TOREX XC74WL4066SR

CMOS Logic
◆CMOS Logic Dual Analog Switch/Multiplexer
■Applications
◆Operating Voltage Range : 2V ~ 5.5V
●Palmtops
◆High Speed Operations
●Digital Equipment
: tpd =1.5ns TYP
◆Low Power Consumption : 2µA (max)
◆Low ON Resistance
: Ron=22Ω TYP
◆MSOP-8B Package
■Description
■Features
XC74WL4066SR is Dual Analog Switch manufactured using silicon gate
CMOS processes. The small quiescent current, which is one of the
features of the CMOS logic, gives way to high speed operations which
enables LS-TTL.
With wave forming buffers connected internally, stabilized output can be
achieved as the series offers high noise immunity.
As the series is integrated into a mini molded, MSOP-8B package, high
density mounting is possible.
High Speed Operations : tpd = 1.5ns TYP (VCC=5V)
Operating Voltage Range : 2V ~ 5.5V
Low Power Consumption: 2µA (max)
■Pin Configuration
■Functions
I/O 1
1
8
VCC
O/I 1
2
7
CONT 1
CONT 2
3
6
O/I 2
GND
4
5
I/O 2
MSOP-8B
（TOP VIEW）
■Logic Diagram
13
I/O 1
CONT1
O/I 1
I/O 2
CONT2
954
O/I 2
Low ON Resistance
: 22Ω TYP
Small Package
: MSOP-8B
Control
State
L
H
OFF
OF
H = High Level
L = Low Level
XC74WL4066SR
■Absolute Maximum Ratings
PARAMETER
Power Supply Voltage
Ta=−40℃∼85℃
SYMBOL
RATINGS
UNITS
VCC
−0.5∼+6.0
Ｖ
Ｖ
Input Voltage
VCONT
−0.5∼+6.0
Output Voltage
Vi/o
−0.5∼VCC＋0.5
Ｖ
Input Diode Current
IIK
−20
mA
Output Diode Current
mA
IOK
±20
Switch Output Current
Ii/O
±25
mA
VCC, GND Current
ICC, IGND
±50
mA
Power Dissipation (Ta = 25℃)
Pd
300
mW
Storage Temperature
Tstg
−65∼＋150
℃
SYMBOL
CONDITIONS
UNITS
Supply Voltage
VCC
2∼5.5
Ｖ
Input Voltage
VCONT
0∼5.5
Ｖ
Output Voltage
Vi/o
0∼VCC
Ｖ
Operating Temperature
Topr
−40∼+85
℃
Note : Voltage is all Ground standardized.
■Recommended Operating Conditions
PARAMETER
tr, tf
Input Rise and Fall Time
0∼200（VCC=3.3V）
ns
0∼100（VCC=5V）
■DC Electrical Characteristics
Ta=−40∼85℃
MAX
MIN
MIN
Ta=25℃
TYP
MAX
2.0
1.5
−
−
1.5
−
3.0
2.1
−
−
2.1
−
5.5
3.85
−
−
3.85
−
2.0
−
−
0.5
−
0.5
3.0
−
−
0.9
−
0.9
5.5
−
−
1.65
−
1.65
VCONT=VIH
−
130
350
−
550
3.0
VIN=0∼VCC
−
22
50
−
65
4.5
IIN/OUT=1mA
−
12
25
−
35
2.0
VCONT=VIH
−
23
50
−
65
3.0
VIN=GND or VCC
−
14
30
−
40
4.5
IIN/OUT=1mA
−
10
20
−
25
2.0
VCONT=VIH
−
13
35
−
55
3.0
VIN=0∼VCC
−
3
6
−
8
4.5
IIN/OUT=1mA
−
2
4
−
6
Power Off Leakage Current IS(OFF)
5.5
VCONT=VIL, VIN=VCC, VOUT=GND
−
−
±0.1
−
±1.0
μA
Power On Leakage Current
IS(ON)
5.5
VCONT=VIH, VIN=VCC or GND
−
−
±0.1
−
±1.0
μA
Control Input Current
ICONT
0∼5.5
VIN=VCC or GND
−
−
±0.1
−
±1.0
μA
Quiscent Supply Current
ICC
5.5
VIN=VCC or GND
−
−
2.0
−
20.0
μA
PARAMETER
SYMBOL
"High" Level Control
Input Voltage"
VIH
"Low" Level Control
Input Voltage"
VIL
VCC（V）
2.0
Peak ON Resistance
ON Resistance
Switch ON Resistance
Differential
RONmax
RON(1)
△RON
CONDITIONS
UNITS
V
V
Ω
Ω
13
Ω
955
XC74WL4066SR
■Switching Electrical Characteristics
PARAMETER
SYMBOL
CL
−
2.5
12
−
15
−
2
4
−
5.5
5.0
−
1.5
3
−
4
tPHL
2.0
−
4
20
−
23
3.3
−
3
6
−
8
5.0
−
2
5
−
6
2.0
−
8.5
45
−
60
−
4.5
9
−
11
−
3.5
7.5
−
