MOTOROLA MC74HC4351ADT

SEMICONDUCTOR TECHNICAL DATA
"
" !
High–Performance Silicon–Gate CMOS
N SUFFIX
PLASTIC PACKAGE
CASE 738–03
20
The MC74HC4351A utilizes silicon–gate CMOS technology to achieve
fast propagation delays, low ON resistances, and low OFF leakage currents.
These analog multiplexers/demultiplexers control analog voltages that may
vary across the complete power supply range (from VCC to VEE).
The Channel–Select inputs determine which one of the Analog Inputs/
Outputs is to be connected, by means of an analog switch, to the Common
Output/Input. The data at the Channel–Select inputs may be latched by
using the active–low Latch Enable pin. When Latch Enable is high, the latch
is transparent. When either Enable 1 (active low) or Enable 2 (active high) is
inactive, all analog switches are turned off.
The Channel–Select and Enable inputs are compatible with standard
CMOS outputs; with pullup resistors, they are compatible with LSTTL
outputs.
The device has been designed so the ON resistance (Ron) is more linear
over input voltage than Ron of metal–gate CMOS analog switches.
For multiplexers/demultiplexers without latches, see the HC4051A,
HC4052A, and HC4053A.
1
DW SUFFIX
SOIC PACKAGE
CASE 751D–04
20
1
DT SUFFIX
TSSOP PACKAGE
CASE 948E–02
20
1
ORDERING INFORMATION
MC74HCXXXXAN
Plastic
MC74HCXXXXADW SOIC
MC74HCXXXXADT TSSOP
•
•
•
•
•
•
•
•
Fast Switching and Propagation Speeds
Low Crosstalk Between Switches
Diode Protection on All Inputs/Outputs
Analog Power Supply Range (VCC – VEE) = 2.0 to 12.0 V
Digital (Control) Power Supply Range (VCC – GND) = 2.0 to 6.0 V
Improved Linearity and Lower ON Resistance than Metal–Gate Types
Low Noise
In Compliance with the Requirements Defined by JEDEC Standard
No. 7A
• Chip Complexity: 222 FETs or 55.5 Equivalent Gates
PIN ASSIGNMENT
MC74HC4351A
X4
1
20
VCC
X6
2
19
X2
NC
3
18
X1
X
4
17
X0
X7
5
16
X3
X5
6
15
A
ENABLE 1
7
14
NC
ENABLE 2
8
13
B
VEE
9
12
GND
10
11
C
LATCH
ENABLE
NC = NO CONNECTION
This document contains information on a new product. Specifications and information herein are subject to
change without notice.
12/97
 Motorola, Inc. 1997
1
REV 0
MC74HC4351A
LOGIC DIAGRAM
MC74HC4351A
Single–Pole, 8–Position Plus Common Off and Address Latch
ANALOG
INPUTS/OUTPUTS
CHANNEL–SELECT
INPUTS
A
B
C
LATCH ENABLE
SWITCH
ENABLE 1
ENABLES ENABLE 2
17
X0
18
X1
19
X2
16
X3
1
X4
6
X5
2
X6
5
X7
FUNCTION TABLE
MC74HC4351
MULTIPLEXER/
DEMULTIPLEXER
4
X
12
Enable
1
CHANNEL
ADDRESS
LATCH
PIN 20 = VCC
PIN 9 = VEE
PIN 10 = GND
PINS 3, 14 = NC
11
7
8
2
Select
C
B
A
ON
Channel
(LE = H)*
L
H
L
L
L
X0
L
H
L
L
H
X1
L
H
L
H
L
X2
L
H
L
H
H
X3
L
H
H
L
L
X4
L
H
H
L
H
X5
L
H
H
H
L
X6
L
H
H
H
H
X
X7
H
X
X
X
X
No e
None
X
L
X
X
X
N
None
X = don’t care
* When Latch Enable is low, the Channel
Selection is latched and the Channel
Address Latch does not change states.
