HCC4094B [STMICROELECTRONICS]
8-STAGE SHIFT-AND-STORE BUS REGISTER; 8级移位 - 和 - 存储总线寄存器
| 型号: | HCC4094B |
| 厂家: | 
ST |
| 描述: | 8-STAGE SHIFT-AND-STORE BUS REGISTER |
| 文件: | 总14页 (文件大小:319K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
HCC/HCF4094B
8–STAGE SHIFT-AND-STORE BUS REGISTER
.
.
3-STATE PARALLEL OUTPUTS FOR CON-
NECTION TO COMMON BUS
SEPARATE SERIAL OUTPUTS
CHRONOUS TO BOTH POSITIVE AND NEGA-
TIVE CLOCK EDGES FOR CASCADING
MEDIUM SPEED OPERATION 5MHz AT 10V
STANDARDIZED SYMMETRICAL OUTPUT
CHARACTERISTICS
SYN-
.
EY
F
.
(Plastic Package)
(Ceramic Frit Seal Package)
.
QUIESCENT CURRENT SPECIFIED TO 20V
FOR HCC DEVICE
.
.
5V, 10V, AND 15V PARAMETRIC RATINGS
INPUT CURRENT OF 100nA AT 18V AND 25°C
FOR HCC DEVICE
100% TESTED FOR QUIESCENT CURRENT
MEETS ALLREQUIREMENTS OF JEDECTEN-
TATIVE STANDARD N°. 13A, ”STANDARD
SPECIFICATIONS FOR DESCRIPTION OF ”B”
SERIES CMOS DEVICES”
M1
C1
.
.
(Micro Package)
(Plastic Chip Carrier)
ORDER CODES :
HCC4094BF
HCF4094BEY
HCF4094BM1
HCF4094BC1
PIN CONNECTIONS
DESCRIPTION
The HCC4094B (extended temperature range) and
HCF4094B (intermediate temperature range) are
monolithic integrated circuits available in 16-lead
dual in-line plastic or ceramic packageand plastic
micropackage.
The HCC/HCF4094B is an 8-stage serial shift reg-
ister having a storage latch associated with each
stage for strobing data from the serial input to par-
allel buffered 3-state outputs. The parallel outputs
may be connected directly to common bus lines.
Data isshifted on positive clock transitions. The data
in each shift register stage is transferred to the stor-
age register when the STROBE input is high. Data
in thestorage register appears at the outputs when-
ever the OUTPUT-ENABLE signal is high. Two ser-
ial outputs are available for cascading a number of
HCC/HCF4094B devices. Data is available at the
QS serial output terminal on positive clock edges to
allow for high-speed operation in cascaded systems
in which the clock rise time is fast. The same serial
information, available at the Q’S terminal on the next
negative clock edge, provides a means for cascad-
ing HCC/HCF4094B devices when the clock rise
time is slow.
June 1989
1/14
HCC/HCF4094B
FUNCTIONAL DIAGRAM
ABSOLUTE MAXIMUM RATINGS
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
Pto t
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
°C
°C
Tstg
Storage Temperature
– 65 to + 150
°C
Stresses above those listed under ”Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and
functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not
implied. Exposure to absolute maximum ratingconditions 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
To p
Operating Temperature : HCC Types
HCF Types
– 55 to + 125
– 40 to + 85
°C
°C
2/14
HCC/HCF4094B
LOGIC DIAGRAMS
TIMING DIAGRAM
3/14
HCC/HCF4094B
TRUTH TABLE
TRUTH TABLE
Parallel Outputs
Serial Outputs
Outputs
Enable
CL∆
Strobe
Data
Q 1
Q N
QS*
Q’S
–
/
0
0
1
1
1
1
X
X
0
1
1
1
X
X
X
0
1
1
OC
OC
Q7
NC
–
–
\
OC
NC
0
OC
NC
NC
Q7
Q7
Q7
NC
Q7
NC
NC
NC
Q7
–
–
/
–
–
/
QN-1
QN-1
NC
–
–
/
1
–
–
\
NC
–
▲ = Level Change
X = Don’t Care
Logic 1 ≡ High
Logic 0 ≡ Low
NC = No Change
OC = Open Circuit
*
At the positive clock edge information in the 7th shift register stage is transferred to the 8th register stage and the QS output.
