HCC4067BF [STMICROELECTRONICS]
ANALOG MULTIPLEXER/DEMULTIPLEXER; 模拟复用器/解复用器
| 型号: | HCC4067BF |
| 厂家: | 
ST |
| 描述: | ANALOG MULTIPLEXER/DEMULTIPLEXER |
| 文件: | 总16页 (文件大小:338K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
HCC/HCF4067B
HCC/HCF4097B
ANALOG MULTIPLEXER/DEMULTIPLEXER
4067B–SINGLE 16-CHANNEL
4097B–DIFFERENTIAL 8-CHANNEL
.
.
.
.
LOW ON RESISTANCE: 125Ω (typ.) OVER 15
Vp-p SIGNAL INPUT RANGE FOR
VDD - VSS = 15V
HIGH OFF RESISTANCE: CHANNEL LEAK-
AGE OF ±10pA (typ.) @ VDD - VSS = 10V
MATCHED SWITCH CHARACTERISTICS:
∆RON = 5Ω (typ.) FOR VDD - VSS = 15V
VERY LOW QUIESCENT POWER DISSIPA-
TION UNDER A DIGITAL CONTROL INPUT
AND SUPPLY CONDITIONS: 0.2µW (typ.) @
VDD -VSS = 10V
EY
F
(Plastic Package)
(Ceramic Package)
.
BINARY ADDRESS DECODING ON CHIP
QUIESCENT CURRENT SPECIFIED TO 20V
FOR HCC DEVICE
STANDARDIZED SYMMETRICAL OUTPUT
CHARACTERISTICS
5V, 10V AND 15V PARAMETRIC RATINGS
INPUT CURRENT OF 100nA AT 18V AND 25oC
FOR HCC DEVICE
100% TESTED FOR QUIESCENT CURRENT
MEETS ALLREQUIREMENTS OF JEDECTEN-
TATIVE STANDARD No 13A, ”STANDARD
SPECIFICATIONS FOR DESCRIPTION OF B
SERIE CMOS DEVICES”
.
.
M1
C1
(Micro Package)
(Chip Carrier)
.
.
ORDER CODES :
.
.
HCC40XXBF
HCF40XXBM1
HCF40XXBEY
HCF40XXBC1
PIN CONNECTIONS
4067B
4097B
September 1988
1/16
HCC/HCF4067B HCC/HCF4097B
DESCRIPTION
The HCC4067B, HCC4097B (extended tempera-
ture range) and HCF4067B, HCF4097B (intermedi-
ate temperature range) are monolithic integrated
circuits available in 24-lead dual in line plastic or ce-
ramic package.
address decoding. in addition, the ON resistance is
relatively constant over the full input-signal range.
The HCC/HCF4067B ia a 16-channel multiplexer
with four binary control inputs A, B, C, D, and an in-
hibit input, arranged so that any combination of the
inputs selects one switch.
The HCC/HCF4067B and HCC/HCF4097B
COS/MOS analog multiplexers/demultiplexers are
digitally controlled analog switches having low ON
impedance, low OFF leakage current and internal
The HCC/HCF4097 is a differential 8-channel multi-
plexerhaving threebinary control inputs A, B, C, and
an inhibit input. The inputs permit selection of one
FUNCTIONAL DIAGRAM
For 4067B
For 4097B
2/16
HCC/HCF4067B HCC/HCF4097B
LOGIC DIAGRAM
For 4067B
3/16
HCC/HCF4067B HCC/HCF4097B
LOGIC DIAGRAM
For 4097B
4/16
HCC/HCF4067B HCC/HCF4097B
TRUTH TABLES FOR HCC/HCF4067B
TRUTH TABLE FOR HCC/HCF4097B
SELECTED
SELECTED
CHANNEL
A
B
C
D
INH
A
B
C
INH
CHANNEL
X
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
X
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
X
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
X
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
None
0
X
0
1
0
1
0
1
0
1
X
0
0
1
1
0
0
1
1
X
0
0
0
0
1
1
1
1
1
0
0
0
0
0
0
0
0
None
0X 0Y
1X 1Y
2X 2Y
3X 3Y
4X 4Y
5X 5Y
6X 6Y
7X 7Y
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
ABSOLUTE MAXIMUM RATING
Symbol
Parameter
Value
Unit
