M74HC4053
TRIPLE 2-CHANNEL
ANALOG MULTIPLEXER/DEMULTIPLEXER
■
■
■
■
■
■
■
■
■
■
■
LOW POWER DISSIPATION:
ICC = 4µA(MAX.) at TA=25°C
LOGIC LEVEL TRANSLATION TO ENABLE
5V LOGIC SIGNAL TO COMMUNICATE
WITH ±5V ANALOG SIGNAL
LOW "ON" RESISTANCE:
70Ω TYP. (VCC - VEE = 4.5V)
50Ω TYP. (VCC - VEE = 9V)
WIDE ANALOG INPUT VOLTAGE RANGE:
±6V
FAST SWITCHING:
tpd = 15ns (TYP.) at TA = 25 °C
LOW CROSSTALK BETWEEN SWITCHES
HIGH ON/OFF OUTPUT VOLTAGE RATIO
WIDE OPERATING SUPPLY VOLTAGE
RANGE (VCC - VEE) = 2V TO 12V
LOW SINE WAVE DISTORTION:
0.02% at VCC - VEE = 9V
HIGH NOISE IMMUNITY:
VNIH = VNIL = 28% VCC (MIN.)
PIN AND FUNCTION COMPATIBLE WITH
74 SERIES 4053
DIP
PACKAGE
TUBE
DIP
SOP
TSSOP
M74HC4053B1R
M74HC4053M1R
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DESCRIPTION
The M74HC4053 is a triple two-channel analog
MULTIPLEXER/DEMULTIPLEXER
fabricated
with silicon gate C2MOS technology and it is pin to
pin compatible with the equivalent metal gate
CMOS4000B series.
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ORDER CODES
T&R
M74HC4053RM13TR
M74HC4053TTR
It contains 6 bidirectional and digitally controlled
analog switches.
A built-in level shifting is included to allow an input
range up to ±6V (peak) for an analog signal with
digital control signal of 0 to 6V.
VEE supply pin is provided for analog input
signals. It has an inhibit (INH) input terminal to
disable all the switches when high. For operation
as a digital multiplexer/demultiplexer, VEE is
connected to GND.
A, B and C control inputs select one of a pair of
channels.
All inputs are equipped with protection circuits
against static discharge and transient excess
voltage.
)
(s
t
c
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)
s
(
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SOP
PIN CONNECTION AND IEC LOGIC SYMBOLS
May 2004
Rev. 3
1/15
M74HC4053
Figure 1: Control Input Equivalent Circuit
Table 1: Pin Description
Figure 2: I/O Equivalent Circuit
PIN N°
SYMBOL
2, 1
bx, by
5, 3
cx, cy
6
7
INH
VEE
11, 10, 9
12, 13
A, B, C
ax, ay
14, 15, 4
8
16
ax to cy
GND
VCC
NAME AND FUNCTION
Independent Input Outputs
Independent Input Outputs
INHIBIT Input
Negative Supply Voltage
Select Inputs
Independent Input Outputs
Common Output/Input
Ground (0V)
)
s
(
ct
Positive Supply Voltage
u
d
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Table 2: Truth Table
r
P
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INPUT STATE
ON CHANNEL
INH
A or B or C
L
L
H
L
H
X
s
b
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X: Don’t care
)
(s
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c
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Figure 3: Functional Diagram
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2/15
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ax or bx or cx
ay or by or cy
NONE
M74HC4053
Table 3: Absolute Maximum Ratings
Symbol