15
13
Control Inputs
COMMON
OUTPUT/INPUT
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MAXIMUM RATINGS*
Symbol
Parameter
(Ref. to GND)
(Ref. to VEE)
Value
Unit
– 0.5 to + 7.0
– 0.5 to 14.0
V
VCC
Positive DC Supply Voltage
VEE
Negative DC Supply Voltage (Ref. to GND)
– 7.0 to + 0.5
V
VIS
Analog Input Voltage
VEE – 0.5
to VCC + 0.5
V
Vin
DC Input Voltage (Ref. to GND)
– 0.5 to VCC + 0.5
V
DC Current Into or Out of Any Pin
± 25
mA
PD
Power Dissipation in Still Air,
Plastic DIP†
SOIC or TSSOP Package†
750
500
mW
Tstg
Storage Temperature
– 65 to + 150
_C
I
TL
_C
Lead Temperature, 1 mm from Case for
10 Seconds
(Plastic DIP or SOIC Package)
260
This device contains protection
circuitry to guard against damage
due to high static voltages or electric
fields. However, precautions must
be taken to avoid applications of any
voltage higher than maximum rated
voltages to this high–impedance circuit. For proper operation, Vin and
Vout should be constrained to the
ranges indicated in the Recommended Operating Conditions.
Unused digital input pins must be
tied to an appropriate logic voltage
level (e.g., either GND or VCC).
Unused Analog I/O pins may be left
open or terminated. See Applications Information.
* Maximum Ratings are those values beyond which damage to the device may occur.
Functional operation should be restricted to the Recommended Operating Conditions.
†Derating — Plastic DIP: – 10 mW/_C from 65_ to 125_C
SOIC Package: – 7 mW/_C from 65_ to 125_C
TSSOP Package: – 6.1 mW/_C from 65_ to 125_C
For high frequency or heavy load considerations, see Chapter 2 of the Motorola High–Speed CMOS Data Book (DL129/D).
MOTOROLA
2
High–Speed CMOS Logic Data
DL129 — Rev 6
MC74HC4351A
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RECOMMENDED OPERATING CONDITIONS
Symbol
Min
Max
Unit
VCC
Positive DC Supply Voltage
(Ref. to GND)
(Ref. to VEE)
2.0
2.0
6.0
12.0
V
VEE
Negative DC Supply Voltage
(Ref. to GND)
– 6.0
GND
V
VIS
Analog Input Voltage
VEE
VCC
V
Vin
Digital Input Voltage (Ref. to GND)
GND
VCC
V
—
1.2
V
– 55
+ 125
_C
0
0
0
1000
500
400
ns
VIO*
Parameter
Static or Dynamic Voltage Across Switch
TA
Operating Temperature, All Package Types
tr, tf
Input Rise and Fall Time,
Channel Select or Enable
Inputs (Figure 9a)
VCC = 2.0 V
VCC = 4.5 V
VCC = 6.0 V
* For voltage drops across the switch greater than 1.2 V (switch on), excessive VCC current may
be drawn; i.e., the current out of the switch may contain both VCC and switch input components.
The reliability of the device will be unaffected unless the Maximum Ratings are exceeded.
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DC ELECTRICAL CHARACTERISTICS Digital Section (Voltages Referenced to GND) VEE = GND, Except Where Noted
Guaranteed Limit
S b l
Symbol
P
Parameter
T
Test
C
Conditions
di i
VCC
V
– 55 to
25_C
85_C
125_C
U i
Unit
VIH
Minimum High–Level Input
Voltage, Channel–Select or
Enable Inputs
Ron = Per Spec
2.0
3.0
4.5
6.0
1.5
2.1
3.15
4.2
1.5
2.1
3.15
4.2
1.5
2.1
3.15
4.2
V
VIL
Maximum Low–Level Input
Voltage, Channel–Select or
Enable Inputs
Ron = Per Spec
2.0
3.0
4.5
6.0
0.5
0.9
1.35
1.8
0.5
0.9
1.35
1.8
0.5
0.9
1.35
1.8
V
Iin
Maximum Input Leakage
Current, Channel–Select or
Enable Inputs
Vin = VCC or GND,
VEE = – 6.0 V
6.0
± 0.1
± 1.0
± 1.0
µA
ICC
Maximum Quiescent Supply
Current (per Package)
Channel Select = VCC or GND
Enables = VCC or GND
VIS = VCC or GND VEE = GND
VIO = 0 V
VEE = – 6.0
µA
6.0
6.0
1
4
10
40
40
160
NOTE: Information on typical parametric values can be found in Chapter 2 of the Motorola High–Speed CMOS Data Book (DL129/D).
