4016BM Datasheet PDF - National Semiconductor

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4016BM
National Semiconductor

Part Number 4016BM
Description Quad Bilateral Switch
Page 8 Pages


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August 1989
CD4016BM CD4016BC Quad Bilateral Switch
General Description
The CD4016BM CD4016BC 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 CD4066BM
CD4066BC
Features
Y Wide supply voltage range
3V to 15V
Y Wide range of digital and analog switching g7 5 VPEAK
Y ‘‘ON’’ resistance for 15V operation
400X (typ )
Y Matched ‘‘ON’’ resistance over 15V
signal input
Y High degree of linearity
DRONe10X (typ )
0 4% distortion (typ )
fIS e 1 kHz VISe5 Vp-p
VDDbVSSe10V RLe10 kX
Y Extremely low ‘‘OFF’’ switch leakage
0 1 nA (typ )
VDD b VSSe10V
TAe25 C
Y Extremely high control input impedance 1012X (typ )
Y Low crosstalk between switches
b50 dB (typ )
fISe0 9 MHz RLe 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
Dual-In-Line Package
Order Number CD4016B
TL F 5661 – 1
C1995 National Semiconductor Corporation TL F 5661
RRD-B30M105 Printed in U S A



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Absolute Maximum Ratings
If Military Aerospace specified devices are required
please contact the National Semiconductor Sales
Office Distributors for availability and specifications
(Notes 1 and 2)
VDD Supply Voltage
VIN Input Voltage
TS Storage Temperature Range
Power Dissipation (PD)
Dual-In-Line
Small Outline
b0 5V to a18V
b0 5V to VDD a 0 5V
b65 C to a 150 C
700 mW
500 mW
Lead Temperature (Soldering 10 seconds)
260 C
Recommended Operating
Conditions (Note 2)
VDD Supply Voltage
3V to 15V
VIN Input Voltage
0V to VDD
TA Operating Temperature Range
CD4016BM
b55 C to a125 C
CD4016BC
b40 C to a85 C
DC Electrical Characteristics CD4016BM (Note 2)
Symbol
Parameter
Conditions
b55 C
Min Max Min
25 C
Typ
125 C
Units
Max Min Max
IDD Quiescent Device Current
Signal Inputs and Outputs
VDDe5V VINeVDD or VSS
VDDe10V VINeVDD or VSS
VDDe15V VINeVDD or VSS
0 25
05
10
0 01 0 25
0 01 0 5
0 01 1 0
7 5 mA
15 mA
30 mA
RON
‘‘ON’’ Resistance
DRON
IIS
D‘‘ON’’ Resistance
Between any 2 of
4 Switches
(In Same Package)
Input or Output Leakage
Switch ‘‘OFF’’
Control Inputs
RLe10
kX
to
VDDbVSS
2
VCeVDD VISeVSS or VDD
VDDe10V
VDDe15V
RLe10
kX
to
VDDbVSS
2
VCeVDD
VDDe10V VISe4 75 to 5 25V
VDDe15V VISe7 25 to 7 75V
RLe10
kX
to
VDDbVSS
2
VCeVDD VISeVSS to VDD
VDDe10V
VDDe15V
VCe0 VDDe15V
VISe15V and 0V
VOSe0V and 15V
600
360
1870
775
g50
250 660
200 400
960 X
600 X
850 2000
400 850
2600
1230
X
X
15
10
g0 1
g50
g500
X
X
nA
VILC
VIHC
IIN
Low Level Input Voltage
High Level Input Voltage
Input Current
VISeVSS and VDD
VOSeVDD and VSS
IISe g10 mA
VDDe5V
VDDe10V
VDDe15V
VDDe5V
VDDe10V
VDDe15V
35
(see Note 6 and 7 0
Figure 8 )
11 0
VDDbVSSe15V
VDDtVIStVSS
VDDtVCtVSS
09
09
09
35
70
11 0
g0 1
g10b5
07
07
07
35
70
11 0
g0 1
05
05
05
g1 0
V
V
V
V
V
V
mA
2



