
(V)
(V)
(V)
5
10
15
20
5
10
15
0 ≤ VI
≤ V DD
0 ≤ VI
HCF
≤ V DD
Types
∆ON
Resistance ∆RON
(between any 2
channels)
OFF (•) Any
HCC
Channel Channel
Types
Leakage OFF
Current All
Channels
HCC
OFF
Types
(common
OUT/IN)
Any
HCF
Channel
Types
OFF
All
Channels
HCF
OFF
Types
(common
OUT/IN)
C
Input
Capaci- Output 4051
Output 4052
tance
Output 4053
Feedthrough
CONTROL (Address or Inhibit)
VIL
Input Low Voltage = V DD
Thru
1KΩ
VIH
IIH, IIL
CI
Input High Voltage
Input
Leakage
Current
Value
T Lo w*
2 5 °C
T High*
Min. Max. Min. Typ. Max. Min. Max.
5
0.04
5
150
10
0.04
10
300
20
0.04
20
600
100
0.08 100
3000
20
0.04
20
150
40
0.04
40
300
80
0.04
80
600
5
10
15
5
10
15
5
10
15
880
310
220
880
330
230
0
18
0
0
0
0
1050
400
280
1050
400
280
100
± 0.1
100
1000
nA
18
100
± 0.1
100
1000
nA
0
15
300
± 0.1
300
1000
nA
0
15
300
± 0.1
300
1000
nA
0
0
0
0
0
0
– 5
– 5
5
VEE = V SS
RL = 1KΩ
to V SS
IIS < 2µA
(on all off
channels)
VI = 0/18V
5
10
15
5
10
15
HCC
18
Types
HCF
VI = 0/15V
15
Types
Input Capacitance Any Address or Inhibit
Input
1.5
3
4
3.5
7
11
pF
1.5
3
4
3.5
7
11
1.5
3
4
3.5
7
11
±10–3 ± 0.1
± 1
± 0.3
±10–3 ± 0.3
± 1
7.5
V
V
± 0.1
5
Ω
Ω
5
30
18
9
0.2
( •) Determined by minimum feasible leakage measurement for automatic testing.
(*) TLow = – 55°C for HCC device : – 40°C for HCF device.
(*) THigh = + 125°C for HCC device : + 85°C for HCF device.
4/17
µA
470
180
125
470
180
125
10
10
5
0
1200
580
400
1200
520
360
Unit
µA
pF
HCC/HCF4051B/52B/53B
DYNAMIC ELECTRICAL CHARACTERISTICS
(T amb = 25°C, CL = 50pF all input square wave rise and fall time = 20ns)
Parameter
V EE R L
fi
V IS
(V) (kΩ) (kHz) (V)
SWITCH
t p d Propagation Delay Time
(signal input to output)
Frequency Response
Channel ”ON” (sine wave
input)
Vo
at 20 Log __ = – 3dB
VI
Feedthrough (all channels
OFF)
Vo
at 20 Log __ = – 40dB
VI
= VS S
200
10
__V
_I I_
1
5 (•)
5
10
15
10
V o at Common
OUT/IN
Value
Typ. Max.
4053B
4052B
4051B
V o at any Channel
= VS S
Frequency Signal Crosstalk
Vo
= VS S
at 20 Log __ = – 40dB
VI
1
5 (•)
1
= VS S 10
10
10
CONTROL (Address or Inhibit)
Progation Delay Time :
0
Address-to Signal OUT
0
Channels ON or OFF
0
– 5
Propagation Delay Time :
0
Inhibit to Signal OUT
0
10
(channel turning ON)
0
– 10
Propagation Delay Time :
0
Inhibit to Signal OUT
0
0.3
(channel turning OFF)
0
– 10
Address or Inhibit to Signal
0
10*
Crosstalk
Sine Wave Distortion
f i s = 1kHz Sine Wave
Test Conditions
V S S V DD
(V)
(V)
10
5 (•)
1
1
1
5
10
15
8
10
12
V o at any Channel
8
Between any 2 Channels
3
Between Sections measured 6
4052B only
on
common
measured 10
on any
channel
Between any 2
in Pin 2 2.5
Sections 4053B
out Pin 14
only
in Pin 15
6
out Pin 14
0.3
0.2
0.12
5
10
15
5
5
10
15
5
5
10
15
5
360
160
120
225
360
160
120
200
200
90
70
130
10
2 (•)
3 (•)
5 (•)
0
0
0
0
0
0
0
0
0
10
V o at Common
OUT/IN
30
15
11
30
25
20
60
30
60
20
65
ns
MHz
4053
4052
4051
V C = V DD –V SS (square
wave)
Unit
MHz
MHz
MHz
%
720
320
240
450
720
320
240
400
450
210
160
300
ns
ns
ns
mV
peak
( •) Peak to peak voltage symmetrical about VDD-VEE
2
(*) Both ends of channel.
5/17
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).
6/17
HCC/HCF4051B/52B/53B
Typical ON Characteristics for 1 of 8 Channels
(4051B).
Typical Dynamic Power Dissipation/Package vs. Switching Frequency and Test Circuit (4052B).
Typical Dynamic Power Dissipation/Package vs. Switching Frequency and Test Circuit (4053B).
