Philips 74LV4052U, 74LV4052PW, 74LV4052DB, 74LV4052D Datasheet

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74LV4052
Dual 4-channel analog multiplexer/demultiplexer
Product specification Supersedes data of 1997 Jul 15 IC24 Data Handbook
INTEGRATED CIRCUITS
Philips Semiconductors Product specification
74L V4052Dual 4-channel analog multiplexer/demultiplexer
2
1998 Jun 23 853-1999 19618
FEA TURES
Optimized for low voltage applications: 1.0 to 6.0 V
Accepts TTL input levels between V
CC
= 2.7 V and V
CC
= 3.6 V
Low typ “ON” resistance:
60 at V
cc
– VEE = 4.5 V
90 at V
cc
– VEE = 3.0 V
145  at Vcc – VEE = 2.0 V
Logic level translation: to enable 3 V logic to communicate with ± 3
V analog signals
Typical “break before make” built in
Analog/Digital multiplexing and demultiplexing
Signal gating
Output capability: non-standard
I
CC
category: MSI
DESCRIPTION
The 74LV4052 is a low-voltage CMOS device and is pin and function compatible with the 74HC/HCT4052.
The 74LV4052 is a dual 4-channel analog multiplexer/demultiplexer with a common select logic. Each multiplexer has four independent inputs/outputs (nY
0
to nY3) and a common input/output (nZ). The
common channel select logics include two digital select inputs (S
0
and S1) and an active LOW enable input (E). With E
LOW, one of the four switches is selected (low impedance
ON-state) by S
0
and S1. With E HIGH, all switches are in the high
impedance OFF-state, independent of S
0
and S1. VCC and GND are
the supply voltage pins for the digital control inputs (S
0
, S1 and E).
The V
CC
to GND ranges are 1.0 to 6.0 V . The analog inputs/outputs
(nY
0
, to nY3, and nZ) can swing between VCC as a positive limit and
V
EE
as a negative limit. VCC - VEE may not exceed 6.0 V . For
operation as a digital multiplexer/demultiplexer, V
EE
is connected to
GND (typically ground).
QUICK REFERENCE DA TA
GND = 0 V; T
amb
= 25°C; tr =t
f
2.5 ns
SYMBOL PARAMETER CONDITIONS TYPICAL UNIT
t
PZH/tPZL
Turn “ON” time E or V
OS
S
n
CL = 15 pF R
L
= 1K
30
t
PHZ/tPLZ
Turn “OFF” time E or V
OS
S
n
VCC = 3.3 V
22
ns
C
I
Input capacitance 3.5
C
PD
Power dissipation capacitance per switch See Notes 1 and 2 57
p
C
S
Maximum switch capacitance independent (Y) common (Z)
5
12
F
NOTES:
1. C
PD
is used to determine the dynamic power dissipation (PD in µW)
P
D
= CPD × V
CC
2
× fi  ((C
L +
CS) × V
CC
2
× fo) where:
f
i
= input frequency in MHz; CL = output load capacity in pF;
f
o
= output frequency in MHz; CS = maximum switch capacitance in pF;
V
CC
= supply voltage in V;
((C
L
+CS) × V
CC
2
× fo) = sum of the outputs.
2. The condition is V
I
= GND to VCC.