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DC ELECTRICAL CHARACTERISTICS Analog Section
Guaranteed Limit
S b l
Symbol
Ron
∆Ron
P
Parameter
Maximum “ON” Resistance
Maximum Difference in “ON”
Resistance Between Any Two
Channels in the Same Package
High–Speed CMOS Logic Data
DL129 — Rev 6
VCC
V
VEE
V
– 55 to
25_C
85_C
125_C
Vin = VIL or VIH
VIS = VCC to VEE
IS
2.0 mA (Figures 1, 2)
Vin = VIL or VIH
VIS = VCC or VEE (Endpoints)
IS
2.0 mA (Figures 1, 2)
4.5
4.5
6.0
0.0
– 4.5
– 6.0
190
120
100
240
150
125
280
170
140
4.5
4.5
6.0
0.0
– 4.5
– 6.0
150
100
80
190
125
100
230
140
115
Vin = VIL or VIH
VIS = 1/2 (VCC – VEE)
IS
2.0 mA
4.5
4.5
6.0
0.0
– 4.5
– 6.0
30
12
10
35
15
12
40
18
14
T
Test
C
Conditions
di i
3
U i
Unit
Ω
Ω
MOTOROLA
MC74HC4351A
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DC ELECTRICAL CHARACTERISTICS Analog Section
Guaranteed Limit
Symbol
Parameter
Ioff
Maximum Off–Channel Leakage
Current, Any One Channel
Vin = VIL or VIH
VIO = VCC – VEE
Switch Off (Figure 3)
Maximum Off–Channel Leakage
Current, Common Channel
Vin = VIL or VIH
VIO = VCC – VEE
Switch Off (Figure 4)
Ion
Test Conditions
Maximum On–Channel Leakage
Current, Channel to Channel
Vin = VIL or VIH
Switch to Switch = VCC – VEE
(Figure 5)
VCC
V
VEE
V
– 55 to
25_C
6.0
– 6.0
6.0
– 6.0
85_C
125_C
0.1
0.5
1.0
0.2
2.0
4.0
Unit
µA
µA
6.0
– 6.0
0.2
2.0
4.0
AC ELECTRICAL CHARACTERISTICS (CL = 50 pF, Input tr = tf = 6 ns)
Guaranteed Limit
S b l
Symbol
P
Parameter
VCC
V
– 55 to
25_C
85_C
125_C
U i
Unit
tPLH,
tPHL
Maximum Propagation Delay, Channel–Select to Analog Output
(Figure 9)
2.0
4.5
6.0
370
74
63
465
93
79
550
110
94
ns
tPLH,
tPHL
Maximum Propagation Delay, Analog Input to Analog Output
(Figure 10)
2.0
4.5
6.0
60
12
10
75
15
13
90
18
15
ns
tPLH,
tPHL
Maximum Propagation Delay, Latch Enable to Analog Output
(Figure 12)
2.0
4.5
6.0
325
65
55
410
82
70
485
97
82
ns
tPLZ,
tPHZ
Maximum Propagation Delay, Enable 1 or 2 to Analog Output
(Figure 11)
2.0
4.5
6.0
290
58
49
365
73
62
435
87
74
ns
tPZL,
tPZH
Maximum Propagation Delay, Enable 1 or 2 to Analog Output
(Figure 11)
2.0
4.5
6.0
345
69
59
435
87
74
515
103
87
ns
Cin
Cl/O
Maximum Input Capacitance
—
10
10
10
pF
—
35
35
35
pF
Common O/I
—
130
130
130
Feedthrough
—
1.0
1.0
1.0
Maximum Capacitance Analog I/O
Enable 1 = VIH, Enable 2 = VIL
NOTES:
1. For propagation delays with loads other than 50 pF, see Chapter 2 of the Motorola High–Speed CMOS Data Book (DL129/D).
2. Information on typical parametric values can be found in Chapter 2 of the Motorola High–Speed CMOS Data Book (DL129/D).