4/14
HCC/HCF4094B
STATIC ELECTRICAL CHARACTERISTICS (over recommended operating conditions)
Test Conditions
Value
T Lo w
*
25°C
T High*
VI
(V)
VO
(V)
|IO
(µA) (V)
|
VD D
Symbol
Parameter
Quiescent
Unit
Min. Max. Min. Typ. Max. Min. Max.
IL
0/ 5
0/10
0/15
0/20
0/ 5
0/10
0/15
0/ 5
0/10
0/15
5/0
5
5
10
20
100
20
40
80
0.04
0.04
0.04
5
10
20
150
300
600
3000
150
300
600
Current
10
15
20
5
10
15
HCC
Types
µA
0.08 100
0.04
0.04
0.04
20
40
80
HCF
Types
VOH
VOL
VIH
VIL
Output High
Voltage
< 1
< 1
< 1
< 1
< 1
< 1
5
4.95
10 9.95
15 14.95
4.95
9.95
14.95
4.95
9.95
14.95
V
V
Output Low
Voltage
5
10
15
5
10
15
5
10
15
5
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
10/0
15/0
Input High
Voltage
0.5/4.5 < 1
1/9 < 1
1.5/13.5 < 1
4.5/0.5 < 1
3.5
7
11
3.5
7
11
3.5
7
11
V
V
Input Low
Voltage
1.5
3
1.5
3
4
1.5
3
4
9/1
< 1
13.5/1.5 < 1
4
IOH
Output
Drive
Current
0/ 5
0/ 5
0/10
0/15
0/ 5
0/ 5
0/10
0/15
0/ 5
0/10
0/15
0/ 5
0/10
0/15
2.5
4.6
9.5
13.5
2.5
4.6
9.5
13.5
0.4
0.5
1.5
0.4
0.5
1.5
– 2
– 0.64
10 – 1.6
15 – 4.2
– 1.53
– 0.52
10 – 1.3
15 – 3.6
– 1.6 – 3.2
– 0.51 – 1
– 1.3 – 2.6
– 3.4 – 6.8
– 1.36 – 3.2
– 0.44 – 1
– 1.1 – 2.6
– 3.0 – 6.8
– 1.15
– 0.36
– 0.9
– 2.4
– 1.1
– 0.36
– 0.9
– 2.4
0.36
0.9
2.4
0.36
0.9
5
HCC
Types
mA
5
5
HCF
Types
IOL
Output
Sink
Current
5
0.64
1.6
4.2
0.52
1.3
3.6
0.51
1.3
3.4
0.44
1.1
3.0
1
HCC
Types
10
15
5
10
15
2.6
6.8
1
2.6
6.8
mA
HCF
Types
2.4
IIH, IIL Input
Leakage
HCC
Types
HCF
Types
0/18
18
± 0.1
±10–5 ± 0.1
± 1
Any Input
0/18
µA
Current
15
18
± 0.3
± 0.4
±10–5 ± 0.3
± 10-4 ± 0.4
± 1
0/15
0/18
I
OH, IO L 3-state
Output
HCC
Types
HCF
Types
± 12
µA
Leakage
Current
0/15
0/15
15
± 1.0
± 10-4 ± 1.0
± 7.5
CI
Input Capacitance
Any Input
5
7.5
pF
* TLow = – 55°C for HCC device : – 40°C for HCF device.
* THigh = + 125°C for HCC device : + 85°C for HCF device.
The Noise Margin for both ”1” and ”0” level is : 1V min. with VDD = 5V, 2V min. with VDD = 10V, 2.5V min. with VDD = 15V.
5/14
HCC/HCF4094B
DYNAMIC ELECTRICAL CHARACTERISTICS (Tamb = 25°C, CL = 50pF, RL = 200kΩ,
typical temperature coefficient for all VDD = 0.3%/°C values , all input rise and fall time = 20ns)
Test Conditions
Value
Symbol
Parameter
Unit
V DD (V) Min. Typ. Max.