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DC Electrical Characteristics CD4016BC (Note 2) (Continued)
Symbol
Parameter
Conditions
b40 C
Min Max Min
25 C
85 C
Units
Typ Max Min Max
IDD Quiescent Device Current
Signal Inputs and Outputs
RON
‘‘ON’’ Resistance
DRON
IIS
D‘‘ON’’ Resistance
Between any 2 of
4 Switches
(In Same Package)
Input or Output Leakage
Switch ‘‘OFF’’
Control Inputs
VDDe5V VINeVDD or VSS
VDDe10V VINeVDD or VSS
VDDe15V VINeVDD or VSS
RL
e
10
kX
to
VDDbVSS
2
VCeVDD VISeVSS or VDD
VDDe10V
VDDe15V
RL
e
10
kX
to
VDDbVSS
2
VCeVDD
VDDe10V VISe4 75 to 5 25V
VDDe15V VISe7 25 to 7 75V
RL
e
10
kX
to
VDDbVSS
2
VCeVDD VISeVSS to VDD
VDDe10V
VDDe15V
VCe0 VDDe15V
VISe0V or 15V
VOSe15V or 0V
10
20
40
610
370
1900
790
g50
0 01 1 0
0 01 2 0
0 01 4 0
7 5 mA
15 mA
30 mA
275 660
200 400
850 2000
400 850
840 X
520 X
2380
1080
X
X
15
10
g0 1
g50
g200
X
X
nA
VILC
VIHC
IIN
Low Level Input Voltage
High Level Input Voltage
Input Current
VISeVSS and VDD
VOSeVDD and VSS
IISe g10 mA
VDDe5V
VDDe10V
VDDe15V
VDDe5V
VDDe10V
VDDe15V
(see Note 6 and
Figure 8 )
VCCbVSSe15V
VDDtVIStVSS
VDDtVCtVSS
35
70
11 0
09
09
09
35
70
11 0
g0 3
g10b5
07
07
07
35
70
11 0
g0 3
04
04
04
g1 0
V
V
V
V
V
V
mA
AC Electrical Characteristics TAe25 C tretfe20 ns and VSSe0V unless otherwise specified
Symbol
Parameter
Conditions
Min Typ Max
tPHL tPLH
tPZH tPZL
tPHZ tPLZ
Propagation Delay Time
Signal Input to Signal Output
Propagation Delay Time
Control Input to Signal
Output High Impedance to
Logical Level
Propagation Delay Time
Control Input to Signal
Output Logical Level to
High Impedance
Sine Wave Distortion
VCeVDD CLe50 pF (Figure 1 )
RLe200k
VDDe5V
VDDe10V
VDDe15V
RLe1 0 kX CLe50 pF (Figures 2
and 3 )
VDDe5V
VDDe10V
VDDe15V
RLe1 0 kX CLe50 pF (Figures 2
and 3 )
VDDe5V
VDDe10V
VDDe15V
VCeVDDe5V VSSeb5
RLe10 kX VISe5 VP-P fe1 kHz
(Figure 4 )
58 100
27 50
20 40
20 50
18 40
17 35
15 40
11 25
10 22
04
Units
ns
ns
ns
ns
ns
ns
ns
ns
ns
%
3



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AC Electrical Characteristics (Continued)
TAe25 C tretfe20 ns and VSSe0V unless otherwise specified
Symbol
Parameter
Conditions
Min Typ Max Units
Frequency Response Switch
‘‘ON’’ (Frequency at b3 dB)
Feedthrough Switch ‘‘OFF’’
(Frequency at b50 dB)
Crosstalk Between Any Two
Switches (Frequency at b50 dB)
Crosstalk Control Input to
Signal Output
Maximum Control Input
VCeVDDe5V VSSeb5V
RLe1 kX VISe5 VP-P
20 Log10 VOS VOS (1 kHz) bdB
(Figure 4 )
VDDe5V VCeVSSeb5V
RLe1 kX VISe5 VP-P
20 Log10 (VOS VIS)eb50 dB
(Figure 4 )
VDDeVC(A)e5V VSSeVC(B)eb5V
RLe1 kXVIS(A)e5 VP-P
20 Log10 (VOS(B) VOS(A) )eb50 dB
(Figure 5 )
VDDe10V RLe10 kX
RINe1 kX VCCe10V Square Wave
CLe50 pF (Figure 6 )
RLe 1 kX CLe50 pF (Figure 7 )
VOS(f)e VOS(1 kHz)
VDDe5V
VDDe10V
VDDe15V
40
1 25
09
150
65
80
90
MHz
MHz
MHz
mVP-P
MHz
MHz
MHz
CIS Signal Input Capacitance
4 pF
COS Signal Output Capacitance
VDDe10V
4 pF
CIOS
Feedthrough Capacitance
VCe0V
0 2 pF
CIN Control Input Capacitance
AC Paramters are guaranteed by DC correlated testing
5 7 5 pF
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 VSSe0V 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 on the output however this capacitance is included in CL wherever it is specified
Note 5 VIS is the voltage at the in out pin and VOS is the voltage at the out in pin VC is the voltage at the control input
Note 6 If the switch input is held at VDD VIHC is the control input level that will cause the switch output to meet the standard ‘‘B’’ series VOH and IOH output levels
l lIf the analog switch input is connected to VSS VIHC is the control input level which allows the switch to sink standard ‘‘B’’ series IOH high level current and still
maintain a VOL s ‘‘B’’ series These currents are shown in Figure 8
AC Test Circuits and Switching Time Waveforms
Figure 1 tPLH tPLH Propagation Delay Time Signal Input to Signal Output
FIGURE 2 tPZH tPHZ Propagation Delay Time Control to Signal Output
4
TL F 5661 – 2



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