ORDERING INFORMATION
PACKAGES TEMPERATURE RANGE OUTSIDE NORTH AMERICA NORTH AMERICA Code
16-Pin Plastic DIL –40°C to +125°C 74LV4052 N 74LV4052 N SOT38-4 16-Pin Plastic SO –40°C to +125°C 74LV4052 D 74LV4052 D SOT109-1 16-Pin Plastic SSOP T ype II –40°C to +125°C 74LV4052 DB 74LV4052 DB SOT338-1 16-Pin Plastic TSSOP T ype I –40°C to +125°C 74L V4052 PW 74LV4052PW DH SOT403-1
PIN CONFIGURATION
SV01697
14 13 12 11 10
9
8
7
6
5
4
3
2
1
15
16
GND
V
CC
2Y
0
2Y
2
2Z
2Y
3
2Y
1
E
V
EE
1Y
2
1Y
1
1Z 1Y
0
1Y
3
S
0
S
1
PIN DESCRIPTION
PIN NUMBER SYMBOL FUNCTION
1, 5, 2, 4 2Y0, 2Y
3
Independent inputs/outputs 6 E Enable input (active LOW) 7 V
EE
Negative supply voltage 8 GND Ground (0 V) 10, 9 S0, S
1
Select inputs 12, 14, 15, 11 1Y0 to 1Y3Independent inputs/outputs 13, 3 1Z, 2Z Common inputs/outputs 16 V
CC
Positive supply voltage
Philips Semiconductors Product specification
74LV4052
Dual 4-channel analog multiplexer/demultiplexer
1998 Jun 23
3
LOGIC SYMBOL
SV01698
10
9
6
S
0
1Z
2Z
S
1
E
4
15
14
11
12
5
3
13
1
2
2Y
3
1Y
2
1Y
1
1Y
3
1Y
0
2Y
1
2Y
0
2Y
2
FUNCTION T ABLE
INPUTS
CHANNEL
E S
1
S
0
ON
L L L nY0 – nZ L L H nY1 – nZ L H L nY2 – nZ L H H nY3 – nZ
H X X None
NOTES:
1. H = HIGH voltage level
2. L = LOW voltage level
3. X = don’t care
LOGIC SYMBOL (IEEE/IEC)
SV01699
1
0
1
2
3
12
5
14
2
15
4
11
MDX
6
9
10
4X
0
0
1
3
G4
3
13
Philips Semiconductors Product specification
74LV4052
Dual 4-channel analog multiplexer/demultiplexer
1998 Jun 23
4
FUNCTIONAL DIAGRAM
SV01700
12
14
15
11
13
3
1Y
0
10
9
6
S
0
S
1
E
1Y
1
1Y
2
1Y
3
1Z
2Z
7
16
V
EE
V
CC
8
GND
LOGIC LEVEL
CONVERSION
1–of–4
DECODER
1
5
2
4
2Y
0
2Y
1
2Y
2
2Y
3
SCHEMATIC DIAGRAM (ONE SWITCH)
SV01695
V
EE
V
EE
V
EE
Y
Z
V
CC
V
CC
V
CC
V
CC
from logic
Philips Semiconductors Product specification
74LV4052
Dual 4-channel analog multiplexer/demultiplexer
1998 Jun 23
5
ABSOLUTE MAXIMUM RATINGS
1, 2
In accordance with the Absolute Maximum Rating System (IEC 134). Voltages are referenced to GND (ground = 0 V).
SYMBOL
PARAMETER CONDITIONS RATING UNIT
V
CC
DC supply voltage –0.5 to +7.0 V
I
IK
DC input diode current VI < –0.5 or VI > VCC + 0.5 V 20 mA
I
SK
DC switch diode current VS < –0.5 or VS > VCC + 0.5 V 20 mA
I
S
DC switch current –0.5 V < VS < VCC + 0.5 V 25 mA
T
stg
Storage temperature range –65 to +150 °C
P
TOT
Power dissipation per package – plastic DIL – plastic mini-pack (SO) – plastic shrink mini-pack (SSOP and TSSOP)
for temperature range: –40 to +125°C above +70°C derate linearly with 12 mW/K above +70°C derate linearly with 8 mW/K above +60°C derate linearly with 5.5 mW/K
750 500 400
mW
NOTES:
1. Stresses beyond those listed may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability .
2. The input and output voltage ratings may be exceeded if the input and output current ratings are observed.
RECOMMENDED OPERATING CONDITIONS
SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNIT
V
CC
DC supply voltage See Note 1 and Figure 5 1.0 3.3 6.0 V
V
I
Input voltage 0 V
CC
V
V
O
Output voltage 0 V
CC
V
T
amb
Operating ambient temperature range in free air
See DC and AC
characteristics
–40 –40
+85
+125
°C
tr, t
f
Input rise and fall times
VCC = 1.0 V to 2.0 V VCC = 2.0 V to 2.7 V VCC = 2.7 V to 6.0 V
– – –
– – –
500 200 100
ns/V
NOTE:
1. The LV is guaranteed to function down to V
CC
= 1.0V (input levels GND or VCC); DC characteristics are guaranteed from VCC = 1.2V to VCC = 6.0V .
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