CPD
Power Dissipation Capacitance (Per Package) (Figure 14)*
14)
Typical @ 25°C, VCC = 5.0 V
pF
45
* Used to determine the no–load dynamic power consumption: P D = C PD V CC 2 f + I CC V CC . For load considerations, see Chapter 2 of the
Motorola High–Speed CMOS Data Book (DL129/D).
MOTOROLA
4
High–Speed CMOS Logic Data
DL129 — Rev 6
MC74HC4351A
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TIMING REQUIREMENTS (Input tr = tf = 6 ns)
Guaranteed Limit
VCC
V
– 55 to
25_C
85_C
125_C
tsu
Minimum Setup Time, Channel–Select to Latch Enable
(Figure 12)
2.0
4.5
6.0
100
20
17
125
25
21
150
30
26
ns
th
Minimum Hold Time, Latch Enable to Channel Select
(Figure 12)
2.0
4.5
6.0
0
0
0
0
0
0
0
0
0
ns
tw
Minimum Pulse Width, Latch Enable
(Figure 12)
2.0
4.5
6.0
80
16
14
100
20
17
120
24
20
ns
Maximum Input Rise and Fall Times, Channel–Select, Latch Enable,
and Enables 1 and 2
2.0
4.5
6.0
1000
500
400
1000
500
400
1000
500
400
ns
S b l
Symbol
tr, tf
P
Parameter
U i
Unit
NOTE: Information on typical parametric values can be found in Chapter 2 of the Motorola High–Speed CMOS Data Book (DL129/D).
ADDITIONAL APPLICATION CHARACTERISTICS (GND = 0.0 V)
Limit*
S b l
Symbol
P
Parameter
T
Test
C
Condition
di i
BW
Maximum On–Channel Bandwidth or
Minimum Frequency Response
(Figure 6)
fin = 1 MHz Sine Wave
Adjust fin Voltage to Obtain 0 dBm at VOS
Increase fin Frequency Until dB Meter
Reads – 3 dB
RL = 50 Ω, CL = 10 pF
Off–Channel Feedthrough Isolation
(Figure 7)
fin
Sine Wave
Adjust fin Voltage to Obtain 0 dBm at VIS
fin = 10 kHz, RL = 600 Ω, CL = 50 pF
—
fin = 1.0 MHz, RL = 50 Ω, CL = 10 pF
—
Feedthrough Noise, Channel Select
Input to Common O/I
(Figure 8)
Vin
1 MHz Square Wave
(tr = tf = 6 ns)
Adjust RL at Setup so that IS = 0 A
Enable = GND
RL = 600 Ω, CL = 50 pF
RL = 10 kΩ, CL = 10 pF
—
Crosstalk Between Any Two Switches
(Figure 13)
(Test does not apply to HC4351)
fin
Sine Wave
Adjust fin Voltage to Obtain 0 dBm at VIS
fin = 10 kHz, RL = 600 Ω, CL = 50 pF
fin = 1 MHz, RL = 50 Ω, CL = 10 pF
THD
Total Harmonic Distortion
(Figure 15)
fin = 1 kHz, RL = 10 kΩ, CL = 50 pF
THD = THDMeasured – THDSource
VIS = 4.0 VPP sine wave
VIS = 8.0 VPP sine wave
VIS = 11.0 VPP sine wave
VCC
V
2.25
4.50
6.00
25_C
74HC
VEE
V
– 2.25
– 4.50
– 6.00
U i
Unit
51
52
53
80
80
80
95
95
95
120
120
120
MHz
dB
2.25
4.50
6.00
– 2.25
– 4.50
– 6.00
– 50
– 50
– 50
2.25
4.50
6.00
– 2.25
– 4.50
– 6.00
– 40
– 40
– 40
mVPP
2.25
4.50
6.00
– 2.25
– 4.50
– 6.00
25
105
135
2.25
4.50
6.00
– 2.25
– 4.50
– 6.00
35
145
190
dB
2.25
4.50
6.00
– 2.25
– 4.50
– 6.00
– 50
– 50
– 50
2.25
4.50
6.00
– 2.25
– 4.50
– 6.00
– 60
– 60
– 60
%
2.25
4.50
6.00
– 2.25
– 4.50
– 6.00
0.10
0.08
0.05
* Limits not tested. Determined by design and verified by qualification.