VDD
*
Supply Voltage: HCC Types
HCF Types
-0.5 to +20
-0.5 to +18
V
V
Vi
II
Input Voltage
-0.5 to VDD + 0.5
V
DC Input Current (any one input)
± 10
mA
mW
Ptot
Total Power Dissipation (per package)
Dissipation per Output Transistor
200
for Top = Full Package Temperature Range
100
mW
Top
Operating Temperature: HCC Types
HCF Types
-55 to +125
-40 to +85
oC
oC
oC
Tstg
Storage Temperature
-65 to +150
Stressesabove those listedunder ”Absolute Maximum Ratings” may cause permanent damage to thedevice. This isa stress ratingonly and functional
operation of the device at these or any other conditions above those indicated in theoperational 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
Parameter
Supply Voltage: HCC Types
HCF Types
Value
Unit
VDD
3 to 18
3 to 15
V
V
VI
Input Voltage
0 to VDD
V
Top
Operating Temperature: HCC Types
HCF Types
-55 to +125
-40 to +85
oC
oC
5/16
HCC/HCF4067B HCC/HCF4097B
STATIC ELECTRICAL CHARACTERISTICS (over recommended operating conditions)
Test Conditios
Value
o
Symbol
Parameter
Quiescent
Unit
VIS
(V)
VEE VSS VDD
(V) (V) (V)
TLOW
*
25 C
THIGH *
Min. Max. Min. Typ. Max. Min. Max.
IL
5
5
10
20
100
20
40
80
0.04
0.04
0.04
5
10
20
150
300
600
3000
150
300
600
HCC
types
Supply
Current
10
15
20
5
10
15
µA
0.08 100
0.04
0.04
0.04
20
40
80
HCF
types
SWITCH
RON
On
Resistance
5
800
310
200
850
330
210
470 1050
180 400
125 240
470 1050
180 400
125 240
10
1300
580
HCC 0 ≤ VI
types ≤ VDD
0
0
0
0
10
15
5
10
15
5
320
1200
520
Ω
Ω
HCF 0 ≤ VI
types ≤ VDD
300
∆ON
Resistance ∆RON
(Between any two
channels)
0
0
0
0
10
15
10
5
OFF (•) Any
Channel Channel OFF types
Leakage
Current
HCC
18
18
15
15
100
100
300
300
±0.1 100
±0.1 100
±0.1 300
±0.1 300
1000
1000
1000
1000
All Channel
OFF
(common
OUT/IN)
HCC
types
0
0
0
0
0
0
µA
Any
HCF
Channel OFF types
All Channel
OFF
(common
OUT/IN)
HCF
types
C
Capacitance
Input
5
Output for 4067
Output for 4097
Feedthrough
-5
5
55
35
0.2
pF
CONTROL
VIL
Input Low
Voltage
= VDD
thru
1KΩ
VEE=VSS
RL =1KΩ
to VSS
IIS < 2µA
(on all OFF
channels)
5
1.5
3
1.5
3
1.5
3
V
V
10
15
5
10
15
4
4
4
VIH
Input High
Voltage
3.5
7
3.5
7
3.5
7
11
11
11
IIH IIL
Input
Leackage
Current
HCC
types
HCF
types
VI = 0/18V
18
15
±0.1
±0.3
±10-3 ±0.1
±10-3 ±0.3
±1
±1
µA
VI = 0/15V
CI
Input Capacitance
Any Address or
Inhibit Input
5
7.5
pF
• Determined by minimum feasible leakage measurement for automatic testing
* TLOW = -55 oC forHCC device: -40 oC for HCF device.
* THIGH =+125 oC for HCC device: +85 oC for HCF device.
The Noise Margin for both ”1” and ”0” level is: 1V min. with VDD = 5 V, 2 V min. with VDD =10 V, 2.5 V min. withVDD = 15 V
6/16
HCC/HCF4067B HCC/HCF4097B
o
DYNAMIC ELECTRICAL CHARACTERISTICS (Tamb = 25 C, CL = 50 pF, RL = 200 KΩ,
typical temperature coefficent for all VDD values is 03 %/oC, all input rise and fall times= 20 ns)
Test Conditions
VI VSS VDD
(KΩ) (KHz) (V) (V) (V)
Value
Symbol
Parameter
Unit
VC
(V)
RL
fi
Typ. Max.