Parameter
VCC
Supply Voltage
VCC - VEE
Supply Voltage
VI
Control Input Voltage
Value
Unit
-0.5 to +7
V
-0.5 to +13
V
-0.5 to VCC + 0.5
VEE -0.5 to VCC + 0.5
V
VI/O
Switch I/O Voltage
ICK
Control Input Diode Current
± 20
mA
IIOK
I/O Diode Current
± 20
mA
Switch Through Current
± 25
mA
IT
± 50
ICC or IGND DC VCC or Ground Current
PD
Power Dissipation
Tstg
Storage Temperature
TL
Lead Temperature (10 sec)
V
)
s
(
ct
mA
500(*)
mW
-65 to +150
°C
du
300
°C
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P
Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is
not implied
(*) 500mW at 65 °C; derate to 300mW by 10mW/°C from 65°C to 85°C
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Table 4: Recommended Operating Conditions
Symbol
Parameter
VCC
Supply Voltage
VEE
Supply Voltage
O
)
VCC - VEE Supply Voltage
VI
Input Voltage
VI/O
I/O Voltage
Top
Operating Temperature
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Input Rise and Fall Time
tr, tf
bs
Pr
Value
Unit
2 to 6
V
-6 to 0
V
2 to 12
V
0 to VCC
V
VEE to VCC
V
-55 to 125
°C
VCC = 2.0V
0 to 1000
VCC = 4.5V
0 to 500
VCC = 6.0V
0 to 400
ns
s
b
O
3/15
M74HC4053
Table 5: DC Specifications
Test Condition
Symbol
VIHC
VILC
RON
∆RON
IOFF
IIZ
II
ICC
Parameter
VCC
(V)
High Level Input
Voltage
Low Level Input
Voltage
ON Resistance
Difference of ON
Resistance
between switches
Input/Output
Leakage Current
(SWITCH OFF)
Switch Input
Leakage Current
(SWITCH ON,
OUTPUT OPEN)
Input Leakage
Current
Quiescent Supply
Current
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4/15
GND
-4.5
-6.0
GND
GND
-4.5
-6.0
GND
-4.5
-6.0
GND
VI = VIHC or VILC
VI/O = VCC to VEE
II/O ≤ 2mA
VI = VIHC or VILC
VI/O = VCC or VEE
II/O ≤ 2mA
VI = VIHC or VILC
VI/O = VCC or VEE
II/O ≤ 2mA
VOS = VCC or
GND
-6.0 VIS = GND or VCC
VI = VILC or VIHC
Typ. Max. Min. Max.
85
55
50
150
70
50
45
10
5
5
0.5
1.35
1.8
180
120
100
150
100
80
30
12
10
±0.06
± 0.1
s
b
O
1.5
3.15
4.2
0.5
1.35
1.8
225
150
125
190
125
100
35
15
12
± 0.6
±1
V
0.5
1.35
1.8
270
180
150
230
150
120
45
18
15
± 1.2
±2
± 0.6
±1
± 1.2
±2
GND VI = VCC or GND
± 0.1
± 0.1
±1
GND
VI = VCC or GND
-6.0
4
8
40
80
80
160
6.0
-6.0
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Unit
Max.
±0.06
± 0.1
GND
6.0
)
(s
1.5
3.15
4.2
Min.
VOS = VCC or
GND
VI = VIHC or VILC
6.0
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Min.
-40 to 85°C -55 to 125°C
1.5
3.15
4.2
6.0
6.0
6.0
TA = 25°C
VEE
(V)
2.0
4.5
6.0
2.0
4.5
6.0
4.5
4.5
6.0
2.0
4.5
4.5
6.0
4.5
4.5
6.0
6.0
Value
Ω
Ω
µA
µA
µA
µA
M74HC4053
Table 6: AC Electrical Characteristics (CL = 50 pF, Input tr = tf = 6ns)
Test Condition
Symbol
ΦI/O
Parameter
Phase Difference
Between Input and
Output
tPZL
tPZH
Output Enable
Time
tPLZ
tPHZ
Output Disable
Time
VCC
(V)
VEE
(V)
2.0
4.5
6.0
4.5
2.0
4.5
6.0
4.5
2.0
4.5
6.0
4.5
GND
GND
GND
-4.5
GND
GND
GND
-4.5
GND
GND
GND
-4.5
Value
TA = 25°C
Min.
Typ. Max. Min. Max.
