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Электронный компонент: CD4066BMJ

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TL F 5665
CD4066BMCD4066BC
Quad
Bilateral
Switch
June 1992
CD4066BM CD4066BC Quad Bilateral Switch
General Description
The CD4066BM CD4066BC is a quad bilateral switch in-
tended for the transmission or multiplexing of analog or digi-
tal signals It is pin-for-pin compatible with CD4016BM
CD4016BC but has a much lower ``ON'' resistance and
``ON'' resistance is relatively constant over the input-signal
range
Features
Y
Wide supply voltage range
3V to 15V
Y
High noise immunity
0 45 V
DD
(typ )
Y
Wide range of digital and
g
7 5 V
PEAK
analog switching
Y
``ON'' resistance for 15V operation
80X
Y
Matched ``ON'' resistance
D
R
ON
e
5X (typ )
over 15V signal input
Y
``ON'' resistance flat over peak-to-peak signal range
Y
High ``ON'' ``OFF''
65 dB (typ )
output voltage ratio
f
is
e
10 kHz R
L
e
10 kX
Y
High degree linearity
0 1% distortion (typ )
High degree linearity
f
is
e
1 kHz V
is
e
5V
p-p
High degree linearity
V
DD
b
V
SS
e
10V R
L
e
10 kX
Y
Extremely low ``OFF''
0 1 nA (typ )
switch leakage
V
DD
b
V
SS
e
10V T
A
e
25 C
Y
Extremely high control input impedance
10
12
X
(typ )
Y
Low crosstalk
b
50 dB (typ )
between switches
f
is
e
0 9 MHz R
L
e
1 kX
Y
Frequency response switch ``ON''
40 MHz (typ )
Applications
Y
Analog signal switching multiplexing
Signal gating
Squelch control
Chopper
Modulator Demodulator
Commutating switch
Y
Digital signal switching multiplexing
Y
CMOS logic implementation
Y
Analog-to-digital digital-to-analog conversion
Y
Digital control of frequency impedance phase and an-
alog-signal-gain
Schematic and Connection Diagrams
TL F 5665 1
Dual-In-Line Package
Top View
Order Number CD4066B
C1995 National Semiconductor Corporation
RRD-B30M105 Printed in U S A
Absolute Maximum Ratings
(Notes 1
2)
If Military Aerospace specified devices are required
please contact the National Semiconductor Sales
Office Distributors for availability and specifications
Supply Voltage (V
DD
)
b
0 5V to
a
18V
Input Voltage (V
IN
)
b
0 5V to V
DD
a
0 5V
Storage Temperature Range (T
S
)
b
65 C to
a
150 C
Power Dissipation (P
D
)
Dual-In-Line
700 mW
Small Outline
500 mW
Lead Temperature (T
L
)
(Soldering 10 seconds)
300 C
Recommended Operating
Conditions
(Note 2)
Supply Voltage (V
DD
)
3V to 15V
Input Voltage (V
IN
)
0V to V
DD
Operating Temperature Range (T
A
)
CD4066BM
b
55 C to
a
125 C
CD4066BC
b
40 C to
a
85 C
DC Electrical Characteristics
CD4066BM (Note 2)
Symbol
Parameter
Conditions
b
55 C
a
25 C
a
125 C
Units
Min
Max
Min
Typ
Max
Min
Max
I
DD
Quiescent Device Current
V
DD
e
5V
0 25
0 01
0 25
7 5
m
A
V
DD
e
10V
0 5
0 01
0 5
15
m
A
V
DD
e
15V
1 0
0 01
1 0
30
m
A
SIGNAL INPUTS AND OUTPUTS
R
ON
