cd4052.pdf

(189 KB) Pobierz
CD4051BM/CD4051BC Single 8-Channel Analog Multiplexer/Demultiplexer CD4052BM/CD4052BC Dual 4-Channel Analog Multiplexer/Demultiplexer CD4053BM/CD4053BC Triple 2-Channel Analog Multiplexer/Demultiplexer
October 1989
CD4051BM/CD4051BC Single 8-Channel Analog
Multiplexer/Demultiplexer
CD4052BM/CD4052BC Dual 4-Channel Analog
Multiplexer/Demultiplexer
CD4053BM/CD4053BC Triple 2-Channel Analog
Multiplexer/Demultiplexer
General Description
These analog multiplexers/demultiplexers are digitally con-
trolled analog switches having low ``ON'' impedance and
very low ``OFF'' leakage currents. Control of analog signals
up to 15V p-p can be achieved by digital signal amplitudes of
3±15V. For example, if V DD e 5V, V SS e 0V and V EE eb 5V,
analog signals from b 5V to a 5V can be controlled by digi-
tal inputs of 0±5V. The multiplexer circuits dissipate ex-
tremely low quiescent power over the full V DD b V SS and
V DD b V EE supply voltage ranges, independent of the logic
state of the control signals. When a logical ``1'' is present at
the inhibit input terminal all channels are ``OFF''.
CD4051BM/CD4051BC 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 the input to the output.
CD4052BM/CD4052BC is a differential 4-channel multiplex-
er having two binary control inputs, A and B, and an inhibit
input. The two binary input signals select 1 or 4 pairs of
channels to be turned on and connect the differential ana-
log inputs to the differential outputs.
CD4053BM/CD4053BC 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 single-pole double-throw
configuration.
Features
Y Wide range of digital and analog signal levels: digital
3±15V, analog to 15V p-p
Y Low ``ON'' resistance: 80 X (typ.) over entire 15V p-p sig-
nal-input range for V DD b V EE e 15V
Y High ``OFF'' resistance: channel leakage of g 10 pA
(typ.) at V DD b V EE e 10V
Y Logic level conversion for digital addressing signals of
3±15V (V DD b V SS e 3±15V) to switch analog signals to
15 V p-p (V DD b V EE e 15V)
Y Matched switch characteristics: D R ON e 5 X (typ.) for
V DD b V EE e 15V
Y Very low quiescent power dissipation under all digital-
control input and supply conditions: 1 m W (typ.) at
V DD b V SS e V DD b V EE e 10V
Y Binary address decoding on chip
Connection Diagrams
Dual-In-Line Packages
CD4051BM/CD4051BC
CD4052BM/CD4052BC
CD4053BM/CD4053BC
TL/F/5662±1
Order Number CD4051B, CD4052B, or CD4053B
C 1995 National Semiconductor Corporation
TL/F/5662
RRD-B30M105/Printed in U. S. A.
104209807.003.png
Absolute Maximum Ratings
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
DC Supply Voltage (V DD ) b 0.5 V DC to a 18 V DC
Input Voltage (V IN ) b 0.5 V DC to V DD a 0.5 V DC
Storage Temperature Range (T S ) b 65 § Cto a 150 § C
Power Dissipation (P D )
Dual-In-Line
Recommended Operating
Conditions
DC Supply Voltage (V DD )
a 5V DC to a 15 V DC
Input Voltage (V IN )
0VtoV DD V DC
Operating Temperature Range (T A )
4051BM/4052BM/4053BM
b 55 § Cto a 125 § C
4051BC/4052BC/4053BC
b 40 § Cto a 85 § C
700 mW
Small Outline
500 mW
Lead Temp. (T L ) (soldering, 10 sec.)
260 § C
DC Electrical Characteristics (Note 2)