SWITCH
tpd
Propagation Delay
Time (Signal Input to
Output)
5
30
15
11
14
20
60
30
20
= VDD
200
1
0
0
ns
10
15
Frequency Response
Channel ”ON” (Sine
Wave Input) at
VO
VO at
Common
OUT/IN
4067B
4097B
= VDD
5 (•)
5 (•)
10
10
ns
VO at Any Channel
60
20 Log
= − 3 dB
VI
Feedthrough (All
Channels OFF) at
VO
VO at
Common
OUT/IN
4067B
4097B
20
12
= VSS
1
1
0
0
MHz
20 Log
= − 40 dB
VI
VO at Any Channel
8
1
Frequency Signal
Crosstalk at
VO(B)
Between Any two (A
and B) Channels
VC(A)=VDD
VC(B)=VSS
Between
Sections
(A and B) common
Measured 10
on
20Log
= −40dB
VI(A)
5 (•)
10
MHz
4097B
only
Measured 18
on Any
Channel
tW
Sine Wave Distortion
(fis = 1KHz sine
wave)
5
10
10
10
1
1
1
2 (•)
3 (•)
5 (•)
0
0
0
5
0.3
0.2
%
10
15
10
15
0.12
CONTROL (address or Inhibit)
tPLH
tPHL
Propagation Delay
Time: Address or
Inhibit to Signal OUT
(Channel Turning ON)
0
0
0
5
325 650
135 270
95 190
10
15
1
ns
ns
tPLH
tPHL
Propagation Delay
Time: Address or
Inhibit to Signal OUT
(Channel Turning
OFF)
0
0
0
5
220 440
90 180
65 130
10
15
0.3
10*
Address or Inhibit to
Signal Crosstalk
75
mV
peak
0
10
V
DD − VSS
2
(•)Peak to peak voltage symmetrical about
(*) Both ends of channel
7/16
HCC/HCF4067B HCC/HCF4097B
Typical ON Resistance vs Input Signal Voltage
(All Types)
Typical ON Resistance vs Input Signal Voltage
(All Types)
Typical ON Resistance vs Input Signal Voltage
(All Types)
Typical ON Resistance vs Input Signal Voltage
(All Types)
TEST CIRCUITS
OFF Channel Leakage Current Any Channel OFF
For 4067B
For 4097B
8/16
HCC/HCF4067B HCC/HCF4097B
OFF Channel Leakage Current All Channels OFF
For 4067B
For 4097B
Input Voltage Measure < 2 µA an All OFF Channels (e.g. Channel 12)
For 4067B
For 4097B
Quiescent Device Current
For 4067B
For 4097B
9/16
HCC/HCF4067B HCC/HCF4097B
Turn-on and Turn-off Propagation Delay Address Select Input to Signal Output (e. g. Channel 0)
For 4067B
For 4097B
Turn-on and Turn-off Propagation Delay-Inhibit Input to Signal Output (e. g. Channel 1)
For 4067B
For 4097B
Channel ON Resistance Measurement Circuit
10/16
HCC/HCF4067B HCC/HCF4097B
Propagation Delay Waveform Channel Being
Propagation Delay Waveform Channel Being
Turned ON (RL = 10 KΩ, CL = 50 pF)
Turned OFF (RL = 300 Ω, CL = 50 pF)
APPLICATIONS INFORMATION
In applications where separate power sources are
used to drive VDD and the signal inputs, the VDD cur-
rentcapability should exceedVDD/RL (RL = effective
external load). This provision avoids permanent cur-
rent flow or clamp action on the VDD supply when
power is applied or removed from the
HCC/HCF4067B or HCC/HCF4097B.
lose 3-4% of its voltage at the moment the channel
turns ON or OFF. This loss of voltage is essentially
independent of the address or inhibit signal trnasi-
tion time, if the transition time is less than 1- 2 µs.