9
15pF
tZL
3.3
RL=1kΩ
5.0
tZH
2.0
50pF
3.3
RL=1kΩ
5.0
2.0
15pF
Output Disable Time
MIN
2.0
3.3
50pF
Output Enable Time
CONDITIONS
(tr=tf=3ns)
Ta=−40∼85℃
UNITS
MAX
MIN
tPLH
15pF
Propagation Delay Time
VCC（V）
Ta=25℃
MAX
TYP
3.3
RL=1kΩ
−
9
50
−
65
−
5
10
−
12
−
4
8.5
−
10
−
9
45
−
55
−
7
17
−
20
ns
ns
ns
ns
ns
tLZ
5.0
−
6
14
−
18
tHZ
2.0
−
12
60
−
75
−
10
23
−
27
−
8
20
−
25
−
0.05
−
−
−
％
−
200
−
−
−
MHz
RL=600Ω
−
−60
−
−
−
dB
2.0
RL=600Ω
−
60
−
−
−
3.0
fCONT=1MHz
−
100
−
−
−
−
150
−
−
−
50pF
3.3
RL=1kΩ
5.0
ns
RL=10kΩ
50pF
Sine Wave Distortion Rate
3.0
fIN=1kHz
RL=600Ω
50pF
-3dB Band Width
3.0
20log10
VOUT
=−3dB
VIN
Feed Through
50pF
(Switch-off)
Cross Talk
50pF
(Control Switch)
3.0
4.5
Cross Talk
50pF
(between Switches)
13
956
2.0
RL=600Ω
−
−60
−
−
−
3.0
fIN=1MHz
−
−60
−
−
−
mV
dB
4.5
−
−60
−
−
−
CCONT
−
−
−
5
10
−
10
pF
Switch Input/Output Capacitance CIN/OUT
−
−
−
6
−
−
−
pF
Control Input Capacitance
Feed Through Capacitance
CIN-OUT
−
−
−
0.5
−
−
−
pF
Power Dissipation Capacitance
Cpd
−
−
−
13
−
−
−
pF
XC74WL4066SR
■ON Resistance
■Typical Application Circuit
VCC
VCONT=VIH
CONT
VCC
ON
INPUT
OUTPUT
GND
RON=
VIN-OUT
10-3
(Ω)
1.0mA
V
VIN-OUT
■Voltage Dependancies of ON Resistance
RON
RONmax
RON(1)
VIN
0
VCC
13
957
XC74WL4066SR
■Power Off Leakage Current
VCC
VCONT=VIL
VCC
VCC
CONT
OFF
A
GND
VCC
■Power On Leakage Current
VCC
VCONT=VIH
VCC
VCC
CONT
A
ON
GND
13
958
OPEN
XC74WL4066SR
■Propagation Delay Time
■Typical Application Circuit
VCC
VCONT=VIH
INPUT
CONT
Pulse
Generator
VCC
ON
OUTPUT
GND
RIN=
50Ω
CL
■Waveforms
tf
tr
90%
50%
INPUT
VCC
90%
fIN=1MHz
tr=tf=3ns
50%
10%
10%
tPLH
GND
tPHL
VOH
OUTPUT
50%
50%
VOL
13
959
XC74WL4066SR
■Output Enable Time, Output Disable Time
■Typical Application Circuit
RIN=
50Ω
VCC
INPUT
Pulse
Generator
VCC
CONT
VCC
OUTPUT
ON
GND
RL=
1kΩ
CL
VCC
■Waveforms
tr
tf
90%
INPUT
VCC
90%
50%
fCONT=1MHz
tr=tf=3ns
50%
10%
10%
GND
tHZ
tZH
VOH
90%
50%
OUTPUT
VOL
tLZ
tZL
VOH
OUTPUT
13
960
50%
10%
VOL
XC74WL4066SR
■Sine Wave Distortion Rate
VCC
VCONT=VIH
VCC/2
INPUT
CONT
fIN
RL=
50kΩ
VCC
OUTPUT
ON
10μF
GND
CL=
50pF
* Input by sine wave
■-3dB Band Width
VCONT=VIH
VCC
INPUT
CONT
fIN
VCC
OUTPUT
ON
0.1μF
GND
RL=
600Ω
* Input by sine wave (VIN=0dBm, f=1MHz)
CL
13
961
XC74WL4066SR
■Feed Through Test Circuit
VCC
VCONT=VIL
VCC/2
INPUT
CONT
0.1μF
fIN
RL=
600Ω
VCC
OUTPUT
OFF
RIN=
50Ω
CL=
50pF
GND
RIN=
600Ω
VCC/2
* Input by sine wave (VIN=0dBm, f=1MHz)
■Cross Talk (Control Input → Switch Output)
■Typical Application Circuit
VCC
INPUT
Pulse
Generator
VCC/2
CONT
Vin
RL=
600Ω
VCC
OUTPUT
OFF/ON
CL=
50pF
GND
RIN=
600Ω
VCC/2
■Waveforms
13
tf
tr
VCC
90%
90%
fCONT=1MHz
duty cycle 50%
tr=tf=3ns
INPUT
10%
962
10%
GND
XC74WL4066SR
■Cross Talk (between Switches)
■Typical Application Circuits
VCONT=VIH
VCC
VCC/2
INPUT
RL=
600Ω
CONT VCC
0.1μF
fIN
OUTPUT1
ON
RIN=
600Ω
RIN=
50Ω
VCONT=VIL
CL=
50pF
GND
VCC/2
VCC
RL=
600Ω
INPUT
CONT VCC
fIN
OUTPUT2
OFF
RIN=
600Ω
GND
CL=
50pF
VCC/2
■Waveforms
tf
tr
VCC
90%
90%
fIN=1MHz
tr=tf=3ns
INPUT
10%
10%
GND
13
963