High–Speed CMOS Logic Data
DL129 — Rev 6
5
MOTOROLA
250
Ron , ON RESISTANCE (OHMS)
Ron , ON RESISTANCE (OHMS)
MC74HC4351A
200
125°C
150
25°C
TBD
100
– 55°C
50
0
0.25
0.50
0.75
1.0
1.25
1.5
1.75
2.0
100
125°C
80
25°C
60
TBD
– 55°C
40
20
2.25
0
0.5
VIS, INPUT VOLTAGE (VOLTS), REFERENCED TO VEE
25°C
Ron , ON RESISTANCE (OHMS)
Ron , ON RESISTANCE (OHMS)
75
60
TBD
45
– 55°C
30
15
0
0.5
1.0
1.5 2.0
2.5
3.0
3.5
4.0 4.5
5.0
5.5
2.0
2.5
3.0
4.0
3.5
4.5
Figure 1b. Typical On Resistance, VCC – VEE = 4.5 V
105
125°C
1.5
VIS, INPUT VOLTAGE (VOLTS), REFERENCED TO VEE
Figure 1a. Typical On Resistance, VCC – VEE = 2.0 V
90
1.0
75
125°C
60
25°C
45
TBD
– 55°C
30
15
0
6.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
VIS, INPUT VOLTAGE (VOLTS), REFERENCED TO VEE
VIS, INPUT VOLTAGE (VOLTS), REFERENCED TO VEE
Figure 1c. Typical On Resistance, VCC – VEE = 6.0 V
Figure 1d. Typical On Resistance, VCC – VEE = 9.0 V
PLOTTER
Ron , ON RESISTANCE (OHMS)
70
60
125°C
50
25°C
40
PROGRAMMABLE
POWER
SUPPLY
TBD
–
MINI COMPUTER
+
VCC
– 55°C
30
DEVICE
UNDER TEST
20
10
ANALOG IN
0
1.0 2.0
3.0
4.0
5.0 6.0
7.0
8.0 9.0 10.0 11.0 12.0
GND
VIS, INPUT VOLTAGE (VOLTS), REFERENCED TO VEE
Figure 1e. Typical On Resistance, VCC – VEE = 12.0 V
MOTOROLA
DC ANALYZER
COMMON OUT
VEE
Figure 2. On Resistance Test Set–Up
6
High–Speed CMOS Logic Data
DL129 — Rev 6
MC74HC4351A
VCC
VCC
VEE
ANALOG I/O
20
VEE
ANALOG I/O
OFF
A
VCC
VCC
VCC
20
OFF
NC
A
OFF
7
8
9
10
VIH
OFF
VCC
COMMON O/I
7
8
9
10
VIH
VEE
VEE
Figure 3. Maximum Off Channel Leakage Current,
Any One Channel, Test Set–Up
Figure 4. Maximum Off Channel Leakage Current,
Common Channel, Test Set–Up
VCC
VCC
VCC
20
A
COMMON O/I
OFF
VEE
dB
METER
ON
N/C
RL
CL*
VCC
ANALOG I/O
7
8
9
10
7
8
9
10
VIL
VIH
VOS
20
0.1µF
fin
ON
VCC
COMMON O/I
VEE
VEE
*Includes all probe and jig capacitance.
Figure 5. Maximum On Channel Leakage Current,
Channel to Channel, Test Set–Up
VCC
VIS
0.1 µF
VOS
20
fin
OFF
CL*
RL
Figure 6. Maximum On Channel Bandwidth,
Test Set–Up
VCC
dB
METER
RL
20
RL
ON/OFF
COMMON O/I
ANALOG I/O
OFF/ON
7
8
9
10
VEE
VCC
VCC
GND
*Includes all probe and jig capacitance.
VCC
11
VEE
CHANNEL SELECT
*Includes all probe and jig capacitance.