When the inhibit signal turns a channel off, there is
no change dumping of VSS. Rather, there is a slight
rise in the channel voltage level (65 mV typ.) due to
the capacitance coupling from inhibit input to chan-
nel input or output. Address input also couple some
voltage steps onto the channel signal levels.
When switching from one address to another, some
of the ON periods of the channels ofthe multiplexers
will overlap momentarily, which may be objection-
able in certain applications. Also when a channel is
turned ON or OFF by an address input, there is a
momentary conductive path from the channel to
VSS, which will drump some charge from any capa-
citor connected to the input or output of the channel.
The inhibit input turning on a channel will similarly
In certain applications, the external load-resistor
current may include both VDD and signal line com-
ponents. To avoid drawing VDD current when switch
current flows into the transmission gate inputs, the
voltagedrop across the bidirectional switchmust not
exceed 0.8 V (calculated from RON values shown in
ELECTRICAL CHARACTERISTICS CHART). No
VDD current will flow through RL if the switch current
flows into terminal 1 on the HCC/HCF4067B, termi-
nals 1 and 17 on the HCC/HCF4097B.
drump some charge to VSS
The amount of charge dumped is mostly a function
of the signal level above VSS
.
.
Typically, ay VDD - VSS = 10V, a 100 pF capacitor
connected to the input or output of the channel will
11/16
HCC/HCF4067B HCC/HCF4097B
Plastic DIP24 (0.25) MECHANICAL DATA
mm
TYP.
0.63
0.45
inch
TYP.
0.025
0.018
DIM.
MIN.
0.23
15.2
MAX.
MIN.
0.009
0.598
MAX.
a1
b
b1
b2
D
E
0.31
0.012
1.27
0.050
32.2
1.268
0.657
16.68
e
2.54
0.100
1.100
e3
F
27.94
14.1
0.555
I
4.445
3.3
0.175
0.130
L
P043A
12/16
HCC/HCF4067B HCC/HCF4097B
Ceramic DIP24 MECHANICAL DATA
mm
inch
TYP.
DIM.
MIN.
TYP.
MAX.
32.3
MIN.
MAX.
1.272
0.526
0.200
A
B
C
D
E
e3
F
13.05
3.9
3
13.36
5.08
0.514
0.154
0.118
0.020
0.5
1.78
0.070
27.94
1.100
2.29
0.4
2.79
0.55
1.52
0.31
2.49
0.090
0.016
0.046
0.009
0.060
0.110
0.022
0.060
0.012
0.098
G
I
1.17
0.22
1.52
L
M
N1
4° (min.), 15° (max.)
P
15.4
15.8
5.71
0.606
0.622
0.225
Q
P058C
13/16
HCC/HCF4067B HCC/HCF4097B
SO24 MECHANICAL DATA
mm
inch
TYP.
DIM.
MIN.
TYP.
MAX.
2.65
0.20
2.45
0.49
0.32
MIN.
MAX.
0.104
0.007
0.096
0.019
0.012
A
a1
a2
b
0.10
0.004
0.35
0.23
0.013
0.009
b1
C
0.50
0.020
c1
D
45° (typ.)
15.20
10.00
15.60
10.65
0.598
0.393
0.614
0.420
E
e
1.27
0.05
0.55
e3
F
13.97
7.40
0.50
7.60
1.27
0.291
0.19
0.299
0.050
L
S
8° (max.)
L
c1
b
e
s
e3
E
D
24
13
1
12
14/16
HCC/HCF4067B HCC/HCF4097B
PLCC20 MECHANICAL DATA
mm
inch
TYP.
DIM.
MIN.
9.78
8.89
4.2
TYP.
MAX.
10.03
9.04
MIN.
0.385
0.350
0.165
MAX.
0.395
0.356
0.180
A
B
D
4.57
d1
d2
E
2.54
0.56
0.100
0.022
7.37
8.38
0.290
0.330
0.004
e
1.27
5.08
0.38
0.050
0.200
0.015
e3
F
G
0.101
M
M1
1.27
1.14
0.050
0.045
P027A
15/16
HCC/HCF4067B HCC/HCF4097B
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. Specificationsmentioned
in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied.
SGS-THOMSON Microelectronicsproductsare notauthorized foruse ascritical componentsin 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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16/16
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