``ON'' Resistance
R
L
e
10 kX to
V
DD
b
V
SS
2
V
C
e
V
DD
V
IS
e
V
SS
to V
DD
V
DD
e
5V
800
270
1050
1300
X
V
DD
e
10V
310
120
400
550
X
V
DD
e
15V
200
80
240
320
X
D
R
ON
D
``ON'' Resistance
R
L
e
10 kX to
V
DD
b
V
SS
2
Between any 2 of
V
C
e
V
DD
V
IS
e
V
SS
to V
DD
4 Switches
V
DD
e
10V
10
X
V
DD
e
15V
5
X
I
IS
Input or Output Leakage
V
C
e
0
g
50
g
0 1
g
50
g
500
nA
Switch ``OFF''
V
IS
e
15V and 0V
V
OS
e
0V and 15V
CONTROL INPUTS
V
ILC
Low Level Input Voltage
V
IS
e
V
SS
and V
DD
V
OS
e
V
DD
and V
SS
I
IS
e
g
10 mA
V
DD
e
5V
1 5
2 25
1 5
1 5
V
V
DD
e
10V
3 0
4 5
3 0
3 0
V
V
DD
e
15V
4 0
6 75
4 0
4 0
V
V
IHC
High Level Input Voltage
V
DD
e
5V
3 5
3 5
2 75
3 5
V
V
DD
e
10V (see note 6)
7 0
7 0
5 5
7 0
V
V
DD
e
15V
11 0
11 0
8 25
11 0
V
I
IN
Input Current
V
DD
b
V
SS
e
15V
g
0 1
g
10
b
5
g
0 1
g
1 0
m
A
V
DD
t
V
IS
t
V
SS
V
DD
t
V
C
t
V
SS
DC Electrical Characteristics
CD4066BC (Note 2)
Symbol
Parameter
Conditions
b
40 C
a
25 C
a
85 C
Units
Min
Max
Min
Typ
Max
Min
Max
I
DD
Quiescent Device Current
V
DD
e
5V
1 0
0 01
1 0
7 5
m
A
V
DD
e
10V
2 0
0 01
2 0
15
m
A
V
DD
e
15V
4 0
0 01
4 0
30
m
A
2
DC Electrical Characteristics
(Continued) CD4066BC (Note 2)
Symbol
Parameter
Conditions
b
40 C
a
25 C
a
85 C
Units
Min
Max
Min
Typ
Max
Min
Max
SIGNAL INPUTS AND OUTPUTS
R
ON
``ON'' Resistance
R
L
e
10 kX to
V
DD
b
V
SS
2
V
C
e
V
DD
V
SS
to V
DD
V
DD
e
5V
850
270
1050
1200
X
V
DD
e
10V
330
120
400
520
X
V
DD
e
15V
210
80
240
300
X
D
R
ON
D
``ON'' Resistance
R
L
e
10 kX to
V
DD
b
V
SS
2
Between Any 2 of
V
CC
e
V
DD
V
IS
e
V
SS
to V
DD
4 Switches
V
DD
e
10V
10
X
V
DD
e
15V
5
X
I
IS
Input or Output Leakage
V
C
e
0
g
50
g
0 1
g
50
g
200
nA
Switch ``OFF''
CONTROL INPUTS
V
ILC
Low Level Input Voltage
V
IS
e
V
SS
and V
DD
V
OS
e
V
DD
and V
SS
I
IS
e
g
10mA
V
DD
e
5V
1 5
2 25
1 5
1 5
V
V
DD
e
10V
3 0
4 5
3 0
3 0
V
V
DD
e
15V
4 0
6 75
4 0
4 0
V
V
IHC
High Level Input Voltage
V
DD
e
5V
3 5
3 5
2 75
3 5
V
V
DD
e
10V (See note 6)
7 0
7 0
5 5
7 0
V
V
DD
e
15V
11 0
11 0
8 25
11 0
V
I
IN
Input Current
V
DD
b
V
SS
e
15V
g
0 3
g
10
b
5
g
0 3
g
1 0
m
A
V
DD
t
V
IS
t
V
SS
V
DD
t
V
C
t
V
SS
AC Electrical Characteristics
T
A
e
25 C t
r
e
t
f
e
20 ns and V
SS
e
0V unless otherwise noted
Symbol
Parameter
Conditions
Min
Typ
Max
Units
t
PHL
t
PLH
Propagation Delay Time Signal
V
C
e
V
DD
C
L
e
50 pF (
Figure 1 )
Input to Signal Output
R
L
e
200k
V
DD
e
5V
25
55
ns
V
DD
e
10V
15
35
ns
V
DD
e
15V
10
25
ns
t
PZH
t
PZL
Propagation Delay Time
R
L
e
1 0 kX C
L
e
50 pF (
Figures 2 and 3 )
Control Input to Signal
V
DD
e
5V
125
ns
Output High Impedance to
V
DD
e
10V
60
ns
Logical Level
V
DD
e
15V
50
ns
t
PHZ
t
PLZ
Propagation Delay Time
R
L
e
1 0 kX C
L
e
50 pF (
Figures 2 and 3 )
Control Input to Signal
V
DD
e
5V
125
ns
Output Logical Level to
V
DD
e
10V
60
ns