Figure 7. Off Channel Feedthrough Isolation,
Test Set–Up
High–Speed CMOS Logic Data
DL129 — Rev 6
Vin ≤ 1 MHz
tr = tf = 6 ns
7
8
9
10
CL*
RL
RL
TEST
POINT
Figure 8. Feedthrough Noise, Channel Select to
Common Out, Test Set–Up
7
MOTOROLA
MC74HC4351A
VCC
VCC
20
ON/OFF
ANALOG I/O
tr
tf
VCC
90%
50%
10%
CHANNEL SELECT
OFF/ON
TEST
POINT
CL*
VCC
7
8
9
10
GND
tPLH
COMMON O/I
tPHL
50%
ANALOG OUT
CHANNEL SELECT
*Includes all probe and jig capacitance.
Figure 9a. Propagation Delays, Channel Select
to Analog Out
Figure 9b. Propagation Delay, Test Set–Up Channel
Select to Analog Out
VCC
20
COMMON O/I
ANALOG I/O
ON
ANALOG
IN
VCC
CL*
VCC
50%
7
8
9
10
GND
tPLH
tPHL
ANALOG
OUT
TEST
POINT
50%
*Includes all probe and jig capacitance.
Figure 10b. Propagation Delay, Test Set–Up
Analog In to Analog Out
Figure 10a. Propagation Delays, Analog In to
Analog Out
POSITION 1 WHEN TESTING tPHZ AND tPZH
1
POSITION 2 WHEN TESTING tPLZ AND tPZL
2
VCC
ENABLE
50%
1
GND
tPZL
ANALOG
OUT
50%
tPHZ
10%
VOL
90%
VOH
ON/OFF
CL*
ENABLE
HIGH
IMPEDANCE
Figure 11a. Propagation Delay, Enable 1 or 2
to Analog Out
MOTOROLA
1 kΩ
ANALOG I/O
2
HIGH
IMPEDANCE
50%
tPZH
ANALOG
OUT
tPLZ
VCC
20
VCC
TEST
POINT
7
8
9
10
Figure 11b. Propagation Delay, Test Set–Up
Enable to Analog Out
8
High–Speed CMOS Logic Data
DL129 — Rev 6
MC74HC4351A
VCC
VCC
CHANNEL
SELECT
20
VCC
50%
ON/OFF
ANALOG I/O
GND
tsu
th
tr
tf
10%
OFF/ON
7
8
9
10
GND
tw
TEST
POINT
CL*
VCC
VCC
90%
50%
LATCH
ENABLE 2
COMMON O/I
11
LATCH ENABLE
COMMON O/I
50%
CHANNEL SELECT
tPLH,
tPHL
*Includes all probe and jig capacitance.
Figure 12a. Propagation Delay, Latch Enable to
Analog Out
VIS
Figure 12b. Propagation Delay, Test Set–Up
Latch Enable to Analog Out
VCC
VCC
A
20
RL
fin
VCC
VOS
ON
0.1 µF
dB
METER
VEE
NC
ANALOG I/O
OFF
VCC
20
ON/OFF
COMMON O/I
OFF/ON
VCC
RL
RL
RL
CL*
CL*
7
8
9
10
7
8
9
10
VCC
11
VEE
CHANNEL SELECT
*Includes all probe and jig capacitance.
Figure 13. Crosstalk Between Any Two
Switches, Test Set–Up
Figure 14. Power Dissipation Capacitance,
Test Set-Up
0
– 10
VCC
0.1 µF
VOS
fin
ON
RL
FUNDAMENTAL FREQUENCY
– 20
20
CL*
TO
DISTORTION
METER
– 30
– 40
dB
VIS
VCC
– 50
DEVICE
– 60
7
8
9
10
SOURCE
– 70
– 80
– 90
VEE
1.0
*Includes all probe and jig capacitance.
2.0
3.125
FREQUENCY (kHz)
Figure 15a. Total Harmonic Distortion, Test Set-Up
High–Speed CMOS Logic Data
DL129 — Rev 6
Figure 15b. Plot, Harmonic Distortion
9
MOTOROLA
MC74HC4351A
The Channel Select and Enable control pins should be at
VCC or GND logic levels. VCC being recognized as a logic
high and GND being recognized as a logic low. In this
example:
ever, tying unused analog inputs and outputs to VCC or GND
through a low value resistor helps minimize crosstalk and
feedthrough noise that may be picked up by an unused
switch.