Symbol
Parameter
Conditions
b 55 § C
a 25 §
a 125 § C
Units
Min Max Min Typ Max Min Max
I DD Quiescent Device Current V DD e 5V
5
5
150 m A
V DD e 10V
10
10
300 m A
V DD e 15V
20
20
600 m A
Signal Inputs (V IS ) and Outputs (V OS )
R ON ``ON'' Resistance (Peak R L e 10 k X V DD e 2.5V,
for V EE s V IS s V DD )
(any channel V EE eb 2.5V
or V DD e 5V,
V EE e 0V
V DD e 5V
V EE eb 5V
800
270 1050
1300 X
or V DD e 10V,
V EE e 0V
V DD e 7.5V,
V EE eb 7.5V
310
120 400
550 X
or V DD e 15V,
V EE e 0V
200
80 240
320 X
D R ON D ``ON'' Resistance
R L e 10 k X V DD e 2.5V,
Between Any Two
(any channel V EE eb 2.5V
10
X
Channels
selected)
or V DD e 5V,
V EE e 0V
V DD e 5V,
V EE eb 5V
or V DD e 10V,
V EE e 0V
V DD e 7.5V,
V EE eb 7.5V
10
X
or V DD e 15V,
V EE e 0V
``OFF'' Channel Leakage V DD e 7.5V, V EE eb 7.5V
Current, any channel O/I e g 7.5V, I/O e 0V
5
X
g 50 g 0.01 g 50
g 500 nA
``OFF''
``OFF'' Channel Leakage Inhibit e 7.5V CD4051
g 200 g 0.08 g 200 g 2000 nA
Current, all channels
V DD e 7.5V,
``OFF'' (Common
V EE eb 7.5V, CD4052
g 200 g 0.04 g 200 g 2000 nA
OUT/IN)
O/I e 0V,
I/O e g 7.5V CD4053
g 200
g 0.02
g 200
g 2000 nA
Control Inputs A, B, C and Inhibit
V IL Low Level Input Voltage V EE e V SS R L e 1k X to V SS
I IS k 2 m A on all OFF channels
V IS e V DD thru 1 k X
V DD e 5V 1.5 1.5 1.5 V
V DD e 10V 3.0 3.0 3.0 V
V DD e 15V 4.0 4.0 4.0 V
V IH High Level Input Voltage V DD e 5 3.5 3.5 3.5 V
V DD e 10 7 7 7 V
V DD e 15 11 11 11 V
Note 1: ``Absolute Maximum Ratings'' are those values beyond which the safety of the device cannot be guaranteed. Except for ``Operating Temperature Range''
they are not meant to imply that the devices should be operated at these limits. The table of ``Electrical Characteristics'' provides conditions for actual device
operation.
Note 2: All voltages measured with respect to V SS unless otherwise specified.
2
selected)
104209807.004.png 104209807.005.png
DC Electrical Characteristics (Note 2) (Continued)
Symbol
Parameter
Conditions
b 40 § C
a 25 § C
a 85 § C
Units
Min Max Min Typ Max Min Max
I IN
Input Current
V DD e 15V, V EE e 0V
b 0.1 b 10 b 5 b 0.1
b 1.0 m A
V IN e 0V
V DD e 15V, V EE e 0V
V IN e 15V
I DD Quiescent Device Current V DD e 5V
0.1
10 b 5 0.1
1.0 m A
20
20
150 m A
V DD e 10V
40
40
300 m A
V DD e 15V
80
80
600 m A
Signal Inputs (V IS ) and Outputs (V OS )
R ON ``ON'' Resistance (Peak R L e 10 k X V DD e 2.5V,
for V EE s V IS s V DD )
(any channel V EE eb 2.5V
or V DD e 5V,
V EE e 0V
V DD e 5V,
V EE eb 5V
850
270 1050
1200 X
or V DD e 10V,
V EE e 0V
V DD e 7.5V,
V EE eb 7.5V
330
120 400
520 X
or V DD e 15V,
V EE e 0V
210
80 240
300 X
D R ON D ``ON'' Resistance
R L e 10 k X V DD e 2.5V,
Between Any Two
(any channel V EE eb 2.5V
10
X
Channels
selected)
or V DD e 5V,
V EE e 0V
V DD e 5V
V EE eb 5V
or V DD e 10V,
V EE e 0V
V DD e 7.5V,
V EE eb 7.5V
10
X
or V DD e 15V,
V EE e 0V
``OFF'' Channel Leakage V DD e 7.5V, V EE eb 7.5V
Current, any channel ``OFF'' O/I e g 7.5V, I/O e 0V
5
X
g 50
g 0.01
g 50
g 500 nA
``OFF'' Channel Leakage Inhibit e 7.5V CD4051
g 200
g 0.08
g 200
g 2000 nA
Current, all channels
V DD e 7.5V,
``OFF'' (Common
V EE eb 7.5V, CD4052