7/17
HCC/HCF4051B/52B/53B
WAVEFORMS
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”=V DD . The analog signal (trough the TG)
may swing from VEE to VDD .
8/17
HCC/HCF4051B/52B/53B
TYPICAL APPLICATIONS
TYPICAL TIME-DIVISION APPLICATION OF THE 4052B
SPECIAL CONSIDERATIONS
Control of analog signals up to 20V peak-to-peak
can be achieved by digital signal amplitudes of 4.5
to 20V (if VDD – VSS = 3V, a VDD – VEE of up to 13V
can be controlled ; for VDD – VEE level differences
above 13V, a VDD – VSS of at least 4.5V is required).
For example, if VDD = + 5V, VSS = 0, and VEE =
–13.5V, analog signals from – 13.5V to + 4.5V can
be controlled by digital inputs of 0 to 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 across the bidirectional switch must not exceed
0,8 volt (valvulated from RON values shown in
ELECTRICAL CHARACTERISTICS CHART). No
VDD current will flow through RL if the switch current
flows into lead 3 on the HCC/HCF4051 ; leads 3 and
13 on the HCC/HCF4052 ; leads 4, 14, and 15 on
the HCC/HCF4053.
9/17
HCC/HCF4051B/52B/53B
TEST CIRCUITS
Off Channel Leakage Current-any Channel OFF.
4051
4052
4053
Off Channel Leakage Current-all Channel OFF.
4051
4052
4053
Propagation Delay-adress Input to Signal Output.
4051
10/17
4052
4053
HCC/HCF4051B/52B/53B
TEST CIRCUITS (continued)
Propagation Delay-Inhibit Input to Signal Output.
4051
4052
4053
Input Voltage.
4051
4052
Quiescent Device Current.
4051
4053
4053
Channel ON Resistance
Meaurement Circuit.
4052
11/17
HCC/HCF4051B/52B/53B
TEST CIRCUITS (continued)
Input Current.
4051 - 4053
Feedthrough (All Types).
4052
Crosstalk Betwen any two Channels (All Types).
12/17
Crosstalk Betweenn Duals or Triplets (4052-4053).
HCC/HCF4051B/52B/53B
Plastic DIP16 (0.25) MECHANICAL DATA
mm
DIM.
MIN.
a1
0.51
B
0.77
TYP.
inch
MAX.
MIN.
TYP.
MAX.
0.020
1.65
0.030
0.065
b
0.5
0.020
b1
0.25
0.010
D
20
0.787
E
8.5
0.335
e
2.54
0.100
e3
17.78
0.700
F
7.1
0.280
I
5.1
0.201
L
Z
3.3
0.130
1.27
0.050
P001C
13/17
HCC/HCF4051B/52B/53B
Ceramic DIP16/1 MECHANICAL DATA
mm
DIM.
MIN.
TYP.
inch
MAX.
MIN.
TYP.
MAX.
A
20
0.787
B
7
0.276
D
E
3.3
0.130
0.38
e3
0.015
17.78
0.700
F
2.29
2.79
0.090
0.110
G
0.4
0.55
0.016
0.022
H
1.17
1.52
0.046
0.060
L
0.22
0.31
0.009
0.012
M
0.51
1.27
0.020
0.050
N
P
Q
10.3
7.8
8.05
5.08
0.406
0.307
0.317
0.200
P053D
14/17
HCC/HCF4051B/52B/53B
SO16 (Narrow) MECHANICAL DATA
mm
DIM.
MIN.
TYP.
A
a1
inch
MAX.
MIN.
TYP.
1.75
0.1
0.068
0.2
a2
MAX.
0.004
0.007
1.65
0.064
b
0.35
0.46
0.013
0.018
b1
0.19
0.25
0.007
0.010
C
0.5
0.019
c1
45° (typ.)
D
9.8
E
5.8
10
0.385
6.2
0.228
0.393
0.244
e
1.27
0.050
e3
8.89
0.350
F
3.8
4.0
0.149
0.157
G
4.6
5.3
0.181
0.208
L
0.5
1.27
0.019
0.050
M
S
0.62
0.024
8° (max.)
P013H
15/17
HCC/HCF4051B/52B/53B
PLCC20 MECHANICAL DATA
mm
DIM.
MIN.
TYP.
inch
MAX.
MIN.
TYP.
MAX.
A
9.78
10.03
0.385
0.395
B
8.89
9.04
0.350
0.356
D
4.2
4.57
0.165
0.180
d1
2.54
0.100
d2
0.56
0.022
E
7.37
8.38
0.290
0.330
e
1.27
0.050
e3
5.08
0.200
F
0.38
0.015
G
0.101
0.004
M
1.27
0.050
M1
1.14
0.045
P027A
16/17
HCC/HCF4051B/52B/53B
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsability for the
consequences of use of such information nor for any infringement of patents or other rights of third parties which may results from its use. No
license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specifications mentioned
in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied.
SGS-THOMSON Microelectronics products are not authorized for use ascritical components in life support devices or systems without express
written approval of SGS-THOMSON Microelectonics.
 1994 SGS-THOMSON Microelectronics - All Rights Reserved
SGS-THOMSON Microelectronics GROUP OF COMPANIES
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17/17
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