Although used here, balanced supplies are not a requirement. The only constraints on the power supplies are that:
VCC = + 5 V = logic high
VCC – GND = 2 to 6 volts
GND = 0 V = logic low
VEE – GND = 0 to – 6 volts
The maximum analog voltage swings are determined by
the supply voltages VCC and VEE. The positive peak analog
voltage should not exceed VCC. Similarly, the negative peak
analog voltage should not go below VEE. In this example, the
difference between VCC and VEE is ten volts. Therefore, using the configuration in Figure 16, a maximum analog signal
of ten volts peak–to–peak can be controlled. Unused analog
inputs/outputs may be left floating (i.e., not connected). How-
VCC – VEE = 2 to 12 volts
APPLICATIONS INFORMATION
and VEE
When voltage transients above VCC and/or below VEE are
anticipated on the analog channels, external Germanium or
Schottky diodes (D x ) are recommended as shown in
Figure 17. These diodes should be able to absorb the maximum anticipated current surges during clipping.
VCC
+5 V
+5V
–5V
20
ANALOG
SIGNAL
VCC
20
Dx
+5V
ANALOG
SIGNAL
ON
v GND
–5V
Dx
Dx
VEE
TO EXTERNAL CMOS
CIRCUITRY
0 TO 5 V DIGITAL
SIGNALS
15
13
12
11
Dx
ON/OFF
+5 V
7
8
9
10
VCC
VEE
9
10
–5 V
VEE
Figure 16. Application Example
Figure 17. External Germanium or
Schottky Clipping Diodes
+5V
+5V
+5V
VEE
20
ANALOG
SIGNAL
ON/OFF
+5V
ANALOG
SIGNAL
+5V
+5V
VEE
VEE
20
ANALOG
SIGNAL
ANALOG
SIGNAL
ON/OFF
*
7
8
9
10
VEE
VEE
+5V
R
VCC
+5V
R
R
15
13
12
11
VCC
R
LSTTL/NMOS
CIRCUITRY
* 2 k ≤ R ≤ 10 k
7
15
8
13
9
12
10
11
HCT
BUFFER
VEE
a. Using Pull–Up Resistors
LSTTL/NMOS
CIRCUITRY
b. Using HCT Interface
Figure 18. Interfacing LSTTL/NMOS to CMOS Inputs
MOTOROLA
10
High–Speed CMOS Logic Data
DL129 — Rev 6
MC74HC4351A
FUNCTION DIAGRAM HC4351A
A
15
LATCH &
LEVEL SHIFTER
17
X0
X1
B
13
LATCH &
LEVEL SHIFTER
X2
X3
C
12
LATCH &
LEVEL SHIFTER
X4
6
LATCH 11
ENABLE
ENABLE 1
7
2
LEVEL SHIFTER
ENABLE 2
X5
X6
8
5
4
High–Speed CMOS Logic Data
DL129 — Rev 6
11
X7
X
MOTOROLA
MC74HC4351A
OUTLINE DIMENSIONS
N SUFFIX
PLASTIC PACKAGE
CASE 738–03
ISSUE E
–A–
20
11
1
10
NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
2. CONTROLLING DIMENSION: INCH.
3. DIMENSION L TO CENTER OF LEAD WHEN
FORMED PARALLEL.
4. DIMENSION B DOES NOT INCLUDE MOLD
FLASH.
B
L
C
–T–
K
SEATING
PLANE
M
N
E
G
F
J
D
M
T A
11
–B–
10X
P
0.010 (0.25)
1
M
B
M
10
20X
D
0.010 (0.25)
M
T A
B
S
J
S
F
R X 45 _
C
–T–
18X
G
K
SEATING
PLANE
M
T B
M
M
DW SUFFIX
PLASTIC SOIC PACKAGE
CASE 751D–04
ISSUE E
–A–
20
20 PL
0.25 (0.010)
20 PL
0.25 (0.010)
MOTOROLA
DIM
A
B
C
D
E
F
G
J
K
L
M
N
INCHES
MIN
MAX
1.010
1.070
0.240
0.260
0.150
0.180
0.015
0.022
0.050 BSC
0.050
0.070
0.100 BSC
0.008
0.015
0.110
0.140
0.300 BSC
0_
15 _
0.020
0.040
MILLIMETERS
MIN
MAX
25.66
27.17
6.10
6.60
3.81
4.57
0.39
0.55
1.27 BSC
1.27
1.77
2.54 BSC
0.21
0.38
2.80
3.55
7.62 BSC
0_
15_
0.51
1.01
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. DIMENSIONS A AND B DO NOT INCLUDE
MOLD PROTRUSION.