g 200
g 0.04
g 200
g 2000 nA
OUT/IN)
O/I e 0V
I/O e g 7.5V CD4053
g 200 g 0.02 g 200 g 2000 nA
Control Inputs A, B, C and Inhibit
V IL
Low Level Input Voltage V EE e V SS R L e 1k X to V SS
I IS k 2 m A on all OFF Channels
V IS e V DD thru 1 k X
V DD e 5V
1.5
1.5
1.5 V
V DD e 10V
3.0
3.0
3.0 V
V DD e 15V
4.0
4.0
4.0 V
V IH High Level Input Voltage V DD e 5
3.5
3.5
3.5
V
V DD e 10
7
7
7
V
V DD e 15
11
11
11
V
I IN
Input Current
V DD e 15V, V EE e 0V
b 0.1 b 10 b 5 b 0.1
b 1.0 m A
V IN e 0V
V DD e 15V, V EE e 0V
V IN e 15V
Note 1: ``Absolute Maximum Ratings'' are those values beyond which the safety of the device cannot be guaranteed. Except for ``Operating Temperature Range''
they are not meant to imply that the devices should be operated at these limits. The table of ``Electrical Characteristics'' provides conditions for actual device
operation.
Note 2: All voltages measured with respect to V SS unless otherwise specified.
0.1
10 b 5 0.1
1.0 m A
3
selected)
104209807.006.png
AC Electrical Characteristics* T A e 25 § C, t r e t f e 20 ns, unless otherwise specified.
Symbol
Parameter
Conditions
V DD Min Typ Max Units
t PZH, Propagation Delay Time from V EE e V SS e 0V
5V
600 1200
ns
t PZL
Inhibit to Signal Output
R L e 1k X
10V
225 450
ns
(channel turning on)
C L e 50 pF
15V
160 320
ns
t PHZ, Propagation Delay Time from V EE e V SS e 0V
5V
210 420
ns
t PLZ
Inhibit to Signal Output
R L e 1k X
10V
100 200
ns
(channel turning off)
C L e 50 pF
15V
75 150
ns
C IN
Input Capacitance
Control input
5 7.5
pF
Signal Input (IN/OUT)
10 15
pF
C OUT Output Capacitance
(common OUT/IN)
CD4051
10V
30
pF
CD4052
V EE e V SS e 0V
10V
15
pF
CD4053
10V
8
pF
C IOS Feedthrough Capacitance
0.2
pF
C PD
Power Dissipation Capacitance
CD4051
110
pF
CD4052
140
pF
CD4053
70
pF
Signal Inputs (V IS ) and Outputs (V OS )
Sine Wave Response
R L e 10 k X
(Distortion)
f IS e 1 kHz
10V
0.04
%
V IS e 5V p-p
V EE e V SI e 0V
Frequency Response, Channel R L e 1k X ,V EE e 0V, V IS e 5V p-p ,
10V
40
MHz
``ON'' (Sine Wave Input) 20 log 10 V OS /V IS eb 3dB
Feedthrough, Channel ``OFF'' R L e 1k X ,V EE e V SS e 0V, V IS e 5V p-p ,
10V
10
MHz
20 log 10 V OS /V IS eb 40 dB
Crosstalk Between Any Two R L e 1k X ,V EE e V SS e 0V, V IS (A) e 5V p-p
10V
3
MHz
Channels (frequency at 40 dB) 20 log 10 V OS (B)/V IS (A) eb 40 dB (Note 3)
t PHL Propagation Delay Signal
V EE e V SS e 0V
5V
25 55
ns
t PLH
Input to Signal Output
C L e 50 pF
10V
15 35
ns
15V
10 25
ns
Control Inputs, A, B, C and Inhibit
Control Input to Signal
V EE e V SS e 0V, R L e 10 k X at both ends
Crosstalk
of channel.
10V
65
mV (peak)
Input Square Wave Amplitude e 10V
t PHL, Propagation Delay Time from V EE e V SS e 0V
5V
500 1000
ns
t PLH Address to Signal Output
C L e 50 pF
10V
180 360
ns
(channels ``ON'' or ``OFF'')
15V
120 240
ns
*AC Parameters are guaranteed by DC correlated testing.
Note 3: A, B are two arbitrary channels with A turned ``ON'' and B ``OFF''.
4
104209807.001.png
Block Diagrams
CD4051BM/CD4051BC
CD4052BM/CD4052BC
TL/F/5662±2
5
104209807.002.png
 

Plik z chomika:

Inne pliki z tego folderu:

Inne foldery tego chomika:

Zgłoś jeśli naruszono regulamin