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CMOS LogicXC74UL4066M
!Applications
"CMOS Logic Analog Switch #Palmtops
"Operating Voltage Range 2V to 5.5V #Digital Equipment
"High Speed Operations tpd =3ns TYP
"Low Power Consumption 1µA MAX
"Low ON Resistance Ron=22Ω TYP
!Description !Features
Mar. 6, 01 Ver. I
XC74UL4066M
CMOS
gate
one of the features of the CMOS logic, gives way to high speed analog or
digital signal switching.
As the series is integrated into a mini molded, SOT-25 package, high
density mounting is possible.
CMOS Analog Switch
is
processes. The small quiescent current, which is
manufactured using silicon
High Speed Operations
tpd = 3ns TYP
Operating Voltage Range
2V to 5.5V
Low Power Consumption
1µA MAX (Ta = 25OC)
Low ON Resistance
22Ω TYP
Small Package
SOT-25
!Pin Configuration !Functions
Control
IN/OUT
OUT/IN
GND
V
1
CC
5
2
3
CONT
4
L OFF
HON
H = High Level
L = Low Level
SOT-25
(TOP VIEW)
State
!Logic Diagram
CONT
OUT/ININ/OUT
1

XC74UL4066M CMOS Logic
!Absolute Maximum Ratings
PARAMETER
Power Supply Voltage
Control Input Voltage
Switch Output Voltage
Control Input Diode Current
Switch Output Diode Current
Switch Output Current
VCC, GND Current
Power Dissipation (Ta = 25
C)
Storage Temperature Tstg
Note : Voltage is all Ground standardized.
!Recommended Operating Conditions
PARAMETER SYMBOL UNITS
Supply Voltage
Input Voltage Vin V
Output Voltage
Operating Temperature
Input Rise and Fall Time tr, tf
O
Ta = -40
C ~ 85OC
SYMBOL
CC
V
V
Vout
I
ICC, I
CONT
IK
I
OK
I
OUT
GND
Pd
-0.5 ~ +6.0
-0.5 ~ +6.0
-0.5 ~ VCC +0.5
-20
±20
±25
±50
200
-65 ~+150
Vcc(V)
CC
V
Vout V
Topr
-
-
3.3
5.0
RATINGS
2 ~5.5
0 ~ 5.5
0 ~ VCC
-40 ~ +85
0 ~ 100
0 ~ 20
UNITSRATINGS
V
V
V
mA
mA
mA
mA
mW
O
C
V-
O
C
ns / V
!DC Electrical Characteristics
PARAMETER
"High" Level Control
Input Voltage"
SYMBOL
VIH
CONDITIONS
VCC(V)
2.0
3.0
5.5
"Low" Level Control
Input Voltage"
VIL
2.0
3.0
5.5
2.0
CONT=VIH
V
ONmax
Peak ON Resistance 3.0
ON Resistance 3.0 - 14 30 - 40
Power Off Leakage Current
Power On Leakage Current
Control Input Current
Quiscent Supply Current
R
R
ON
(1)
IS(OFF)
S
(ON)
I
CONT
I
CC
I
in/out
=1mA
CONT=VIH
in/out
=1mA
CONT=VIL,
CONT=VIH,
in=VCC
in=VCC
CC
CC
Vin=V
Vin=V
or GND
or GND
CC,
CC or
Vout=G
GND
Vin=0~V
4.5
I
2.0 - 23 50 - 65
V
Vin=GND or V
4.5 -
I
V
5.5
V
5.5 -
5.5
V
5.5
V
Ta=25OC
MIN
TYP MAX MIN MAX
1.5 -
- 1.5 -
2.1 - - 2.1 -
3.85 -
- 3.85 -
- - 0.5 - 0.5
- - 0.9 -
-
-22
-
50 - 65
12 25 -
10 20
-
±0.1
- - ±0.1 ±1.0
-- -
±0.1
- - 1.0
Ta=-40 ~ 85OC
0.9
1.65- - 1.65 550130 350 -
35
25
±1.0-
-
±1.0
5.0
-
UNITS
V
V
Ω
Ω
µA
µA
µA
µA
2