4. MAXIMUM MOLD PROTRUSION 0.150
(0.006) PER SIDE.
5. DIMENSION D DOES NOT INCLUDE
DAMBAR PROTRUSION. ALLOWABLE
DAMBAR PROTRUSION SHALL BE 0.13
(0.005) TOTAL IN EXCESS OF D DIMENSION
AT MAXIMUM MATERIAL CONDITION.
DIM
A
B
C
D
F
G
J
K
M
P
R
MILLIMETERS
MIN
MAX
12.65
12.95
7.40
7.60
2.35
2.65
0.35
0.49
0.50
0.90
1.27 BSC
0.25
0.32
0.10
0.25
0_
7_
10.05
10.55
0.25
0.75
INCHES
MIN
MAX
0.499
0.510
0.292
0.299
0.093
0.104
0.014
0.019
0.020
0.035
0.050 BSC
0.010
0.012
0.004
0.009
0_
7_
0.395
0.415
0.010
0.029
M
12
High–Speed CMOS Logic Data
DL129 — Rev 6
MC74HC4351A
OUTLINE DIMENSIONS
DT SUFFIX
PLASTIC TSSOP PACKAGE
CASE 948E–02
ISSUE A
20X
0.15 (0.006) T U
K REF
0.10 (0.004)
S
M
T U
S
V
S
ÍÍÍÍ
ÍÍÍÍ
ÍÍÍÍ
K
K1
2X
L/2
20
11
B
–U–
L
PIN 1
IDENT
J J1
SECTION N–N
1
10
0.25 (0.010)
N
0.15 (0.006) T U
S
NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. DIMENSION A DOES NOT INCLUDE MOLD
FLASH, PROTRUSIONS OR GATE BURRS. MOLD
FLASH OR GATE BURRS SHALL NOT EXCEED
0.15 (0.006) PER SIDE.
4. DIMENSION B DOES NOT INCLUDE
INTERLEAD FLASH OR PROTRUSION.
INTERLEAD FLASH OR PROTRUSION SHALL NOT
EXCEED 0.25 (0.010) PER SIDE.
5. DIMENSION K DOES NOT INCLUDE DAMBAR
PROTRUSION. ALLOWABLE DAMBAR
PROTRUSION SHALL BE 0.08 (0.003) TOTAL IN
EXCESS OF THE K DIMENSION AT MAXIMUM
MATERIAL CONDITION.
6. TERMINAL NUMBERS ARE SHOWN FOR
REFERENCE ONLY.
7. DIMENSION A AND B ARE TO BE
DETERMINED AT DATUM PLANE –W–.
M
A
–V–
N
F
DETAIL E
–W–
C
G
D
H
DETAIL E
0.100 (0.004)
–T– SEATING
DIM
A
B
C
D
F
G
H
J
J1
K
K1
L
M
MILLIMETERS
MIN
MAX
6.40
6.60
4.30
4.50
–––
1.20
0.05
0.15
0.50
0.75
0.65 BSC
0.27
0.37
0.09
0.20
0.09
0.16
0.19
0.30
0.19
0.25
6.40 BSC
0_
8_
INCHES
MIN
MAX
0.252
0.260
0.169
0.177
–––
0.047
0.002
0.006
0.020
0.030
0.026 BSC
0.011
0.015
0.004
0.008
0.004
0.006
0.007
0.012
0.007
0.010
0.252 BSC
0_
8_
PLANE
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High–Speed CMOS Logic Data
DL129 — Rev 6
◊
13
MC74HC4351A/D
MOTOROLA