25
6
5
4
50
14
12
14
95
30
26
26
RL = 1KΩ
RL = 1KΩ
-40 to 85°C -55 to 125°C
75
15
13
90
18
15
225
45
38
280
56
48
340
68
58
225
45
38
280
56
48
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Value
10
pF
11
20
20
20
pF
7
15
15
15
pF
-5.0
0.75
2
2
2
pF
GND
67
Input Capacitance
5.0
CI/O
Common Terminal
Capacitance
Switch Terminal
Capacitance
Feed Through
Capacitance
Power Dissipation
Capacitance
(note 1)
5.0
-5.0
5.0
-5.0
5.0
ro
5.0
ns
10
CIN
TA = 25°C
VEE
(V)
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340
68
58
10
VCC
(V)
CPD
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)
s
(
ct
ns
5
Parameter
CIOS
ns
s
b
O
Symbol
CI/O
Max.
60
12
10
Table 7: Capacitive Characteristics
Test Condition
Min.
Unit
Min.
du
s
(
t
c
)-
-40 to 85°C -55 to 125°C
Typ. Max. Min. Max.
Min.
Unit
Max.
pF
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1) CPD is defined as the value of the IC’s internal equivalent capacitance which is calculated from the operating current consumption without
load. (Refer to Test Circuit). Average operating current can be obtained by the following equation. ICC(opr) = CPD x VCC x fIN + ICC
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5/15
M74HC4053
Table 8: Analog Switch Characteristics (GND = 0V;TA = 25°C)
Symbol
Parameter
Test Condition
Sine Wave
Distortion
fMAX
Frequency
Response
(Switch ON) (*)
fMAX
Frequency
Response
(Switch ON) (**)
Feed through
Attenuation
(Switch OFF)
Crosstalk (Control
Input to Signal
Output)
Crosstalk
(between any two
Switches)
VCC
(V)
VEE
(V)
VIN
(Vp-p)
2.25
4.5
6.0
2.25
4.5
6.0
2.25
4.5
6.0
2.25
4.5
6.0
2.25
4.5
6.0
2.25
4.5
6.0
-2.25
-4.5
-6.0
-2.25
-4.5
-6.0
-2.25
-4.5
-6.0
-2.25
-4.5
-6.0
-2.25
-4.5
-6.0
-2.25
-4.5
-6.0
4
8
11
Typ.
fIN = 1 KHz RL = 10 KΩ, CL = 50 pF
Adjust fIN voltage to obtain 0 dBm at VOS.
Increase fIN Frequency until dB meter reads -3dB
RL = 50Ω, CL = 10 pF, fIN = 1KHz sine wave
Adjust fIN voltage to obtain 0 dBm at VOS.
Increase fIN Frequency until dB meter reads -3dB
RL = 50Ω, CL = 10 pF, fIN = 1KHz sine wave
VIN is centered at (VCC - VEE)/2
Adjust input for 0 dBm
RL = 600Ω, CL = 50 pF, fIN = 1KHz sine wave
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Adjust VIN to obtain 0dBm at input
RL = 600Ω, CL = 50 pF, fIN = 1KHz sine wave
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6/15
s
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0.025
0.020
%
0.018
120
190 MHz
200
95
150 MHz
190
-50
-50
dB
-50
60
140
mV
200
-50
-50
dB
-50
)
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(
ct
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Adjust RL at set up so that IS = 0A.
RL = 600Ω, CL = 50 pF, fIN = 1KHz square wave
(*) Input COMMON Terminal, and measured at SWITCH Terminal
(**) Input SWITCH Terminal, and measured at common Terminal
NOTE: These characteristics are determined by the design of the device.
P
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Value Unit
M74HC4053
Figure 4: Switching Characteristics Test Circuit
CROSSTALK (control to output)
)
s
(
ct
u
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BANDWIDTH AND FEEDTHROUGH ATTENUATION
r
P
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CROSSTALK BETWEEN ANY TWO SWITCHES
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7/15
M74HC4053
Figure 5: Switching Characteristics Waveform
)
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)
(s
s
b
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t
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Figure 6: Channel Resistance (RON)
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8/15
Figure 7: ICC (Opr.)
M74HC4053
Plastic DIP-16 (0.25) MECHANICAL DATA
mm.
inch
DIM.