XC74UL4066M CMOS Logic
!Switching Electrical Characteristics
PARAMETER SYMBOL CONDITIONS
t
PLH
t
Propagation Delay Time
Output Enable Time
Output Disable Time
Sine Wave Distortion Rate
PHL
t
ZL
tZH
t
LZ
t
HZ
C
L
50pF
50pF
50pF
50pF
VCC(V)
2.0
3.3
5.0
2.0
3.3
5.0
2.0
3.3
5.0
3.0
RL=10kΩ
RL=1kΩ
RL=1kΩ
RL=10kΩ
IN
f
=1kHz
(tr = tf = 3ns)
O
C
Ta=25
Ta=-40 ~ 85OC
MIN TYP MAX MIN MAX
-
4
-
36
2
950 -65
-
-
510 -12
-38 -
20 - 23
12 60 - 75
-
10 23 - 27
-
-
820 -25
- 0.05 - -
-8
5-
6
10
-
UNITS
ns
ns
ns
%
-3dB Band Width
50pF
3.0
20
log10
Vout
Vin
= - 3dB
-
200
---
RL=600kΩ
RL=600kΩ
Feed Through
50pF
3.0
IN
=1MHz
f
-60
--
-
(Switch-off)
2.0
3.0
4.5
2.0
3.0
4.5
-
-
-
-
RL=600kΩ
IN
=1MHz
f
RL=1kΩ
OUT=VCC
V
/2
Cross Talk
50pF
(Control Switch)
Maximum Control
15pF
Input Frequency
Control Input Capacitance
Switch Input/Output Capacitance
Feed Through Capacitance
Power Dissipation Capacitance
CPD is defined as the value of the internal equivalent capacitance which is derived from the operating supply
Note:
C
in
Cin/out
Cin-out
PD
C
-
-
-
-
-60 - -
- 100 - - -
- 150 - -
-30
--
-30---
-30---
-5
---
- 6 10 - 10
- 0.5 - -
-13---
current at times of "No Load".
Ensure that the average operating supply current at times of "No Load" meets the following conditions:
CC
I
(opr)=CPD, VCC, Fin+I
CC
MHz
dB
-
mV
-
-
MHz
pF
pF
-
pF
pF
3

XC74UL4066M CMOS Logic
!Propagation Delay Time
!Waveforms
INPUT
10%
tr tf
90%
50%
50%
t
PLH
90%
t
PHL
10%
V
CC
GND
V
CC
PRR=1MHz
duty cycle 50%
tr=tf=3ns
OUTPUT
!Test Circuits
Generator
Pulse
50% 50%
CC
V
INPUT
ON
GND
V
CC
CONT
RL=
Ω
10k
GND
OUTPUT
CL=
50pF
Note: open output when measuring supply current
4

XC74UL4066M CMOS Logic
!Output Enable Time, Output Disable Time
!Waveforms
OUTPUT
OUTPUT
!Test Circuits
INPUT
10%
tr
90%
50%
ZH
t
50%
90%
ZL
t
50%
50%
tf
V
CC
PRR=1MHz
duty cycle 50%
tr=tf=3ns
10%
HZ
t
90%
LZ
t
10%
GND
V
CC
GND
V
CC
GND
Pulse
Generator
CC
V
INPUT
CC
V
CONT
ON/OFF
GND
CC
V
V
CC
OUTPUT
RL=
Ω
1k
CL=
50pF
5

XC74UL4066M CMOS Logic
!Sine Wave Distortion Rate
!Test Circuits
f
IN
10
* Input by sine wave
µ
INPUT
F
CONT
ON
GND
V
CC
VCC/2
RL=
Ω
V
CC
10k
OUTPUT
CL=
50pF
! -3dB Band Width
!Test Circuits
IN
f
INPUT
µ
F
0.1
* Input by sine wave
CONT
ON
GND
CC
V
V
CC
V
OUT
OUTPUT
RL=
600
Ω
CL=
50pF
6

XC74UL4066M CMOS Logic
!Feed Through Test Circuits
0.1µF
IN
f
INPUT
CONT
OFF
CC
V
V
CC
VCC/2
RL=
600
Ω
OUPUT
!Cross Talk
!Waveforms
INPUT
RIN=
Ω
600
VCC/2
* Input by sine wave
tr
90%
10%
GND
90%
CL=
50pF
tf
CC
V
PRR=1MHz
duty cycle 50%
tr=tf=3ns
10%
GND
!Test Circuits
VCC/2
Pulse
Generator
RIN=
600
Ω
CONT
OFF/ON
GND
V
CC
VCC/2
RL=
600
V
CC
Ω
OUPUT
CL=
50pF
7

XC74UL4066M CMOS Logic
!Maximum Control Input Frequency
!Waveforms
OUTPUT
!Test Circuits
INPUT
10%
tr
90%
90%
tf
10%
GND
CC
V
V
CC
tr=tf=3ns
/2
Pulse
Generator
INPUT
CONT
OFF/ON
GND
CC
V
V
CC
OUTPUT
RL=
Ω
1k
CL=
15pF
8

XC74UL4066M CMOS Logic
!On Resistance
!Test Circuits
INPUT
CONT =VIH
V
CONT
ON
CC
V
V
CC
OUTPUT
!Voltage Dependancies of ON Resistance
R
ON
R
ONmax
R
(1)
ON
GND
V
1.0 mA
IN-OUT
V
R
ON =
IN-OUT
V
10
(Ω)
-3
V
0
9
V
CC
IN

XC74UL4066M CMOS Logic
!Power Off Leakage Current
!Test Circuits
V
CONT=VIL
V
CC
CONT
V
CC
V
CC
V
CC
!Power On Leakage Current
!Test Circuits
CONT=VIH
V
A
OFF
GND
V
CC
CC
V
CONT
A
ON
GND
V
CC
OPEN
10