High Impedance
V
DD
e
15V
50
ns
Sine Wave Distortion
V
C
e
V
DD
e
5V V
SS
e b
5V
0 1
%
R
L
e
10 kX V
IS
e
5V
p-p
f
e
1 kHz
(
Figure 4 )
Frequency Response-Switch
V
C
e
V
DD
e
5V V
SS
e b
5V
40
MHz
``ON'' (Frequency at
b
3 dB)
R
L
e
1 kX V
IS
e
5V
p-p
20 Log
10
V
OS
V
OS
(1 kHz)
b
dB
(
Figure 4 )
3
AC Electrical Characteristics
(Continued) T
A
e
25 C t
r
e
t
f
e
20 ns and V
SS
e
0V unless otherwise noted
Symbol
Parameter
Conditions
Min
Typ
Max
Units
Feedthrough
Switch ``OFF''
V
DD
e
5 0V V
CC
e
V
SS
e b
5 0V
1 25
(Frequency at
b
50 dB)
R
L
e
1 kX V
IS
e
5 0V
p-p
20 Log
10
V
OS
V
IS
e b
50 dB
(Figure 4)
Crosstalk Between Any Two
V
DD
e
V
C(A)
e
5 0V V
SS
e
V
C(B)
e
5 0V
0 9
MHz
Switches (Frequency at
b
50 dB)
R
L
1 kX V
IS(A)
e
5 0 V
p-p
20 Log
10
V
OS(B)
V
IS(A)
e b
50 dB
(Figure 5)
Crosstalk Control Input to
V
DD
e
10V R
L
e
10 kX R
IN
e
1 0 kX
150
mV
p-p
Signal Output
V
CC
e
10V Square Wave C
L
e
50 pF
(Figure 6)
Maximum Control Input
R
L
e
1 0 kX C
L
e
50 pF
(Figure 7)
V
OS(f)
e
V
OS
(1 0 kHz)
V
DD
e
5 0V
6 0
MHz
V
DD
e
10V
8 0
MHz
V
DD
e
15V
8 5
MHz
C
IS
Signal Input Capacitance
8 0
pF
C
OS
Signal Output Capacitance
V
DD
e
10V
8 0
pF
C
IOS
Feedthrough Capacitance
V
C
e
0V
0 5
pF
C
IN
Control Input Capacitance
5 0
7 5
pF
AC Parameters are guaranteed by DC correlated testing
Note 1
``Absolute Maximum Ratings'' are those values beyond which the safety of the device cannot be guaranteed They are not meant to imply that the devices
should be operated at these limits The tables of ``Recommended Operating Conditions'' and ``Electrical Characteristics'' provide conditions for actual device
operation
Note 2
V
SS
e
0V unless otherwise specified
Note 3
These devices should not be connected to circuits with the power ``ON''
Note 4
In all cases there is approximately 5 pF of probe and jig capacitance in the output however this capacitance is included in C
L
wherever it is specified
Note 5
V
IS
is the voltage at the in out pin and V
OS
is the voltage at the out in pin V
C
is the voltage at the control input
Note 6
Conditions for V
IHC
a) V
IS
e
V
DD
I
OS
e
standard B series I
OH
b) V
IS
e
0V I
OL
e
standard B series I
OL
AC Test Circuits and Switching Time Waveforms
FIGURE 1 t
PHL
t
PLH
Propagation Delay Time Signal Input to Signal Output
FIGURE 2 t
PZH
t
PHZ
Propagation Delay Time Control to Signal Output
TL F 5665 2
FIGURE 3 t
PZL
t
PLZ
Propagtion Delay Time Control to Signal Output
4
AC Test Circuits and Switching Time Waveforms
(Continued)
V
C
e
V
DD
for distortion and frequency response tests
V
C
e
V
SS
for feedthrough test
FIGURE 4 Sine Wave Distortion Frequency Response and Feedthrough
FIGURE 5 Crosstalk Between Any Two Switches
FIGURE 6 Crosstalk Control Input to Signal Output
TL F 5665 3
FIGURE 7 Maximum Control Input Frequency
5