t
t
t
t
PLH, tPHL Propagation Delay Time Clock to
Serial Output QS
5
300
125
95
600
250
190
460
220
150
840
390
270
580
290
200
280
150
110
450
190
140
ns
10
15
5
PLH, tPHL Propagation Delay Time Clock to
Serial Output Q’S
230
110
75
ns
ns
10
15
5
PLH, tPHL Propagation Delay Time Clock to
Parallel Output
420
195
135
290
145
100
140
75
10
15
5
PLH, tPHL Propagation Delay Time Strobe
to Parallel Output
ns
10
15
5
tP HZ
tPL Z
tW
Propagation Delay Time Output
Enable to Parallel Output :
Output High to High Impedance
ns
10
15
5
55
Out Low to High Impedance
Strobe Pulse Width
Clock Pulse Width
225
95
ns
10
15
5
70
200
80
100
40
ns
10
15
5
70
35
tW
200
100
83
100
50
ns
10
15
5
40
tse tup
Data Setup Time
125
55
60
ns
10
15
5
30
35
20
t
TL H, tTHL Transition Time
100
50
200
100
80
ns
10
15
5
40
tr, tf
Clock Input Rise or Fall Time
15
5
µs
10
15
5
5
fmax
Maximum Clock Input Frequency
1.25
2.5
3
2.5
5
MHz
10
15
6
6/14
HCC/HCF4094B
Typical Output Low (sink) Current Characteristics.
Minimum Output Low (sink) Current Charac-
teristics.
Typical Output High (source) Current Charateris-
tics.
Minimum Output High (source) Current Charac-
teristics.
Clock-to-serial Output QS Propagation Delay vs.
CL.
Clock-to-serial Output Q’S Propagation Delay vs.
CL.
7/14
HCC/HCF4094B
Clock-to-parallel Output Propagation Delay vs. CL.
Strobe-to-parallel Output Propagation Delay vs. CL.
Output Enable-to-parallel Output Propagation
Delay vs.
Typical Transition Time vs. Load Capacitance.
Typical Maximum-clock Frequency vs. Supply
Voltage.
Dynamic Power Dissipation vs. Input Clock Fre-
quency.
8/14
HCC/HCF4094B
TYPICAL APPLICATION
REMOTE CONTROL HOLDING REGISTER
TEST CIRCUITS
Quiescent Device Current.
Noise Immunity.
Input Leakage Current.
9/14
HCC/HCF4094B
Plastic DIP16 (0.25) MECHANICAL DATA
mm
inch
TYP.
DIM.
MIN.
0.51
0.77
TYP.
MAX.
MIN.
0.020
0.030
MAX.
a1
B
b
1.65
0.065
0.5
0.020
0.010
b1
D
E
e
0.25
20
0.787
8.5
2.54
17.78
0.335
0.100
0.700
e3
F
7.1
5.1
0.280
0.201
I
L
3.3
0.130
Z
1.27
0.050
P001C
10/14
HCC/HCF4094B
Ceramic DIP16/1 MECHANICAL DATA
mm
inch
DIM.
MIN.
TYP.
MAX.
20
MIN.
TYP.
MAX.
0.787
0.276
A
B
7
D
E
3.3
0.130
0.700
0.38
0.015
e3
F
17.78
2.29
0.4
2.79
0.55
1.52
0.31
1.27
10.3
8.05
5.08
0.090
0.016
0.046
0.009
0.020
0.110
0.022
0.060
0.012
0.050
0.406
0.317
0.200
G
H
L
1.17
0.22
0.51
M
N
P
7.8
0.307
Q
P053D
11/14
HCC/HCF4094B
SO16 (Narrow) MECHANICAL DATA
mm
inch
TYP.
DIM.
MIN.
TYP.
MAX.
1.75
0.2
MIN.
MAX.
0.068
0.007
0.064
0.018
0.010
A
a1
a2
b
0.1
0.004
1.65
0.46
0.25
0.35
0.19
0.013
0.007
b1
C
0.5
0.019
c1
D
45° (typ.)
9.8
5.8
10
0.385
0.228
0.393
0.244
E
6.2
e
1.27
8.89
0.050
0.350
e3
F
3.8
4.6
0.5
4.0
5.3
0.149
0.181
0.019
0.157
0.208
0.050
0.024
G
L
1.27
0.62
M
S
8° (max.)
P013H
12/14
HCC/HCF4094B
PLCC20 MECHANICAL DATA
mm
inch
DIM.
MIN.
9.78
8.89
4.2
TYP.
MAX.
10.03
9.04
MIN.
0.385
0.350
0.165
TYP.
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
13/14
HCC/HCF4094B
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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14/14
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