MIN.
a1
0.51
B
0.77
TYP
MAX.
MIN.
TYP.
MAX.
0.020
1.65
0.030
0.065
b
0.5
0.020
b1
0.25
0.010
D
20
E
8.5
e
2.54
e3
17.78
r
P
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0.100
7.1
I
5.1
L
u
d
o
0.335
F
Z
1.27
s
(
t
c
t
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l
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bs
O
)
3.3
)
s
(
ct
0.787
0.700
0.280
0.201
0.130
0.050
u
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b
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P001C
9/15
M74HC4053
SO-16 MECHANICAL DATA
mm.
DIM.
MIN.
inch
TYP
MAX.
A
MIN.
TYP.
a1
1.75
MAX.
0.1
0.068
0.2
a2
0.004
0.008
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
c1
45˚ (typ.)
D
9.8
E
5.8
e
1.27
e3
8.89
10
0.385
6.2
0.228
u
d
o
0.393
Pr
0.050
ete
0.244
0.350
F
3.8
4.0
G
4.6
5.3
L
0.5
1.27
M
0.62
S
)
s
(
ct
0.019
ol
0.149
0.019
)
(s
8
s
b
O
0.181
0.157
0.208
0.050
0.024
˚ (max.)
t
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PO13H
10/15
M74HC4053
TSSOP16 MECHANICAL DATA
mm.
inch
DIM.
MIN.
TYP
A
MAX.
MIN.
TYP.
MAX.
1.2
A1
0.05
A2
0.8
b
0.047
0.15
0.002
0.004
0.006
1.05
0.031
0.039
0.041
0.19
0.30
0.007
c
0.09
0.20
0.004
D
4.9
5
5.1
0.193
E
6.2
6.4
6.6
0.244
E1
4.3
4.4
4.48
0.169
1
e
K
0˚
L
0.45
0.75
s
(
t
c
0.201
r
P
e
0.252
0.260
0.173
0.176
0.0256 BSC
0˚
8˚
0.018
0.024
0.030
u
d
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P
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A2
A
O
)
0.60
0.197
bs
8˚
u
d
o
0.0079
t
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0.65 BSC
)
s
(
ct
0.012
let
A1
o
s
b
b
O
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K
c
L
E
D
E1
PIN 1 IDENTIFICATION
1
0080338D
11/15
M74HC4053
Tape & Reel SO-16 MECHANICAL DATA
mm.
inch
DIM.
MIN.
TYP
MAX.
A
TYP.
MAX.
330
13.2
12.992
C
12.8
D
20.2
0.795
N
60
2.362
T
0.504
0.519
)
s
(
ct
22.4
0.882
Ao
6.45
6.65
0.254
Bo
10.3
10.5
0.406
Ko
2.1
2.3
0.082
Po
3.9
4.1
0.153
P
7.9
8.1
0.311
)
(s
t
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s
b
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12/15
MIN.
0.262
ro
P
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let
so
b
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du
0.414
0.090
0.161
0.319
M74HC4053
Tape & Reel TSSOP16 MECHANICAL DATA
mm.
inch
DIM.
MIN.
TYP
MAX.
A
MIN.
TYP.
MAX.
330
13.2
12.992
C
12.8
D
20.2
0.795
N
60
2.362
T
0.504
0.519
)
s
(
ct
22.4
0.882
Ao
6.7
6.9
0.264
Bo
5.3
5.5
0.209
Ko
1.6
1.8
0.063
Po
3.9
4.1
0.153
P
7.9
8.1
0.311
)
(s
0.272
ro
P
e
let
so
b
O
du
0.217
0.071
0.161
0.319
t
c
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P
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s
b
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13/15
M74HC4053
Table 9: Revision History
Date
Revision
17-May-2004
3
Description of Changes
Typing Error Pin Connection - Page 1
)
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14/15
s
b
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M74HC4053
)
s
(
ct
u
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P
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)
(s
s
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Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the
consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from
its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications
mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information
previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or
systems without express written approval of STMicroelectronics.
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